KR20180093397A - Image Sensor Module Socket - Google Patents

Abstract

The present invention relates to an image sensor module socket, securing stable electrical connection between a connector of an image sensor module and the image sensor module socket and improved reliability, durability and precision of the image sensor module socket. The image sensor module socket comprises a contact assembly on which the image sensor module is mounted, an up-down assembly for going up and down at the upper portion of the contact assembly to be connected to or disconnected from the image sensor module; and a drive assembly coupled to the rear surface of the up-down assembly to move the up-down assembly forward, backward, up and down.

Description

Image Sensor Module Socket {Image Sensor Module Socket}

The present invention relates to a socket for inspecting an image sensor module, and more particularly, to an image sensor module in which an electrical connection between a connector of an image sensor module and an image sensor module socket is stably performed and an image sensor module socket is improved in reliability, durability and precision To an image sensor module socket.

Generally, a camera is provided with an image sensor module including a CMOS (Complementary Metal Oxide Semiconductor) image sensor or a CCM (Charge Coupled Device) image sensor for capturing an image. The image sensor module includes an image sensor And a lens is mounted on the front surface thereof and housed in a housing.

It is essential that the image sensor module is inspected before it is assembled in the camera to check whether the image sensor module operates normally.

The connection pin block of the image sensor module socket is vertically aligned with the connector pin of the image sensor module so that the connection pin of the connection pin block and the connector of the image sensor module are electrically connected to each other And the operation state is checked.

In the conventional image sensor module, a single-acting cylinder for lifting and lowering a body provided with an actuator, a double acting cylinder for moving the body forward and backward, And cross rollers are provided on both sides of the body portion.

The conventional image sensor module socket is provided with a double acting cylinder and a cross roller to ensure durability against forward and backward movements. However, the precision and durability of the upward and downward movements can not be ensured by operation of the single acting cylinder There is a problem.

Since the image sensor module socket is very small and precise connection pin block and the connector of the image sensor module are connected vertically, it is necessary to secure precise and speed-adjustable front and rear movement and up and down movement. However, the current image module socket is very precise, has no swinging, and can not secure forward, backward, up and down movements capable of controlling the speed, so that the connecting pins are frequently bent and broken during the inspection process.

Korean Patent Registration No. 10-1606175 Korean Patent Registration No. 10-1616391 Korean Registered Patent No. 10-1246182

SUMMARY OF THE INVENTION It is an object of the present invention to provide an image sensor module socket having improved reliability and durability.

An object of the present invention is to provide an image sensor module socket having improved precision and durability of forward, backward, up / down movement, and downward movement.

The problems to be solved by the present invention are not limited to the above-mentioned problems. It is to be understood by those skilled in the art that the present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof.

The present invention relates to an image sensor module including a contact assembly to which the image sensor module is mounted, an up-down assembly for connecting and disconnecting the image sensor module from the upper portion of the contact assembly, And a driving unit configured to move the slide plate forward and backward and to move up and down the up and down plate, the drive unit having a plate shaped base formed at the lower end of the drive assembly, A stopper unit disposed in a front direction of the drive unit to adjust a forward position of the slide plate, a slide plate formed in an upper direction of the drive unit to reciprocate forward and backward, , Up-and-down movement And a sensor unit attached to one side of the left and right sides of the up-down plate and sensing the position of the slide plate and the up-down plate, wherein the base is in the form of a plate having a predetermined thickness, And an up-down cylinder slide groove formed in a depth and a width and elongated from an end portion in a rear direction to a front direction, the drive unit comprising: a plate-shaped main base disposed on an upper surface of the base; A double-acting type up-down cylinder for lifting up and down the up-down plate connected to the lower end of the up-down cylinder slide groove of the base, , And are disposed on both sides of the right and left sides of the slide plate, The main base includes an up-down slide slot formed in a predetermined length from a rear side end portion to a front side side, the stopper unit being in contact with a front end of the slide plate, And a stopper holder capable of adjusting the position of the stopper in the forward and backward directions, wherein the stopper is formed to have a predetermined length in the forward and backward directions, and the stopper holder has a stopper And a lock male screw fastened to the lock female screw. The stopper holder includes a stopper holder and a stopper holder.

