EP1764872A2 - Bus bar connection module - Google Patents

Abstract

The module has clamping rings arranged in a plane one behind the other, and a housing with retainer chambers (26a, 26b) for contact springs (27a, 27b), where the contact springs are horizontally provided in a plane next to each other. The retainer chambers are fixed through walls and/or plates, which are molded and/or sprayed at a side wall (25) of the housings. Other retainer chambers are provided adjacent to the retainer chambers (26a, 26b) for retaining one of the clamping rings.

Description

The invention relates to a busbar connection module with a housing and a predetermined, arranged in the housing number of clamping devices for receiving and fixing electrical cables stripped cable ends according to the preamble of patent claim 1.

In Fig. 1, a known busbar connection module is described, which is formed in three poles and consists of a housing by a tuned to the number of poles number of clamping devices is provided. Fig. 1 shows a plan view of the connection module, which consists of a housing 1, in which in the illustrated embodiment, three clamping devices 2, 3, 4 are provided. Between the clamping devices 2, 3, 4 are partitions 5, 6. The lines are indicated in Fig. 1 with 7, 8, 9.

Fig. 2 shows a side view of a clamp, as referred to in connection with Fig. 1 with 2 to 4. The clamp 2 shown in FIG. 2 consists of a metal body 10, which is bent in a substantially U-shape and has two mutually parallel wall sections 10a, between which a housing-side fixed contact 11 is arranged and an adjustable relative to the metal body 10 mating contact 12, which by means of screw 13 relative to the contact 11 is adjustable in height for the purpose of clamping the stripped end of the cable 7 to 9. The approximately L-shaped bent or mouth-like end of the metal body 10 is located at the lower end of the module and is laterally closed by insulating walls, said the bottom provided with teeth 10c foot portion of the metal body engages under a bus bar, not shown in the figure, such that the mouth-like opening receives a busbar. The metal body 10 is bordered by insulating feet formed on the case bottom surrounding the body 10 on three sides.

Such a connection module includes cable connection terminals with terminal plates. The conductor connection terminals consist here of metallic holding bodies with wire protection bars and clamping screws. The connection module is placed on the busbars fastened, such that the cables or cables, which are usually performed by the housing down, do not interfere with each other. Depending on the cross-section of the cables, the terminals are placed on the busbars at a lateral distance. The terminals are commercially available for cable cross-sections from 16 to 300 mm. The busbar connection module has the connection plates of insulating material, such as plastic, which contain the conductor connection terminals. As described above, the terminals or clamping devices are already arranged in a corresponding distance insulating to each other, so that the lines are kept insulating on the adjacent phase rails.

Such a connection module has the disadvantage that a relatively large space requirement is required by the juxtaposition and longitudinally staggered arrangement of the clamping devices 2, 3, 4, i. the connection module has a complex overall structure. The further disadvantage is that the cable ends must be clamped by screwing with the aid of a tool for actuating the screw 13 or in the case of an exchange, the screw means 13 are to be solved.

The invention has for its object to improve a busbar connection module of the type mentioned so that a small footprint is required and the assembly of the stripped cable ends in a simple and fast way is feasible.

This object is achieved by the features specified in claim 1.

The invention provides a busbar connection module which is configured without screws and in which, according to the invention, the clamping devices for receiving the stripped-off cable ends are provided in a plane one behind the other. Such a screwless connection module can be used for cables with a cross section of max. 16 mm ² .

