CN106873303B

CN106873303B - Camera module burning equipment

Info

Publication number: CN106873303B
Application number: CN201710212562.6A
Authority: CN
Inventors: 钟汉龙; 李书毅; 徐翼; 李久林; 雷茜
Original assignee: Shenzhen Yanqianli Technology Co ltd
Current assignee: Shenzhen Yanqianli Technology Co ltd
Priority date: 2017-04-01
Filing date: 2017-04-01
Publication date: 2022-05-31
Anticipated expiration: 2037-04-01
Also published as: CN106873303A

Abstract

The invention discloses camera module burning equipment which comprises a rack and a burning mechanism arranged on the rack, wherein the burning mechanism comprises an operating workbench and a scene simulation mechanism arranged in front of the operating workbench, the operating workbench is provided with a plurality of test positions for placing camera modules, each test position is provided with a test box, and the camera modules face the scene simulation mechanism; after the technical scheme is adopted, the operation workbench and the scene simulation mechanism are combined with each other, so that PDAF burning and other operations are completed, the product manufacturing period is shortened, and the product consistency and the aspects are improved; in addition, the operation workbench is provided with a plurality of test positions, so that one person can complete the work of a plurality of persons, the participation of the persons is reduced, the labor intensity of the persons is reduced, and the waste of labor cost is efficiently saved.

Description

Camera module burning equipment

Technical Field

The invention belongs to the technical field of camera module manufacturing equipment, and particularly relates to camera module burning equipment.

Background

Along with the improvement of consumption level, the consumption demands on the mobile phone camera module are higher and higher, the requirements on the resolution of picture definition are high, the focusing speed of the PDAF phase focusing is quite high, and the focusing efficiency is high, so that the PDAF phase focusing is applied to the smart phone, and therefore, the PDAF test burning hardware environment of the mobile phone camera module is necessarily improved, the purposes of saving manpower and machine cost, greatly shortening the product manufacturing period and improving the consistency of the camera module and the performances of all aspects are achieved.

Disclosure of Invention

In view of this, the present invention provides a camera module burning device, which includes a frame and a burning mechanism installed on the frame, wherein the burning mechanism includes an operating table and a scene simulation mechanism disposed in front of the operating table, the operating table is provided with a plurality of test sites for placing camera modules, each test site is provided with a test box, and the camera modules face the scene simulation mechanism.

After the technical scheme is adopted, the operation workbench and the scene simulation mechanism are combined with each other, so that PDAF burning and other operations are completed, the product manufacturing period is shortened, and the product consistency and the aspects are improved; in addition, the operation workbench is provided with a plurality of test positions, so that one person can complete the work of a plurality of persons, the participation of the persons is reduced, the labor intensity of the persons is reduced, and the waste of labor cost is efficiently saved.

Preferably, the scene simulation mechanism comprises a close-range mechanism, a middle-range mechanism, a distant-range mechanism, a white-field mechanism and a lens mechanism, and the close-range mechanism, the middle-range mechanism, the distant-range mechanism, the white-field mechanism and the lens mechanism are all arranged on the rack.

Preferably, the close-range mechanism includes a close-range light source, a close-range transverse moving mechanism and a close-range longitudinal moving mechanism, the close-range light source is connected with the close-range transverse moving mechanism through the close-range longitudinal moving mechanism, and the close-range transverse moving mechanism is mounted on the frame.

Preferably, the medium scene mechanism comprises a medium scene light source, a medium scene transverse moving mechanism and a medium scene longitudinal moving mechanism, the medium scene light source is connected with the medium scene transverse moving mechanism through the medium scene longitudinal moving mechanism, and the medium scene transverse moving mechanism is installed on the rack.

Preferably, the distant view mechanism comprises a distant view moving mechanism and a distant view light source, and the distant view light source is mounted on the frame through the distant view moving mechanism.

Preferably, the device also comprises a base, wherein a sliding track group is arranged on the base, the white field mechanism and the lens mechanism are arranged on the sliding track group, and the white field mechanism and the lens mechanism move independently.

