CN215986144U - Jig capable of moving probe test assembly of camera module - Google Patents

Abstract

The utility model discloses a jig capable of moving a probe testing component of a camera module, wherein a body is provided with a limiting groove, the limiting groove is positioned on one side of a fixing frame, and the movable testing component is limited in the limiting groove; the test component comprises a needle seat, a floating frame, a sheet and a needle seat fixing plate, wherein the needle seat fixing plate is arranged above the needle seat, the sheet is arranged below the needle seat, and the needle seat fixing plate, the needle seat and the sheet are fixedly connected; the needle file fixed plate below is provided with and holds the chamber, and floating frame both ends are provided with the boss, and the boss is arranged in holding the chamber, and the height that highly is less than and holds the chamber of boss is provided with floating spring between needle file and the floating frame. The testing assembly is taken as an independent whole, can move in the semi-sinking type hollow groove of the body, adjusts the position according to different camera modules, realizes the common test of multiple types of camera modules, saves the development cost of a jig, and improves the convenience of operation.

Description

Jig capable of moving probe test assembly of camera module

Technical Field

The utility model relates to the field of test fixtures, in particular to a fixture capable of moving a probe test assembly of a camera module.

Background

Among the prior art, ordinary test fixture all adopts fixed needle file group, comprises three parts such as floating frame, needle file, fixed thin slice, and direct lock attaches the use on the tool, and its shortcoming lies in:

1. the needle seat component is directly locked on the jig, and the positioning precision is not high.

2. And is not compatible with multiple types of modules. For example, with the same model module, need design many money tools under the condition of different length, very big increase the cost, when the probe appears breaking the needle and when the tool test bad problem appears, the tool is maintained inconvenient in addition, has consumeed more energy and time of after-sales maintenance personal.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the utility model provides a can move tool of camera module probe test subassembly to solve above-mentioned technical problem.

The technical scheme of the utility model is as follows: the utility model provides a can move tool of camera module probe test subassembly, includes body and upper cover, body and upper cover one end are connected through the pivot, the body and the upper cover other end pass through the hook and connect, be provided with fixed frame on the body, place the camera module in the fixed frame, the body is provided with the spacing groove, the spacing groove is located fixed frame one side, spacing movable's test subassembly in the spacing groove.

The test assembly comprises a needle seat, a floating frame, a sheet and a needle seat fixing plate, wherein the needle seat fixing plate is arranged above the needle seat, the sheet is arranged below the needle seat, and the needle seat fixing plate, the needle seat and the sheet are fixedly connected.

The needle file fixed plate below is provided with and holds the chamber, floating frame both ends are provided with the boss, the boss is arranged in holding the chamber, the height that highly is less than and holds the chamber of boss, be provided with floating spring between needle file and the floating frame.

By adopting the technical scheme, in the jig capable of moving the probe testing assembly of the camera module, the needle seat fixing plate is of a semi-surrounding structure.

By adopting the technical scheme, the jig capable of moving the probe testing assembly of the camera module is characterized in that one side, close to the camera module, of the floating frame is provided with a positioning groove, and a connector of the camera module is placed in the positioning groove.

By adopting the technical scheme, in the jig capable of moving the probe testing component of the camera module, the limiting groove is a semi-sinking type hollow groove.

By adopting the technical scheme, in the jig capable of moving the probe testing component of the camera module, the bottom of the slice is provided with the positioning pin.

By adopting the technical scheme, the jig capable of moving the probe testing assembly of the camera module is characterized in that the upper cover is provided with a floating pressing plate, the floating pressing plate is positioned above the camera module, and a spring is arranged between the floating pressing plate and the upper cover.

By adopting the technical scheme, the jig capable of moving the probe testing assembly of the camera module is characterized in that the upper cover is provided with a pressure head, and the pressure head is positioned above the floating frame.

By adopting the technical scheme, the testing assembly is taken as an independent whole, can move in the semi-sinking type hollow groove of the body, can adjust the position according to different camera modules, realizes the common test of multiple types of camera modules, saves the development cost of a jig, and improves the convenience of operation.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic illustration of an explosive structure according to the present invention;

FIG. 3 is a schematic diagram of an exploded structural formula of a test assembly of the present invention;

FIG. 4 is a schematic bottom view of the body and hub mounting plate of the present invention;

FIG. 5 is a bottom view of the testing assembly of the present invention.

Detailed Description

The utility model is described in detail below with reference to the figures and the specific embodiments.

Like fig. 1 ~ 4, this embodiment provides a tool that can move camera module probe test assembly, including body 1 and upper cover 2, body 1 and 2 one end of upper cover are connected through pivot 3, and the body 1 passes through hook 4 with the 2 other end of upper cover and connects. The upper cover 2 can rotate around the rotating shaft 3, and the upper cover 2 is connected with the body 1 in a buckling mode through the hook 4. The body 1 is provided with a fixed frame 5, and the camera module 6 is placed in the fixed frame 5. The body 1 is provided with a limiting groove 11, the limiting groove 11 is positioned on one side of the fixing frame 5, and the testing component 7 which can be moved is limited in the limiting groove 11. The connector of camera module 6 is located the top of test component 7, through 2 locks of upper cover, pushes down camera module 6, makes test component 7 switch on camera module 6 and PCB board (not shown), and the PCB board is located body 1 below.

