EP3539425A1 - Système d'électrification pour systèmes de suspension et/ou de rayonnage et système de suspension et/ou de rayonnage doté d'un tel système d'électrification - Google Patents

Système d'électrification pour systèmes de suspension et/ou de rayonnage et système de suspension et/ou de rayonnage doté d'un tel système d'électrification Download PDF

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Publication number
EP3539425A1
EP3539425A1 EP19160351.3A EP19160351A EP3539425A1 EP 3539425 A1 EP3539425 A1 EP 3539425A1 EP 19160351 A EP19160351 A EP 19160351A EP 3539425 A1 EP3539425 A1 EP 3539425A1
Authority
EP
European Patent Office
Prior art keywords
module
housing
carrier
stripline
power take
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP19160351.3A
Other languages
German (de)
English (en)
Other versions
EP3539425B1 (fr
Inventor
Hans Kraiss
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Juvema AG
Original Assignee
Juvema AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Juvema AG filed Critical Juvema AG
Publication of EP3539425A1 publication Critical patent/EP3539425A1/fr
Application granted granted Critical
Publication of EP3539425B1 publication Critical patent/EP3539425B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47FSPECIAL FURNITURE, FITTINGS, OR ACCESSORIES FOR SHOPS, STOREHOUSES, BARS, RESTAURANTS OR THE LIKE; PAYING COUNTERS
    • A47F5/00Show stands, hangers, or shelves characterised by their constructional features
    • A47F5/10Adjustable or foldable or dismountable display stands
    • A47F5/101Display racks with slotted uprights
    • A47F5/103Display shelving racks with the uprights aligned in only one plane
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V21/00Supporting, suspending, or attaching arrangements for lighting devices; Hand grips
    • F21V21/08Devices for easy attachment to any desired place, e.g. clip, clamp, magnet
    • F21V21/096Magnetic devices
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47BTABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
    • A47B2220/00General furniture construction, e.g. fittings
    • A47B2220/0075Lighting
    • A47B2220/0077Lighting for furniture, e.g. cupboards and racks
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47BTABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
    • A47B2220/00General furniture construction, e.g. fittings
    • A47B2220/0091Electronic or electric devices
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21WINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO USES OR APPLICATIONS OF LIGHTING DEVICES OR SYSTEMS
    • F21W2131/00Use or application of lighting devices or systems not provided for in codes F21W2102/00-F21W2121/00
    • F21W2131/30Lighting for domestic or personal use
    • F21W2131/301Lighting for domestic or personal use for furniture
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
    • F21Y2103/00Elongate light sources, e.g. fluorescent tubes
    • F21Y2103/10Elongate light sources, e.g. fluorescent tubes comprising a linear array of point-like light-generating elements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
    • F21Y2115/00Light-generating elements of semiconductor light sources
    • F21Y2115/10Light-emitting diodes [LED]
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R25/00Coupling parts adapted for simultaneous co-operation with two or more identical counterparts, e.g. for distributing energy to two or more circuits
    • H01R25/14Rails or bus-bars constructed so that the counterparts can be connected thereto at any point along their length
    • H01R25/142Their counterparts

Definitions

  • the invention generally relates to the electrification of a hanging and / or shelving system for hanging, hanging or holding objects.
  • the invention relates to an electrification system for a hanging and / or shelving system and a hanging and / or shelving system with such an electrification system.
  • a busbar into tubular slotted shelf rails may, due to required close fits between the shelf rail and busbar, bumps on the inner surface of the shelf rail and means, such as fasteners that protrude in use in the shelf rail can be, relatively difficult.
  • special brackets are required, which must be elaborately, for example. By punching holes for receiving the pantograph devices in standard consoles, manufactured.
  • carrier profile rails which have a base plate for attachment to a wall or substructure of a room and two legs which are cantilevered away from the base plate at a distance from one another.
  • the legs define a receiving slot between each other, which is accessible via an inlet opening opposite the base plate and serves to receive plug-in elements.
  • the male elements can be quickly and freely positioned in the receiving slot.
  • the carrier rail can also be arranged for vertical attachment and provided with mounting slots for the male elements in the base plate.
  • DE 10 2009 003 509 A1 describes such a presentation system with a carrier rail, which is set up in addition to the electrification of electrical, electronic or network-enabled terminals on the male elements.
  • a carrier rail which is set up in addition to the electrification of electrical, electronic or network-enabled terminals on the male elements.
  • power and / or data lines are integrated in the receiving slot of the carrier profile rail, while the male elements are provided with an adapter module for power tapping on the lines.
  • the carrier profile rails for example, use of aluminum, relatively expensive and costly material.
  • the receiving slots of the support rails must be equipped with the electrical lines, and the male elements must be set up with special adapter modules, in addition to the electrical connection and the mechanical connection serve the male with the carrier rail and are relatively large, bulky and expensive.
  • the parallel pending German patent application with the file number 10 2017 100 958.2 which is based on the common applicant, describes an electrification system for a hanging and / or shelving system, which has an in use vertical rear wall element and a support element, for example a shelf element, for supporting objects.
  • the electrification system has a ribbon-like stripline and a current collection module.
  • the stripline has a rear surface for mounting to the wall element of the hanging and / or shelving system and a front surface in which at least two electrical conductors are spaced apart.
  • the power take-off module has a housing, a fastening device provided on the housing for attachment to a carrier element of the hanging and / or shelving system and at least two tapping contacts for contacting the at least two electrical conductors of the stripline.
  • the Abgriffessore are mounted in the interior of the housing, projecting in sections over an end face of the housing out of this outward and are resiliently arranged so that they by an external force in the housing further into and in the absence of external force by the spring force from the Housing continue to be pressed out.
  • the stripline is bonded directly by gluing, magnetic elements, screwing, stapling or the like with its back surface attached to the front surface of the wall element of the hanging and / or shelving system.
  • the power take-off module is adapted for mounting on a carrier element, in particular shelf, of the hanging and / or shelving system.
  • the housing of the power take-off module contain form-fitting receptacles, for example, to encompass sections of a trailing edge of standard shelves for shelving systems suitable.
  • a magnet can be installed, which allows attachment of the power take-off module to a magnetizable metal shelf by magnetic force.
  • the power take-off module can also be fastened to the support element of the hanging and / or shelving system in an adhesive fit.
  • the electrification system allows a simple and quick installation of the stripline directly on the wall element of the hanging and / or shelving system
  • the stripline must be prepared in advance with additional means such as a double-sided adhesive tape, a Velcro fastener tape, with magnetic elements, screw or other fasteners, be provided, which increases the overall manufacturing cost and associated costs.
  • This also applies to the power take-off module, which must be configured differently depending on the support element of the hanging and / or shelving system for attachment to this. On a rod-shaped support arm of a hanging and / or shelving system, the power take-off module can not be attached, so that an electrification for the support arm with this system is not possible.
  • it would be desirable for a simple and flexibly mountable universal electrification system which is suitable for a variety of support elements of hanging and / or shelving systems.
