CN210443696U - USB Type-C mounting structure of stable production of processing procedure - Google Patents

Abstract

The utility model discloses a USB Type-C mounting structure for stable production, which comprises a middle clamping piece material belt frame, an upper row of terminal modules and a lower row of terminal modules; the middle clamping piece material belt frame comprises a frame main body and a plurality of middle clamping pieces, wherein the frame main body comprises a first material belt, a second material belt and a connecting belt which is integrally connected between the first material belt and the second material belt; an accommodating cavity is formed among the connecting belt, the first material belt and the second material belt in a surrounding manner; the middle clamping pieces and the connecting band are integrally formed and connected and are positioned in the accommodating cavity. Fix through centering clamping piece material area frame, on will going up row terminal module and arrange the terminal module down respectively and install on the well clamping piece material area frame in the clamp, the product of equipment is in putting into the mould, and the frame main part of well clamping piece material area frame is fixed a position, and the shaping goes out the fixed block, and whole processing procedure forms a stable strong point through well clamping piece material area frame, makes product production more stable, and the equipment is more convenient.

Description

USB Type-C mounting structure of stable production of processing procedure

Technical Field

The utility model belongs to the technical field of the connector technique and specifically relates to indicate the USBType-C mounting structure of stable production of process.

Background

The USB Type-C connector is widely applied to various electronic products such as mobile phones, and is generally mounted and fixed on a circuit board of the electronic product to play an important role in signal transmission. The transmission speed is high, and the forward and reverse insertion and high-current work are supported.

In the prior art, the Type-C connector generally includes an upper insulator, a lower insulator, an upper row of terminal groups, a lower row of terminal groups, a middle clamping piece and a shielding shell, when the connector is assembled, the upper row of terminal groups and the upper insulator are firstly embedded and formed to form an upper row of terminal modules, the lower row of terminal groups and the lower insulator are embedded and formed to form a lower row of terminal modules, the middle clamping piece is placed on the upper surface of the lower row of terminal modules, then the upper row of terminal modules and the lower row of terminal modules are assembled together, the middle clamping piece is located between the upper row of terminal modules and the lower row of terminal modules, and finally the shielding shell is assembled. The product is not stably supported during the assembly process, so that the product structure is not stable enough during the manufacturing process and the assembly is not convenient.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a USB Type-C mounting structure for stable production in manufacturing process, which effectively solves the problem of unstable product structure in the manufacturing process due to the unstable support of the product in the assembling process.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a USB Type-C mounting structure for stable production in a manufacturing process comprises a middle clamping piece material belt frame, an upper row of terminal modules and a lower row of terminal modules; the middle clamping piece material belt frame comprises a frame main body and a plurality of middle clamping pieces, wherein the frame main body comprises a first material belt, a second material belt and a connecting belt which is integrally connected between the first material belt and the second material belt; an accommodating cavity is formed among the connecting belt, the first material belt and the second material belt in a surrounding manner; the middle clamping pieces and the connecting band are integrally formed and connected and are positioned in the accommodating cavity; the upper row of terminal modules are arranged on the upper surface of the middle clamping piece; the lower row of terminal modules are arranged on the lower surface of the middle clamping piece, the lower row of terminal modules and the upper row of terminal modules are assembled together, and the middle clamping piece is clamped between the lower row of terminal modules and the upper row of terminal modules.

As a preferred scheme, the number of the accommodating cavities is two, and two middle clamping pieces are integrally connected in each accommodating cavity.

As a preferred scheme, two middle clamping pieces positioned in the same accommodating cavity are symmetrically arranged.

As a preferred scheme, the connection part of the middle clamping piece and the connecting band is concavely provided with an easy-to-break groove.

As a preferred scheme, the upper and lower surfaces of the first material belt and the second material belt are both provided with positioning holes in a penetrating manner.

As a preferred scheme, strip-shaped positioning holes penetrate through the upper surface and the lower surface of the connecting belt.

As a preferred scheme, the upper row terminal module comprises an upper insulation body and an upper row terminal group which is embedded and molded in the upper insulation body; the lower terminal module comprises a lower insulation body and a lower terminal group embedded and formed in the lower insulation body, a positioning column is convexly arranged on the upper surface of the lower insulation body and correspondingly concavely arranged on the lower surface of the upper insulation body, and the positioning column penetrates through the middle clamping piece and is inserted into the positioning groove to be fixed.

As a preferable scheme, the upper surface of the lower insulating body is further concavely provided with a guide groove, correspondingly, the lower surface of the upper insulating body is convexly provided with a guide post, and the guide post penetrates through the middle clamping piece and is inserted into the guide groove for fixing.

