RU2843334C2 - Functional unit including electric terminal block and plug - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to electrical equipment implementing electrical connection based on use of a terminal block. Functional unit comprises electrical terminal block (1) and plug (2), wherein terminal block (1) has terminal housing (3), in which plurality of connecting elements (4, 5) is arranged and at least one hole (7) for insertion of plug (2) into terminal block (1) is made, wherein plug (2) has at least one contact lug (8, 8'). Using the functional unit, the functionality of the system of test plugs can be extended by placing at least one switch (9, 10) in terminal housing (3) such that at least one switch (9, 10) is actuated by contact tongue (8, 8') of plug (2), when plug (2) is inserted with its contact tongue (8, 8') into hole (7), wherein at least one switch (9, 10) is electrically connected to connection elements (4, 5) such that a state of switch (9, 10) can be transmitted in form of a signal through connection elements (4, 5).

EFFECT: enlarging the range of facilities used in modular systems of test plugs.

16 cl, 11 dwg

Description

The invention relates to a functional unit including an electrical terminal block and a plug with at least one contact tongue, wherein the terminal block has a terminal housing in which a plurality of connecting elements are located. At least one opening is also made in the terminal housing for inserting at least one contact tongue of the plug into the terminal block.

Electrical terminal blocks have been used millions of times for decades to connect electrical systems and devices. The terminals are often fixed to mounting rails, which in turn can be arranged in a switch cabinet in several ways. In addition, several terminal blocks can also be attached to a plurality as a terminal block block in a wall opening, in particular in the door opening of a switch cabinet. This has the advantage that one side of the terminal blocks, the operator side, is accessible from the outside of the switch cabinet without having to open the switch cabinet, while the other side of the terminal blocks, the connection side, is only accessible when the switch cabinet is open.

Terminal blocks use different types of wire connection elements, such as screw terminals, spring-tongue terminals, insulation-notch terminals or flexure spring terminals. Flexure spring terminals have the advantage over flexure spring terminals that the terminal does not need to be opened with a tool to insert the rigid conductor.

Electrical terminal blocks are often junction terminals, so that they have at least two connecting elements for wires that are electrically connected to each other via an electrically conductive connecting bar, the current bar. In addition to this basic type of terminal block, which is often called a feed-through terminal, there are many other types of terminal blocks, specially adapted for the corresponding application.

In switching, measuring, testing and control technology, feed-through terminals with the possibility of disconnection are often used, which is why they are sometimes also called disconnect clamps. The disconnection option implemented in such a terminal block, i.e. the disconnection point provided in the busbar, allows various plugs with different functions to be inserted into the terminal block, which then contact the busbar at the disconnection point. In addition to simple disconnect plugs or feed-through connectors, test plugs can also be used as plugs, which can have special components and allow the correct operation of the circuit connected to the terminal block to be checked. Since electrical terminal blocks are usually disk-shaped, they are usually connected together with several other electrical terminal blocks, forming a terminal block block. Several test plugs corresponding to the number of terminal blocks can then be inserted into such a terminal block block.

Terminal blocks with separation points are used, in particular, for connecting current transformers. An important functional feature is that the connected current transformer is subject to a short circuit when the secondary circuit is disconnected from the load.

An electrical terminal block in the form of a test clamp is known from DE 102011113333 A1. In this terminal block, two connecting elements for conductors and two current buses are arranged in a housing. Each of the two current buses has a first contact zone, which together form a spring-loaded contact zone for receiving a plug. The first contact zones are spaced apart from one another and are electrically connected to one another via the plug only when the plug is inserted, so that the terminal block operates according to the principle of a normally open contact.

In addition, two additional parts of the current busbar are arranged in the housing, wherein at least one of the parts of the current busbar has a recess for inserting the leg of the plug-in jumper. One of the parts of the current busbar is assigned to one of the current buses in such a way that the second contact zone of the current busbar contacts the corresponding part of the current busbar due to the spring force of the current-carrying rod, when no plug is inserted. In this case, each current busbar of the terminal block is electrically connected with its connecting part to the connecting element of the conductors, and with its second contact zone - with the corresponding part of the current busbar. If a plug of the test plug is inserted into the contact zone, then the two current buses are deflected so that the second contact zone of the current busbar is at a distance from the part of the current busbar associated with it. In this way, the electrical connection between the connecting element of the conductor and the part of the current busbar associated with it is interrupted.

