CN109818196B - Cable connector - Google Patents

Abstract

The invention provides a cable connector, which is used for being connected with a cable, and comprises a conductive terminal, a fixing piece and a fixing plug, wherein one end of the conductive terminal is arranged in the fixing piece and is connected with the fixing piece, and the fixing plug is sleeved outside the other end of the conductive terminal and is connected with the conductive terminal; the conductive terminal comprises a negative electrode terminal, a positive electrode terminal and a signal terminal, wherein the negative electrode welding part of the negative electrode terminal and the positive electrode welding part of the positive electrode terminal are positioned on the same horizontal plane, the signal welding part of the signal terminal and the negative electrode welding part are positioned on different horizontal planes, and the signal welding part is higher than the negative electrode welding part; the negative electrode welding part, the positive electrode welding part and the signal welding part are welded with the cable. The invention can automatically finish welding between the cable and the welding part at one time, thereby improving the working efficiency; meanwhile, false welding caused by the fact that the cable cannot be completely contacted with the welding part is avoided, the yield of products is improved, and cost is further saved.

Description

Cable connector

Technical Field

The present invention relates to a cable connector.

Background

The existing mobile electronic equipment is powered by repeatedly charging the battery in the cable connector assembly, so that the power consumption requirement of the mobile electronic equipment is met.

The cable connector comprises a negative electrode terminal, a positive electrode terminal and three terminals of a signal terminal, wherein three welding parts of the three terminals are positioned on the same horizontal plane, the positive electrode cable and the negative electrode cable which are required to be welded at the welding parts of the negative electrode terminal and the positive electrode terminal are thicker, the cable which is required to be welded at the welding parts of the signal terminal is thinner, and if one-time welding is required to be completed, false welding is easy to form, so that the yield of products is low.

The above disadvantages are to be improved.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a cable connector.

The technical scheme of the invention is as follows:

the cable connector is used for being connected with a cable and comprises a conductive terminal, a fixing piece and a fixing plug, wherein one end of the conductive terminal is arranged in the fixing piece and is connected with the fixing piece, and the fixing plug is sleeved outside the other end of the conductive terminal and is connected with the conductive terminal;

the conductive terminal comprises a negative electrode terminal, a positive electrode terminal and a signal terminal, wherein a negative electrode welding part of the negative electrode terminal and a positive electrode welding part of the positive electrode terminal are positioned on the same horizontal plane, a signal welding part of the signal terminal and the negative electrode welding part are positioned on different horizontal planes, and the signal welding part is higher than the negative electrode welding part;

the negative electrode welding portion, the positive electrode welding portion, and the signal welding portion are welded with the cable.

Further, be equipped with on the fixed plug and be used for fixing the first recess of negative pole welded part, be used for fixing the second recess of positive pole welded part and be used for fixing the third recess of signal welded part, first recess third recess reaches the second recess sets up side by side in proper order, just the bottom surface of first recess with the bottom surface of second recess is located same horizontal plane, the bottom surface of first recess with the bottom surface of third recess is located different horizontal planes, the bottom surface of third recess exceeds the bottom surface of first recess.

Further, the first groove, the third groove and the second groove which are arranged side by side sequentially form a first rib wall, a second rib wall, a third rib wall and a fourth rib wall.

Further, the negative electrode terminal comprises two negative electrode pins, and the two negative electrode pins form a two-piece integrated structure, and the negative electrode terminal is a U-shaped two-piece negative electrode terminal;

and/or the positive terminal comprises two positive pins, and the two positive pins form a two-piece integrated structure, and the positive terminal is a U-shaped double-piece positive terminal;

and/or the signal terminal comprises a signal pin, and a single signal pin forms a single-spelling integrated structure to form the single-spelling signal terminal.

Further, the two negative electrode pins are provided with negative electrode convex points, and the negative electrode convex points on the two sides are oppositely arranged;

and/or, the two positive electrode pins are provided with positive electrode convex points, and the positive electrode convex points on the two sides are oppositely arranged;

and/or, the signal pins are provided with signal bumps.

Further, at least one U-shaped double-spliced negative electrode terminal is led out from the negative electrode welding part;

and/or at least one U-shaped double-spliced positive terminal is led out from the positive electrode welding part;

and/or at least one single-spliced signal terminal is led out from the signal welding part.

Further, the conductive terminals further comprise A6 and A7 pin terminals.

Further, the fixing piece comprises an insulating body and a metal shell, wherein the metal shell is sleeved outside the insulating body and is connected with the insulating body; the insulating body is provided with a hole site, one end of the conductive terminal is arranged in the hole site, and the conductive terminal is fixed by the hole site.

