MhouseKit WS2S For power-operated swing gate
Contents
1. of the leafs In this phase the system reads the leaf opening angle from the mechanical closing stop through to the mechanical opening stop The presence of fixed and sufficiently strong mechanical stops is essential 01 Release the motors by means of the special keys see paragraph 11 3 User s Guide and move the leafs to mid travel so that they are free to move in the opening and closing directions then lock the motors 02 On the control unit press and release the key P3 B fig 23 wait for the control unit to perform the learning phase closure of motor M1 through to the mechanical stop closure of motor M2 through to the mechanical stop opening of motor M2 and motor M1 through to the mechanical stop complete closure of M1 and M2 If the first manoeuvre of one or both the leafs is not closure press to stop the learning phase invert the polarity of the motor s that opened the leaf inverting the two brown and blue wires on the termi nal If the first motor to close is not M1 press to stop the learning phase and invert the motor connections on the terminals During the learning phase if any device trips photocells key oper ated selector switch P3 pressed etc the learning phase is stopped immediately In this case the entire learning phase must be repeated If LED A fig 23 flashes at the end of the learning phase it means there is an error see paragraph 10 5 Troubles2. Discharge on closing Motor 1 Discharge on opening Motor 1 Discharge on closing Motor 2 Discharge on opening Motor 2 s DE 61 CHE 6 NI 02 Release 1 and 13 03 Press four times 10 1 2 Checking settings via a radio transmitter With a radio transmitter memorised in Mode 1 the user can check settings at any time for each parameter as follows To display the parameters see Table 5 01 Press 11 and 2 simultaneously on the radio transmitter for at least 5 s 02 Release the two keys 03 Within three seconds complete the action as specified in Table 5 according to the parameter to be modified 04 Release the key when the flashing light starts to flash 05 Count the number of flashes and according to the number check the corresponding value on Table 3 Example After pressing T1 and 2 for 5 s followed by T1 if the flashing light flashes three times the pause time is set at 40 s To display the parameters in Table 6 01 Press T1 and T3 simultaneously on the radio transmitter for at least 5 s 02 Release the two keys 03 Within three seconds complete the action as specified in Table 6 according to the parameter to be modified 04 Release the key when the flashing light starts to flash 05 Count the number of flashes and according to the number check the corresponding value on Table 4 TABLE 5 Action Press and hold T1 Press and hold T2 Press and hold
3. Only open command Only close command e Mode 2 each key can be associated to one of the four commands available If this mode is used appropriately 2 or more different automa tions can be controlled for example Only open Automation N 1 command Only close Automation N 1 command OPEN Automation N 2 command OPEN Automation N 3 command Obviously each transmitter is treated separately and for one single control unit there can be some transmitters memorised in mode 1 and others in mode 2 The overall maximum memory capacity is of 150 units mode 1 memori sation occupies one unit per transmitter while mode 2 occupies one unit per key 18 English Photocell Jumpers Photocell on right with activa D tion on opening Photocell on left with activa tion on opening Photocell h 100 cm triggered on opening and closure Caution As memorisation procedures have a time limit 10 s it is important to read the instructions in the next paragraphs before starting 10 4 1 Memorisation mode 1 01 Press key 1 fig 33 for at least 3 s When the LED 1 A fig 33 switches on release the key 02 Within 10 s press any one key on the transmitter for at least 3 s to memorise it If the memorisation procedure is successful the LED P1 will emit 3 flashes If there are other transmitters to be memorised repeat step 2 within the next 10 5 otherwis
4. 27 6 66 5 4 4 3 3 30 2 25 24 7 2 6 4 4 3 3 2 2 2 2 6 54 4 3 3 30 2 24 2 2 88 5 4 3 d4 28 2 2 2 18 li 66 E 5 8 19 e 2 S 2 58 t 6 ar TABLE B Maximum number of cycles using exclusively battery power K 125 K 150 K 175 K 200 K 225 K 250 K 275 10 3 ADDING OR REMOVING DEVICES An automation using WS2S enables devices to be added or removed at any time Caution Do not add devices before ensuring that they are fully compatible with WS2S for further details contact the MHOUSE technical assistance 10 3 1 ECSBus ECSBus is a system that enables connections of ECSBus devices using just two wires which convey both electrical power and communication signals All devices are connected in parallel on the same 2 wires of the ECSBus each device is recognised individually as it is assigned a unique address during installation Photocells and other devices using this system can be connected to ECSBus such as safety devices control buttons indicator lights etc For information on ECSBus devices refer to the MHOUSE catalogue or visit the website www mhouse com A special learning phase enables the control unit to recognise all con nected devices individually and enables precise diagnostics procedures For this reason each time a device connected to ECSBus is added or removed
5. Example of durability calculation automation of a gate with a leaf length of 1 8 m with weight of 120 kg for example in a location subject to strong winds Table 1 states the severity index values for this type of installation 25 Leaf length 10 Leaf weight and 15 Installa tion in windy zone These values must be added up to obtain the overall severity index which in this case is 50 With the value obtained 50 check the hori zontal axis of Graph 1 severity index for the corresponding value of manoeuvre cycles which our product can complete in its lifetime approx 55 000 cycles English 3 STEP 4 4 1 PRELIMINARY CHECKS FOR INSTALLATION 4 1 1 Establish the position of devices in the system With reference to fig 1 and 5 locate the approximate position for instal lation of each device envisaged in the system Fig 1 shows a system made using this product and other optional accessories in the Mhouse range These elements are positioned according to a typical standard layout The components are a 1 CL2S control unit b 1 FL100 flashing light with integrated aerial c 1 pair of PH100 photocells one TX and one RX d 1 KS100 key operated selector switch e 2 photocell posts fl 2 limit switch stops g 2 electromechanical gearmotors WS1SK WARNING Some of these devices are optional and may not be present in the kit see Mhouse product
6. PRODUCT DURABILITY The lifetime is the average economic duration of the product The value of lifetime is strongly influenced by the intensity of the manoeuvres i e the sum of all factors that contribute to product wear see Table 1 To esti mate the durability of your automation proceed as follows 01 Add up all the values in the items of Table 1 02 In Graph 1 from the value obtained above trace vertical line until it intersects the curve from this point trace a horizontal line until it intersects the line of the manoeuvre cycles The value obtained is the estimated lifetime of your product The lifetime values specified in the graph are only obtainable if the main tenance schedule is strictly observed see chapter 9 Maintenance schedule The estimation of lifetime is made on the basis of design cal culations and the results of tests performed on prototypes As it is only an estimation it does not represent any form of guarantee on the effective lifetime of the product wawas 1 Severityindex index Leaf length ws 1 5 Ix E 1 5 2 2m 25 Leaf weight gt 100 kg 10 gt 150 kg 25 Ambient temperature over 40 C or 20 lower than 0 C or humidity greater than 80 Solid leaf Installation in windy zone 15 GRAPH 1 125 000 100 000 Manouvre cycles 0 10 20 30 40 50 60 70 80 90 100 Severity index
7. Pause time the time for which the leafs remain open in the case of automatic closure 2 Pedestrian opening Pedestrian leaf opening mode 3 Motor force motor force over which the control unit recognises an obstacle and inverts movement 4 OPEN function sequence of movements associated with each OPEN command 5 Level of discharge of motor 1 on closing sets the duration of the brief inversion of the motor after a closing manoeuvre serving to reduce the final residual force 6 Level of discharge of motor 1 on opening sets the duration of the brief inversion of the motor after an opening manoeuvre serving to reduce the final residual force 7 Level of discharge of motor 2 on closing sets the duration of the brief inversion of the motor after a closing manoeuvre serving to reduce the final residual force 8 Level of discharge of motor 2 on opening this sets the duration of the brief inversion of the motor after execution of the opening manoeuvre with the aim of reducing the final residual force The parameter setting operation can be made with any of the radio transmitters provided they are memorised in mode 1 such as those supplied see paragraph 10 4 1 Memorisation mode 1 If there is no transmitter memorised in mode 1 a single one may be mem orised for this phase after which it must be deleted immediately see paragraph 10 4 4 Deleting a radio transmitter CAUT
8. In conformity with Directive 2006 42 EC APPENDIX Il part A EC declaration of conformity for machinery The undersigned company name or company name of the person responsible for commissioning of the power ope rated gate Hereby declares under his her sole responsibility that the automation power operated swing gate Complies with the essential requirements of the following directives 2006 42 EC Machinery Directive 2004 108 EEC Electromagnetic compatibility directive 2006 95 EEC Low Voltage Directive 1999 5 EC R amp TTE Directive and what is provided for by the following harmonised standards EN 12445 Industrial commercial and garage doors and gates Safety in use of power operated doors Test methods EN 12453 Industrial commercial and garage doors and gates Safety in use of power operated doors Requirements English 31 Downee Exclusive Australian Distributor Customer Service 03 9364 8288 See downee com au for your state office Tech Support 1800 241 733 techsupport downee com au downee com au Mhouse commercial trademark owned by Nice S p a Nice S p a Via Pezza Alta 13 2 1 Rustigne 31046 Oderzo TV Italia Tel 39 0422 85 38 38 Fax 39 0422 85 35 85
