CN213028369U - Manual focusing integrated device for testing mobile phone camera - Google Patents

Abstract

The utility model discloses a manual focusing integrated device for testing a mobile phone camera, which comprises a substrate, a camera limiting block, a needle die, a cover plate, a product floating press block, a floating press block spring, a focusing ring clamping block, a guide post and a focusing ring; the substrate is provided with a first groove and a second groove, the camera limiting block is positioned in the first groove and fixed, and the needle die is positioned in the second groove of the substrate and fixed; a camera limiting groove is formed in the camera limiting block; the cover plate is positioned above the substrate, a limiting block guide groove is formed in the cover plate, and a first longitudinal through hole is formed in the bottom of the limiting block guide groove in the cover plate; the cover plate is connected with the focusing ring clamping block through screws; the focusing ring clamping block is sleeved outside the focusing ring; the product floating pressing block is positioned between the cover plate and the second step of the focusing ring, and the floating pressing block spring is clamped between the second step of the focusing ring and the product floating pressing block. The utility model discloses can prevent the damage of focusing ring effectively, save staff's operation action and tool use cost.

Description

Manual focusing integrated device for testing mobile phone camera

Technical Field

The utility model belongs to the technical field of camera test fixture, concretely relates to manual focusing of cell-phone camera test is integrative device.

Background

With the rapid development of the manufacturing industry, the manpower requirement and the labor cost of the mobile phone camera module production enterprises also become the difficult points of the enterprises. The introduction of the automatic auxiliary treatment tool is the most important index for solving the difficulty, and directly determines the efficiency, yield, labor cost and labor saving of the production process.

At present, in the process of testing focusing of a mobile phone camera, two different types of jigs are respectively used for testing and focusing. In the production process, the focusing ring is taken at high frequency, redundant operation actions can be generated, and meanwhile, petal damage of the focusing ring is easily caused.

Therefore, there is a need to develop a manual focusing integrated device for testing a mobile phone camera.

Disclosure of Invention

The utility model aims at providing an integrative device of manual focusing of cell-phone camera test, with manual focusing ring and test mechanism design as an organic whole tool, can prevent the damage of focusing ring effectively, save staff's operation action and tool use cost.

The utility model discloses a manual focusing integrated device for testing a mobile phone camera, which comprises a substrate, a camera limiting block, a needle die, a cover plate, a product floating press block, a floating press block spring, a focusing ring clamping block, a guide post and a focusing ring;

the camera limiting block is positioned in the first groove and fixed through screws, and the needle die is positioned in the second groove of the substrate and fixed through screws;

a camera limiting groove for mounting a camera is formed in the camera limiting block;

the cover plate is positioned above the substrate, a position of the cover plate corresponding to the first groove is provided with a limiting block guide groove, and the bottom of the limiting block guide groove of the cover plate is provided with a first longitudinal through hole;

the cover plate is connected with the focusing ring clamping block through screws;

the focusing ring clamping block is sleeved outside the focusing ring, the focusing ring can rotate around the central axis of the focusing ring relative to the focusing ring clamping block, and the focusing ring can float in the up-down direction relative to the focusing ring clamping block;

a first step and a second step are arranged on the periphery of the focusing ring, and the first step is positioned on the upper side of the second step; a third step which is correspondingly matched with the first step is arranged on the inner wall of the focusing ring clamping block, and the third step is positioned above the first step;

the product floating pressing block is positioned between the cover plate and the second step of the focusing ring, and can float in the vertical direction relative to the cover plate; a second longitudinal through hole is formed in the product floating press block, the lower end of the focusing ring can extend into the second longitudinal through hole and contact with the camera by pressing the focusing ring downwards, and the focus of the camera can be adjusted by rotating the focusing ring;

and the floating press block spring is clamped between the second step of the focusing ring and the product floating press block.

