KR101471024B1 - Spacer thickness measure device for camera lens - Google Patents

Abstract

The present invention relates to a device for measuring the thickness of a spacer for a camera lens, which is to improve the measuring reliability thereof by accurately measuring the thickness of a spacer. The device for measuring thickness is to measure the thickness of a spacer (S) for a camera lens with a fixed thickness. The device comprises: a seating plate (10) where a spacer (S) to be measured is seated; a space contact fixture (20) which measures the thickness of the spacer (S) seated on the seating plate (10) through a contact method; an elevating cylinder (40) which elevates the spacer contact fixture (20) up and down; and a bottom contact fixture (30) which elevates up and down with the spacer contact fixture (20) by the elevating cylinder (40), and is in contact with the bottom of the seating plate (10) during descending.

Description

SPACER THICKNESS MEASURE DEVICE FOR CAMERA LENS

The present invention relates to a spacer thickness measuring apparatus for a camera lens, and more particularly, to a spacer thickness measuring apparatus in which thickness measurement is performed by continuously supplying a spacer formed in a ring shape.

Currently, portable terminals such as mobile phones and PDAs are being used as multi-convergence not only with simple telephone functions but also with music, movies, TV, games and the like, along with the recent development of the technology. The camera module is the most representative.

Such a camera module is changing from a conventional 300,000 pixel (VGA) to a high pixel center of 8 million pixels.

Generally, a compact camera module (CCM: Compact Camera Module) is applied to various types of IT devices, and recently, a device having a small camera module is gradually increasing in accordance with the taste of a consumer. to be.

Such a camera module is manufactured using an image sensor such as a CCD or a CMOS as a main component, and a spacer for maintaining a precise spacing between a plurality of lenses is mounted as a main component.

In the meantime, such a spacer is subjected to a classification operation through thickness measurement in the production process. Conventionally, the thickness of the spacer produced is manually performed by the operator using the apparatus, thereby hindering the production efficiency.

In order to improve the above problem, in Patent Application No. 2012-77194, a technique of measuring the thickness of a spacer using a laser has been proposed.

However, in the above-mentioned prior art, a laser device having a light emitting portion and a light receiving portion is used, which is expensive and has a problem of low measurement reliability because measurement is performed by a non-contact method.

It is an object of the present invention to provide a thickness measuring apparatus capable of measuring the thickness of a spacer by a contact method and efficiently performing zero detection, And to improve it.

According to an aspect of the present invention, there is provided a thickness measuring apparatus for measuring a thickness of a spacer for a camera lens having a predetermined thickness, the apparatus comprising: a seating plate on which a spacer as a measurement object is seated; A spacer contact for performing a thickness measurement by a contact method on a spacer seated on the seating plate; A lifting cylinder for lifting and lowering the spacer contact in the vertical direction; And a bottom contact which is moved up and down together with the spacer contact by the lifting cylinder and is brought into contact with the bottom surface of the seating plate.

In the spacer thickness measuring device for a camera lens according to the present invention, the two contact holes are lowered at the same time to measure the contact type in which a step between the measurement object and the bottom surface is detected, so that the thickness of the spacer can be measured more accurately So that the measurement reliability of the apparatus can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view of a thickness measuring apparatus according to the present invention;
2 is a state view of the apparatus for measuring thickness according to the present invention.
3 is an enlarged view of part A of Fig.
4 is a planar structural view of the operating state of the spacer supply part in the present invention.
5 is an enlarged view of a main part of the spacer supply unit.
FIG. 6 is a planar structural view of an operation state of the spacer transferring portion in the present invention. FIG.
7 is an enlarged view of a main portion of the spacer transferring portion.
FIG. 8 is a schematic side view of the overall structure of a thickness measuring apparatus according to an embodiment of the present invention. FIG.
FIG. 9 is a schematic frontal structural view of an entire thickness measuring apparatus according to an example of the present invention. FIG.

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

1 to 3, a thickness measuring apparatus for measuring a thickness of a spacer S for a camera lens having a predetermined thickness, the thickness measuring apparatus according to an embodiment of the present invention, , A spacer contact (20) for carrying out a thickness measurement by a contact method between the spacer (S) seated on the seating plate (10), and a spacer contact A lifting cylinder 40 for lifting and lowering the sphere 20 in the up and down direction and a lifting and lowering drive mechanism for lifting and lowering the lifting and lowering drive together with the spacer contact 20 by the lifting cylinder 40, And a bottom contact hole (30) in which contact with the bottom surface is made.

Particularly, the bellows 21 and 31 capable of contracting are connected to the spacer contact 20 and the bottom contact 30, and the frictional force due to the contact with the spacer S is minimized at the lower end of the spacer contact 20 And a contact sensor 22 or 32 for detecting the bottom surface is provided at the lower end of the bottom contact hole 30 and the spacer contact hole 20.

Therefore, when the contact signal is transmitted to the spacer contact 20 and the bottom contact 30 together, the thickness of the spacer S can be measured by converting the height difference between the contact pieces 20, .

4 and 5, a guide plate 55 is formed at one side of the seating plate 10 in the present embodiment so that the spacer S to be measured can be guided, and the guide plate 55 A guide groove 56 is formed in the guide plate 55 so that the spacer S can be stably guided and a pushing supply port 50 for pushing the spacer S is formed at one side of the guide plate 55, The pushing supply port 50 is linearly reciprocated by a supply cylinder 51 connected through a push frame 57. The distal end of the pushing supply port 50 is provided with a spacer A support groove 52 is formed.