In the electrical terminal block known from DE 102011113333 A1, a short-circuit with an adjacent terminal block occurs when the test plug is not inserted, since one arm of the plug-in jumper is inserted into the recess provided for this purpose in the corresponding part of the busbar of two adjacent terminal blocks, so that the two parts of the busbar are connected to each other via the plug-in jumper. The electrical short-circuit between the two wire connection elements of the two terminal blocks is then carried out via the corresponding busbars, the parts of the busbars and the inserted jumper.

In practice, such terminal blocks have been used for many years in modular test plug systems. Several terminal blocks are arranged next to each other and together form a terminal block unit, also known as a test plug unit. During normal operation, a block of working plugs is inserted into the terminal block unit, which consists of a number of individual plugs arranged next to each other in accordance with the number of terminal blocks, by means of which two current buses of the individual terminal blocks are electrically connected respectively. For testing and inspection purposes, a corresponding block of test plugs can be inserted into the terminal block unit, which, like the block of working plugs, consists of a number of individual plugs arranged next to each other in accordance with the number of terminal blocks, whereby the plugs are designed to be able to connect test devices. Such a modular test plug system is offered on the market by the applicant under the name FAME 1. The test plug system has proven itself in practice, since it simplifies the testing of switching and network protection systems.

The invention is based on the task of expanding the functional capabilities of the known test plug system so that the user has an additional benefit when using the test plug system.

This problem is solved in the above-described functional unit consisting of an electrical terminal block and a plug, with the features of claim 1 of the invention formula, due to the fact that at least one switch is located in the terminal housing, wherein the switch is electrically connected to the connecting elements so that the state of the switch can be transmitted in the form of a signal through the connecting elements and the wires connected to them. The position of at least one switch in the terminal housing is such that the switch is actuated by the contact tongue of the plug when the plug is inserted with its contact tongue into the opening in the terminal block.

In contrast to the terminal blocks used in known test plug systems, the terminal block of the functional unit according to the invention does not have two current buses, the contact zones of which form an elastic contact area, but at least one switch, which is actuated by the contact tongue of the plug when the plug is inserted. The corresponding signal, which depends on the state of the switch, can then be transmitted to a monitoring station or to a remote control room via connecting elements electrically connected to the switch.

If the terminal block has only one switch, only two states can be distinguished: a plug is inserted or a plug is not inserted. However, this information also has additional value for the user, since it shows him when no plug is inserted into the terminal block. If the functional unit is part of a plug system consisting of a terminal block block and a working plug block or a test plug block, the functional unit according to the invention can be used to indicate to the user when neither the working plug block nor the test plug block is inserted into the terminal block.

In the case of a terminal block unit consisting of several electrical terminal blocks as described in DE 102011113333 A1, it is indicated to the user that the current path is short-circuited by bridging two adjacent terminal blocks. Since such a short circuit should only exist in the transitional state between the normal operating mode and the test mode, it can be detected by the user at a remote monitoring station if, for example, after a test, the operating plug unit is accidentally not inserted or incorrectly inserted into the terminal block unit.

At least one switch may be a mechanically actuated switch, which has an actuator, which is actuated by the contact tongue of the plug, when the plug is inserted with its contact tongue into the opening in the terminal block. According to a preferred embodiment of the invention, at least one switch is designed as a micro switch, which has a switching lever as an actuator. Such micro switches, also known as snap switches or momentary switches, are available on the market in various shapes and sizes.

According to an alternative embodiment of the invention, at least one switch can also be designed as a contactless switch, for example an inductive or capacitive contactless switch. The switching distance of the contactless switch and its position are selected in such a way that the switch is actuated by the contact tongue of the plug, when the contact tongue of the plug is inserted into the opening.