Further, the cable connector further includes a hook connected with the negative terminal and the metal housing.

Further, the hooks are provided with protruding blocks, the insulating body is provided with hook grooves, and the hooks penetrate through the hook grooves and are in contact connection with the metal shell.

The invention according to the scheme has the beneficial effects that: according to the cable connector provided by the invention, the positive electrode welding part, the negative electrode welding part and the signal welding part form the height difference, so that the welding between the cable and the welding part can be automatically finished at one time, the working efficiency is improved, and the cost is further saved; meanwhile, false welding caused by the fact that the cable cannot be completely contacted with the welding part is avoided, the yield of products is improved, and cost is further saved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a cable connector according to the present invention;

FIG. 2 is a schematic diagram of an exploded structure of the cable connector of the present invention;

FIG. 3 is a schematic diagram showing a connection structure between a conductive terminal and a fixed plug according to the present invention;

FIG. 4 is a schematic view of a fixing plug according to the present invention;

FIG. 5 is a second schematic view of the structure of the fixing plug according to the present invention;

FIG. 6 is a schematic diagram of an explosion structure of a conductive terminal according to the present invention;

FIG. 7 is a schematic view of a negative terminal structure of the present invention;

FIG. 8 is a schematic view of the structure of the positive terminal of the present invention;

fig. 9 is a schematic diagram of a signal terminal structure according to the present invention;

FIG. 10 is a schematic view of a hanger of the present invention;

fig. 11 is a schematic view of an insulation body structure according to the present invention.

Wherein, each reference sign in the figure:

1-a cable connector;

11-conductive terminals;

a 111-negative terminal; 1111-negative electrode welded portion; 1112-negative electrode pins; 11121-negative bump; 1113-first detent;

112-positive terminal; 1121—positive electrode weld; 1122-positive pin; 11221—positive bump;

113-signal terminals; 1131-signal welds; 1132-signal pins; 11321-signal bumps;

12-fixing piece;

121-an insulating body; 122-a metal housing;

1211-hole site; 1212-hooking grooves;

13-fixing the plug;

131-a first groove; 132-a second groove; 133-a third groove;

134-first rib wall; 135-second rib wall; 136-third rib wall; 137-fourth rib wall;

1341-first guide; 1351-a second guide; 1361-third guide; 1371-fourth guides;

14-hooking; 141-a second clamping position; 142-bumps.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly or indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The directions or positions indicated by the terms "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. are directions or positions based on the drawings, and are merely for convenience of description and are not to be construed as limiting the present technical solution. The terms "first," "second," and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "a plurality of" is two or more, unless specifically defined otherwise.

Referring to fig. 1 to 3, a cable connector 1 is used for connecting with a cable, the cable connector 1 includes a conductive terminal 11, a fixing member 12 and a fixing plug 13, one end of the conductive terminal 11 is disposed inside the fixing member 12 and connected with the fixing member 12, and the fixing plug 13 is sleeved outside the other end of the conductive terminal 11 and connected with the conductive terminal 11;

the conductive terminal 11 includes a negative electrode terminal 111, a positive electrode terminal 112, and a signal terminal 113, wherein a negative electrode welding portion 1111 of the negative electrode terminal 111 and a positive electrode welding portion 1121 of the positive electrode terminal 112 are located at the same horizontal plane, a signal welding portion 1131 of the signal terminal 113 and the negative electrode welding portion 1111 are located at different horizontal planes, and the signal welding portion 1131 is higher than the negative electrode welding portion 1111;

the negative electrode welding portion 1111, the positive electrode welding portion 1121, and the signal welding portion 1131 are welded to the cable.

The working principle of the cable connector provided in this embodiment is as follows:

the thickness degree of the positive electrode cable is inconsistent with that of the negative electrode cable, and the thickness degree of the signal cable is consistent with that of the positive electrode cable;

therefore, the negative electrode welded portion 1111 and the positive electrode welded portion 1121 are disposed on the same horizontal plane, the signal welded portion 1131 and the negative electrode welded portion 1111 are disposed on different horizontal planes, that is, the signal welded portion 1131 and the positive electrode welded portion 1121 are also disposed on different horizontal planes, and the signal welded portion 1131 is higher than the positive electrode welded portion 1121 and the negative electrode welded portion 1111, thereby forming a height difference;

when the thicker positive electrode cable is welded with the positive electrode welding part 1121, the thicker negative electrode cable is welded with the negative electrode welding part 1111, and the thinner signal cable is welded with the signal welding part 1131, automatic one-time welding can be achieved, and false welding caused by the fact that the cable cannot completely contact with the welding part is avoided.