  • a similar electrification system in which the power take-off module is arranged to be attached to the busbar and not to the support element of the hanging or shelving system.
  • the attachment can be done by clipping on the power rail or by means of a device that allows a rotational locking of the power take-off module to the power rail.
  • the busbar itself can be mounted directly to a shelf rear wall by screwing or with a metal rear wall by means of magnets, for example by means of an additionally attached to the rear surface of the busbar magnetic tape.
  • a flexible magnetic light rail system for the adjustable attachment of a metal lamp socket having light on walls, furniture and / or ceilings with an elastic tether known.
  • the holding strap comprises at least one permanent magnet layer as a holding means for the light socket, wherein on the upper side of the holding strap electrical conductors for energizing the illuminant are arranged, which are electrically insulated by an insulator layer against the permanent magnet layer and against each other.
  • the lamp is magnetically supported by the tether.
  • On the underside of the tether an adhesive layer for coupling against surfaces of walls and / or furniture and / or ceilings is arranged.
  • the light rail system is also well suited for mounting on metal walls, furniture and / or ceilings, but requires a complicated designed strap.
  • the power take-off modules may inadvertently be mounted upside down on the support element of a shelving system or on the bus bar or stripline, so that the tap contacts come into contact with the conductors of the bus bar or strip line of the wrong polarity. In the best case, this can lead to the non-functioning of an electrical appliance to be supplied, which can be remedied by reassembling the power take-off module.
  • the polarity reversal can also cause damage to the device. Measures to avoid errors in the mounting and handling of the busbar or stripline, including reverse polarity and / or inadvertent short-circuiting of the conductors, would be desirable.
  • an object of the invention to provide an electrification system, which makes it possible to integrate electrical devices to different support elements of a hanging and / or shelving system, which is simple and inexpensive and is particularly suitable for use with metal shelf wall elements.
  • the electrification system should preferably enable low-cost electrification and easy and secure production of a correct electrical connection when mounting, hanging or transferring support members to the hanging and / or shelving system at different positions.
  • Another object is to provide a hanging and / or shelving system with such an electrification system that is simple in construction, inexpensive to manufacture, lightweight and build quickly and flexible and safe to handle and suitable for receiving and operating electrical or electronic devices on different support elements of the hanging and / or shelving system.
  • an electrification system for a hanging and / or shelving system wherein the hanging and / or shelving system comprises at least one wall element that is substantially vertically inclined in use, optionally slightly inclined, bent or bent against the vertical, and at least one carrier element for suspending, applying or otherwise holding objects, for example goods, clothing or other things to be presented.
  • the support element can be attached to the hanging and / or shelving system preferably releasably and mounted at different heights.
  • the electrification system includes a stripline and a power take-off module.
  • the stripline has a band-shaped carrier and at least two in the carrier, along and spaced apart electrical conductor, which can conduct electrical current.
  • the carrier has a back for mounting on the wall element of the hanging and / or shelving system and a front side through which the at least two electrical conductors are accessible from the outside.
  • the carrier is formed of a magnetic and electrically insulating material.
  • the power take-off module has a housing, which defines an interior, and at least two Abgriffromee for contacting the at least two electrical conductors of the stripline.
  • the tap contacts are stored in the interior of the housing and project in sections over an end face of the housing out of this out.
  • the Abgriff réellee are resiliently arranged and arranged so that they can be pushed further out by an external force in the housing and in the absence of external force by the spring force from the housing out.
  • the electrification system according to the invention thus does not use slot carriers, carrier profile rails or the like in order to integrate electrical conductors therein. Rather, a web or strip-shaped power line is mounted directly on a front surface of a rear wall or a separate wall element of a hanging and / or shelving system, preferably in a vertical arrangement.
  • the stripline is particularly suitable for attachment to magnetic or magnetizable metal wall elements, for example of iron, iron alloys, steel, etc., as are widely used in hanging and / or shelving systems, because their magnetic carrier is a direct mounting on such wall elements alone by the magnetic adhesion, without any additional aids, such as adhesive tapes, screws or the like., Allows.
  • the material of the carrier of the stripline is also electrically insulating so that the electrical conductors can be embedded directly in the carrier without the need for or having additional insulator elements or layers to electrically insulate the conductors from the carrier and / or from each other ,
  • the carrier to perform a number of functions, such as providing simplified direct mounting to a metal wall, providing structural support to the stripline, providing a support base for the electrical conductors, and providing the required electrical insulation of the conductors, further materials and means for this can be saved.
  • the stripline is preferred only from the carrier and the electrical conductors embedded therein.
  • the band-shaped carrier of the stripline may be made of a permanent magnetic plastic material.
  • a variety of such materials which are suitable and available here, as indicated below, known.
  • non-plastics such as ceramics, e.g. based on nickel oxide, or other future developed materials that are both magnetically and electrically insulating and usable here, recognize and consider.
  • the permanent magnetic plastic material may include, for example, embedded in a plastic binder powdered permanent magnet material.
  • the plastic binder may in particular be a thermoplastic binder, preferably based on polyethylene (PE), in particular chlorinated polyethylene (CPE), polyamide (PA) or polyphenylsulfide (PPS), or a duroplastic, preferably based on epoxy resin.
  • the permanent magnet material is preferably a hard ferrite, in particular barium or strontium ferrite.
  • rare earth metals such as samarium-cobalt (SmCo) or neodymium-iron-boron (NdFeB) and their derivatives, or alnico (AlNiCo) alloys (alloys of iron with aluminum, nickel and cobalt and copper) could be used for the permanent magnet material are, provided that their concentration and distribution is chosen appropriately, in the applications provided here, in particular for DC power supply of the hanging and / or shelving systems in the low voltage range (eg 12 volts or 24 volts DC) sufficient electrical insulation of the electrical conductors against the metal Rear wall of the hanging and / or shelving system as well as against each other.
  • the band-shaped carrier can be particularly preferably used in the extrusion, injection molding or be produced by the molding process.
  • the back side of the band-shaped carrier may have a flat rear surface which allows a planar mounting on a wall element and promotes the magnetic adhesion.
  • the band-shaped carrier may have at least two slots extending along the carrier, spaced apart and parallel to one another. In the slots, the at least two conductors or tracks may be included, which are preferably made of nickel silver or copper or other good conductive material and suitable for low voltage feed.
  • the electrical conductors may be recessed into the slots of the carrier flush with the outer surface of the carrier, or preferably recessed slightly, to provide some protection against short circuits and against accidental contact with the conductors.
  • passage gaps in the front side of the carrier which provide access to the electrical conductors, can be covered or substantially closed by covering means in order to provide additional contact protection and short-circuit protection.
  • the covering means may preferably be integrally formed on the carrier and designed to be resilient so that they open at least locally under load by the resiliently biased Abgriffessore to let pass the tap contacts to the electrical conductors.
  • the covering means may be formed by elastically bendable lips which, starting from the opposite edges of a passage gap, are substantially flush with the front surface of the carrier and their free ends touching or touching each other. Upon loading by an external force, such as the tap contacts, the lips may fold away to provide access to the respective electrical conductor.