The present invention has the effect of improving the reliability, stability, and durability of the image sensor module socket by a double-acting slide cylinder that reciprocates forward and backward through the slide plate and a double-acting up-down cylinder that reciprocates up and down the up-down plate.

In addition, the present invention provides a slide guide device, comprising: a cross roller for preventing back and forth clearance of a slide plate; a guide shaft and a slide bearing for preventing up and down clearance of the up and down plate; and a stopper The precision of the image sensor module socket can be improved by the unit.

Further, according to the present invention, the overall height of the drive assembly can be set low by the up-down cylinder slide groove of the base, and this setting can set the vertical transfer distance of the up-down plate to be short and precise vertical connection of the connection pin block and the image sensor module There is an effect to induce.

1 is a perspective view of an image sensor module socket according to the present invention.
2 is an exploded perspective view of an image sensor module socket according to the present invention.
3 is an exploded perspective view of a contact assembly according to the present invention.
4 is an exploded perspective view of an up-down assembly in accordance with the present invention.
5 is an exploded perspective view of a drive assembly according to the present invention.
Figure 6 is a partial perspective view of a drive assembly according to the present invention.
7 is a front and backward operational view of the image sensor module socket according to the present invention.
FIG. 8 is a view showing the operation of the image sensor module socket according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The known configurations and their associated operations are omitted or briefly described, and the size of each element or a specific portion constituting the element in the drawings may be exaggerated, omitted, or schematically shown for convenience and clarity of description . In the following description, the front, back, left, and right directions indicate the directions shown in Fig.

FIG. 1 is a perspective view of an image sensor module socket according to the present invention, and FIG. 2 is an exploded perspective view of an image sensor module socket according to the present invention.

As shown in the figure, the image sensor module socket according to the present invention includes a contact assembly 100 formed at the front end thereof, an up-down assembly 200 formed at an upper portion of the contact assembly 100, And a drive assembly 300 configured in the rear direction.

The image sensor module socket according to the present invention is configured such that when the image sensor module (ISM) is mounted on the contact assembly 100, the connection pin block of the up-down assembly 200 is vertically connected to the connector of the image sensor module ISM And the operation state of the image sensor module (ISM) is checked, and the forward and backward operations and the up and down operations of the up-down assembly are operated by the drive assembly 300.

3 is an exploded perspective view of a contact assembly according to the present invention.

Referring to FIG. 1, a contact assembly 100 includes a base block 110 at a lower end, a bottom PCB 120 formed at an upper portion of the base block 110 and electrically connected to an inspection device (not shown) A top block 130 and an interface block 140 formed on the top of the PCB 120 and a floating plate 150 formed on the top block 130.

A vertical alignment pin 160 protrudes upward from the bottom PCB 120 and penetrates through the top block 130 to a portion of the interface block 140. The vertical alignment pin 160 is formed such that the interface block 140 is always vertically aligned. The detailed configuration of the contact assembly 100 is well known in the art and will be omitted.

4 is an exploded perspective view of an up-down assembly in accordance with the present invention.

As shown, the up-down assembly 200 includes a lower connection pin block 210 and a coupling 240 including a SUS pin 240 coupled to the upper portion of the connection pin block 210 and protruding vertically downward from the bottom surface. A PCB 220 and an upper PCB 230 disposed on the upper surface of the coupling plate 220.

The connection pin block 210 is connected to the connector of the image sensor module (ISM) in the vertical direction to check the operation state of the image sensor module (ISM). The connection pin block 210 includes a lower push block 211, a stopper 3F31 disposed on the upper surface of the push block 211, a floating table 212 formed on the upper portion of the stopper 331, And a socket body 213 and a bottom plate 214 coupled to the upper surface of the table 212. The detailed description of the up-down assembly 200 is omitted because it is a known technique.

FIG. 5 is an exploded perspective view of a drive assembly according to the present invention, and FIG. 6 is a partial perspective view of a drive assembly according to the present invention.

