The following 7500 products have been found matching your search "Poti":

Item/s (7500)

Categories | Others (10)

Found in manufacturer pages: 1

Geis & Knoblauch (ILLER) - In private households as well as in trade or industry, ladders are always indispensable when your own body size is not sufficient to reach a high point. This can be dusting cupboards or shelves, painting ceilings or working on exterior facades. The eibabo® shops from eibmarkt® offer, among other things, heads of Geis & Knoblauch GmbH & CO. KG, also known as the Iller ladders. This is professional brand quality that you can order online at attractive prices here in the eibabo® technology store and have it delivered worldwide. The company was founded in 1924 and has made a name for itself in the field of so-called climbing technology. The range includes telescopic ladders, classic stepladders with rungs or with steps, wide rung ladders, stairwell ladders, leaning ladders, multi-purpose ladders, assembly steps and roof ladders. You have the choice between wood or metal. Ladder feet, ridge cap brackets, adjustable safety feet, trestles and extension bars are available as accessories. In addition, trestle tables, industrial equipment, scaffolding and fixed ladders complete the company's product range. What is the difference between each ladder and what is each intended for? The classic leaning ladder is leaned against the facade or a wall. It is comparatively light and easy to handle. Depending on the model, it can be equipped with telescopic bars or designed as a double version to be pulled out / extended. Stepladders usually have the shape of an "A" and can be placed anywhere in the room. They're easy to work with when you don't have a wall to lean against. Multi-function or multi-purpose ladders combine the advantages of the two variants mentioned. Staircase ladders are extremely flexible and have individually adjustable bars to compensate for the height difference of the steps. Roof ladders often have curved rungs and are designed to lie flat on pitched roofs.

