CN207408735U - A kind of detection device and camera module detection device - Google Patents

Abstract

A kind of detection device and camera module detection device, detection device is used to detect camera module, the camera module includes coil, the detection device includes carrying the Die and mould plate of the camera module, is arranged on the detection module of the Die and mould plate one side and is arranged between the Die and mould plate and the detection module and is used for the energization module to the coil power supply, and the detection module includes reflecting the reflecting optics of different optical signals and the signal receiver to receive the optical signal with the curent change in the coil.The utility model is efficient during the focusing performance of detection camera module, and accuracy rate is high.

Description

A kind of detection device and camera module detection device

Technical field

The utility model belongs to camera module detection device technical field more particularly to a kind of detection device and camera shooting Head mould group detection device.

Background technology

At present, it is necessary to performance detection is focused to camera module, to exclude in the process of manufacture of camera The camera that can not normally focus on.

What this test process was typically the clarity for the test image taken in by eye-observation camera to complete. That is, whether the focusing performance of camera meets the requirements, be worker by judge the clarity of the test image in display device come Determine that there is very big human factor.And due to observing same piece image long lasting for eye, worker is susceptible to head Bitterly, the symptoms such as nausea, fatiguability, so as to be easy to cause, detection efficiency is low, detects the problems such as error rate is high.

Utility model content

The purpose of this utility model is to provide a kind of detection devices, it is intended to solve in the detection process of camera module The problem of reducing manual work, improving detection efficiency and Detection accuracy.

The utility model is realized in this way a kind of detection device, for detecting camera module, the camera module Including coil, the detection device includes the Die and mould plate for carrying the camera module, the inspection for being arranged on the Die and mould plate one side It surveys module and is arranged between the Die and mould plate and the detection module and for the energization module to the coil power supply, institute Stating detection module includes reflecting the reflecting optics of different optical signals and with the curent change in the coil to receive State the signal receiver of optical signal.

Further, described Die and mould plate one end is fixed, and the plate face of the other end upward offers to place the camera The accommodating cavity of module；The Die and mould plate is towards offering the perforation accommodating cavity on the side of the energization module and for described logical Electric module is electrically connected the conductive trough of the camera module.

Further, the energization module include positioned at the Die and mould plate and it is described detection module between energization body with And the adsorption plate for adsorbing the reflecting optics；The adsorption plate is located at the top of the Die and mould plate and one end is slidably mounted on On the energization body, offered in the plate face of the other end for loophole of the optical signal by the adsorption plate.

Further, the loophole of the adsorption plate is located at the surface of the accommodating cavity of the Die and mould plate；Institute State the loophole of adsorption plate surrounding uniformly open up it is multiple for drawing the reflecting optics to the sucker of the adsorption plate, The sucker is located at plate face of the adsorption plate towards the Die and mould plate.

Further, the surrounding of the loophole of the adsorption plate is further opened with multiple pushing holes, and the pushing hole is passed through Lead to the adsorption plate both side surface and be both provided with pushing probe, multiple described one end for pushing probe are located at the reflecting optics Surrounding and in compressing the camera module in same level.

Further, the surrounding of the accommodating cavity of the Die and mould plate offers multiple location holes, the adsorption plate direction The surface of the Die and mould plate is additionally provided with the positioning pin being adapted with the location hole, and multiple positioning pins are located at the absorption The surrounding of the loophole of plate.

Further, the signal receiver of the detection module includes being arranged on the support of the energization body one side Portion and the receiving part on the support portion and to receive the optical signal, the receiving part are located at the loophole Surface.

Further, the energization module further includes the energization probe to the coil power supply of the camera module, Described energization probe one end is electrically connected the energization body, and the conductive trough of the other end through the Die and mould plate is electrically connected The coil of the camera module.

Further, the quantity of the probe is three, and one end that the probe is electrically connected the camera module is opened Equipped with multiple conductive feets.

Further, a kind of camera module detection device, including detection device as described above.