Furthermore, guide blind holes are formed in the top surfaces of the clamping blocks of the focusing rings, and guide sliding chutes are formed in the positions, corresponding to the guide blind holes, of the bottom surfaces of the focusing rings; the lower end of the guide post is positioned in the guide blind hole, and the upper end of the guide post is positioned in the corresponding guide sliding groove.

Furthermore, the focusing ring clamping block is formed by splicing two sub-clamping blocks with arc grooves; each sub-clamping block is provided with a guide blind hole.

Further, the rear side of the cover plate is rotatably connected with the rear side of the base plate.

The front side of the cover plate is provided with a first shaft seat, the lock catch pressing block is installed on the first shaft seat of the cover plate through the lock catch rotating shaft, a hooking part is integrally arranged at the bottom of the lock catch pressing block, a second shaft seat is arranged at the front side of the base plate, the clamping shaft is installed on the second shaft seat of the base plate, and when the cover plate is closed, the hooking part of the lock catch pressing block can be hooked on the clamping shaft.

Furthermore, the front end part of the cover plate is provided with a spring mounting blind hole at a position corresponding to the lock catch pressing block, a lock catch spring is arranged in the spring mounting blind hole, and the lock catch spring is clamped between the cover plate and the lock catch pressing block.

Furthermore, the rear side of the base plate is provided with a third shaft seat, the rear side of the cover plate is provided with a connecting part, and the third shaft seat is connected with the connecting part through a cover plate rotating shaft.

Further, still include two spacing snap rings of chucking axle, first snap ring groove has all been seted up at the both ends of chucking axle, two the spacing snap ring of chucking axle is installed respectively in two first snap ring inslots.

Further, still include hasp rotation axis snap ring, the second snap ring groove has all been seted up at the both ends of hasp rotation axis, two hasp rotation axis snap ring is installed respectively in two second snap ring grooves.

Further, still include apron rotation axis snap ring, the third snap ring groove has all been seted up at the both ends of apron rotation axis, two apron rotation axis snap ring is installed respectively in two third snap ring grooves.

The utility model has the advantages of it is following: the manual focusing ring and the testing mechanism are designed into a whole, so that the damage of the focusing ring can be effectively prevented, the operation action of workers and the use cost of the jig are saved, and the rejection rate of the jig is greatly reduced.

Drawings

FIG. 1 is a schematic diagram illustrating the connection of a substrate, a locking block, a product limiting block, and a needle mold in this embodiment;

FIG. 2 is a schematic diagram illustrating the cooperative connection of the camera head, the product floating press block, the focusing ring clamping block and the focusing ring in this embodiment;

FIG. 3 is an explanatory diagram of the present embodiment;

FIG. 4 is a cross-sectional view of FIG. 2;

in the figure: 1-base plate, 1 a-second shaft seat, 1 b-second groove, 1 c-first groove, 1 d-third shaft seat, 2-clamping shaft, 2 a-first clamping ring groove, 3-clamping shaft limiting clamping ring, 4-cover plate rotating shaft, 4 a-third clamping ring groove, 5-cover plate rotating shaft clamping ring, 6-product limiting block, 6 a-camera limiting groove, 7-needle mold, 8-camera, 9-locking rotating shaft, 9 a-second clamping ring groove, 10-locking rotating shaft clamping ring, 11-cover plate, 11 a-first shaft seat, 11 b-spring mounting blind hole, 11 c-first longitudinal through hole, 11 d-limiting block guide groove, 11 e-connecting part, 12-locking spring, 13-product floating pressing block, 13 a-a second longitudinal through hole, 14-a lock catch press block, 14 a-a hooking part, 15-a floating press block spring, 16-a focusing ring clamping block, 16 a-a third step, 16 b-a guide blind hole, 16 c-a sub-clamping block, 17-a guide post, 18-a focusing ring, 18 a-a first step, 18 b-a second step and 18 c-a guide sliding groove.

