CN209639926U - Camera lens vibration resistance detection device - Google Patents

Abstract

A kind of camera lens vibration resistance detection device, belongs to optical detection apparatus technical field.The camera lens vibration resistance detection device is equipped with test fixture, and test fixture includes the camera installing zone set gradually, camera lens positioning area, light source installing zone and mark zone；Camera lens positioning area is equipped with camera lens camera lens latch segment to be measured, and light source installing zone is equipped with light source latch segment, and mark zone is equipped with marking plate fixing seat, and the relative spacing of camera lens latch segment, light source latch segment and marking plate fixing seat is adjusted according to the optical characteristics of camera lens to be measured.Marking plate and camera lens are in opposing stationary state to the utility model always during the test, thus the centroid offset reliability that measurement obtains is high, avoid camera lens and marking plate from being in different platform and influence the accuracy of test result.

Description

Camera lens vibration resistance detection device

Technical field

The utility model relates to a kind of technology in optical detection apparatus field, specifically a kind of camera lens vibration resistance detection Device.

Background technique

Techniques of linear motor and machine vision technique are more and more applied in modern automation equipment.Linear motor and Machine vision is depending therefrom, and with the continuous improvement of linear motor velocity and acceleration, in machine vision camera lens it is reliable Property, especially vibration resistance, propose increasingly higher demands.The vibration resistance of camera lens under the high acceleration mode of high speed is accurately assessed, Play a significant role for technology controlling and process (such as camera lens wall thickness), and the vibration resistance scheme (example for designing and improving camera lens Such as eyeglass fixed form) it is of great significance.

Camera lens resistance to shock assessment at present uses static test, i.e., camera lens is mounted on high-frequency shake table and is shaken Dynamic certain time, then takes off and carries out normal optical performance test.However the test of the high-frequency vibration of shake table can not simulate height Camera lens Vibration Condition under the high acceleration mode of speed.

Utility model content

The utility model In view of the above shortcomings of the prior art, proposes a kind of camera lens vibration resistance detection device.

The utility model is achieved through the following technical solutions:

The utility model includes test fixture；Test fixture includes the camera installing zone set gradually, camera lens positioning area, light Source installing zone and mark zone；

Camera lens positioning area is equipped with camera lens camera lens latch segment to be measured, and light source installing zone is equipped with light source latch segment, and mark zone is equipped with Marking plate fixing seat, the relative spacing of camera lens latch segment, light source latch segment and marking plate fixing seat is according to the optics of camera lens to be measured Characteristic is adjusted.

Test fixture uses material with a higher rigidity, such as aluminium.

Test fixture be equipped with ordered arrangement mounting hole, camera lens latch segment, light source latch segment and marking plate fixing seat with Mounting hole is fixedly connected；It is preferred that by the way of being spirally connected connection；It is highly preferred that light source latch segment and marking plate fixing seat are equipped with length Hole, by adjust on strip hole be spirally connected position to camera lens latch segment, light source latch segment and marking plate fixing seat it is opposite between Away from being adjusted.

It is integrally formed in marking plate fixing seat, welding installation or gluing are equipped with marking plate.

Test fixture is equipped with jig mounting hole, and test fixture is fixed on accelerator by jig mounting hole；It is preferred that By the way of being spirally connected connection.

The including but not limited to uniaxial linear motor movement mould group of accelerator, Biaxial linear motor movement mould group, gantry are straight Line motor movement mould group and manipulator.

When the utility model is detected for camera lens vibration resistance, camera is installed in test fixture, and pass through lens lock respectively Tight block, light source latch segment and marking plate fixing seat install camera lens, light source and marking plate to be measured, and camera and camera lens to be measured are tightened；Root According to lens optical characteristic to be measured, spacing and synchronous adjustment light source of the marking plate relative to camera lens to be measured are adjusted, so that at marking plate In camera lens to be measured within sweep of the eye and within the scope of the operating distance in camera lens to be measured, and guarantee imaging clearly；According to setting Speed and/or acceleration drive test fixture high-speed motion, and camera is instantaneously taken pictures when moving to designated position；The photo that will be obtained It is compared with marking plate standard photographs, calculates photo offset, the vibration resistance of camera lens to be measured is assessed according to offset.

Label in marking plate outer dimension and marking plate is set as needed.

Light source matches camera lens setting to be measured, and the shape of light source, size, irradiating angle are unlimited, guarantees bright abundance, and image is special Sign can be clearly collected；Preferably, light source includes but is not limited to annular light source, point light source, side light source.

Technical effect

Compared with prior art, the utility model has the following technical effect that

1) directly the vibration resistance of camera lens can be tested under high speed high acceleration moving state, avoids high frequency vibrating dynamic model Quasi- test result distortion；

2) guarantee that marking plate and camera lens are in opposing stationary state, thus the matter that measurement obtains always during the test Heart offset reliability is high, avoids camera lens and marking plate from being in different platform and influences the accuracy of test result.

Detailed description of the invention

Fig. 1 is the overall structure diagram of embodiment 1；

Fig. 2 is test fixture structural schematic diagram in Fig. 1；

Fig. 3 is camera lens locking block structure schematic diagram in embodiment 1；

Fig. 4 is light source locking block structure schematic diagram in embodiment 1；

In figure: XY platform 1, crossbeam fixed plate 2, test fixture 3, camera 4, camera lens to be measured 5, camera lens latch segment 6, locking bottom Seat 61, locking clamping block 62, light source latch segment 7, locking pedestal 71, light source fixing plate 72, locating slot 73, strip hole 74, ring light Source 8, marking plate 9, marking plate fixing seat 10, gusset 11.