9. T3 Press and hold T4 Parameter Pause Time Pass door Motor force OPEN function TABLE 6 10 2 OPTIONAL ACCESSORIES As well as the devices in WS2S there are a number of optional acces sories which may be used to integrate the automation system PR1 24 V buffer battery in the event of a mains power failure this guar antees at least 10 complete cycles PF 24 V solar power system useful in cases in which there is no electrical mains power PT50 Pair of columns height 500 mm with photocell PT100 Pair of columns height 1000 mm with two photocells For information on the new accessories refer to the MHOUSE catalogue or visit the website www mhouse biz 10 2 1 Installing the PR1 buffer battery fig 29 CAUTION The electric connection of the battery to the control unit must only be made after completing all installation and programming phases as the battery constitutes an emergency power supply To install and connect the buffer battery PR1 to the control unit refer to fig 29 and the PR1 instruction manual When the automation is powered by the buffer battery 60 seconds after a manoeuvre is completed the control unit automatically switches off the output ECSbus and all connected devices output Flash and all leds with the exception of the ECSbus led which flashes at slower intervals this indicates the Standby function When the control unit receives a command it restores no
10. between the line with the weight and the column with the opening 16 English manoeuvre is completed the control unit automatically switches off the output ECSbus and all connected devices output Flash and all leds with the exception of the ECSbus led which flashes at slower intervals this indicates the Standby function When the control unit receives a command it restores normal operation with a short delay This function is used to reduce consumption an important factor when the unit is pow ered by photovoltaic panels angle of the gate leaf The box contains the value of the severity index K for each manoeuvre e g WS2S with a leaf of 180 Kg and opening of 100 K 106 Opening angle lt 95 B 200 95 105 B 130 Leaf weight 105 110 B 70 lt 75 Kg 75 120 Kg 120 150 Kg 150 180 Kg value B specified in the table represents the optimal value if B is a lower val ue add 20 to value K specified in the table 06 On the table A below select the box corresponding to the intersec tion between the line with the Ed value and the column with the val ue The box contains the maximum possible number of cycles per day e g Ed 2800 and K 106 cycles per day 22 If the number obtained is too low for the envisaged use or is located in the area not recommended for use the use of 2 or more photovoltaic pan els may be considered or the use of a photovoltaic panel
11. cable supplied with one of adequate length To connect the cable to the gearmotor control unit proceed as follows WARNING The power line must be fitted with a disconnect device that ensures com plete shut off of power to the automation The disconnect device must have contacts with a sufficient gap to ensure complete disconnection in compliance with the overvoltage category Ill according to the installation instructions If necessary this device guarantees quick and safe discon nection from the mains power and therefore must be positioned in sight of the automation If located in a concealed position it must be equipped with a system that prevents inadvertent or unauthorised reconnection of power to avoid potential hazards The disconnect device is not supplied with the product 01 Ensure that the gearmotor plug is not inserted in the mains socket 02 Disconnect the electric cable on the gearmotor from the power ter minal 03 Loosen the collar fig 21 present below the terminal and extract the electric cable Replace it with the permanent electric power cable 04 Connect the electric cable to the gearmotor power terminal fig 21 05 Tighten down the collar to secure the electric cable 7 2 INITIAL CHECKS After powering up the control unit perform the following checks 01 Ensure that the led ECSBus A fig 22 flashes regularly with the frequency of 1 flash per second 02 Ensure that the LED SAFE
12. catalogue Warnings e The gearmotor must be anchored to the ground laterally to the gate using the relative fixing plate e The fixed control devices must be positioned in sight of the automation far from moving parts at a height of at least 1 5 m from the ground not accessible by the public 4 1 2 Establish the position of all connection cables Refer to the instructions in paragraph 4 2 to establish the layout of the raceways for electric cable ducting 4 1 3 Ensure all equipment and materials for work are available Before starting work ensure that you have all equipment and materials required to complete the work Ensure that all items are in good condition and comply with local safety standards 4 1 4 Completing the set up work Prepare the area for subsequent installation of the devices completing all preliminary work such as digging of raceways for protection ducting of electric cables external ducting may be used as an alternative laying of protection ducting and embedding in concrete sizing of all electric cables to required length see paragraph 4 2 and routing in protection ducting Caution In this phase do not make any electrical connections Warnings e The hoses and ducting serve to protect electrical cables and prevent accidental damage in the event of impact e When laying pipelines take into account the risk of possible deposits of water in the branch wells where condensate m
13. flashes separated The same signal as for the flashing light see Table 12 by a pause Quick flash ECSBus short circuit An overload has been detected therefore the power to the ECS Bus switched off Check by disconnecting the devices one at a time To restore power to the ECSBus simply send a command for example with a radio transmitter LED STOP I Off STOP input activated Check the devices connected to the STOP input On Everything OK STOP input active gt On OPEN input activated This is normal only if the device connected to the OPEN input is active English 21 LED P1 D Status Action mum 10 s from 1 to 4 mum 10 s 5 quick flashes Deletion OK Deletion of a transmitter successfully completed 1 slow flash Command received from a transmitter which is not memorised 3 slow flashes Memorisation OK Memorisation successfully completed 5 slow flashes Deletion OK All radio transmitters successfully deleted Everything OK Low speed selected Everything OK High speed selected 1 flash per second The learning phase has not been carried Some faulty devices may be present check and if necessary out or there are errors in the memory data repeat the device learning phase see paragraph 10 3 3 Learning other devices 2 flashes per second Device learning procedure underway It shows that the search for connected devices is underway it lasts maximum a few seconds Everything OK Cycle operation Ev
14. normally if there is the consent of the safety devices otherwise the command must be activated and held within 3 seconds 02 After about 2 s the door will move in hold to run mode in other words until the command is pressed the door will con tinue to move the door will stop as soon as the command is released In the event of safety devices out of service arrange for repairs to the automation immediately In case of fault of the gearmotor the motor release can be used to check whether the fault is in the release mechanism 01 Turn the release cap cover anti clockwise until it coincides with the hole with the release pin 02 Insert the key in the release pin 03 Turn the key anti clockwise by about 90 until the gate is released 04 Then move the gate manually 05 reset the automation turn the key clockwise and at the same time move the gate until you hear the carriage engage 06 Remove the key and close the release cap cover by turning it clockwise 11 4 Maintenance operations admissible to the user The list of operations to be regularly carried out by the user is list ed below e For cleaning the surfaces of the devices use a slightly damp not wet cloth Never use substances containing alco hol benzene diluents or other flammable substances Use of these substances may damage the devices and cause fires or electric shocks e Disconnect the automation from the power supply before removing l
15. they are not supplied in the pack and are not part of the Mhouse product range L Metal hardware Note Some devices and accessories specified in the manual are option al and may not be present in the kit For a complete description refer to the Mhouse product catalogue or visit the website www mhouse com STEP 3 1 CHECKING SUITABILITY OF GATE TO BE AUTOMATED AND RELATIVE ENVIRONMENT e Ensure that the mechanical structure of the gate complies with current national standards and that it is suitable for automation For this check refer to the information specified on the gate dataplate Important This product cannot be used to automate a gate that is not already effi cient and safe furthermore it cannot solve defects caused by incorrect gate installation or poor maintenance Manually move the gate in both directions opening closing and ensure that friction is constant throughout travel there must be no points of increased or decreased force If the leaf is fitted in a pedestrian pass door or a door onto the leaf movement area ensure that this door does not obstruct normal travel and install a suitable interlock device if necessary Manually move the gate to any position leave it stationary and ensure that it does not move when left Ensure that the space around the site of gearmotor installation enables safe and easy manual gate release Ensure that the selected surfaces for installation of the va
16. B fig 22 on the photocells is flashing both on TX and RX the type of flash is not important as this depends on other factors it is important that it is not off or perma nently lit 03 Ensure that the night time light C fig 22 on the KS100 key operat ed selector switch is on 04 If these events do not occur disconnect the control unit from the power supply and check the cable connections again with care For other useful information refer also to chapters 10 5 Troubleshooting and 10 6 Diagnostics and signals 7 3 RECOGNITION OF THE CONNECTED DEVICES On completion of initial checks the control unit must be able to recognise the devices connected on the terminals ECSBus and STOP 01 On the control unit press and hold P2 A fig 22 for at least 3 sec onds then release 02 Wait a few seconds for the control unit to complete the device learn ing phase 03 At the end of the learning phase the STOP led B fig 22 must remain lit while the LED P2 C fig 22 should turn off If the LED P2 flashes it means there is an error see paragraph 10 5 Trou bleshooting The phase for learning connected devices can be repeated at any time also after installation for example if a photocell is added simply repeat the procedure from point 01 7 4 LEARNING THE GATE LEAF OPENING AND CLOSING ANGLES After learning devices the control unit must recognise the opening angles PROGRAMMING