  • the at least two electrical conductors in the carrier can be received and held only by positive locking.
  • the at least two electrical conductors in the carrier can be received and held only by positive locking.
  • the conductors can be drawn from a longitudinal end of the stripline in the slots and held captive therein. Additional holding or bonding agents are not required, although possible.
  • the stripline is preferably free of adhesives, mechanical securing means and additional insulating means.
  • the power take-off module of the electrification system can be set up for attachment to a carrier element of a hanging and / or shelving system.
  • the power take-off module has fastening means for attachment to the stripline.
  • the power take-off module may then be independently constructed of the carrier element.
  • the fastening means for attachment to the strip line on wing elements which are integrally formed on the housing and formed in the manner of two-sided lever.
  • the wing members are pivotally mounted on opposite side surfaces of the housing via pivotal webs such that forearms of the wing members projecting beyond the end face of the housing and rear arms of the wing members extending in the region and along the side surfaces of the housing of the power take-off module are defined.
  • the rear arms of the wing members may be configured to be manually gripped and pivoted against the housing of the power take-off module, thereby pivoting the forearms about an axis defined along the lands. Further, the forearms may be configured to engage pivotally associated portions of the band-shaped carrier to secure the current collection module thereto and disengage to remove the current collection module from the carrier. This supports a simple, fast and intuitive handling for securing the power take-off module to the stripline.
  • the wing members may be slightly skewed relative to the side surfaces of the pantograph housing to further facilitate handling.
  • laterally projecting engagement strips may be integrally formed on the front side of the band-shaped carrier, which extend along the strip line, while on the forearms of the wing elements engaging hooks or claws can be formed, which are designed to fit behind the engaging strips or to clamp around.
  • the power take-off module can then be easily and quickly clipped onto the carrier.
  • the housing of the power take-off module may be made in one piece with the wing elements, preferably made of plastic, for example by injection molding or by additive manufacturing.
  • the housing may have at least one passage opening for the Abgriffessore on the end face of the housing and at least one output terminal having at least one pair of terminal contacts.
  • the terminals are electrically connected to the tap contacts and from the outside of the housing accessible to be connected to terminals of a connecting line for supplying an electrical or electronic device to a hanging and / or shelving system.
  • the at least one output terminal may expediently be designed as a plug connector device, preferably in the form of a plug socket with contact pins.
  • the tap contacts may be formed simply by bent first end portions of wire pieces passing through the at least one passage opening of the current collector housing, the wire pieces starting from the tap contacts back to the housing, for example obliquely, preferably multiply bent and are fixed with their second end portions in the interior of the housing.
  • the wire pieces can be so resilient that the Abgriffessore are completely pivoted into a load by an external force in the housing and swing out of the housing again with relief elastic relief.
  • the pieces of wire may each have a section, e.g. the second end portion, which is held captive in matching bearing portions inside the housing.
  • the free ends of the second end portions of the wire pieces may be the terminal contacts, e.g. Contact pins, form an externally accessible connector output terminal.
  • the housing may have two or more externally accessible connector output terminals, each having at least a first and a second terminal contact, eg contact pin.
  • a circuit board can be arranged, which has at least a first and a second conductor track. The wire pieces and the output contacts can be attached to the board and connected to form multiple parallel circuits.
  • first terminal contacts of all connector output terminals can be conductively connected via one of the at least one first and second conductor to that one of the pieces of wire, which is intended for current detection of a first conductor of the strip line, for example, with a first polarity
  • second terminal contacts all of the connector output terminals are conductively connected via another one of the at least one first and second tracks to the other one of the wire pieces, which is intended to be tapped from a second conductor of the strip line, eg with a second polarity.
  • two or more electrical devices can be connected in parallel to the stripline via a single power take-off module.
  • the stripline and the current collection module may have complementary design features that provide mechanical reverse polarity protection.
  • the complementary shape design features may be arranged to permit attachment of the current collection module to the stripline only in a predetermined allowable orientation in which the tapping contacts each contact a dedicated conductor of the stripline, eg, a DC supply conductor of a particular polarity while avoiding attachment in a reverse orientation in which the tapping contacts would each contact the other conductor of the stripline, eg, a DC reverse polarity supply conductor.
  • a wrong polarity of an electrical appliance connected with DC voltage and associated functional problems or damage can be effectively avoided.
  • the shaping features may include a recess formed in the front side of the band-shaped support and recessed along the stripline parallel to the electrical conductors, and an associated projection, e.g. in the form of an elongate projecting rib, which is preferably integrally formed on the end face of the current collecting module.
  • the projection is sized and arranged to project into the groove when the power take-off module is attached to the stripline in a correct orientation with respect thereto.
  • An inverse configuration having a groove on the current collection module and a projection on the carrier of the stripline as well as other complementary configurations, e.g. Deformations, for reverse polarity protection are also possible.
  • a hanging and / or shelving system is provided with at least one wall element, a support element and an electrification system as described above.
  • the wall element is formed of a magnetic or magnetizable material and arranged substantially vertically.
  • the support element is set up for holding objects and can be mounted on the hanging and / or shelving system.
  • the stripline of the electrification system is, preferably in a substantially vertical orientation, with its rear surface mounted on the wall element and held solely by the magnetic adhesion of the magnetic band-shaped carrier of the stripline to the wall element.
  • the stripline is connected or connected via connecting means with an electrical energy source, preferably a low-voltage DC voltage source.
  • the power take-off module is releasably attachable to the band-shaped carrier of the stripline, wherein in the mounted state of the power take-off module, the at least two Abgriffessore the power take-off module are pressed with respect to their unloaded rest position in the housing and biased by the spring force to the outside, in secure conductive contact with the associated electrical conductors to allow a current drain of these.
  • the wall element of the hanging and / or shelving system may be a rear wall mounted on at least one support of the hanging and / or shelving system or a dedicated wall element mounted on a support, preferably a slotted rail of the overhead and / or shelving system, and only thereto intended to carry the stripline.
  • the wall element can be arranged in use substantially vertically, if necessary, slightly inclined relative to the vertical, for example, on rack rails or other support beams of the hanging and / or shelving system.
  • the wall element can also be kinked, bent and formed otherwise uneven.
  • the wall element is preferably made of a ferromagnetic metal, e.g. Iron, nickel, cobalt, ferromagnetic steel, alloys of these or combinations thereof.
  • the support member is used for suspension, attachment or other support of objects, such as presentation goods or other things, and may be configured as a tray, a shelf, a basket or as a support arm.
  • the carrier element is preferably detachable from the hanging and / or shelving system and can be mounted at different heights on the wall element, on a support, for example a shelf rail, or on another element of the hanging and / or shelving system.
  • An electrical or electronic device, in particular a lamp, can be arranged on the carrier element, which can be supplied with energy via the electrification system.
  • the stripline of the electrification system is mounted flat on the wall element in a substantially vertical orientation with its rear surface.
