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ESYLUX - ESYLUX is a medium-sized family company that is active today with twelve subsidiaries and 17 experienced trading partners all over the world, in Europe, Asia, Australia, the Middle East, South Africa and South America. In Germany, ESYLUX is firmly anchored in three-stage sales and maintains partnerships on an equal footing, both with the electrical wholesale trade and with the trade. The company ESYLUX develops, produces and sells electrotechnical products for more energy efficiency, comfort and safety in buildings. The presence and motion detectors, outdoor lights, emergency lights and smoke detectors bear the 'German Engineering' seal of quality and have made a name for themselves all over the world because of their high quality. ESYLUX products are characterized above all by easy handling, high-quality workmanship, modern design and high energy efficiency. ESYLUX relies on technological progress. In order to meet this requirement, the company set up its own research and development department in 2007. Since then, more than 100 property rights and patents have been registered and today stand for innovative and energy-efficient solutions in building technology. The company also relies on networks and contributes its own know-how to cooperations and initiatives. One focus of the development work is on installation- and user-friendly solutions for greater energy efficiency in buildings. Because the easiest way to save energy is not to use it in the first place. ESYLUX also brings this simple principle to the market. The ESYLUX company also provides information and qualifications for partners, for example with the ESYLUX Academy. Excellently trained employees who have both technical and commercial know-how are a key component of the ESYLUX success story. Last but not least, our customers and partners also benefit from this. Take advantage of the opportunity to find the quality products you want in the extensive ESYLUX online catalog at eibabo in the online shop!

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Surge protector - electr. - Are you looking for a surge arrester for your electrical installation? But you are still not sure what requirements such a device has to meet? Then read on here. In order to understand why a surge arrester is useful, you must be aware of the dangers associated with voltage spikes or surges. Even if these events are rare and only last a few milliseconds, they can still result in major damage. We therefore always recommend a surge protector to prevent the loss or damage of sensitive electronic equipment. We will help you to choose the right item.What are surge arresters?Overvoltage protection devices are of great importance in electrical engineering. These are used to limit and divert overvoltages in electrical lines and sensitive devices such as computers, televisions or hi-fi systems. But how does overvoltage occur? The normal mains voltage in Germany is 230V. Overvoltages go well beyond this value and are caused, for example, by lightning strikes, short circuits, electrostatic discharges or switching operations by the network operator. The consequences of such an event depend on the magnitude of the overvoltage, the speed of the voltage pulse and its duration. Failure to set up protective measures can result in fire, explosion and personal injury.The surge arresters (Surge Protective Devices SPD) are installed in the distribution board or in the sub-distribution boards and connected between the active conductors and earth. Surge arresters are usually designed as pluggable modular devices or as devices for mounting on top-hat rails and some are equipped with a fault indicator. In this eibabo® catalogue, we present the devices that are used for overvoltage protection and are therefore part of the internal lightning protection of a building.Lightning protection and effective surge protectionIn order to be able to decide on a specific surge arrester, you should know the entire structure of an effective system for protection against lightning and surge voltage. Such a system usually consists of several parts. This can quickly get a little confusing. We give a small overview.Already knew?We distinguish between surge protection and lightning protection. Surge protection devices are designed to protect against damage caused by excessive voltage. Lightning protection systems, on the other hand, are intended to protect against damage caused by excessive currents.A few definitions of terms in advance:Lightning is high-energy and carries very high lightning currents. In the case of overvoltages, the currents and energy are small, but the charge difference between two potentials is very large. In order to counteract these dangers completely, such a system consists of three parts:the external lightning protectionthe internal lightning