Referring to the drawings, the drive assembly 300 includes a base 310 at the lower end and a drive unit 330 for moving the slide plate 340 forward and backward, A stopper unit 330 disposed on both sides of the front side of the drive unit to adjust a forward position of the slide plate 340 and a stopper unit 330 disposed in the upper direction of the drive unit 320, An up-down plate 350 formed on the upper side of the slide plate 340 to move up and down and a reciprocating plate 350 to be reciprocally moved back and forth; And a sensor unit 360 attached to the slide plate 340 to sense the position of the slide plate 340 and the up-down plate 350.

The base 310 is disposed at a lower end of the drive assembly 300 in a plate shape having a predetermined thickness. The base 310 includes an up-down cylinder slide groove 311 formed in a direction from the rear end to the front side. The up-down cylinder slide groove 311 is formed to have a width in the lower left and right direction of the up-down cylinder 325 and a depth to which a lower end portion of the up-down cylinder 325 is connected.

The up-down cylinder slide groove 311 prevents fine fluctuation and fine positioning of the up-down cylinder 325 when the up-down plate 350 and the slide plate 340 move in the forward and backward directions simultaneously with the up-down cylinder 325 .

The up-down cylinder slide groove 311 can set the overall height of the drive assembly 300 to a lower value due to the lower connection of the up-down cylinder 325, and this setting can shorten the vertical transfer distance of the up-down plate 350 , Leading to a precise vertical connection of the connection pin block 210 and the image sensor module (ISM).

The driving unit 320 includes a main base 321 disposed on the upper surface of the base 310 and including an up-down cylinder slide slot 323 and a pair of upper and lower A slide cylinder 324 and a slide rod 324a provided on the upper surface of the main base 321 and an up-down cylinder slide slot 323 connected to the up-down plate slide slot 323, An up-down cylinder 325 and an up download 324a. The slide cylinder 324 and the up-down cylinder 325 are double acting cylinders.

The main base 321 is a plate having a predetermined thickness and the up-down cylinder slide slot 323 is elongated from the rear side end of the main base 321 to the front side. The up-down cylinder slide elongated hole 323 is formed in the left-right width direction of the up-down cylinder 325. The up-down cylinder slide slot 323 is provided with an up-down cylinder slide groove 311 of the base 310 together with the up-down plate 350 and the slide plate 340 moving in the forward and backward directions simultaneously with the up- Thereby finely preventing the minute swinging and fine movement of the cylinder 325.

The up-down cylinder slide groove 311 and the up-down cylinder slide slot 323 prevent the minute swing and the fine position movement when the up-down cylinder 325 is moved forward and backward so that the connection pin block 210 and the image sensor module ISM ) Accurately and precisely.

The stopper unit 330 is constituted by both the left and right sides on the front direction side of the main base 321. The stopper unit 330 includes a stopper 331 connected to the stopper holder 332 and the stopper connection hole 333 of the stopper holder 332 and a stopper 331 connected to the stopper connection hole 333 of the stopper holder 332, A lock female thread 335 formed through the stopper holder 332 in a downward direction from the upper surface of the stopper holder 332 and a lock male thread 336 fastened to the lock female thread 335.

The stopper 331 is formed to have a predetermined length in the forward and backward directions and is connected to the stopper connection hole 333. The stopper 331 has a protruding length in the back surface direction of the stopper holder 332 by locking and unclamping action of the lock male screw 336 Can be adjusted. This is for precisely adjusting the distance of movement of the slide plate 340 in the front direction by adjusting the position of the stopper 331. The stopper connecting hole 333 is formed in a shape corresponding to the outer peripheral shape of the stopper 331.

Precisely adjusting the position of the stopper 331 in the forward and backward directions is for precisely adjusting the distance of movement of the slide plate 340 in the front direction, So that the connection pin block 210 can be correctly and vertically connected to the connector of the image sensor module ISM.

The slide plate 340 includes a cross roller B 343 coupled to the bottom surface and a holder 342 and four slide bearings 341 vertically arranged in the slide plate 340 do.

The cross roller B 343 is disposed on the left and right sides of the bottom surface of the slide plate 340 and is formed so as to face the left and right sides of the cross roller A 322 disposed on the upper surface of the main base 321. The cross roller B 343 and the cross roller A 322 prevent fine movement and fine positioning of the slide plate 340 when the slide plate 340 is moved forward and backward. This is so that the connection pin block 210 can be correctly and vertically connected to the connector of the image sensor module (ISM).