  • the assembly and a secure hold of the stripline to the wall element are accomplished solely by the magnetic material of the carrier of the stripline.
  • no additional mechanical securing or adhesive such as tapes, screws, nails, staples or the like.
  • the electrical energy source is preferably a low voltage DC voltage source, e.g. with a rated voltage of 12 volts or 24 volts.
  • the power take-off module of the electrification system preferably has a fastening device for the positive and optionally non-positive attachment to the carrier of the stripline, preferably the above-mentioned wing elements for clipping on this.
  • the fastening device may advantageously be integrally formed with the current collecting module.
  • the power take-off module may be independent of the carrier element of the hanging and / or shelving system.
  • the Abgriffuttone the Stromab fortunemoduls are positioned in such a way and protrude out of the housing to the outside so that they get in contact with the at least two electrical conductors of the stripline on the wall element in a mounting of the power take-off module on the strip line, pivoted into the housing and mounted in the State by the spring force to the outside, be pressed into safe conductive contact with the associated electrical conductors to provide a conductive connection to the current drain of these.
  • the hanging and / or shelving system may have any number of different types of support elements that are mounted at different heights on the hanging and / or shelving system by hanging, screwing or otherwise can, wherein the electrical connection is provided for provided on the support members electrical equipment simply by attaching the power take-off module to the stripline.
  • the magnetic adhesive force of the strip-shaped carrier of the stripline can be dimensioned and means for fastening, for example for clipping, and for holding the current-collecting module to the stripline are set up in such a way that that when exercising a power take-off module of the strip line wegssenden external force of a predetermined minimum strength, the power take-off module of the strip line solved, eg is clipped without being damaged and without tearing off the stripline of the wall element of the hanging and / or shelving system.
  • suitable bevelled or rounded corners of the engagement hooks may be provided on the wing elements of the housing of the power take-off module, which cooperate with associated bevelled or rounded portions on the engagement strips of the band-shaped carrier.
  • unintentional tearing of the stripline from the wall element of the hanging and / or shelving system can be prevented if it is accidentally pulled strongly on the power take-off module or on a power cable connected thereto.
  • portions of the attachment means such as the engagement hook and the engagement strips, be suitably bevelled or rounded to one another such that the Stromabnahemodul can be fixed by pressing against the stripline to this alone without having to manually pivot the wing elements.
  • the wing elements can dodge when pressed against the carrier of the strip line, overcome the engagement strips and engage behind them.
  • the electrification system according to the invention and the resulting hanging and / or racking system are simple in structure and make it possible to integrate, handle and operate electronic devices in a simple and cost-effective manner.
  • Power and / or electrical data can be supplied via the electrical conductors, and the necessary electrical connection is made quickly and easily during assembly of the power take-off module at any point of the stripline.
  • the cost of materials is extremely low.
  • the attachment and reassembly of the magnetic stripline to a metal backplane is extremely easy and fast.
  • the invention makes it possible, with little effort, to construct suspension, shelf or presentation walls according to any individual design and aesthetic wishes with high flexibility.
  • the invention is not limited to the preferred application for the construction of sales rooms and exhibition stands. It can also be used for residential purposes, for kitchens and bathrooms, for the construction of offices, for various pieces of furniture and the like.
  • the electrification system can also be easily integrated into existing hanging and / or shelving systems.
  • Fig. 1 shows in a highly simplified, partial perspective view of a shelving system 1, which can be used, for example, for the presentation of goods in stores, on exhibition stands or the like.
  • the system 1 represents only one example of a hanging and / or shelving system 1 according to the invention, which could also be used in the home or in offices for hanging articles, small furniture or the like and for storing objects.
  • the exemplary shelf system 1 here has two spaced apart and parallel to each other, in use with its longitudinal direction vertically aligned shelf rails 2a, 2b, which serve to hold different support elements of the hanging and / or shelving system 1.
  • the shelf rails 2a, b can be placed on suitable, not shown here supports on a floor of a showroom or mounted in the case of a wall shelf directly or via suitable suspension devices on a vertical wall of a room.
  • the shelf rails 2a, b point to their in Fig. 1 facing the viewer front or here two rows of perforations or through slots 3, which are arranged in the longitudinal direction of the shelf rail 2a, b at a uniform distance and the attachment of components of the shelving system 1 are used.
  • Fig. 1 are attached to the shelf rails 2a, b, a rear wall 4 and a shelf 6 as an exemplary support member of the shelving system 1.
  • the rear wall 4 extends in Fig. 1 between the two illustrated shelf rails 2a, b and connects them together.
  • the rear wall 4 may be fastened thereto via not shown hook-shaped engagement elements which engage in inner rows of the slots 3 of the shelf rails 2a, b.
  • the rear wall 4 could also in other ways, for example. By screwing, also be attached to the sides of the shelf rails 2a, b.
  • the rear wall 4 could also be attached directly to a vertical wall of a room.
  • the rear wall 4 is arranged here in use substantially vertically, but may also be arranged inclined as needed. It is flat, formed with a flat front surface 5, although this preferred embodiment is not mandatory. The rear wall 4 could also be kinked, bent and formed otherwise uneven.
  • the rear wall 4 is made of a magnetic or magnetizable material, in particular metal, so that a magnet can be attached to it. It is preferably made of a ferromagnetic metal, e.g. Iron, nickel, cobalt, ferromagnetic steel, alloys of these or combinations thereof.
  • a ferromagnetic metal e.g. Iron, nickel, cobalt, ferromagnetic steel, alloys of these or combinations thereof.
  • Shelf 6 here is a shelf that has a substantially planar upper side 7, a front bar 8, which is arranged at the front edge of shelf 6, and a rear edge 9 opposite the front edge, which runs in the vicinity and along rear wall 4.
  • a front bar 8 which is arranged at the front edge of shelf 6, and a rear edge 9 opposite the front edge, which runs in the vicinity and along rear wall 4.
  • Fig. 2 can be seen, showing a simplified, enlarged perspective view with a view from below of the shelf 6, this has a flat bottom surface 11 in the illustrated embodiment.
  • the shelf 6 can be made with different dimensions, for example made of metal, especially steel, with wood, plastics, and other materials in question. It can optionally be provided not shown here transverse struts on the lower surface 11 for stiffening the shelf 6.
  • the shelf 6 can be mounted on the shelving system 1 at different heights via conventional angle brackets 13a, 13b, which carry the shelf 6 on its transverse sides.
  • the angle brackets 13a, b have this hook-shaped in a conventional manner Fortsuits 14, which can be hung in the slots 3.
  • Such angle brackets 13a, 13b are well known and need not be further explained here. They are not essential to the invention as such.
  • the shelf 6 or other support element such as. A basket, a support arm or the like., In any way, for example. By screwing, bolted, by simply placing on lateral support strips and the like., On a hanging and / or shelving system be attached.
  • the shelf 6 a lamp 16, for example.
  • a halogen or LED lamp which is arranged here at the front edge of the shelf 6 along the front bar 8 and mounted on the lower surface 11.