protectionthe overvoltage protection In this context, different categories and protection classes are often mentioned, which laypeople quickly confuse. These include:Lightning protection classes (I-IV)Buildings are divided into four lightning protection classes in order to be able to assess the risk of lightning strikes. The class in which a building is to be classified depends on its type, use and the damage to be expected. The lightning protection class determines the structure and dimensioning of the lightning protection system.Overvoltage Categories (I-IV)The four overvoltage categories describe the surge resistance of electronic devices. This specification therefore refers to end devices such as laptops (category I), toasters (category II), residual current circuit breakers (category III) or primary overcurrent protection devices (category IV). Look in the operating instructions of the respective device. The tolerability to power surges is low for electrical devices of category I and is 1500 volts. Category IV devices can handle up to 6000 volts.Surge Protection (Type 1, Type 2, Type 3)Surge protection devices (e.g. surge arresters) are divided into coarse protection, medium protection or fine protection. Which type a device is to be assigned to depends primarily on the voltage levels that it can absorb. This results in the respective area of application.Image: Dehn DG M TNS 275 DEHNguard surge arresterThe external lightning protectionExternal lightning protection consists of lightning conductors, lightning arrestors, earthing, fastenings and so on. Just this much: The external lightning protection intercepts direct lightning strikes before they hit the building. The high lightning current is discharged directly into the ground via the grounding system. In principle, there is no obligation to install external lightning protection systems in Germany unless your building:stands free on a mountainis over 20 meters highhas a combustible roof (e.g. made of thatch, straw)has public transport (theater, swimming pool) But even if your building does not meet any of these criteria, a lightning conductor is always useful, because the damage can be enormous in the event of a strike. You can find more information about external lightning protection, grounding and installation as well as purchasing here in the shop. Simply use the appropriate terms in the input field of our intelligent search.The internal lightning protectionThere is no denying that lightning and other surge voltages are dangerous. In order to protect apartments, houses, industrial plants and the devices and systems they contain, effective internal lightning protection and overvoltage protection is required. The internal lightning protection is a potential equalization in which all metal pipe installations and all cable installations in a house are connected to each other and to the main earthing bar. This prevents voltage differences, lightning flashovers in the building and the resulting danger to people and technology.The overvoltage protectionOvervoltage protection is part of the internal lightning protection. When choosing a suitable surge protector, we consider the nature of the potential interference and the type of equipment to be protected. How much energy does a possible overvoltage have? Which devices are particularly sensitive to voltage pulses due to their design? A current device for overvoltage protection has a three-stage structure and thus optimally protects buildings, systems and devices from damage. This includes, among other things, a combination of different surge arresters adapted to the respective requirements. definitionThe term 'transient' is rare in German usage. It means that something is temporary, fleeting and impermanent. There are different requirement classes for overvoltage protection devices. A distinction is made between Type 1 (general protection), Type 2 (medium protection) or Type 3 (fine protection). The standard devices represent the fine protection and protect against voltages up to a certain level, the extended devices offer additional protection against transient voltage peaks and the high protection standard also protects against impulse currents. But what does it exactly mean?Type 1 overvoltage protection is called a lightning arrester. This is suitable for deriving high lightning currents via the internal or external lightning protection system. The residual voltage is reduced to a level between 6000 volts and 1300 volts. These devices are ideally installed in front of the house installation so that the lightning current does not even get into the distribution. However, this basic protection is not yet sufficient to secure the end devices.Type 2 overvoltage protection represents medium protection and reduces the residual lightning voltages from the upstream lightning arresters to values between 2000 volts and 600 volts. These