KR20160080558A - camera module testing socket using vaccum - Google Patents

Abstract

The present invention relates to an absorption camera module test socket. The present invention comprises: a base plate (10) including a contact plate installation groove (11) including a contact plate (60) including a pogo block, connected to a camera module (200), and a camera module placement part (65) including a printed circuit board; an elevating device support (20) installed in the rear of the contact plate installation groove (11) of the base plate (10); an elevating device (30) installed in the elevating device support (20) to elevate a rotary cylinder (40); the rotary cylinder (40) elevated by being installed on an elevating device support plate (33) elevated by the elevating device (30), and reversing an absorption reversing tray (50) depending on the application of air pressure; the absorption reversing tray (50) including an absorbing part (55) absorbing the camera module (200), vertically reserved by the rotary cylinder (40), and elevated by the elevation of the elevating device (30); and the contact plate (60) including the pogo block (65a) making contact with a terminal of the camera module (200) by being installed in a position corresponding to a falling position of the camera module absorbed on the absorption reversing tray (50). Therefore, the present invention is capable of improving a lifespan of a pogo pin by vertical contact, improving the speed of a test speed more than an existing socket, and improving a camera module placement rate and making the rate constant by minimizing assembly processes, reducing material costs, and enabling light weight with a minimized number of components.

Description

A camera module testing socket using vaccum

The present invention relates to a suction type camera module test socket, and more particularly, to a suction socket for a camera module, and more particularly, to a suction socket for a camera module, Camera module test socket.

Generally, a small-sized camera is mounted on a mobile communication terminal to capture and store moving images and images. Such a small-sized camera is equipped with a CMOS or CCD image sensor on a printed circuit board, and is assembled in a lens and a housing, And is connected to a flexible printed circuit board.

Since the camera module is mounted within a relatively limited space of the mobile phone, the size of the lens and the PCB is extremely small, and the connector printed on the PCB is relatively fine.

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

The base frame and the cover frame are rotatably coupled to each other by a hinge to form a socket, and a camera module is seated inside the socket. The socket is provided with a test pin block and a connection pin block, To perform the test.

The auto focus device 8 is used for assembling and testing a camera module. More specifically, the auto focus device 8 adjusts the optical distance between the lens module 1a and the sensor module 1b to obtain an optimal image It is the equipment to find the assembly state that can be.

As shown in Fig. 1A, in the case of the conventionally illustrated cellular phone camera module 1, the direction of the lens module 1a in which the field of view of the camera module 1 is formed is electrically connected to the test probe or the like The directions of the connectors 1d are opposite to each other.

Therefore, a test probe such as an automated focusing device can be easily connected to the connector 1d from a direction opposite to the direction of the lens module 1a, and can be connected without interfering with the field of view formed by the lens module 1a . As a result, it is not necessary to apply a design change or the like to the configuration of the normal probe socket.

1B is a conceptual diagram showing an operation of testing a conventional mobile phone camera module with a test probe, the direction of which is opposite to that of the connector and the lens.

As shown in FIG. 1B, the autofocus device 8 includes a test probe 6 and a main PC 250 7 connected thereto. (Not shown) and the test probe socket 5 on the opposite side of the lens module 1a are mounted on the test probe socket 5 with the mobile phone camera module whose direction of the lens and the direction of the connector are opposite to each other And is electrically connected using a pin.

At this time, since the direction of the lens module 1 and the direction of the pin of the connector 1d are opposite to each other, even if the test probe socket 5 does not have a separate structure, The connector 1d and the test probe socket 5 are connected.

That is, as shown in FIG. 1B, it can be seen that the electrical wiring structure 8 in the test probe socket 5 is constructed very simply. Thereafter, the test probe 6 is driven up and down to electrically connect the lower surface of the test probe socket 5 and the probe pin 9 of the test probe 6.

The main computer 7 reads the image existing in the test chart 4 while moving the lens module 1a up and down under the standard illumination 3 and then processes the image data created by the sensor module 1b to obtain an optimal image Find the point where it is obtained.