Found in shop categories: 9

Dimmers - Would you like to use dimmers in the house, apartment or at work? Would you like to know what to look out for when buying a dimmer? Can dimmers really save electricity? Find out here which dimmer is the right one for your application.When we dim our living room lights in the evening, something magical happens. The brightness decreases, the colors become softer and the atmosphere in the room becomes cozier. This change has a tremendous effect on our well-being and mood. Dimming is not only easy on the eyes, it also has a positive effect on our bodies. After a busy day, we can relax and let the stress gradually fall off our shoulders. In addition, we can save electricity by dimming light bulbs and LED lamps. In this way, we contribute to reducing CO2 emissions and protecting the environment.What should you consider before buying a dimmer?There are a few things to consider when buying a dimmer. We have summarized the most important points for you:What kind of dimmer do you need?Should the dimmer be universal or suitable for a specific light source?What power supply is required?How should the dimmer be operated?What load should the dimmer be rated for? (the information can be found on the device)Which additional functions are required? (interfaces)Does the price play a decisive role?and some more Image: Berker 85422100 universal touch dimmer, 2-foldTypes of dimmers and their usesDimmers are thyristor controllers or triac controllers for controlling the brightness of incandescent lamps, lights or transformers for low-voltage halogen lamps. When selecting a suitable dimmer, the type of light source, the power supply and the electrical voltage must be taken into account. There are different dimmers, which are suitable for different applications. The best known are universal dimmers, trailing edge dimmers and leading edge dimmers. All reduce the voltage to dim the light. But there are differences in how they work. TIP:Most lamps are marked with a label that provides information about their dimmability. You will find the symbol of a light bulb or a halogen spotlight on many light sources, followed by the information 'RL' or 'RC'. What do these two abbreviations mean and what are the advantages and disadvantages?Trailing edge dimming (RL):Trailing edge dimming is the most commonly used method of dimming lamps. Here, the current of the illuminant is interrupted at regular intervals, so that the light repeatedly goes out briefly and then comes on again. The interruption in the current flow causes the light to flicker slightly. This flickering is barely perceptible to the human eye.Advantages:Less heat lossNo impairment of the mains voltageEasy to implement Disadvantages:Flickering of the light, which can be annoying for some peopleLimited dimmability, otherwise the light flickers too much Leading edge dimming (RC):With phase angle dimming, the current flow is interrupted at the beginning and end of each switching period. As a result, there is no direct regulation of the current flow and there is no flickering of the light. Leading edge dimming is therefore particularly suitable for sensitive applications where uniform light is important. This is the case, for example, in hospitals or galleries.Advantages:No flickering of the light because the current flow is not interruptedMore even light image than with RL dimming Disadvantages:Higher losses due to heat developmentImpairment of the mains voltage with strong dimming Dimming LEDsA dimmable LED lamp is always marked as 'dimmable'. You can usually find the information on the packaging or in the product description. If you cannot find any indication of dimmability, the LED cannot be dimmed.You can use both RC technology and RL technology to dim LEDs. Please judge for yourself which one is the right one for you. Alternatively, you can use dimmers with pulse width modulation. This is the most commonly used variant for dimming LEDs. With pulse width modulation, the current flow is periodically interrupted for a specific interval. As a result, the longer the OFF interval, the less bright the LED will shine.What options are there for operating dimmers?There are several ways you can adjust the brightness on your dimmer. Most models have a dial. Other models have buttons or a touch field. The brightness is changed here, for example, by pressing the UP and DOWN buttons. With a remote touch dimmer, a short touch switches the dimmer on and off, a longer touch impulse causes a change in brightness. There is also the option of controlling with a control voltage. Almost every switch manufacturer has such models in their switch range.Tips for using dimmersDimmers are often used in living rooms to adapt the lighting to the situation at hand. For example, you can set the mood at a dinner party with dimmed lights or turn the lights down completely for a romantic evening for two. Dimmers are also very popular in bedrooms, as they slowly ease the transition to sleep. Dimmers can also be useful in wellness areas such as bathrooms or saunas. For example, when entering the sauna, the light can be dimmed down to promote relaxation. Dimmers can also be used in the aquarium. This allows the lighting to simulate natural daylight. This is for the well-being of the fish. Dimmers at the workplace significantly reduce direct glare and disruptive reflections on the screen. This can help you concentrate better and work without interruption.Dimming in the KNX building managementThe KNX building management is a complex system that enables the automation and control of light, heating and air conditioning in a house or apartment. A central function in the KNX building management is the integration of dimmers, which enable the brightness to be regulated. Dimming actuators are usually used for this in conjunction with pushbutton sensors or multiple operating devices. These replace conventional dimmers. For more information, we recommend our 'Dimming actuators' catalogue.What do the letters 'R - L - C' on a dimmer mean?The letter 'R' on a dimmer means it is suitable for the resistive loads of incandescent lamps, halogen lamps and the like. The 'L', on the other hand, stands for inductive loads from low-voltage lamps with a conventional transformer. And 'C' means capacitive loads from low-voltage lamps with electronic transformers.  