KR20200110023A - Apparatus for Inspecting Camera Module - Google Patents

Abstract

The present invention relates to an apparatus for inspecting a camera module, including: an upper base plate having a pogo pin block and a main printed circuit board; a pneumatic cylinder which extends in a longitudinal direction of the upper base plate and is mounted under the upper base plate; a lower base plate installed under the pneumatic cylinder; a moving block which has an insertion part opening upward and is slidable in the longitudinal direction of the upper base plate, as the pneumatic cylinder is driven; a module seating block which is inserted into the insertion part of the moving block and allows the camera module to be seated on the module seating block; a cylinder rod which is connected with the module seating block and allows the module seating block to slide upward; and a cylinder plate coupled to a lower portion of the cylinder rod while being provided in a plate form. When the module seating block is moved up by the cylinder rod, the camera module seated on the module seating block makes contact with the pogo pin block.

Description

Camera module inspection device {Apparatus for Inspecting Camera Module}

The present invention relates to a camera module inspection apparatus, and more particularly, by moving the module seat block on which the camera module is seated through a cylinder rod upward, the contact precision of the camera module is improved, and the camera module inspection is made of a non-magnetic material. It relates to a camera module inspection device capable of reducing the influence of magnetism by configuring the device.

In general, a small camera is mounted on a mobile communication terminal to shoot and store videos and images, and such small cameras are equipped with a CMOS or CCD image sensor on a printed circuit board, assembled on a lens and a housing, and then electrically connected to the outside. It is manufactured by connecting it to a flexible printed circuit board.

Since the camera module is mounted inside a relatively narrow and limited space of a mobile phone, the size of the lens and the PCB are extremely small, and the connector printed on the PCB is also formed with relatively fine detail.

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 the connection between the small lens and the connector is defective, a socket equipped with a measuring pin is used. After inserting a camera module into this socket, the camera module is connected to the main board for inspection.

Registered Patent No. 10-1920856 discloses a conventional camera module inspection apparatus for inspecting a camera module. Referring to FIG. 1, Patent No. 10-1920856 describes a module seating portion 10 on which a camera module 11 is seated, a tension block 30 to which the module seating portion 10 is coupled, and a drive shaft 21 It is connected to the tension block 30 through, and includes a cylinder 20 capable of horizontally reciprocating the tension block 30.

Registered Patent No. 10-1920856 discloses that the tension block 30 is moved below the camera module inspection pin block (pogo pin block) through the cylinder 20, and the tension block 30 is raised to increase the camera module ( 11) contacts the camera module inspection pin block (pogo pin block) to conduct the inspection.

The tension block 30 may be moved horizontally through the cam hole 41 provided in the cam plate 40 and then raised. Specifically, referring to FIG. 2, the tension block 30 is provided with a cam bearing 31, and the cam plate 40 has a cam hole including a horizontal hole 41a and an upward inclined hole 41b ( 41) is formed. As the cam bearing 31 is fitted into the cam hole 41, the tension block 30 may be moved along the path of the cam hole 41, and the cam bearing 31 is the upward inclined hole 41b When the tension block 30 is moved along, the camera module 11 is brought into contact with the camera module inspection pin block (pogo pin block) as the tension block 30 is raised.

However, such a conventional camera module inspection apparatus has the following problems. In the conventional camera module inspection apparatus, the support shaft of the module seating portion 10 is coupled to a driving shaft 21 capable of moving the module seating portion 10 into several parts. Accordingly, there is a problem in that a clearance may occur due to a tolerance, and vibration may occur, and the positioning accuracy of the module seating portion 10 is lowered due to such vibration.

In addition, the conventional camera module inspection apparatus moves the tension block 30 through the drive shaft 21 and raises the tension block 30 through the inclination of the cam hole 41 to test the camera module 11 It was brought into contact with a pin block (pogo pin block). However, the force to lift the tension block 30 along the cam hole 41 is all the force by the drive shaft 21, so the force to lift the camera module 11 is insufficient, and accordingly, the camera module 11 There is a problem that the contact precision of is deteriorated.