According to the invention, such a connection module may have a width of about 1 cm and is designed multipolar. For the purpose of connecting the stripped cable ends, it is hereby ensured in a simple and secure manner that the stripped cable ends are inserted from above through a passage opening down into the module and automatically locked by a present in the module clamping spring. The stripped conductor ends are in electrical contact with the contact spring present in the module on the one hand and a tongue of a locking spring on the other hand. If the line ends must be removed from the module, this can also be done in a simple and fast manner by the end of a screwdriver or other tool is guided through a separate through hole to wegzuschwenken one end of the locking spring from the locked position relative to the line end ,

In a preferred embodiment of the connection module according to the invention, the walls defining the receiving chambers are formed or molded onto a side wall of the housing, while the other side wall can be fastened to the base housing by latching means. In this way, the contact springs and locking springs can be installed easily and quickly for the purpose of their installation in the housing. In the busbar connection module according to the invention, the line exit, i. the exit of the connecting cable can be made upwards or downwards.

The housing is further provided with a cover which can be opened either swiveling upward or downward. This ensures that the cover does not have to be removed during the wiring process. In the open position, the cover is necessarily held and does not hinder the installation of the connection cable.

Furthermore, a latching element is integrated in the housing, which ensures a secure fit of the busbar connection module on all common rail widths of a busbar system. An integrally molded combi base pointing downwards on the housing allows it to be placed on current busbars with a thickness of, for example, 5 or 10 mm.

The busbar connection module according to the invention is intended for cables or cables with a maximum wire thickness of 16 mm ² .

In the following, preferred embodiments of the busbar connection module according to the invention will be described with reference to the drawing to explain further features.

• Fig. 1 eine Draufsicht auf ein bekanntes Stromschienenanschlussmodul,
• Fig. 2 die Darstellung einer bekannten Klemmeinrichtung zur Verwendung bei dem Stromschienenanschlussmodul nach Fig. 1,
• Fig. 3 eine perspektivische Seitenansicht des erfindungsgemäßen Anschlussmoduls,
• Fig. 4a eine Fig. 3 entsprechende Ansicht mit abgenommener Seitenwand zur detaillierten Erläuterung der Aufnahmekammern und der eingesetzten Kontaktfedern und Sperrfedern,
• Fig. 4b zeigt eine vergrößerte Teildarstellung aus Fig. 4a,
• Fig. 5 eine auseinandergezogene Ansicht des Anschlussmoduls zur Erläuterung der Einzelteile,
• Fig. 6a eine schematische Perspektivansicht eines Anschlussmoduls zur Erläuterung der Abdeckung, und
• Fig. 6b eine gegenüber Fig. 6a abgewandelte Darstellung zur Erläuterung der Funktionsweise der Abdeckung.

Show it:

• 1 is a plan view of a known busbar connection module,
• 2 shows the illustration of a known clamping device for use in the busbar connection module according to FIG. 1, FIG.
• 3 is a perspective side view of the connection module according to the invention,
• 4a view corresponding to FIG. 3 with removed side wall for a detailed explanation of the receiving chambers and the contact springs and locking springs used,
• 4b shows an enlarged partial view of FIG. 4a,
• 5 is an exploded view of the connection module to explain the items,
• 6a is a schematic perspective view of a connection module for explaining the cover, and
• Fig. 6b a comparison with Fig. 6a modified representation to explain the operation of the cover.

The busbar connection module according to the invention, hereinafter referred to as the connection module, will be described below. 3 shows a perspective view of the connection module, which consists of a housing 21 and a cover 22. On the housing 22 abstrebend foot sections 23a, 23b, 23c are provided down. The housing 21 and the foot portions 23a, 23b are made of a plastic material or of an insulating material. The foot sections 23a to 23c are used for placing on current bus bars, not shown, and include the electrical contacts of the connection module, as will be described below.

As is apparent from FIGS. 3 and 4, the connection module has two mutually parallel side walls 24, 25, wherein in Fig. 4a, the side wall 24 for the purpose of clarification the structure of the connection module is removed. In the illustrated embodiment, the side wall 24 may be secured by latching means against the side wall 25, as will be described.