6 and 7, a conveying guide 60 for conveying the measured spacers S to the sorting unit 70 side is formed at the other side of the seating plate 10 of the present embodiment, The guide 60 is linearly reciprocated by a transfer cylinder 61 and a support groove 62 for stable support is formed at the tip of the transfer guide 60 during the discharge movement of the spacer S And an opening 63 is formed at one side to enable the introduction of the spacer S.

A guide hole 71 is formed in the vertical direction inside the selector discharge unit 70 for selectively discharging the transferred spacer S to the storage box 90 and a guide hole 71 for opening and closing the guide hole 71 72 can be opened and closed by the opening and closing cylinder 73. [

8, reference numeral 80 denotes a discharge guide for guiding the spacer S discharged through the selective discharge unit 70 to the individual storage box 90, and 81 denotes a guide groove.

Hereinafter, operation and effect of the apparatus for measuring a thickness of a spacer for a camera lens according to the present invention will be described.

The spacers S to be measured are sequentially supplied from the one side of the apparatus by the pushing supply port 50. The spacers S thus supplied are connected to the spacer contact 20 and the bottom contact 30 to be discharged to the side of the sorting discharge portion 70 by the operation of the conveyance guide 60 after the thickness measurement work is performed.

4, when the spacer S to be measured is positioned in the guide groove 56 of the guide plate 55, the pushing supply port 50 is moved forward by the operation of the supply cylinder 51 The spacer S is moved to the seating plate 10 to be measured while the spacer S is supported by the support groove 52.

In this state, when the lifting cylinder 40 of the present invention is driven to descend, the spacer contact 20 and the bottom contact 30 are simultaneously lowered, and the contact sensors 20, 22 and 32 are all in contact with each other, when the signal is sensed, the thickness difference of the spacer S is measured by converting the height difference between the contact pieces 20 and 30 in the controller (not shown). At this time, since the bellows 21 and 31 are provided on both the contact pieces 20 and 30, the first contact bellows 21 and 31 are contracted at the bellows 21 and 31, I will wait until.

6, when the conveying guide 61 is driven, the conveying guide 60 is linearly moved to transfer the measured spacers S to the sorting unit 70 side, The spacers S thus transferred fall through the discharge grooves 71 and are stored in the storage box 90, which is individually stored for each thickness through the discharge guide 80.

Since the spacer (S) sorting and discharging technology after the thickness measurement is not related to the features of the present invention, the detailed description and operation description related to the sorting and discharging technology will be omitted.

Therefore, the thickness measuring apparatus according to the present invention can measure the thickness of the spacer more accurately by measuring the contact type in which the two contact holes are simultaneously lowered to sense the step between the measurement object and the bottom surface, Can be improved.

Although specific embodiments of the present invention have been described and illustrated above, it is to be understood that the structure of the spacer thickness measuring apparatus of the present invention can be variously modified by those skilled in the art.

It should be understood, however, that such modified embodiments are not to be understood individually from the spirit and scope of the invention, and such modified embodiments are intended to be included within the scope of the appended claims.

10: seat plate 11: holding frame
20: spacer contact 21, 31: bellows
22, 32: contact sensor 23: cushion pad
30: bottom contact member 40: lifting cylinder
50: pushing supply port 51: supply cylinder
52: support groove 55: guide plate
56: guide groove 57: push frame
60: Feed guide 61: Feed cylinder
62: support groove 63:
70: Selective discharge portion 71: Discharge groove
80: Discharge guide 90: Storage box

Claims (5)

A thickness measuring apparatus for measuring a thickness of a spacer (S) for a camera lens having a predetermined thickness,
A guide plate 55 is formed so that the spacer S to be measured is placed on one side and the spacer S is guided on one side of the guide plate 55. The guide plate 55 is provided with a spacer S, A guide groove 56 is formed in the guide plate 55 and a pushing supply port 50 for pushing the spacer S is formed at one side of the guide plate 55. The pushing supply port 50 includes a push frame 57, And a support plate 50 having a support groove 52 for preventing the spacers S from being separated from the support plate 50 is formed at the tip end of the pushing supply port 50, Wow;
A spacer contact 20 for performing a thickness measurement by a contact method on a spacer S seated on the seating plate 10;
An elevating cylinder 40 for elevating and lowering the spacer contact 20 in a vertical direction;
A bottom contact hole 30 which is moved upward and downward together with the spacer contact 20 by the lifting cylinder 40 and is brought into contact with a bottom surface of the seating plate 10 at the time of descending;
Wherein the spacer thickness measuring device is configured to measure a thickness of the spacer for a camera lens. The method according to claim 1,
Wherein the spacer contact hole (20) and the bottom contact hole (30) are connected to bellows (21, 31) capable of contracting. The method according to claim 1 or 2,
A buffer pad 23 for minimizing a frictional force due to contact with the spacer S is formed at a lower end portion of the spacer contact hole 20 and a bottom portion of the spacer contact hole 20 and a bottom contact hole 30 And a contact sensor (22, 32) for sensing a surface of the spacer. delete The method according to claim 1,
A conveying guide 60 for conveying the measured spacers S is formed on the other side of the seating plate 10 and the conveying guide 60 is capable of linear reciprocating motion by the conveying cylinder 61 And a support groove 62 for stable support in the process of discharging the spacer S is formed at the distal end of the conveyance guide 60. An opening 63 ) Is formed on the surface of the spacer (12).

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