In addition, the conventional camera module inspection device mainly uses a material that exhibits magnetism. If the camera module inspection device is magnetic, magnetism can be generated in surrounding parts by a magnetic field during the test (current application). There is a problem that a smooth test does not proceed because it affects the camera lens.

Korean Patent Registration No. 10-1920856

The present invention is to solve the above-described problems, and more particularly, by moving the module mounting block on which the camera module is mounted through the cylinder rod upward, the contact precision of the camera module is improved, and the camera module is made of a non-magnetic material. It relates to a camera module inspection apparatus capable of reducing the influence of magnetism by configuring the inspection apparatus.

The camera module inspection apparatus of the present invention for solving the above-described problem includes: an upper base plate on which a pogo pin block and a main printed circuit board are provided; A pneumatic cylinder extending in the longitudinal direction of the upper base plate and installed under the upper base plate; A lower base plate installed below the pneumatic cylinder; A moving block having an insertion part that opens upward and slidable in the longitudinal direction of the upper base plate by driving the pneumatic cylinder; A module mounting block that is inserted into the insertion part of the moving block and on which a camera module can be mounted; A cylinder rod that is connected to the module mounting block and capable of sliding the module mounting block upward; A cylinder plate formed in a plate shape and coupled to the lower portion of the cylinder rod, and when the module seating block is raised by the cylinder rod, the camera module seated on the module seating block comes into contact with the pogo pin block. It is characterized by that.

An insertion groove into which the cylinder rod is inserted is formed under the module mounting block of the camera module inspection apparatus of the present invention for solving the above-described problem, and the cylinder rod includes an expansion portion that can be expanded when air is injected, When air is injected into the expansion part, the cylinder rod may push the module mounting block upward by the expansion of the expansion part.

The cylinder rod and the module seating block of the camera module inspection apparatus of the present invention for solving the above-described problems may be integrally formed.

In the module mounting block of the camera module inspection apparatus of the present invention for solving the above-described problem, a first through hole penetrating from the top to the bottom of the module mounting block is formed, and while being inserted into the first through hole, the lower part is A first spring bolt coupled to the moving block and a first spring fitted to the first spring bolt may be further included.

In the module mounting block of the camera module inspection apparatus of the present invention for solving the above-described problem, a second through hole penetrating from the top to the bottom of the module mounting block is formed, and while being inserted into the second through hole, the lower part is A second spring bolt coupled to the cylinder plate and a second spring fitted to the second spring bolt may be further included.

A fixing protrusion protruding from the module mounting block is provided on an upper portion of the module mounting block of the camera module inspection apparatus of the present invention for solving the above-described problem, and a shape corresponding to the fixing protrusion is formed under the upper base plate. A fixing groove made may be provided.

In the lower base plate of the camera module inspection apparatus of the present invention for solving the above-described problem, a support groove through which the cylinder plate can be contacted is formed, and when air is injected into the expansion part, the cylinder plate is It can be supported in the support groove.

The module mounting block of the camera module inspection apparatus of the present invention for solving the above-described problem may be made of a non-magnetic material, and the pneumatic cylinder, the cylinder rod, and the cylinder plate may be made of a non-magnetic material.

The present invention has an effect of reducing the cost by simplifying parts, and has the advantage of improving the contact precision of the camera module by moving the module mounting block on which the camera module is mounted upward through a cylinder rod. In addition, according to the present invention, since the camera module inspection apparatus is constructed of a non-magnetic material, it is possible to reduce the influence of magnetism during inspection of the camera module.

