CN206311629U - A kind of elevating mechanism for camera module automatic testing equipment - Google Patents

Abstract

The utility model discloses a kind of elevating mechanism for camera module automatic testing equipment, belong to the making processing technique field of camera.It includes base, position sensor, the motion located at the base and Product checking mechanism, the motion includes motor, slide, sliding block and fixture block, also include floating riser mechanism, the floating riser mechanism includes retractor device in the slide, flexible restoring organ, located at the both sides of the sliding block and protrude from the guide post and the gathering sill located at fixture block side wall of sliding block, and the gathering sill is engaged with guiding；The motor promote the sliding block to push the retractor device and after moving to the minimum point of the gathering sill, by the peak of the flexible restoring organ jacking sliding block to the gathering sill.The utility model realizes the auto-stitching of testing agency, improve production efficiency and accuracy of detection by setting by motor-driven floating riser mechanism come the automatic lifting of control slide block.

Description

A kind of elevating mechanism for camera module automatic testing equipment

Technical field

The utility model belongs to the making processing technique field of camera, and camera is used for more specifically to one kind The elevating mechanism of module automatic testing equipment.

Background technology

Camera is also called camera computer, computer eye etc., is a kind of video input apparatus, is widely applied to video council View, the aspect such as tele-medicine and monitor in real time.Common people can also carry out image, sound each other by camera in network The talk of sound and communication.But camera has very big deficiency during processing is made, product connects in detection process Mouth needs certain pressure to apply just be inserted into and connect.And be all by operator at present in most of production line Operation is gone by tool for stitching manually, not only inefficiency, be also easy to cause product to contact bad or cause to damage, and work Intensity is big, and automaticity is not good, and practicality is not strong, so there is deficiency.

Utility model content

For the above-mentioned problems in the prior art, the utility model provides one kind and is tested automatically for camera module The elevating mechanism of device, it realizes inspection by setting by motor-driven floating riser mechanism come the automatic lifting of control slide block Survey the auto-stitching of mechanism, improve production efficiency and accuracy of detection.

In order to solve the above problems, the technical scheme that the utility model is used is as follows：

A kind of elevating mechanism for camera module automatic testing equipment, including base, position sensor, located at described The motion of base and Product checking mechanism, the motion include motor, slide, sliding block and fixture block, also include Floating riser mechanism, the floating riser mechanism is including the retractor device in the slide, flexible restoring organ, located at institute The both sides for stating sliding block and the guide post that protrudes from sliding block and the gathering sill located at fixture block side wall, the gathering sill and are oriented to phase Coordinate；The motor promote the sliding block to push the retractor device and after moving to the minimum point of the gathering sill, by The flexible restoring organ jacking sliding block to the gathering sill peak.

Further, the retractor device includes some pneumatic springs located at the slide two ends.

Further, the fixture block is cuboid-type structure, front and rear in the one side relative with the sliding block on the fixture block Parallel is provided with two gathering sills, and the left and right sides of the sliding block is respectively equipped with two guide posts.

Further, the gathering sill includes the level trough and oblique slot that are mutually communicated, the level trough and oblique slot it Between form obtuse angle.

Further, the slide upper surface is provided with the chute for accommodating floating riser mechanism, the flexible restoring organ bag Include the first spacing hole of some both sides located at the chute bottom wall, back-moving spring and located at the second spacing of the fixture block lower end Hole, second spacing hole is corresponding with first spacing hole, and it is spacing that the two ends of the back-moving spring are held in first respectively In hole and the second spacing hole.

Further, the position sensor is included in the Product checking mechanism for detecting the slide position The first position inductor of information, the second place sensing for being used to detect the sledge position information located at the two ends of the slide Device and the 3rd position sensor being far engaged with first position inductor on the sliding block.

Further, the first position inductor, second place inductor and the 3rd position sensor use photoelectric transfer Sensor.

Compared to prior art, the beneficial effects of the utility model are：

By setting gathering sill, retractor device and flexible restoring organ on slide and sliding block so that sliding block is in motor Under drive, oscilaltion campaign is converted into by horizontal movement, so as to realize that the automatic of pressing plate presses up and down, without manually carrying out hand Dynamic control, it is ensured that the perpendicularity when probe on pressing plate is pushed, it is ensured that measuring stability simultaneously extends probe service life.