As a preferred scheme, the outer wall of the positioning column is convexly provided with a raised line for enhancing the binding force.

As a preferred scheme, the both sides of the rear end of the upper insulation body are both extended downwards to form clamping hooks, correspondingly, the both sides of the rear end of the lower insulation body are both concavely provided with clamping grooves, and the clamping grooves are fixed with the corresponding clamping hooks in a buckling mode.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:

fix through centering clamping piece material area frame, on will going up row terminal module and arrange the terminal module down respectively and install on the well clamping piece material area frame in the clamp, the product of equipment is in putting into the mould, and the frame main part of well clamping piece material area frame is fixed a position, and the shaping goes out the fixed block, and whole processing procedure forms a stable strong point through well clamping piece material area frame, makes product production more stable, and the equipment is more convenient.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is an assembled perspective view of a preferred embodiment of the present invention;

FIG. 2 is an exploded view of the preferred embodiment of the present invention;

fig. 3 is a partial assembly view of the frame body according to the preferred embodiment of the present invention, after being removed.

The attached drawings indicate the following:

10. middle clamping piece material belt frame 11 and frame main body

111. A first material belt 112 and a second material belt

113. Connecting belt 101 and accommodating cavity

102. Easy folding groove 103 and positioning hole

104. Strip-shaped positioning hole 20 and upper row terminal module

21. Upper insulation body 211, positioning groove

212. Guide post 22, upper row terminal group

23. Hook 30 and lower row terminal module

31. Lower insulation body 311 and positioning column

312. Guide groove 313, convex strip

301. Card slot 32, lower row terminal group

40. And (5) fixing blocks.

Detailed Description

Referring to fig. 1 to 3, a specific structure of a preferred embodiment of the present invention is shown, which includes a middle clip tape frame 10, an upper row terminal module 20, and a lower row terminal module 30.

The middle clip material belt frame 10 comprises a frame main body 11 and a plurality of middle clips 12, wherein the frame main body 11 comprises a first material belt 111, a second material belt 112 and a connecting belt 113 integrally connected between the first material belt 111 and the second material belt 112; the connecting strip 113, the first material strip 111 and the second material strip 112 form a containing cavity 101 therebetween. The plurality of middle clamping pieces 12 are integrally connected with the connecting band 113 and are located in the accommodating cavity 101.

In this embodiment, the number of the accommodating cavities 101 is two, two middle clamping pieces 12 are integrally connected to each accommodating cavity 101, and the two middle clamping pieces 12 located in the same accommodating cavity 101 are symmetrically arranged. The connecting part of the middle clamping piece 12 and the connecting band 113 is concavely provided with an easy-to-fold groove 102, so that the product can be conveniently taken down after the assembly is completed. The upper and lower surfaces of the first material belt 111 and the second material belt 112 are respectively penetrated with a positioning hole 103, the upper and lower surfaces of the connecting belt 113 are penetrated with a strip-shaped positioning hole 104, and the positioning holes 103 and the strip-shaped positioning holes 104 are arranged to facilitate positioning in a mold.

The upper row of terminal modules 20 is mounted to the upper surface of the middle jaw 12. The lower row of terminal modules 30 is mounted on the lower surface of the middle clip 12, and the lower row of terminal modules 30 is assembled with the upper row of terminal modules 20, and the middle clip 12 is clamped between the lower row of terminal modules 30 and the upper row of terminal modules 20. Specifically, the upper row terminal module 20 includes an upper insulation body 21 and an upper row terminal group 22 insert-molded in the upper insulation body 21; the lower terminal module 30 comprises a lower insulation body 31 and a lower terminal group 32 embedded in the lower insulation body 31, wherein a positioning column 311 is convexly arranged on the upper surface of the lower insulation body 31, correspondingly, a positioning groove 211 is concavely arranged on the lower surface of the upper insulation body 21, the positioning column 311 penetrates through the middle clamping piece 12 and is fixedly inserted into the positioning groove 211, meanwhile, the positioning column is convexly arranged on the lower surface of the upper insulation body 21, and the positioning groove is concavely arranged on the upper surface of the lower insulation body 31. And the upper surface of the lower insulating body 31 is further concavely provided with a guide groove 312, correspondingly, the lower surface of the upper insulating body 21 is convexly provided with a guide post 212, and the guide post 212 penetrates through the middle clamping piece 12 and is inserted into the guide groove 312 for fixing, thereby forming front and rear fixing. And the outer wall of the positioning column 311 is convexly provided with a protruding strip 313 for enhancing the combining force, so that the combination of the upper row terminal module 20 and the lower row terminal module 30 is more stable.