The utility model has the technical effect that compared with the prior art：Energization module is to the line of the camera module Circle is powered, and the reflecting optics being arranged on the coil generate different optical signals with the curent change of the coil, The signal receiver of detection module receives and analyzes the optical signal, so as to complete the focusing performance to the coil of camera module Detection.By the focusing performance of the detection camera module that is converted of photosignal, avoid using eye-observation image Detection method, detection process is efficient, and accuracy rate is high.

Description of the drawings

Fig. 1 is the structure diagram for the detection device that the utility model embodiment provides.

Fig. 2 is the partial exploded view at the A of the detection device of Fig. 1.

Fig. 3 is the Die and mould plate of the detection device of Fig. 2 structure diagram viewed from above.

Fig. 4 is the structure diagram that the adsorption plate of the detection device of Fig. 2 is seen from the bottom up.

Fig. 5 is the structure diagram of the energization probe of the detection device of Fig. 1.

Fig. 6 is the partial enlarged view at the B of Fig. 5.

Attached figure label relation corresponding with title is as follows：

Label	Title	Label	Title
				100	Detection device	10	Die and mould plate
20	Detect module	30	Energization module
				40	Camera module	11	Accommodating cavity
111	Conductive trough	112	Location hole
				21	Signal receiver	22	Reflecting optics
211	Support portion	212	Receiving part
				31	Energization body	32	Adsorption plate
35	Push probe	34	Positioning pin
				321	Loophole	322	Push hole
323	Sucker	33	Energization probe

Specific embodiment

The embodiment of the utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning Same or similar element is represented to same or similar label eventually or there is same or like element.Below by ginseng The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and it is not intended that the utility model Limitation.

In the description of the utility model, it is to be understood that term " thickness ", " on ", " under ", " vertical ", " parallel ", The orientation or station relation of the instructions such as " bottom ", " angle " are based on orientation shown in the drawings or station relation, are for only for ease of and retouch State the utility model and simplify description rather than instruction or imply signified device or element must have specific orientation, with Specific azimuth configuration and operation, therefore it is not intended that limitation to the utility model.

In the utility model, unless otherwise clearly defined and limited, the terms such as term " installation ", " connection " should be done extensively Reason and good sense solution, for example, it may be being fixedly connected or being detachably connected or integral；Can be mechanical connection, it can also It is electrical connection；Can be directly connected, can also be indirectly connected by intermediary, can be connection inside two elements or The interaction relationship of two elements.

It please refers to Fig.1 to Fig.3, a kind of detection device 100 that the utility model embodiment is provided, for detecting camera The focusing performance of module 40, the camera module 40 include coil (figure is not drawn).The detection device 100 is included described in carrying The Die and mould plate 10 of camera module 40, the detection module 20 for being arranged on 10 one side of Die and mould plate and it is arranged on the Die and mould plate The energization module 30 of the coil power supply between 10 and the detection module 20 and to the camera module 40；The detection Module 20 includes being arranged on the coil of the camera module 40 and reflecting difference with the curent change of the coil The reflecting optics 22 of optical signal (figure is not drawn) and the signal to receive the optical signal that the reflecting optics 23 are reflected Receiver 21.

Energization module 30 is powered to the coil of the camera module 40, the reflection being arranged on the coil Eyeglass 22 generates different optical signals with the curent change of the coil, and the signal receiver 21 of detection module 20 is received and divided The optical signal is analysed, so as to complete the detection of the focusing performance of the coil to camera module 40.Pass through the conversion of photosignal The focusing performance of the coil of camera module 40 is detected, avoids the detection method using eye-observation image, detection process Efficient, accuracy rate is high.

Further, described 10 one end of Die and mould plate is fixed, and the plate face of the other end upward offers to place the camera shooting The accommodating cavity 11 of head mould group 40.Specifically, 10 one end of Die and mould plate is fixed in rotating disk (figure is not drawn) in the present embodiment.It is described Die and mould plate 10 is towards offering the perforation accommodating cavity 11 on the side of the energization module 30 and for 30 electricity of energization module Property the connection camera module 40 conductive trough 111.By the conductive trough 111,30 energy of energization module and camera module 40 keep good electric connection.

