CN213905154U - Wiring frame structure, wiring terminal and low-voltage apparatus - Google Patents

Abstract

The utility model relates to the technical field of low-voltage electrical appliances, in particular to a wiring frame structure, a wiring terminal and a low-voltage electrical appliance, wherein the wiring frame structure comprises a wiring frame, and the wiring frame is a frame structure which is formed by enclosing a top edge, two side edges and a bottom edge and is internally provided with a wiring cavity for a lead to pass through and fix; the wire connecting cavity is provided with at least one concave avoiding structure facing away from the wire connecting cavity, and the avoiding structure is suitable for providing an avoiding space for expansion of the wire when the wire fixed in the wire connecting cavity is electrified and heated. Through the setting of dodging the structure, when the wire is heated the inflation, the wire can extrude and enter into dodge in the structure, reduces the decay of locking force, and the area of contact increase of wire and wiring board simultaneously, contact resistance reduces to can reduce the intensification of product wiring department, solve current junction box structure wire and be heated the inflation and easily become flexible and lead to the too high problem of temperature rise.

Description

Wiring frame structure, wiring terminal and low-voltage apparatus

Technical Field

The utility model belongs to the technical field of low-voltage apparatus, concretely relates to wiring frame structure, binding post and low-voltage apparatus.

Background

The circuit breaker is an important component of the electrical appliance industry and has been widely applied, and when an electrical circuit works normally, the circuit breaker can achieve the functions of power failure, power supply, circuit conversion and the like by closing or opening a circuit for supplying electric energy; when the electrical circuit is in overload, short circuit and other abnormalities, the circuit breaker can cut off the electrical circuit by tripping, so that the safety of workers and the normal operation of equipment are prevented from being endangered due to circuit faults.

The connecting terminal plays a role in fixing and tightly connecting an electrical connecting wire or a bus bar in the circuit breaker. Existing terminals typically include a terminal frame, a terminal screw, and a terminal block. The inner side walls and/or bottom walls of the wire frame are typically provided as smooth structures, with the wires being secured within the wire frame by means of binding screws pressed against the wiring board. The connection terminal of this structure has the following problems: the reliability is relatively poor, generates heat when the wire circular telegram, and the refrigerated alternative work back of outage, especially under the condition of aluminium wire, the coefficient of expansion of aluminium wire is higher than the copper line, and the aluminium sinle silk takes place to warp according to the temperature of self more easily promptly, and binding post is easily not hard up, and the area of contact of wire and binding post reduces, also is the decay of straying ability, and contact resistance increases rapidly, leads to the product temperature rise too high to influence the use of product.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the binding post's among the prior art binding post's that lies in overcoming the lead frame inside wall and/or diapire adopt smooth design, and the reliability is relatively poor, and when the wire circular telegram was generated heat, binding post was easily not hard up, and contact resistance increases rapidly, the too high technical problem of product temperature rise to a binding post structure, the binding post and the low-voltage apparatus that have this binding post structure that can reduce contact resistance and temperature rise are provided.

Therefore, an object of the present invention is to provide a wiring frame structure, which includes a wiring frame, wherein the wiring frame is a frame structure enclosed by a top edge, two side edges and a bottom edge and having a wiring cavity for a wire to pass through and fix; further comprising:

the avoiding structure is arranged on at least one of the inner walls of at least one side edge and faces away from the wiring cavity, and the avoiding structure is suitable for providing an avoiding space for expansion of the wires when the wires in the wiring cavity are electrified and heated.

Preferably, the avoiding structure is a groove directly formed on the inner wall of the side edge, and the groove extends to the bottom of the side edge where the groove is located along the axial direction perpendicular to the wiring cavity; or

The inner wall of the side edge is provided with at least two protrusions which are arranged at intervals along the axial direction of the wiring cavity, and the avoidance structure is formed by the adjacent protrusions and the inner wall of the side edge in a surrounding mode.

Preferably, the avoiding structure is a triangular groove which is gradually reduced from the position close to the wiring cavity to the position far away from the wiring cavity;

the depth of the triangular groove is 0.2-0.4 mm.

Preferably, the wire frame structure, the quantity of dodging the structure is at least two, arbitrary be equipped with on the inner wall of side at least one dodge the structure.