17. C WS1SK GTX4 PH100 and FL100 are produced by Nice S p a TV l MHOUSE S r l is a commercial trademark owned by the group Nice S p a Note The contents of this declaration correspond to declarations in the official document deposited at the registered offices of Nice S p a and in particular to the last revision available before printing this manual The text herein has been re edited for edi torial purposes A copy of the original declaration for each product can be requested from Nice S p a TV I Number 369 WS2S Revision Language EN Manufacturer s Name NICE S p A Address Via Pezza Alta N 13 Rustigne 31046 Oderzo TV Italy Person authorised to compile the technical documentation Sig Oscar Marchetto Product type Electromechanical gearmotor with accessories Model Type WS1SC WS1SK GTX4 PH100 FL100 Accessories The undersigned Luigi Paro in the role of Managing Director declares under his sole responsibility that the above mentioned products conform to the requirements of the following directives e VS1SC and GTX4 models conform to the Directive 1999 5 EC OF THE EUROPEAN PARLIAMENT AND COUNCIL of the 9th March 1999 regarding radio equipment and telecommunications terminal equipment and the mutual recognition of their con formity according to the following harmonised standards Health protection art 3 1 EN 50371 2002 Electric safety art 3 1 a EN 60950 1 2006 Electromagnetic com
18. ELLS PH100 9 11 5 REMOTE CONTROL BATTERY REPLACEMENT 29 6 2 INSTALLING AND CONNECTING THE FLASHING LIGHT FL 100 9 11 6 REMOTE CONTROL BATTERY REPLACEMENT 29 PROGRAMMING STEP 7 11 7 1 POWER SUPPLY CONNECTION 7 2 INITIAL CHECKS 11 11 7 3 LEARNING CONNECTED DEVICES 7 4 LEARNING THE GATE LEAF OPENING AND CLOSING ANGLES 7 5 CHECKING THE RADIO TRANSMITTERS 11 11 11 7 6 SETTING TESTING AND COMMISSIONING STEP 8 8 1 TESTING 11 12 12 8 2 COMMISSIONING 12 APPENDIX 2 EC declaration of conformity 31 English 1 GENERAL SAFETY WARNINGS AND PRECAUTIONS STEP 1 Safety warnings e CAUTION This manual contains important instructions and warnings for personal safety Incorrect installation could cause seri ous physical injury Carefully read all parts of this manual before starting any work If in doubt Suspend installation immediately and contact the Mhouse Technical Assistance CAUTION Important instructions keep this manual in a safe place to enable future product maintenance and disposal proce dures CAUTION According to the most recent European legislation the production of a power operated door or gate must comply with the standards envisaged in the Directive 2006 42 EC Machinery Directive and in particular standards EN 12445 EN 12453 EN 12635 and EN 13241 1 which enable declaration of presumed conformity of the automatio
19. ION When making settings via a transmitter the control unit must be allowed sufficient time to recognise the command via radio in practice English 13 the keys must always be pressed and released slowly pressing for at least on the gate Excessive force settings may impair safety system opera one second releasing for one second and so on tion or cause damage to the gate To program the parameters see Table 3 e If the Motor force control is used in support of the system for impact force reduction after each adjustment the force measurement proce dure must be performed as envisaged by standard EN 12445 e Weather conditions can influence gate movement new adjustments may be required periodically 01 Press 1 and 2 simultaneously fig 27 on the radio transmitter for at least 5 s 02 Release the two keys 03 Within three seconds complete the action as specified in Table 6 according to the parameter to be modified To program the parameters see Table 4 Example to set the pause time at 40 s 01 Press T1 and T3 simultaneously fig 28 on the radio transmitter for 01 Press and hold the keys 11 and T2 simultaneously for at least 5 s at least 5 s seconas 02 Release the two keys 03 Within three seconds complete the action as specified in Table 4 according to the parameter to be modified 02 Release 1 and T2 03 Press 11 three times All parameters can be adjusted as required without any contra
20. MhouseKit WS2 C For power operated swing gate Ready for Solar Power LI Installation instructions and warnings and User Manual ISOOO4A00EN 28 03 2011 CONTENTS GENERAL SAFETY WARNINGS AND PRECAUTIONS MAINTENANCE STEP 1 2 STEP 9 13 KNOWLEDGE OF THE PRODUCT AND PREPARATION FOR PRODUCT DISPOSAL 13 INSTALLATION STEP 2 FURTHER INFORMATION 2 1 PRODUCT DESCRIPTION AND INTENDED USE STEP 10 13 2 2 COMPONENTS USED TO SET UP A COMPLETE SYSTEM 10 1 ADVANCED SETTINGS 13 10 2 OPTIONAL ACCESSORIES 15 PRELIMINARY CHECKS FOR INSTALLATION 10 3 ADDING OR REMOVING DEVICES 17 STEP 3 3 10 4 MEMORIZING ALL RADIO TRANSMITTERS 18 3 1 CHECKING SUITABILITY OF GATE TO BE AUTOMATED AND 10 5 TROUBLESHOOTING 20 RELATIVE ENVIRONMENT 40 6 DIAGNOSTICS AND SIGNALS 20 3 2 PRODUCT APPLICATION LIMITS 3 3 TECHNICAL SPECIFICATIONS OF PRODUCT COMPONENTS 23 STEP 4 4 4 1 PRELIMINARY CHECKS FOR INSTALLATION A 4 2 PREPARING ELECTRIC CABLES 4 APPENDIX 1 EC declaration of conformity 27 INSTALLATION ASSEMBLY AND CONNECTION USER S GUIDE OF COMPONENTS STEP 11 28 STEP 5 6 11 1 SAFETY INSTRUCTIONS 28 5 1 INSTALLING THE GEARMOTOR WS1SK WS1SC 6 11 2 GATE CONTROL 28 11 3 MANUALLY RELEASING OR LOCKING THE GEARMOTOR 28 STEP 6 11 4 MAINTENANCE OPERATIONS ADMISSIBLE TO THE USER 29 6 1 INSTALLING AND CONNECTING PHOTOC
21. able Minimum section values Max admissible length cable 3 x 1 5 mm cable 2 x 0 5 mm RG58 shielded cable type A Power line B FLASH flashing light output C Radio aerial 30 m note 1 20m 20 m less than 5 m recommended cable 2 x 0 5 mm cable 2 x 0 5 mm D input output ECSbus E STOP input 20 m note 2 20 m note 2 F OPEN input cable 2 x 0 5 mm 20 m note 2 G Motor output M1 and M2 cable 3 x 1 mm 10m Note 1 If the power cable is longer than 30 m a cable with a larger section is required e g 3x2 5 mm and safety earthing is necessary in the vicinity of the automation Note 2 For cables of ECSbus and those of the STOP and OPEN inputs a single cable with multiple internal wires may be used to combine several connections for example the STOP and OPEN inputs can be connected to the KS100 selector switch with a cable of 4 x 0 5 mm CAUTION The cables used must be suited to the installation environment for example a cable type HO3VV F is recommended for indoor environments and a cable type HO7RN F for outdoor environments is recommended 4 English ys Bu3 English 5 INSTALLATION ASSEMBLY AND CONNECTION OF COMPONENTS STEP5 IMPORTANT The following assembly phases show installation of a gearmotor mod el WSTSK WSTSC To ensure correct system operation mechanical stops must be mounted on the floor or wall at the maximum leaf open
22. ates a receiver antenna for remote control Indicator light with 12V 21W lamp controlled by the control units for MHOUSE automations 12V 21W fitting BA15 vehicle type lamp The device can only be connected to the terminals FLASH and AERIAL of the MHOUSE automation control units 20 50 C No Horizontal on a flat surface or vertical wall mounted IP55 120 x 60 h 170mm 285g GTX4 Transmitters Product Type Adopted technology Frequency Encoding Keys Radiated power Power supply Battery life Ambient operating temperature Use in particularly acid saline or potentially explosive atmospheres Protection rating Dimensions weight Radio transmitters for remote control of automations for automatic gates and doors Encoded AM OOK radio modulation 433 92 MHz 64 Bit rolling code 18 billion billion combinations 4 each key can be used for different commands of the same control unit or to control different control units 0 001 W approx 20 40 with 1 lithium battery CR2032 3 years estimated on the basis of 10 commands day lasting 1s at 20 C battery efficiency is redu ced at low temperatures 20 50 C No IP40 use in the home or protected environments 50 x 50h 17mm 169 English 25 APPENDIX 1 CE Declaration of Conformity Declaration in accordance with the Directives 1999 5 CE R amp TTE 2004 108 CE EMC 2006 42 CE MD Appendix Il part B WS1S
23. ation to be released and normal operation to resume 10 4 3 Remote memorisation A new radio transmitter can be memorised on the control unit without having to use the unit itself It is sufficient to have an OLD working and memorised radio transmitter The NEW radio transmitter will inherit the characteristics of the OLD one in other words if the old one is memorised in Mode 1 then the NEW one will also be memorised in Mode 1 in this case during the memorisation phase press any one key on the two trans mitters If the OLD radio transmitter is memorised in Mode 2 press the key with the required command on the OLD transmitter and press the key on the NEW transmitter with which you wish to associate the new com Take the two transmitters and position yourself within the action range the automation and follow the following steps 01 Press the key on the NEW radio transmitter for at least 5 s then release it 02 Press the key on the OLD radio transmitter slowly 3 times Press the key on the NEW radio transmitter slowly once At this point the NEW radio transmitter will be recognised by the control unit and will take on the characteristics of the OLD one Repeat these steps for each new transmitter to be memorised 10 4 5 Deleting all radio transmitters 10 4 4 Deleting a radio transmitter This procedure deletes all memorised transmitters It is necessary to have a radio transmit
24. ay form in the pipelines and the control unit with possible damage to the electronic circuits e Position the ends of the ducting at the points envisaged for fixture of the various components 4 2 PREPARING ELECTRIC CABLES To prepare all connection cables proceed as follows a Refer to fig 5 to check the connections of the various devices to the control unit and terminals to be used for each connection Important Only devices using ECSbus technology can be connected to the terminal ECSbus b Refer to fig 1 to check positions of the electrical cables in the area Then draw a similar diagram on paper adapting it to specific require ments of your system Note This diagram will be useful to establish the route of the raceways for cable ducting and to draw up a com plete list of the cables required c Read Table 2 to determine the type of cables to be used then refer to the diagram drawn above and on site measurements to determine the length of each cable Caution No cable must exceed the specific maximum length stated in Table 2 WARNING ECSbus technology enables the interconnection of devices using a single bus cable with 2 internal electrical wires Con nection of several devices can be in the configuration cascade star or the latter two combined combined a cascade TABLE 2 Technical specifications of electric cables Connection Type of c