1 and 2 are views showing a conventional camera module inspection apparatus.
3 is a perspective view of a camera module inspection apparatus when a moving block is advanced according to an embodiment of the present invention.
4 is a perspective view of a camera module inspection apparatus when a moving block is retracted according to an embodiment of the present invention.
5 is a diagram illustrating removal of a module seating block from a moving block according to an embodiment of the present invention.
6 is a diagram illustrating a module mounting block according to an embodiment of the present invention.
7 is an exploded perspective view of a module mounting block, a cylinder rod, and a cylinder plate according to an embodiment of the present invention.
8 is a cross-sectional view showing a cylinder rod and a cylinder plate according to an embodiment of the present invention.
9 is a view showing a lower base plate according to an embodiment of the present invention.
10 is a cross-sectional view showing a first spring bolt and a first spring according to an embodiment of the present invention.
11 is a cross-sectional view showing a second spring bolt and a second spring according to an embodiment of the present invention.

The present invention is to solve the above-described problem, by moving the module mounting block on which the camera module is mounted through the cylinder rod upward, the contact precision of the camera module is improved, and the camera module inspection device is constructed of a non-magnetic material. It relates to a camera module inspection device capable of reducing the influence of magnetism. Hereinafter, a camera module inspection apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The camera module inspection apparatus according to an embodiment of the present invention includes an upper base plate 110, a pneumatic cylinder 120, a lower base plate 130, a moving block 140, a module mounting block 150, and a cylinder rod 160. , It is configured to include a cylinder plate 170.

3 and 4, in the camera module inspection apparatus according to an embodiment of the present invention, a camera module 180 is mounted on the module mounting block 150, and the module on which the camera module 180 is mounted is mounted. The block 150 moves together with the moving block 140 and moves under the pogo pin block provided on the upper base plate 110.

The camera module 180 moved to the lower portion of the pogo pin block is raised through the cylinder rod 160 and the cylinder plate 170, and accordingly, the inspection starts. The camera module inspection apparatus according to an embodiment of the present invention can be applied to a device capable of contacting the pogo pin block while the camera module 180 is raised as described above. Hereinafter, a configuration and operation method of a camera module inspection apparatus according to an embodiment of the present invention will be described in detail.

3 and 4, the upper base plate 110 is formed of a substantially rectangular flat plate, and a pogo pin block and a main printed circuit board are provided. The pogo pin block is in contact with the camera module 180, and when the camera module 180 contacts the pogo pin block, a predetermined inspection is performed.

The pogo pin block may be disposed under the upper base plate 110, and a cable capable of transmitting signals to the main printed circuit board may be connected to the upper base plate 110. The main printed circuit board is provided with a circuit board for performing a predetermined inspection.

The pneumatic cylinder 120 may be installed under the upper base plate 110 while extending in the longitudinal direction of the upper base plate 110. The pneumatic cylinder 120 is capable of horizontally reciprocating (forward and backward) the moving block 140 to be described later, and the moving block 140 is the upper base plate by driving the pneumatic cylinder 120 It can be moved in a direction closer to or away from (110).

The pneumatic cylinder 120 may be operated by pneumatic pressure, and the pneumatic cylinder 120 may be connected to the moving block 140 through a drive shaft 121. The operation of the pneumatic cylinder 120 causes the drive shaft 121 to reciprocate horizontally, and through this, the moving block 140 connected to the drive shaft 121 makes a horizontal reciprocation motion. The pneumatic cylinder 120 may be made of a non-magnetic material while using pneumatic pressure, thereby preventing magnetism from affecting the camera lens.

The lower base plate 130 is installed under the pneumatic cylinder 120. The lower base plate 130 is formed of a substantially rectangular flat plate and is capable of supporting the camera module inspection device.

The upper base plate 110-the pneumatic cylinder 120-the lower base plate 130 are fixed to each other and do not move, and the moving block 140 to be described later is the upper base plate 110- The camera module 180 comes into contact with the pogo pin block while moving with respect to the pneumatic cylinder 120-the lower base plate 130.

Referring to FIG. 5, the moving block 140 is provided with an insertion part 143 that is open upward, and slides in the longitudinal direction of the upper base plate 110 by driving the pneumatic cylinder 120. It is portable.