Further, the energization module 30 includes the energization between the Die and mould plate 10 and the detection module 20 Body 31 further includes to adsorb the adsorption plate 32 of the reflecting optics 22.The adsorption plate 32 is located at the Die and mould plate 10 Top, the reflecting optics 22 are between the Die and mould plate 10 and the adsorption plate 32.It slides one end of the adsorption plate 32 On the energization body 31, offered in the plate face of the other end for light transmission of the optical signal by the adsorption plate 32 Hole 321.When needing detection, adsorption plate 32, which is connected to pushing instruction and adsorbs the slip of reflecting optics 22, presses to Die and mould plate 10, reflecting optics 22 are located on the coil of the camera module 40, and with the change of coil current, reflecting optics 22 reflect Different optical signals.When detecting completion, adsorption plate 32, which adsorbs the reflecting optics 22 and slides, to be risen, and is departed from described detected Camera module 40 waits the pushing of next detection process to instruct.

Further, the energization module 30 further includes the spy of the energization to the coil power supply of the camera module 40 Pin 33, described 33 one end of energization probe are electrically connected the energization body 31, and the other end is led through the described of the Die and mould plate 10 Electric slot 11 is electrically connected the coil of the camera module 40.The quantity of the energization probe 33 is three, described in three Energization probe 33 keeps good in electrical contact with camera module 40.

Please refer to Fig. 4 to Fig. 6, further, the quantity of the energization probe 33 is three, the energization probe 33 The one end for being electrically connected the camera module 40 offers multiple conductive feets 331.Specifically, the conductive feet of every probe 33 331 number is four, and conductive feet 331 can make probe 33 keep good in electrical contact with camera module 40.

Further, the loophole 321 of the adsorption plate 32 is located at the accommodating cavity 11 of the Die and mould plate 10 Surface；The surrounding of the loophole 321 of the adsorption plate 32 uniformly open up it is multiple for draw the reflecting optics 22 to The sucker 323 of the adsorption plate 32, the sucker 323 are opened in the adsorption plate 32 towards the plate face of the Die and mould plate 10.Institute Stating the pressure difference generated in sucker 323 can be such that reflecting optics 22 accurately adsorb in the plate face of the adsorption plate 32 and be covered in The aperture of the loophole 321, adsorption process is simple, efficient.

Further, the surrounding of the loophole 321 of the adsorption plate 32 is further opened with multiple pushing holes 322, described It pushes hole 322 to penetrate through 32 both side surface of adsorption plate and be both provided with pushing probe 35, the one of multiple pushing probes 35 End positioned at the reflecting optics 22 surrounding and in compressing the camera module 40 in same level.Specifically, by The pushing probe 35 is set in the pushing hole 322 of the adsorption plate 32, it is described when the adsorption plate 32 is slided and pushed Probe 35 is pushed to follow the adsorption plate 32 while push the camera module 40.So that the camera module 40 is described It keeps horizontal in the accommodating cavity 11 of Die and mould plate 10, is conducive to reflecting optics 22 and reflects the optical signal, improve accuracy of detection And detection efficiency.Positioned at the more pushing probes 35 of 22 surrounding of reflecting optics, the reflecting optics 22 are surrounded Between the more pushing probes 35.When the sucker 323 on adsorption plate 32 generates pressure difference and adsorbs the reflecting optics 22, more Pushing probe 35 can play the guiding role, and reflecting optics 22 is made to be adsorbed to the adsorption plate in the case where pushing the guiding of probe 35 In 32 plate face, reflecting optics 22 is made to be maintained at the suitable position of the adsorption plate 32.

Further, the surrounding of the accommodating cavity 111 of the Die and mould plate 10 offers multiple location holes 112, the suction The surface of attached plate 32 towards the Die and mould plate 10 is additionally provided with the positioning pin 34 being adapted with the location hole 112, multiple described Positioning pin 34 is located at the surrounding of the loophole 321 of the adsorption plate 32.Pre-determined bit is pressed in the adsorption plate 32 slip When putting, the positioning pin 34 is located in the location hole 112.In this way, make reflecting optics 22 and the camera shooting head mould in accommodating cavity 11 The coil of group 40 accurately connects, and improves the reflection precision of optical signal.