Preferably, the avoidance structures on the inner walls of the two side edges of the wiring frame structure are arranged oppositely;

the inner wall of the bottom edge is also provided with at least one avoidance structure, and the avoidance structure of the inner wall of the bottom edge is connected with the avoidance structures of the inner walls of the two side edges.

Preferably, the bottom edge of the wiring frame structure is formed into a sinking structure with a circular arc-shaped section; further comprising:

the first convex rib is formed on the inner wall of the bottom edge and protrudes towards the wiring cavity, and two ends of the first convex rib respectively extend towards the two side edges along the axial direction perpendicular to the wiring cavity;

the height of the top surface of the first convex rib from the lowest position of the bottom edge is 0.3-0.8 mm.

Preferably, the wire frame structure further includes:

and at least two second convex ribs are respectively formed at the joint of any side edge and the bottom edge, and the cross section of each second convex rib is triangular.

Another object of the utility model is to provide a connecting terminal, include:

the wiring frame is of any one of the wiring frame structures, and avoidance holes are formed in the top edge;

the wiring board is movably arranged in the wiring cavity;

and the wiring screw is in threaded connection with the avoiding hole and is abutted against the wiring board, and the wiring screw drives the wiring frame to move in a direction perpendicular to the axial direction of the wiring cavity relative to the wiring board when rotating so as to enable the wiring board and the wiring frame to clamp or loosen a wire penetrating through the wiring cavity.

Preferably, the wiring terminal, the one end of wiring board back to the binding screw is equipped with a plurality of groove structure along the axial interval setting of wiring chamber.

It is another object of the present invention to provide a low voltage apparatus, including any of the above-mentioned connecting terminals.

The utility model discloses technical scheme has following advantage:

1. the utility model provides a wiring frame structure, through the setting of dodging the structure, when the wire is heated the inflation, the wire can extrude and enter into and dodge in the structure, the area of contact increase of wire and wiring frame simultaneously, and contact resistance reduces to can reduce the intensification of wire, solve current wiring frame structure wire and be heated the easy not hard up problem that leads to the temperature rise too high of inflation.

2. The utility model provides a wiring frame structure, the base structure of sinking and the cooperation of first protruding muscle are used, can improve the axial force, prevent that the wire from receiving axial tension and deviating from the wiring chamber.

3. The utility model provides a wiring frame structure cooperatees with the structure of sinking on base through triangle-shaped's the protruding muscle of second, at the wiring in-process, can be so that the wire removes toward the wiring chamber in the middle of the wiring frame, has increased the area of contact of wire and wiring frame among the wiring process, improves the reliability of wiring, reduces the locking force reduction that break-make expend with heat and contract with cold and lead to in the use and arouses the wire displacement, makes the vicious circle that locking force reduced.

4. The utility model provides a binding post, the cooperation of dodging the structure through the groove structure of wiring board and the inner wall of connection frame is used, can be so that the wire is in the fixed fastening more of wiring intracavity.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a connection terminal in embodiment 2 of the present invention;

fig. 2 is a schematic structural view of a wire frame structure in embodiment 1 of the present invention;

fig. 3 is a schematic longitudinal sectional view of a wire frame structure in embodiment 1 of the present invention;

fig. 4 is a schematic structural view of a wiring board of a connection terminal according to embodiment 2 of the present invention;

fig. 5 is a temperature rise curve diagram of the connection terminal of the present application and the connection terminal existing before improvement in embodiment 2 of the present invention.

Description of reference numerals:

1-a wiring frame; 11-side edge; 12-top edge; 13-bottom edge; 14-avoiding holes;

2-avoiding structure;

3-a first rib;

4-second convex ribs;

5-a patch panel; 51-groove structure;

