KR101387418B1 - Camera module test socket - Google Patents

Abstract

The present invention relates to a test socket for a camera module. The test socket for the camera module according to the embodiment of the present invention includes a base and a cover. A module groove (131) to receive the camera module (400) is formed on one end of the base (100). A sliding block (200) is installed to move on the upper side of the base (100). A pin block (332) is connected to the camera module (400). A cover (300) has a printed circuit board. The camera module (400) is connected and tested by horizontally and vertically moving the cover (300).

Description

Camera module test socket for camera module

The present invention relates to a test socket for a camera module (Camera Module), and more particularly to inspect the operation of the operation circuit board included in the CCD camera module embedded in a mobile phone or digital camera, The present invention relates to a test socket for a camera module that enables a clear operation to be carried out to reduce costs and to perform stable test work.

Generally, a camera module, which is mounted on a mobile phone or a digital camera and is composed of a camera installed to capture and store moving images and images, and a PCB connected to the camera, is mounted in a relatively limited space of a mobile phone. And the connector printed on the PCB is also formed relatively finely.

Therefore, it is extremely difficult to measure the electrical connection state after manufacturing and assembling the PCB connected to the lens as described above.

In order to determine whether or not the connection state of the small lens and the connector is defective, a socket having a measuring pin is used. Such a conventional socket has a base frame and a cover frame coupled to the base frame so as to be rotatable by a hinge .

That is, the base on which the camera module is seated and the cover plate with the measuring pin are pivotally coupled to each other by a hinge to form a socket, and the camera module is seated therein. The test pin block and the connection pin block are inserted into the socket. Etc., the camera module is inserted into the base, the cover plate is closed, and the main board is connected to the test.

However, such a conventional socket is coupled to the base while the cover plate with a plurality of measuring pins are rotated about the hinge, and in this process, the measuring pins of the cover plate are sequentially connected from the rotation center without being simultaneously in contact with the circuit pattern. The electric shock could be generated, and the pressure applied to the measuring pins acted differently while the measuring pins were in contact with the inclined state, so that the ends of the measuring pins were worn out or damaged. There was a problem that the circuit pattern can be broken.

Accordingly, a technique has been studied in which a pin block having a measuring pin connected to a camera module can be vertically connected, and a registered patent of the prior art document shows an example of such a prior art.

Looking at the above registered patent, as the pneumatic cylinder, the piston and the cam is installed, it is to move the sliding block and the cover plate automatically by the action of the pneumatic cylinder, the lifting and lowering by the cam action with the movement of the pin block It is connected to this camera module.

Although these pre-patent patents can increase the efficiency of work by automation, the configuration is very complicated according to the needs of the cam and pneumatic cylinder and its associated facilities, and the production cost and maintenance cost are enormously applied to the actual line. There was a difficult problem.

Therefore, there was a need in the art for a camera module test socket in which measurement pins were connected vertically and stable tests were performed while reducing costs and maintenance costs.

Republic of Korea Patent No. 10-1308741

The present invention is to solve the above problems, the object of the camera module to be connected to the camera module vertically uniformly connected to prevent the wear and damage of the camera module and the measurement pin for the camera module can be made a stable test To provide a test socket.

It is another object of the present invention to provide a test socket for a camera module which can improve the economic effect by reducing the cost and maintenance cost while being able to test a stable camera module.

The present invention, in order to solve the above problems, the base is provided with a module groove on which the camera module is seated at one end, a sliding block which is installed to be movable from the upper surface of the base, the pin block and printing connected to the camera module A test socket for a camera module, comprising a cover having a circuit board, wherein the cover is connected to and tested with the camera module while the cover is moved horizontally and vertically. The base is connected to the sliding block by the sliding return spring on the side; A cover plate which maintains a state of being shot upward by a vertical ballistic spring at an upper side of the sliding block and is guided to a plurality of vertical guide shafts to allow lifting up and down; a cover bracket assembled to the front of the cover plate; An insert cover which is assembled to the front of the bracket to receive the pin block and the printed circuit board and is connected to the camera module, and has a lens push block that fixes the lens of the camera module in the middle thereof, and can be rotated on both sides of the cover bracket. The cover is installed so that the cover consisting of a locking lever to be detachable from the locking jaw; And the like.

Accordingly, the camera module is seated in the module groove, and then the cover is moved horizontally and then vertically lowered to catch the locking lever on the locking jaw of the base so that the power is applied in a state where the cover is fixed in a downward contact state. You will be testing the module.