Brief description of the drawings

Fig. 1 is the structural representation of the elevating mechanism that the utility model is used for camera module automatic testing equipment；

Fig. 2 is the structural representation of the pressing plate of the elevating mechanism that the utility model is used for camera module automatic testing equipment Figure；

Fig. 3 is the internal structure schematic diagram of the elevating mechanism that the utility model is used for camera module automatic testing equipment；

Fig. 4 is that the structure of the motion of the elevating mechanism that the utility model is used for camera module automatic testing equipment is shown It is intended to；

Fig. 5 is the opposite side of the motion of the elevating mechanism that the utility model is used for camera module automatic testing equipment Structural representation；

Fig. 6 is the structural representation of the sliding block of the elevating mechanism that the utility model is used for camera module automatic testing equipment Figure；

Fig. 7 is the structural representation of the fixture block of the elevating mechanism that the utility model is used for camera module automatic testing equipment Figure；

Fig. 8 is the structural representation of the contiguous block of the elevating mechanism that the utility model is used for camera module automatic testing equipment Figure；

Fig. 9 is that the structure of the test module of the elevating mechanism that the utility model is used for camera module automatic testing equipment is shown It is intended to；

Figure 10 is the structure of the lower tool seat of the elevating mechanism that the utility model is used for camera module automatic testing equipment Schematic diagram；

Figure 11 is the structure of the back-moving spring of the elevating mechanism that the utility model is used for camera module automatic testing equipment Schematic diagram.

Specific embodiment

The utility model is further described below with reference to specific embodiment.

As shown in Figure 1 to 11, a kind of elevating mechanism for camera module automatic testing equipment, including base 2, position Inductor, the motion 1 located at base 2, floating riser mechanism and Product checking mechanism are put, Product checking mechanism includes being located at The pressing plate 4 of motion 1 and the test module 3 located at the one end of base 2；Motion 1 includes motor 101, is movably arranged at The slide 105 of base 2, the sliding block 104 being movably arranged in slide 105 and it is fixedly connected located at the two ends of sliding block 104 and with slide 105 Fixture block 103, by the connection sliding block 104 of screw shaft 102, sliding block 104 is provided with and accommodates passing through for screw shaft 102 motor 101 Perforation.Floating riser mechanism includes retractor device 106, flexible restoring organ in the slide, located at the both sides of sliding block 104 and The guide post 1044 of sliding block 104 and the gathering sill of the side wall located at fixture block 103 are protruded from, gathering sill matches with guide post 1044 Close；Motor 101 promote sliding block 104 to push retractor device 106 and after moving to the minimum point of gathering sill, by elastic reset machine Structure jacking sliding block 104 to gathering sill peak.

Retractor device 106 includes some pneumatic springs located at the two ends of slide 105, and pressing plate 4 is fixed on pneumatic spring.Bullet Property the first spacing hole 1051 of resetting-mechanism including some both sides located at chute bottom wall, back-moving spring 1052 and located at fixture block Second spacing hole 1033 of 103 lower ends, the second spacing hole 1033 is corresponding with the first spacing hole 1051, and the two of back-moving spring 1052 End is held in the first spacing hole 1051 and the second spacing hole 1033 respectively.Motor 101 passes through the connection sliding block of screw shaft 102 104。

On mobilizable first slide rail located at base 2 in bottom of slide 105, the upper surface of slide 105 is provided with receiving and floats The chute of elevating mechanism；Sliding block 104 is rectangular configuration, and its rear end is provided with T-slot 1043, T-slot 1043 and is provided with contiguous block 107, contiguous block 107 includes being interconnected to form the location-plate 1071 and sleeve 1072 of T-type structure, location-plate 1071 and sleeve It is connected by screwed hole between 1072, the screwed hole is engaged with screw shaft 102；The two ends of location-plate 1071 are provided with for pacifying The location hole of trip bolt is filled, location-plate 1071 is fixed on the inwall of T-slot 1043 by trip bolt；Sleeve 1072 is upper Lower surface is in the cylindrical structure of plane 1073；The mounting hole matched with sleeve 1072 is provided with the madial wall of T-slot 1043 1042, in the presence of plane 1073, sleeve 1072 can maintain static dynamic in mounting hole 1042.The second slide rail is provided with chute, The bottom of sliding block 104 is mobilizable to be located on the second slide rail, and one end of screw shaft 102 passes through passing through in screwed hole and sliding block 104 Perforation, when screw shaft 102 is rotated, the screwed hole in sleeve 1072 interacts so as to band movable slider 104 advances with screw shaft 102 Or retreat, and then drive whole motion 1 to advance or retreat on base 2.

Fixture block 103 is cuboid-type structure, front and rear in the one side relative with sliding block 104 on fixture block 103 parallel to be provided with two Individual gathering sill, the left and right sides of sliding block 104 is respectively equipped with two guide posts 1044；Gathering sill includes the level trough 1031 being mutually communicated With oblique slot 1032, obtuse angle is formed between level trough 1031 and oblique slot 1032.Sliding block 104 moves downwardly to the minimum of gathering sill During point, guide post 1044 is located at the bottom of oblique slot 1032；Flexible restoring organ jacking sliding block 104 to gathering sill peak When, guide post 1044 is located at level trough 1031 foremost.