  • the lamp 16 makes it possible to illuminate goods presented on a shelf underneath and to achieve different visual effects. It can also serve as lighting in wardrobes or the like.
  • the luminaire 16 represents only an exemplary electrical or electronic device that can be provided on a hanging and / or shelving system 1.
  • the lamp or the device 16 is an electrical or electronic device that is supplied with DC energy in the low voltage range, for example. With a DC voltage of 12 volts or 24 volts.
  • the electrification system 17 forms an interface between the electrical device 16 to the hanging and / or shelving system 1 and the low-voltage power supply device.
  • To the electrification system 17 essentially includes a line assembly 18, which is to be electrically connected to the power supply device, and a power take-off module 19, which picks up the voltage and the current from the line assembly 18 and passes on to the light 16.
  • the lamp 16 is electrically connected to the power take-off module 19 via a connection cable 21 which is guided and secured along a transverse edge of the shelf 6 at its lower surface 11, as seen from Fig. 2 seen.
  • the electrification system 17 is described below in connection with FIGS FIGS. 3 to 14 explained in more detail.
  • Fig. 3 shows a plan view from the front of a line assembly 18 of the electrification system 17 in a simplified representation.
  • the line arrangement 18 essentially comprises a stripline 22 which, as well as from FIGS Figures 1 and 2 recognizable, flat on the front surface 5 of the rear wall 4, preferably mounted in a vertical orientation.
  • the stripline 22 is connected to a connection cable 23 which carries at its other free end a connector 24 for connection to the power supply device.
  • a first shrink tube 26 is arranged to electrically insulate the connection point against the environment and to protect against mechanical damage.
  • a second shrink tube 27 is at the in the FIGS. 1 and 3 upper end of the strip line 22 is provided. It is understood that at least one of the shrink tubes 26, 27 omitted, the connection of the strip line 22 with the connection cable 23 different procure and the connector 24 also of a different type, than in Fig. 3 could be represented.
  • the stripline 22 may have any length and, for example, depending on the height of the hanging and / or shelving system 1, in particular the rear wall 4, also be two meters long or longer. In Fig. 3 it is only partially, interrupted shown. The stripline 22 will be described in more detail below with reference to FIGS FIGS. 4 and 5 explained.
  • Fig. 4 shows the stripline 22 in a simplified perspective cutaway view, while Fig. 5 she shows in a top view from above.
  • the stripline 22 is an integral assembly comprising a strip or web-shaped carrier 28 and electrical conductors or conductor elements 29a, 29b embedded therein.
  • the carrier 28 is made of a magnetic and insulating material. The magnetic properties of the carrier 28 make it possible for the stripline 22 to be applied directly to the magnetic or magnetizable metal rear wall 4 of the hanging and / or shelving system 1 solely by virtue of the magnetic adhesive force, without any additional aids, such as adhesive tapes, screws or the like fasten.
  • the insulating material properties of the carrier further enable the electrical conductors 29a, 29b to be embedded directly in the carrier without the need for or having additional insulator elements or spacers to electrically insulate the conductors 29a, b from the carrier 28 and / or from each other ,
  • the carrier 28 may preferably be made of a permanent magnetic plastic material having embedded in a plastic binder powdered permanent magnet material (not illustrated here).
  • the plastic binder may be a thermoplastic binder, preferably based on polyethylene (PE), in particular chlorinated polyethylene (CPE), polyamide (PA) or polyphenylsulfide (PPS), or a Duroplast, preferably based on epoxy resin.
  • the permanent magnet material is preferably a hard ferrite, in particular barium or strontium ferrite.
  • the carrier 28 can be produced by extruding, injection molding or compression molding and can be permanently magnetized on one side after the production process, so as to have a residual remanence of at least 50 mT, preferably more than 100 mT.
  • the carrier 28 has a substantially rectangular cross-sectional shape with a back 31, a front 32 and two narrow sides 33, 34 which connect the back 31 with the front 32.
  • the rear side 31 has a flat rear surface 36, which allows a surface mounting of the strip line 22 on the rear wall 4.
  • the back surface 36 defines with a front surface 37 of the carrier 28 a depth of the carrier 28 which is significantly smaller than the width of the carrier 28.
  • the small depth dimension and the addition of a suitable material, eg plasticizer, to the plastic binder, the strip line 22 something be flexible, which facilitates their handling and also allows attachment to non-planar back walls.
  • the width of the carrier 28 is sufficient to allow the juxtaposition of the two thin band-shaped electrical conductors 29 a, b at a small distance and parallel to each other along the carrier 28.
  • the conductors 29a, b are thin sheets, preferably made of nickel silver, although they may in principle be formed of copper.
  • the conductors 29a, b are housed in slots 35, 39 running parallel to one another and running parallel to one another, which are spaced apart from the front surface 37 in the interior of the carrier 28.
  • the slots 38, 39 are respectively connected to the outside environment via narrow passage gaps 41, 42 formed in the front surface 37 so that the slots 38, 39 and the electrical conductors 29a, b disposed therein pass through the passage gaps 41, 42 of FIG are accessible outside.
  • the conductors 29a, b are recessed slightly recessed from the front surface 37 so as to provide some protection against accidental contact or short circuits.
  • the electrical conductors 29a, b are held only in a form-fitting manner in the slots 38, 39 and have a shape matching the shape of the slots 38, 39.
  • the slots 38, 39 and the conductors 29a, b are substantially rectangular in cross-section, although other mating cross-sectional shapes are possible.
  • the conductors 29a, b may be drawn into the carrier 28 from one end of the stripline 22 and are held therein by positive engagement. There are preferably no holding or adhesive means for fixing the conductors 29a, b required or present in the carrier 28.
  • the carrier 38 further comprises a groove 43 which is arranged in the front surface 37 and at a distance and parallel to the slots 38, 39 and passage gaps 49, 42 extends.
  • the groove 43 serves the reverse polarity protection, as explained in more detail below.
  • the carrier 28 of the narrow sides 33, 34 laterally projecting engagement strips 44a, 44b, which the fuse of the power take-off module 19 on the strip line 22nd serve.
  • the transitions of the engagement strips 44a, b to the front surface 37 form roundings or bevels 46a, 46b which facilitate mounting of the current collection module 19 on the stripline 22.
  • further rounded portions or bevels 47a, 47b are provided on the rear side of the outer edges of the engagement strips 44a, b, which support disassembly of the current removal module 19.
  • the power take-off module 19 is in the FIGS. 6 to 14 illustrated in more detail.
  • FIGS. 6 and 7 show simplified perspective views of the power take-off module 19 with respect to the rear or front side, while the FIGS. 8 and 9 a plan view of the power take-off module 19 with a view of its top and bottom, based on the usual position of use show.
  • the power take-off module 19 has a housing 48, which has substantially the shape of a straight prism with a rectangular base.
