CN219697736U - Camera module circular telegram tool - Google Patents

Abstract

The utility model relates to the technical field of electrifying jigs of camera modules, and discloses an electrifying jig of a camera module, which comprises the following components: the die holder can be placed on the workbench; a latex pad; a USB camera module; a magnet bar; a positioning iron plate capable of positioning the USB camera module; and the USB test plug can conduct power-on test on the USB camera module. According to the utility model, the USB camera module is placed in the main embedded groove, the circuit pin soldering points at the bottom of the USB camera module can be protected from being damaged under the action of the rubber pad, the USB camera module can be positioned through the two positioning iron plates under the adsorption and matching actions of the two positioning iron plates and the two magnet strips, one end of the electric wire is connected with the power supply, the other end of the electric wire is connected with the USB test plug, and when the USB camera module is subjected to power-on test, the USB test plug is plugged on the USB camera module, so that the USB camera module can be conveniently subjected to power-on test.

Description

Camera module circular telegram tool

Technical Field

The utility model relates to the technical field of energizing jigs of camera modules, in particular to an energizing jig of a camera module.

Background

The USB camera module is equipment for image transmission by utilizing a USB interface, and is widely applied to the fields of medical treatment, education, security protection, video conference and the like.

After the assembly of the USB camera module in a production workshop is completed, workers who need a production line carry out an electrifying test to test whether the USB camera module belongs to good products, when the USB camera module belongs to the good products, the USB camera module enters a packing link through a production line, and if the USB camera module belongs to defective products, the USB camera module is not lightened after the electrifying test, and enters a reworking area to carry out reworking.

Therefore, a fixture is needed to perform power-on test on the USB camera module.

Therefore, a camera module energizing jig is proposed.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a camera module electrifying jig.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a camera module energization jig comprising:

the die holder can be placed on the workbench, and a main embedded groove is formed in the top of the die holder;

a latex pad embedded in the main embedding groove;

the USB camera module can be arranged in the main embedded groove, and after the USB camera module is arranged in the main embedded groove, the bottom of the USB camera module can be attached to the latex pad;

the two magnet strips are symmetrically arranged on two opposite sides of the top of the die holder;

the positioning iron plates are arranged at two ends of the magnet strips, and can be adsorbed by the two magnet strips after being attached to two sides of the USB camera module; and

the USB test plug is arranged on one side of the die holder and is fixedly connected with an electric wire which can be connected with a power supply.

As an optimal technical scheme, the bottom of the USB camera module is provided with a printed circuit board, and one side of the upper surface of the printed circuit board is provided with a USB connector;

when the printed circuit board is placed on the upper surface of the latex pad, the upper surface of the printed circuit board is flush with the top opening of the main embedded groove.

As the preferable technical scheme, when the USB camera module is electrified and tested, the USB test plug can be spliced and matched with the USB connector.

As an optimal technical scheme, the top of the die holder is provided with side embedded grooves at two opposite sides of the main embedded groove;

the two magnet bars are respectively and fixedly embedded in the two side embedded grooves, and after the magnet bars are embedded in the side embedded grooves, the upper surfaces of the magnet bars are flush with the top opening of the side embedded grooves.

As an optimal technical scheme, a handle is fixedly arranged on the upper surface of each positioning iron plate;

when the two ends of the positioning iron plate are adsorbed by the two magnet strips, the lower surface of the positioning iron plate can be attached to the upper surface of the printed circuit board.

As an optimal technical scheme, a fixed seat is fixedly arranged on the side wall of the die holder on one side of the USB test plug, and a plug hole is formed in the fixed seat;

one end of the electric wire penetrates out downwards from the plug hole.

As the preferable technical scheme, the fixed plates are fixedly arranged on two opposite sides of the bottom of the die holder, and the two ends of each fixed plate are provided with assembly holes which are convenient for bolts to pass through so as to fasten the fixed plates and the workbench.

As a preferred technical solution, the latex pad is replaced by a rubber pad.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the die holder can be arranged on the workbench, when the USB camera module is subjected to power-on test, the USB camera module is placed in the main embedded groove, at the moment, the bottom of the USB camera module is contacted with the latex pad and is in a bonding state, under the action of the latex pad, circuit pin soldering points at the bottom of the USB camera module can be protected from being damaged, under the adsorption matching action of the two positioning iron plates and the two magnet strips, the USB camera module can be positioned through the two positioning iron plates, one end of an electric wire is connected with a power supply, the other end of the electric wire is connected with a USB test plug, and when the USB camera module is subjected to power-on test, the USB camera module can be conveniently subjected to power-on test by inserting the USB test plug on the USB camera module.

