CN212033269U - Plug wire terminal block structure - Google Patents

Abstract

The utility model relates to a plug wire terminal platform structure for inserting wires, which comprises an insulating base, a conductive elastic sheet and a metal terminal, wherein the insulating base is provided with an accommodating cavity and a wire inlet hole which is communicated with the accommodating cavity and is used for inserting wires, a wire arm is formed at one side corresponding to the wire inlet hole, a caulking groove is arranged at the other side of the wire inlet hole, and a fixed part is formed in the accommodating cavity; the conductive elastic sheet is arranged in the cavity corresponding to the fixing part and is provided with a clamping arm formed in the wire inlet hole; the metal terminal includes the riser, is connected with the pin in the one end of riser, and the pin is inlayed and is established and form the side at the centre gripping arm corresponding to the caulking groove, and riser and wire arm then backstop are at a side of electrically conductive shell fragment and wire jointly. Therefore, the conducting wire cannot be exposed, and the conducting elastic sheet can be stably restrained in the accommodating cavity, so that the use safety is improved.

Description

Plug wire terminal block structure

Technical Field

The present invention relates to a terminal block, and more particularly to a plug terminal block structure.

Background

A terminal block is a common connection component, and has been widely used in various fields such as communication products, industrial equipment integrated among equipment, power industry, industrial control, and the like, and it not only can improve reliability and safety of a power system, but also can make industrial equipment achieve high automation.

The conventional plug terminal block structure comprises an insulating base, a conductive elastic sheet and a metal terminal, wherein the insulating base is provided with a wire inlet hole for plugging a wire, the conductive elastic sheet is arranged in the insulating base, and the metal terminal is fixed on the insulating base and electrically connected with the conductive elastic sheet.

However, in the conventional wire plugging terminal block structure, after the wire is inserted from the wire inlet hole, the wire is often inclined to expose the insulating base, thereby affecting the safety of use; the inclination of the conductive wire may also cause the conductive elastic piece and the metal terminal to slide, thereby hindering the electrical connection between the conductive wire and the metal terminal.

In view of the above, the present inventors have made extensive studies to solve the above problems in view of the above-mentioned drawbacks of the prior art, and have reached an object of the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a plug wire terminal platform structure, wherein the wire does not have the exerted condition behind the grafting entrance hole, and electrically conductive shell fragment also can be restrained stably in holding the chamber, the security that more increases the use.

In order to achieve the above object, the present invention provides a plug terminal platform structure for inserting a wire, including an insulating base, a conductive elastic sheet and a metal terminal, wherein the insulating base has an accommodating cavity, the insulating base is provided with a wire inlet hole which is communicated with the accommodating cavity and used for inserting the wire, a wire arm is formed on one side edge corresponding to the wire inlet hole, a caulking groove is formed on the other side edge of the wire inlet hole, and a fixing part is formed in the accommodating cavity; the conductive elastic sheet is arranged in the cavity corresponding to the fixing part and is provided with a clamping arm formed in the wire inlet hole; the metal terminal comprises a vertical plate, one end of the vertical plate is connected with a pin, the pin is embedded in the caulking groove and is formed on the side edge of the clamping arm, and the vertical plate and the wire arm stop at one side edge of the conductive elastic sheet and the wire together.

The utility model discloses still have following efficiency, utilize the ladder piece of wire arm and the mutual overlap joint in the ladder groove of riser and form firm structure to prevent effectively that metal terminal from falling out from insulating base. The through holes are arranged at the bending positions of the vertical plate and the transverse plate, so that the bending forming during manufacturing and processing is facilitated. The reinforcing ribs are arranged on the vertical plates, so that the structural strength of the vertical plates is improved. The retaining force of the pin to the lead is increased by the arrangement of the teeth. The clamping teeth are used for clamping the end part of the clamping arm, so that the clamping arm can be prevented from being excessively deformed. The metal terminal is simple in structure, easy to manufacture and low in cost.

Drawings

FIG. 1 is an appearance view of the plug terminal block of the present invention;

fig. 2 is an exploded view of the plug terminal block of the present invention;

fig. 3 is a perspective view of the metal terminal of the present invention;

fig. 4 is a front view of the structure of the plug terminal block of the present invention;

FIG. 5 is a cross-sectional view taken from 5-5 of FIG. 4;

fig. 6 is a combined cross-sectional view of the plug terminal block structure of the present invention;

fig. 7 is a combined cross-sectional view of the plug terminal block structure and the lead according to the present invention.