  • the housing 48 has a front end face 49 which, in use, such as in Fig. 2 shown, the strip line 22 facing and in Fig. 7 is visible, a back surface 51, in Fig. 6 is visible, an upper surface 52, a lower surface 53 and two side surfaces 54, 56 on.
  • the housing walls 49, 51, 52, 53, 54 and 56 define an interior 57 of the housing 48 between them.
  • two mutually parallel passage openings 58, 59 are formed, which connect the interior 57 of the housing 48 with the outside.
  • the passage openings 58, 59 extend along the end face 49 from the upper side 52 to the lower side 53.
  • Through the passage openings 58, 59 pass through two pieces of wire 61, 62, which serve the current decrease of the strip line 22 and hereinafter in connection with Fig. 10 are explained in more detail.
  • an opening 63 is formed which forms a connector output terminal of the power take-off module 19.
  • the output terminal 63 is formed here in the manner of a female connector which is adapted to a corresponding connector, for example.
  • the connecting cable 21 see. Fig. 2
  • two wing elements 64, 66 are integrally formed on the housing 48, which serve to mount the power take-off module 19 on the strip line 22.
  • a wing member 64, 66 is disposed on each of the side surfaces 54, 56 of the housing 48 and preferably integrally formed therewith so that the entire housing 48 can be made in one piece, eg, plastic by injection molding or by additive manufacturing.
  • Each wing element 64, 66 is designed in the manner of a two-sided lever and connected via a web 67 and 68 with the associated side surface 54 and 56, respectively.
  • the webs 67, 68 serve as articulation points about which the wing elements 64, 65 with respect to the side surfaces 54, 56 are pivotable.
  • the webs 67, 68 define front arms 69, 71 and rear arms 72, 73 of the wing members 64, 66, wherein the front arms 69, 71 extending from the web 67, 68 in the direction of the end face 49 and protrude beyond this, while the rear arms 72nd , 73 extend rearwardly from the web 67, 68 to the rear surface 51.
  • the wing members 64, 66 may be slightly skewed relative to the respective side surfaces 54, 56 respectively, facilitating handling by gripping the rear arms 72, 73 with one hand to pivot the wing members 64, 66 and the forearms 69, 71 on the To be able to clamp carrier 28 of the stripline 22.
  • the front arms 69, 71 respectively as engaging hooks or claws 74, 76 formed end portions, which in the Are able, the engaging strips 44a, 44b of the carrier 28 of the strip line 22 to engage around and engage behind.
  • the engagement hooks 74, 76 of the wing elements 64, 66 have rounded hook ends 77, 78 which can cooperate with the rounded portions or bevels 66a, 66b or 67a, 67b of the carrier 28 in order to assemble or disassemble the current take-off module 19 to support from the stripline 22.
  • a wire piece 61 provided for current collection in the current collection module 19 is illustrated.
  • the wire pieces 61, 62 are formed as multiply bent wire pieces with a round cross section. They are designed identically, so that it is sufficient, only a single one of them, for example, the in Fig. 10 described wire piece 61 and the description applies in the same way for the wire piece 62. To distinguish parts of the wire piece 61 are additionally denoted by the letter "a”, while those of the wire piece 62 carry the additional letter "b".
  • the wire piece 61 has a first end portion 79a that is bent or kinked to form a tap contact 81a.
  • the piece of wire 61 extends over an inclined section 82a, which merges via a first bending point into a horizontal, straight intermediate section 80a, which in turn via a further bending point into a straight, in Fig. 10 vertically upwardly extending second end portion 84a merges.
  • the wire piece 61 is arranged in the inner space 57 and on the housing 48 such that the first end portion 79a projects with the tapping contact 81a and the inclined portion 82a out of the end face 49 of the housing 48 to the outside, the horizontal intermediate portion 82a extends along and parallel to the lower surface 53 and the second end portion 84a protrudes from the lower surface 53 through an opening therein provided through 85a back into the interior space 57 of the housing 48 and extends vertically upwards.
  • a free end 86a of the second end portion 84a forms a terminal contact pin disposed in the opening 63 and accessible from outside for connection purposes from the top.
  • the second piece of wire 62 also includes an angled first end portion 79b having a tapping contact 81b formed at a bend or bend, an adjoining tapered portion 82b, an intermediate portion 83b, and a second end portion 84b whose free end 86b forms a terminal contact pin which is disposed in the opening 63 of the output terminal of the housing 48 and accessible from outside, as is apparent from Fig. 8 is apparent.
  • the wire pieces 61, 62 can be easily mounted in the housing 48 by inserting the second end portions 84a, 84b through the apertures 85a, 85b into the interior space 57 until they are replaced by mating bearing portions 90 (see FIG. Fig. 11 ) are received in the interior of the housing 48 with slight clamping. The first sections 79a, 79b then find their way into the associated passage openings 58 and 59, respectively.
  • the handling and operation of the electrification system 17 described so far will be described below with additional reference to the FIGS. 11 and 12 to be discribed.
  • the electrification system 17 can be used as follows: It is assumed that the lamp 16 on the lower surface of the shelf 6 after Fig. 1 and 2 on the hanging and / or shelving system 1 is to be operated and the shelf 6 is not yet mounted on the system 1. If not already done, the line assembly 18 with the stripline 22 at a suitable location of a wall element of the shelving system 1, for example. Along the left edge of the rear wall 4 as in Fig. 1 , attached.
  • connection cable 21 can, as in Fig. 2 illustrates are fixed to the shelf.
  • the shelf 6 can be mounted on the shelving system 1.
  • the angle brackets 13a, 13b, on which the shelf 6 is mounted in the slots 3 of the shelf rails 2a, 2b, corresponding to the desired height, mounted.
  • the angle brackets 13a, 13b are inserted with their engagement hooks 14 in slightly downwardly inclined position in the support 3 and then pivoted down until the brackets 13a, 13b are supported against the shelf rails 2a, 2b and the shelf 6 securely to this is held.
  • the power take-off module 19 can be fixed to the strip line 22.
  • a user can Grasp wing members 64, 66 of the housing 48 of the power take-off module 19 on the rear arms 72, 73 by hand and squeeze lightly to pivot the front arms 69, 71 of the wing members 64, 66 as far as the opening between the engagement hooks 74, 76th the wing members 64, 66 is equal to or greater than the width of the beam 28 measured between the outer ends of the engaging ledges 44a, 44b.
  • the power take-off module 19 can be pressed against the strip line 22 until the engagement hooks 74, 76 of the wing elements 64, 66 pass through the engagement strips 44a, 44b of the carrier 28 and engage behind.
  • the wing elements 64, 66 of the carrier 28 is gripped by the front arms 68, 71 of the power take-off module 19 and the power take-off module 19 securely held on the carrier 28.
  • the electrical contact between the electrical conductors 29a, b of the strip line 22 and the tap contacts 81a, b is also simultaneously established, whereby the respective circuit is closed, to which the wire pieces 61, 62, Connecting line 21 and the lamp 16 or the like. Belong.