2. In the utility model, after the test is completed, the USB camera module can be taken out from the main embedded groove by taking down the two positioning iron plates for positioning the USB camera module.

3. In the utility model, when the two ends of the positioning iron plate are absorbed by the two magnet strips, the lower surface of the positioning iron plate can be attached to the upper surface of the printed circuit board, so that the two positioning iron plates can be matched with the magnet strips conveniently through magnetic attraction, and the positioning of the USB camera module is realized.

4. According to the utility model, a worker can take down the positioning iron plate by lifting the lifting handle.

5. In the utility model, when the USB camera module is subjected to the power-on test, the USB test plug can be spliced and matched with the USB connector, so that the USB camera module can be conveniently subjected to the power-on test.

6. According to the utility model, the fixing seat can fix the electric wire on one side of the die holder, the USB test plug is connected to the top end of the electric wire, and the USB test plug can be conveniently used after the electric wire is fixed by the fixing seat.

7. In the utility model, the two ends of each fixing plate are provided with the assembly holes which are convenient for the bolts to pass through so as to fasten the fixing plates and the workbench, thereby being convenient for fixing the die holder on the workbench by using the bolts.

8. According to the utility model, after the rubber pad is used for replacing the latex pad, the same effect as that of the latex pad can be achieved, namely, the circuit pin soldering points at the bottom of the USB camera module can be protected from being damaged.

Drawings

Fig. 1 is a schematic three-dimensional structure of a camera module energizing jig provided by the utility model;

fig. 2 is a schematic diagram of an explosion structure of a die holder, a fixing plate, a rubber pad and a magnet bar in a camera module energizing jig provided by the utility model;

FIG. 3 is a schematic three-dimensional diagram of a USB camera module in a camera module power-on fixture according to the present utility model;

fig. 4 is a schematic three-dimensional structure diagram of a combination of a fixing seat, a USB test plug and an electrical wire in a camera module energizing fixture according to the present utility model.

In the figure: 1. a die holder; 101. a main embedding groove; 102. a side-fitting groove; 2. a fixing plate; 201. a fitting hole; 3. a latex pad; 4. a magnet bar; 5. positioning an iron plate; 6. a handle; 7. a USB camera module; 701. a printed circuit board; 702. a USB connector; 8. a fixing seat; 801. a plug hole; 9. a USB test plug; 10. an electrical lead.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

The USB camera module is equipment for image transmission by utilizing a USB interface, and is widely applied to the fields of medical treatment, education, security protection, video conference and the like.

After the assembly of the USB camera module in a production workshop is completed, workers who need a production line carry out an electrifying test to test whether the USB camera module belongs to good products, when the USB camera module belongs to the good products, the USB camera module enters a packing link through a production line, and if the USB camera module belongs to defective products, the USB camera module is not lightened after the electrifying test, and enters a reworking area to carry out reworking.

Therefore, a fixture is needed to perform power-on test on the USB camera module.

The inventor in order to make assembly line workman can be convenient use tool, carry out the circular telegram test to USB camera module to whether test it is the yields, adopted following technical scheme now, specifically as follows:

referring to fig. 1-4, the present utility model provides a technical solution:

as shown in fig. 1-4, a camera module power-on jig includes:

a die holder 1 capable of being placed on a workbench, and a main embedded groove 101 is formed in the top of the die holder;

a latex pad 3 fitted in the main fitting groove 101;

the USB camera module 7 can be arranged in the main embedded groove 101, and after the USB camera module 7 is arranged in the main embedded groove 101, the bottom of the USB camera module 7 can be attached to the latex pad 3;

the two magnet strips 4 are arranged, and the two magnet strips 4 are symmetrically arranged on two opposite sides of the top of the die holder 1;

the positioning iron plates 5 capable of positioning the USB camera module 7 are arranged, the two positioning iron plates 5 are respectively arranged at two ends between the two magnet strips 4, and the two positioning iron plates 5 can be adsorbed by the two magnet strips 4 after being attached to two sides of the USB camera module 7; and

the USB test plug 9 capable of conducting power-on test on the USB camera module 7 is arranged on one side of the die holder 1, and an electric wire 10 capable of being connected with a power supply is fixedly connected to the USB test plug 9.