Specifically, the moving block 140 may move in a direction closer to or away from the upper base plate 110 by the operation of the pneumatic cylinder 120 and the drive shaft 121, through which the camera module 180 ) Can be positioned under the pogo pin block.

The insertion part 143 of the moving block 140 is a space that is open upward, and the insertion part 143 is a space in which the module mounting block 150 can be inserted. The insertion part 143 is provided with a support part 143a capable of supporting the module mounting block 150, and the module mounting block 150 is mounted on the moving block 140 through the support part 143a. Can be.

Referring to FIG. 6, the module mounting block 150 is inserted into the insertion part 143 of the moving block 140, and the camera module 180 may be mounted thereon. Specifically, the module mounting block 150 is provided with a groove-shaped mounting portion 152 in which the camera module 180 can be mounted, and the camera module 180 is mounted on the mounting portion 152 Is moved together with the module mounting block 150.

The module mounting block 150 is inserted into the insertion part 143 of the moving block 140 and can be moved together with the moving block 140, and the moving block 140 is the pneumatic cylinder 120. When moving in the drive, the module mounting block 150 is also moved.

Since the module seating block 150 can be seated while being inserted into the moving block 140, the type of the module seating block 150 may be changed as needed to be seated on the moving block 140. have. Specifically, the camera module 180 may be various devices that may be subject to inspection (for example, VCM and CCM), and the module mounting block 150 is changed according to the type of the camera module 180 Inspection may be performed by inserting the module mounting block 150 into the moving block 140.

In addition, a plurality of camera modules 180 may be mounted on the module mounting block 150, and a plurality of mounting portions 152 may be mounted on the module mounting block 150 so that the plurality of camera modules 180 are mounted. It can also be formed. For example, the camera module 180 may be formed of a dual or triple module.

Referring to FIG. 6, a fixing protrusion 155 protruding from the module mounting block 150 may be provided on an upper portion of the module mounting block 150, and the fixing protrusion 155 may be provided under the upper base plate 110. A fixing groove formed in a shape corresponding to 155 may be provided.

When the camera module 180 mounted on the module mounting block 150 is brought into contact with the pogo pin block, the camera module 180 must be brought into contact with the correct position for smooth inspection. The fixing protrusion 155 is for this purpose, and as the fixing protrusion 155 is inserted into a designated position (fixing groove), the camera module 180 can be brought into contact with the pogo pin block at an accurate position.

The fixing protrusion 155 may be detachably coupled to the module mounting block 150 and may be omitted if necessary. In addition, the fixing groove may be formed at various points under the upper base plate 110 if it is at a position corresponding to the fixing protrusion 155.

6 and 7, while the cylinder rod 160 is connected to the module mounting block 150, the module mounting block 150 can be slid upward. The cylinder plate 170 is formed in a plate shape and is coupled to the lower portion of the cylinder rod 160, and the cylinder plate 170 slides the module mounting block 150 upward through the cylinder rod 160 When moving, the cylinder rod 160 can be supported.

When the module mounting block 150 moves below the pogo pin block through the moving block 140, the camera mounted on the module mounting block 150 by raising the module mounting block 150 for inspection The module 180 must be brought into contact with the pogo pin block.

The cylinder rod 160 and the cylinder plate 170 are connected to the module mounting block 150 and can slide the module mounting block 150 upward, and the module mounting block 150 is moved upward. A variety of configurations can be used if it can be raised to.

According to an embodiment of the present invention, the cylinder rod 160 may include an expansion unit 161 that can expand when air is injected, and through this, the module mounting block 150 can be slid upward. have. The expansion unit 161 may be injected with air in various ways, and air may be injected through a lake.

Referring to FIG. 8, an insertion groove 151 into which the cylinder rod 160 is inserted is formed under the module mounting block 150, and the cylinder rod 160 is inserted into the insertion groove 151. It may be connected to the module mounting block 150.