25. bles in the relative FLASH and aerial termi nals as shown in the figure To facilitate operations remove termi nals make connections then refit the terminals No polarity needs to be observed on the FLASH terminal while in the case of the shielded cable connection of the aerial the sheath must be connected 07 Insert the lamp holder in the base taking care to press it down so that it locks into place 08 Secure the body of the flashing light to the fixing Support and turn it left until it clicks into place then secure by means of the screw English 9 10 English Au STEP7 7 1 POWER SUPPLY CONNECTION WARNINGS The power cable is in PVC and is designed for installation indoors If installed outdoors the entire cable must be covered with a protection ducting Otherwise the cable can be replaced with a HO7RN F version Final connection of the automation to the electrical mains or replacement of the cable supplied must be made exclusively by a qualified and skilled electrician in observance of the cur rent safety standards and the following instructions e For automation operation tests and programming use the cable supplied inserting the plug in an electrical socket Ifthe socket is far from the automation an extension may be used in this phase e For the automation testing and commissioning phase the con trol unit must be permanently connected to the power mains replacing the
26. d by the person who programmed the automation 11 3 Manually releasing or locking the gearmo tor fig 40 WS1SK WS1SC are equipped with a mechanical system that enables manual opening and closing of the gate i e as if there is not a gearmotor The manual operation must be carried out in case of power failure or system malfunction In case of power failure the buffer battery can be used optional accessory 1 28 English e Suspend the use of the automation immediately as soon as you notice something abnormal in the operation noises or jolting movements failure to follow this warning may cause serious danger and accidents e Do not touch moving parts e Regular maintenance checks must be carried out by quali fied personnel according to the maintenance plan e Maintenance or repairs must only be carried out by quali fied technical personnel e With selector optional accessory The selector has two positions with automatic return to the centre fig 39 Action Turned right OPEN Turned left STOP Stops movement of the sectional or up and over door 2 This item must be compiled by the person who programmed the automation e Control with safety devices out of service In the event of safety devices malfunctioning or out of service the door may still be moved 01 Activates the gate command with remote control or key operated selector switch The door will open
27. e the memorisation phase will end automati cally 10 4 2 Memorisation mode 2 With Mode 2 transmitter memorisation each key can be associated with any one of the commands shown in table 10 In Mode 2 each key requires its own memorisation phase 01 If the transmitter to be memorised is already memorised Such as the transmitters supplied which are already memorised in mode the transmitter must be deleted following the procedure described in 10 4 4 Deleting a radio transmitter 02 Press key P1 B fig 33 on the control unit the number of times equal to the required command according to Table 9 e g 3 times for the Only open command Check that LED 1 A fig 33 flashes quickly for a number of times equal to the command selected 04 Within 10 s press the required key on the radio transmitter for at least 2 s to memorise it If the memorisation procedure is successful the LED P1 will emit 3 slow flashes 05 If there are other transmitters to be memorised for the same type of command repeat step 03 within the next 10 s otherwise the memo risation phase will end automatically TABLE 9 Once OPEN Command Activates the automation as described in Table 3 Open function Twice Pedestrian opening command Activates partial opening of one or two leafs as described in Table 3 Pedestrian opening Three times Only open command Activates opening of the leafs open stop open etc Fo
28. eaves or stones to stop anyone activating the door e Regularly check the system in particular the cables springs and supports and check for signs of unbalance wear or damage Do not use the automation if it needs to be repaired or adjusted as a fault or an incorrectly balanced door may cause injuries 11 5 Remote control battery replacement fig 41 When the battery charge is low the transmitter range is reduced significantly When a key is pressed if led L1 illuminates and then immediately fades and turns off this means that the battery is completely discharged and must be replaced immediately Otherwise if led L1 illuminates briefly this means that the battery charge is low in this case press and hold the key for at least half a second to enable the transmitter to attempt delivery of the com In any event if the battery charge is too low to complete a command and wait for a response led L1 fades and the trans mitter turns off In these cases to restore normal operation of the transmitter replace the old battery with a new version of the same type taking care to observe the specified polarity The batteries contain pollutant substances do not dispose of them with normal waste material follow the instructions foreseen by local regulations 11 6 Installing the remote control support To install the remote control support see fig 42 English 29 APPENDIX 2 CE DECLARATION OF CONFORMITY
29. eck operation of all system safety devices one at a time photo cells sensitive edges etc In particular each time a device trips the ECSBus led on the control unit emits a longer flash to confirm con 12 English trol unit recognition of the event To test photocells and in particular that there is no interference with other devices pass a cylinder fig 26 diameter 5 cm length 30 cm through the optic axis first close to the TX and then the RX and then mid way between the two Ensure that in all cases the device engages changing from the active status to alarm status and vice versa then ensure that the action envisaged is performed on the control unit during closure inverts movement 05 Measure the force as specified in the standard EN 12445 If the motor force control is used as an auxiliary function for reduction of impact force test and identify the setting that obtains the best results 8 2 COMMISSIONING Commissioning can only be performed after positive results of all test phases Partial or makeshift commissioning is strictly prohibit ed 01 Produce the technical documentation of the automation which must include at least the following documents overall layout drawing e g fig 1 electrical wiring diagram e g fig 5 risk assessment and solutions adopted manufacturer s declaration of conformity for all devices used use appendix 1 EC declaration of conformity for com pone
30. econd pause a commana if the condition persists it means there is a serious fault 7 flashes and the electronic board must be replaced 8 flashes A command is already present that disables Check the type of command that is always present for example it 1 second pause execution of other commands could be a command from a timer on the open input 8 flashes 9 flashes The automation is blocked Release the automation by giving to the control unit the release 1 second pause automation command 9 flashes 10 6 3 Control unit The LEDs on the control unit provide particular signals to report on the normal operation and on possible faults see Table 13 TABLE 13 fig 37 Fault Check that the unit is powered check that the fuses have not been activated if this is the case check the cause of the fault and replace them with other fuses with the same characteristics Serious fault There is a serious fault switch off the control unit for a few sec onds if the status persists there is a fault and the electronic board must be replaced One flash per second Everything OK Control unit works correctly 2 long flashes Inout status variation A variation to the status of the inputs OPEN STOP activation of the photocells or when the radio transmitter is used is normal 1 flash every 5 seconds Robotics in standby mode Everything OK when the control unit receives a command normal operation is restored with a short delay Series of
31. erything OK Complete cycle operation 1 slow flash There is no memorised opening angle Perform the learning phase see chapter 3 5 2 Learning the leaf opening and closing angles 2 slow flashes Opening angle learning phase is underway Opening angle learning phase is underway or it could be in Standby mode 22 English TECHNICAL SPECIFICATIONS OF PRODUCT COMPONENTS The product WS2S is produced by Nice S p a TV Mhouse is a company part of the NICE S p a group In order to improve its products NICE S p a reserves the right to modify the technical characteristics at any time without prior notice In any case the manufacturer guarantees their functionality and fitness for the intended purposes Note all technical specifications refer to a temperature of 20 C Model type Product Type Adopted technology Maximum start up torque Nominal torque No load speed Speed at nominal torque Maximum frequency of cycles Maximum time continuous cycle Application limits Mains power supply WS1C WS1 Nominal absorbed power Rated current absorption Backup power supply Flashing light outpu ECSBus output OPEN input STOP input Radio Aerial input Max cable length Ambient operating temperature Use in particularly acid saline or potentially explosive atmospheres Assembly Protection rating Dimensions weight Possibility of remote control Compatible GTX4 transmitters GTX4 transmitter