The upper surface of the holder 342 is engaged at the center of the bottom surface of the slide plate 340 and the bottom surface of the holder 342 is engaged with the front end of the slide rod 324a of the slide cylinder 324. The slide rod 324a moves in the forward and backward directions according to the operation of the slide cylinder 324 and the slide plate 340 coupled with the slide rod 324a through the holder 342 moves in the forward and backward directions .

The slide bearings 341 are disposed inside the slide plate 340 in such a manner as to penetrate the slide bearings 341 in the upward and downward directions. A guide shaft 351 of the up-down plate 350 is connected to the slide bearing 341. The slide bearing 341 works together with the guide shaft 351 to prevent the minute swing and position movement of the up-down plate 350 when the up-down plate 350 is moved up and down. This is so that the connection pin block 210 can be correctly and vertically connected to the connector of the image sensor module (ISM).

The up-down plate 350 has a plate shape of a predetermined thickness and includes four guide shafts 351 protruding vertically downward from the bottom surface and an up-down assembly coupling groove 352 formed on the upper surface in the front direction. The bottom surface of the up-down plate 350 is engaged with the upper end of the up-download 324a so that the up-down plate 350 and the up-down cylinder 325 operate forward and backward simultaneously.

The guide shaft 351 is disposed at a position corresponding to the slide bearing 341 of the slide plate 340 in the vertical direction. Since the action of the guide shaft 351 has been described in conjunction with the action of the slide bearing 341, it will be omitted.

The back surface of the coupling plate 220 is engaged with the up-down assembly coupling groove 352. Accordingly, the coupling plate 220 coupled with the up-down plate 350 is also lifted and lowered according to the up-and-down movement of the up-down plate 350, thereby raising and lowering the entire up-down assembly.

The sensor unit 360 includes a magnet 363 and a magnet holder 364 disposed on one side of the left and right sides of the up-down plate 350 and a sensor rail 362 formed on one side of the magnet holder 364, (362), and a sensor (361) coupled to the sensor rail (362) at a predetermined position.

The sensor unit 360 is configured to check the up, down, up and down operations of the up-down plate 350.

7 is a front and backward operational view of the image sensor module socket according to the present invention. 5, 6, and 7, the forward and backward operations of the image sensor module socket according to the present invention will be described.

As shown, the slide plate 340, the up-down plate 350, and the up-down cylinder 325 move forward or backward according to the operation of the slide cylinder 324.

The up-down cylinder slide groove 311 and the up-down cylinder slide slot 323 are moved in the forward or backward directions of the slide plate 340, the up-down plate 350, and the up-down cylinder 325, And the cross roller A 322 and the cross roller B 343 prevent fine fluctuation and positional movement of the slide plate 340 and the up-down plate 350. [

In the forward or backward operation of the slide plate 340, the up-down plate 350, and the up-down cylinder 325, the slide cylinder 324 composed of the double acting type cylinder secures the durability and stability of the cylinder, Thereby improving the precision of the work.

The stopper unit 330 is moved in the forward and backward directions of the slide plate 340, the up-down plate 350 and the up-down cylinder 325 according to the forward and backward positional adjustments of the stopper 331, , The position of the up-down cylinder 325 can be adjusted very precisely, and this action allows the connecting pin block 210 to be connected exactly perpendicularly to the connector of the image sensor module ISM.

FIG. 8 is a view showing the operation of the image sensor module socket according to the present invention. 5, 6, and 8, the up and down operation of the image sensor module socket according to the present invention will be described.

Referring to the drawings, the up-down plate 350 and the up-down assembly 200 are raised or lowered according to the operation of the up-down cylinder 325.

The slide bearings 341 and the guide shafts 351 prevent the slight ups and downs of the up-down plate 350 and the up-down assembly from moving up or down the up-down plate 350, This action allows the connection pin block 210 to be correctly and vertically connected to the connector of the image sensor module ISM.