include the surge arresters offered in this category. These are installed, for example, in the sub-distributors of individual floors. Surge arresters also limit dangerous transient overvoltages caused by switching motors, transformers, circuit breakers or inductive loads. Disturbances of this type are short-lived, cause the voltage to rise very quickly, and can occur more frequently. The interference causes electronic devices to wear out faster.Type 3 overvoltage protection further reduces the remaining overvoltage and is installed as fine protection as close as possible to the end devices to be protected.What should you pay attention to when buying a surge arrester?You now know what parts make up a lightning protection system with overvoltage protection. Surge protection has been a mandatory part of an electrical system in Germany since December 2018 and must be installed in new buildings. Include this topic in the planning of your building or system and pay attention to high-quality components. Don't skimp on security. Retrofitting is also advisable for older buildings, because there are more and more devices with sensitive electronics in our households. When buying, pay particular attention to:mounting typeRated voltage AC/DCHighest continuous voltage for AC and DCnumber of polesprotection leveland other properties A comparison with your electrical installation and your evaluation of the protection needs of certain sensitive devices in your possession will help you to find the right surge arrester. Save hereCombination devices combine type 1, type 2 and type 3 lightning protection and surge protection in a single device. This ensures comprehensive protection in an easy-to-install manner. At eibabo you can get a large selection of surge arresters in different designs, for example as lightning arresters, residual current circuit breakers with overvoltage protection, surge controllers or as overvoltage protection devices. Well-known manufacturers include ABB, Dehn, Eaton, Hager, Hensel, OBO, Phoenix, Siemens and Weidmüller.  Catalogue content:In this eibabo® catalogue Earthing, lightning and surge protection > Surge protection device for power supply systems you will find items from the following product groups:Item overview:BusbarCenter protectionCircuit breakerCombination workerComplete blockComplete unitDevice protectionEnergy diverterEnergy TechnologyFine protectionFuse holderLightning arresterMains protection deviceMains surge protectionOvercurrent protectionOvercurrent protection deviceOverloadOvervoltage protectionPhotovoltaic arresterReplacement moduleSignal protectionSpark gapSurge Device ProtectionSurge protection deviceSurge Protection EnclosureSurge protection moduleSystem solutionTerminal blockfrom the following manufacturers:Manufacturer overview catalogue Surge protector - electr.:ABBDEHNEatonFinderHagerHenselMersenOBOPhoenixPröpsterSchneider ElectricSiemensWAGOWeidmüller
High-voltage halogen - No transformer is required for high-voltage halogen lamps because they are operated with 240 volts. They can be connected directly to the mains electricity supply in the house and are usually dimmable. But what is the difference to a classic light bulb? On the one hand, higher temperatures occur when operating a halogen lamp, which increases efficiency and brightness, and on the other hand, the gas in the quartz bulb of the lamp is enriched with halogens such as bromine or iodine. In combination with high temperatures, a small cycle of evaporating and re-depositing halogens is created, which means that the filament does not wear out as quickly. The service life of high-voltage halogen lamps is therefore significantly longer than that of classic light bulbs. High-quality high-voltage halogen lamps for use in uplighters and other lights and spotlights are part of the extensive eibabo lighting range.Catalogue content:In this eibabo® catalogue Lamps > High voltage halogen lamp you will find items from the following product groups:Item overview:BulbsCandleCandle-shaped incandescent lampColor television recording lampCrystal candleFilm recording lampHalogen bulbHalogen flood lampHalogen lampHalogen mains voltage lampHalogen recording lampHalogen rodHalogen stage lampHalogen studio lampHigh voltage halogen lampHigh-voltage halogen lampHigh-voltage halogen lamp without reflectorHigh-voltage halogen lampsHigh-voltage halogen tubeHV halogen lampLampMains voltage halogen lampModeling lampOutdoor lampPhoto taking lampPyramid candleStage recording lampStudio lampfrom the following manufacturers:Manufacturer overview catalogue High-voltage halogen:LEDVANCEPaulmannPhilips LichtRadiumScharnberger+Has.Signify Lampen