In this embodiment, the die holder 1 may be mounted on a workbench, when the USB camera module 7 is subjected to the power-on test, the USB camera module 7 is placed in the main embedded groove 101, at this time, the bottom of the USB camera module 7 contacts with the latex pad 3 and is in a bonding state, under the action of the latex pad 3, the solder points of the circuit pins at the bottom of the USB camera module 7 can be protected from being damaged, under the action of the adsorption cooperation of the two positioning iron plates 5 and the two magnet strips 4, the USB camera module 7 can be positioned by the two positioning iron plates 5, one end of the electric wire 10 is connected with the power supply, and the other end is connected with the USB test plug 9, and when the USB camera module 7 is subjected to the power-on test, the USB camera module 7 can be conveniently subjected to the power-on test by plugging the USB test plug 9 on the USB camera module 7;

after the test is completed, the two positioning iron plates 5 for positioning the USB camera module 7 are taken down, and the USB camera module 7 can be taken out from the main embedded groove 101.

Example two

As shown in fig. 1 to 4, the improvement is based on the first embodiment:

further, the bottom of the USB camera module 7 has a printed circuit board 701, and one side of the upper surface of the printed circuit board 701 has a USB connector 702;

when the printed circuit board 701 is placed on the upper surface of the latex pad 3, the upper surface of the printed circuit board 701 is flush with the top opening of the main insertion groove 101.

Specifically, the top of the die holder 1 is provided with side embedded grooves 102 on two opposite sides of the main embedded groove 101;

the two magnet bars 4 are respectively and fixedly embedded in the two side embedded grooves 102, and after the magnet bars 4 are embedded in the side embedded grooves 102, the upper surfaces of the magnet bars 4 are flush with the top opening of the side embedded grooves 102.

More specifically, the upper surface of each positioning iron plate 5 is fixedly provided with a handle 6, and a worker can take down the positioning iron plate 5 by lifting the handle 6;

when the two ends of the positioning iron plate 5 are adsorbed by the two magnet strips 4, the lower surface of the positioning iron plate 5 can be attached to the upper surface of the printed circuit board 701, so that the two positioning iron plates 5 can be matched with the two magnet strips 4 in a magnetic attraction manner, and the positioning of the USB camera module 7 is realized.

Further, when the USB camera module 7 is subjected to the power-on test, the USB test plug 9 can be in plug-in fit with the USB connector 702, so that the USB camera module 7 can be conveniently subjected to the power-on test.

Example III

As shown in fig. 1 to 4, the improvement is based on the second embodiment:

further, a fixing seat 8 is fixedly installed on the side wall of the die holder 1 at one side of the USB test plug 9, and a plug hole 801 is formed in the fixing seat 8;

one end of the electrical conductor 10 extends downwardly through the socket 801.

In this embodiment, the fixing base 8 can fix the electrical wire 10 on one side of the die holder 1, the USB test plug 9 is connected to the top end of the electrical wire 10, and the USB test plug 9 can be conveniently used after the electrical wire 10 is fixed by the fixing base 8.

Example IV

As shown in fig. 1 to 4, the improvement is based on the first embodiment:

further, the two opposite sides of the bottom of the die holder 1 are fixedly provided with the fixing plates 2, and the two ends of each fixing plate 2 are provided with the assembly holes 201 which are convenient for the bolts to pass through so as to fasten the fixing plates 2 with the workbench, thereby being convenient for using the bolts to fixedly mount the die holder 1 on the workbench.

Example five

As shown in fig. 1 to 4, the improvement is based on the first embodiment:

further, the latex pad 3 was replaced with a rubber pad.

In this embodiment, after the rubber pad is used to replace the latex pad 3, the same effect as the latex pad 3 can be achieved, that is, the circuit pin soldering points at the bottom of the USB camera module 7 can be protected from damage.

In summary, the working procedure of the utility model: the die holder 1 can be mounted on a workbench, when the USB camera module 7 is subjected to power-on test, the USB camera module 7 is placed in the main embedded groove 101, at the moment, the bottom of the USB camera module 7 is in contact with the latex pad 3 and is in a bonding state, under the action of the latex pad 3, circuit pin soldering points at the bottom of the USB camera module 7 can be protected from being damaged, under the adsorption cooperation of the two positioning iron plates 5 and the two magnet strips 4, the USB camera module 7 can be positioned through the two positioning iron plates 5, one end of the electric wire 10 is connected with a power supply, the other end of the electric wire 10 is connected with the USB test plug 9, and when the USB camera module 7 is subjected to power-on test, the USB camera module 7 can be conveniently subjected to power-on test by plugging the USB test plug 9 on the USB camera module 7;