According to a preferred embodiment of the invention, two switches are arranged in the terminal housing of the terminal block in such a way that at least one switch is actuated by the contact tongue of the plug when the plug is inserted into the opening. Depending on the design of the plug or its contact tongues, either both switches, or only the first switch, or only the second switch are actuated. Since both switches can assume two states - activated or not activated, a total of four different states can be recorded by means of two switches using binary coding and transmitted accordingly as a status signal.

If the plug has only one contact tongue, which when inserted contacts both actuators of the switch, then only two states can be distinguished: the plug is inserted or the plug is not inserted. However, this information also has additional value for the user, as explained earlier in connection with the design with only one switch.

Preferably, the plug is designed in such a way that its contact tongue contacts only one switch when inserted. When using two plugs with differently arranged contact tongues, either only the first switch or only the second switch is actuated, depending on which of the two plugs is inserted into the opening of the terminal block. If two such plugs are respectively assigned to a working or a test plug, then the functional unit can determine not only whether a plug is inserted at all, but also whether this plug is a working or a test plug.

According to a preferred embodiment of the invention, both switches are arranged mirror-symmetrically with respect to the central plane of the opening in the terminal housing. This arrangement of the two switches makes it particularly easy to produce two plugs, each with a differently arranged contact tongue, so that either only the first switch or only the second switch is actuated when the first or second plug is inserted into the opening of the terminal block. Instead of producing two different plugs with a different arrangement of the contact tongue, it is also possible to provide only one plug with a contact tongue arranged eccentrically with respect to the central plane of the plug. In the first orientation of the plug, the first switch is actuated by the contact tongue when the plug is inserted into the opening, whereas in the second orientation of the plug, rotated by 180°, the contact tongue contacts only the second switch.

The design of the plug of the functional unit according to the invention with the contact tongue arranged offset from the center of the central plane of the plug has the advantage that then only one plug needs to be manufactured and the user only needs to purchase one type of plug. Depending on whether the plug is to be part of the block of working plugs or part of the block of test plugs, the plug can be integrated into the block of working plugs or the block of test plugs in the first orientation or in the second orientation.

According to an alternative embodiment, the plug has two contact tabs, wherein at least one contact tab is detachably connected to the plug. In the initial state of the plug, when it has both contact tabs, both switches in the terminal block are activated when the plug is inserted. However, if one of the two contact tabs is separated from the plug, only one switch is activated when the plug is inserted into the terminal housing of the terminal block. If in this design of the plug the two contact tabs are arranged in mirror symmetry with respect to the central plane of the plug, then the other switch can also be activated if the plug is rotated by 180 (before inserting it into the opening of the terminal housing.

Selective actuation of one or the other switch can also be achieved by both contact tabs being detachably connected to the plug and then either one contact tab or the other contact tab being separated from the plug. The detachability of at least one contact tab from the plug can be achieved by the contact tab being connected to the rest of the plug and/or to the second contact tab via a bridge with a reduced material thickness. This makes it possible to simply separate the contact tab from the rest of the plug if necessary.

As has already been explained previously, the functional unit according to the invention is intended, in particular, to be part of a plug system, which consists of a terminal block and a block of working plugs or a block of test plugs. At least one terminal block of the functional unit is part of the block of the terminal block, while at least one plug of the functional unit is part of the block of working plugs or the block of test plugs.

In a variant of the functional unit, it is provided that it has at least two corresponding terminal strips and at least two corresponding plugs. A terminal strip block with such a functional unit then has two terminal strips, in the terminal housing of which at least one, preferably two switches are arranged. Accordingly, the operating plug block or the test plug block then has two corresponding plugs with at least one contact tongue. This makes it possible to display a corresponding number of different states by means of corresponding control of the switches, so that, for example, different types of test plugs inserted in the terminal strip block can be identified.