In the upward / downward movement of the up-down plate 350 and the up-down assembly 200, the up-down cylinder 325 composed of a double-acting cylinder ensures the durability and stability of the cylinder, .

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention as set forth in the following claims. Should belong to the scope of claims of the attached patent registration.

100: contact assembly 110: base block
120: bottom PCB 130: top block
140: Interface block 150: Floating plate
160: Vertical alignment pin 200: Up-down assembly
210: connection pin block 211: push block
212: Floating table 213: Socket body
214: bottom plate 220: engaging plate
230: Upper PCB 300: Drive Assembly
310: Base 311: Up-down cylinder slide groove
320: drive unit 321: main base
322: Cross roller A 323: Up-down cylinder slide slot
324: Slide cylinder 324a: Slide rod
325: Up-Down Cylinder 325a: Up Download
330: stopper unit 331: stopper
332: Stopper holder 333: Stopper connector
334: Groove groove 335: Locking female thread
336: Locking male thread 340: Slide plate
341: Slide bearing 342: Holder
343: Cross roller B 350: Up-down plate
351: guide shaft 352: up-down assembly engaging groove
360: sensor unit 361: sensor
362: sensor rail 363: magnet
364: Magnet Holder

Claims (2)

An up-down assembly 200 for connecting and disconnecting the image sensor module (ISM) up and down at an upper portion of the contact assembly 100; And a drive assembly 300 coupled to a rear surface of the up-down assembly 200 to move the up-down assembly 200 forward, backward, up, down,
The drive assembly 300 includes a plate-shaped base 310 formed at the lower end of the base 310 and a drive unit 330 configured to move up and down the slide plate 340 and move up and down the up- A stopper unit 330 arranged in a front direction of the drive unit 320 to adjust a forward position of the slide plate 340 and a stopper unit 330 formed in an upper direction of the drive unit 320, An up-down plate 350 formed on the upper side of the slide plate 340 and moving upward and downward; and an upper plate 350 disposed on one side of the left and right sides of the up-down plate 350 And a sensor unit (360) attached to sense the position of the slide plate (340) and the up-down plate (350)
The base 310 includes an up-down cylinder slide groove 311 formed in a plate shape having a predetermined thickness and formed to have a depth and an extent to which a lower end portion of the up-down cylinder 325 is connected, ,
The drive unit 320 includes a main base 321 in the form of a plate disposed on the upper surface of the base 310 and a double acting type main body 321 disposed on the upper surface of the main base 321 to reciprocate forward and backward A double acting up-down cylinder 325 which connects the lower end of the slide cylinder 324 and the slide rod 324a to the up-down cylinder slide groove 311 of the base 310 to move up and down the up-down plate 350, And a cross roller A 322 arranged on both left and right sides of the main base 321 to prevent play in forward and backward movement of the slide plate 340,
The main base 321 includes an up-down cylinder slide slot 323 formed in a predetermined length from the rear side end to the front side,
The stopper unit 330 includes a stopper 331 that contacts the front end of the slide plate 340 to stop the forward movement of the slide plate 340 and a stopper 331 that can adjust the position of the stopper 331 in forward and backward directions And the stopper holder 332 is formed to have a predetermined length in the forward and backward directions and the stopper holder 332 is formed to correspond to the outer circumferential shape of the stopper 331 A stopper connecting hole 333 to which the stopper is connected, a lock female screw 335 formed downward from the upper surface of the stopper holder 332 and a lock male screw 336 fastened to the lock female screw 335 Wherein the image sensor module socket comprises:
The method according to claim 1,
The up-down plate 350 includes four guide shafts 351 protruding vertically downward from the bottom surface to prevent the up-down plate 350 from being lifted up and down,
Down plate assembly coupling groove 352 formed on the upper surface in the front direction of the up-down plate 350 and to which the up-down assembly 200 is connected,
The slide plate 340 includes a holder 342 formed on the bottom surface and coupled to an end of the slide rod 324a and a holder 342 disposed on both sides of the bottom of the slide plate 340,
A cross roller B 343 for preventing a play in reciprocating motion and a guide shaft 351 of an up-down plate 350 disposed inside the slide plate 340 to move up and down the up- And four slide bearings (341) for preventing play.

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