Time relays - What are time relays used for? Sometimes it may be that your structural conditions make it necessary to delay electrical switching processes. Perhaps you still have to walk through a dark garage after activating the light switch, or a motion detector should only be activated after you have left a room. In these and many other scenarios, the use of a time relay can be useful. This ensures that a certain function is only activated or deactivated after a certain period of time. You can set the length of this period of time on the relay.What is a time relay?Timing relays or delay relays are simple control relays that control defined events based on time sequences. The difference between a classic relay and a timer relay is when their output contacts open and close. In a control relay, this occurs when voltage is applied and removed from the coil. With the time relay, the contacts can open or close before or after a certain delay. The installation usually takes place in the control cabinet on the DIN rail. TIPThe set time intervals can be set between milliseconds and hours depending on the relay. Typically, the delay is initiated or triggered by one of two methods:applying or switching off a control voltagethe occurrence of an impulse / trigger signal What functions do time relays perform?It is often difficult for the layperson to understand technical descriptions. When describing the functions of timing relays, we encounter terms such as control voltage, response delay, release delay, pulse shaping or make contact. In order to give you an understanding of how the time relays work, we describe the switching options below using simple examples.To make our examples easier to understand: Always assume that you only switch a 'control voltage' on or off using a switch or button in order to set a switching process (scenario) in motion. However, the actual circuit goes via the relay. Pressing a switch or button when using a switching relay does not necessarily lead to an immediately visible action. You only tell the relay that the preset scenario should now run and that it has to carry out the corresponding switching at the desired time. The following ten scenarios are most commonly implemented with time relays:Scenario 1 - The fallback delayThe release delay is also called switch-off delay.Example: When the control voltage is switched on using the switch (ON), the relay closes the circuit and the light lights up. If you press the switch again (OFF), the light stays on and the set delay time starts to run on the timer relay. The relay keeps the current flowing. At the end of the time period, the relay breaks the circuit, turns off the light and goes into sleep mode. When the light is switched on again using the switch (ON), the process starts again.Scenario 2 - The response delayThe response delay is also called switch-on delay.Example: When the light is switched on using a switch (ON), the time set on the relay starts to run immediately. Only after the time has elapsed does this close the circuit and the light lights up. Now when you press the switch again (OFF), the relay will directly break the circuit, turn off the light and go into sleep mode. When the light is switched on again using the switch (ON), this process starts again. Depending on the model, after the response delay has been interrupted, the time that has already elapsed remains stored or is deleted.Scenario 3 - The impulse controlled response delayThe switch-on delay is not triggered by a permanently applied control voltage, but by a pulse (briefly applied control voltage). These are also referred to as trigger signals.Example: In contrast to scenario 2, a short impulse in the control voltage is sufficient to set the scenario in motion. You don't turn on a switch, but press a button, for example. A preset time starts to run at the relay and then it closes the circuit for a previously defined period of time. Then it goes back to sleep mode. You can usually set both time periods individually. A classic application is a door opener. To do this, briefly press a button. After the set time (this can only be milliseconds), the relay interrupts the circuit on the electromagnet of the door lock for e.g. 3 seconds. During this time, the door is open and visitors can enter. After these 3 seconds have elapsed, the relay automatically restores the power supply to the electromagnet and the door is locked again.Scenario 4 - response delay and release delayThe circuits from scenarios 1 and 2 are combined with each other.Example: When the light is switched on using a switch (ON), a set time immediately begins to run on the relay. Only after this period of time has elapsed does this close the circuit and the light begins to shine. If the switch is then actuated again (OFF) and the control voltage is thus interrupted, a set delay time begins to run. The relay keeps the current flowing. Only after the time has elapsed does the relay interrupt the circuit, switch off the light and go into idle mode. Depending on the model, after the response delay has been interrupted, the time that has already elapsed