32. f accessories 6 To install gearmotor WS1SK repeat the entire procedure described in this paragraph 5 1 Make electrical connections Refer to figure 18 and step 6 6 English _ MEN 00 rm MAN English 7 Yellow Green 8 English STEP 6 6 1 INSTALLING AND CONNECTING PH100 PHOTOCELLS fig 19 Warning all installation operations must be performed with the system disconnected from the power supply if fitted the PR1 backup battery must also be disconnected Warnings Take care not to damage the o ring fitted fig 19 3 A Select the position of the two elements making up the photocell TX and RX observing the following e Place them at a height of 40 60 cm from the ground to the sides of the zone to be protected and as close as possible to the edge of the gate i e no further than 15 cm e There must be a raceway tube at the point envisaged for routing cables e Point the transmitter TX at receiver RX with a maximum tolerance of 5 01 Remove the front glass panel fig 19 1 02 Position the photocell at the point where the cable routing tube arrives 03 Trace the drilling points using the base as a reference Use a percus sion drill to drill the wall with a 5 mm tip and insert 5 mm plugs 04 Route the electric cables through the specific holes pierce those required see fig 19 2 05 Fix
33. f this is used in hold to run mode ensure that there are no persons in the vicinity of the automation In the vicinity of the automation children must be supervised to ensure that they do not play with it Ensure that there are not points of entrapment or crushing with fixed parts when the gate leaf is in the maximum opening or closing position protect parts if necessary e The product may not be considered an efficient system of protection against intrusion If an efficient protection system is required the automation must be integrated with other safety devices e The automation must not be used before performing the commissioning procedure as specified in the chapter Testing and commissioning Check the automation frequently to ensure there is no imbalance signs of wear or damage to electrical or mechanical parts Do not use the automation if adjustments or repairs are necessary In the event of long periods of disuse to avoid the risk of leaks of harm ful substances from the optional battery PR1 disconnect it from the automation and store in a dry location Do not allow children to play with fixed control devices Keep remote control devices out of reach of children e The product s packaging materials must be disposed of in full compli ance with local regulations Operation warnings e For cleaning the product surfaces use a soft damp cloth Use water only never use detergents or solvents for cleanin
34. g KNOWLEDGE OF THE PRODUCT AND PREPARATION FOR INSTALLATION NOTES TO MANUAL This manual describes how to set up a complete and optimal automation such as that shown in fig 1 using all Mhouse devices that are part of the automation system named WS2S Some of these devices are optional and may not be present in the kit For a complete overview of the devices refer to the MHouse product catalogue This manual has been drawn up as a step by step guide There fore to ensure safe and facilitated assembly and programming procedures perform all operations described in the same order as specified in this document 2 English STEP 2 2 1 PRODUCT DESCRIPTION AND INTENDED USE The devices in this kit plus other accessories some optional and not included in the pack form the automation system named WS2S designed for the automation of a residential swing gate Any other use than as specified herein or in environmental conditions other than as stated in this manual is to be considered improper and is strictly pro hibited The main part of the automation comprises an electromechanical gearmo tor fitted with a 24 V de motor with helical teeth gear it is fitted with a mechanical key release which enables manual movement of the gate in the event of a power failure The gearmotor is equipped with a control unit that manages operation of the entire automation The control unit com prises a board a
35. hooting The phase for learning the opening angles can be repeated at any time also after installation for example if one of the opening stops is moved simply repeat the procedure from point 1 7 5 CHECKING THE RADIO TRANSMITTERS To check transmitters simply press one of its 4 keys ensure that the LED flashes and that the automation performs the associated command The command associated with each key depends on the mode in which they were memorised see paragraph 10 4 Memorising radio transmit ters The transmitters supplied are already memorised and the keys when pressed send the following commands fig 24 Key T1 OPEN command Key 2 Pedestrian opening command Key T3 Only open command Key T4 Only close command 7 6 SETTINGS 7 6 1 Selecting the leaf speed Leaf opening and closing can be at two speeds low or high To change from one speed to another briefly press key P2 B fig 25 the corresponding led P2 A fig 25 will turn on or off when the led is off the speed setting is low when the led is on the speed setting is high 7 6 2 Selecting the operating cycle Gate opening and closing can be performed in two different operating modes e Single cycle semi automatic with one command the gate opens and remains open until the next command which activates closing e Complete cycle automatic closure with one command the gate
36. ice in a European country with an official language different from the one of this dec laration the importer must attach the translation of this document to the declaration e The partly completed machinery must not be put into service until the final machinery into which it is to be incorporated has been declared in conformity with the provisions of directive 2006 42 EC In addition the products WS1SC and WS1SK conform to the following standards EN 60335 1 2002 A1 2004 A11 2004 A12 2006 A2 2006 A13 2008 EN 60335 2 103 2003 The products WS1SC and WS1SK conform within the constraints of applicable parts to the following standards EN 13241 1 2003 EN 12445 2002 EN 12453 2002 EN 12978 2003 Oderzo 11 november 2010 Ing Luigi Paro Managing Director poe 1 English 27 USER S GUIDE STEP 11 This guide must be stored safely and be accessible to all automa tion Users 11 1 Safety instructions e Keep at a safe distance from the moving door until it is completely open or closed do not go through the door until it is completely open and has come to a standstill e Do not allow children to play near the door or with the con trols e Keep the transmitters away from children 11 2 Gate Control e With radio transmitter The radio transmitter supplied is ready for use and the four keys have the following functions fig 38 Function This table must be compile
37. ient operating temperature Use in particularly acid saline or potentially explosive atmospheres Assembly Protection rating Dimensions weight Indicator light FL100 Product Type Adopted technology Lamp Power supply Ambient operating temperature Use in particularly acid saline or potentially explosive atmospheres Assembly Protection rating Dimensions weight 24 English Presence detector for automations of automatic gates and doors type D according to standard EN 12458 comprising a transmitter TX and receiver RX Optical by direct interpolation of TX RX with modulated infra red rays Opaque objects located on the optical axis between TX and RX larger than 50 mm and moving slower than 1 6 m s 20 approx 20 approx 10 m for maximum TX RX misalignment 5 the device can signal an obstacle even in the event of particularly adverse weather conditions The device can only be connected to the ECSBus networks from which it receives mains power and sends the output signals 1 ECSBus unit Up to 20 m observe warnings regarding the minimum section and type of cables UP to 7 detectors with protection function and 2 with opening command function Automatic synchronisation prevents interference between the various detectors 20 50 C No Vertical wall mounted IP44 64 x 89 2 h 29 mm 60 o Flashing indicator light for automations of automatic gates and doors The device incorpor
38. indications only the Motor force setting may require special attention Example to set discharge on closing of motor 2 on level 4 e Do not use force values to compensate for anomalous points of friction 01 Press and hold the keys 1 and simultaneously for at least 5 s TABLE 3 Parameters Action operation to be performed at point 3 of the settings phase Press T1 once ress T1 twice ress T1 three times ress 1 four times pening of 1 leaf to mid travel ress T2 once otal opening of 1 leaf ess 2 twice artial opening of 2 leafs to 1 4 of travel ress 12 three times artial opening of 2 leafs to mid travel ress 12 four times ess T3 once ress T3 twice ress T3 three times ess 14 four times Open Stop Close Stop ress T4 once Open Stop Close Open ress T4 twice ress T4 three times ress TA four times Pause Time SILENTE E y gt ro OOOO N N N N gt ES O 4 Pedestrian opening I E Motor force lt edium low edium high a L lt 5 OPEN function 5 Factory setting TABLE 4 alue Actions to be performed Te 1 s Minimum 75 Medium 7 s Maximum o discharge 1 s Minimum Zs Medium 7 Maximum o discharge Ts Minimum 6 45 Medium 7 s Maximum o discharge 1 5 Minimum 0 4 s Medium 0 7 s Maximum Factory setting 14 English Parameters
39. ing and closing points Note These stops are not supplied in the pack and are not part of the Mhouse product range WARNINGS e Incorrect installation may cause serious physical injury to those working on or using the system e Before starting automation assembly make the preliminary checks as described in STEP 3 5 1 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 INSTALLING THE GEARMOTOR WS1SC Ensure that the fixing surface is perfectly smooth level and sufficiently compact WS2S is not supplied with fixing devices which must be chosen also on the basis of the fixing surface material Prepare one or more duct tubes for routing the electric cables fig 6 With reference to value B obtained from table 6 place the gearmo tor fixing plate no the fixing surface in the envisaged position check ing that at the positions in fig 7 8 at the point where the arm fixing bracket is to be positioned that there is a suitable surface Trace the drilling points using the plate as a reference and drill the surface to insert the 4 plugs of at least 8 mm not supplied Fix the plate using suitable screws A and washers B fig 9 Ensure that the plate is perfectly level fig 10 Otherwise an offset arm could cause malfunctions of the automation fig 11 Prepare the gearmotor inserting washer D in arm C then tighten fixing screw E Take care to place the ar