Detailed Description

The following detailed description of the present embodiments is made with reference to the accompanying drawings.

As shown in fig. 1 to 4, in this embodiment, the manual focusing integrated device for testing a mobile phone camera includes a substrate 1, a camera limiting block 6, a needle mold 7, a cover plate 11, a product floating pressing block 13, a floating pressing block spring 15, a focusing ring clamping block 16, a guide post 17, and a focusing ring 18. The camera module is characterized in that a first groove 1c and a second groove 1b are formed in the substrate 1, the camera limiting block 6 is located in the first groove 1c and fixed through screws, and the needle die 7 is located in the second groove 1b of the substrate 1 and fixed through screws. A camera limiting groove 6a for installing a camera 8 is formed in the camera limiting block 6. The cover plate 11 is located above the substrate 1, a position of the cover plate 11 corresponding to the first groove 1c is provided with a limiting block guide groove 11d, and the bottom of the cover plate 11 at the limiting block guide groove 11d is provided with a first longitudinal through hole 11 c. The cover plate 11 is connected with the focusing ring clamping block 16 through screws; the focusing ring clamping block 16 is sleeved outside the focusing ring 18, the focusing ring 18 can rotate around the central axis of the focusing ring 18 relative to the focusing ring clamping block 16, and the focusing ring 18 can float in the up-down direction relative to the focusing ring clamping block 16. A first step 18a and a second step 18b are arranged on the periphery of the focusing ring 18, and the first step 18a is positioned on the upper side of the second step 18 b; and a third step 16a correspondingly matched with the first step 18a is arranged on the inner wall of the focusing ring clamping block 16, and the third step 16a is positioned above the first step 18 a. The product floating pressing block 13 is positioned between the cover plate 11 and the second step 18b of the focusing ring 18, and the product floating pressing block 13 can float in the up-down direction relative to the cover plate 11; and a second longitudinal through hole 13a is formed in the product floating pressure block 13, the lower end of the focusing ring 18 can extend into the second longitudinal through hole 13a and contact with the camera by pressing the focusing ring 18 downwards, and the focal length of the camera 8 can be adjusted by rotating the focusing ring 18. The floating press block spring 15 is clamped between the second step 18b of the focusing ring 18 and the product floating press block 13.

As shown in fig. 4, in this embodiment, the top surfaces of the focusing ring clamping blocks 16 are all provided with blind guiding holes 16b, and the bottom surface of the focusing ring 18 is provided with sliding guiding grooves 18c at positions corresponding to the blind guiding holes 16 b; the lower end of the guide post 17 is positioned in the blind guide hole 16b, and the upper end of the guide post 17 is positioned in the corresponding guide sliding groove 18 c.

As shown in fig. 3, in this embodiment, for the convenience of installation, the focusing ring clamping block 16 is formed by splicing two sub-clamping blocks 16c with arc grooves; each sub-clamping block 16c is provided with a blind guide hole 16 b.

As shown in fig. 3, in the present embodiment, the rear side of the cover plate 11 is rotatably connected to the rear side of the base plate 1.

As shown in fig. 3, in this embodiment, the manual focusing integrated device for testing a mobile phone camera further includes a lock catch press block 14, a lock catch rotating shaft 9, and a fastening shaft 2, wherein a first shaft seat 11a is disposed on the front side of the cover plate 11, the lock catch press block 14 is mounted on the first shaft seat 11a of the cover plate 11 through the lock catch rotating shaft 9, a hooking portion 14a is integrally disposed at the bottom of the lock catch press block 14, a second shaft seat 1a is disposed on the front side of the substrate 1, the fastening shaft 2 is mounted on the second shaft seat 1a of the substrate 1, and when the cover plate 11 is closed, the hooking portion 14a of the lock catch press block 14 can be hooked on the fastening shaft 2.