According to FIG. 4 a, the connection module respectively contains a receiving chamber 26 a, 26 b, 26 c in the case of a three-pole configuration of the connection module for receiving a respective contact spring, which are designated 27 a, 27 b, 27 c in FIGS. 4 a and 5. Each receiving chamber 26a, 26b, 26c is open at the bottom, so that each contact spring 27a, 27b, 27c can be contacted by the busbars running in the region of the foot sections 23a, 23b, 23c. Within the downwardly open receiving chambers 26a to 26c is a bearing pin 28a, 28b, 28c, which is spaced from the adjacent wall 29, 30, 31, so that the respective contact spring can be guided around this bearing pin, as shown in Fig. 4a and Figure 5 shows.

The walls 29, 30, 31 defining the receiving chambers 26a, 26b, 26c have a predetermined course, which will be described below with reference to the wall 29. The wall 29 (FIG. 4a) consists of a substantially vertical, optionally slightly curved portion 29a and a substantially horizontal and substantially preferably straight portion 29b, wherein the walls 29a, 29b, which may also be referred to as webs, serve as lateral support walls of the respective contact spring 27a. The substantially horizontally extending wall or web section 29b serves to support the section 27a _{1 of} the contact spring 27a running parallel thereto (see FIG. 5). The bearing device 28a is surrounded by a bent spring portion 27a ₂ , which acts as a spring joint. Finally, each receiving chamber 26a, 26b, 26c is bounded by a lateral ridge 32 which, in the illustrated embodiment, extends vertically and keeps an opening slit 33 clear of the wall portion 29b through which the extension of the contact spring portion 27a ₁ passes ₄ a, before the section 27 a _{1 is followed by} a substantially vertically downwardly extending contact spring section 27a ₃ , that in FIGS. 4a and 5 to the right of the side wall 32 and substantially parallel to it, optionally spaced therefrom downward runs.

The end of the contact spring portion 27a ₃ is preferably slightly inward in the illustrated embodiment, ie, toward the bent portion 27a ₂ bent and seated in a bearing slot 35 which is formed in each foot portion 23 a, 23 b, 23 c side of the wall 32 to allow a secure Verrasterung the portion 27 a relative to the housing. In this way, it is achieved that each contact spring with its leg 27a ₃ fixed to the housing, ie the receiving or holding slot 35 is arranged and the leg 27a ₃ can not move away from its position when pushed onto the respective power bus.

As the figures 4 and 5 further show, the contact spring has a further bent portion 27a ₅ , to which a bent-back spring tongue 27a ₆ connects, which abuts with its slightly bent-back end 27a ₇ on the underside of the contact spring portion 27a _1, or when the connection module is placed or pushed onto the busbar. In non-operative operation, however, the spring end 27a _{7 can maintain} a small distance from the contact section 27a ₁ .

Between the bending areas 27a ₂ and 27a _{5 of} the contact spring there is a substantially straight section, which is designated 27a ₈ . From the enlarged view of FIG. 4b, the detailed course of a preferably used contact spring 27 is shown, wherein in the not placed on busbars state between the portion 27a ₁ and 27a ₇ preferably a gap of a few millimeters is present.

In addition to the receiving chamber 26a, a second receiving chamber 37a, 37b, 37c is provided, as shown in FIG. This second receiving chamber will be explained in more detail with reference to the chamber 37a and with reference to Fig. 4a, 4b and Fig. 5. The receiving chamber 37a is bounded on the left in Fig. 4b sides by the side wall 32 and by webs or walls 38, 39. In detail, reference is made to Fig. 4b. Between the webs or walls 38, 39 is a bearing device 40 in the form of a web or a rib, over which a clamping spring 42 is set. Depending contact spring such a leaf or clamping spring 42, 43, 44 is provided. The slightly inclined wall 39 merges in the illustrated embodiment into a substantially horizontally extending support wall 43 which protrudes from the wall 39 over a predetermined distance in the direction of the wall 32. The bearing device 40 in this case holds a predetermined distance from the wall 39, whereby the clamping spring 42 can be used on the bearing device 40 and partially in contact with the wall 39, 42 in the chamber 37 a. The Clamping spring 42 is formed accordingly and has, according to FIG. 4b, a bent spacing 42a, which essentially comes to rest on the bearing device 40, furthermore a largely straight section 42b extending therefrom, a section 42c extending therefrom, which in turn has a longitudinal slot 42d includes a width corresponding approximately to the tongue 42e which receives the clamping spring end located within the slot 42d. The clamping spring portion 42c thus apparently takes on the contact spring portion 27a ₃ and at the same time the Klemmfederendabschnitt 42e, the Klemmfederendabschnitt 42e in the manner described in Fig. 4b in the clockwise direction about the bearing means 40 is pivotable when a line end is inserted.