Preferably, the white field mechanism comprises a white field light source, a suction nozzle and a driving cylinder, wherein the white field light source, the suction nozzle and the driving cylinder are mounted on the white field mechanism, and the suction nozzle is mounted on the white field mechanism in a telescopic and movable manner through the driving cylinder.

Preferably, the lens mechanism is provided with distance increasing mirrors, and the number of the distance increasing mirrors is the same as that of the test positions.

Preferably, the operation workbench comprises a displacement platform and a turnover platform, the turnover platform is installed on the rack through the displacement platform, and the test position is arranged on the turnover platform.

Preferably, the system further comprises a controller, wherein the controller is installed on the rack, and the controller is electrically connected with the operating workbench, the close-range mechanism, the middle-range mechanism, the long-range mechanism, the white field mechanism and the lens mechanism.

Drawings

Fig. 1 is a schematic structural diagram of a camera module burning apparatus according to a preferred embodiment of the present invention.

Fig. 2 is a schematic view of a partial structure of the camera module burning device of the present invention.

FIG. 3 is a schematic diagram of a recording mechanism according to the present invention.

FIG. 4 is an exploded view of the work bench of the present invention.

FIG. 5 is an exploded view of the scene simulation mechanism of the present invention.

FIG. 6 is an exploded view of the displacement platform of the present invention.

Fig. 7 is an exploded view of the flipping platform of the present invention.

Fig. 8 is an exploded view of the close-range mechanism of the present invention.

FIG. 9 is an exploded view of the middle view mechanism of the present invention.

FIG. 10 is an exploded view of the perspective mechanism of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 10, the camera module burning device provided by the embodiment of the present invention includes a frame 10, a burning mechanism 20 and a controller 30, wherein the burning mechanism 20 and the controller 30 are both mounted on the frame 10, the frame 10 is formed by splicing heavy aluminum profiles, a cover plate 14 is disposed outside the frame 10, the cover plate 14 is detachably connected to the frame 10, the inner side of the cover plate 14 is processed by a blackening matte mode, and the outer side of the cover plate 14 is beige, so that the device has the advantages of effectively reducing the weight of the device, saving the processing cost of the device, improving the practical function of the device, improving the appearance of the device, attracting the purchasing desire of users, and further improving the competitiveness of the device in the market.

Referring to fig. 1 to 10, an indicator light 11, a movable door 12, a roller 14 and a horizontal adjusting foot 15 are further disposed on the rack 10, the indicator light 11 is mounted on the top of the rack 10, and the indicator light 11 is connected to the controller 30, so that an operator can determine a working state of the device directly through the indicator light 30, the movable door 12 is mounted on the front side of the upper portion of the rack 10, so that the operator can pick and place the camera module, and meanwhile, the number of times of opening other cover plates 14 is reduced, thereby improving the production efficiency of the device.

Referring to fig. 1-10, the rollers 14 and the horizontal adjusting legs 15 are both mounted at the bottom of the frame 10, so as to further improve the shock resistance and stability of the equipment, facilitate the placement of the equipment by the operators through the rollers 14, and effectively improve the comprehensive performance of the equipment.

Referring to fig. 1-10, in the present embodiment, an anti-static ion blower (not shown) is further disposed on the rack 10, so as to effectively eliminate static electricity inside the device, thereby improving the burning precision of the device.

Referring to fig. 1-10, the recording mechanism 20 includes an operating table 40 and a scene simulation mechanism 50, the scene simulation mechanism 50 includes a close-range mechanism 80, a middle-range mechanism 90, a distant-range mechanism 100, a white-field mechanism 110, a lens mechanism 120 and a base 130, the close-range mechanism 80 is disposed on the left side of the front of the operating table 40, the middle-range mechanism 90 is disposed on the right side of the front of the operating table 40, the distant-range mechanism 100 is disposed in the front of the operating table 40, the white-field mechanism 110 and the lens mechanism 120 are both horizontally and freely movably mounted between the distant-range mechanism 100 and the operating table 40, the close-range mechanism 80, the middle-range mechanism 90, the distant-range mechanism 100, the white-field mechanism 110 and the lens mechanism 120 are all electrically connected to the controller 30, so that one-key operation can be implemented by the controller 30, thereby recording and performing various tests on the camera module, therefore, the output of labor cost is reduced, the processing efficiency of product production is improved, the manufacturing period of the product is shortened, and the consistency and the performances of all aspects of the product are improved.