As described above, in the case where the direction of the lens module 1a such as the conventional camera module 1 shown in Fig. 1B and the direction of the connector 1d are opposite to each other, as shown in Fig. 1B, The mobile phone camera module 1 and the test probe 6 of the autofocus device 8 can be electrically connected easily through the test probe socket 5 having the structure 5a.

However, when the direction of the lens module of the mobile phone camera module and the direction of the connector are different from each other as shown in FIG. 1B, there is a problem in testing the mobile phone camera module with the auto focus device.

That is, if the conventional test probe socket is used, the test probe of the autofocus device must be connected to the connector through the test probe socket in the same direction as the lens because the connector is oriented in the same direction as the lens module, The view formed by the lens module may be disturbed.

Even if the direction of the lens module of the mobile phone camera is the same as the direction of the connector, it is necessary to apply a deformation to the configuration of the auto focus device in order to electrically connect the test probe of the auto focus device to the sensor module from the opposite side of the lens module , Resulting in difficulties in developing standardized autofocusing equipment.

In order to solve such a problem, Korean Patent Registration No. 10-0874851 discloses a test probe of an auto focus device from a direction opposite to the direction of a camera lens, even if the lens and connector of a camera module used in a mobile phone are directed in the same direction. A "portable camera two-stage probe socket" that can be connected to the module is proposed.

The socket for inspecting a camera module according to this conventional technique can be tested even when the lens and the connector of the camera module are in the same direction or when the lens and the connector of the camera module are in opposite directions, The board and the lower printed circuit board are installed so that the test probe can be connected to the connector in both the upper and lower directions. However, since the upper printed circuit board and the lower printed circuit board are used, There was a problem.

Korean Registered Patent No. 10-0874851 (registered on December 12, 2008) Korean Registered Patent No. 10-0898043 (registered on May 11, 2009) Korea Patent Registration No. 10-1230447 (Registered on January 31, 2013) Korean Registered Patent No. 10-1450684 (Registered on October 10, 2014)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a camera module in which a reversal and a contact function are installed on a socket itself, And to provide a suction type camera module test socket which can reduce the structural cost and reduce the overall structure of the apparatus.

Another object of the present invention is to minimize the area used by the socket because the board flow and power are located at the bottom of the base due to the nature of the inverted socket and can also be used as a movable socket mounted on the actuator with a light weight and simple structure. And to prevent the pogo pin from being damaged when the pogo pin of the pogo block comes into contact with the test socket.

According to an aspect of the present invention, there is provided a test socket for a suction type camera module, comprising: a base plate having a contact plate on which a pogo block connected to a camera module is installed; An elevating device support installed on the base plate; A lifting device installed on the lifting device support and lifting the rotary cylinder; A rotary cylinder which is lifted and lowered by the elevating device; An adsorption reversing tray having an adsorption portion for adsorbing the camera module and vertically inverted by the rotary cylinder and moving up and down according to the elevation device; And a contact plate on which a pogo block contacting the terminal of the camera module corresponds to the descent of the camera module attracted to the attraction reversing tray.

The camera module is sucked to the suction unit of the suction reversal tray according to the embodiment of the present invention, the suction reversal tray is reversed by the rotary cylinder, and the suction reversal tray is lifted and raised according to the ascending / And the camera module is brought into contact with the pogo block to perform the test.

The rotary cylinder according to an embodiment of the present invention includes a pneumatic port that is elevated by the elevating device and is coupled through a rotary cylinder support of the elevating device.

The rotary shaft of the rotary cylinder according to an embodiment of the present invention is connected to the suction reversal tray, and a sound pressure pipe connected to the suction portion of the suction reversal tray is formed in the rotation reversal tray, and a pneumatic supply pipe connected to the pneumatic port So that a sound pressure is provided through the second opening.

The pogo block provided on the contact plate according to the embodiment of the present invention is installed at a position to be in contact with the terminal of the camera module which is attracted to the attraction reversing tray and descends, so that when the camera module attracted to the attraction reversing tray is moved down And the pogo block is vertically contacted with an input / output terminal formed on a circuit board of the camera module.

