CN217883650U - High-efficient duplex position calibration equipment - Google Patents

Abstract

The utility model discloses a high-efficient duplex position calibration equipment belongs to camera detection technical field. The main part includes the main part, the main part includes the unit, the unit is including maring the subassembly, mark the subassembly including the centre gripping subassembly, the centre gripping subassembly includes the fixed part, locates rotation portion on the fixed part, locate clamping part on the rotation portion, rotation portion with fixed part normal running fit links to each other, the both ends symmetry of rotation portion is equipped with butt joint portion, the clamping part is located on the butt joint portion, one side that the clamping part deviates from the butt joint portion is equipped with anchor clamps. The utility model discloses a symmetry is equipped with butt joint portion in rotation portion for calibration equipment possesses two stations simultaneously, can dock two sets of anchor clamps simultaneously, realizes the high-efficient detection to the product.

Description

High-efficient duplex position calibration equipment

Technical Field

The utility model relates to a camera detects technical field, concretely relates to high-efficient duplex position calibration equipment.

Background

The calibration equipment is a detection instrument for detecting multiple performances such as focusing effect, light sensing and the like of the camera.

Because the detection process of the camera is complex and consumes a long time, the traditional calibration equipment usually sets the supply time of the product according to the detection duration, and after the equipment finishes detecting the previous product, the equipment transfers and clamps the new product and then conveys the new product to the part to be detected.

In the process, the equipment is in the neutral period of detection within the transfer time, so the total detection time of one product is the sum of the detection time length and the equipment transfer time length, and the detection efficiency is relatively low.

SUMMERY OF THE UTILITY MODEL

Based on the above-mentioned problem that exists among the prior art, the utility model discloses embodiment's aim at: the efficient double-station calibration equipment is provided, and the detection efficiency of products can be improved.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a high-efficient duplex position calibration equipment, includes the main part, the main part includes the unit, the unit is including maring the subassembly, mark the subassembly including the centre gripping subassembly, the centre gripping subassembly includes the fixed part, locates rotation portion on the fixed part, locate clamping part on the rotation portion, rotation portion with fixed part normal running fit links to each other, the both ends symmetry of rotation portion is equipped with butt joint portion, the clamping part is located on the butt joint portion, one side that the clamping part deviates from butt joint portion is equipped with anchor clamps.

Further, the main part is including locating fixed frame on the unit, locate the unit around and with fixed frame fixed connection's backplate one, backplate two, backplate three and backplate four, locate the unit top and with fixed frame fixed connection's roof.

Furthermore, the unit comprises a base arranged at the bottom of the calibration assembly and a case assembly arranged on one side of the calibration assembly far away from the base, the calibration assembly comprises a bottom plate, a lifting assembly arranged on the bottom plate and a distance increasing assembly arranged on one side of the lifting assembly, the distance increasing assembly is arranged on one side of the clamping assembly, and the lifting assembly is arranged between the distance increasing assembly and the clamping assembly.

Furthermore, the distance-increasing assembly comprises a sliding part, a telescopic part arranged on the sliding part and a distance-increasing mirror arranged on the telescopic part, wherein the sliding part is arranged on the bottom plate in a sliding manner.

Further, the lifting assembly comprises a mounting plate, a cylinder arranged on the mounting plate, a lifting part arranged at the output end of the cylinder, and a butt joint disc arranged on the lifting part, wherein the mounting plate is fixedly arranged on the bottom plate.

Furthermore, two butt joint holes are symmetrically formed in the two ends of the clamping portion, four butt joints are symmetrically arranged on the end face of the butt joint disc, and the butt joint holes are matched with the butt joint joints.

Furthermore, the clamp comprises an accommodating component, a sealing cover arranged on the accommodating component, a rotating part arranged at one end of the sealing cover and connected with the sealing cover in a rotating matching manner, and a fastening part arranged at one end of the rotating part far away from the sealing cover, wherein a detection port is communicated with the sealing cover.

The utility model has the advantages that: the utility model provides a pair of high-efficient duplex position calibration equipment is equipped with butt joint portion through the symmetry in rotation portion for calibration equipment possesses two stations simultaneously, can dock two sets of anchor clamps simultaneously, and one of them station centre gripping product is carried to waiting to detect the position and is examined time measuring, and another can directly pass through the next product of anchor clamps centre gripping, and when rotation portion transfers, the new product of waiting is directly carried to waiting to detect the position, shortens to transfer the step required length, improves the detection efficiency to the product.

Drawings

The present invention will be further explained with reference to the drawings and examples.