Referring to fig. 1 to 10, the operating platform 40 includes a displacement platform 70 and a turning platform 60, the displacement platform 70 includes a supporting platform 71 and a supporting seat 77, the supporting platform 71 is mounted on the frame 10 through the supporting seat 77, the two sides of the supporting seat 77 are provided with the wire-routing drag chains 78, and the electric wires can enter the supporting platform 71 and the turning platform 60 through the wire-routing drag chains 78 on the two sides, so that the electric wires can be protected, the electric wires are prevented from being disordered to cause equipment failure, and the attractiveness of the equipment is improved.

Referring to fig. 1-10, the supporting platform 71 is provided with a driving motor 75, a pulley set 76, a screw assembly 74, a supporting platform slide rail 72 and a supporting platform slide block 73, the screw rod assembly 74 is in transmission connection with the driving motor 75 through the belt pulley set 76, and the driving motor 75 is installed between the supporting platform 71 and the supporting seat 77, so that the using space of the device is effectively saved, in this embodiment, the number of the support table slide rails 72 is two, the number of the support table sliders 73 is four, the turning platform 60 is coupled to the supporting platform 71 by the supporting platform slider 73 and the supporting platform slide 72, and the turning platform 60 is connected with the driving motor 75 through the screw rod assembly 74, after the technical scheme is adopted, not only the motion stability and the precision of the overturning platform 60 are improved, but also the disassembly and the maintenance of the equipment are convenient.

Referring to fig. 1 to 10, the turning platform 60 includes a fixed table 61, a rotating shaft 65 and an operating panel 62, the operating panel 62 is rotatably connected to the fixed table 61 through the rotating shaft 65, the rotating shaft 65 is driven by a motor, so that the operating panel 62 realizes a 90-degree rotation angle on the fixed table 61, and an operator can conveniently pick and place a camera module, the turning platform 60 is connected to the supporting table 71 through the fixed table 61, in this embodiment, the motor used on the turning platform 60 is a stepping motor with an encoder and is combined with a reducer, so that the rotation angle and displacement change of the operating panel 62 are ensured, and the processing stability of a product is further improved.

Referring to fig. 1-10, the operation panel 62 is provided with a plurality of test positions 68, each test position 68 is provided with a test box 66, a fixture 64, a gland plate 63 and a telescopic rotary cylinder 67, in this embodiment, the number of the test boxes 66, the fixtures 64, the gland plate 63 and the telescopic rotary cylinders 67 is four, the test boxes 66 and the fixtures 64 are respectively arranged at the rear and the front of the test position 68, the gland plate 63 is arranged on the test position 68 through the telescopic rotary cylinder 67, the position of the gland plate 63 corresponds to the position of the fixture 64, and when a camera module is placed into the fixture 64, the gland plate 63 fixes the camera module on the fixture 64 through the telescopic rotary cylinder 67; after the burning of camera module and the test finishes, gland plate 63 separates with camera module through flexible revolving cylinder 67 to the operating personnel of being convenient for takes out the camera module, carries out the burning of next a set of camera module and tests, thereby reaches the high-efficient purpose of using manpower sparingly cost, has realized alone quadruplex position, eight station or sixteen station operations, has improved the machining efficiency of product simultaneously.

Referring to fig. 1 to 10, a pressing block 69 is further disposed on the turning platform 60, the pressing block 69 is mounted on one side of the fixing table 61, a bearing (not shown in the drawing) is disposed between the pressing block 69 and the fixing table 61, and when an electric wire enters the wire-routing drag chain 78 from the rack 10, the electric wire passes through the pressing block 69 and then is electrically connected to the test box 66, so that damage to the electric wire when the operation panel 62 rotates can be avoided.