remains stored or is deleted. Depending on the relay, the response delay and release delay are either of the same length or can be set independently of one another.Scenario 5 - The relay as a clock (starting with a pulse)You know this from the turn signal in the car. It is a flasher relay.Example: You press the switch (ON) and the relay closes the circuit immediately. The light glows. After a defined period of time, the relay interrupts the circuit and the light goes out. After another defined period of time, the relay closes the circuit again and the light shines again. This interval continues as long as the control voltage is present. Press the switch (OFF), interrupt the control voltage. The interval switching ends at the relay and it goes into the idle state.Image: Finder 83.02.0.240.0000 time relayScenario 6 - The relay as a clock (starting with a pause)This scenario is similar to scenario 5, it just starts with a pause, not an impulse.Example: You press the switch (ON) and the preset pause time starts to run on the relay. Only then does the relay close the circuit. The light glows. After a defined period of time, the relay interrupts the circuit and the light goes out. The break time begins again. Then the relay closes the circuit again and so on. This interval continues as long as the control voltage is present. Press the switch (OFF), interrupt the control voltage. At the relay, the interval switching ends immediately and it goes into idle mode.Scenario 7 - The fleeting switch-on relayExample: When the control voltage is switched on using a switch (ON), the relay closes the circuit and the light lights up for a previously defined period of time (wiping time). The relay then automatically interrupts the circuit again. It goes into sleep mode even if control power is still present (switch still ON). This scenario can only be repeated if the switch has been actuated (OFF) after the wiping time has elapsed. If the switch is confirmed (OFF) during the wiping time, the control voltage is interrupted and the relay also interrupts the circuit immediately. The rest of the wipe time is deleted. The process can start over.Scenario 8 - The fleeting switch-off relayExample: When switching off the control voltage using a switch (OFF), the relay closes the circuit and the light lights up for a previously defined period of time (wiping time). The relay then automatically interrupts the circuit again and goes into the idle state. This scenario can only be repeated if the switch has been actuated (ON) after the wiping time has elapsed. If the switch is confirmed (ON) during the wiping time, control voltage is applied again and the relay interrupts the circuit immediately. The rest of the wipe time is deleted. The process can start over. A classic use case: you leave a building in the dark and switch off the main light. The orientation lights turn on and you have time to leave the building. After that, the orientation light also switches off automatically.Scenario 9 - The fleeting on and fleeting off relayThe circuits from scenarios 7 and 8 are combined with each other.Example: When the control voltage is switched on using a switch (ON), the relay closes the circuit and the light lights up for a previously defined period of time (wiping time). The relay then automatically interrupts the circuit again. It goes into sleep mode even though control power is still present (switch still ON). When the control voltage is switched off using the switch (OFF), the relay closes the circuit again and the light lights up again for the specified wiping time. When this expires, the relay breaks the circuit, turns off the light and goes into sleep mode.Scenario 10 - The time relay as a pulse shaperThe application of the control voltage (regardless of whether it is long or short) is converted into a switching process of the same length.Example: You press a switch (ON) to start the scenario. The relay closes the circuit for a previously defined period of time. The light glows. After the time has elapsed, the relay opens the circuit again and goes into the idle state. The light goes out. It is irrelevant whether you press the switch again while the light is on (OFF) or whether you do this much later, when the light has already gone out. The process only starts again when control voltage is applied again (switch ON).This is how you saveMany of the scenarios described can be implemented with multifunction time relays. So you are always flexible and only have to invest in one device.In addition, it is also possible to combine several time relays with one another in order to create corresponding dependencies. Please refer to the product descriptions to find out whether additional functions such as a two-stage response delay or switch-off pre-warning can be implemented with a relay.Here in the eibabo® technology store you will find many inexpensive products for the field of control technology and automation technology. If you are interested in the implementation of these or similar circuits, you can get all the relays, switches, buttons and cables you need from us. Buy high-quality time relays from well-known brands such as ABB, Doepke, Dold, Eaton, Eltako, Omron, Metz, Schalk, Siemens and Ziehl. Use one of our many payment methods and benefit from fast, worldwide shipping.  