Catalogue content:In this eibabo® catalogue Domestic switching devices > Dimmer you will find items from the following product groups:Item overview:Additional moduleAwning controlBlind controlBrightness sensorControl devicesCord switchDimmer moduleDimmtronicEnergy efficientExtensionFlush-mounted boxFront buttonGroup controlIncremental encoderLight controllerLight emitting diodeLightbulbsLighting controlOutdoor spotlightPatio heaterPressure dimmerRadio dimmerRotary dimmerSerial dimmerSpeed controller insertUniversal dimmerUniversal dimming insertWeather stationfrom the following manufacturers:Manufacturer overview catalogue Dimmers:BachmannBerkerBusch JaegerDoepkeElsoEltakoEthermaFinderGiraGrotheHagerHeraJungLEDVANCELegrand BticinoMertenPehaRademacherSchalkScharnberger+Has.Schneider ElectricSchultzeSiemensTheben
Two hand control unit - Working on machines and systems can be dangerous, especially when it comes to equipment that presses, punches, shreds or cuts with great pressure. If parts of your body get caught in the moving machine parts, accidents can occur, which often lead to very serious injuries. How can such dangers be prevented? With a two-hand relay, also known as a two-hand switching device, two-hand operating device or manual safety relay, you protect the people who are entrusted with operating the machine or system. If a two-hand control device is used, the operator must always use both hands to start the machine movement. This is usually implemented using two buttons that maintain a certain distance from the danger zone, are at least far enough apart that they cannot be operated with just one hand and interrupt the machine movement as soon as even one of the two button elements is released. You can get reliable two-hand switching devices to ensure compliance with occupational health and safety regulations in the eibabo online shop.Catalogue content:In this eibabo® catalogue Relays > Two-hand control relay you will find items from the following product groups:Item overview:Device for monitoring safety circuitsPress control deviceProtective gridRelaySafety relaySecurity technologyTwo-hand control deviceTwo-hand control relayTwo-hand operationTwo-hand operation relayTwo-hand relayfrom the following manufacturers:Manufacturer overview catalogue Two hand control unit:ABBCaptronDoldEatonPhoenixPilzSchneider Electric
Fan switch cabinet - What to do if too much heat is generated in the control cabinet? Install fans or install air conditioning? Is an additional filter necessary? Where are the differences? We clarify. Prevent excessive temperatures in the control cabinet and protect your sensitive technology from defects and a shortened service life.With the use of technical devices, heat is always generated. Under normal circumstances this is not a problem. However, the more technology is installed in your control cabinet, the more likely it is that the temperature will rise above a critical value. When heat builds up in that small space, it's time to take countermeasures. With the eibabo® control cabinet fans, you ensure a better climate and protect your sensitive electronics from damage caused by overheating. The fans of the individual fans are designed and dimensioned differently depending on the model. This means that you too will find the best solution for optimal convection in the control cabinet.Position devices correctly in the control cabinetIt would be best if you didn't need separate cooling or ventilation for your control cabinet. Additional cooling and ventilation of the cabinet body always poses several challenges.You need a device.The device must be assembled.A power supply must be established.Regular maintenance should also take place. However, improving the natural flow of air is often enough to solve some problems. The first and perhaps most important step is to correctly position the components in the control cabinet. Devices that emit a lot of heat should not be placed close together. The wiring must also be laid properly so that the air has the opportunity to circulate. In order to increase the natural flow of air, there should be ventilation openings with grilles and filters in the upper area of the control cabinet. As soon as a natural air flow is possible, the warm air circulates and rises more easily. In many cases, this already improves the control cabinet climate. If this is still not enough to noticeably reduce the temperature, installing a fan or fans can be very effective. You have already created the conditions for the best possible air circulation by optimizing the device positions.Does it really make sense to buy a fan for the control cabinet?Installing air handling units for switch cabinets may seem like another unnecessary expense. Compared to the value of the devices in the control cabinet, however, these costs can be neglected even for high-quality fans. However, if this is omitted or the wrong fan is selected, the entire control cabinet can overheat. This not only jeopardizes the value of the devices contained therein, but also the actual function of the system. This can be the power supply for an entire process flow in a factory or the provision of the computer network within a data center. The consequences of such a failure have far-reaching consequences. Therefore, the installation of a comparatively inexpensive ventilation system makes sense in any case. TIP:Overheating of expensive devices due to the lack of active ventilation is one of the main reasons for their failure. Effective ventilation extends the service life and significantly increases the energy efficiency of the devices. A simple solution for good ventilation of the control cabinet is a combination of ventilation device and