The suction reversal tray according to an embodiment of the present invention is attached to a front end portion of a rotary shaft of the rotary cylinder and is vertically reversed by the rotation of the rotary shaft and is reversed and a negative pressure is supplied through a pneumatic port connected to the rear end of the rotary shaft And a negative pressure is formed on a suction part formed on one of the upper surface and the lower surface to adsorb the camera module.

Since the camera module according to the embodiment of the present invention is attracted to the suction portion of the suction reversal tray, the camera module is not vertically inverted and does not fall down even when the surface on which the suction portion is installed faces downward.

According to the above-described suction module for a camera module test socket, the camera module adsorbed on the suction reversal plate is lowered by a simple vertical movement of rotation to contact the camera module and the pogo block, so that the life of the pogo pin Can improve the speed of the test process compared to existing socket due to simple structure, light weight by minimizing parts, reduce cost, minimize assembly frequency, improve (reversing) camera module seating rate and make it consistent Do.

FIG. 1A shows a mobile phone camera module in which the connector and the lens module are reversely mounted,
Fig. 1B is a conceptual diagram showing an operation of testing a conventional mobile phone camera module with a test probe with a connector and a lens whose directions are opposite to each other,
2 is a perspective view of a test camera module test socket according to the present invention,
3 is an exploded perspective view showing a configuration of a test camera module test socket according to the present invention,
FIGS. 4A and 4B are perspective views showing the upside-down reversal of the adsorption reversing tray connected to the rotary shaft of the rotary cylinder according to the present invention;
5A to 5C are vertical cross-sectional views illustrating a state in which the suction reversal tray according to the present invention contacts the pogo block after the camera module is vertically inverted after the suction of the camera module.

Hereinafter, a test camera module test socket according to the present invention will be described in detail with reference to embodiments shown in the drawings.

FIG. 2 is a perspective view of a test socket for a suction type camera module according to the present invention, and FIG. 3 is an exploded perspective view showing a configuration of a test socket for a suction type camera module according to the present invention.

A test module 100 according to the present invention includes a pogo block 65a connected to a camera module 200 and a camera module mount 65 on which a printed circuit board is mounted are mounted on a contact plate 60 A base plate 10 including a contact plate mounting groove 11 at a front center thereof; An elevating device support 20 installed at a rear side of the contact plate installation groove 11 in the base plate 10; A lifting device (30) installed on the lifting device support (20) and lifting the rotary cylinder (40); A rotary cylinder 40 installed on the elevating support plate 33 ascending and descending by the elevating device 30 and reversing the adsorption reversing tray 50 according to the application of the air pressure; An adsorption reversing tray 50 having an adsorption part 55 for adsorbing the camera module 200 and vertically inverted by the rotary cylinder 40 and ascending and descending according to the elevation of the elevation device 30; And a contact plate 60 installed corresponding to a lowering position of the camera module 200 adsorbed on the attraction reversing tray 50 and provided with a pogo block 65a contacting the terminal of the camera module 200 .

The base plate 10 according to the present invention is formed of a rectangular plate made of a light metal material such as aluminum and is mounted on a camera module test equipment and tested for a camera module 200 adsorbed on a suction reverse tray 50 at the front center A contact plate 60 having a pogo block 65a is provided.

 The lifting device support base 20 includes a lower support plate 21 installed at the rear of the base plate 10 and supported by the base plate 10; A vertical plate 23 supported on the lower support plate 21 and having a pair of Z-axis cylinders 31a and 31b installed on the front surface thereof; An intermediate support (22) attached to a rear surface of the vertical plate (23) to support the lower support plate (21); And an upper support plate 24 attached to the upper surface of the vertical plate 23 to support the pair of Z-axis cylinders 31a and 31b.