Symbolic illustration in the drawings:

10, an insulating base;

11, a cavity;

111, a window;

12, a wire inlet hole;

13, a wire arm;

131 is a free end;

132, a step block;

14, caulking grooves;

15, a fixed part;

151, a spring plate bracket;

152, a spring piece accommodating groove;

16, a transverse slot;

17, a release member insertion hole;

171, a limiting part;

172, a baffle plate;

20, a conductive elastic sheet;

21, a fixed arm;

22, an arc-shaped section;

23, a clamping arm;

30, a metal terminal;

31, a transverse plate;

32, a vertical plate;

321 step groove;

322, reinforcing ribs;

323, chamfering;

33, a pin;

331, a rodent;

332, a latch;

34, a through hole;

40, a release part;

41, a block body;

42, a wedge;

421 a stop portion;

9, conducting wires.

Detailed Description

The following detailed description and technical contents of the present invention are described with reference to the accompanying drawings, however, the accompanying drawings are only provided for reference and illustration, and are not intended to limit the present invention.

Referring to fig. 1 to 6, the present invention provides a plug terminal block structure, which mainly includes an insulating base 10, a conductive elastic sheet 20 and a metal terminal 30.

The insulating base 10 is made of plastic and other materials with good insulating property, and is substantially a flat body, the insulating base 10 of the embodiment mainly includes two cavities 11 respectively formed on the left and right sides of the insulating base 10, each cavity 11 has a window 111, a wire inlet 12 respectively communicating with each cavity 11 is arranged above the insulating base 10, a wire arm 13 is formed on one side corresponding to each wire inlet 12, and the wire arm 13 is formed on the side of the window 111. In addition, a caulking groove 14 is formed on the other side of the lower half of the wire inlet 12, and the caulking groove 14 separates the wire arm 13 from the insulating base 10. In addition, a fixing portion 15 is formed inside each of the receiving cavities 11 away from the wire inlet 12, and the fixing portion 15 of the present embodiment mainly includes a spring bracket 151 and a spring receiving groove 152 formed between the outer periphery of the spring bracket 151 and the insulating base 10.

Furthermore, a transverse slot 16 communicating each cavity 11 is arranged between the two cavities 11 of the insulating base 10, a release member insertion hole 17 is respectively arranged on the insulating base 10 at the side of each wire inlet hole 12, and each release member insertion hole 17 is also respectively communicated with each cavity 11.

In addition, the insulating base 10 can be formed in a single number (not shown) except for the above-mentioned embodiment, wherein the receiving cavity 11, the wire inlet hole 12, the wire arm 13, the insertion groove 14, the fixing portion 15 and the release member insertion hole 17.

The conductive elastic piece 20 is made of copper or its alloy with good conductivity, and is installed in the cavity 11 corresponding to the fixing portion 15, the conductive elastic piece 20 of the present embodiment mainly includes a fixing arm 21, an arc segment 22 extending from the fixing arm 21, and a clamping arm 23 extending from the arc segment 22, wherein the arc segment 22 is embedded in the elastic piece accommodating groove 152 and clamped between the elastic piece bracket 151 and the insulating base 10, the clamping arm 23 extends through the release piece insertion hole 17 and its end is formed in the wire feeding hole 12, and the fixing arm 21 extends vertically downward and is formed at one end of the transverse slot 16.

The metal terminal 30 is made of copper or its alloy with good conductivity, and mainly includes a horizontal plate 31 and a vertical plate 32 extending from the horizontal plate 31, two ends of the vertical plate 32 are respectively connected with a pin 33, wherein the horizontal plate 31 is embedded corresponding to the horizontal slot 16, and the ends of the fixing arms 21 are electrically connected to the left and right ends of the horizontal plate 31, each pin 33 is embedded corresponding to the embedding slot 14 and is hidden in the insulating base 10, each pin 33 is formed on the side of each clamping arm 23, and the vertical plate 32 and the wire arm 13 are stopped on one side of the conductive elastic sheet 20 and one wire 9 (as shown in fig. 7).

Furthermore, a plurality of through holes 34 are arranged at intervals at the connecting and bending position of the horizontal plate 31 and the vertical plate 32, so as to facilitate the bending formation of the vertical plate 32 and the horizontal plate 31 during the manufacturing process. Two sides of the vertical plate 32 are respectively provided with a reinforcing rib 322 to enhance the structural strength thereof. Furthermore, a plurality of engaging teeth 331 and a latch 332 formed above each engaging tooth 331 are disposed on a side surface of each pin 33 facing the holding arm 23, and the latch 332 is used to engage with an end of the holding arm 23. Furthermore, a chamfer 323 is disposed at each of the two side corners of the vertical plate 32 to increase the safety distance.