In the figure:

fig. 1 is a schematic perspective view of a double-station calibration apparatus in the present invention;

fig. 2 is an exploded schematic view of the double-station calibration apparatus of the present invention;

FIG. 3 is a perspective view of the assembly of FIG. 2;

FIG. 4 is an exploded view of a portion of the structure of FIG. 3;

FIG. 5 is an exploded view of the calibration assembly of FIG. 3;

FIG. 6 is a perspective view of the pitch increase assembly of FIG. 5;

FIG. 7 is an exploded view of the lift assembly of FIG. 5;

FIG. 8 is a perspective view of the docking tray of FIG. 7;

FIG. 9 is an exploded view of the clamping assembly of FIG. 5;

FIG. 10 is a perspective view of a portion of the structure of FIG. 9;

FIG. 11 is an exploded view of the clamp of FIG. 9;

wherein, in the figures, the respective reference numerals:

1. a main body;

11. a first guard plate; 12. a guard plate II; 13. a guard plate III; 14. a guard plate IV; 15. a top plate; 16. a fixing frame;

2. a unit;

21. a chassis component; 22. calibrating the component; 23. a base;

221. a distance increasing component; 222. a lifting assembly; 223. a clamping assembly; 224. a base plate;

2211. a sliding part; 2212. a telescopic part; 2213. a distance-increasing mirror;

2221. mounting a plate; 2222. a cylinder; 2223. a lifting part; 2224. a docking tray;

2231. a fixed part; 2232. a rotating part; 2233. a clamping portion;

22241. a butt joint;

22321. a docking portion; 22330. a butt joint hole; 22331. a clamp;

223310, a detection port; 223311, a rotating member; 223312, sealing cover; 223313, fastening elements; 223314, containing components.

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings. This figure is a simplified schematic diagram, and merely illustrates the basic structure of the present invention in a schematic manner, and therefore it shows only the constitution related to the present invention.

As shown in fig. 1-2, the utility model provides a high-efficient duplex position calibration equipment, including main part 1, main part 1 includes unit 2, locates fixed frame 16 on the unit 2, locate unit 2 around and with fixed frame 16 fixed connection's backplate 11, backplate two 12, three 13 of backplate and backplate four 14, locate unit 2 top and with fixed frame 16 fixed connection's roof 15.

As shown in fig. 1-5, the assembly 2 includes a calibration component 22, a base 23 disposed at the bottom of the calibration component 22, and a chassis component 21 disposed at a side of the calibration component 22 away from the base 23, where the calibration component 22 includes a bottom plate 224, a lifting component 222 disposed on the bottom plate 224, and a distance-increasing component 221 disposed at a side of the lifting component 222.

As shown in fig. 5 to 9, the calibration assembly 22 includes a clamping assembly 223, and the clamping assembly 223 includes a fixing portion 2231, a rotating portion 2232 disposed on the fixing portion 2231, and a clamping portion 2233 disposed on the rotating portion 2232.

As shown in fig. 9 to 10, the rotating portion 2232 is connected to the fixed portion 2231 in a rotating manner, two ends of the rotating portion 2232 are symmetrically provided with abutting portions 22321, the clamping portion 2233 is provided on the abutting portions 22321, one side of the clamping portion 2233 away from the abutting portions 22321 is provided with a clamp 22331, and two ends of the clamping portion 2233 are symmetrically provided with two abutting holes 22330.

As shown in fig. 11, the fixture 22331 includes a housing assembly 223314, a cover 223312 disposed on the housing assembly 223314, a rotating member 223311 disposed at an end of the cover 223312 and connected to the cover 223312 for rotation, and a fastening member 223313 disposed at an end of the cover 223312 remote from the rotating member 223311.

A detection port 223310 is formed through the cover 223312.

As shown in fig. 5, the pitch-increasing assembly 221 is disposed at one side of the clamping assembly 223, and the lifting assembly 222 is disposed between the pitch-increasing assembly 221 and the clamping assembly 223.

As shown in fig. 5-6, the distance-increasing assembly 221 includes a sliding portion 2211, an expansion portion 2212 provided on the sliding portion 2211, and a distance-increasing mirror 2213 provided on the expansion portion 2212, wherein the sliding portion 2211 is slidably provided on the bottom plate 224.

As shown in fig. 5-7, the lifting assembly 222 includes a mounting plate 2221, a cylinder 2222 disposed on the mounting plate 2221, a lifting unit 2223 disposed at an output end of the cylinder 2222, and a docking tray 2224 disposed on the lifting unit 2223, wherein the mounting plate 2221 is fixedly mounted on the base plate 224.

As shown in fig. 8 to 10, four docking connectors 22241 are symmetrically disposed on the end surface of the docking tray 2224, and the docking holes 22330 are matched with the docking connectors 22241.

During operation, the double-station calibration device can rotate the cover 223312 to open with the rotating component 223311 as a constraint, place a product to be detected in the accommodating component 223314, where the product to be detected is a camera, place the front end of the camera in the detection port 223310, rotate the cover 223312 to close with the rotating component 223311 as a constraint, and rotate the fastening component 223313 to fasten the side wall of the accommodating component 223314, so that the product is stably placed in the clamp 22331.