Specifically, the cylinder rod 160 is in contact with the first contact portion 162 and the cylinder plate 170 that can push up the module mounting block 150 while contacting and connected to the module mounting block 150, and It may include a second contact portion 163 capable of pushing the cylinder plate 170 while being connected.

The cylinder rod 160 may be disposed in the order of the first contact part 162-the expansion part 161-the second contact part 163. The cylinder rod 160 is capable of pushing up the module mounting block 150 by the expansion of the expansion unit 161, and when air is injected into the expansion unit 161, the cylinder rod 160 ) Of the expansion part 161 expands and pushes the first contact part 162 and the second contact part 163.

When the expansion part 161 expands and pushes the first contact part 162 and the second contact part 163, the module mounting block 150 in contact with the first contact part 162 moves upward. Then, the cylinder plate 170 in contact with the second contact portion 163 moves downward.

When air is injected into the expansion part 161 as described above, the cylinder rod 160 pushes the module mounting block 150 upward by the expansion of the expansion part 161, and the module mounting block ( As 150) rises, the camera module 180 comes into contact with the pogo pin block.

In this case, the cylinder plate 170 is preferably in close contact with the bottom surface of the lower base plate 130 to support the cylinder rod 160. When the cylinder plate 170 is in close contact with the bottom surface of the lower base plate 130, when the expansion portion 161 pushes the second contact portion 163, the cylinder plate 170 It is no longer able to move by the lower base plate 130.

As the cylinder plate 170 does not move, the force that the second contact portion 163 pushes the cylinder plate 170 is the force that the first contact portion 162 pushes the module mounting block 150 up. Is converted to, and through this, the force of pushing up the module mounting block 150 by the cylinder rod 160 is increased, so that the contactability of the camera module 180 can be improved.

Here, the cylinder plate 170 is preferably in close contact with the lower base plate 130, but is not limited thereto. A through hole into which the cylinder plate 170 is inserted may be formed in the lower base plate 130, and a test equipment may be provided under the lower base plate 130.

When the cylinder plate 170 is lowered, the cylinder plate 170 meets one side of the test equipment through the lowering, making it impossible to move, and at this time, air is continuously injected into the expansion unit 161 When the first contact part 162 pushes the module mounting block 150 upward, the camera module 180 is contacted.

In addition, referring to FIG. 9, a support groove 131 corresponding to the shape of the cylinder plate 170 may be formed in the lower base plate 130 while being in contact with the cylinder plate 170. When air is injected into the expansion part 161, the cylinder plate 170 is fitted into the support groove 131, so that the cylinder plate 170 can be supported through the support groove 131. .

When the cylinder plate 170 is lowered by the expansion of the expansion unit 161 and contacts a point, if the side point of the cylinder plate 170 is not restrained, the cylinder plate 170 can be shaken. Accordingly, there is a risk that the module mounting block 150 may be shaken.

However, when the through hole is formed in the lower base plate 130 or the support groove 131 is formed in the lower base plate 130, the cylinder plate 170 is prevented from expanding of the expansion part 161. When lowered by the contact point, it is possible to constrain the side surface of the cylinder plate 170. Through this, it is possible to prevent the cylinder plate 170 from shaking, thereby preventing the module mounting block 150 from shaking.

The cylinder rod 160 may be manufactured integrally with the module mounting block 150. Specifically, the first contact portion 162 of the cylinder rod 160 may be integrally manufactured with the module mounting block 150. Through this, contact stability can be improved when the module mounting block 150 is raised, and cost can be reduced through simplification of manufacturing parts.

Here, the first contact portion 162 of the cylinder rod 160 and the module mounting block 150 are not limited to being integrally manufactured, and the module mounting block through which the cylinder plate 170 is pushed out. If the 150 can be raised, the cylinder rod 160 and the module mounting block 150 may be integrated in various structures.