Further, the wire arm 13 is integrally formed with the insulating base 10, and a free end 131 is disposed on a side of the wire arm 13 away from the insulating base 10, a step block 132 (as shown in fig. 5) is disposed on an end surface of the free end 131, and the vertical plate 32 is disposed with a step groove 321 overlapping the step block 132 at a position corresponding to the step block 132, so as to effectively prevent the metal terminal 30 from falling out of the insulating base 10.

Furthermore, the plug terminal block structure of the present invention further includes a releasing member 40, wherein the releasing member 40 is inserted corresponding to the releasing member insertion hole 17 and is used for pushing the clamping arm 23 to generate elastic deformation, so that the wire 9 can be pulled out from the insulating base 10. The releasing member 40 mainly includes a block 41 and a wedge 42 extending downward from the block 41; a limiting portion 171 (as shown in fig. 6) is disposed inside the release insertion hole 17 of the insulating base 10 for limiting the downward movement of the block 41; in addition, a stop plate 172 is disposed inside the release element insertion hole 17 of the insulating base 10, and a stop portion 421 is disposed inside the middle section of the wedge 42 to be engaged with the stop plate 172, so as to prevent the release element 40 from being separated from the insulating base 10.

Referring to fig. 7, when the portable electronic device is used, a conductive wire 9 is inserted into the wire inlet 12, the side edge of the conductive wire 9 is guided by the conductive wire arm 13 to move, and after the front end of the conductive wire 9 reaches the position of the clamping arm 23, the clamping arm 23 is elastically deformed correspondingly, and clamps and holds the conductive wire 9 together with the pin 33, because the conductive wire 9 and the conductive elastic piece 20 are stopped by the vertical plate 32 and the conductive wire arm 13, the conductive elastic piece 20 is not exposed, and can be stably retained in the cavity 11, so that the safety of use is further improved.

Claims (11)

1. A plug terminal block structure for inserting a wire, comprising:

the insulation base is provided with a containing cavity, the insulation base is provided with a wire inlet hole which is communicated with the containing cavity and is used for inserting the wire, a wire arm is formed on one side edge corresponding to the wire inlet hole, an embedding groove is formed on the other side edge of the wire inlet hole, and a fixing part is formed in the containing cavity;

a conductive elastic sheet, which is arranged in the cavity corresponding to the fixing part and is provided with a clamping arm formed in the wire inlet hole; and

a metal terminal, including a riser, be connected with a pin at the one end of this riser, this pin is inlayed and is established and form the side at this centre gripping arm corresponding to this caulking groove, this riser and this wire arm then backstop jointly at this electrically conductive shell fragment with a side of wire.

2. The structure of claim 1, wherein the cavity has a window, and the wire arm is integrally formed with the insulating base and is formed at a side of the window.

3. The structure of claim 1, wherein the wire arm has a free end at a side away from the insulating base, a step block is provided at an end surface of the free end, and the vertical plate is provided with a step groove overlapping with the step block at a position corresponding to the step block.

4. The plug terminal block structure of claim 1, wherein the fixing portion comprises a spring bracket and a spring receiving groove formed between an outer periphery of the spring bracket and the insulating base, the conductive spring further comprises a fixing arm and an arc-shaped segment extending from the fixing arm, the clamping arm extends from an end of the arc-shaped segment away from the fixing arm, and the arc-shaped segment is embedded in the spring receiving groove and clamped between the spring bracket and the insulating base.

5. The structure of claim 4, wherein the insulating base has a horizontal slot communicating with the cavity, the metal terminal further includes a horizontal plate extending from the vertical plate, the horizontal plate is embedded in the horizontal slot, and an end of the fixing arm is electrically connected to an end of the horizontal plate.

6. The structure of claim 5, wherein a plurality of through holes are formed at the connecting and bending portion between the horizontal plate and the vertical plate, the vertical plate is provided with a reinforcing rib, and a chamfer is formed at the corner end of the vertical plate.

7. The wire termination block structure of claim 1, wherein the nest separates the wire arm from the insulating base.

8. The wire-plugging terminal block structure of claim 1, wherein the side of the pin facing the clamping arm is provided with a plurality of engaging teeth and a latch formed above each engaging tooth, the latch being adapted to engage with the end of the clamping arm.

9. The plug terminal block structure of claim 1, further comprising a release member, wherein the insulating base at the side of the wire inlet hole is provided with a release member insertion hole communicated with the cavity, and the release member is inserted corresponding to the release member insertion hole and used for pushing the clamping arm to generate elastic deformation.

10. The structure of claim 9, wherein the release member includes a block and a wedge extending from the block, and a limiting portion is disposed inside the release member insertion hole to limit downward movement of the block.

11. The structure of claim 10, wherein a stop is disposed inside the release insertion hole, and a middle portion of the wedge is provided with a stop for engaging with the stop.

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