filter unit. In complex systems, ventilation systems are already part of the standard equipment of a control cabinet and are an essential part of the system design. If you would also like to increase reliability, simply take a look around in this catalogue. You will find the right fans and filters for almost every requirement.How do I choose the right fan for my control cabinet?When choosing the right ventilation system, you should consider a few things. Ventilation is basically intended to cool the devices in the control cabinet, not to heat them. Yes, even cold and frost damage the technology. So if you have a problem with temperatures that are too low or condensate for certain reasons, air conditioning units or heaters for control cabinets are more suitable for you.In order to ensure optimal ventilation and a long service life for the devices installed in the cabinet, the dimension and capacity of the ventilation devices must be calculated and selected correctly. The calculations themselves can be done expensively using manufacturer software, or quite easily done manually. For this you need:the difference between the maximum ambient temperature outside the control cabinet and the maximum permissible temperature inside the control cabinetthe heat loss behavior of the devices installed in the control cabinet in watts On the Internet you will find tables and diagrams in which you can read off the required ventilation performance (air volume in m³) based on these two values. Please note that this is a simplified calculation. Other conditions not considered here are:the size of the closetthe size and position of the openings for supply air and exhaust airthe cabinet material, installation conditions or installation environment and its insulationthe atmospheric pressurethe type of installation of ventilation High quality fans should have ball bearings. Also note how easy it is to dismantle the filter material on the ventilation grille. The cover should be easily removable to access the filter media. With a classic ventilation system, the fan first sucks the air through the air slots and then through a filter into the housing. The warm air exits through another filter mesh, which should be at least the same size as the intake. If necessary, this can also be larger in order to improve the flow behavior. Control cabinet fans must provide adequate protection against dust and splash water in order not to reduce the degree of protection of the control cabinet. Therefore, when buying, pay attention to the relevant information from the manufacturer, the presence of seals and the shape of the slats.NoticeIf the required air exchange cannot be achieved by the built-in fans and filters, there is a wide range of additional axial fans and centrifugal fans to choose from. If required, you will also find powerful air conditioning units for control cabinets here in the shop.Axial fans are typically used as exhaust fans to extract heated air from the system. When equipment is tightly housed in an enclosure, even exhaust fans may not suffice. In such cases, centrifugal fans are often used to blow cold air into the enclosure from the surrounding space, usually from the bottom of the cabinet.How and where are control cabinet fans installed?Control cabinet fans are usually used in the lower area of the control cabinet. Depending on how the cabinet is fixed (wall mounting, built-in, free-standing), choose a suitable position in a side wall, at the back or in the door. Since warm air rises, the exhaust air grille with filter is also installed on the top of the control cabinet. If you decide to use a duct in the ceiling of the cabinet, please consider the risk of inflowing liquids.Image: Rittal SK 3240.124 TopTherm filter fanUnder what circumstances should I better choose an air conditioner?There are conditions in which a classic ventilation system is no longer sufficient. If, for example, the air temperature outside the cabinet is too high or the quality of the air is too bad, an enclosure air conditioning system can be an alternative. These are designed in such a way that excess heat from control cabinets and device housings is dissipated to the environment. Use a control cabinet air conditioning system if:the ambient air contains too much humiditythe temperature inside the housing must be equal to or lower than the ambient temperaturethe ambient air is very pollutedthe required heat dissipation cannot be provided by the environment To make it easier for you to choose from our large range, the products are already sorted by relevance as standard. You can get high-quality control cabinet fans from eibabo® from top brands such as Assmann, Eaton, Hager, Rittal, Phoenix, Schneider Electric, Stiebel Eltron and many others. To find an item with special performance data, please use the extensive detailed search. For your secure purchase, simply use one of our convenient payment methods. In addition, your purchase is protected by Trusted Shops buyer protection. We ship worldwide.  Catalogue content:In this eibabo® catalogue Cabinet enclosures > Ventilator (switchgear cabinet) you will find items from the following product groups:Item overview:Axial fanCabinet ventilationCentrifugal fanControl cabinet air conditioningControl cabinet fanControl cabinet ventilationData centerDehumidifierDistribution cabinetExit filterExpansion systemFanFan extension kitFan kitFan moduleFan plateFan systemFan trayField distributorFilter fanFilter housingFilter insertFire protection fanHeat exchangerHigh current systemIndoor fanPressure fanSlot fanfrom the following manufacturers:Manufacturer overview catalogue Fan switch cabinet:Ebm-PapstEnocFinderHagerPentairPfannenbergPhoenixRittalSchneider ElectricSchäfer IT-SystemsSiemensStiebel Eltron
