CN213749001U - Optical part rotation detection device - Google Patents

Abstract

The utility model discloses an optical part rotation detection device, which comprises a bottom plate, the bottom plate is connected with a module A through screws, the module A is connected with a switching plate A through screws, a module B is fixed on the switching plate, a switching plate B is fixed on the module B through screws, a sleeve is fixed on the switching plate B, the sleeve is connected with a shaft in a sliding way, a cylinder A is fixed on the switching plate B, the cylinder A is fixedly connected with a floating joint A, the two ends of the floating joint A are respectively and fixedly connected with the cylinder A and a support plate, a cylinder mounting plate A is fixedly connected on the support plate, a cylinder B is connected on the left side of the cylinder mounting plate A, a floating joint B is connected on the right side of the cylinder mounting plate A, the precision of manual detection is improved to a certain extent, the automation degree is high, the adaptability is strong, the use performance is high, and the efficiency is improved, is easy to popularize.

Description

Optical part rotation detection device

Technical Field

The utility model relates to an optical element rotation detection technical field, concretely relates to optical element rotation detection device.

Background

Optical parts are also called optical elements. The basic component unit of the optical system. Most optical parts function as imaging, such as lenses, prisms, mirrors, etc. There are also some parts which play special roles (such as light splitting, image transmission, filtering, etc.) in optical systems, such as reticles, filters, gratings, for optical fiber elements, etc. Holographic lenses, gradient index lenses, binary optical elements, etc., are new optical components that have appeared for a couple of decades.

At present, most are manual detection, and inefficiency is used inconveniently, and optical element rotation angle is difficult for adjusting, can't satisfy present demand, and degree of automation is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an optical element rotation detecting device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the optical part rotation detection device comprises a bottom plate, wherein the bottom plate is connected with a module A through screws, the module A is connected with an adapter plate A through screws, a module B is fixed on the adapter plate A, an adapter plate B is fixed on the module B through screws, a sleeve is fixed on the adapter plate B, the sleeve is connected with a shaft in a sliding manner, a cylinder A is fixed on the adapter plate B, the cylinder A is fixedly connected with a floating joint A, the two ends of the floating joint A are respectively and fixedly connected with a cylinder A and a support plate, a cylinder mounting plate A is fixedly connected on the support plate, the left side of the cylinder mounting plate A is connected with a cylinder B, the right side of the cylinder mounting plate A is connected with a floating joint B, the two sides of the floating joint B are respectively connected with a cylinder mounting plate A and a connecting block, a guide rail slider is fixedly connected above the support plate, a guide rail adapter plate is arranged above the guide rail sliding block, a stop block is fixed on the right side of the guide rail adapter plate, a stop block assembly A is arranged on the right side of the guide rail adapter plate, a rack A is fixed above the guide rail adapter plate, a gear A is meshed with the rack A through a tooth profile, the gear A is connected on a bearing seat A through a screw, the bearing seat A is matched with a rotating shaft A through rotation, the bearing seat A is fixedly connected with a rotating bottom plate through a screw, the rotating bottom plate is fixedly connected with a cylinder mounting plate B through a screw, a stop block assembly B is fixed on the cylinder mounting plate B, the rotating bottom plate is fixedly connected with a guide rail sliding block B through a screw, the rotating bottom plate is fixedly connected with a cylinder mounting plate C through a screw, the cylinder mounting plate C is fixedly connected with a cylinder C, the cylinder C is provided with a floating joint C, and the floating joint C is fixedly connected with a rotating plate, the rotating plate is fixedly connected with a rack B, the rack B is meshed with a gear B through a tooth profile, the gear B is connected with a rotating shaft B through a key, the rotating shaft B is rotatably matched with a bearing seat B, a clamp plate is arranged on the rotating shaft B34, the bottom plate 1 is connected with a fixed seat through a screw, the fixed seat is connected with a supporting rod through a screw, a CCD support B is arranged on the supporting rod, a CCD support A is arranged on the CCD support B, the CCD support A is provided with a light source, a gasket mounting ring is arranged on the supporting rod, the gasket mounting ring is connected with a support plate through a screw, the support plate is connected with a fine adjustment mechanism A through a screw, the fine adjustment mechanism A is connected with a fine adjustment mechanism B through a screw, the fine adjustment mechanism B is connected with a camera adapter plate A through a screw, and the camera adapter plate A is fixedly provided with an upper and lower adjusting block and the camera adapter plate B through screws, and the camera adapter plate B is fixedly provided with a camera through a screw.

