CN112563775B

CN112563775B - Terminal box device with tapping connecting terminal

Info

Publication number: CN112563775B
Application number: CN202011023069.8A
Authority: CN
Inventors: 马丁·格布哈特; 莫里茨·克林克
Original assignee: Phoenix Contact GmbH and Co KG
Current assignee: Phoenix Contact GmbH and Co KG
Priority date: 2019-09-25
Filing date: 2020-09-25
Publication date: 2023-03-10
Anticipated expiration: 2040-09-25
Also published as: AU2020239755B2; CN112563775A; DE102019125746A1; AU2020239755A1

Abstract

The invention relates to a terminal block arrangement (10) comprising a terminal block (20) with an insulating housing (21) in which at least one current bar (30. At least one bridge channel (22, 23) is provided on the terminal block (20), through which bridge channel the current bar (30. A tap terminal (40.

Description

Terminal box device with tapping connecting terminal

Technical Field

The invention relates to a terminal block arrangement comprising a terminal block having an insulating housing in which at least one current bar is accommodated, wherein the terminal block has in each case a respective conductor connection via which an electrical conductor can be brought into contact with the current bar, according to the preamble of claim 1. At least one bridging channel is also provided on the terminal block, via which such a current bar of the terminal block can be electrically connected to a current bar of another terminal block via a cross connector.

Background

In the electrical connection or attachment technology, terminal blocks are often used which snap side by side on a common carrier rail to form a larger terminal block. Each terminal block has an insulating housing with one or more openings for introducing the respective electrical conductor in order to bring the conductor into contact with a current bar or rail in the housing of the terminal block. Inside these openings there are arranged conductor connections which can be formed in various ways. The electrical conductor is connected to the current rail of the terminal box via such a conductor connection. For example, a threaded connection, a tension spring connection or a simple plug connection.

So-called potential bridges or cross-connectors are often used to connect different terminal blocks having the same potential. Such a cross-connector can be designed, for example, as a plug-in bridge with a plurality of plugs, which is inserted into the bridge channel of two adjacent terminal blocks. The cross-connector then contacts the current bars of the junction box within the bridging channel.

In addition to the openings for connecting the electrical conductors, the terminal block can also have further openings, which can be used, for example, for connecting test plugs. DE 200 02 713 U1 discloses a test plug which is inserted into an opening and in which a conductor connection is contacted. The conductor connection, in particular the tension spring connection, is designed as a multi-layer folded stamped/bent part with two contact lugs. The first contact piece is in contact with the conductor connection, while the second contact piece is designed for locking with the housing of the terminal block.

DE 295 14 711 U1 also discloses a terminal block arrangement, in which other openings are likewise provided in the housing of the terminal block for receiving test plugs. The test plug makes contact with conductor connections, for example tension spring connections, via these openings.

Disclosure of Invention

It is an object of the invention to provide a terminal block arrangement in which the tap terminals are attached in an advantageous manner.

This object is solved by a terminal block arrangement with the features of claim 1. Advantageous further developments of the terminal block arrangement are given in the dependent claims 2-10. The object is also achieved by a terminal block module according to claim 11.

The terminal block arrangement according to the invention has a terminal block with an insulating housing, in which at least one current bar is accommodated. They also each have a corresponding conductor connection, via which the electrical conductor can be brought into contact with the current bar. For this purpose, the electrical conductor is inserted into the insulating housing through the opening and is in contact with the current bar here via the conductor connection. For example, the electrical conductor is pressed against the current bar by spring force, but other contact mechanisms may be used. The conductor connection is designed in particular as a screw connection, a tension spring connection or a simple plug connection, for example.

At least one bridge channel is provided on the terminal block, through which bridge channel the current bar of the terminal block can be electrically connected to the current bar of another terminal block by means of a cross connector. The current bar is then located, for example, in the lower region of such a bridge channel. If a plurality of terminal blocks are mounted adjacent to one another on the carrying rail, they can be connected to one another by means of a cross connector which is inserted into the bridging channel and is in contact with the respective current bar there.

According to the invention, a tap terminal is inserted into at least one such bridging channel of the terminal block. The tap terminal has a current rail which is in electrical contact with a current bar of the terminal block. The current rail of the tap terminal thus contacts the current bar of the terminal block in the bridging channel, for example in its lower region.

The invention thus provides a terminal block arrangement with tap terminals which offers the additional possibility of contacting other conductors by means of individual taps. Here, the tap terminal can simply be inserted into an already existing bridging channel of the terminal block, so that, for example, no additional openings need to be provided in the housing of the terminal block, as is the case with known test and test plugs. The junction box can also be used with or without additional tap terminals without modifying its structure.

Another advantage of the invention is that the user only has to select one modular base terminal and then obtain one or more power outputs by inserting a tap terminal, rather than just having to discard one functional element of the base terminal. The isolation function, test function and pinch point are still available. Depending on the application, the tap terminals may remain permanently in the base housing of the terminal block. Alternatively, it may be used only for short-term connections, for example in debug and test applications.