The fixture 22331 is then placed on the clamping portion 2233, placed on one of the abutting portions 22321 of the rotating portion 2232, the rotating portion 2232 is driven by an external torque to rotate 180 ° on the fixed portion 2231, the position of the two abutting portions 22321 is changed, the abutting portion 22321 where the clamping portion 2233 is placed is close to the lifting assembly 222, the lifting assembly 222 waits for lifting thereof, and the abutting portion 22321 where the clamping portion 2233 is not placed is far away from the lifting assembly 222, so that the fixture 22331 of the next product can be placed on a new clamping portion 2233, and the clamping portion 2233 can be placed on the abutting portion 22321 where the clamping portion 2233 is not placed.

In the process, the clamping assembly 223 is provided with double stations, so that the next product can be placed while one product is conveyed to be detected, the consumed time of the clamping assembly 223 in the detection period is shortened, and the detection efficiency of the product is improved.

After the docking portion 22321 with the clamping portion 2233 is close to the lifting assembly 222, the cylinder 2222 extends to drive the lifting portion 2223 to rise, the docking tray 2224 in the initial state is located on the top of the lifting portion 2223, and with the rising of the lifting portion 2223, the clamping portion 2233 is lifted upwards, and the docking tray 2224 and the clamping portion 2233 are docked in a manner that the docking head 22241 is inserted into the docking hole 22330, so that the docking tray and the clamping portion are relatively stable, and the clamping portion 2233 is prevented from falling off when movement occurs.

In some of these embodiments, the docking head 22241 is an electromagnet.

It can be understood that a pressure sensor (not shown) is disposed in the docking tray 2224, when the docking head 22241 is inserted into the docking hole 22330, the pressure sensor senses the pressure, the docking head 22241 is powered on, and the docking tray 2224 and the clamping portion 2233 are magnetically attracted to each other, so as to prevent the two from falling off during movement.

After the lifting is completed, the docking tray 2224 is turned over by 90 degrees and faces the distance-increasing environment 2213, and the product is just opposite to the distance-increasing environment 2213, so that the focusing effect, the light sensing performance and other various performances are detected.

The range-increasing mirror 2213 accessible slide 2211 slides on bottom plate 224 to change the range-increasing mirror 2213 and the interval that awaits measuring between the product, realize the range-increasing of different distances, can survey the multiunit data of product, and through the flexible of pars contractilis 2212, can change the relative position of range-increasing mirror 2213 and the product that awaits measuring, measured data is more diversified, and the degree product performance's detection is also more thorough.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the scope of the invention. The technical scope of the present invention is not limited to the content of the description, and the technical scope must be determined according to the scope of the claims.

Claims (7)

1. The utility model provides a high-efficient duplex position calibration equipment which characterized in that: the clamping device comprises a main body, the main part includes the unit, the unit is including maring the subassembly, mark the subassembly including the centre gripping subassembly, the centre gripping subassembly includes the fixed part, locates rotation portion on the fixed part, locate clamping part on the rotation portion, rotation portion with fixed part normal running fit links to each other, the both ends symmetry of rotation portion is equipped with butt joint portion, the clamping part is located on the butt joint portion, one side that the clamping part deviates from the butt joint portion is equipped with anchor clamps.

2. The efficient double-station calibration equipment as claimed in claim 1, wherein: the main part is including locating fixed frame on the unit, locate the unit around and with fixed frame fixed connection's backplate one, backplate two, backplate three and backplate four, locate the unit top and with fixed frame fixed connection's roof.

3. The efficient double-station calibration device according to claim 1, wherein: the unit is including locating the base of demarcation subassembly bottom, locate the quick-witted case subassembly of base one side is kept away from to the demarcation subassembly, the demarcation subassembly includes the bottom plate, locates lift the subassembly on the bottom plate, locate lift the range unit of subassembly one side, the range unit is located one side of centre gripping subassembly, the lift subassembly is located the range unit with between the centre gripping subassembly.

4. The efficient double-station calibration device according to claim 3, wherein: the distance-increasing assembly comprises a sliding part, a telescopic part arranged on the sliding part and a distance-increasing mirror arranged on the telescopic part, wherein the sliding part is arranged on the bottom plate in a sliding manner.

5. The efficient double-station calibration device according to claim 3, wherein: the lifting assembly comprises a mounting plate, a cylinder arranged on the mounting plate, a lifting part arranged at the output end of the cylinder, and a butt joint disc arranged on the lifting part, wherein the mounting plate is fixedly arranged on the bottom plate.

6. The efficient double-station calibration device according to claim 5, wherein: two butt joint holes are symmetrically formed in two ends of the clamping portion, four butt joints are symmetrically arranged on the end face of the butt joint disc, and the butt joint holes are matched with the butt joints.

7. The efficient double-station calibration device according to claim 1, wherein: the clamp comprises an accommodating component, a sealing cover arranged on the accommodating component, a rotating part arranged at one end of the sealing cover and connected with the sealing cover in a rotating matching mode, and a fastening part arranged at one end of the rotating part and far away from the sealing cover, wherein a detection port is communicated with the sealing cover.

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