As a further improvement of the technology, the clamp plate is provided with a plurality of threaded holes.

As a further improvement of the technology, the two sleeves are fixed on the adapter plate B through screws, and the lifting is stable and reliable.

As a further improvement of the technology, the shape of the rotating shaft A is stepped.

As a further improvement of the above technique, the module a and the module B are arranged horizontally and vertically.

As a further improvement of the above technology, the fine adjustment mechanism a and the fine adjustment mechanism B are vertical.

As a further improvement of the technology, a through hole is arranged in the middle of the sleeve, and the through hole is in clearance fit with the shaft.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses novel structure, at first fix the product on the anchor clamps board, module A starts, it removes to drive module B, thereby drive the removal of whole mechanism, conveniently adjust and set up the initial position, cylinder A starts, drive the mechanism rebound in the backup pad, drive rack A through cylinder B, rack A and gear A rotate through the profile of tooth meshing, thereby drive the mechanism on the rotatory bottom plate, cylinder C starts, it removes to drive rack B, rack B and gear B rotate through the profile of tooth meshing, thereby the rotation of drive anchor clamps board, the precision of artifical detection has been improved to a certain extent, it detects to all-round to the part, novel structure, degree of automation is high, high adaptability, high performance, efficiency is improved, and easy popularization.

Drawings

Fig. 1 is a schematic view of the positive axis measuring structure of the present invention.

Fig. 2 is a schematic view of the local axial measurement structure of the present invention.

Fig. 3 is a schematic front view of the structure of the present invention.

Fig. 4 is a schematic side view of the present invention.

