KR20170079704A

KR20170079704A - camera module jig locking device for SMT equipment

Info

Publication number: KR20170079704A
Application number: KR1020150190546A
Authority: KR
Inventors: 손정식; 강현규
Original assignee: 부원정밀 주식회사
Priority date: 2015-12-31
Filing date: 2015-12-31
Publication date: 2017-07-10

Abstract

The present invention
.
The camera module includes a frame for supplying a plurality of camera modules to the SMT equipment, the frame having a plurality of camera modules arranged in a row and a column in the frame, a camera module disposed at one side of the seat, A slide groove which is extended from one side edge of the seat portion and which is slidably engaged with the guide, and an elastic body which is disposed in the slide groove and presses the guide in the other corner direction, The camera module mounted on the seat part is always in contact with the other corner so as to be aligned with the other corner, and the camera module is pressed, fixed on the front, back, left, and right sides to prevent the camera module from being separated .

Description

Camera module jig for SMT equipment Jig locking device for SMT equipment

The present invention relates to a camera module jig for an SMT equipment, and more particularly, to a camera module jig for an SMT equipment for preventing a camera module fixed on a jig for supplying a surface mount operation to a SMT equipment, .

Recently, with advances in electronic technology and the development of new and various high-tech industries, more and more functional electronic products are being produced, while electronic products are becoming lighter, thinner and smaller than ever before.

The circuit board of various electronic products is further miniaturized and the electronic parts mounted on the circuit board are also miniaturized and have a high degree of integration so that it is difficult for a worker to manually solder small electronic components. However, surface mounting technology (SMT) And surface mount devices have been developed to achieve high quality with high productivity.

At the same time, a jig for arranging and bonding a plurality of circuit boards in a plurality of rows and columns through an adhesive, an adhesive tape or the like, and supplying them to the surface mounting apparatus has been developed, and higher productivity can be achieved.

On the other hand, when the adhesive strength is weak, there is a problem that the printed circuit board is lifted or released during the surface mounting operation, and it is difficult to separate the printed circuit board from the jig after the surface mounting is completed.

Accordingly, although a technique for more easily fixing a PCB such as a PCB cover for surface mounting and a jig unit including it has been developed in Korean Patent No. 10-1555228, there is a problem that it is difficult to assemble or detach the cover.

Korean Patent No. 10-1555228 "PCB cover for surface mounting and a jig unit including the cover"

SUMMARY OF THE INVENTION It is an object of the present invention to provide a camera module jig for an SMT apparatus for preventing a camera module from being lifted or released after the camera module is fixed to the jig.

Another object of the present invention is to provide a camera module jig for an SMT apparatus for simply fixing a camera module.

In order to achieve the above object, a camera module jig for an SMT equipment according to the present invention comprises a frame for supplying a plurality of camera modules to a seating part and supplying the camera module to the SMT equipment, a seating part arranged on the frame in a plurality of rows and columns, A slide groove disposed at one side edge of the seat portion and extending from one side edge of the seat portion, the slide groove being engaged with the slide, The camera module mounted on the seat part is always in contact with the other corner so as to be aligned with the other corner, and the camera module is attached to the front, back, left, right, and right sides of the camera module. And is pressurized and fixed on the opening face to prevent the escape.

Further, the guide has a contact surface contacting with the camera module in a "V" shape, one surface of the contact surface being in contact with the left side of the camera module and pressing in the right direction, and the other surface of the contact surface being in contact with the front side of the camera module And presses in the backward direction.

In addition, the guide has a contact surface for contacting the camera module in a "V" shape, and at the position where both contact surfaces of the "V" shape are in contact with each other, Is formed.

The guide may further include a first protrusion protruding downward from a contact surface contacting the camera module, wherein the first protrusion supports the lower end of the camera module so that the camera module can be stably fixed.

Further, the guide may further include a second protrusion protruding from the upper side of the contact surface contacting the camera module, the second protrusion being disposed at a position higher than the height of the camera module so as to cover the upper edge .

The guide may include a guide hole through which a guide pin for retracting the guide may be inserted so that the camera module may be seated therein. The frame may have a guide pin coupled to the guide hole, And a frame hole having a width equal to or greater than the width of the frame hole.

In addition, the guide is characterized in that a step is formed on the lower side central portion of the guide so as to be slidable regardless of the deformation of the frame hole formed on the lower side, and is separated from the frame.

Further, the guide is formed by protruding a pressure restricting end on both sides in the front direction in which the elastic body is disposed, and the pressure restricting end contacts the inner surface of the slide part formed on the frame, thereby limiting the movement distance of the guide .

As described above, according to the camera module jig for the SMT equipment according to the present invention, it is possible to prevent the camera module from being lifted or detached after the camera module is fixed to the jig.