 The elevating device support 20 supports a pair of Z-axis cylinders 31a and 31b on the base plate 10 and moves the adsorption reversing tray 50 up and down according to the elevating motion of the pair of Z-axis cylinders 31a and 31b The camera module 200 is brought into contact with the pogo block 65a of the contact plate 60 so that the test is performed and the suction reversal tray 50 is raised to its original position after the completion of the test.

The upper surfaces of the pair of Z axis cylinders 31a and 31b are supported by the upper support plate 24 of the elevator support 20 and the piston rods 32a and 32b are supported by the front surface of the vertical plate 23 (Not shown) such as a screw, a bolt, or the like, and is supported in an upright position in a three-position state.

The piston rods 32a and 32b reciprocate upward and downward and a rotary cylinder support 33 is provided at the lower end of the piston rods 32a and 32b to rotate the rotary cylinders 31a and 31b. (40) up and down.

In this embodiment, a pair of Z-axis cylinders 31a and 31b is provided. However, one or more Z-axis cylinders can be provided as long as the rotary cylinder 40 can be lifted up and down. Further, not only a pneumatic cylinder but also an actuator such as a solenoid valve, a solenoid, and a hydraulic cylinder capable of moving up and down can be used.

4A and 4B are perspective views showing the upside-down reversal of the adsorption reversal tray connected to the rotary shaft of the rotary cylinder according to the present invention.

The rotary cylinder 40 according to the present invention includes: a cylinder body 41 attached to a rotary cylinder support 33 by a coupling means (not shown) such as a screw or a bolt; A front support 43 attached to the front surface of the cylinder body 41; A lower support 42 for supporting a bottom surface of the cylinder body 41; And a pneumatic port 44 which is coupled to a rotary shaft 41a of the cylinder body 41 through a port hole 33a of the rotary cylinder support 33.

5A to 5C, the rotary shaft 41a of the rotary cylinder 40 is connected to the suction reversal tray 50, and the rotary shaft 41a of the rotary cylinder 40 is connected to the suction portion 55 of the suction reversal tray 50, The negative pressure is supplied through the pneumatic supply pipe 44a connected to the vacuum pump (not shown) and the pneumatic pressure is applied to the rotary shaft 41a of the rotary cylinder 40, The adsorption unit 55 of the adsorption reverse tray 50 is turned upside down so that the adsorption unit 55 of the adsorption reverse tray 50 faces downward as shown in FIGS. 4A and 4B.

The contact plate 60 according to the present invention is provided with a camera module seating portion 65 on its upper surface and is provided on the left and right hooks 12a and 12b of the contact plate mounting groove 11, The pogo block 65a is disposed at a position where the pogo block 65a is attracted to the camera module 200 and contacts the terminals of the camera module 200 that descends after the inversion, Is vertically contacted with the input / output terminal formed on the circuit board 202 of the camera module 200 and contacts the pogo pin of the pogo block 65a without applying a shearing force to prevent the pogo pin from being damaged.

5A to 5C are vertical cross-sectional views illustrating a state in which the suction reversal tray according to the present invention contacts the pogo block after the camera module is vertically inverted after the suction of the camera module.

The adsorption reversing tray 50 is attached to the distal end of the rotary shaft 41a of the rotary cylinder 40 and is vertically reversed (turned upside down) by the rotation of the rotary shaft 41a of the rotary cylinder 40, Negative pressure is supplied through the pneumatic port 44 connected to the rear end of the camera module 200 by forming a negative pressure on the adsorption part 55 formed on either the upper surface or the lower surface as shown in FIG. .

A sound pressure pipe 41b is formed inside the rotary shaft 41a of the rotary cylinder 40. The sound pressure pipe 41b has a front end connected to the suction unit 55 and a rear end connected to the pneumatic port 44, (Not shown) through a pneumatic supply pipe 44a connected to the suction pipe 44 and forms a negative pressure on the suction unit 55. [

Since the camera module 200 is attracted to the suction portion 55 of the suction reversal tray 50 and the camera module 200 is pulled by the sound pressure, even when the surface on which the suction portion 55 is installed is turned upside down As shown in Figs. 4B and 5B.