More specifically, there are various options for designing and developing the functional unit according to the invention. For this purpose, reference can be made both to the claims subordinate to claim 1 of the invention and to the following description of preferred exemplary embodiments in conjunction with the figures. The figures show:

Fig. 1 first example of the implementation of a functional block with a terminal block and a plug in an uninserted state,

Fig. 2 is a functional unit according to Fig. 1 with an inserted plug,

Fig. 3 example of the implementation of a functional block plug with a removable contact tongue,

Fig. 4 functional unit with inserted plug according to Fig. 3,

Fig. 5 a functional unit with an inserted plug according to Fig. 3, wherein the removable contact tongue has been removed,

Fig. 6 is another example of the implementation of a plug with a removable contact tongue,

Fig. 7 a functional unit with an inserted plug according to Fig. 6, wherein the contact tongue is separated,

Fig. 8 example of the implementation of a plug with two removable contact tabs,

Fig. 9 is another example of the implementation of a plug with two contact tabs,

Fig. 10 is a perspective view of the terminal block unit, and

Fig. 11 is a perspective view of the test plug block.

Fig. 1, 2, 4, 5 and 7 show different versions of the functional unit, each of which consists of an electrical terminal block 1 and a plug 2, wherein in Fig. 1 the plug 2 is not yet inserted into the terminal block 1, and the other figures show the functional unit with the plug 2 inserted. In addition, Fig. 3, 6, 8 and 9 show different versions of the plug 2.

The shown electrical terminal block 1 has a terminal body 3, in which a plurality of connecting elements 4, 5 for connecting an electrical conductor are located. In the shown exemplary embodiments, each of the connecting elements 4, 5 is made in the form of terminals with bending springs, but the invention is not limited to this type of connecting element. In the terminal body 3 of the terminal block 1, a contact zone 6 and an opening 7 are also formed, into which a plug 2 can be inserted. The plug 2 has at least one contact tongue 8, which is located in the contact zone 6 when the plug is inserted.

In the terminal housing 3 of the terminal block 1, two mechanically actuated switches 9, 10 are also arranged, each of which is a microswitch with a switching lever as an actuator 11. The switches 9, 10 are arranged in the terminal housing 2 in such a way that the free ends 12 of the actuators 11 project into the contact zone 6. Instead of the shown mechanically actuated microswitches, contactless actuated contactless switches can also be used. In the shown exemplary embodiments, each switch 9, 10 has three connections, each of which is electrically connected to a connecting element 4, 5 via a current busbar 13. It is also evident from the figures that the two switches 9, 10 and the connecting elements 4, 5 associated with them are arranged in mirror-symmetrical relation to the central plane of the opening 7 in the terminal housing 3.

In the exemplary embodiment of the functional unit according to Fig. 1 and 2, the plug 2 has only one, relatively wide contact tongue 8, so that when the plug 2 is inserted, the contact tongue 8 deflects the actuators 11 of both switches 9, 10 simultaneously, and thus both switches 9, 10 can be actuated. In such a functional unit, the two switches 9, 10 can only be used to determine whether the plug 2 is inserted or not.

Fig. 3 shows an alternative embodiment of plug 2, wherein plug 2 has two closely spaced contact tongues 8, 8', of which one contact tongue 8' is detachably connected to plug 2 or the other contact tongue 8. The detachable connection is realized by two jumpers 14 with a reduced material thickness, so that, if necessary, contact tongue 8' can be separated from plug 2.

Fig. 4 shows a functional unit with a plug 2 inserted into the terminal block 1 according to Fig. 3, wherein both contact tabs 8, 8' are present on the plug 2. Thus, both switches 9, 10 of the terminal block 1 are actuated by the plug 2. However, in the view according to Fig. 5, the second contact tab 8' is separated from the plug 2, so that only one switch 10 on the right in Fig. 5 is actuated. The actuator 11 of the other, left switch 9 is not deflected by the inserted plug 2.

In Fig. 6 and 8 two alternative embodiments of the plug 2 are shown, wherein Fig. 6 has a fixed contact tongue 8 and a removable contact tongue 8'. However, in contrast to the plug according to Fig. 3, the positions of the fixed contact tongue 8 and the removable contact tongue 8' are reversed. When this plug 2 is inserted, only the switch 9, shown on the left in Fig. 7, is actuated by the fixed contact tongue 8 when the other contact tongue 8' is separated.