In the figure: the camera module comprises a base plate 1, a fixed seat 2, a support rod 3, a module A4, an adapter plate A5, a module B6, an adapter plate B7, a sleeve 8, a shaft 9, a cylinder A10, a floating joint A11, a support plate 12, a cylinder mounting plate A13, a cylinder B14, a floating joint B15, a connecting block 16, a guide rail adapter plate 17, a guide rail slider 18, a stopper assembly A19, a stopper 20, a rack A21, a rotating shaft A22, a bearing seat A23, a gear A24, a rotating base plate 25, a cylinder mounting plate B26, a stopper assembly B27, a cylinder mounting plate C28, a cylinder C29, a floating joint C30, a rack B31, a gear B32, a bearing seat B33, a rotating shaft B34, a clamp plate 35, a guide rail slider B36, a CCD support A37, a CCD support B38, a light source 39, a gasket mounting ring 40, a support plate 41, a rotation plate A42, a fine adjustment mechanism B43, a fine adjustment plate A camera adapter plate A44, an upper and a camera adapter plate 46, a camera adapter block B5947, a camera adjustment plate 46.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Referring to fig. 1-4, in an embodiment of the present invention, an optical component rotation detecting apparatus includes a base plate 1, the base plate 1 is connected to a module a4 through a screw to provide power for moving an apparatus in an X-axis direction, the module a4 is connected to a patch panel a5 through a screw, the patch panel a5 is fixed to a module B6 to provide power for moving an apparatus in a Y-axis direction, the module B6 is fixed to a patch panel B7 through a screw, the patch panel B7 is fixed to a sleeve 8, the sleeve 8 is slidably connected to a shaft 9 for stable and reliable lifting, the patch panel B7 is fixed to a cylinder a10, the cylinder a10 is fixedly connected to a floating joint a11, two ends of the floating joint a11 are respectively fixedly connected to a cylinder a10 and a support plate 12 to facilitate rotation adjustment of the apparatus, the support plate 12 is fixedly connected to a cylinder mounting plate a13, and a left side of the cylinder mounting plate a13 is connected to a cylinder B14, the right side of cylinder mounting panel A13 is connected with unsteady joint B15, the both sides of unsteady joint B15 are connected with cylinder mounting panel A13 and connecting block 16 respectively, backup pad 12 top fixedly connected with guide rail slider 18, guide rail slider 18 top is provided with guide rail keysets 17, is used for ascending direction, guide rail keysets 17's right side is fixed with dog 20, guide rail keysets 17's right side is provided with dog subassembly A19, guide rail keysets 17's top is fixed with rack A21, rack A21 has gear A24 through the profile of tooth meshing for the transmission of power, gear A24 passes through the screw connection on bearing frame A23, guarantees rotatory reliable and stable, bearing frame A23 normal running fit has pivot A22, bearing frame A23 is through screw fixedly connected with rotating bottom plate 25, rotating bottom plate 25 is through screw fixedly connected with cylinder mounting panel B26, a stop block assembly B27 is fixed on the cylinder mounting plate B26, the rotating bottom plate 25 is fixedly connected with a guide rail slider B36 through a screw, the rotating bottom plate 25 is fixedly connected with a cylinder mounting plate C28 through a screw, the cylinder mounting plate C28 is fixedly connected with a cylinder C29, the cylinder C29 is provided with a floating joint C30, the floating joint C30 is fixedly connected with a rotating plate 49, the rotating plate 49 is fixedly connected with a rack B31, the rack B31 is engaged with a gear B32 through a tooth form, the gear B32 is connected with a rotating shaft B34 through a key, the rotating shaft B34 is rotatably matched with a bearing seat B33, and the rotating shaft B34 is provided with a clamp plate 35;

the bottom plate 1 is connected with a fixed seat 2 through screws, the fixed seat 2 is connected with a support rod 3 through screws, a CCD support B38 is arranged on the support rod 3, a CCD support A37 is arranged on a CCD support B38, a light source 39 is arranged on the CCD support A37 to provide power for equipment photographing, a gasket mounting ring 40 is arranged on the support rod 3, the gasket mounting ring 40 is connected with a support plate 41 through screws, the support plate 41 is connected with a fine adjustment mechanism A42 through screws to facilitate adjustment of the X-axis direction of a camera, the fine adjustment mechanism A42 is connected with a fine adjustment mechanism B43 through screws to facilitate adjustment of the Y-axis direction of the camera, the fine adjustment mechanism B43 is connected with a camera adapter plate A44 through screws, the camera adapter plate A44 is fixed with an upper and lower adjustment block 45 and a camera adapter plate B46 through screws, the camera adapter plate B46 is fixed with a camera 47 through screws, the method is used for photographing the optical parts.

And a plurality of threaded holes are formed in the clamp plate 35, so that the clamp plate is convenient to clamp different products.

The sleeve 8 is provided with two, and all fixes on keysets B7 through the screw, and it is reliable and stable to go up and down.

The rotating shaft A22 is in a stepped shape and is convenient to mount.

The module A4 and the module B6 are horizontally and vertically arranged, so that adjustment is convenient.

The fine adjustment mechanism A42 and the fine adjustment mechanism B43 are vertically arranged in the vertical direction, and the camera can be conveniently and independently adjusted.

The middle of the sleeve 8 is provided with a through hole, and the through hole is in clearance fit with the shaft 9, so that the structure is more stable.