Electric door opener - Are you planning the access system for your building and need an electric door opener for it? You will find the right components for this in the eibabo® shop. Choose from numerous variants from different manufacturers and also find out what types of door openers are available and what you should pay attention to when buying.What are electric door openers?The term 'electric door opener' conceals very different ideas about which products are actually involved. As part of our customer service, our customers mainly ask about three product groups:Drives for doors and gatesThere are different types of drives for doors and gates. The simplest type is the classic door operator, which lifts a garage door, for example. This usually consists of an electric motor with a movable linkage, which opens and closes the gate. Alternatively, this type of door opening is also available with a chain drive. There are openers with linear drives and lever drives for gates on property boundaries and driveways. The linear actuator design includes an elongated body in which the gear box is enclosed. The gearbox turns a worm drive, causing a rod attached to the gate to lengthen or shorten. This opens or closes the gate. The design of the lever drive consists of a classic housing in which the gear is located. The power of the gear is transmitted to a steel lever attached to the gate leaf. This enables the gate to be opened and closed. In this construction, there are right and left mechanisms.Electromechanical door leaf openerOne of the biggest challenges for people with walkers or wheelchairs is getting through doors. Sitting in a wheelchair and opening a door at the same time is a problem. Likewise, closing a door after driving through it is difficult. To master this challenge, there are electromechanical door leaf openers. Surely you have seen these in hospitals, shops and offices before. These are usually activated by stepping or driving on a mat, or by walking past an electrical sensor. However, these devices are quite expensive. Of course, there are also simpler models for private use. Residential electric door openers consist of an electric motor mounted on the door frame or the door itself. The motor activates and moves a rod that opens and closes the door. The electromechanical door leaf opener can be installed on either interior or exterior doors.Electrical or electromagnetic door lock openersA modern door lock is a mechanism that can consist of a complex combination of locking devices. The safety of property and personal safety depend on the reliability of the lock or the locking mechanism and its quality. Therefore, you should plan your purchase with all due care. Electrical and electromagnetic openers and closers are often used for controlled locking and unlocking of doors in access control systems and management systems. Unlike electromechanical models, these systems are:easy to handlequickly mounted on the doordurableinexpensive  TIPIn this eibabo® catalog you will mainly find products from the area of electric and electromagnetic door openers. Automatic door openers are ubiquitous in apartment buildings, industrial plants and large office buildings. These unlock or lock the lock at an entrance by an electrical or electromagnetic process. When and how a door is locked or opened depends on the installation of the door opener. If a door opener works with quiescent current, the door only opens when the circuit is interrupted. This is typically the case with escape doors. However, there are also working current door openers. These only open a door when power is applied. This means that in the event of a power failure, the corresponding door would remain closed. Whichever type you prefer, you can get high-quality electric door openers at reasonable prices in the eibabo® online shop. Manufacturers of safe and well thought-out systems are Assa Abloy effeff, Berner gate drives, Etherma, Geze, Grothe, Novar, Siedle and Viveroo. Pay securely and monitor your delivery with our track-and-trace system.Typically, electromagnetic locks hold doors closed due to the action of a powerful electromagnet. This attracts a metal plate attached to the door. The door is opened using the exit button, which changes the state of electromagnetism. Alternatively, this control signal can also be triggered centrally by the access control system.Image: Assa Abloy effeff 118WR-------B71 electric door openerWhat types of electromagnetic door openers are there?Due to their design, electromagnetic door openers differ in models whose contact either 'shears off' or 'tears off'. This depends on the position of the contacts in connection with the opening direction of the door. Furthermore, one subdivides into add-on locks and built-in locks. Electromagnetic attachment locks are the most common, as they do not affect the structure and stability of a door leaf. Since there are no moving and rubbing parts in this type of locks, their function is guaranteed in all climatic conditions. Within access control systems, electromagnetic door openers are often used for external doors of residential buildings, offices, industrial buildings, supermarkets with normal security requirements.How do electromagnetic door openers work?An electromagnetic lock consists of 2 parts:an electromagnet mounted on the door framea metal counter plate which is attached to or in the door In the so-called normally open operating mode, a direct current or alternating current is supplied to the electromagnet winding in order to establish a strong magnetic field. This pulls the metal plate of the door towards the lock. The door is held closed by the force of the magnetic field. To open the door, the circuit must be broken. The magnetic field disappears and the door can be opened. Even in the event of an unplanned power failure, the electromagnet releases the plate and the door goes into the unlocked state. Therefore, not only electromagnetic locks are installed on the most important doors, but also conventional mechanical or electromechanical locks.TIPModels are available that work on the opposite principle - i.e. are closed without current. In these cases, the magnetic field is established without current and the door is closed by default. The magnetic field is only interrupted when a