Catalogue content:In this eibabo® catalogue Relays > Timer relay you will find items from the following product groups:Item overview:Cover hoodDIN rail time switchFront installationImpetusItemized listMechanicallyMultifunction moduleON-delay relayPanel mountPlug-in relayPulse shapingRelay moduleRelay modulesResponse delayRetarderStaircaseStaircase lightingSwitch-off delayTerminal coverTime blockTimerTimer relayTimer switchUniversal relayUniversal voltageWipe-offWipe-onWiping relayfrom the following manufacturers:Manufacturer overview catalogue Time relays:ABBDoepkeDoldEatonEberleFinderGöringLegrand BticinoLimotMaicoMetzMurrelektronikOmronPhoenixPilzRockwellSchalkSchneider ElectricSiemensTeleThebenWAGOWeidmüllerWieland
Clock thermostat - You can control your heating system intelligently with a clock thermostat. The sensor in the device measures the current temperature in the room and ensures that it is reached and maintained. However, it is not always necessary that once a temperature has been set, it must be maintained 24 hours a day. Heating costs can be saved, especially at night, if there is no heating in the bedroom. The living rooms also do not have to be heated during the day if the residents are at work during this time, provided that no valve is activated in a heating circuit distributor for underfloor heating. In this case, a complete switch-off is often not sensible in terms of energy, but rather a reduction. It is enough to set the thermostat so that the desired heat is reached as soon as you get home. With a clock thermostat from the eibabo online shop, you set the desired heating times and these ensure that the rooms are always heated or cooled when it is needed. If you want to deviate from the preset temperature, you can use the so-called party button to provide an additional or extended heating cycle. These and other features are model dependent. Just take a look at our range of clock thermostats. We are sure that you will find the right model.Catalogue content:In this eibabo® catalogue Stats, switches and controllers > Room clock thermostat you will find items from the following product groups:Item overview:Analog clock thermostatBimetal thermostatBimetallic regulatorBuilt-in temperature controllerClimate controllerClock temperature controllerClock thermostatDigital clock thermostatElectronic thermostatFloor temperature controllerHeat pump controllerNeutral zone temperature controllerNeutral zone thermostatOutdoor heatingQuartz clock thermostatRadio clock thermostatReference room temperature controllerRoom clock thermostatRoom controllerRoom temperature controllerRoom thermostatRoom thermostat with time controlRoom thermostat/clock thermostatRoom thermostatclock thermostatThermostatTwo-stage controllerUniversal temperature controllerWireless clock thermostatfrom the following manufacturers:Manufacturer overview catalogue Clock thermostat:Alre-itDeviEberleEthermaGlen DimplexJungTheben
Filter switch cabinet air cond. - Excessively high temperatures in the control cabinet and in other housings have a negative effect on the service life of the electronics inside. The consequence would be necessary repairs at an early stage and the associated follow-up costs. Cooling air conditioners are used to prevent excessive heat build-up in the control cabinet. These devices draw their fresh air from the room in which they are located or directly from the environment. In this case, contamination from dirt, insects and other things cannot be ruled out. For this reason, the air that is fed to the air conditioning systems is cleaned beforehand using filter mats and filter cassettes. Over time, many particles settle in the filters and their cleaning effectiveness decreases. Then they should be replaced. In order to ensure smooth operation of your control cabinet air conditioning system, we offer you the cleaning and consumables suitable for most common systems in the eibabo online shop.Catalogue content:In this eibabo® catalogue Cabinet enclosures > Filter (switchgear cabinet air conditioning) you will find items from the following product groups:Item overview:Air conditioningCabinet fanControl cabinet air conditioningDust filterEMC filter fan (switch cabinet air conditioning)Energy distributorExit filterExpansion systemFan system (switch cabinet air conditioning)Filter (enclosure/cabinet climate control)Filter (housing/switch cabinet air conditioning)Filter (switch cabinet air conditioning)Filter (switchgear cabinet air conditioning)Filter coverFilter fanFilter insertFilter matFine filterFire protection filterHigh current systemInsect screenMetal filterOutlet filter (switch cabinet air conditioning)Output filterPleated filterReplacement filterReplacement filter matfrom the following manufacturers:Manufacturer overview catalogue Filter switch cabinet air cond.:BeurerEberleElmekoFinderFricoHagerRemko Klima u.WärmeRittalSchabusSchneider ElectricStebaStiebel EltronVaillant