The bottom of the one end of pressing plate 4 is connected with pneumatic spring, and the other end of pressing plate 4 is provided with first to be determined for place product Position groove 401 and the first probe assembly 402 for detecting wiring board, test module 3 include being connected with each other the upper tool seat for coordinating 301 and lower tool seat 302, the section of upper tool seat 301 and lower tool seat 302 is in " Qian " type, and the top of upper tool seat 301 sets There are the second locating slot 3012 for placing product and the second probe assembly 3011 being engaged with the first probe assembly 402, under The top of tool seat 302 is provided with the first position inductor 3021 for detecting the positional information of sliding block 104.On sliding block 104 away from One end of motor 101 is provided with the 3rd position sensor 1041 being engaged with first position inductor 3021, slide 105 Two ends are provided with the second place inductor 5 for detecting the positional information of slide 105.

Motion process：

Motor 101 promotes the reach of motion 1 near test module 3；Motor 101 continues to advance, and now slides Seat 105 is blocked continuing to move to, and sliding block 104 continues to be moved to the track of forward position gathering sill, in the cooperation of retractor device 106 Under, sliding block 104 and pressing plate 4 are moved downward；Detecting is sensed by optoelectronic switch and pushes in place stopping decline movement afterwards, first determines Product in the locating slot 3012 of groove 401 and second of position is pressed, and is detected by the first probe assembly 402 and the second probe assembly 3011 Whether the wiring board in product turns on completely；After the completion of detection, moved after motor 101, using retractor device 106 by pressing plate 4 Upspring to peak；Moved after slide 105 afterwards, sensed by optoelectronic switch and judge out of service to most rear side.

Schematically the utility model and embodiments thereof are described above, the description does not have restricted, accompanying drawing Shown in be also one of implementation method of the present utility model, actual structure is not limited thereto.So, if this area Those of ordinary skill enlightened by it, do not departing from the case that the utility model creates objective, designed without creative The frame mode similar to the technical scheme and embodiment, all should belong to protection domain of the present utility model.

Claims (7)

1. a kind of elevating mechanism for camera module automatic testing equipment, including base, position sensor, located at the bottom The motion of seat and Product checking mechanism, the motion include motor, slide, sliding block and fixture block, and its feature exists In：Also include floating riser mechanism, the floating riser mechanism includes retractor device, the elastic reset machine in the slide Structure, located at the both sides of the sliding block and protrude from the guide post and the gathering sill located at fixture block side wall of sliding block, the guiding Groove is engaged with guiding；The motor promotes the sliding block to push the retractor device and move to the gathering sill most After low spot, by the peak of the flexible restoring organ jacking sliding block to the gathering sill.

2. the elevating mechanism for camera module automatic testing equipment according to claim 1, it is characterised in that：It is described Retractor device includes some pneumatic springs located at the slide two ends.

3. the elevating mechanism for camera module automatic testing equipment according to claim 1, it is characterised in that：It is described Fixture block is cuboid-type structure, front and rear in the one side relative with the sliding block on the fixture block parallel to be provided with two guiding Groove, the left and right sides of the sliding block is respectively equipped with two guide posts.

4. the elevating mechanism for camera module automatic testing equipment according to claim 1, it is characterised in that：It is described Gathering sill includes the level trough and oblique slot that are mutually communicated, and obtuse angle is formed between the level trough and oblique slot.

5. the elevating mechanism for camera module automatic testing equipment according to claim 1, it is characterised in that：It is described Slide upper surface is provided with the chute for accommodating floating riser mechanism, and the flexible restoring organ includes some located at the chute bottom wall The first spacing hole of both sides, back-moving spring and the second spacing hole located at the fixture block lower end, second spacing hole and institute State that the first spacing hole is corresponding, the two ends of the back-moving spring are held in the first spacing hole and the second spacing hole respectively.

6. the elevating mechanism for camera module automatic testing equipment according to claim 1, it is characterised in that：It is described Position sensor include in the Product checking mechanism for detect the slide position information first position inductor, Located at the two ends of the slide be used to detect the sledge position information second place inductor and on the sliding block it is remote The 3rd position sensor being engaged with first position inductor.

7. the elevating mechanism for camera module automatic testing equipment according to claim 6, it is characterised in that：It is described First position inductor, second place inductor and the 3rd position sensor use photoelectric sensor.