In one embodiment of the invention, the current rail of the tap terminal makes contact with the current bar of the terminal block by being pushed into the bridging hole in the current bar. Thus, the tap terminals use bridging holes in the current bar to make contact with the junction box, which is also used to make contact with the cross-connect.

The tap terminal preferably has a test socket which is electrically connected to the current rail of the tap terminal. Especially a 4mm test socket. In this way, a complete test socket can be provided with tap terminals. Various standard test plugs can be fitted to the test socket.

The tap terminals are inserted into the bridging channel in a suitable manner so that they are firmly connected to the current bars of the terminal block. In one embodiment of the invention, the tap terminal has for this purpose, for example, a terminal housing which is held in a bridging channel of the terminal block in such a way that a current rail of the tap terminal is connected in a contact-safe manner to a current rail of the terminal block. Then, in the region of the introduction of the bridging channel, the outer contour of the terminal housing is matched to the inner contour of the bridging channel. In addition, a latching structure may be provided to retain the tap terminal in the bridging channel. The holding force of the latching arrangement can be overcome by pulling the tapping terminal with force.

The tap terminals may be formed and connected to the junction box such that other openings in the junction box remain freely accessible. For example one or more sockets or one or more openings for the introduction of electrical conductors. In a further embodiment of the invention, the tap terminal is formed and connected in such a way that it covers a further opening in the terminal block. The tap terminals cover, for example, openings of the sockets of the terminal block.

In one embodiment of the invention, the tap terminal has a clamping point, by means of which the electrical conductor can be brought into electrical contact with the current rail of the tap terminal. Tap terminals provide another option for contacting the conductors. The clamping point, like the direct clamping point on the terminal block, preferably also has a conductor connection. The conductor connection can also be designed as a screw connection, a tension spring connection or a simple plug connection.

The terminal block of the terminal block arrangement according to the invention can have one or more current bars and can therefore also have one or more bridge channels. In the embodiment with two current bars and two bridge channels, the tap terminal is introduced into one or two bridge channels, respectively.

The invention also includes a terminal block module having a plurality of terminal blocks and at least one terminal block arrangement according to one embodiment of the invention. At least one terminal block therefore has a bridging channel with an inserted tap terminal. The respective current bars of at least two terminal blocks are electrically connected to the current bars of another terminal block by means of cross connectors, by introducing the cross connectors into the bridging channels of the respective terminal blocks.

Drawings

Further advantages, features and advantageous embodiments of the invention emerge from the dependent claims and the following description of preferred embodiments based on the drawings.

In the drawings

Fig. 1 shows a side view of an embodiment of a terminal block arrangement according to the invention with a housing cover;

fig. 2 shows a three-dimensional view of the terminal block arrangement according to fig. 1;

fig. 3 shows a longitudinal section through the terminal block arrangement according to fig. 1;

fig. 4 shows a three-dimensional view of an embodiment of a tapping terminal for a terminal block arrangement according to the invention with a cover;

fig. 5 shows the capless tap terminal according to fig. 4; and

fig. 6 shows a three-dimensional view of a second embodiment of a terminal block arrangement according to the invention with two tapping terminals.

Detailed Description

Fig. 1 shows a schematic side view of an embodiment of a terminal box arrangement 10 according to the invention with a housing cover. The housing cover 21b is a part of the housing of the junction box 20. The housing 20 forms an insulating housing 21 for the terminal block 20 with a plurality of openings. Further, various functional components of the terminal block 20 are accommodated in the insulating case 21. The case cover 21b covers the case frame 21a in which various openings are formed and various functional components are accommodated. The structure of the terminal block 20 shown in the drawings should be understood as an example only and is used only to explain the present invention. Thus, in particular the outer contour of the insulating housing 21 and the design and arrangement of the functional components can be selected.

Fig. 2 shows a three-dimensional view of the terminal block arrangement according to fig. 1, while fig. 3 shows a longitudinal section of this view. As can be seen from fig. 3, the terminal block 20 has two current bars 30 and 31, which are accommodated in an insulating housing 21. Each of these current bars 30,31 is accessible via a bridging

channel

22, 23, respectively. The

bridge channels

22, 23 are designed as channels in the insulating housing 21 and extend at least to the respective current bar 30, 31. Preferably, the bridging

channels

22, 23 extend further than the respective current bars 30, 31. Furthermore, the current bars 30,31 have a bridge opening 34, 35 in the region of the

bridge channels

22, 23, respectively. If the cross-connector is inserted into the bridging channel 22, 23 (not shown), the cross-connector extends into the bridging hole 34, 35 and contacts the current bar 30,31 in this region.