As is apparent from Fig. 4a, the clamping spring portion 42c is approximately in the horizontal direction and approximately perpendicular to the contact spring portion 27a, which is caused by the support wall 43, since the clamping spring portion 42c rests on the support wall 43 and is thereby held in this horizontal position. It can also be seen that the spring section 42b is in contact with the wall 39. Between the Klemmfederendabschnitt 42e and the bent portion 42a, there are two further, mutually slightly inclined sections 42f and 42g, which are shown for clarity only in Fig. 5. In order to limit the position of the clamping springs, in particular the position of the clamping spring portion 42g, a projection 38a is formed on the housing side of the boundary wall 38, which limits the movement of the clamping spring portion 42g.

As can be seen from FIG. 4a, each clamping spring 42, 43, 44 acts with the tongue section designated 42e in FIG. 4b in the direction of the contact spring section 27a. Since the clamping spring portion 42e clockwise around the bearing 40 can be pivoted, thus, the tongue portion 42e can be moved away from the contact spring portion 27a ₃ in the case where a pipe is inserted into the top through an opening to be described. The stripped line section thus comes to lie between the contact spring section 27a and the clamping spring section 42e and is fixed by the clamping spring section 42e such that it is locked or clamped against being pulled out in the direction of the upper side of the housing.

As is apparent from the above description, each contact spring 27 defines a double-springed contact, namely on the one hand in the region of the spring joint on the bearing device 28a, 28b, 28c and on the other hand by the bent portion 27a ₅ , which then acts spring, when the tongue portion 27a ₇ comes to the portion 27a ₁ in abutment.

As can be seen from Fig. 4a, located above each receiving chamber 37a, 37b, 37c, a through hole 45 through which a line end is passed with its stripped end to after striking the clamping spring 42 in the region of sections 42e and 42f this spring leg as explained, pivoting away in the clockwise direction, whereby the insertion of the stripped conductor end is made possible to a desired depth and parallel to the contact spring portion 27 a. In addition to the through-hole 45, there is formed a through-hole 46 independent therefrom, which allows access by means of a screwdriver or similar tool to the clamping spring portion 42g with the aim of pivoting the clamping spring portion 42f clockwise to disengage a lead end from the contact spring portion 27a ₃ and to release the Klemmfederendabschnitt 42e.

The above statements show that the connection module according to the invention thus enables a screwless attachment of line ends, which are inserted in a simple and fast manner through the respective passage opening 45 in the receiving chamber 37 a and 37 b and 37 c and by the action between the contact spring 27 a, etc. and Clamping spring 42a etc. are locked automatically and secured against being pushed out. However, the cable ends can be solved again in a simple and fast manner by using a screwdriver or other suitable tool, the clamping spring 42a, etc. operated in the manner described above, to release the cable ends.

Although in the embodiment described above, the through holes 45 and 46 are directed substantially vertically, they may also be inclined or otherwise provided to enable insertion of wire ends also in a different direction to the vertical direction.

The number of terminals for the connection lines is aligned in the illustrated embodiment to three line connections, ie for a three-pole Connection module. The number of poles can be increased or decreased as needed. Accordingly, the number of clamping devices must be increased or decreased.