According to an embodiment of the present invention, it is preferable that the module mounting block 150, the cylinder rod 160, and the cylinder plate 170 are made of a non-magnetic material. In the conventional camera module inspection device, a material exhibiting magnetism is mainly used. If the camera module inspection device is magnetic, magnetism can be generated in the surrounding parts by a magnetic field during the test (applied current), and such magnetism is the camera lens. There is a problem that the test does not proceed smoothly because it affects.

In order to prevent this, the module mounting block 150, the cylinder rod 160, and the cylinder plate 170 may be made of a non-magnetic material. In particular, as the cylinder rod 160 is operated through air injection The cylinder can be made of a non-magnetic material. In addition, all other components of the camera module inspection apparatus according to an embodiment of the present invention may be made of a non-magnetic material, thereby preventing the magnetism from affecting the camera lens.

As described above, the module mounting block 150 is seated while being inserted into the insertion part 143 of the moving block 140. At this time, in order to prevent the module mounting block 150 from being separated from the moving block 140 and to align the module mounting block 150, the module mounting block 150 has a first through hole. (153) may be provided.

Referring to FIGS. 7 and 10, the first through hole 153 penetrates from an upper portion to a lower portion of the module mounting block 150, and a first spring bolt 141 is formed in the first through hole 153. Can be inserted. The first spring bolt 141 has a lower portion coupled to the moving block 140 and may include a body portion 141b and a head portion 141a having a larger diameter than the body portion 141b.

The first through hole 153 has a diameter equal to or slightly larger than the diameter of the head portion 141a of the first spring bolt 141, and the first spring bolt 141 is the first through hole You can move while passing through (153).

As the lower portion of the first spring bolt 141 is coupled to the moving block 140 while inserting the first spring bolt 141 into the first through hole 153, the module mounting block 150 It is possible to prevent separation of the moving block 140. In addition, as the first spring bolt 141 coupled to the designated point of the moving block 140 is inserted into the first through hole 153, the module mounting block 150 is attached to the moving block. It is possible to align while inserting at the designated position of (140).

Referring to FIG. 10, a first spring 142 may be fitted to the first spring bolt 141. The first spring 142 has a smaller diameter than the head 141a of the first spring bolt 141 and has a larger diameter than the body 141b of the first spring bolt 141, and the body It can be pressed by the head portion (141a) while being fitted to the portion (141b).

When air is injected into the expansion part 161 of the cylinder rod 160 as described above, the module mounting block 150 is raised by the cylinder rod 160. When the module mounting block 150 rises, the first spring bolt 141 descends along the first through hole 153 to compress the first spring 142.

Thereafter, when air is removed from the expansion part 161 of the cylinder rod 160, the compressed first spring 142 is restored to its original state and lowers the module mounting block 150, through which the The module seating block 150 is able to return to the position before it was raised.

That is, the module mounting block 150 can be raised through the cylinder rod 160, and the module mounting block 150 can be lowered through the first spring 142.

The module mounting block 150 is provided for aligning the module mounting block 150 and the cylinder plate 170 while preventing the module mounting block 150 from being separated from the cylinder plate 170. A second through hole 154 may be provided.

7 and 11, the second through hole 154 passes from the top to the bottom of the module mounting block 150, and the second through hole 154 has a second spring bolt 171 Can be inserted. The second spring bolt 171 has a lower portion coupled to the cylinder plate 170 and may include a body portion 171b and a head portion 171a having a larger diameter than the body portion 171b. The second spring bolt 171 may be coupled to the cylinder plate 170 through a second spring nut 173.

The second through hole 154 has a diameter equal to or slightly larger than the diameter of the head portion 171a of the second spring bolt 171, and the second spring bolt 171 is the second through hole You can move while passing through (154).

As the second spring bolt 171 is inserted into the second through hole 154 and the lower portion of the second spring bolt 171 is coupled to the cylinder plate 170, the module mounting block 150 It is possible to prevent separation of the cylinder plate 170. In addition, as the second spring bolt 141, whose lower portion is coupled to a designated point of the cylinder plate 170, is inserted into the second through hole 154, the module mounting block 150 is fitted to the cylinder plate. It is possible to align while inserting it at the designated position of (170).