  • the spring force due to the elasticity of the wire pieces 61, 62 presses the tapping contacts 81a, 81b firmly against the conductors 29a, b so that permanent contact is ensured as long as the current collecting module 19 is attached to the stripline 22.
  • the power take-off module 19 can be mounted anywhere within the reach of the connection cable 21 on the stripline 22 to provide the power connection. This increases the flexibility compared to conventional systems, which allow only discrete connection points.
  • power take-off module 19 can be quickly released from stripline 22 by slightly compressing the wing members 64, 66 back on the rear arms 72, 73 until the engagement hooks 74, 76 Release the engagement strips 44a, 44b and the power take-off module 19 can be removed from the stripline 22. Subsequently, the shelf 6 can be simply unhooked and hung up again elsewhere, and the power take-off module 19 can be attached to the strip line 22 in the vicinity of the shelf 6 in accordance with the procedure explained above to make the power connection for the lamp 16.
  • the housing 48 of the power take-off module 19 may be formed differently because it is independent of the support member of the hanging and / or shelving system. It can not only tray-shaped support elements, such as the shelf 6, but also support arms, body or the like. Used and equipped with the electrification system 17 according to the invention. The shape of the housing 48 does not have to be adapted to the carrier element
  • the hanging and / or shelving system does not have to be based on slot carriers. It can be formed by any piece of furniture or a presentation wall, which can also use support rails or sockets for support elements. However, the rails or sockets are not the electrification.
  • the strip line 22 is not arranged in the interior of a shelf rail, a carrier rail or a socket, but flat on the outside of a wall element, e.g. on the rear wall 4 of the hanging and / or shelving system 1, mounted and preferably held only by the magnetic force of the carrier 28 of the strip line 22, which significantly simplifies the manufacturing and assembly costs.
  • magnetic or magnetizable plates e.g. made of metal, or the like. Are mounted on this, or the strip line 22 is attached by means of double-sided adhesive tape, Velcro, screws, staples or the like.
  • FIGS. 13 and 14 show further features of the electrification system 17 according to the invention, which may optionally be provided.
  • FIG. 13 FIG. 12 illustrates a case when attempting to attach and connect the power take-off module 19 to the stripline 22 in the wrong direction.
  • the stripline 22 can be mounted upside down on the rear wall 4 or trying to connect the current collection module 19 in a wrong arrangement with the stripline 22 such that the tapping contacts 81a, 81b would respectively contact the electrical conductors 29a, 29b of the wrong polarity. How out Fig.
  • FIG. 14 If, for example, an external force F is exerted on the power take-off module 19 in such a way that it attempts to pull the power take-off module 19 away from the stripline 22, if, for example, accidentally pulled on the connection cable 21 connected to the power take-off module 19 is, the current collection module 19 is automatically released or clipped from a predetermined minimum strength of the external force of the strip line 22.
  • the rounded portions 47a, 47b on the engaging ledges 44a, 44b then act with increasing force against the rounded hook ends 77, 78 of the forearms 69, 71 of the wing members 64, 66 until the forearms 69, 71 deflect outwardly and upon further exercise the force F can overcome the engaging strips 44a, 44b.
  • the power take-off module 19 is released from the stripline 22 without tearing it away from the rear wall 4 of the hanging and / or shelving system 1.
  • the magnetic adhesion of the stripline 22 to the backplane 4 is sufficiently selected to withstand the maximum force applied to the stripline 22 when the power take-off module 19 is released from the stripline 22.
  • the fillets 46a, 46b at the transition to the front surface 37 of the engaging ledges 44a, 44b may also assist in mounting the power take-off module 19 to the stripline 22 by engaging with the rounded hook ends 77, 78 of FIG Forearms 69, 71 engage and can displace them outwardly until the engagement hooks 74, 76 overcome the engaging ledges 44a, 44b without the wing members 64, 66 being pivoted sufficiently outwardly by the user.
  • FIGS Figures 15-21 Further embodiments of components of an electrification system 17 according to the invention are described in FIGS Figures 15-21 illustrated. As far as consistent with the embodiments described above, reference is made to avoid repetition, based on the same reference numerals to the above description.
  • FIGS. 15-18 show a further embodiment of a power take-off module 19 'according to the invention. This is in the FIGS. 15 and 16 in a perspective view looking at the back 51 and the front 49 of the housing 48 'and in FIG. 18 in cross-section, cut by a horizontal plane perpendicular to the end face 49, and illustrated in the mounted on the strip line 22 state.
  • FIG. 17 shows a perspective view of a board, which in the power take-off module 19 'is used.
  • the power take-off module 19 ' In contrast to the embodiment according to the Figures 6-14 is the power take-off module 19 'according to the FIGS. 15-18 adapted to connect a plurality of electrical loads 16 to a common power take-off module 19 '.
  • the power take-off module 19 ' also has a housing 48' which is in the form of a straight prism having an end face 49, a rear face 51, upper and lower faces 52, 53 and side faces 54, 56, however, the end face 49 substantially here is open, so that a single passage opening 58 'is formed, through which the wire pieces 61', 62 'extend through and out of the end face 49 to the outside to get in contact with the conductors 29a, 29b of the strip line 22.
  • the housing 48 ' is extended rearwardly toward the rear surface 51 by a housing extension 87 to provide space for accommodating a plurality of, in the present case, three connector output terminals 88, 89, 91 connected to the connection cables of lights or other electrical equipment can be.
  • These output terminals 88, 89, 91 are accessible from the outside via an opening 63 'formed in the rear surface 51.
  • the connector output terminals 88, 89, 91 respectively have pin-shaped contacts 92a, 92b, 93a, 93b and 94a, 94b, which are respectively pairwise associated with each other and arranged one above the other to allow the connection of mating receptacles of connection cables 21.
  • a circuit board 96 provided, which accomplishes the required wiring.
  • the wire pieces 61 ', 62' and the contact pins 92a, 92b, 93a, 93b and 94a, 94b are secured and held to the board 96 and electrically connected thereto.
  • the wire pieces 61 ', 62' are the wire pieces 61, 62 from FIG. 10 also have a first section 71a or 71b, a tapping contact 81a or 81b, an adjoining inclined section 82a or 82b, an intermediate section 83a, 83b connected via a first bending point to the inclined section 82a or 82b, the in Fig. 17 is disposed substantially horizontally, and a second end portion 84a 'and 84b' on. However, the second end portions 84a 'and 84b' are laterally bent away to be secured to the board 96.
  • the circuit board 96 has a main body 97 of an electrically insulating material and a first and a second conductor track 98, 99, which on a, in Fig. 17 the viewer facing side of the plate-shaped base body 97 in the form of conductive surfaces which adhere to the base body 97, are formed.
  • the conductor tracks 98, 99 are separated from one another by sections of the main body 97 and are electrically insulated.
  • the free end 86a 'of the first piece of wire 61' is extended through a first connection hole 101, which passes through the base 97 in the region of the first conductor 98, and the free end 86a 'is electrically connected to the first conductor 98, for example to this soldered.