The plug 2 shown in Fig. 8 differs from the two plugs 2 shown in Fig. 3 and 6 in that in this plug 2 both contact tabs 8, 8' are made separable, so that either the left contact tab 8 or the right contact tab 8' or both contact tabs 8, 8' can be separated from the plug 2.

Another variant of the plug 2 is shown in Fig. 9. The plug 2 has two fixed contact tongues 8, 8', which, however, are spaced apart from each other. The terminal block 1, into which such a plug 2 can be inserted, has accordingly two openings, which are located at a distance from each other, which corresponds to the distance between the two contact tongues 8, 8'. In comparison with the terminal block 1 shown, for example, in Fig. 1, the switches 9, 10 can be rotated by 180°, so that the free ends 12 of the switching lever are directed not into the center of the terminal housing 3, in the contact zone 6 formed in the region of the opening 7, but outward. Also with such a design of the plug 2 it is possible, in contrast to that shown in Fig. 9, to releasably connect at least one contact tongue 8, 8' or their free ends with the plug 2, so that when the plug 2 is inserted, only the switch 9 or another switch 10 is, if necessary, actuated by the contact tongue 8, 8' still located on the plug 2.

Fig. 10 and 11 show the block 15 of the terminal block and the block 16 of the test plugs of the plug system. The previously described terminal block 1 of the functional unit is located in the block 15 of the terminal block, and the plug 2 with a fixed contact tongue 8 and a removable contact tongue 8', as shown in Fig. 3, is located in the block 16 of the test plugs.

In addition to the terminal block 1 of the functional unit, the terminal block block 15 according to Fig. 10 also has five additional terminal blocks 17, each of which has two current buses, the contact zones of which form an elastic contact area into which a plug 18 of a test plug 19 can be inserted. In addition, a fastening clamp 20 is respectively arranged on the two end faces of the terminal block block 15, which has a sliding locking element 21 for fixing the terminal block block 15 in an opening in a wall, in particular in a wall of a distribution cabinet.

The test plug block 16 shown in Fig. 11, in addition to the plug 2 of the functional block, has five test plugs 19 and a fastening part 22 on each of its two end faces, with the help of which the test plug block 16 can be fixed in the terminal block block 15. The two fastening parts 22 are connected to each other via a handle 23, whereby the test plug block 16 can be locked or unlocked in the terminal block block 15 by rotating the handle 23.

Reference Designations

1. Terminal block.

2. Plug.

3. Terminal housing.

4, 5. Connecting elements.

6. Contact zone.

7. Hole.

8. Contact tongue.

9, 10. Switch.

11. Executive element.

12. Free end.

13. Current busbar section.

14. Jumper.

15. Terminal block block.

16. Test plug block.

17. Terminal blocks.

18. Plug.

19. Test plugs.

20. Fastening clamp.

21. Fixing element.

22. Fasteners.

23. Pen.

Claims (26)