40. lie vengono emessi dei TABLE 12 1 flash ECSbus error At the beginning of the manoeuvre the devices present do not cor 1 second pause respond with those recognised check and eventually carry out the 1 flash learning procedure 10 3 3 Recognition of other devices One or more devices may be faulty check and if necessary replace them 2 flashes Photocell activated At the start of the manoeuvre one or more photocells do not enable 1 second pause movement check to see if there are any obstructions During the 2 flashes movement if there is an obstruction no action is required 3 flashes Gearmotor force limiting device activated During the movement the gate experienced excessive friction 1 second pause identify the cause 3 flashes 4 flashes STOP input activated At the start of the manoeuvre or during the movement the STOP 1 second pause input was activated identify the cause 4 flashes 5 flashes Error on internal parameters in electronic control Wait at least 30 seconds and then try giving a command if the 1 second pause unit condition persists it means there is a serious fault and the electronic 5 flashes board must be replaced 6 flashes Maximum limit of manoeuvres per hour exceed Wait a few minutes until the manoeuvre limiting device falls to below 1 second pause ed the maximum limit 6 flashes 7 flashes Internal electric circuit error Disconnect all power circuits for a few seconds and then try giving 1 s
41. m towards the front section fig 12 Fix the gearmotor to the plate by means of the screws F and lock nuts G fig 13 Using the pins supplied H and relative safety rings I fix the curved arm to the straight arm and leaf connecting bracket to the curved arm fig 14 Turn the leaf to the gate closed position Manually release the gearmotor see paragraph 11 3 User s guide and secure the leaf connecting bracket to the gate at the point fur thest from the column extending the arms to the maximum limit Fig 11 Fix the bracket using screws suited to the leaf material Turn the leaf to the required gate open position Place the limit switch against the straight arm L and tighten the two screws M ful ly down fig 15 Loosen screw N securing the straight arm to the gearmotor and insert the protection cover P between the straight arm and washer O Refit the previously removed screw and tighten it fully down fig 16 Manually complete a number of leaf opening and closing cycles to ensure that the rack slides smoothly along the pinion throughout the entire length Manually unlock the gearmotor see paragraph 11 3 User s guide Remove the top cover of the gearmotor and using a screwdriver push the closure hook inside the release ring nut and pull the cover upwards fig 17 Before closing the gearmotor cover make the electrical connections Refer to fig 18 in paragraph 5 2 and Step 6 electrical connection o
42. n In consideration of this all mains connection testing commissioning and maintenance operations must be performed exclusively by a qualified and skilled techni cian All preliminary set up installation and programming operations may be performed by personnel with standard skills provided that all instructions and the relative sequences in this manual are strictly observed with particular reference to the warnings in this STEP 1 Installation warnings While reading this manual take care to observe all instructions marked with the following symbol These symbols indicate subjects that may be the source of potential hazards and therefore the prescribed operations must be performed exclusively by qualified and skilled personnel in observance of these instructions current safety standards e Before installation ensure that this product is suitable for automation of your gate or door see STEP 3 and chapter Product Technical Specifi cations If not suitable do NOT proceed with installation e On the system power mains install a device for disconnection not sup plied to guarantee a gap between contacts and complete disconnec tion in the conditions of overvoltage category Ill e All installation and maintenance operations must be performed with the automation disconnected from the power supply If the power disconnect device is not visible from the location of the automa tion before work a notice should be affixed
43. nce output will guarantee the fail safe category 3 As with the ECSBus the control unit recognises the type of device con nected to the STOP input during the learning phase subsequently the control unit gives a STOP command when it detects a variation with respect to the learned state 10 3 3 Recognition of other devices The learning operation of the devices connected to the ECSBus and STOP input is usually carried out during the installation phase if devices are added or removed the learning operation can be carried out again as follows 01 Press and hold key P2 B on the control unit for at least three sec onds fig 31 then release the key 02 Wait a few seconds for the control unit to complete the device learn ing phase 03 At the end of the learning phase the LED P2 A fig 31 should switch off If the LED P2 flashes it means there is an error see para graph 10 5 Troubleshooting 04 After having added or removed a device the automation test must be carried out again as specified in paragraph 8 1 Testing 10 3 4 Adding optional photocells Additional photocells to those supplied with the WS2S can be installed at any time In systems for the automation of sliding gates they must be installed as shown in fig 32 In order for the control unit to correctly recognise the photocells they must be assigned with addresses using special electric jumpers The address assignment operation must be carried o
44. nd if necessary select a higher immediately followed by an force as described on page 21 inversion The manoeuvre is carried out but e During the manoeuvre ensure that there is voltage on the FLASH terminal of the flashing light as this is the flashing light is not working intermittent the voltage value is not significant approx 10 30 Vac if voltage is present the problem is due to the lamp which should be replaced with an identical version TABLE 11 STATUS ACTION The photocell is not powered or it is faulty Check that the voltage on the photocell terminals is of about 8 12 Vdc if the voltage is correct then the photocell is probably faulty Repeat the learning procedure on the control unit Check that all the photocell pairs on ECSBus have different addresses see Table 8 The RX receives a poor signal Normal operation but check TX RX alignment and correct The RX receives a bad signal At the limit of normal operation check TX RX alignment and correct cleaning of photocell lenses The RX does not receive any signal Check for any obstruction between TX and RX Check that the LED on the TX flashes slowly Check TX RX alignment 20 English 10 6 2 Segnalatore lampeggiante lampeggi con frequenza maggiore mezzo secondo i lampeggi si ripeto Il segnalatore lampeggiante durante la manovra esegue un lampeggio no due volte separati da una pausa di un secondo vedere Tabella 12 ogni secondo quando accadono delle anoma
45. nd incorporated radio receiver which receives the com mands sent by the user via a transmitter It can memorise up to 256 GTX4 transmitters if memorised in Mode and up to 6 pairs of PH100 photocells Connection of the control unit with the various devices is by means of a single 2 wire cable ECSbus system The control unit can also be mains powered 230 V or alternatively by the Mhouse PF photovoltaic system If powered from the mains it can house a buffer battery model PR1 optional accessory which ensures that the automation can perform a number of manoeuvres for several hours in the event of a power failure During the power failure or at any other time the gate leaf can be moved manually if required by first releasing the gearmotor using the relative key see chapter 11 3 User s Guide 2 2 COMPONENTS USED TO SET UP A COMPLETE SYSTEM Fig 2 illustrates all components used to set up a complete system such as that shown in fig 1 1he components are A 2 electromechanical gearmotors WS1SK with fixing brackets 2 fixing plates C release keys D 1 pair of PH100 photocells one TX and one RX E 2 protection caps F 2 radio transmitters G 1 FL100 flashing light with integrated aerial H Fixing brackets and curved anti shear arms the screws required for fixing the slotted arms are not supplied as they depend on the material and thickness of the leaf I 2 limit switch stops
46. nts of WS2S Affix a dataplate on the door specifying at least the following data type of automation name and address of manufacturer responsible for commissioning serial number year of construction and CE mark Permanently attach to the gate the label supplied in the pack regard ing the procedure for manual locking release of the gearmotor Compile and provide the automation owner with the declaration of conformity use appendix 2 Prepare and provide the automation owner with the User s guide for this purpose appendix 3 User s guide may be used as an example chapter 11 3 Prepare and provide the owner with the form Maintenance sched ule containing all maintenance instructions for all devices in the automation Before commissioning the automation ensure that the owner is ade quately informed of all associated risks and hazards MAINTENANCE 9 Maintenance must be performed in strict observance of the safety provisions in this manual and according to current legislation and standards The automation devices do not require special maintenance However a check should be performed at least every six months to ensure complete efficiency of all devices For this purpose the tests and checks envisaged in paragraph 8 1 Test ing should all be performed as well as all procedure in the paragraph Maintenance operations permitted for the user If othe
47. oeuvres A simple calculation enables an estimate of the maximum number of cycles per day performed by the automation in a certain period of the year provided that a positive energy balance is maintained The first step in calculating the energy available is dealt with in the PF instruction manual the second step in calculating the energy con sumed and therefore the maximum number of cycles per day is dealt with in this chapter Calculating the energy available To calculate the energy available refer also to the PF instruction manual proceed as follows 01 On the terrestrial map supplied in the PF kit instruction manual locate the point of system installation then read the value Ea and the degrees of latitude of this location E g Ea 14 and degrees 45 N 02 On the graphs North or South supplied in the PF kit instruction man ual locate the curve for the location s latitude e g 45 N 03 Choose the period of the year on which to base the calculation or select the lowest point of the curve to calculate the worst period of the year then read the corresponding value Am e g December Jan uary Am 200 04 Calculate the value of energy available Ed produced by the panel multiplying Ea x Am Ed e g Ea 14 Am 200 therefore Ed 2800 Calculating the energy consumed To calculate the energy consumed by the automation proceed as follows 05 On the table below select the box corresponding to the intersection