  • the free end 86b 'of the second piece of wire 62' is extended through a second connection hole 102 which passes through the base 97 in the region of the second conductor 99, and the free end 86b 'is electrically connected to the second conductor 99, for example to this soldered.
  • bent ends 103a, 103b, 104a, 104b and 106a, 106b are also used the contact pins 92a, 92b, 93a, 93b and 94a, 94b passed through corresponding through holes in the base body 97 and electrically connected to the first and second conductor track 98, 99, respectively.
  • one of the pair of contact pins 92a, b, 93a, b or 94a, b which form a respective connector output terminal 88, 89 and 91, is conductively connected to the first wire piece 61 'via the first conductor track 98, while the other of the pair of contact pins via the second conductor 99 with the second wire piece 62 'is conductively connected.
  • the circuit board 96 can be equipped with the two pieces of wire 61 ', 62' and the connection contacts 92a, b, 93a, b and 94a, b and housed as a preassembled unit in the interior 57 of the housing 48 '.
  • FIG. 16 can be seen in the interior 57 of the housing 48 'rail-shaped receptacles 107a, 107b and 108a, 108b integrally formed on the top and bottom so that the assembled board 96 as a whole through the passage opening 58' in the interior 57 and the rail-shaped receptacles 107a, b and 108a, b can be inserted to be held therein.
  • the contact pins 92a, b, 93a, b, 94a, b automatically pass through associated through holes 109 formed in an intermediate wall 111 which encloses a front portion 112 in which the circuit board 96 is housed a rear portion 113 of the interior space 57 which has the externally accessible output ports 88, 89, 91.
  • the through holes 109 in the intermediate wall 111 is only one in Fig. 18 shown.
  • the power take-off module 19 ' is used in the same way as the power take-off module 19 by being clamped to the stripline 22 by means of the wing members 64, via the tapping contacts 81a, 81b of the wire pieces 61 ', 62' automatically a current tap on the electrical conductors 29a, 29b of the strip line 22 takes place.
  • the wing members 64, 66 are identical to the wing members of the first embodiment, including the rounded hook ends 77, 78 which facilitate handling, and also function in the same manner.
  • the power take-off module 19 ' also has the projection 60 in the form of an elongated rib formed on the end face 49, which cooperates with the groove 43 of the carrier 28 of the strip line 22 to provide reverse polarity protection.
  • the second embodiment allows three electrical terminals 16 to be connected to stripline 22 via a single common power take-off module 19 '.
  • Power take-off module 19' could also have two or more than three connector output terminals 88, 89, 91 ,
  • FIG. 19-21 show a further embodiment of a stripline 22 'according to the invention, which in conjunction with any power take-off module 19, 19' of the embodiments of Figures 6-18 can be used.
  • FIG. 19 shows the stripline 22 'in a fragmentary perspective view, while FIG. 20 she in a top view from above and FIG. 21 it represents in a cross section with attached current collection module 19 or 19 '.
  • the stripline 22 'according to the Figures 19-21 differs from the above-described stripline 22 essentially only in that they on the front side 32nd the carrier 28 has additional covering means 114a, 114b which at least largely close the access to the electrical conductors 29a, 29b from outside and thus provide additional protection against unintentional contact and shorting of the conductors 29a, 29b.
  • the passage gaps 41, 42 are covered by the covering means 114a, 114b and substantially blocked.
  • the lips 116a, 116b extend in the illustrated starting position from the opposite edges of the respective passage gap 41, 42 towards each other, substantially flush with the front surface 37 of the carrier 28.
  • the free ends of the lips 116a, 116b touch or stand very close to each other.
  • the lips 116a, 116b have an extremely small thickness of, for example, less than 1 mm and are designed to be resilient so that they can fold away under load from an external force.
  • FIG. 21 shows a situation in which the power take-off module 19 or 19 'attached to the strip line 22' and the spring biased Abgriffessore 81a, 81b elastically bend the lips 116a, 116b at least in a localized area around the respective passage gap 41, 42nd to open and so between each other to provide access to the slot 38 and 39, respectively.
  • the tapping contacts 81a, 81b can then pass through the respective passage gap 41, 42 and come into contact with the associated electrical conductor 29a, 29b.
  • An electrification system 17 is provided for a hanging and / or shelving system 1, wherein the electrification system 17 comprises a stripline 22, 22 'and a current collection module 19, 19'.
  • the strip line 22, 22 ' comprises a band-shaped carrier 28 with a flat back 31 for surface mounting to a wall element 4 of the hanging and / or shelving system 1 and a front side 32 in which at least two electrical conductor elements 29a, b at a distance from each other, from are embedded outside accessible.
  • the carrier 28 is formed of a material which is both magnetic to be attached to a magnetic or magnetizable wall element 4 solely by magnetic adhesion, and is also electrically insulating to the electrical conductor elements 29a, b without additional insulating means or layers to record immediately.
  • the power take-off module 19, 19 ' has a housing 48, 48' from which at least two spring-mounted tap contacts 81a, b for contacting the at least two electrical conductor elements 29a, b of the strip line 22, 22 'protrude.
  • the power take-off module 19, 19 ' may have means 64, 66 for attachment to the carrier 29 of the strip line 22, 22', wherein a StromabgriffKey between the AbgriffCounten 81 a, b and the electrical conductor elements 29 a, b is made simultaneously with the attachment.
  • a hanging and / or shelving system 1 with such an electrification system 17 is also disclosed.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Elimination Of Static Electricity (AREA)
  • Warehouses Or Storage Devices (AREA)
EP19160351.3A 2018-03-13 2019-03-01 Système de rayonnage doté d'un système d'électrification Active EP3539425B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE102018105699.0A DE102018105699B4 (de) 2018-03-13 2018-03-13 Elektrifizierungssystem für Hänge- und/oder Regalsysteme und Hänge- und/oder Regalsystem mit derartigem Elektrifizierungssystem

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EP3539425A1 true EP3539425A1 (fr) 2019-09-18
EP3539425B1 EP3539425B1 (fr) 2021-10-20

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP3859909A1 (fr) * 2020-01-31 2021-08-04 Wieland Electric GmbH Sortie d'un agencement linéaire de distributeur de courant doté d'une carte de circuit imprimé
CN113958892A (zh) * 2021-11-04 2022-01-21 杭州鸿世电器股份有限公司 一种适用于开关和插座的预警智能炫彩灯带

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EP2034871A2 (fr) * 2006-06-29 2009-03-18 HMY Gestion Gondole filaire
DE202013008733U1 (de) * 2013-09-23 2015-01-05 Volker Hantelmann Flexible magnetische Lichtschiene mit Vertiefung für wechselnde Halterungssysteme

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EP3859909A1 (fr) * 2020-01-31 2021-08-04 Wieland Electric GmbH Sortie d'un agencement linéaire de distributeur de courant doté d'une carte de circuit imprimé
CN113958892A (zh) * 2021-11-04 2022-01-21 杭州鸿世电器股份有限公司 一种适用于开关和插座的预警智能炫彩灯带

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