1. A functional block of electrical connection, including an electrical terminal block (1) and a plug (2), wherein the terminal block (1) has a terminal housing (3) in which a plurality of connecting elements (4, 5) are located and at least one opening (7) is made for inserting a plug (2) into the terminal block (1), and wherein the plug (2) has at least one contact tongue (8, 8'), wherein at least one switch (9, 10) is arranged in the terminal housing (3) in such a way that at least one switch (9, 10) is actuated by the contact tongue (8, 8') of the plug (2) when the plug (2) is inserted with its contact tongue (8, 8') into the opening (7), and at least one switch (9, 10) is electrically connected to the connecting elements (4, 5), so that the state of the switch (9, 10) can be transmitted as a signal via the connecting elements (4, 5), characterized in that two switches (9, 10) are provided, which are arranged in the terminal housing (3) in such a way that at least one switch (9, 10) is actuated by the contact tongue (8, 8') of the plug (2) when the plug (2) is inserted into the opening (7), wherein the plug (2) has a contact tongue (8) located eccentrically relative to the central plane (M) of the plug (2). 2. A functional unit according to claim 1, characterized in that at least one switch (9, 10) is designed as a mechanically actuated switch (9, 10) having an actuator (11) actuated by a contact tongue (8, 8') of a plug (2) when the plug (2) is inserted by the contact tongue (8, 8') into the opening (7). 3. A functional unit according to item 2, characterized in that at least one switch (9, 10) is made in the form of a microswitch, which has a switching lever as an actuator (11). 4. A functional unit according to claim 1, characterized in that at least one switch (9, 10) is designed as a contactless switch, which is actuated by the contact tongue (8, 8') of the plug (2), when the plug (2) is inserted into the opening (7) with the contact tongue (8, 8'). 5. A functional unit according to item 1, characterized in that both switches (9, 10) are located mirror-symmetrically to the central plane of the opening (7) in the terminal housing (3). 6. A functional unit according to any of paragraphs 1-5, characterized in that the connecting elements (4, 5) are made in the form of spring terminals or screw terminals. 7. A functional unit according to any one of paragraphs 1-6, characterized in that the functional unit has at least two corresponding terminal blocks (1) and at least two corresponding plugs (2). 8. A functional unit according to any one of paragraphs 1-7, characterized in that the functional unit is part of a plug system consisting of a terminal block unit (15) and a block of working plugs or a block of test plugs (16), wherein at least one terminal block (1) of the functional unit is part of the terminal block unit (15), and at least one plug (2) of the functional unit is part of the block of working plugs or the block of test plugs (16). 9. A functional block of electrical connection, including an electrical terminal block (1) and a plug (2), wherein the terminal block (1) has a terminal housing (3) in which a plurality of connecting elements (4, 5) are located and at least one opening (7) is made for inserting a plug (2) into the terminal block (1), and wherein the plug (2) has at least one contact tongue (8, 8'), wherein at least one switch (9, 10) is arranged in the terminal housing (3) in such a way that at least one switch (9, 10) is actuated by the contact tongue (8, 8') of the plug (2) when the plug (2) is inserted with its contact tongue (8, 8') into the opening (7), and at least one switch (9, 10) is electrically connected to the connecting elements (4, 5), so that the state of the switch (9, 10) can be transmitted as a signal via the connecting elements (4, 5), characterized in that two switches (9, 10) are provided, which are arranged in the terminal housing (3) in such a way that at least one switch (9, 10) is actuated by the contact tongue (8, 8') of the plug (2) when the plug (2) is inserted into the opening (7), wherein the plug (2) has two contact tabs (8, 8'), wherein at least one contact tab (8') is detachably connected to the plug (2). 10. A functional unit according to claim 9, characterized in that at least one switch (9, 10) is designed as a mechanically actuated switch (9, 10) having an actuator (11) actuated by a contact tongue (8, 8') of a plug (2) when the plug (2) is inserted by the contact tongue (8, 8') into the opening (7). 11. A functional unit according to item 10, characterized in that at least one switch (9, 10) is made in the form of a microswitch, which has a switching lever as an actuator (11). 12. A functional unit according to claim 9, characterized in that at least one switch (9, 10) is designed as a contactless switch, which is actuated by the contact tongue (8, 8') of the plug (2), when the plug (2) is inserted into the opening (7) with the contact tongue (8, 8'). 13. A functional unit according to item 9, characterized in that both switches (9, 10) are located mirror-symmetrically to the central plane of the opening (7) in the terminal housing (3). 14. A functional unit according to any of paragraphs 9-13, characterized in that the connecting elements (4, 5) are made in the form of spring terminals or screw terminals. 15. A functional unit according to any one of paragraphs 9-14, characterized in that the functional unit has at least two corresponding terminal blocks (1) and at least two corresponding plugs (2). 16. A functional unit according to any one of paragraphs 9-15, characterized in that the functional unit is part of a plug system consisting of a terminal block unit (15) and a block of working plugs or a block of test plugs (16), wherein at least one terminal block (1) of the functional unit is part of the terminal block unit (15), and at least one plug (2) of the functional unit is part of the block of working plugs or the block of test plugs (16).