Terminal block 20 furthermore has two

sockets

24 and 25, which are also in contact with corresponding current bars 30,31 of terminal block 20. However, these

sockets

24, 25 are considered as optional functional components. In addition, two

clamping points

26 and 27 are provided in the terminal block 20. Which are formed by corresponding openings in the insulating housing 21 and have

conductor connections

32, 33. The electrical conductors to be connected to the terminal block 20 are introduced into the openings and are in contact with the current bars 30,31 here via

conductor connections

32, 33. Here, different types of conductor connections may be used. The embodiments of fig. 1 to 3 provide, for example, spring-loaded plug connections. The spring is compressed when the conductor is inserted, which may be done by the conductor itself, a tool or a pushing device at the conductor connection. Due to the spring force of the spring, the conductor is then tensioned and establishes contact between the spring and the current bars 30, 31.

As can be seen from fig. 1 to 3, the tap terminal 40 is inserted into the bridging channel 22. The tap terminals 40 cover the sockets 25 of the junction box 20. The tap terminal 40 has a current rail 41 which is in contact with the current bar 31 of the terminal block 20 in the bridging channel 22. This is done by pushing the current rail 41 into the bridging hole 35 of the current bar 31.

The tap terminal 40 has a clamping point 44 for connecting electrical conductors. The pinch point 44 also has a conductor connection in the form of a spring-loaded plug connection and provides another connection option for electrical conductors. For this purpose, the conductor connection is electrically connected to a current rail 41 of the tap terminal 40. The tap terminal 40 also has a test socket 42, which is likewise electrically connected to the current rail 41.

Fig. 4 and 5 show three-dimensional views of the tap terminal, wherein fig. 4 shows the tap terminal 40 with the cover, and fig. 5 shows the tap terminal 40 without the cover. This embodiment of the tapping terminal is also to be understood merely as an example. The cover is a part of the terminal housing 43 having a housing cover 43b that covers the housing frame 43a. The various functional components of the tap terminal 40 are accommodated in a housing frame 43a, and the current rail 41 protrudes from this housing frame 43a.

The test socket 42 is in contact with the current rail 41. As is the conductor connection 45 of the pinch point 44. Furthermore, a biasing device 46 is optionally provided for the conductor connection 45, by means of which a spring movement of the conductor connection is possible. However, the conductor connection 45 can also be designed differently, for example as a screw connection, a screw connection or a tension spring connection.

The terminal housing 43 of the tap terminal 40 forms in particular a projecting arm in which the current rail 41 extends. The arm is inserted into the bridging channel and may optionally have means for locking the tap terminal 40 with the insulating housing 21 of the terminal block 20. Furthermore, the terminal housing 43 preferably forms a contact surface 47 which, after being introduced into the bridging channel 22, rests on the insulating housing 21 of the terminal block 20.

Fig. 6 shows a three-dimensional view of a second embodiment of a terminal block arrangement 10 according to the invention with two tap terminals 40 and 40'. Each of these tap terminals 40, 40' is inserted into a

respective bridging channel

22, 23 of the terminal block 20. Each of the tap terminals 40, 40' also has a test socket 42, 42' and a clamping point 44, 44', respectively. Here, two tap terminals 40, 40' cover the

sockets

24, 25 of the terminal block 20.

Description of the reference numerals

Terminal box device 10, 10'

Terminal box 20

Insulating housing 21

Case frame 21a

Case cover 21b

Bridging

channels

22, 23

Sockets

24, 25

Pinch point

26,27

Current bars 30,31

Conductor junction

32,33

Bridging the holes 34, 35

Tapping wiring terminal 40, 40'

Current rail 41

Test socket 42, 42'

Terminal housing 43

Case frame 43a

Case cover 43b

Clamping points 44, 44'

Conductor junction 45

Pressing device 46

Contact surface 47.

Claims

1. A terminal block arrangement (10, 10') comprising a terminal block (20) with an insulating housing (21) in which at least one current bar (30, 31) is accommodated, wherein the terminal block (20) has a respective conductor connection (32) by which an electrical conductor can be brought into contact with the current bar (30, 31), and wherein at least one bridging channel (22,

it is characterized in that the preparation method is characterized in that,

-a tap terminal (40, 40') is inserted into at least one bridging channel (22.

2. The terminal block arrangement according to claim 1, wherein the tap terminal (40 ') has a terminal housing (43) which is held in the bridging channel (22, 23) of the terminal block (20) in such a way that the current rail (41) of the tap terminal (40') is connected in a contact-reliable manner with the current bar (30,31) of the terminal block (20).

3. The terminal block arrangement according to claim 1, wherein the tap terminal (40.

4. The terminal block arrangement according to claim 1, wherein the tap terminal (40') has a clamping point (44.

5. The terminal block arrangement according to claim 4, wherein the clamping points (44.

6. The terminal block arrangement according to claim 5, wherein the conductor connection (45) is designed as a screw connection, a tension spring connection or a spring-loaded plug connection.

7. The terminal block arrangement according to claim 1, wherein the terminal block (20) has two current bars (30.

8. The terminal block arrangement according to claim 1, wherein the terminal block (20) has two current bars (30.

9. A terminal block module having a plurality of terminal blocks (20) and at least one terminal block arrangement (10; wherein the current bars (30, 31) of at least two terminal blocks (20) are electrically connected to the current bars of another terminal block by means of cross connectors by introducing the cross connectors into the bridging channels (22.