The locking lever has a 'b' shape and a hook portion is formed at the lower end of the locking jaw, and is assembled to both ends of the cover bracket by a lever bracket, and a spring is installed between the lever bracket and the locking lever. The hook portion is configured to always maintain an inwardly shot state.

A bracket housing may be formed at the front end of the base, and the module guide bracket may be assembled and accommodated in the bracket housing, and the module groove may be formed on the upper surface of the module guide bracket.

When the module guide bracket is manufactured and assembled separately as described above, the compatibility of the overall equipment can be maximized by only replacing the module guide bracket according to the camera module.

According to a preferred feature of the present invention, both ends of the lever handle having a 'c' shape are rotatably assembled at both sides of the front end of the base, and both ends of the lever handle are further extended from the center of rotation so that the locking step It is to be able to release the engagement of the locking lever and the locking jaw by rotating the locking lever coupled to the locking jaw upwards in close proximity to the outside of the handle handle.

Accordingly, the cover can be returned to its original position by separating the engagement state between the locking jaw and the locking lever by a simple operation of pressing the lever handle after the completion of the inspection.

Another feature of the present invention, the guide groove is formed long in the direction in which the sliding block moves in the portion in contact with the sliding block on the upper surface of the base, a pair of guide bars are inserted together in the guide groove, One is a base guide is assembled and fixed to the base, the other is composed of a sliding guide bar is assembled and fixed to the bottom of the sliding block is a bearing is assembled between each guide bar is to make a sliding contact.

Therefore, each guide bar can be made a smooth sliding contact between the bearing, so that the sliding block can be precise horizontal sliding with respect to the base.

Another feature of the present invention is that a cover handle is further provided on one end of the upper surface of the cover to easily manipulate the movement of the cover.

The present invention is stable in the connection of the measuring pin while the horizontal and vertical movement of the cover for receiving the test pin block is made accurately, high-quality test can be made, while saving the cost and maintenance cost by a simple configuration The operation is very convenient, providing the effect of greatly improving the economics and workability.

1 is a perspective view showing an example of a test socket according to the present invention;
2 is a perspective view from another direction of a test socket according to the invention;
3 is a bottom perspective view of a test socket according to the present invention;
4 is a side view of a test socket according to the present invention;
5 is a plan view of a test socket according to the present invention;
FIG. 6 is a cross-sectional view of FIG. 5.
7 is a cross-sectional view taken along the line spiral of FIG.
8 is an exploded perspective view showing an example of a test socket according to the present invention.
9 is a perspective view showing a coupling state of the guide bar according to the present invention.
10 (a) to 10 (c) are a perspective view, a side view and a sectional view showing an initial state before the camera module is mounted in the present invention.
11 (a) to 11 (c) are a perspective view, a side view, and a sectional view showing a state in which a camera module is mounted in the present invention.
12 (a) to 12 (c) are a perspective view, a side view, and a sectional view showing a state in which the cover moves horizontally in the present invention.
Figure 13 (a) to Figure 13 (c) is a perspective view and a side view and a sectional view showing a state in which the cover is connected to the measuring pin and the camera module of the cover is lowered vertically after the horizontal movement in the present invention.
Figure 14 (a) and Figure 14 (b) is a side view showing the release of the engaged state by pressing the lever handle in a state in which the cover is in close contact with the base in the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a perspective view showing an example of a test socket according to the present invention, FIG. 2 is a perspective view of another direction of the test socket according to the present invention, FIG. 3 is a bottom perspective view of the test socket according to the present invention, and FIG. 5 is a plan view of a test socket according to the present invention, FIG. 5 is a plan view of the test socket according to the present invention, FIG. 6 is a cross-sectional view taken along line FIG. 5, and FIG. 8 is an exploded perspective view showing an example of a test socket according to the present invention.

1 to 8, a test socket for a camera module (hereinafter, referred to as a 'socket') 1 according to the present invention is roughly divided into a base 100, a sliding block 200, and a cover 300.

The sliding block 200 is installed to be linearly movable on the upper surface of the base 100, the cover 300 is supported on the upper surface of the sliding block 200 is made to rise and fall vertically with respect to the sliding block 200 It is installed so that.

An interface pin block 110 is mounted at one end of the bottom of the base 100, and a locking jaw 101 is protruded from both sides of the front end.