In addition, according to the camera module jig for the SMT apparatus according to the present invention, the camera module can be easily fixed to the jig.

1 is a photograph of a camera module jig for an SMT equipment according to the present invention.
Fig. 2 or 3 shows one of a fixing part and a pressing part of a camera module jig for an SMT equipment according to the present invention. Fig.
4 is a view showing a pressing portion of a camera module jig for an SMT equipment according to the present invention.
5 or 6 is a sectional view showing a camera module jig for an SMT equipment according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a photograph of a camera module jig for an SMT equipment according to the present invention, and FIG. 2 or 3 is a view showing one of a fixing part and a pressing part of a camera module jig for an SMT equipment according to the present invention, 5 and 6 are sectional views showing a camera module jig for an SMT apparatus according to the present invention, and FIGS. 5 and 6 are sectional views showing a camera module jig for an SMT apparatus according to the present invention.

FIG. 1 is a photograph of a camera module jig for an SMT equipment according to the present invention. FIG. 1 shows a frame 1 for supplying a plurality of camera modules 10 to the SMT equipment, (2) arranged in a plurality of rows and columns and a camera module (10) disposed at one side edge of the seating part (2) and seated on each seating part (2) are pressed toward the other corner part A slide groove 4 extending from one side edge of the seating part 2 and coupled so that the guide 3 is slidably conveyed and a slide groove 4 disposed in the slide groove 4, The camera module 10 mounted on the mounting part 2 is always in contact with the other corner so as to align with the other corner, The camera module 10 is mounted on the front, rear, left, right four A fixed pressure in the face, and is configured to prevent departure.

More specifically, as shown in FIG. 2 or FIG. 3 showing 2A of FIG. 1, the guide 3 has a contact surface in contact with the camera module 10 in a "V & A hole 30 is formed at a position where both contact surfaces of the camera module 10 are in contact with each other to prevent the corner of the camera module 10 from being crushed by a pressing force.

It is also preferable that the avoidance holes 30b are formed at each corner of the seat portion formed in the frame 1 to prevent the corner of the camera module 10 from being crushed by the pressing force.

In order to prevent the overall height of the jig from increasing, it is preferable to use a torsion spring composed of an elastic coil part 5a having a height lower than that of the coil spring or the leaf spring and elastic supporting parts 5b on both sides .

The mounting portion 2 of the frame 1 may further include a third protrusion 33 protruding below the contact surface contacting the camera module 10, The camera module 10 is configured to support the lower end of the camera module 10 so that the camera module 10 can be stably fixed as shown in (2-II) of FIG.

The seating part 2 of the frame 1 may further include a fourth protrusion 34 protruding from the upper side of the contact surface in contact with the camera module 10, The camera module 10 is disposed at a position higher than the height of the camera module 10 so as to cover the upper edge of the camera module 10 such that the camera module 10 is not deviated upward.

The guide 3 is formed with a guide hole 41 through which a guide pin 40 for guiding or retracting the guide 3 is inserted so that the camera module 10 can be seated, The frame 1 is formed with a frame hole 44 (see FIG. 1) having a predetermined width for advancing or retracting the guide pin 40 coupled to the guide hole 41.

More specifically, the guide pin 40 is retracted by the movement of the guide pin 40 inserted in the guide hole 41, and the guide 3 is moved in the direction of the other corner portion (diagonal direction between the -X axis and the -Y axis) When the camera module 10 is retracted, a space for receiving the camera module 10 is provided on the seating part 2, and the camera module is seated on the seating part 2. [

When the guide pin 40 advances in one side edge direction (the diagonal direction between the X axis and the Y axis) or the engagement between the guide pin 40 and the guide 3 is released, The guide 3 advances in the direction of one corner (the diagonal direction between the X axis and the Y axis) as shown in (3-I) of FIG. 3 by the elastic body 5 located in the fixing part 2, The camera module 10 is pressed and fixed by the guide 3 which receives a pressing force by the elastic body 5 so that the camera module 10 is not released.

The guide 3 further includes a first protrusion 31 protruding downward from a contact surface contacting the camera module 10 and the first protrusion 31 is shown in (3-II) The lower end of the camera module 10 is supported so that the camera module 10 can be stably fixed as shown in FIG.

The guide 3 further includes a second protrusion 32 protruding from the upper side of the contact surface contacting the camera module 10 and the second protrusion 32 is positioned at a position higher than the height of the camera module 10 So that the upper edge of the camera module 10 is wrapped around the camera module 10 such that the camera module 10 is not detached upward.