6-binding screw.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

The wire frame structure of the present embodiment, as shown in fig. 1 to 4, includes a wire frame 1, and the wire frame 1 is a frame structure enclosed by a top edge 12, two side edges 11, and a bottom edge 13 and having a wire connection cavity for a wire to pass through and be fixed therein. Specifically, the wire connecting structure further comprises at least one avoidance structure 2 which is arranged on the inner wall of at least one side edge 11 and is recessed towards the far side from the wire connecting cavity, and the avoidance structure 2 is suitable for providing an avoidance space for expansion of the wire when the wire fixed in the wire connecting cavity is electrified and heated. Through dodging structure 2's setting, when the wire is heated the inflation, the wire can extrude and enter into dodging in the structure, the area of contact increase of wire and terminal frame simultaneously, contact resistance reduces, and can reduce the wire, especially aluminum wire, generate heat at the circular telegram, the refrigerated alternative work back of outage, the decay of wiring locking force, thereby also reduced the gap between wire and the wiring board, reduce contact resistance's reduction, thereby can reduce the intensification of wire, solve the easy not hard up problem that leads to the temperature rise of current terminal frame structure wire thermal expansion.

Preferably, the avoiding structure 2 is a groove directly formed on the inner wall of the side 11, and the groove extends to the bottom of the side 11 where the groove is located along the axial direction perpendicular to the wiring cavity. Specifically, dodge structure 2 for being close to the wiring chamber towards keeping away from the wiring chamber and be the triangular groove or the V type groove of convergent. Optionally, the avoiding structure 2 is a triangular groove with an included angle of 90-120 degrees, and the preferred groove depth is 0.2-0.4 mm. As an alternative embodiment, at least two protrusions are arranged on the side 11 at intervals along the axial direction of the wiring cavity, and the two adjacent protrusions and the inner wall of the side 11 jointly enclose the avoiding structure 2.

More preferably, the number of the avoiding structures 2 is at least two, and at least one avoiding structure 2 is arranged on the inner wall of any side edge 11. Specifically, the avoidance structures 2 on the inner walls of the two sides 11 are arranged oppositely, the inner wall of the bottom edge 13 is also provided with at least one avoidance structure 2, and the avoidance structures 2 on the inner wall of the bottom edge 13 are connected with the avoidance structures 2 on the inner walls of the two sides 11. Alternatively, the number of the avoiding structures 2 of the inner walls of the two side edges 11 and the inner wall of the bottom edge 13 may also be other numbers, such as two, three, etc. The inner walls of the two side edges 11 are correspondingly connected with the avoiding structures 2 of the inner walls of the bottom edges 13. The processing is convenient, and the processing difficulty and the processing procedure are reduced. Optionally, the top of the bypass structure 2 is spaced from the top or top edge 12 of the respective side edge 11 by a distance suitable for mounting the patch panel 5.

Preferably, as shown in fig. 1 and 2, the bottom side 13 is formed as a sunken structure having a circular arc-shaped cross section. The wire frame 1 further comprises at least one first rib 3, the first rib 3 is formed on the inner wall of the bottom edge 13 and protrudes towards the wire connection cavity, namely protrudes upwards as shown in fig. 1, and two ends of the first rib 3 respectively extend towards the two side edges 11 along the axial direction perpendicular to the wire connection cavity. That is, the first rib 3 extends in the left-right direction as shown in fig. 1, and preferably, both ends of the first rib 3 extend to the connection between the two side edges 11 and the bottom edge 13. Note that the applicant has also carried out 16mm²The strand wire rock test, in the test, the wire frame 1 that does not set up first protruding muscle 3 compares that the wire frame 1 that is equipped with first protruding muscle 3 performance is lower, does not even set up the test result unqualified of the wire frame 1 of first protruding muscle 3. With respect to the height of the first ribs 3, the applicant found that the first ribs 3 cannot be too high, because the too high first ribs 3 adversely affect the terminal looseness caused by the expansion and contraction of the wire during the energization. The first ribs 3 cannot be too low, and the lifting effect of the too low first ribs 3 on the friction force can be basically ignored. Therefore, the applicant optimizes the test to obtain the preferred height of the first ribs 3 to be 0.3-0.8 mm. More specifically, since the bottom side 13 is a sinking structure of circular arc shape and the top surface of the first rib 3 is a plane, the height of the first rib 3 is the distance from the top surface of the first rib 3 to the lowest position of the bottom side 13, that is, the distance from the middle line position of the bottom side 13 shown in fig. 1, that is, the distance of the first rib 3The distance from the top surface to the lowest position of the bottom edge 13 is 0.3-0.8 mm. Optionally, the length of the first rib 3 is 8-11 mm, and the width is 0.5-0.7 mm. Preferably, the first ribs 3 include two, and the two first ribs 3 are arranged at intervals in the axial direction of the wiring cavity, that is, at intervals in the front-rear direction as shown in fig. 1. The bottom edge 13 sinking structure and the first convex rib 3 are matched for use, so that the axial force can be improved, and the lead is prevented from deviating from the wiring cavity due to the axial tension.