Cable pulling device - Laying cables and lines can be very tedious, especially when they have to be routed through walls, empty pipes or around inaccessible corners. Cable pulling systems help here. But how do you use them? What should you pay attention to when buying? And which system is best suited to your circumstances. We answer frequently asked questions and give a small overview of the different systems on the market.Laying or replacing wiring is done in different ways and is subject to certain rules. Regardless of the choice of wiring and compliance with all safety regulations, the installation method depends primarily on local conditions. When a building is under construction, the electrical wiring is often laid at an early stage. As long as the walls and ceilings are still open or the floor construction has not yet been completed, the installation usually does not pose a challenge.Rules for layingElectrical lines are laid only horizontally, vertically and at right angles. Crossings are to be avoided. The distance to the floor and ceiling should be at least 15 cm, to doors and windows 10 cm and to other installations at least 3 cm.These rules will help you find hidden cables in the wall and plan new cable routes. However, it is not always possible to lay the lines during early construction stages. Then empty pipes are provided, in which later the cables have to be drawn. Even with renovation work, refurbishment or conversions, floors, ceilings and walls are usually already in place. Renewing the electrical installation is often more difficult in these cases because either pipes that are already in use are given additional lines or the routes have to be based on the premises. If you don't have professional equipment at hand, 'threading' the cables through walls and around corners quickly becomes a tedious test of patience. In some situations laying without tools is even impossible. Cable pulling systems make your work easier and speed up the completion of the installation.What are cable pulling systems?A cable laying device or cable puller is a special tool that is often required when laying cable systems for electricity, telephone or computer networks. It is a stiff yet flexible rod with special properties. Typically, the rod is wound on a drum but assumes a straight shape when unwound. The device is used to install a cable through hard-to-reach places. These include, for example:metal pipes and plastic pipesCable ducts and electrical boxesVoids under the roofing material or behind wall panelspassageways in concrete floorsand more In order to understand how a cable pulling system works, we must first look at its structure. So you want to run a cable and you are faced with the following situation: You want the cable to enter one point in an architectural structure and emerge from another point. The distance between the two points can be a few centimeters, but also several tens of meters. Along the way, the cable may have to negotiate elevation changes, bends, and other obstacles. Commonly, a power cable or data cable is for:either too stiff to pass the obstacles and bendsor too flexible to not twist or loop as it travels through the lumen It is therefore necessary to first guide a suitable tool through the route and then use it to pull the required cable through. This is where the flexible rod comes into play.This rod is also referred to as a pull-in wire. Various tools can be attached to its tip. In order to find the way, guide heads with different diameters can be mounted. These have the shape of balls and generate only a minimum of friction when 'threading'. This reduces the risk of snagging on irregularities inside the cavity or pipe. When you reach the other end of the route, swap out the guide head for a towing eye or cable sock. With these tools, the cable to be laid is fixed to the pull-in wire. If you now pull back the rod / the pulling-in wire, the power cable or the data cable is automatically pulled with it.Image: Runpotec 10088 Power Rex cable pulling deviceWhat material should the cable pulling rod be made of?In order to make it as easy as possible to guide the pull-in wire through a structure, it should have certain properties. On the one hand, it must be stable enough to always keep its direction. On the other hand, it must also be flexible enough to overcome all obstacles. The devices for pulling cables are therefore made of steel, fiberglass or nylon (polyamide).Steel pull-in wires are steel cables with a polyamide sheath. These do not stretch and can withstand heavy loads when pulling power lines in hard-to-reach areas. The main area of application is bridging larger distances in cable ducts. The disadvantage of the steel variants is the formation of loops if they have been wound on the drum for a long time.Fiberglass rods have increased rigidity and retain their straight shape even after being coiled for many years. As a result, their field of application is limited to straight routes with maximum gentle bends. Tight curves and high stresses lead to buckling, cracking or breaking of the material.Nylon rods are beneficial when maximum flexibility is required. In addition, this material is non-conductive, allowing installation in ducts with already live cables. These are used in narrow, small-diameter shafts, as their cross-section is often less than 5 mm.What should I consider when buying cable pull systems?In addition to choosing the right material for the draw-in wire, its length and diameter are of course an important selection criterion. Useful lengths start at 5 meters. However, here in the shop you can also get products with a length of several hundred meters. Please note that the pulling wire never runs straight through the route, but always makes certain waves. Therefore, always choose a length that is at least 20% longer than the actual length of the route. The diameter of the pull-in wire influences its flexibility on the one hand and its suitability for use in tight spaces on the other. Choose a compromise that suits you.Please pay attention to the way the pull-in wire is attached to the cable. There are several options here. Choose from connecting sleeves, clamps, pull loops or cable grips for the respective cable diameter. Ideally, the pull-in wire and the diameter of the connection point should be thinner than the cable. This avoids unnecessary snagging when pulling through bottlenecks. This is how you saveSome cable pulling systems offer different tools for fixing the cables as a set. So you are well equipped for all situations. Long cable pullers come with special spools that prevent snagging. In such cases, weight must also be taken into account. A trolley makes handling easier, especially when the device is in daily use.With these tips, you can quickly and easily pull cables through cable ducts, empty pipes, existing cable ducts and through molded bricks. Save time and lay the lines in no time thanks to this innovative technology. At eibabo®, we offer cable pulling devices with robust polyester pull-in straps, with pull-in wires made of glass fiber or steel cables. In addition to complete sets, our range also includes end sleeves, individual tapes and rods, ropes and wires as well as accessories and other spare parts. We offer you inexpensive and high-quality products from many well-known manufacturers such as Runpotec, HellermannTyton, Cimco, Klauke, Lapp and Bachmann.  Catalogue content:In this eibabo® catalogue Hand tools > Cable pulling system you will find items from the following product groups:Item overview:Brass sleeveCable management headCable pilotCable pullingCable pulling deviceCable pulling gunCable pulling toolCable stockingCable tapeFeed systemFeeding systemFiber optic cable pulling systemFiberglass replacement tapeFish tapeGuide sleeveLeadership spiralLeading headPlastic fish tapePlastic pullerPolyester tapePull-in aidReplacement fiberglass strapRetractable spiralSpare rollSpare stickSpiral pullerStart bulbStarting sleevefrom the following manufacturers:Manufacturer overview catalogue Cable pulling device:BachmannCimcoE+P ElektrikHellermann TytonKlaukeLappRunpotec

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RECOMMENDED
Returns
3D
RECOMMENDED
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Jung - 620 WX - Schuko socket - Socket outlet (receptacle) 620 WX
¥59.49 excl. VAT

*

plus shipping
(¥116.46 RRP***)
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| 620 WX
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plus shipping
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Schneider Electric - XENG1191 - Auxiliary switch NO+NC STAGE 2 1NO - Auxiliary contact block 1 NO/1 NC XENG1191
¥153.19 excl. VAT

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plus shipping
(¥260.88 RRP***)
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Jung - 3901 REGHE - KNX universal dimming actuator 1-fold, 20-500VA 3901 REGHE
¥1,436.04 excl. VAT

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plus shipping
(¥2,306.44 RRP***)
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RECOMMENDED
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Jung - 620 W - Schuko socket - Socket outlet (receptacle) 620 W
¥59.49 excl. VAT

*

plus shipping
(¥116.46 RRP***)
Schuko socket - Socket outlet (receptacle)
Jung
| 620 W
1 From 348