The two sides of the rear end of the upper insulator 21 are extended downwards to form hooks 23, correspondingly, the two sides of the rear end of the lower insulator 31 are both provided with concave slots 301, the slots 301 are fixed with the corresponding hooks 23 in a buckling manner, and the combination of the upper row of terminal modules 20 and the lower row of terminal modules 30 is further enhanced due to the buckling structure. The front ends of the upper and lower terminal modules 20 and 30 are formed with fixing blocks 40.

Detailed description the assembly of this embodiment is as follows:

firstly, fixing a middle clamping piece material belt frame 10, then respectively installing an upper row of terminal modules 20 and a lower row of terminal modules 30 on a middle clamping piece 12 on the middle clamping piece material belt frame 10, and fixing the upper row of terminal modules 20 and the lower row of terminal modules 30 together; then, putting the assembled product into a forming die, fixing the frame main body 11 on the middle clamping piece material belt frame 10 in the die, and closing the die to form a fixed block 40; and finally, taking out the product, breaking the joint of the frame main body 11 and the middle clamping piece 12, and removing the frame main body 11.

The utility model discloses a design focus lies in:

fix through centering clamping piece material area frame, on will going up row terminal module and arrange the terminal module down respectively and install on the well clamping piece material area frame in the clamp, the product of equipment is in putting into the mould, and the frame main part of well clamping piece material area frame is fixed a position, and the shaping goes out the fixed block, and whole processing procedure forms a stable strong point through well clamping piece material area frame, makes product production more stable, and the equipment is more convenient.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a USB Type-C mounting structure of stable production of process which characterized in that: comprises a middle clamping piece material belt frame, an upper row terminal module and a lower row terminal module; the middle clamping piece material belt frame comprises a frame main body and a plurality of middle clamping pieces, wherein the frame main body comprises a first material belt, a second material belt and a connecting belt which is integrally connected between the first material belt and the second material belt; an accommodating cavity is formed among the connecting belt, the first material belt and the second material belt in a surrounding manner; the middle clamping pieces and the connecting band are integrally formed and connected and are positioned in the accommodating cavity; the upper row of terminal modules are arranged on the upper surface of the middle clamping piece; the lower row of terminal modules are arranged on the lower surface of the middle clamping piece, the lower row of terminal modules and the upper row of terminal modules are assembled together, and the middle clamping piece is clamped between the lower row of terminal modules and the upper row of terminal modules; and the front ends of the upper row of terminal modules and the lower row of terminal modules are formed with fixing blocks.

2. The process-stable USB Type-C mounting structure of claim 1, wherein: the holding chamber is two, and the homogeneous body shaping is connected with two clamping pieces in each holding chamber.

3. The process-stable USB Type-C mounting structure of claim 2, wherein: the two middle clamping pieces positioned in the same accommodating cavity are symmetrically arranged.

4. The process-stable USB Type-C mounting structure of claim 1, wherein: the connecting part of the middle clamping piece and the connecting band is concavely provided with an easy-to-fold groove.

5. The process-stable USB Type-C mounting structure of claim 1, wherein: the upper surface and the lower surface of the first material belt and the second material belt are provided with positioning holes in a penetrating mode.

6. The process-stable USB Type-C mounting structure of claim 1, wherein: the upper surface and the lower surface of the connecting band are provided with strip-shaped positioning holes in a penetrating way.

7. The process-stable USB Type-C mounting structure of claim 1, wherein: the upper row terminal module comprises an upper insulation body and an upper row terminal group which is embedded and molded in the upper insulation body; the lower terminal module comprises a lower insulation body and a lower terminal group embedded and formed in the lower insulation body, a positioning column is convexly arranged on the upper surface of the lower insulation body and correspondingly concavely arranged on the lower surface of the upper insulation body, and the positioning column penetrates through the middle clamping piece and is inserted into the positioning groove to be fixed.

8. The process-stable USB Type-C mounting structure of claim 7, wherein: the upper surface of lower insulator still is equipped with the guide way concavely, and corresponding, the lower surface of last insulator is equipped with the guide post protrudingly, and the guide post passes middle clamping piece and inserts in the guide way fixedly.

9. The process-stable USB Type-C mounting structure of claim 7, wherein: and a raised strip for enhancing the binding force is convexly arranged on the outer wall of the positioning column.

10. The process-stable USB Type-C mounting structure of claim 7, wherein: go up insulator's rear end both sides all downwardly extending has the trip, and corresponding, insulator's rear end both sides all are concave to be equipped with the draw-in groove down, and this draw-in groove is fixed with the trip buckle that corresponds.

Images