48. of operation or eventually a malfunction 10 6 1 Photocells The photocells contain a LED SAFE A fig 36 that provides informa tion at any moment on the state of operation see Table 11 TABLE 10 fig 35 Symptoms Probable cause and possible solution The radio transmitter does not e Check whether the batteries are flat and if necessary replace them page 36 emit any signal the LED A does not light up The manoeuvre does not start e Check that the power supply cable is correctly inserted in the mains socket and the LED e Check that the fuses E and F have not been activated if this is the case check the cause of the fault ECSBus does not flash and replace them with other fuses with the same characteristics The manoeuvre does not start e Check that the command is actually received If the command reaches the OPEN input the relevant LED and the flashing light is off OPEN D should light up if a radio transmitter is used the LED ECSBus should emit two long flashes The manoeuvre does not start e Check that the STOP input is active in other words that the LED STOP C is on If this is not the case and the flashing light flashes check the device connected to the STOP input e The photocell test carried out at the beginning of each manoeuvre is negative check the photocells and refer to Table 11 The manoeuvre starts but is e The force selected is too low to move the gate Check for obstructions a
49. on the disconnect device with the text CAUTION MAINTENANCE IN PROGRESS e CAUTION Never power up the motor before fully installed on the column and leaf of the gate During installation handle the automation with care avoiding the risk of impact dropping or contact with any type of liquid Never place the product near to sources of heat and never expose to naked flames This may damage product components and cause malfunctions fire or haz ardous situations If this occurs Suspend installation immediately and contact the Mhouse Technical Assistance Never make modifications to any part of the product Operations other than as specified can only cause malfunctions The manufacturer declines all liability for damage caused by makeshift modifications to the product If the power cable is damaged it must be replaced exclusively by a qualified technician to avoid potential risks Connect the control unit to an electric power line equipped with an earthing system This product is not designed to be used by persons including children whose physical sensorial or mental capacities are reduced or with lack of experience or skill unless suitable instructions regarding use of the product have been provided by a person responsible for safety The key operated selector switch must be positioned in sight of the automation but far from moving parts and at a height of at least 1 5 m from the ground not accessible by the public I
50. opens and closes again automatically after a short interval for the time interval see paragraph 10 1 Parameter settings via radio transmitter To change from one mode to another briefly press key fig 23 the corresponding led A fig 23 will turn on or off when the led is off the cycle is single when the led is on the cycle is complete English 11 TESTING AND COMMISSIONING 8 These are the most important phases when setting up an automation in order to guarantee maximum safety Testing can also be used as a periodic check of devices in the automa tion Testing of the entire system must be performed by skilled and quali fied personnel who are responsible for the tests required to verify the solutions adopted according to the risks present and for ensur ing observance of all legal provisions standards and regulations with particular reference to all requirements of the standard EN 12445 which establishes the test methods for testing automations for power operated gates 8 1 TESTING 01 Ensure that all instructions and warnings in STEP 1 have been strictly observed 02 Using the selector or radio transmitter test gate opening and closing and ensure that leaf movement corresponds to the envisaged com mands Test several times to assess smooth operation of the gate and check for any defects in assembly or adjustment and any possi ble points of friction Ch
51. patibility art 3 1 b EN 301 489 1 V1 8 1 2008 EN 301 489 3 V1 4 1 2002 Radio spectrum art 3 3 EN 300 220 2 V2 1 2 2007 In accordance with the directive 1999 5 EC appendix V the product GTX4 is class 1 and marked C 0682 e Models WS1SC WS1SK PH100 FL100 conform to DIRECTIVE 2004 108 CE 108 EC OF THE EUROPEAN PARLIA MENT AND COUNCIL of 15th December 2004 regarding the approximation of member state legislation related to electromag netic compatibility repealing directive 89 336 according to the following harmonised standards EN 61000 6 2 2005 EN 61000 6 3 2007 In addition the products WS1SC and WS1SK conform to the following directive according to the requirements for partly com pleted machinery 2006 42 EC Directive OF THE EUROPEAN PARLIAMENT AND COUNCIL of 17 May 2006 regarding machinery repealing direc tive 95 16 EC e We hereby declare that the relevant technical documentation has been compiled in conformity with Annex VII B of directive 2006 42 EC and that the following essential requirements have been satisfied 1 1 1 1 2 1 1 3 1 2 1 1 2 6 1 5 1 1 5 2 1 5 5 1 5 6 1 5 7 1 5 8 1 5 10 1 5 11 e The manufacturer undertakes to transmit in response to a reasoned request by the national authorities relevant information on the partly completed machinery without prejudice to intellectual property rights of the manufacturer e Should the partly completed machinery be put into serv
52. r devices are present follow the instructions in the relative mainte nance schedule no manutenzione PRODUCT DISPOSAL This product is an integral part of the automation and therefore must be disposed together with the latter As in installation also at the end of product lifetime the disassembly and scrapping operations must be performed by qualified personnel This product is made of various types of material some of which can be recycled while others must be scrapped Seek information on the recy cling and disposal systems envisaged by the local regulations in your area for this product category Caution some parts of the product may contain pollutant or hazardous substances which if disposed of into the environment may cause serious damage to the environment or physical health As indicated by the symbol alongside disposal of this product in domestic waste is strictly prohibited Separate the waste into categories for disposal according to the methods envisaged by current legislation in your area or return the product to the retailer when purchasing a new version Caution Local legislation may envisage serious fines in the event of abusive disposal of this product FURTHER INFORMATION STEP 10 10 1 ADVANCED SETTINGS 10 1 1 Parameter settings via radio transmitter The radio transmitter can be used to set a number of control unit operat ing parameters there are eight parameters 1
53. rious devices are solid and guarantee a stable fixture as regards photocells select a flat surface that guarantees correct alignment between photocells Tx and Rx e Ensure that all devices to be installed are in a sheltered location and protected against the risk of accidental impact 3 2 PRODUCT APPLICATION LIMIT Before proceeding with installation perform the following checks in the specified sequence and ensure conformity both with the data in this paragraph and the technical data provided in the chapter Technical Specifications 1 Ensure that the dimensions and weight of the gate are within the fol lowing limits of use WS2S maximum length 2 2 maximum weight 200 kg Opening angle 110 On the basis of the leaf opening angle fig 6 that it is possible to observe the values specified in the graph of fig 4 On the basis of value B and the leaf opening angle in the table val ue A can be calculated For example if B is equal to 100 mm and an opening of 100 is required A must be approximately 180 mm 2 Check the overall dimensions of the gearmotor fig 3 Note These measurements also serve as a reference to calculate the space occupied by the foundation pit for routing the electrical cable duct ing 3 Ensure that the estimated lifetime is compatible with the intended use see paragraph 3 3 4 Ensure that all limits conditions and warnings in this manual can be observed 3 3
54. rmal operation with a short delay This function is used to reduce consumption an important factor when the unit is pow ered by battery English 15 ar LY 10 2 2 Installing the PF solar power supply system fig 30 CAUTION When the automation is powered exclusively by the solar power system PF IT MUST NEVER BE POWERED at the same time by the mains To connect the PF solar power system to the control unit refer to fig 30 and the PF instruction manual When the automation is powered by the solar panel 60 seconds after a 10 2 3 Maximum possible number of cycles per day This product is specifically designed to operate also with the PF solar power supply system Special technical provisions have been envisaged to minimise energy consumption when the automation is stationary by turning off all devices not essential to operation for example photocells and the key operated selector switch In this way all energy available and stored in the battery is used to move the gate Caution When the automation is powered by the solar power system PF IT MUST NEVER BE POWERED at the same time by the mains Application limits maximum possible number of cycles per day within a set period of the year The PF solar power system enables complete power autonomy of the automation until the energy produced by the photovoltaic panel and stored in the battery remains above the amount consumed during gate man