When the camera module 200 is vertically inverted by the suction reversal tray 50 and the input and output terminals formed on the circuit board 202 of the camera module 200 are facing the pogo block 65a, The pneumatic pressure is applied to the cylinders 31a and 31b to be lowered as shown in FIG. 5C and the pogo block 65a and the input / output terminals formed on the circuit board 202 of the camera module 200 are contacted to perform the test.

After the test of the camera module 200 is completed, the pair of Z-axis cylinders 31a and 31b are lifted to lift up the rotary cylinder 40 and the adsorption reversing tray 50, and then the pneumatic pressure is applied to the rotary cylinder 40 The upper part of the camera module 200 is reversed upside down so that the suction part 55 faces upward so that the new camera module 200 is removed and the new camera module 200 is sucked to the suction part 55 to repeat the test.

The embodiments described above and shown in the drawings are only one embodiment for carrying out the present invention and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the following claims, and the embodiments improved and changed without departing from the gist of the present invention are obvious to those having ordinary skill in the art to which the present invention belongs Are within the scope of protection of the present invention.

10: base plate 11: contact plate mounting groove
12a, 12b: engaging jaw 20: elevating device support
21: lower support plate 22: intermediate support
23: vertical plate 24: upper support plate
30: elevating device 31a, 31b: Z-axis cylinder
32a, 32b: piston rod 33: rotary cylinder support
40: rotary cylinder 41: cylinder body
41a: rotary shaft 41b: sound pressure pipe
42: lower support 43: front support
44: Pneumatic port 44a: Pneumatic supply pipe
50: suction reversal tray 55: suction section
60: contact plate 65: camera module seat part
65a: Pogo block 100: Adsorption camera module test socket
200: camera module 201: lens
202: circuit board

Claims (7)

A base plate on which a contact plate on which a pogo block connected to the camera module is installed;
An elevating device support installed on the base plate;
A lifting device installed on the lifting device support and lifting the rotary cylinder;
A rotary cylinder which is lifted and lowered by the elevating device;
An adsorption reversing tray having an adsorption portion for adsorbing the camera module and vertically inverted by the rotary cylinder and moving up and down according to the elevation device;
And a contact plate on which a pogo block contacting the terminal of the camera module is provided in correspondence with the descent of the camera module adsorbed on the attraction reversal tray. The method according to claim 1,
The camera module is attracted to the suction portion of the suction reversal tray, the suction reversal tray is reversed by the rotary cylinder, and the suction reversal tray is lifted and lowered according to the ascending / descending operation of the lifting / lowering device to bring the camera module into contact with the pogo block of the contact plate So that the test is executed. 3. The method according to claim 1 or 2,
Wherein the rotary cylinder comprises a pneumatic port that is lifted by the lifting device and coupled through a rotary cylinder support of the lifting device. The method of claim 3,
The rotary shaft of the rotary cylinder is connected to the suction reversal tray and a negative pressure pipe connected to the suction portion of the suction reversal tray is formed in the rotary cylinder so that negative pressure is provided through the pneumatic pressure pipe connected to the pneumatic port Features a suctionable camera module test socket. 3. The method according to claim 1 or 2,
The pogo block provided on the contact plate is installed at a position where the pogo block is attracted to the attraction reversal tray and is in contact with the terminal of the camera module to be lowered so that when the camera module attracted to the attraction reversal tray is lowered, Output terminals formed on the substrate. 3. The method according to claim 1 or 2,
The suction reversal tray is attached to a front end of a rotary shaft of the rotary cylinder so that the suction reversal tray is turned upside down by rotation of the rotary shaft and negative pressure is supplied through a pneumatic port connected to the rear end of the rotary shaft, And a negative pressure is applied to the suction unit to suck the camera module. The method according to claim 6,
Wherein the camera module is vertically inverted so that the camera module is attracted to the suction portion of the suction reversal tray, so that the suction port can not be lowered even when the surface of the suction portion faces downward.

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