It is essential that the fastening and clamping units for the terminals are each provided in a plane next to each other, whereby an extraordinary narrow construction of the connection module is ensured. The screwless connection module according to the invention thus ensures a secure, vibration-proof and gas-tight conductor clamping of the connection line. The above-described courses of the walls and webs also ensure the necessary length between poles in order to adapt creepage distances and clearances to the desired requirements.

For this purpose, from the wall 29 shown in Fig. 4a, a wall portion 47 obliquely upward, whereby the walls 47 and 29 give an approximately triangular shape and thus a comparably large distance between the lead-in section 45 and the contact spring 26a below the Wall 29b.

In the illustrated embodiment, a locking element 48 is further provided (Fig. 4a), which is biased by an angled foot in the counterclockwise direction. This ensures that after placing the connection module on the busbar system a secure fit relative to the busbar system is present. The sections 49 and 50 produce a spring effect. In particular, reference is made to FIG. 4a.

As is apparent from the drawing, the receiving chambers 37a, 37b, 37c are provided with laterally projecting, the foot sections forming supports which engage in the patch on the busbar system state, the busbars, as is well known. This combination feet or supports are designated in Fig. 4a with 53, 54, 55.

The side wall 24 shown in FIG. 5 is preferably provided detachably opposite the side wall 25 for securing the side wall 24 to the side wall 25. Of the side wall 25 are preferably in the region of the second receiving chambers 37a, 37b, 37c projecting locking means 58, 59, 60 are provided which engage after fitting of the side wall 24 in corresponding openings 61, 62, 63 (Fig. 5) of the side wall 24 and hold the side wall 24 at a distance from the side wall 25. Here, the side wall 24 comes in Appendix to the end edges of the walls 29, 47, etc. and the end edges of the foot sections defining walls 65, 66, 67 (Fig. 4a), which together with the previously described wall 32 form the second receiving chamber, which in the illustrated embodiment is approximately rectangular Has shape.

In the illustrated embodiment, the webs or walls 29, 29a, 32, 65, 66, 67, etc., preferably formed on the wall 25 and are manufactured with this in one operation. After the introduction of the contact springs and clamping springs, the wall 24 can finally be placed. As is apparent from FIGS. 4 and 5, with the exception of the passages 45, 46 a separation between the top and the bottom of the connection module is provided, for which purpose transverse wall sections 70, 71, 72 extending in the axial direction of the connection module are provided.

The lines or conductor ends used in the connection module according to the invention are preferably led out laterally from the connection module. To complete the connection module according to the invention a preferably pivotable lid is attached to this, which will be described briefly with reference to FIGS. 6a and 6b. The end cover 22 has a substantially U-shaped configuration with a transverse leg 22a and two lateral short legs 22b, 22c, which branch away from the transverse leg 22a. To accommodate the end cover 22, for example, arcuate recesses 75, 76 are formed in the two mutually parallel walls 24, 76, which can be brought into engagement with, for example, pin-like projections 78, 79 on the cover 22, characterized in that these pin-like projections 78, 79 in the semicircular recesses 75, 76 are "snapped". Thus, it is possible to maintain the lid 22 pivotally mounted on one side, whereas at the same time it can be removed on the other side. As a result, the lid 22 is pivotally held according to Fig. 6b on the connection module when it is released on the opposite side to the latching openings. Instead of semicircular recesses 75, 76 corresponding slots may be provided to allow a certain displaceability of the pin-shaped storage devices 78, 79.