Preferably, the wire frame 1 further comprises at least two second ribs 4 formed at the junctions of either side edge 11 and the bottom edge 13, respectively, and the second ribs 4 have a triangular cross section. The second convex rib 4 of the triangle is matched with the sinking structure of the bottom edge 13, so that the lead can move towards the wiring cavity in the middle of the wiring frame 1 in the wiring process, the contact area of the lead and the wiring frame 1 in the wiring process is increased, the wiring reliability is improved, the locking force caused by electric expansion and contraction of the on-off electricity in the use process is reduced, the lead displacement is caused, and the vicious circle of the reduction of the locking force is realized. Optionally, the second rib 4 is also provided with a groove structure, and the groove structure on the second rib 4 is correspondingly connected with the avoiding structure 2 on the side edge 11 and the bottom edge 13. Preferably, the wire frame 1 is an integral structure, the top of the two sides 11 of the wire frame 1 is bent to form a bent portion 120, the two bent portions 120 are stacked to form a top edge 12, and the two bent portions 120 are both provided with avoiding holes 14 for connecting the wire screws 6 by screw threads.

Example 2

The junction terminal of the present embodiment, as shown in fig. 1 to 4, includes a terminal frame 1, a terminal block 5, and a binding screw 6. The wire frame 1 is the wire frame structure of embodiment 1, and the top side 12 is provided with an avoiding hole 14. The wiring board 5 is movably arranged in the wiring cavity. The wiring screw 6 is in threaded connection in the avoidance hole 14 and is abutted against the wiring board 5, and the wiring screw 6 drives the wiring frame 1 to move in the axial direction perpendicular to the wiring cavity relative to the wiring board 5 when rotating so as to compress or loosen a wire penetrating through the wiring cavity. Specifically, as shown in fig. 1, when the binding screw 6 rotates, the binding frame 1 is driven to move vertically upward and is pressed on the wire, and when the binding screw moves vertically downward, the wire is loosened.

Preferably, the end of the wiring board 5 facing away from the binding screws 6, i.e. the lower surface of the wiring board 5 as shown in fig. 1, is provided with a plurality of groove structures 51 arranged at intervals in the axial direction of the wiring cavity, i.e. at intervals left and right in the length direction of the wiring board 5 as shown in fig. 4. Specifically, the groove structure 51 of the wiring board 5 is matched with the avoiding structure 2 on the inner wall of the wiring frame 1, that is, the groove structure 51 of the wiring board 5 is an upward-concave groove with a V-shaped or triangular cross section. The groove structure 51 of the wiring board 5 and the avoiding structure 2 of the inner wall of the wiring frame 1 are matched for use, so that the lead can be fixed in the wiring cavity more tightly. Optionally, the groove structure 51 of the wiring board 5 is a triangular groove with an included angle of 90-120 degrees, and the groove depth is 0.2-0.4 mm.

The terminal block 5, as shown in fig. 4, is generally Z-shaped, wherein the portion of the terminal chamber in which the groove structure 51 is provided is T-shaped. During installation, the T-shaped portion may be passed through the wiring cavity vertically and then turned flat so that the end of the T-shape is located outside the wiring cavity and abuts against the two sides 11 and the end provided with the groove structure 51 faces the bottom 13.

Because the wire frame structure of embodiment 1 is adopted, the advantages of the wire frame structure of embodiment 1 are also at least provided, and details are not repeated here.

It should be noted that the conventional connection terminal in fig. 5 and the connection terminal of the present application are made of copper (6 mm) as the conductive wire material²) The electrified current is 100A, the existing wiring frame of the wiring terminal adopted in the experiment is not provided with an avoiding structure in the application, the experiment is carried out on the premise of removing a product thermal tripping element, and the purpose is to prevent the product from being thermally protected (delayed protection function) to be switched off in the test process.