Steps 102 are formed in the middle of the base 100 to restrict the movement of the sliding block 200. Guide pins 120 are vertically installed on both sides of the upper surface from the middle to the front, so that the cover 300 is fixed to a certain point. If it does not reach the guide pin 120 is not to be lowered.

In addition, at the distal end of the base 100, a bracket housing 103 is formed in a recessed groove shape, and the module guide bracket 130 is assembled and accommodated in the bracket housing 103, and the module guide bracket ( On the upper surface of the 130 is formed a module groove 131 on which the camera module is seated.

As such, the module guide bracket 130 having the module groove 131 is separately manufactured and detachably assembled to the base 100 so that the module guide bracket 130 can be exchanged and applied according to various types of camera modules to ensure compatibility of the equipment. To maximize.

Guide grooves 104 are formed on both sides of the upper surface of the base 100 from the rear to the front, and the guide grooves 104 are installed in close contact with each other by a pair of guide bars 140 and 240.

One of the pair of closely contacted guide bars 140 and 240 is a base guide bar 140 fixed to the base 100, and the other is a sliding guide bar 240 fixed to the bottom of the sliding block 200. .

A roll bearing 141 is installed between the base guide bar 140 and the sliding guide bar 240 to smoothly slide in a state where the two guide bars are in close contact with each other.

The sliding block 200 is installed to be movable from the upper surface of the base 100 while supporting the cover 300 to the upper side, the sliding guide bar 240 is installed on the lower side of the guide groove 104 of the base 100 Is guided in a straight reciprocating motion.

One side of the sliding block 200 is connected to the side of the base 100 and the sliding return spring 210, the sliding return spring 210 is the base 100 and the sliding block by the spring fixing pin 220 It is installed on the side of the 200, the side of the sliding block 200 is formed with a plurality of spring fixing holes 221 for fitting the spring fixing pin 220, the tension of the sliding return spring 210 as necessary It can be used to adjust, by the sliding return spring 210, the sliding block 200 is always maintained in the pulled back from the upper surface of the base.

Here, the spring fixing pin 220 may be a screw.

The cover 300 is separated into a cover plate 310, a cover bracket 320, and an insert cover 330 again.

The cover plate 310 is installed to be elevated on the upper side of the sliding block 200. For this, the upper surface of the sliding block 200 is supported by a plurality of vertical guide shafts 230 and the upper surface of the sliding block 200. There are a plurality of vertical ballistic spring 250 is installed to maintain the cover plate 310 is always spaced upward.

The cover handle 311 is installed on the upper surface of the cover plate 310 so as to easily move the cover 300.

The cover bracket 320 is assembled and installed at the front of the cover plate 310, and the cover bracket 320 is formed with support frames 321 on both sides of the front, and the insert cover 330 inside the support frame 321. ) Is installed.

The cover bracket 320 is formed with a vertical guide groove 322 corresponding to the guide pin 120 installed in the base 100, the vertical guide groove 322 is the cover 300 of the base 100 It is formed at a point coinciding with the guide pin 120 at a position for moving horizontally forward and descending, and thus the lowering of the cover at other points where the guide pin 120 and the vertical guide groove 322 do not coincide with each other. This will not be done.

At this time, the upper end of the guide pin 120 is preferably treated with a round or inclined surface so that the guide pin 120 and the vertical guide groove 322 can be smoothly inserted into each other, the vertical guide groove 322 is a groove or It can be chosen as one of the holes.

In the middle of the insert cover 330 is provided with a lens push block 331 for stably pressing the camera module 400 in close contact with the base 100, one end of the pin block 332 having a measuring pin 333 The pin block 332 and the sub-PCB 334 are assembled through the printed circuit board (hereinafter referred to as a 'sub PCB') 334 and the sub-PCB cover 335. Is electrically connected.

The pin block 332 is connected to the camera module 400 when the cover 300 is moved to be in close contact with the base 100 and is tested by a circuit connection.

The rear end of the sub PCB 334 is electrically connected to the interface pin block 110 provided in the base 100 when the sub-PCB 334 is in close contact with the base 100.

In front of the cover bracket 320, that is, the outer side of the front end of the support frame 321, the engaging lever 340 that is attached to the removable jaw 101 of the base 100 is installed, for this purpose, the lever bracket 341 ) Is fixed to the outside of the support frame 321, the locking lever 340 of the 'b' shape is rotatably installed to the outside of the support frame 321.