When the thicker positive electrode cable is welded with the positive electrode welding portion 1121, the thicker negative electrode cable is welded with the negative electrode welding portion 1111, and the thinner signal cable is connected with the signal welding portion 1131, the surfaces of the positive electrode cable, the negative electrode cable and the signal cable are in the same horizontal plane.

The beneficial effect of the cable connector that this embodiment provided is:

according to the cable connector 1 provided by the invention, the positive electrode welding part 1121, the negative electrode welding part 1111 and the signal welding part 1131 form a height difference, so that the welding between the cable and the welding part can be automatically finished at one time, the working efficiency is improved, and the cost is further saved; meanwhile, false welding caused by the fact that the cable cannot be completely contacted with the welding part is avoided, the yield of products is improved, and cost is further saved.

Referring to fig. 4, in one embodiment, the fixing plug 13 is provided with a first groove 131 for fixing the negative electrode welding portion 1111, a second groove 132 for fixing the positive electrode welding portion 1121, and a third groove 133 for fixing the signal welding portion 1131, where the first groove 131, the third groove 133, and the second groove 132 are sequentially arranged side by side, the bottom surface of the first groove 131 and the bottom surface of the second groove 132 are located at the same horizontal plane, the bottom surface of the first groove 131 and the bottom surface of the third groove 133 are located at different horizontal planes, and the bottom surface of the third groove 133 is higher than the bottom surface of the first groove 131.

The working principle of the arrangement is as follows: the first groove 131 is arranged on the fixed plug 13 to fix the negative electrode welding part 1111, the second groove 132 is arranged to fix the positive electrode welding part 1121, the third groove 133 is arranged to fix the signal welding part 1131, the bottom surface of the first groove 131 and the bottom surface of the second groove 132 are positioned on the same horizontal plane, the bottom surface of the first groove 131 and the bottom surface of the third groove 133 are positioned on different horizontal planes, the bottom surface of the third groove 133 is higher than the bottom surface of the first groove 131, so that the negative electrode welding part 1111 of the negative electrode terminal 111 and the positive electrode welding part 1121 of the positive electrode terminal 112 are positioned on the same horizontal plane, the signal welding part 1131 of the signal terminal 113 and the negative electrode welding part 1111 are positioned on different horizontal planes, and the signal welding part 1131 is higher than the negative electrode welding part 1111; when the thicker positive electrode cable is welded with the positive electrode welding part 1121, the thicker negative electrode cable is welded with the negative electrode welding part 1111 and the thinner signal cable is welded with the signal welding part 1131, automatic one-time welding can be realized, and false welding caused by the fact that the cable cannot completely contact with the welding part is avoided; when the thicker positive electrode cable is welded with the positive electrode welding portion 1121, the thicker negative electrode cable is welded with the negative electrode welding portion 1131, and the thinner signal cable is welded with the signal welding portion 1131, the surfaces of the positive electrode cable, the negative electrode cable and the signal cable are in the same horizontal plane.

The beneficial effect who sets up like this is: (1) The fixing plug 13 thus provided has a simple structure, and can easily realize that the negative electrode welding portion 1111 of the negative electrode terminal 111 and the positive electrode welding portion 1121 of the positive electrode terminal 112 are positioned on the same horizontal plane, the signal welding portion 1131 of the signal terminal 113 and the negative electrode welding portion 1111 are positioned on different horizontal planes, and the signal welding portion 1131 is higher than the negative electrode welding portion 1111; (2) The fixing plug 13 can be used for supporting the welding part, and can prevent the defects of breakage and welding part deflection caused by the influence of pressure on the cable injection molding.

Referring to fig. 4, in one embodiment, the first groove 131, the third groove 133 and the second groove 132 arranged side by side sequentially form a first rib 134, a second rib 135, a third rib 136 and a fourth rib 137.

(1) The arrangement of the first rib wall 134, the second rib wall 135, the third rib wall 136 and the fourth rib wall 137 can enable the negative electrode welding part 1111, the signal welding part 1131 and the positive electrode welding part 1121 to be rapidly and accurately positioned and installed in the first groove 131, the third groove 133 and the second groove 132, so that the production efficiency is improved;

(2) The arrangement of the first rib wall 134, the second rib wall 135, the third rib wall 136 and the fourth rib wall 137 also prevents the problem that tin points are easy to be connected to form a short circuit after welding.