Referring to fig. 1-10, the close-range mechanism 80 includes a close-range light source 81, a close-range lateral moving mechanism 83 and a close-range longitudinal moving mechanism 82, the close-range lateral moving mechanism 83 includes a close-range driving motor 87, a close-range fixing base 88 and a close-range displacement platform 89, the close-range fixing base 88 is provided with a first guide rail assembly 882 and a first screw rod assembly 881, the number of the first guide rail assemblies 882 is two, the first guide rail assemblies 882 are installed on two sides of the first screw rod assembly 881, the close-range fixing base 88 is installed on the frame 10, the close-range displacement platform 89 is connected with the close-range fixing base 88 through the first guide rail assembly 882, the close-range driving motor 87 is installed on the close-range fixing base 88, the close-range displacement platform 89 is connected with the close-range driving motor 87 through the first screw rod assembly 881 in a transmission manner, the close-range longitudinal moving mechanism 82 is mounted on the close-range displacement platform 89, and the close-range light source 81 is fixed on the close-range longitudinal moving mechanism 82, so that the front and back positions of the close-range mechanism 80 and the test position 68 can be conveniently adjusted, and the best test effect of the device is realized.

Referring to fig. 1 to 10, the close-range longitudinal moving mechanism 82 includes a close-range longitudinal driving motor 84, a close-range longitudinal fixing table 85 and a second lead screw assembly 86, the second lead screw assembly 86 and the close-range longitudinal driving motor 84 are both disposed on the close-range longitudinal fixing table 85, the second lead screw assembly 86 is in transmission connection with the close-range longitudinal driving motor 84, and the close-range light source 81 is mounted on the second lead screw assembly 86, so as to adjust the up-down position of the close-range light source 81, and improve the flexibility and applicability of the apparatus.

Referring to fig. 1-10, the center view mechanism 90 includes a center view light source 91 for testing the shooting capability of the center view of the camera module, a center view transverse moving mechanism 93 and a center view longitudinal moving mechanism 92, the center view transverse moving mechanism 93 includes a center view driving motor 97, a center view fixing base 99 and a center view displacement platform 98, the center view fixing base 99 is provided with two second guide rail assemblies 991 and three lead screw assemblies 992, the second guide rail assemblies 991 are mounted on two sides of the third lead screw assembly 992, the center view fixing base 99 is mounted on the frame 10, the center view displacement platform 98 is connected with the center view fixing base 99 through the second guide rail assemblies 991, the center view driving motor 97 is mounted on the center view fixing base 99, the center view displacement platform 98 is in transmission connection with the center view driving motor 97 through the third lead screw assembly 992, the middle view longitudinal moving mechanism 92 is mounted on the middle view displacement platform 98, and the middle view light source 91 is fixed on the middle view longitudinal moving mechanism 92, so that the front and back positions of the close view mechanism 90 and the test position 68 can be conveniently adjusted, and the best test effect of the device is realized.

Referring to fig. 1-10, the middle view longitudinal moving mechanism 92 includes a middle view longitudinal driving motor 95, a middle view longitudinal fixing table 94 and a fourth screw assembly 96, the fourth screw assembly 96 and the middle view longitudinal driving motor 95 are both disposed on the middle view longitudinal fixing table 94, the fourth screw assembly 96 is in transmission connection with the middle view longitudinal driving motor 95, and the middle view light source 91 is mounted on the fourth screw assembly 96, so as to adjust the up-down position of the middle view light source 91, and improve the flexibility and applicability of the device.

Referring to fig. 1-10, in the present embodiment, the close-range driving motor 87 and the middle-range driving motor 97 are stepping motors, and the close-range longitudinal driving motor 84 and the middle-range longitudinal driving motor 95 are servo motors, so as to further improve the accuracy and stability of the apparatus.