The lower end of the locking lever 340 has a hook portion 342 formed inwardly, so that the hook portion 342 is a portion that is caught by the locking jaw 101, and the lever bracket 341 has a spring groove 343 outward. Since the lever spring (not shown in the drawing) is inserted into the spring groove 343, the upper end of the locking lever 340 is always shot outwardly by the lever spring, and thus the lower end of the locking lever 340 is formed. The hook portion 342 always maintains a state of being shot inwardly.

Here, the position of the locking step 101 and the locking lever 340 is set at a position where the connection is made in the state that the cover 300 is moved forward as far as possible.

On the other hand, the front end of the base 100 is provided with a lever handle 150 in order to facilitate the operation of the locking lever 340, the lever handle 150 is made of '' 'shaped base 100 It is arranged to surround the front end of the, both sides are rotatably assembled to both outer surfaces of the front end of the base 100.

Both ends of the lever handle 150 extend beyond the center of rotation of the lever handle to form a lever pressing portion 151 protruding upward, and the lever pressing portion 151 is positioned outward of the locking jaw 101. While the locking lever 340 is coupled to the locking jaw 101, the locking lever 340 is in a state of being close to the bottom surface of the locking lever 340.

Therefore, when the front end of the lever handle 150 is pressed while the locking lever 340 is engaged with the locking step 101, the lever pressing part 151 of the lever handle 150 is caught while lifting the locking lever 340. The engagement state between the lever 340 and the locking step 101 is to be released.

Reference numeral 160 denotes a stopper for preventing the cover plate 310 from being pressed by the external pressure in a state where the cover plate 310 is spaced apart from the sliding block 200.

Looking at the operation of the present invention as follows.

10 to 14 is a view showing the operation of the present invention, Figure 10 (a) to Figure 10 (c) is a perspective view, a side view and a cross-sectional view showing an initial state before the camera module is mounted in the present invention, Figure 11 ( a) to 11 (c) are a perspective view, a side view, and a sectional view showing a state in which a camera module is mounted in the present invention, and FIGS. 12 (a) to 12 (c) show a state in which the cover moves horizontally in the present invention. 13 (a) to 13 (c) is a perspective view and a side view and a cross-sectional view showing a state in which the measuring pin and the camera module of the cover are connected by lowering the cover vertically after the horizontal movement in the present invention. Indicates.

The test socket according to the present invention is mounted on a main printed circuit board (not shown) and used, and the sliding block 200 and the cover 300, as shown in FIGS. 10 (a) to 10 (c), are used. With the module groove 12 of the module guide box 11 open at the rear of the base 100, the camera module 2 is inserted and seated as shown in FIGS. 11 (a) to 11 (c). When the cover handle 311 is pushed forward, the cover 300 including the cover plate 310, the cover bracket 320, and the insert cover 330 is slid as shown in FIGS. 12A to 12C. Together with the 200 is moved horizontally in front of the base 100.

When the horizontal transfer is completed, the sliding block 200 is caught by the step 102 of the base 100 and further progress is stopped, and at this point, the guide pin 120 and the cover bracket 320 installed on the base 100 are stopped. The vertical guide grooves 322 are vertically matched, and the position of the pin block 332 is vertically corresponding to the upper side of the camera module 2 seated in the module groove 131.

In this state, when the cover 300 is pressed down as shown in FIGS. 13 (a) to 13 (c), the cover 300 is lowered while the guide pin 120 and the vertical guide groove 322 are coupled to the insert cover. The pin block 332 is connected to the circuit pattern of the camera module 400 while the 330 is in close contact with the upper surface of the base 100.

In the fully lowered state, the hook portion 342 of the locking lever 340 installed on both sides of the cover bracket 320 is caught by the locking jaw 101 and is elastically coupled to fix the lowered state of the cover 300. Let's do it.

In this state, the test is performed by an electrical signal. When the test is completed, the lever 100 is released as shown in FIG. 14 to release the coupling state of the base 100 and the cover 300. Pressing the tip of the 150, the lever handle 150 is rotated while the lever pressing portion 151 of both ends to lift the locking lever 340 to separate the locking state of the locking jaw 101 and the hook portion 342 At the same time, as the cover plate 310 which is in close contact with the sliding block 200 is raised by the elasticity of the vertical ball head spring 250, the overall cover 300 is raised, and then the tension of the sliding return spring 210 is increased. Due to this, the sliding block 200 and the cover 300 are returned together to return to their original state.