after the test is completed, the USB camera module 7 can be taken out from the main embedded groove 101 by taking down the two positioning iron plates 5 for positioning the USB camera module 7;

when the two ends of the positioning iron plate 5 are absorbed by the two magnet strips 4, the lower surface of the positioning iron plate 5 can be attached to the upper surface of the printed circuit board 701, so that the two positioning iron plates 5 can be matched with the two magnet strips 4 in a magnetic attraction manner, and the positioning of the USB camera module 7 is realized;

the worker can take down the positioning iron plate 5 by lifting the lifting handle 6;

when the USB camera module 7 is subjected to the power-on test, the USB test plug 9 can be in plug-in fit with the USB connector 702, so that the USB camera module 7 can be conveniently subjected to the power-on test;

the fixing seat 8 can fix the electric lead 10 on one side of the die holder 1, the USB test plug 9 is connected to the top end of the electric lead 10, and when the electric lead 10 is fixed by the fixing seat 8, the USB test plug 9 can be conveniently used;

the two ends of each fixed plate 2 are provided with assembly holes 201 which are convenient for bolts to pass through so as to fasten the fixed plates 2 and the workbench, thereby being convenient for fixing the die holder 1 on the workbench by using the bolts;

when the rubber pad is used for replacing the latex pad 3, the same effect as that of the latex pad 3 can be achieved, namely, the circuit pin soldering points at the bottom of the USB camera module 7 can be protected from being damaged.

The above-mentioned different embodiments can be mutually combined, replaced and matched for use.

None of the utility models are related to the same or are capable of being practiced in the prior art. Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a camera module circular telegram tool which characterized in that includes:

a die holder (1) capable of being placed on a workbench, and a main embedded groove (101) is formed in the top of the die holder;

a latex pad (3) which is embedded in the main embedding groove (101);

the USB camera module (7) can be arranged in the main embedded groove (101), and after the USB camera module (7) is arranged in the main embedded groove (101), the bottom of the USB camera module (7) can be attached to the latex pad (3);

the two magnet strips (4) are symmetrically arranged on two opposite sides of the top of the die holder (1);

the positioning iron plates (5) are arranged at two ends of the positioning iron plates (5) between the two magnet strips (4), and the two positioning iron plates (5) can be adsorbed by the two magnet strips (4) after being attached to two sides of the USB camera module (7); and

USB test plug (9) that can carry out the circular telegram test to USB camera module (7), it sets up one side of die holder (1), fixedly connected with on USB test plug (9) can be with electrical lead (10) that the power is connected.

2. The camera module energizing jig of claim 1, wherein: the bottom of the USB camera module (7) is provided with a printed circuit board (701), and one side of the upper surface of the printed circuit board (701) is provided with a USB connector (702);

when the printed circuit board (701) is placed on the upper surface of the latex pad (3), the upper surface of the printed circuit board (701) is flush with the top opening of the main embedding groove (101).

3. The camera module energizing jig of claim 1, wherein: when the USB camera module (7) is subjected to power-on test, the USB test plug (9) can be in plug-in fit with the USB connector (702).

4. The camera module energizing jig of claim 2, wherein: the top of the die holder (1) is provided with side embedded grooves (102) on two opposite sides of the main embedded groove (101);

the two magnet strips (4) are respectively and fixedly embedded in the two side embedded grooves (102), and after the magnet strips (4) are embedded in the side embedded grooves (102), the upper surfaces of the magnet strips (4) are flush with the top opening of the side embedded grooves (102).

5. The camera module energization jig of claim 4, wherein: a handle (6) is fixedly arranged on the upper surface of each positioning iron plate (5);

when the two ends of the positioning iron plate (5) are adsorbed by the two magnet strips (4), the lower surface of the positioning iron plate (5) can be attached to the upper surface of the printed circuit board (701).

6. A camera module energization jig according to claim 3, wherein: the die holder (1) is fixedly provided with a fixing seat (8) on the side wall positioned at one side of the USB test plug (9), and the fixing seat (8) is provided with a plug hole (801);

one end of the electric wire (10) passes through the plug hole (801) downwards.

7. The camera module energizing jig of claim 1, wherein: the die holder is characterized in that fixing plates (2) are fixedly arranged on two opposite sides of the bottom of the die holder (1), and assembling holes (201) for enabling bolts to penetrate through conveniently are formed in two ends of each fixing plate (2) so as to fasten the fixing plates (2) and the workbench.