Referring to fig. 1 to 10, the distant view mechanism 100 includes a distant view light source 101 and a distant view moving mechanism 102 for testing the distant view shooting capability of the camera module, the distant view moving mechanism 102 includes a distant view fixing platform 102, a distant view driving motor 103, a first belt pulley set 104, a fifth screw component 106 and a third guide rail component 105, the distant view driving motor 103, the first belt pulley set 104, the fifth screw component 106 and the third guide rail component 105 are all mounted on the distant view fixing platform 102, the fifth screw component 106 is in transmission connection with the distant view driving motor 103 through the first belt pulley set 104, the distant view light source 101 is in transmission connection with the first belt pulley set 104 through the fifth screw component 106, so that the distance between the distant view light source 101 and the test site 68 can be controlled by operating the distant view driving motor 103.

Referring to fig. 1-10, the white field mechanism 110 includes a white field light source 111 mounted on the white field mechanism, a suction nozzle 112 and a driving cylinder 113, wherein the suction nozzle 112 is mounted on the white field mechanism 110 in a telescopic manner through the driving cylinder 113; when the camera module shoots a white field light source, the suction nozzle 112 retracts into the white field mechanism 110; when the camera module shoots another scene test which needs the opposite white field light source, the suction nozzle 112 extends out of the white field mechanism 110, the camera is completely blocked, and then shooting is carried out, so that the number of parts of the equipment is reduced, and the design of the equipment is more compact.

Referring to fig. 1 to 10, the lens mechanism 120 is provided with distance increasing mirrors 121, the number of the distance increasing mirrors 121 is the same as that of the test sites 68, and the positions of the distance increasing mirrors 121 correspond to those of the test sites 68, so that the device realizes a long-distance test function at a limited distance, and the application range of the device is further improved.

Referring to fig. 1 to 10, in this embodiment, the base 130 is provided with two sets of sliding track groups 131, each set of sliding track group 131 includes a first belt pulley 132, a first slider 133, a traction block 134, a sliding rail 135, a second slider 136, a second belt pulley 137 and a belt 138, the second belt pulley 137 is connected to the motor, one end of the belt 138 is connected to one end of the traction block 134, the other end of the belt is connected to the other end of the traction block 134 after sequentially passing around the first belt pulley 132 and the second belt pulley 137, the sliding rail 135 is installed inside a ring surrounded by the belt 138, the first slider 133 and the second slider 136 are installed on the sliding rail 135, the white field mechanism 110 and the lens mechanism 120 are respectively installed on the two sets of sliding track groups 131, and the white field mechanism 110 and the lens mechanism 120 are respectively fixedly connected to the traction block 134 on each set, therefore, the white field mechanism 110 and the lens mechanism 120 are independent of each other, the movement does not interfere, the number of parts of the device is reduced again, and the whole structure of the device is more compact.

Referring to fig. 1-10, in the present embodiment, the controller 30 is electrically connected to the displacement platform 70, the turning platform 60, the close-range mechanism 80, the middle-range mechanism 90, the long-range mechanism 100, the white-field mechanism 110, and the lens mechanism 120, so as to facilitate one-key operation, that is, to control the camera module to move or turn over on the displacement platform 70 and the turning platform 60, the close-range mechanism 80, the middle-range mechanism 90, the long-range mechanism 100, the white-field mechanism 110, and the lens mechanism 120 combine with the testing requirements, to perform position adjustment, to implement automatic operation, and an operator does not need to pay attention to the recording and testing process, only needs to know the final result, thereby efficiently saving the waste of labor cost, shortening the product manufacturing cycle, and improving the consistency and performance of various aspects of the product.