Referring to FIG. 11, a second spring 172 may be fitted to the second spring bolt 171. The second spring 172 is smaller in diameter than the head portion 171a of the second spring bolt 171 and larger in diameter than the body portion 171b of the second spring bolt 171, and the body It can be pressed by the head portion (171a) while being fitted to the portion (171b).

When air is injected into the expansion part 161 of the cylinder rod 160 as described above, the module mounting block 150 is raised by the cylinder rod 160. When the module mounting block 150 is raised, the second spring bolt 171 descends along the second through hole 154 to compress the second spring 172.

Thereafter, when air is removed from the expansion part 161 of the cylinder rod 160, the compressed second spring 172 is restored to its original state and lowers the module mounting block 150, through which the The module seating block 150 is able to return to the position before it was raised.

That is, the module mounting block 150 can be raised through the cylinder rod 160, and the module mounting block 150 is lowered through the first spring 142 and the second spring 172. You can make it.

A method of inspecting a camera module through the camera module inspection apparatus according to an embodiment of the present invention will be described as follows.

First, air is injected into the pneumatic cylinder 120 to advance the moving block 140 as shown in FIG. 3. Thereafter, while the camera module 180 is mounted on the module mounting block 150, the module mounting block 150 is inserted into the insertion part 143 of the moving block 140.

When the module mounting block 150 is inserted into the moving block 140, the moving block 140 is moved through the pneumatic cylinder 120 as shown in FIG. 4 so that the camera module 180 moves the pogo pin block. It should be placed at the bottom. (The moving block 140 is moved to move the camera module 180 to the test position.)

Thereafter, when air is injected into the cylinder rod 160, the cylinder plate 170 is lowered and the module mounting block 150 is raised at the same time. At this time, the cylinder plate 170 is limited in movement while in contact with the lower base plate 130 or the test equipment, thereby increasing the force by which the module mounting block 150 is raised.

When the module mounting block 150 is raised, the camera module is tested. While the test is in progress, air is continuously injected into the cylinder rod 160 while maintaining the force that the module mounting block 150 is raised. At this time, as the module mounting block 150 rises, the first spring 142 is compressed by the first spring bolt 141, and the second spring 172 is compressed by the second spring bolt 171. Is compressed. (During the test, since air is continuously injected into the cylinder rod 160, the first spring 142 and the second spring 172 are maintained in a compressed state.)

Thereafter, when the test is finished, the air of the cylinder rod 160 is blocked. When the injection of air from the cylinder rod 160 is blocked, the module seating block 150 is lowered by the compressed first spring 142 and the second spring 172 and the cylinder plate 170 is raised. As a result, the module mounting block 150 is returned to the position before the test.

The camera module inspection apparatus according to an embodiment of the present invention performs the camera module inspection in the above-described manner, and the camera module inspection apparatus according to the embodiment of the present invention has the following effects.

In the conventional camera module inspection apparatus, several parts had to be used according to the slide-cam method using the slope of the cam hole 41, and there was a problem in that shaking occurs due to gaps caused by fastening of several parts. However, the camera module inspection apparatus according to an embodiment of the present invention inserts the module seating block 150 into the insertion unit 143 provided in the moving block 140 to perform inspection of the camera module 180, thereby removing parts. There is an effect that can reduce cost while simplifying.

In addition, the camera module inspection apparatus according to an embodiment of the present invention has the advantage of being able to inspect the camera module while changing the module mounting block 150 according to the type of the camera module 180, and the pneumatic cylinder 120 Through the implementation of the horizontal transfer of the camera module 180, and by implementing the vertical transfer of the camera module 180 through the cylinder rod 160, there is an advantage of improving the contact precision of the camera module.