Wherein, test component 7 is an solitary whole, does not connect with body 1, can move as required, realizes different camera module 6's sharing. In a conventional design, the testing component 7 is fixedly arranged on the body 1, cannot move at all, and can only test one camera module 6. Therefore, the test component 7 and the body 1 can be movably designed, the problem of single conventional test function is solved, the development cost of the jig is greatly reduced, and the convenience of operation is improved.

Specifically, as shown in fig. 2 and 3, the testing assembly 7 includes a hub 71, a floating frame 72, a sheet 74 and a hub fixing plate 73, the hub fixing plate 73 is disposed above the hub 71, the sheet 74 is disposed below the hub 71, and the hub fixing plate 73, the hub 71 and the sheet 74 are fixedly connected. An accommodating cavity 731 is arranged below the needle seat fixing plate 73, bosses 722 are arranged at two ends of the floating frame 72, the bosses 722 are positioned in the accommodating cavity 731, the heights of the bosses 722 are smaller than that of the accommodating cavity 731, and a floating spring (not shown) is arranged between the needle seat and the floating frame 72.

Of course, in the test unit 7, the hub 71, the floating frame 72, and the sheet 74 are provided with a plurality of probes (not shown) penetrating therethrough. When the floating frame 72 is pressed down, the top of the probe is exposed out of the floating frame 72 and conducted with the connector of the camera module 6, and the bottom of the probe is exposed out of the sheet 74 and conducted with the PCB, so that the test of the camera module 6 is realized. The top of the needle seat is provided with a protrusion 711, the bottom of the floating frame 72 is provided with a groove (not shown), the protrusion 711 is positioned in the groove to play a limiting role, the structure is of a conventional design, and redundant description is not repeated.

Preferably, as shown in fig. 4, the hub fixing plate 73 has a semi-surrounding structure to facilitate the assembly of the test assembly 7 and to simplify the structure. The bosses at the two ends of the floating frame 72 are limited by the accommodating cavities at the two ends of the semi-surrounding structure, so that the floating frame 72 can only float up and down in the accommodating cavities.

Preferably, as shown in fig. 1 to 3, in order to facilitate the quick positioning of the connector of the camera module 6, a positioning groove 721 is disposed on one side of the floating frame 72 close to the camera module 6, and the connector of the camera module 6 is disposed in the positioning groove 721.

Preferably, as shown in fig. 4, for better limiting the testing component 7, the limiting groove 11 is a half-sinking type hollowed-out groove. The top of the semi-sunk hollowed-out groove is equivalent to a baffle plate which plays a role of limiting the test component 7.

Preferably, as shown in fig. 5, in order to facilitate quick positioning of the test assembly 7 with the PCB, a positioning pin 741 is disposed at the bottom of the sheet 74, and the positioning pin 741 is inserted into a positioning hole of the PCB.

Preferably, in order to guarantee that the upper cover 2 pushes down the buckling process, the camera module 6 can be conducted with the PCB through the testing component 7. A floating pressing plate 8 is provided on the upper cover 2, the floating pressing plate 8 is positioned above the camera module 6, and a spring (not shown) is provided between the floating pressing plate 8 and the upper cover 2. The upper cover 2 is provided with a pressure head 9, and the pressure head 9 is positioned above the floating frame 72. The floating pressing plate 8 can play a role in preventing overpressure when the camera module 6 is pressed down. The pressure head 9 directly pushes down the connector of the camera module 6, drives the connector and the floating frame 72 to push down, so that the probe is exposed, and then the test conduction is completed.

By adopting the technical schemes, the testing component 7 is taken as an independent whole, can move in the semi-sinking type hollowed-out groove of the body 1, and can be adjusted in position according to different camera modules 6, so that the common test of multiple types of camera modules 6 is realized, the development cost of a jig is saved, and the convenience of operation is improved.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A jig capable of moving a probe testing component of a camera module comprises a body and an upper cover, wherein one end of the body is connected with one end of the upper cover through a rotating shaft, the other end of the body is connected with the other end of the upper cover through a hook, a fixing frame is arranged on the body, and the camera module is placed in the fixing frame;

the test assembly comprises a needle seat, a floating frame, a sheet and a needle seat fixing plate, wherein the needle seat fixing plate is arranged above the needle seat, the sheet is arranged below the needle seat, and the needle seat fixing plate, the needle seat and the sheet are fixedly connected;

the needle file fixed plate below is provided with and holds the chamber, floating frame both ends are provided with the boss, the boss is arranged in holding the chamber, the height that highly is less than and holds the chamber of boss, be provided with floating spring between needle file and the floating frame.

2. The jig for moving the probe testing component of the camera module as claimed in claim 1, wherein the needle holder fixing plate is a semi-surrounding structure.

3. The jig capable of moving the probe testing component of the camera module as claimed in claim 1, wherein a positioning groove is disposed on one side of the floating frame close to the camera module, and a connector of the camera module is disposed in the positioning groove.

4. The jig capable of moving the probe testing component of the camera module as claimed in claim 1, wherein the limiting groove is a half-sinking type hollowed-out groove.

5. The jig capable of moving the probe test component of the camera module as claimed in claim 1, wherein the bottom of the thin sheet is provided with a positioning pin.

6. The jig capable of moving the probe testing component of the camera module as claimed in claim 1, wherein the upper cover is provided with a floating pressing plate, the floating pressing plate is located above the camera module, and a spring is arranged between the floating pressing plate and the upper cover.

7. The jig capable of moving the probe testing component of the camera module as claimed in claim 1, wherein the upper cover is provided with a pressure head, and the pressure head is located above the floating frame.

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