Referring to fig. 1 to 10, in this embodiment, an operator may manually place the camera module in the test position 68 for operation, or may place the camera module in the test position 68 for operation through a manipulator, so as to implement a full-automatic function of the equipment, and further improve the processing efficiency of the product and the utilization rate of the equipment.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. The utility model provides a camera module burns record equipment, includes frame, controller and installs the burning record mechanism in the frame, its characterized in that: the burning mechanism comprises an operating workbench and a scene simulation mechanism arranged in front of the operating workbench, the operating workbench is provided with a plurality of test positions for placing the camera module, each test position is provided with a test box, the camera module faces the scene simulation mechanism, and the controller is installed on the rack;

the outer side of the frame is provided with a cover plate, the inner side of the cover plate is treated in a blackening matte mode, and the outer side of the cover plate is off-white; the scene simulation mechanism comprises a close-range mechanism, a middle-range mechanism, a long-range mechanism, a white-range mechanism and a lens mechanism, the close-range mechanism is arranged on the left side in front of the operating workbench, the middle-range mechanism is arranged on the right side in front of the operating workbench, the long-range mechanism is arranged in front of the operating workbench, the white-range mechanism and the lens mechanism can be transversely and freely movably arranged between the long-range mechanism and the operating workbench, the close-range mechanism, the middle-range mechanism, the long-range mechanism, the white-range mechanism and the lens mechanism are electrically connected with the controller;

the operating workbench comprises a displacement platform and an overturning platform, the displacement platform comprises a supporting table and a supporting seat, the supporting table is mounted on the rack through the supporting seat, wiring drag chains are arranged on two sides of the supporting seat, and wires can enter the supporting table and the overturning platform through the wiring drag chains on the two sides;

the supporting table is provided with a driving motor, a belt pulley group, a screw rod assembly, a supporting table slide rail and a supporting table slide block, the screw rod assembly is in transmission connection with the driving motor through the belt pulley group, and the driving motor is arranged between the supporting table and the supporting seat;

each test position is further provided with a jig, a gland plate and a telescopic rotary cylinder, the number of the test boxes, the number of the jigs, the number of the gland plates and the number of the telescopic rotary cylinders are four, the test boxes and the jigs are respectively arranged behind and in front of the test position, the gland plate is arranged on the test position through the telescopic rotary cylinder, and the position of the gland plate corresponds to the position of the jig;

the electric wire fixing device is characterized in that a pressing block is arranged on the overturning platform, the pressing block is arranged on one side of a fixing platform on the overturning platform, a bearing is arranged between the pressing block and the fixing platform, a plurality of pressing block through holes matched with the diameter of an electric wire are formed in the pressing block, and the electric wire is fixed on the pressing block through holes after the pressing block through holes penetrate through the pressing block through holes.

2. The camera module burning device of claim 1, wherein: the close shot mechanism comprises a close shot light source, a close shot transverse moving mechanism and a close shot longitudinal moving mechanism, the close shot light source is connected with the close shot transverse moving mechanism through the close shot longitudinal moving mechanism, and the close shot transverse moving mechanism is installed on the rack.

3. The camera module burning device of claim 1, wherein: the middle scene mechanism comprises a middle scene light source, a middle scene transverse moving mechanism and a middle scene longitudinal moving mechanism, the middle scene light source is connected with the middle scene transverse moving mechanism through the middle scene longitudinal moving mechanism, and the middle scene transverse moving mechanism is installed on the rack.

4. The camera module burning device as claimed in claim 2, wherein: the long shot mechanism comprises a long shot moving mechanism and a long shot light source, and the long shot light source is installed on the rack through the long shot moving mechanism.

5. The camera module burning device as claimed in claim 2, wherein: the white field mechanism and the lens mechanism are arranged on the sliding track group and move independently.

6. The camera module burning device as claimed in claim 5, wherein: the white field mechanism comprises a white field light source, a suction nozzle and a driving cylinder, wherein the white field light source, the suction nozzle and the driving cylinder are arranged on the white field mechanism, and the suction nozzle is arranged on the white field mechanism in a telescopic moving mode through the driving cylinder.

7. The camera module burning device of claim 5, wherein: and the lens mechanism is provided with distance increasing mirrors, and the number of the distance increasing mirrors is the same as that of the test positions.