As shown in fig. 3, in the present embodiment, a blind spring installation hole 11b is formed at a position corresponding to the lock pressing block 14 at the front end of the cover plate 11, a lock spring 12 is arranged in the blind spring installation hole 11b, and the lock spring 12 is sandwiched between the cover plate 11 and the lock pressing block 14.

As shown in fig. 3, in the present embodiment, a third shaft seat 1d is disposed on the rear side of the base plate 1, a connecting portion 11e is disposed on the rear side of the cover plate 11, and the third shaft seat 1d and the connecting portion 11e are connected by a cover plate rotating shaft 4.

As shown in fig. 3, in this embodiment, the manual focusing integrated device for testing a mobile phone camera further includes two clamping shaft limiting snap rings 3, first clamping ring grooves 2a are formed at two ends of each clamping shaft 2, and the two clamping shaft limiting snap rings 3 are respectively installed in the two first clamping ring grooves 2 a.

As shown in fig. 3, in this embodiment, the manual focusing integrated device for testing a mobile phone camera further includes a locking rotary shaft snap ring 10, second snap ring grooves 9a are formed at both ends of the locking rotary shaft 9, and the two locking rotary shaft snap rings 10 are respectively installed in the two second snap ring grooves 9 a.

As shown in fig. 3, in this embodiment, the manual focusing integrated device for testing a mobile phone camera further includes a cover plate rotating shaft snap ring 5, third snap ring grooves 4a are formed at two ends of the cover plate rotating shaft 4, and the two cover plate rotating shaft snap rings 5 are respectively installed in the two third snap ring grooves 4 a.

In this embodiment, the pin die 7 is used to electrically connect the camera with the test equipment.

When the camera cover is used, the camera 8 is installed in the camera limiting groove 6a, and the cover plate 11 is closed. When the camera needs to focus, the focusing ring 18 is pressed downwards, the lower end of the focusing ring 18 is contacted with the camera 8, and then the focusing ring 18 is rotated to adjust the focus of the camera. And releasing the focusing ring 18, and under the action of the spring thrust of the floating press block spring 15, separating the focusing ring 18 from the camera 8, so that the camera can be normally tested.

In the embodiment, the manual focusing ring and the testing mechanism are designed into a whole, so that the damage of the focusing ring can be effectively prevented, the operation action of workers and the use cost of the jig are saved, and the rejection rate of the jig is greatly reduced.

Claims (10)

1. The utility model provides an integrative device of manual focusing of cell-phone camera test which characterized in that: the device comprises a substrate (1), a camera limiting block (6), a needle die (7), a cover plate (11), a product floating pressing block (13), a floating pressing block spring (15), a focusing ring clamping block (16), a guide post (17) and a focusing ring (18);

a first groove (1 c) and a second groove (1 b) are formed in the substrate (1), the camera limiting block (6) is located in the first groove (1 c) and fixed through screws, and the needle die (7) is located in the second groove (1 b) of the substrate (1) and fixed through screws;

a camera limiting groove (6 a) for mounting a camera (8) is formed in the camera limiting block (6);

the cover plate (11) is positioned above the substrate (1), a position of the cover plate (11) corresponding to the first groove (1 c) is provided with a limiting block guide groove (11 d), and the bottom of the limiting block guide groove (11 d) of the cover plate (11) is provided with a first longitudinal through hole (11 c);

the cover plate (11) is connected with the focusing ring clamping block (16) through screws;

the focusing ring clamping block (16) is sleeved outside the focusing ring (18), the focusing ring (18) can rotate around the central axis of the focusing ring (18) relative to the focusing ring clamping block (16), and the focusing ring (18) can float in the up-down direction relative to the focusing ring clamping block (16);

a first step (18 a) and a second step (18 b) are arranged on the periphery of the focusing ring (18), and the first step (18 a) is positioned on the upper side of the second step (18 b); a third step (16 a) correspondingly matched with the first step (18 a) is arranged on the inner wall of the focusing ring clamping block (16), and the third step (16 a) is positioned above the first step (18 a);