voltage is applied and the door can be opened.This functional principle is very common in classic door openers, for example.How securely do electromagnetic door locks close?All electromagnetic locks have a high mechanical traction or holding power. This is given in kilograms. The heavier and more important a door is, the higher the holding power of the lock should be. When choosing a model that suits you, you can use the following rule of thumb:A holding force of 150 kg or more is usually sufficient for interior doorsElectromagnetic locks with a holding force of 300 kg or more are usually used for standard street doorsFor security doors and heavy steel doors, use models with a pull force of over 1000 kg What are the advantages and disadvantages of electromagnetic door openers?Advantages over other locks and locking mechanisms include ease of installation and durability. There are no mechanically moving parts that can wear out or jam. Compared to electromechanical door openers, the power consumption is low. Magnetic door locks are insensitive to heat, cold and precipitation and can be used in rooms with high humidity. Their dependency on electricity can be seen as a disadvantage.What should be considered when buying electromagnetic door openers?We have already mentioned many properties that limit the choice according to your needs. Before you buy, consider the following points, among others:Should it be a built-in device or a surface-mounted device?Should the opener work with open-circuit current or with closed-circuit current?What type and level of power supply is required?Is the design decisive (left / right / symmetrical)?Does compatibility with existing mortise locks and striking plates have to be guaranteed?Do you want manual locking or unlocking for emergencies?Is one opener enough or should it be a set with strike plate and frame?What holding power should the device have? What is the difference to a purely electric door lock opener?Electromechanical door locks are also available on the market. These are mechanical locks with electronic components. These door openers are also powered and work in combination with a classic locking mechanism to lock or open the door. The type of locking and unlocking can vary. These can be buttons, keypads for entering codes or passwords, biometric devices, scanners, key fobs or key cards.  Catalogue content:In this eibabo® catalogue Alarm installations, emergency call and signalling > Electrical door opener you will find items from the following product groups:Item overview:Angled locking plateAutomatic staircase lightCable transitionCable transitionsCone contactDetentDoor opener coilInlet reed contact bracketLockingLocking plateMortise door openerMounting casePush-on boltReplacement plateSecuritySecurity lock openerSliderSpacer plateStandard door openerSwing gate operatorUniversal door openerUnlockingfrom the following manufacturers:Manufacturer overview catalogue Electric door opener:Assa Abloy effeffBerner TorantriebeEthermaGezeGrotheNovarSiedleViveroo
Protective conductor terminal - You take care of the structure of your control cabinet and use various terminal blocks to organize your electrical installation. If you are still missing protective conductor terminals to complete your system, then you have come to the right place in this catalog from our shop. Here you can get all common variants from well-known manufacturers at top conditions. Protective earth terminals belong to the series terminals and were developed for electrical distribution installation. These are capable of accommodating fine-wire, multi-wire or solid conductor cross-sections. Cables with attached ferrules can also be installed in protective conductor terminals.What is a protective conductor?The protective conductor or PE conductor (PE stands for protective earth) is primarily used to connect the masses of electrical devices and conductive elements to earth. The protective conductor is easily recognizable by its green-yellow color.Already knewThe nationwide establishment of the protective conductor in Germany, Austria and Switzerland took several decades. More than 50 years passed from the first proposal to introduce a 'neutral conductor' around 1914 to the uniform definition of the green and yellow marking in 1965.An example: Let's take the classic NYM-J 3x1.5 mm² sheathed cable. Two wires carry current here, the one with the blue insulation and the one with the brown insulation. The third wire is the green-yellow protective conductor, which normally does not carry any current. If a current-carrying phase touches a metallic housing, a so-called residual current flows through it. If there is no protective conductor, the housing is not grounded and the residual current cannot flow. If a person touches the housing, the current is returned to earth via their body. This not only results in an unpleasant discharge, but in some cases leads to burns or, in extreme cases, to an electric shock, which can lead to cardiac arrest. However, if a protective conductor is properly installed, the enclosure is connected to earth through it. The residual current can thus flow off via the protective conductor.In the control cabinet, the incoming protective conductors are sorted and fastened via protective conductor terminals.What is a terminal block or a feed-through terminal block for protective conductors?Terminal blocks fulfill several functions and are among the most important components within a control cabinet. It is mounted on the DIN rail. In general, terminal blocks are connecting elements between the incoming cables and lines of an installation and the actual control cabinet installation. Technically, the special protective conductor clamps do not differ from the clamps for external conductors or neutral conductors, but they are specially designed to accommodate the green-yellow protective conductor. TIPMany ground terminals also have a coloured, mostly green-yellow housing. Their purpose is therefore unmistakable and the terminals in the control cabinet can be recognized as such at first glance. Feed-through terminals are also often mentioned. 