Specific embodiment

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Embodiment 1

As depicted in figs. 1 and 2, the present embodiment is related to a kind of camera lens vibration resistance detection device, is equipped with test fixture 3, test Crossbeam fixed plate 2 on jig 3 and linear motor mould group XY platform 1 is spirally connected fixation.

Test fixture 3 is longitudinally disposed, is successively fixed with camera 4, camera lens to be measured 5, annular light source 8 and marking plate from top to bottom 9, camera 4 is spirally connected with test fixture 3 and connect；Camera lens 5 to be measured is tightened with camera 4, then passes through camera lens latch segment 6 and test fixture 3 It is spirally connected and is fixed in test fixture 3, annular light source 8, which is spirally connected by light source latch segment 7 with test fixture 3, to be fixed on test and control On tool 3, marking plate 9 is arranged in marking plate fixing seat 10, and marking plate fixing seat 10 and test fixture 3 are spirally connected fixation.

Light source latch segment 7 and marking plate fixing seat 10 are equipped with the strip hole for being spirally connected, and control mirror to be measured by strip hole First 5, the relative spacing of annular light source 8 and marking plate 9 guarantees that marking plate 9 is in camera lens to be measured within sweep of the eye and in be measured Within the scope of the operating distance of camera lens, bright sufficient, characteristics of image can be clearly collected.

As shown in figure 3, locking pedestal 61 and locking clamping block 62 of the camera lens latch segment 6 including the connection that is spirally connected, lock pedestal 61 There is the groove structure to match with locking clamping block 62, lock the groove structure of pedestal 61 and locking clamping block 62 according to camera lens to be measured 5 outer dimension processes to obtain.

As shown in figure 4, light source latch segment 7 includes locking pedestal 71 and light source fixing plate 72, locks and be equipped among pedestal 71 Card slot, light source fixing plate 72 are inserted into card slot and are spirally connected locking with locking pedestal 71, light source fixing plate 72 equipped with locating slot 73, Annular light source 8 is fixed by screws in light source fixing plate 72 again by the positioning of locating slot 73；4 strips on light source latch segment 7 Hole 74 is arranged symmetrically, and improves the stability being spirally connected with crossbeam fixed plate 2.

Marking plate 9 and marking plate fixing seat 10 are integrally formed, and are equipped with the rigidity that gusset increases marking plate, in addition can root Different patterns is formulated according to actual demand；There is on marking plate the circle for being divided into four quadrants, second, four-quadrant in the present embodiment Black is filled, the first and third quadrant is white.

3 motion profile of test fixture is " rice " font, can also be designed to be measured under other motion profiles, such as actual condition The motion profile of camera lens；Camera lens 5 to be measured is using M shape center as starting point, high speed High acceleration motion, for example, with 10G acceleration into Row movement, when reaching starting point every time, camera 4 is instantaneously taken pictures, and the obtained photo of shooting and marking plate normal pictures are carried out pair Than calculating the centroid offset of the high speed high acceleration moving in different directions of camera lens 5, and then can be determined that the vibration resistance of camera lens Whether requirement can be reached.

It is emphasized that: the above is only the preferred embodiment of the present utility model, not appoints to the utility model What formal limitation, any simple modification made by the above technical examples according to the technical essence of the present invention, etc. With variation and modification, it is still within the scope of the technical solutions of the present invention.

Claims (7)

1. a kind of camera lens vibration resistance detection device, which is characterized in that be equipped with test fixture；The test fixture includes setting gradually Camera installing zone, camera lens positioning area, light source installing zone and mark zone；

The camera lens positioning area is equipped with camera lens camera lens latch segment to be measured, and the light source installing zone is equipped with light source latch segment, the mark Remember that area is equipped with marking plate fixing seat, the relative spacing of the camera lens latch segment, light source latch segment and marking plate fixing seat according to The optical characteristics for surveying camera lens is adjusted.

2. camera lens vibration resistance detection device according to claim 1, characterized in that the test fixture is equipped with ordered arrangement Mounting hole, the camera lens latch segment, light source latch segment and marking plate fixing seat are fixedly connected with mounting hole.

3. camera lens vibration resistance detection device according to claim 2, characterized in that the light source latch segment and marking plate are fixed Seat is with test fixture by the way of being spirally connected connection；Light source latch segment and marking plate fixing seat are equipped with strip hole, are grown by adjusting The relative spacing of camera lens latch segment, light source latch segment and marking plate fixing seat is adjusted in the position that is spirally connected on hole.

4. camera lens vibration resistance detection device according to claim 3, characterized in that the light source latch segment includes locking pedestal And light source fixing plate, card slot is equipped among locking pedestal, light source fixing plate is inserted into card slot and is spirally connected locking with locking pedestal, Light source fixing plate is equipped with locating slot, and light source is fixed by screws in light source fixing plate again by locating slot positioning.

5. camera lens vibration resistance detection device according to claim 3, characterized in that in the marking plate fixing seat integrally at Type, welding installation or gluing are equipped with marking plate.

6. camera lens vibration resistance detection device according to claim 1, characterized in that the test fixture is installed equipped with jig Hole, test fixture are fixed on accelerator by jig mounting hole.

7. camera lens vibration resistance detection device according to claim 6, characterized in that the accelerator includes uniaxial straight-line electric Machine moves mould group, Biaxial linear motor movement mould group, gantry linear motor and moves one of mould group and manipulator.