the product floating pressing block (13) is positioned between the cover plate (11) and the second step (18 b) of the focusing ring (18), and the product floating pressing block (13) can float in the vertical direction relative to the cover plate (11); a second longitudinal through hole (13 a) is formed in the product floating pressing block (13), the lower end of the focusing ring (18) can extend into the second longitudinal through hole (13 a) and contact with the camera by pressing the focusing ring (18) downwards, and the focal length of the camera (8) can be adjusted by rotating the focusing ring (18);

the floating press block spring (15) is clamped between a second step (18 b) of the focusing ring (18) and the product floating press block (13).

2. The manual focusing integrated device for the mobile phone camera test according to claim 1, wherein: guide blind holes (16 b) are formed in the top surfaces of the focusing ring clamping blocks (16), and guide sliding grooves (18 c) are formed in the positions, corresponding to the guide blind holes (16 b), of the bottom surfaces of the focusing rings (18); the lower end of the guide post (17) is positioned in the guide blind hole (16 b), and the upper end of the guide post (17) is positioned in the corresponding guide sliding groove (18 c).

3. The mobile phone camera test manual focusing integrated device according to claim 1 or 2, characterized in that: the focusing ring clamping block (16) is formed by splicing two sub-clamping blocks (16 c) with arc grooves; each sub-clamping block is provided with a guide blind hole (16 b).

4. The manual focusing integrated device for the mobile phone camera test according to claim 3, wherein: the rear side of the cover plate (11) is rotatably connected with the rear side of the base plate (1).

5. The mobile phone camera test manual focusing integrated device according to claim 4, wherein: still include hasp briquetting (14), hasp rotation axis (9) and chucking axle (2), the front side of apron (11) is equipped with first axle bed (11 a), install on first axle bed (11 a) of apron (11) through hasp rotation axis (9) hasp briquetting (14), the bottom an organic whole of hasp briquetting (14) is equipped with colludes portion (14 a), the front side of base plate (1) is equipped with second axle bed (1 a), install chucking axle (2) on second axle bed (1 a) of base plate (1) when apron (11) are closed, colluding portion (14 a) of colluding of hasp briquetting (14) can collude on chucking axle (2).

6. The manual focusing integrated device for the mobile phone camera test according to claim 5, wherein: the front end part of the cover plate (11) is provided with a spring mounting blind hole (11 b) at a position corresponding to the lock catch pressing block (14), a lock catch spring (12) is arranged in the spring mounting blind hole (11 b), and the lock catch spring (12) is clamped between the cover plate (11) and the lock catch pressing block (14).

7. The mobile phone camera test manual focusing integrated device according to claim 5 or 6, wherein: the rear side of the base plate (1) is provided with a third shaft seat (1 d), the rear side of the cover plate (11) is provided with a connecting part (11 e), and the third shaft seat (1 d) is connected with the connecting part (11 e) through a cover plate rotating shaft (4).

8. The mobile phone camera test manual focusing integrated device according to claim 7, wherein: still include two spacing snap rings of chucking axle (3), first snap ring groove (2 a), two have all been seted up at the both ends of chucking axle (2) the spacing snap ring of chucking axle (3) are installed respectively in two first snap ring grooves (2 a).

9. The mobile phone camera test manual focusing integrated device according to claim 8, wherein: still include hasp rotation axis snap ring (10), second snap ring groove (9 a), two have all been seted up at the both ends of hasp rotation axis (9) hasp rotation axis snap ring (10) are installed respectively in two second snap ring grooves (9 a).

10. The mobile phone camera test manual focusing integrated device according to claim 8 or 9, wherein: still including apron rotation axis snap ring (5), third snap ring groove (4 a), two have all been seted up at the both ends of apron rotation axis (4) apron rotation axis snap ring (5) are installed respectively in two third snap ring grooves (4 a).

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