'Terminal block' is a generic term that also includes other types of terminals. These include, for example, fuse terminals and relay terminals. Other terms describe the way a terminal is constructed or its ability to connect the conductors. In this context one often hears about one-tier terminals, three-tier terminals, spring-loaded terminals, push-in terminals or screw terminals.Why should I use protective conductor terminals?Feed-through terminals for protective conductors are required connecting elements in the control cabinet between the rigid incoming cables or lines and the following control cabinet installation. These offer the necessary flexibility to connect the protective conductors to the end devices easily and clearly. A clear installation would not be possible without the feed-through terminals. In practice, the incoming cables and lines are clearly laid out on the terminals and the individual wires then lead from there to the devices in the control cabinet. This keeps the entire installation flexible. There are connection points and nodes for checking and changing the system structure.Image: WAGO 2002-3207 three-level terminalEach protective conductor connection that is made assumes a protective function specified in the circuit diagram. This means that both the installation of the system and the function of individual connections are always traceable. This makes later maintenance, additions or repairs easier. Changes are possible at any time by reconnecting individual lines. The rigid supply lines remain unaffected.What is the difference between protective conductor terminals?Each manufacturer builds the protective conductor terminals slightly differently. However, the principle is the same. There are single-level clamps and multi-level clamps. While you can only connect one protective wire in the single-level terminal, several incoming and outgoing lines can be installed in multi-level terminals. A multi-level arrangement saves an enormous amount of space in the control cabinet.Another distinguishing feature is the way the wires are attached. With a screw terminal, the respective wire is fixed with a screw connection. This method is comparatively complex and takes a lot of time. Especially when the system is complex, you save a lot of time by using a spring-loaded terminal. This variant makes the electrical contact using a spring. The spring usually consists of a bent, flat copper contact. The protective conductor must be inserted through a hole in the copper contact. This is only possible if the contact is clamped with a pointed tool. When the clamping tool is removed, the spring pulls back and the protective conductor is jammed. This connection is released in the same way. Push-in mounting is another connection variant. This is similar to the spring-loaded terminal. But unlike the spring-loaded connection, installation is tool-free and therefore even faster. The protective conductor is inserted into the spring shaft of the terminal and the spring locks automatically. You need a tool to loosen the connection. Bend the retaining spring to the side with a small screwdriver and the protective conductor can be loosened. This method saves a lot of time, especially for cores with solid conductors. The use of ferrules is recommended for cores with flexible conductors (strands). Fastening the conductors using insulation displacement terminals is rather rare. Use this variant if your conductors are particularly thin. Here, the contact is made through a small cut in the insulation. Cheaper in a setProtective conductor terminal blocks are available individually or in sets of 25, 40 or 50 at an attractive price advantage. The cross-section of the protective conductor also affects the protective conductor terminal. Here in the shop you can get the right protective conductor terminals for all common cable cross-sections. Whether a clamp can be used for a specific cross-section is usually stated on the clamp.Why are protective conductor terminals not closed on one side?The space in a control cabinet is almost always tight. The storage capacity of a control cabinet is generally specified in module widths (HP). Protective conductor terminals are not manufactured according to this grid dimension, but as narrow as possible. The width is determined by the design of the electrical connection and the cable cross-section. Since the terminals are mounted directly in line, there is no risk of touching the contacts on the open sides. Without the second side cover, a terminal is slightly narrower. A cover is only attached to the last terminal in a row. The narrower the individual terminal is, the more terminals can be accommodated on a specific section of the DIN rail.You can buy protective conductor terminals quickly and cheaply in the eibabo® technology store ? your competence center for smart homes and electrical installations. We offer branded products from ABB, Dehn, Hager, Phoenix, Pollmann, Schneider Electric, Siemens, WAGO, Weidmüller, Wieland in large quantities. We deliver our range worldwide.  Catalogue content:In this eibabo® catalogue Terminal blocks > Ground terminal block you will find items from the following product groups:Item overview:Actuator terminalBase clampsBuilt-in housingCage clampConnection technologyFeed terminalFeed-through terminal blockFour-level clampGround railGround terminalGround wire disconnect terminalInformation technologyInitiator terminalInstallation clampInstallation clampsMulti-level clampProtective conductorShield connection technologySingle clampSpring clampsSpring clipTerminal blocksTerminal stripTest disconnect terminalsThree-wire terminalThrough terminalTwin clampUniversal clampfrom the following manufacturers:Manufacturer overview catalogue Protective conductor terminal:ABBDehnHagerPhoenixPollmannSchneider ElectricSiemensWAGOWeidmüllerWieland
Close filters
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
from to