Further, the signal receiver 21 of the detection module 20 includes being arranged on 31 one side of energization body Support portion 211 and receiving part 212 on the support portion 211 and to receive the optical signal, the reception Portion 212 is located at the surface of the loophole 321.Specifically, the signal receiver 21 provided in the present embodiment is done for laser Interferometer.The optical signal that reflecting optics 22 reflect, after the loophole 321 by the adsorption plate 32, by laser interference The receiving part 212 of instrument 21 receives.According to the optical signal reflected back, laser interferometer 21 judges the poly- of the camera module 40 The quality of burnt performance, so as to complete the detection of the focusing performance of the coil to camera module 40.

Further, the energization module 30 further includes the light path detector 50 set on the energization body 31, described Light path detector 50 is used for detecting the light path for the optical signal that laser interferometer 20 is received, and the light path detector 50 is located at described The lower section of Die and mould plate 10.

Further, the utility model also provides a kind of camera module detection device (figure is not drawn), the camera shooting head mould Group detection device includes detection device 100 as described above.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this All any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (10)

1. a kind of detection device, for detecting camera module, the camera module includes coil, it is characterised in that：It is described Detection device includes carrying Die and mould plate, the detection module for being arranged on the Die and mould plate one side and the setting of the camera module Between the Die and mould plate and the detection module and for the energization module to the coil power supply, the detection module includes The reflecting optics of different optical signals and the signal to receive the optical signal are reflected with the curent change in the coil Receiver.

2. detection device as described in claim 1, it is characterised in that：Described Die and mould plate one end is fixed, the plate of the other end upward Face offers to place the accommodating cavity of the camera module；The Die and mould plate is towards opening up on the side of the energization module There is the conductive trough for penetrating through the accommodating cavity and the camera module being electrically connected for the energization module.

3. detection device as claimed in claim 2, it is characterised in that：The energization module includes being located at the Die and mould plate and institute State the energization body between detection module and the adsorption plate for adsorbing the reflecting optics；The adsorption plate is located at the mould The top and one end for having plate are slidably mounted on the energization body, are offered in the plate face of the other end and are passed through for the optical signal The loophole of the adsorption plate.

4. detection device as claimed in claim 3, it is characterised in that：The loophole of the adsorption plate is located at the mold The surface of the accommodating cavity of plate；The surrounding of the loophole of the adsorption plate uniformly opens up multiple described anti-for drawing Eyeglass is penetrated to the sucker of the adsorption plate, the sucker is opened in the adsorption plate towards the plate face of the Die and mould plate.

5. detection device as claimed in claim 3, it is characterised in that：The surrounding of the loophole of the adsorption plate also opens up Have multiple pushing holes, the pushing hole penetrates through the adsorption plate both side surface, the energization module further include be arranged on it is described under The pushing probe in hole is pressed, multiple described one end for pushing probe are located at the surrounding of the reflecting optics and in same level Compress the camera module.

6. detection device as claimed in claim 3, it is characterised in that：The surrounding of the accommodating cavity of the Die and mould plate offers Multiple location holes, the energization module further include be arranged on the adsorption plate towards the surface of the Die and mould plate and with the positioning The positioning pin that hole is adapted, the positioning pin are located at the surrounding of the loophole of the adsorption plate.

7. detection device as claimed in claim 3, it is characterised in that：The signal receiver of the detection module includes setting Put the reception in the support portion of the energization body one side and on the support portion and to receive the optical signal Portion, the receiving part are located at the surface of the loophole.

8. such as claim 3 to 7 any one of them detection device, it is characterised in that：The energization module is further included to described The energization probe of the coil power supply of camera module, described energization probe one end is electrically connected the energization body, another The conductive trough held through the Die and mould plate is electrically connected the coil of the camera module.

9. detection device as claimed in claim 8, it is characterised in that：The quantity of the energization probe is three, the energization One end that probe is electrically connected the camera module offers multiple conductive feets.

10. a kind of camera module detection device, it is characterised in that：Including detecting as claimed in any one of claims 1-9 wherein Device.