Figure 4 shows the pushing portion of the camera module jig for the SMT equipment according to the present invention in which the contact surfaces 3A, 3B which are in contact with the camera module are formed in a "V" shape so that the contact surfaces 3A, 3B is pressed against the left side (the X-axis direction side) of the camera module 10 to the right side (the X axis direction) and the other side 3B of the contact surfaces 3A, (Y-axis direction) side of the base 10 (i.e., Y-axis direction).

4 or 5, an insertion groove 36 is formed on the front side of the guide 3 so that the elastic coil part 15a of the elastic body 5 is inserted into the insertion groove 36 at a predetermined depth So that the elastic body 5 is prevented from being released.

The guide 3 is formed by protruding a pressure restricting end 43 on both sides in the front direction where the elastic body 5 is disposed and the pressure restricting end 43 is inserted into the slide groove 4, the moving distance of the guide 3 is limited so that the guide 3 does not move forward.

7, protruding ends 35 are formed on both sides of the guide 3, and a side wall of the slide groove 4 formed in the frame is provided with a fastening groove 35 corresponding to the protruding end 35, The guide 3 is prevented from being detached from the slide groove 4 as the protrusion 37 of the guide 3 is formed and the protruding end 35 of the guide 3 is coupled to the engaging groove 37, .

The guide 3 is formed such that a step 4H is formed upward in the lower central portion of the guide 3 so as to be slidable regardless of the deformation of the frame hole 44 formed on the lower side so as to be separated from the frame 1 .

More specifically, every time the guide 3 is operated to secure a plurality of camera modules to the frame 1 and supply the SMT equipment to the SMT equipment, a guide pin 40 is inserted into the guide hole 41, 3).

As a result, the guide hole 41 may be damaged by friction with the guide pin 40 and a burr may be formed as in the case of the guide pin 40. If the operation failure of the guide 3 is prevented by the burr So that the center of the guide 3 in which the guide hole 41 is disposed has a predetermined height 4H.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art without departing from the scope of the present invention. The scope of the invention should therefore be construed in light of the claims set forth to cover many of such variations.

1: frame
2:
3: Guide
4: Slide groove
5: Elastomer
10: Camera module
30: Avoidance hole
31: First protrusion
32: second protrusion
33: third protrusion
34: fourth protrusion
35: protruding end
36: Insert groove
37: fastening groove
40: guide pin
41: Guide hole
43:
44: Frame hole

Claims

A frame for placing the plurality of camera modules on the seat portion and supplying the camera modules to the SMT equipment;
A seating part arranged in the frame in a plurality of rows and columns;
A guide disposed at one side edge of the seat portion for pressing and fixing a corner of the camera module which is seated in each seat portion;
A slide groove extending from one side edge of the seating portion and coupled to slide the guide;
And an elastic body disposed in the slide groove for pressing the guide in the other corner direction,
The guide is in close contact with the other corner so that the camera module seated on the seat is always aligned with the other edge, and the camera module is pressed and fixed on the front, back, left, To
Camera module jig for SMT equipment.

The method according to claim 1,
The guide has a contact surface in contact with the camera module in a "V" shape,
One surface of the contact surface contacts the left side of the camera module and presses in the right direction,
And the other surface of the contact surface is in contact with the front surface side of the camera module and presses in the back surface side direction.
Camera module jig for SMT equipment.

The method according to claim 1,
The guide has a contact surface in contact with the camera module in a "V" shape,
Characterized in that an escape hole is formed at a position where both the contact surfaces of the "V" shape contact with each other to prevent the corner of the camera module from being crushed by the pressing force
Camera module jig for SMT equipment.

The method according to claim 1,
Wherein the guide further comprises a first protrusion protruding below the contact surface in contact with the camera module,
And the first protrusion supports the lower end of the camera module so that the camera module can be stably fixed.
Camera module jig for SMT equipment.

The method according to claim 1,
The guide further includes a second protrusion protruding above the contact surface in contact with the camera module,
And the second protrusion is disposed at a position higher than the height of the camera module so as to cover the upper edge of the camera module so that the camera module is not detached.
Camera module jig for SMT equipment.

The method according to claim 1,
The guide
A guide hole is formed through which a guide pin for retracting the guide is inserted so that the camera module can be seated,
And a frame hole having a predetermined width is formed in the frame to advance or retract the guide pin coupled to the guide hole.
Camera module jig for SMT equipment.

The method according to claim 1,
Wherein the guide is spaced upward from the frame at a lower central portion of the guide so that the guide can be slidably conveyed regardless of the deformation of the frame hole formed on the lower side
Camera module jig for SMT equipment.

The method according to claim 1,
Wherein the guide is formed by protruding a pressure restricting end on both sides in the front direction in which the elastic body is disposed and the pressure restricting end is in contact with the inner surface of the slide part formed on the frame to limit the movement distance of the guide
Camera module jig for SMT equipment.