1 From 625
No results were found for the filter!
RECOMMENDED
3D
RECOMMENDED
3D
Bachmann - 300.003 - Craftsman bar 6x with switch, 2m Perm. - Socket outlet strip grey 300.003
¥212.05 excl. VAT

*

plus shipping
(¥402.56 RRP***)
Craftsman bar 6x with switch, 2m Perm. - Socket outlet strip grey
Bachmann
| 300.003
RECOMMENDED
3D
WAGO - 2003-7641 - Installation floor terminal TS 35 2003-7641
¥17.64 excl. VAT

*

plus shipping
(¥26.59 RRP***)
Installation floor terminal TS 35
WAGO
| 2003-7641
RECOMMENDED
3D
WAGO - 2003-7646 - Installation floor terminal TS 35 2003-7646
¥15.04 excl. VAT

*

plus shipping
(¥22.69 RRP***)
Installation floor terminal TS 35
WAGO
| 2003-7646
RECOMMENDED
3D
Bachmann - 381.141S - Socket strip, multiple socket 6x 1.5m, black 381.141S
¥46.92 excl. VAT

*

plus shipping
(¥88.30 RRP***)
Socket strip, multiple socket 6x 1.5m, black
Bachmann
| 381.141S
RECOMMENDED
3D
Phoenix - PTI 2,5-PE/L/NT - Protective conductor terminal 0.14-4mm² PTI 2,5-PE/L/NT
¥13.50 excl. VAT

*

Protective conductor terminal 0.14-4mm²
Phoenix
| PTI 2,5-PE/L/NT
RECOMMENDED
3D
WAGO - 2003-7642 - Installation floor terminal TS 35 2003-7642
¥11.38 excl. VAT

*

plus shipping
(¥17.16 RRP***)
Installation floor terminal TS 35
WAGO
| 2003-7642
RECOMMENDED
3D
Phoenix - PTI 2,5-PE/L/N - Protective conductor terminal 0.14-4mm² PTI 2,5-PE/L/N
¥11.55 excl. VAT

*

Protective conductor terminal 0.14-4mm²
Phoenix
| PTI 2,5-PE/L/N
RECOMMENDED
3D
Bachmann - 928.017 - Elevator sockets 1xSchuko,2xUSB - Socket outlet strip stainless steel 928.017
¥784.39 excl. VAT

*

plus shipping
(¥1,645.54 RRP***)
Elevator sockets 1xSchuko,2xUSB - Socket outlet strip stainless steel
Bachmann
| 928.017
RECOMMENDED
3D
RECOMMENDED
3D
Phoenix - PTI 2,5-L/L - Installation floor terminal 0,14-4mm² PTI 2,5-L/L
¥8.78 excl. VAT

*

Installation floor terminal 0,14-4mm²
Phoenix
| PTI 2,5-L/L
RECOMMENDED
3D
Bachmann - 931.150 - TWIST socket strip 2xCEE7/3 2m AEH blk - Socket outlet strip black 931.150
¥658.85 excl. VAT

*

plus shipping
(¥1,223.30 RRP***)
TWIST socket strip 2xCEE7/3 2m AEH blk - Socket outlet strip black
Bachmann
| 931.150
1 From 625