Referring to fig. 5, preferably, a first guiding portion 1341 is disposed on a side of the first rib 134 adjacent to the first groove 131. The provision of the first guide portion 1341 facilitates rapid and accurate positioning and installation of the negative electrode welding portion 1111 in the first groove 131.

Preferably, a second guide portion 1351 is provided on the side of the second rib 135 adjacent to the third groove 133; a third guide portion 1361 is provided on a side of the third rib 136 adjacent to the third groove 133. The provision of the second guide 1351 and the third guide 1361 facilitates the rapid and accurate positioning and installation of the signal pad 1131 within the third recess 133.

Preferably, a fourth guide portion 1371 is provided on a side of the fourth rib 137 adjacent to the second recess 132. The fourth guide portion 1371 facilitates quick and accurate positioning and installation of the positive electrode welding plate 1121 in the second recess 132.

Referring to fig. 6 to 9, in one embodiment, the negative terminal 111 includes two negative pins 1112, and the two negative pins 1112 form a two-piece structure, which is a U-shaped two-piece negative terminal;

and/or, the positive terminal 112 comprises two positive pins 1122, and the two positive pins 1122 form a two-piece integrated structure, and are U-shaped double-piece positive terminals;

and/or, the signal terminal 113 comprises a signal pin 1132, and the single signal pin 1132 forms a single-spelling integrated structure and is a single-spelling signal terminal.

The arrangement makes the connection and assembly between the two negative electrode pins 1112 and between the two positive electrode pins 1122 without conductors, thereby improving the working efficiency of assembling the U-shaped double-spliced negative electrode terminal, the U-shaped double-spliced positive electrode terminal and the U-shaped signal terminal, reducing the cost and improving the yield of products.

In one embodiment, both negative pins 1112 are provided with negative bumps 11121, and the negative bumps 11121 on both sides are disposed opposite to each other. The negative bump 11121 is configured such that the two negative pins 1112 form a resilient holding force port.

And/or, the two positive electrode pins 1122 are provided with positive electrode convex points 11221, and the positive electrode convex points 11221 on two sides are oppositely arranged. The positive bump 11221 is disposed such that the two positive pins 1122 form a resilient clamping force port.

And/or, signal bumps 11321 are disposed on signal pins 1132. The signal bumps 11321 are arranged to enable the signal pins 1132 to form elastic holding force ports.

In one embodiment, the negative weld 1111 exits at least one U-shaped double-split negative terminal;

and/or, at least one U-shaped double-spliced positive terminal is led out from the positive electrode welding part 1121;

and/or, the signal weld 1131 draws at least one single-splice signal terminal.

The arrangement makes conductors between the plurality of U-shaped double-spliced negative terminals, between the U-shaped double-spliced positive terminals and between the U-shaped signal terminals not needed for auxiliary connection and assembly, so that the working efficiency of assembling the conductive terminals is improved, the cost is reduced, and the yield of products is improved.

Preferably, the negative weld 1111 draws two U-shaped double-split negative terminals.

Preferably, the positive electrode welding portion 1121 leads out two U-shaped double-spliced positive electrode terminals.

Preferably, the signal weld 1131 exits one of the U-shaped signal terminals.

The conductive terminal 11 further comprises A6 and A7 spliced terminals, wherein the A6 (D+), A7 (D-) spliced terminals are signal line terminals.

Referring to fig. 2, in one embodiment, the fixing member 12 includes an insulation body 121 and a metal housing 122, where the metal housing 122 is sleeved outside the insulation body 121 and connected to the insulation body 121; the insulating body 121 is provided with a hole 1211, one end of the conductive terminal 11 is disposed in the hole 1211, and the hole 1211 fixes the conductive terminal 11. This arrangement allows the conductive terminal 11 to be stably placed on the insulating body 121 and thus on the fixing member 12.

Referring to fig. 3, 6 and 10, in one embodiment, the cable connector 1 further includes a hook 14, and the hook 14 is connected to the negative terminal 111 and the metal housing 122.

Referring to fig. 10, preferably, the negative terminal 111 is provided with a first clamping position 1113, the hook 14 is provided with a second clamping position 141, and the first clamping position 1113 is in cross-clamping engagement with the second clamping position 141. The first clamping position 1113 is in crossed clamping with the second clamping position 141, so that the negative terminal 111 is electrically connected with the hook 14; and the arrangement of the first clamping position 1113 and the second clamping position 141 enables the negative terminal 111 to be connected with the hook 14 more stably, and the disassembly and assembly are convenient.

Preferably, the hook 14 is provided with a bump 142, the insulating body 121 is provided with a hook slot 1212, and the hook 14 passes through the hook slot 1212 and is in contact connection with the metal shell 122. When the projection 142 is pushed, the hook 14 is pushed out from the hook groove 1212 and then comes into contact with the metal case 122, thereby grounding the negative terminal 111.