As is apparent from Figures 6a and 6b, the cover plates 22 are formed by pin-shaped joints 78, 79, the corresponding hinge openings 75, 76 in the two Side walls 24, 25 can be engaged. These pin-shaped joints 78, 79 extend in this embodiment perpendicular to the axis of the cover plate 22nd

Claims (15)

Busbar connection module having a housing (20) and a predetermined number of clamping devices (42, 43, 44) arranged in the housing (1) for receiving and fastening stripped-on cable ends,
with feet projecting on the underside of the clamping devices (42, 43, 44) for mounting on busbars,
characterized in that
the clamping devices (42, 43, 44) are arranged one behind the other in a plane and are screwless;
the housing (20) has receiving chambers (26a, 26b, 26c) for contact springs (27a, 27b, 27c), wherein the contact springs (27a, 27b, 27c) are provided in a plane next to each other;
the receiving chambers (26a, 26b, 26c) by walls or webs (29, 30, 31) are fixed, which are integrally formed or molded on at least one of the side walls (25) of the housing and
a second receiving chamber (37a, 37b, 37c) is provided, each adjacent to the first receiving chamber (26a, 26b, 26c) for receiving one of the clamping means (42, 43, 44) is provided. Busbar connection module according to claim 1,
characterized in that
each clamping device (42, 43, 44) is formed by a clamping spring. Busbar connection module according to at least one of the preceding claims,
characterized in that
each clamping spring (42, 43, 44) has a slotted spring tongue or tongue with an opening (42d) into which a section (27a ₃ ) of the respective contact spring and an adjustable tongue (42e) of the clamping spring (42, 43, 44 ) intervenes. Busbar connection module according to one of the preceding claims,
characterized in that
in each first receiving chamber, a bearing device (28a, 28b, 28c) is provided, which holds the associated contact springs (27a, 27b, 27c) in the first receiving chamber (26a, 26b, 26c). Busbar connection module according to one of the preceding claims,
characterized in that
between the first and second receiving chambers (26a, 37a; 26b, 37b; 26c, 37c) is provided a partition wall (32) defining a passage slot (33) through which a leg (27a ₁ ) of the respective contact springs (27a, 27b , 27c) is passed. Busbar connection module according to one of the preceding claims,
characterized in that
in each case a bearing device (40) for the associated clamping spring (42, 43, 44) is provided in the second receiving chamber (37a, 37b, 37c). Busbar connection module according to Claim 6,
characterized in that
in the second receiving chamber (37a, 37b, 37c) a substantially horizontally extending support wall (43) for supporting a leg (42c) of the respective clamping spring (42, 43, 44) is provided. Busbar connection module according to one of the preceding claims,
characterized in that
in that each second receiving chamber (37a, 37b, 37c) has a laterally terminating sidewall (39) at least partially surrounding the respective clamping spring (42, 43, 44). Busbar connection module according to at least one of the preceding claims,
characterized in that
between the housing (20) between each contact spring (27a, 27b, 27c) and the associated clamping spring (42, 43, 44) is provided a passage opening (45) for performing a line end in the direction of the movable spring tongue (42e) of the associated clamping spring (42, 43, 44). Busbar connection module according to at least one of the preceding claims,
characterized in that
a through hole (46) is provided for passing a tool such as a screwdriver toward the clamping spring (42, 43, 44) to pivot a leg (42f) of the respective clamping spring to release a lead terminal end. Busbar connection module according to at least one of the preceding claims,
characterized in that
On the housing (1) locking means (58, 59, 60) are provided for fastening the attachable side wall (24). Busbar connection module according to claim 11,
characterized in that
the attachable side wall (24) the locking means (58, 59, 60) of the housing (20) associated latching openings (61, 62, 63). Busbar connection module according to one of the preceding claims,
characterized in that
the latching means (58, 59, 60) are formed in the second receiving chamber (37a, 37b, 37c). Busbar connection module according to at least one of the preceding claims,
characterized in that
in the two mutually parallel side walls (24, 25) hinge openings (75, 76) are provided, in which on a cover plate (22) formed joints (78, 79) can be latched. Busbar connection module according to claim 14,
characterized in that
formed on the cover plate (22) joints (78, 79) are pin-shaped or pin-shaped and perpendicular to the axis of the cover plate (22) extend.

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