In addition, the camera module inspection apparatus according to an embodiment of the present invention can align the module mounting block 150 to the correct position through the first spring bolt 141 and the second spring bolt 171, Advantages of preventing separation of the module mounting block 150 and the moving block 140, the module mounting block 150 and the cylinder plate 170 through the first spring bolt 141 and the second spring bolt 171 There is this.

In the camera module inspection apparatus according to an embodiment of the present invention, all components including the module mounting block 150 may be made of a non-magnetic material. In particular, the pneumatic cylinder 120, as the cylinder is operated by injecting air, There is an advantage that the cylinder rod 160 and the cylinder plate 170 can be made of a non-magnetic material. The camera module inspection apparatus according to an exemplary embodiment of the present invention has an advantage of preventing a quality defect phenomenon of a camera module caused by magnetism during a test process, as the camera module inspection apparatus is made of a non-magnetic material.

Although the present invention has been described in detail with reference to preferred embodiments above, the present invention is not necessarily limited to these embodiments, and various modifications may be made without departing from the spirit of the present invention.

110...top base plate 120...pneumatic cylinder
121...drive shaft 130...lower base plate
131...support groove 140...moving block
141...first spring bolt 141a...head
141b...body part 143...insertion part
143a...Support 150...Module mounting block
151...insertion groove 152...seat
153...first through hole 154...second through hole
155...fixing protrusion 160...cylinder rod
161...expanded part 162...first contact part
163...second contact 170...cylinder plate
171...second spring bolt 171a...head
171b...body part 172...second spring
173...second spring nut 180...camera module

Claims (9)

In the camera module inspection device for contacting the camera module to the pogo pin block,
An upper base plate on which a pogo pin block and a main printed circuit board are provided;
A pneumatic cylinder extending in the longitudinal direction of the upper base plate and installed under the upper base plate;
A lower base plate installed below the pneumatic cylinder;
A moving block having an insertion part that opens upward and slidable in the longitudinal direction of the upper base plate by driving the pneumatic cylinder;
A module mounting block that is inserted into the insertion part of the moving block and on which a camera module can be mounted;
A cylinder rod that is connected to the module mounting block and capable of sliding the module mounting block upward;
Includes; a cylinder plate formed in a plate shape and coupled to the lower portion of the cylinder rod,
When the module mounting block is raised by the cylinder rod, the camera module seated on the module mounting block is in contact with the pogo pin block. The method of claim 1,
An insertion groove into which the cylinder rod is inserted is formed in a lower portion of the module mounting block, and the cylinder rod includes an expansion portion that can be expanded when air is injected,
When air is injected into the expansion unit, the cylinder rod pushes the module mounting block upward by expansion of the expansion unit. The method of claim 1,
The camera module inspection apparatus, characterized in that the cylinder rod and the module mounting block are formed integrally. The method of claim 1,
The module mounting block has a first through hole penetrating from the top to the bottom of the module mounting block,
A camera module inspection apparatus further comprising: a first spring bolt inserted into the first through hole and coupled to the moving block, and a first spring fitted into the first spring bolt. The method of claim 1,
The module mounting block has a second through hole penetrating from the top to the bottom of the module mounting block,
And a second spring bolt inserted into the second through hole and having a lower portion coupled to the cylinder plate, and a second spring fitted into the second spring bolt. The method of claim 1,
A fixing protrusion protruding from the module mounting block is provided on the upper part of the module mounting block,
Camera module inspection apparatus, characterized in that provided with a fixing groove having a shape corresponding to the fixing protrusion under the upper base plate. The method of claim 2,
In the lower base plate, a support groove through which the cylinder plate can be contacted is formed,
When air is injected into the expansion part, the cylinder plate is supported by the support groove. The method of claim 1,
The module mounting block is a camera module inspection apparatus, characterized in that made of a non-magnetic material. The method of claim 1,
The camera module inspection apparatus, wherein the pneumatic cylinder, the cylinder rod, and the cylinder plate are made of a non-magnetic material.

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