Referring to fig. 1, in one embodiment, the insulating body 121 and the metal shell 122 are both of a step surface transition structure. The arrangement makes the insulation body 121 and the metal shell 122 effectively coincide, so that the insulation body 121 and the metal shell 122 are connected more stably and displacement is not generated.

Referring to fig. 1, in one embodiment, a step surface transition structure is used between the fixing plug 13 and the metal housing 122. This arrangement prevents the outflow of tin points during soldering of the product and prevents the solder from shorting to the metal housing 122.

Preferably, the metal shell 122 is made of iron.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (4)

1. A cable connector for connection with a cable, characterized by: the cable connector comprises a conductive terminal, a fixing piece and a fixing plug, wherein one end of the conductive terminal is arranged in the fixing piece and connected with the fixing piece, and the fixing plug is sleeved outside the other end of the conductive terminal and connected with the conductive terminal;

the conductive terminal comprises a negative electrode terminal, a positive electrode terminal and a signal terminal, wherein a negative electrode welding part of the negative electrode terminal and a positive electrode welding part of the positive electrode terminal are positioned on the same horizontal plane, a signal welding part of the signal terminal and the negative electrode welding part are positioned on different horizontal planes, and the signal welding part is higher than the negative electrode welding part; the negative electrode terminal comprises two negative electrode pins, and the two negative electrode pins form a two-piece integrated structure, and the negative electrode terminal is a U-shaped double-piece negative electrode terminal; the positive terminal comprises two positive pins, and the two positive pins form a two-piece integrated structure, and the positive terminal is a U-shaped double-piece positive terminal; the signal terminal comprises a signal pin, and a single signal pin forms a single-spelling integrated structure and is a single-spelling signal terminal;

the negative electrode welding part, the positive electrode welding part and the signal welding part are welded with the cable, a first groove used for fixing the negative electrode welding part, a second groove used for fixing the positive electrode welding part and a third groove used for fixing the signal welding part are arranged on the fixing plug, the first groove, the third groove and the second groove are sequentially arranged side by side, the bottom surface of the first groove and the bottom surface of the second groove are positioned on the same horizontal plane, the bottom surface of the first groove and the bottom surface of the third groove are positioned on different horizontal planes, and the bottom surface of the third groove is higher than the bottom surface of the first groove;

when the thicker positive electrode cable is welded with the positive electrode welding part, the thicker negative electrode cable is welded with the negative electrode welding part, and the thinner signal cable is welded with the signal welding part, automatic one-time welding is realized, and false welding caused by the fact that the cable cannot completely contact with the welding part is avoided;

when the thicker positive electrode cable is welded with the positive electrode welding part, the thicker negative electrode cable is welded with the negative electrode welding part, and the thinner signal cable is connected with the signal welding part, the surfaces of the positive electrode cable, the negative electrode cable and the signal cable are positioned on the same horizontal plane;

the fixing piece comprises an insulating body and a metal shell, and the metal shell is sleeved outside the insulating body and connected with the insulating body; the insulating body is provided with a hole site, one end of the conductive terminal is arranged in the hole site, and the hole site fixes the conductive terminal;

the cable connector further comprises a hook, the hook is connected with the negative terminal and the metal shell, a bump is arranged on the hook, a hook groove is formed in the insulating body, and the hook penetrates through the hook groove and is in contact connection with the metal shell;

the negative terminal is provided with a first clamping position, the hook is provided with a second clamping position, the first clamping position and the second clamping position are in crossed clamping, and the first clamping position and the second clamping position are in crossed clamping, so that the negative terminal is electrically connected with the hook.

2. The cable connector of claim 1, wherein: the first groove, the third groove and the second groove which are arranged side by side sequentially form a first rib wall, a second rib wall, a third rib wall and a fourth rib wall.

3. The cable connector of claim 1, wherein: the two negative electrode pins are respectively provided with two negative electrode convex points, and the corresponding two negative electrode convex points are oppositely arranged;

and/or two positive electrode pins are provided with two positive electrode convex points, and the two corresponding positive electrode convex points are oppositely arranged;

and/or, the signal pins are provided with signal bumps.

4. The cable connector of claim 1, wherein: at least one U-shaped double-spliced negative electrode terminal is led out from the negative electrode welding part;

and/or at least one U-shaped double-spliced positive terminal is led out from the positive electrode welding part;

and/or at least one single-spliced signal terminal is led out from the signal welding part.