The sliding block 200 may be accurately and smoothly moved in a state in which friction is minimized with respect to the base 100 by the action of the guide bars 140 and 240 and the roll bearing 141.

The restoring force of the sliding block 200 and the cover 300 is determined by the sliding return spring 210, and the tensile force of the sliding return spring 210 is formed by a plurality of spring fixing holes on the side of the sliding block 200 ( 221 may be adjusted by selecting.

The vertical guide shaft 230 shown in the drawings of this embodiment can be applied in various forms, for example, the upper and lower ends of the vertical guide shaft 230 may be fixed to the object, the cover bracket The configuration of the 320 or the cover handle 311 may be changed as necessary.

Embodiments as described and illustrated above are not intended to limit the scope of the invention, but merely illustrative of the components set forth in the claims of the present invention, and are included in the technical idea throughout the specification of the present invention Embodiments that include a substitutable component as an equivalent in the components of the claims may be included in the scope of the present invention.

100; Base 101; Jaw
102; Step 103; Bracket Storage
104; Guide groove 110; Interface Pin Block
120; Guide pin 130; Module Guide Bracket
131; Module groove 140; Base guide bar
141; Roll bearing 150; Lever handle
151; Lever press 200; Sliding block
210; Sliding return spring 220; Spring fixing pin
221; Spring fixing holes 230; Vertical guide shaft
240; Sliding guide bar 250; Vertical Ball Spring
300; Cover 310; Cover plate
311; Cover handle 320; Cover bracket
321; Support frame 322; Vertical guide groove
330; Insert cover 331; Lens push block
332; Pin block 333; Measuring pin
334; SubPCB 335; Sub PCB Cover
340; Latch lever 341; Lever bracket
342; Hook portion 343; Spring groove
400; Camera module

Claims (7)

It comprises a base having a module groove on which the camera module is seated at one end, a sliding block installed to be movable from the upper surface of the base, a cover having a pin block and a printed circuit board connected to the camera module, In the test socket for the camera module to be connected and tested with the camera module while the cover is moved horizontally and vertically,
A locking jaw formed at both ends of the front end and connected to the sliding block by a sliding return spring at a side thereof;
A cover plate which maintains a state of being shot upward by a vertical ballistic spring at an upper side of the sliding block and is guided to a plurality of vertical guide shafts to allow lifting up and down; a cover bracket assembled to the front of the cover plate; An insert cover which is assembled to the front of the bracket to receive the pin block and the printed circuit board and is connected to the camera module, and has a lens push block that fixes the lens of the camera module in the middle thereof, and can be rotated on both sides of the cover bracket. The cover is installed so that the cover consisting of a locking lever to be detachable from the locking jaw;
And a test socket for a camera module.
The method of claim 1,
A bracket housing is formed at the front end of the base, and the module guide bracket is assembled and accommodated in the bracket housing, and the module groove is formed on the upper surface of the module guide bracket.
The method of claim 1,
Both side portions of the lever handle having a 'c' shape are rotatably assembled at both sides of the front end of the base, and both side ends of the lever handle are further extended from the center of rotation to approach the outside of the locking jaw to The test socket for the camera module, wherein the locking lever coupled to the locking jaw is rotated upward by the rotation to release the coupling between the locking lever and the locking jaw.
The method of claim 1,
The upper surface of the base has a guide groove is formed long in the direction in which the sliding block moves in the portion in contact with the sliding block, a pair of guide bars are inserted together, one of the base is assembled and fixed to the base Guide bigo, the other one is composed of a sliding guide bar that is assembled and fixed to the bottom of the sliding block, the test socket for the camera module, characterized in that the bearing is assembled between each guide bar to make sliding contact.
The method of claim 1,
The locking lever has a 'b' shape and a hook portion is formed at the lower end of the locking jaw, and is assembled to both ends of the cover bracket by a lever bracket, and a spring is installed between the lever bracket and the locking lever. The test socket for the camera module, characterized in that the hook portion is always kept inwardly shot.
The method of claim 1,
Test cover for the camera module, characterized in that the cover handle is further installed on one end of the upper surface of the cover to easily manipulate the movement of the cover.
The method of claim 1,
Guide pins are vertically installed on both sides of the upper surface of the base, and the cover bracket has guide grooves formed at points coinciding with the guide pins when the cover is completely moved forward of the base. Test socket for the camera module, characterized in that the cover is not lowered.

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