55. s range Programmable functions Self programmed functions WS1SC WS1SK Electromechanical gearmotor for the automation of automatic gates and doors with built in control unit complete with radio receiver for GTX4 transmitters 24 motor helical gear reducer mechanical release A transformer incorporated inside the motor but separated from the control unit reduces the mains voltage to the nominal 24 V voltage used in the whole automation system 150 Nm 50 Nm 1 7 RPM 1 4 RPM 30 cycles hour at 50 C About 10 minutes The structural design of this product makes it suitable for use on gates with a weight up to 200 kg or leaf width up to 2 2 m Opening angle 110 230 V 10 10 50 60Hz 24 120 W on start up maximum current is 310 W for a maximum time interval of 2 s 1 1A on start up maximum current is 3 5 A for a maximum time interval of 2 s For PR1 buffer batteries For flashing lights with 12 V maximum 21 W bulb 1 output with maximum load of 15 ECSBus units For normally open contacts closure of the contact prompts the OPEN command For normally open and or 8 2KQ constant resistance type contacts or normally closed contacts with self learning of the normal status a variation with respect to the memorised status generates a STOP command 500 for RG58 or similar type cable Mains power supply 30 m inputs outputs 20 m with antenna cable preferably less than 5 m obser
56. ter to delete it If the transmitter is memorised in Mode 1 one single deletion phase is suf ficient and at point 3 any key can be pressed If the transmitter is memo 01 Press and hold key 1 fig 34 on the control unit 02 Wait for LED P1 A fig 34 to switch on then off and then flash 3 times rised in Mode 2 a deletion phase must be carried out for each key 3 Release key Pi precisely when the LED flashes the third time 01 Press and hold key P1 fig 34 on the control unit 4 Wait about 4 s for deletion to be completed during which the LED 1 02 Wait for the LED P1 A fig 34 to switch on and within three sec will emit quick flashes onds Press the key on the radio transmitter to be deleted for at least three seconds If deletion is successful LED P1 will emit five quick flashes If LED P1 emits one slow flash it means that the deletion has not been completed because the transmitter is not memorised 04 To delete other transmitters keep key P1 pressed and repeat step 3 within 10 seconds otherwise the deletion procedure will end auto matically If the procedure is successful after a few moments the LED P1 will emit 5 slow flashes English 19 10 5 TROUBLESHOOTING 10 6 DIAGNOSTICS AND SIGNALS Table 10 gives possible indications on how to deal with malfunctions that may be met during installation or due to a fault Some devices directly provide particular signals to describe the state
57. the base using the relative screws of fig 19 3 ensuring that the hole on the base C of fig 19 3 is aligned with the cable outlet 2 self tapping screws are also supplied for fixture on surfaces with a different density 06 Connect the electrical cable in the relative terminals of both TX and RX fig 19 4 Connect the electrical cable in the relative terminals of both TX and RX fig 19 5 and to the blue terminal on the control board No polarity needs to be observed 07 Fix the covering shell D of fig 19 6 with the two screws E of fig 19 6 using a Phillips screwdriver Lastly insert the external cover F in fig 19 6 pressing it slightly to secure in place 6 2 INSTALLING AND CONNECTING THE FLASHING LIGHT FL100 fig 20 Select the position of the flashing light so that it is in the vicinity of the gate in a visible location It can be fixed on either a horizontal or vertical surface Fig 20 shows the two options 01 Remove the cover unscrewing the screw if present 02 Separate the base unscrewing the screws present to route the elec tric cables 03 Trace the drilling holes using the base as a reference and ensuring that the hole on the base is aligned with the cable outlet vertical fix ture A or horizontal fixture 04 Use a percussion drill to drill the wall with a 6 mm tip and insert 6 mm plugs 05 Fix the base using the relative screws 06 Connect the electric ca
58. the learning phase must be performed on the control unit see paragraph 10 3 3 Learning other devices 10 3 2 STOP Input STOP is the input that causes immediate shutdown of the movement fol lowed by a brief inversion of the manoeuvre This input can be connect ed to devices with contact types Normally Open NO as in the case of the KS100 selector switch Normally Closed NC or devices with a con stant resistance of 8 2 kQ such as sensitive edges When set accordingly more than one device can be connected to the STOP input also different from one another see Table 7 TABLE 7 UE 1 device type In parallel In series 5 gt 2 gt z N note 1 series note 3 In parallel In series Note 1 The NO and NC combination can be obtained by placing the two contacts in parallel and placing an 8 2k resistance in series with the NC contact it is therefore possible to combine 3 devices NO NC and 8 2kQ Note 2 Any number of NO devices can be connected to each other in parallel Note 3 Any number of NC devices can be connected to each other in series Note 4 Only two devices with an 8 2 constant resistance output can be connected in parallel multiole devices must be connected in cas cade with a single 8 2 kQ termination resistance note 4 Caution If the STOP input is used to connect devices with safety functions only the devices with 8 2 kQ constant resista
59. ur times Only close command Activates closing of the leafs close stop close etc Five times Stop command Stops the manoeuvre Six times Apartment block open command On opening the command has no effect and on closing inverts movement i e opening of the leafs l inversione del movimento cio l apertura delle ante Seven times High priority open command Gives command even when automation is blocked Eight times Pedestrial opening 2 command Activates partial opening of the leaf M2 equal to approx mid travel Nine times Pedestrial opening 3 command Activates partial opening of the two leafs equal to approx mid travel Ten times Open block automation command It causes an opening manoeuvre after which the automation is blocked The control unit accepts no further commands with the exception of Open high priority and Release automation Eleven times Close block automation command It causes a closure manoeuvre after which the automation is blocked The control unit accepts no further commands with the exception of Open high priority and Release automation Twelve times Block automation command It causes the manoeuvre to stop and the automation to block The control unit accepts no further commands with the exception of Open high priority and Release automation Thirteen times Unblock automation command It causes the autom
60. ut on both TX and RX placing the electric jumpers in the same way and it is important to check that there are not any other pairs of photocells with the same address The photocell address assignment operation is necessary for them to be correctly recognised among the other devices of the ECSBus and to assign them their function 01 Open the housing of the photocell 02 Identify the position in which they are installed according to Figure 70 and place the jumper according to Table 8 English 17 Unused jumpers must be placed in the special compartment for future use fig 33 03 Carry out the learning phase as described in paragraph 10 3 3 Re cognition of other devices TABLE 8 Photocell Jumpers Photocell h 50 cm triggered on closure Photocell h 100 cm trig gered on closure Photocell h 50 cm triggered on opening and closure 10 4 MEMORIZING ALL RADIO TRANSMITTERS The control unit contains a radio receiver for GTX4 transmitters the trans mitter included in the box is already memorised and ready to use There are two ways of memorising a new transmitter e Mode 1 in this mode the radio transmitter is used as a whole i e all the keys carry out a preset command the transmitter supplied with the WS2 is memorised using Mode 1 Obviously a radio transmitter in mode 1 can only control one single automation that is OPEN Command Pedestrian opening command
61. ve warnings regarding the minimum section and type of cables 20 50 C NO Horizontal on a flat surface with the specific fixing plate IP54 237 x 146 h 290 mm 6 5 kg 237 x 146 h 290 mm 6 2 kg With GTX4 transmitters the control unit is set to receive one or more of the following commands OPEN Partial Opening Only Open and Only Close Up to 150 if memorised in mode 1 50 100 m This distance may vary in the presence of obstacles and electromagnetic disturbance present and is influenced by the position of the receiving antenna built into the flashing light Single cycle or Complete cycle automatic closure operating mode Motor speed low or high Pause time in complete cycle selectable from 10 20 40 and 80 seconds Type of partial opening selectable from 4 modes Obstacle detection system sensitivity selectable on 4 levels OPEN command operating mode selectable on 4 modes Self learning of devices connected to the ECSBus output Self learning of type of STOP device NO NC or 8 2 resistance contact Self learning of the opening angle for each motor Self learning og the automation with 1 or 2 motors English 23 Photocells PH100 Product type Adopted technology Detection capacity TX transmission angle RX reception angle Useful range Power supply output Absorbed power Max cable length Possibility of address assignment Amb
62. with a higher power Contact the Mhouse technical assistance service for further infor mation The method described enables the calculation of the maximum possible number of cycles per day that can be completed by the automation while running on solar power The calculated value is considered an average value and the same for all days of the week Considering the presence of the battery which acts as an energy storage depot and the fact that the battery enables automation autonomy also for long periods of bad weath er when the photovoltaic panel produces very little energy it may be pos sible to exceed the calculated maximum possible number of cycles per day provided that the average of 10 15 days remains within the envis aged limits Table B below specifies the maximum possible number of cycles accord ing to the manoeuvre s severity index K using exclusively the energy stored by the battery It is considered that initially the battery is complete ly charged e g after a prolonged period of good weather or recharging via the optional PCB power supply unit and that the manoeuvres are per formed within a period of 30 days When the battery runs out of the stored energy the led starts to indicate the battery low signal by flashing briefly every 5 seconds accompanied by a beep TABLE A Maximum possible number of cycles per day 75 100 125 150 175 200 225 250 275 300 gt 325 28
Download Pdf Manuals
Related Search