As can be seen from the second table and the graph in FIG. 5, the thermal equilibrium temperature of the connecting terminal is lower, and in the process of heating and radiating, the radiating performance of the connecting terminal is better, the contact area is larger, and the heat transfer effect is better.

Example 3

The low-voltage apparatus of the present embodiment, as shown in fig. 1 to 4, includes the connection terminal of embodiment 2.

Because the connection terminal of embodiment 2 is adopted, the connection terminal also has at least the advantages of the connection frame structure of embodiment 1, and details are not repeated here.

Optionally, the low-voltage apparatus of this embodiment may be a switch, a circuit breaker, a fuse, a contactor, a relay, or the like. Preferably, the low-voltage apparatus of the present embodiment is a circuit breaker.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (10)

1. A wiring frame structure comprises a wiring frame (1), wherein the wiring frame (1) is a frame structure which is formed by enclosing a top edge (12), two side edges (11) and a bottom edge (13) and is internally provided with a wiring cavity for a lead to penetrate and fix; it is characterized by also comprising:

the wire connecting cavity is provided with at least one avoidance structure (2) which is arranged on the inner wall of at least one side edge (11) and faces away from the wiring cavity, wherein the avoidance structure (2) is suitable for providing an avoidance space for expansion of a wire when the wire fixed in the wiring cavity is electrified and heated.

2. The terminal frame structure according to claim 1, characterized in that the avoiding structure (2) is a groove directly formed on the inner wall of the side (11), the groove extending to the bottom of the side (11) where the groove is located in the direction perpendicular to the axial direction of the terminal cavity; or

The inner wall of the side edge (11) is provided with at least two protrusions which are arranged at intervals along the axial direction of the wiring cavity, and the avoidance structure (2) is formed by the adjacent protrusions and the inner wall of the side edge (11) in a surrounding mode.

3. The wire frame structure according to claim 1 or 2, characterized in that the avoiding structure (2) is a triangular groove tapering from near the wire cavity towards far away from the wire cavity;

the depth of the triangular groove is 0.2-0.4 mm.

4. The wire frame structure according to claim 1 or 2, characterized in that the number of the avoiding structures (2) is at least two, and at least one avoiding structure (2) is arranged on the inner wall of any one of the side edges (11).

5. The wire frame structure according to claim 4, characterized in that the avoiding structures (2) of the inner walls of the two side edges (11) are oppositely arranged;

the inner wall of the bottom edge (13) is also provided with at least one avoidance structure (2), and the avoidance structure (2) on the inner wall of the bottom edge (13) is connected with the avoidance structures (2) on the inner walls of the two side edges (11).

6. The wire frame structure according to claim 1 or 2, wherein the bottom side (13) is formed as a depressed structure having a circular arc-shaped cross section; further comprising:

the at least one first convex rib (3) is formed on the inner wall of the bottom edge (13) and protrudes towards the wiring cavity, and two ends of the first convex rib respectively extend towards the two side edges (11) along the axial direction perpendicular to the wiring cavity;

the top surface of the first convex rib (3) is 0.3-0.8 mm away from the lowest position of the bottom edge (13).

7. The wire frame structure of claim 6, further comprising:

at least two second convex ribs (4) are respectively formed at the joint of any side edge (11) and the bottom edge (13), and the cross section of each second convex rib (4) is triangular.

8. A terminal, comprising:

the wiring frame (1), the wiring frame (1) is the wiring frame structure of any one of claims 1-7, and the top side (12) is provided with an avoiding hole (14);

the wiring board (5) is movably arranged in the wiring cavity;

wiring screw (6), threaded connection in dodging hole (14) and support and press on wiring board (5), wiring screw (6) drive when rotating wiring frame (1) for wiring board (5) are the perpendicular to the axial motion in wiring chamber makes wiring board (5) and wiring frame (1) press from both sides tightly or loosen and wear to locate the wire in the wiring chamber.

9. A terminal block according to claim 8, characterised in that the end of the terminal block (5) facing away from the terminal screw (6) is provided with a plurality of groove structures (51) arranged at intervals in the axial direction of the terminal chamber.

10. A low-voltage electrical appliance, characterized in that it comprises a terminal according to any one of claims 8 to 9.

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