The utility model discloses a theory of operation is: the utility model discloses during the use, at first fix the product on anchor clamps board 35, module 4 starts, it removes to drive module 6, thereby drive the removal of whole mechanism, conveniently adjust and set up initial position, cylinder A10 starts, drive the mechanism rebound on the backup pad 12, drive rack A21 through cylinder B14, rack A21 and gear A24 rotate through the profile of tooth meshing, thereby drive the mechanism on the rotating bottom plate 25, cylinder C29 starts, it removes to drive rack B31, rack B31 and gear B32 rotate through the profile of tooth meshing, thereby drive the rotation of anchor clamps board 35, the precision of artifical detection has been improved to a certain extent, all-round optical element detects, degree of automation is high, strong adaptability, high performance, efficiency is improved, and easy popularization.

The above description is only an example of the preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and those skilled in the art should be able to realize the equivalent alternatives and obvious variations of the present invention.

Claims (7)

1. The optical part rotation detection device comprises a bottom plate (1) and is characterized in that the bottom plate (1) is connected with a module A (4) through screws, the module A (4) is connected with a patch panel A (5) through screws, a module B (6) is fixed on the patch panel A (5), a patch panel B (7) is fixed on the module B (6) through screws, a sleeve (8) is fixed on the patch panel B (7), the sleeve (8) is slidably connected with a shaft (9), a cylinder A (10) is fixed on the patch panel B (7), the cylinder A (10) is fixedly connected with a floating joint A (11), two ends of the floating joint A (11) are respectively fixedly connected with a cylinder A (10) and a support plate (12), a cylinder mounting plate A (13) is fixedly connected on the support plate (12), and a cylinder B (14) is connected to the left side of the cylinder mounting plate A (13), the right side of cylinder mounting panel A (13) is connected with unsteady joint B (15), the both sides that unsteady joint B (15) are connected with cylinder mounting panel A (13) and connecting block (16) respectively, backup pad (12) top fixedly connected with guide rail slider (18), guide rail slider (18) top is provided with guide rail keysets (17), the right side of guide rail keysets (17) is fixed with dog (20), the right side of guide rail keysets (17) is provided with dog subassembly A (19), the top of guide rail keysets (17) is fixed with rack A (21), rack A (21) have gear A (24) through the profile of tooth meshing, gear A (24) pass through the screw connection on bearing frame A (23), bearing frame A (23) have pivot A (22) through the normal running fit, bearing frame A (23) pass through screw fixedly connected with rotating bottom plate (25), the rotary base plate (25) is fixedly connected with an air cylinder mounting plate B (26) through screws, a stop block component B (27) is fixed on the air cylinder mounting plate B (26), the rotary base plate (25) is fixedly connected with a guide rail sliding block B (36) through screws, the rotary base plate (25) is fixedly connected with an air cylinder mounting plate C (28) through screws, the air cylinder mounting plate C (28) is fixedly connected with an air cylinder C (29), the air cylinder C (29) is provided with a floating joint C (30), the floating joint C (30) is fixedly connected with a rotary plate (49), the rotary plate (49) is fixedly connected with a rack B (31), the rack B (31) is meshed with a gear B (32) through tooth profiles, the gear B (32) is connected with a rotary shaft B (34) through keys, and the rotary shaft B (34) is rotationally matched with a bearing seat B (33), a clamp plate (35) is arranged on the rotating shaft B (34);

the base plate (1) is connected with a fixing seat (2) through screws, the fixing seat (2) is connected with a support rod (3) through screws, a CCD support B (38) is arranged on the support rod (3), a CCD support A (37) is arranged on the CCD support B (38), a light source (39) is arranged on the CCD support A (37), a gasket mounting ring (40) is arranged on the support rod (3), the gasket mounting ring (40) is connected with a support plate (41) through screws, the support plate (41) is connected with a fine adjustment mechanism A (42) through screws, the fine adjustment mechanism A (42) is connected with a fine adjustment mechanism B (43) through screws, the fine adjustment mechanism B (43) is connected with a camera adapter plate A (44) through screws, and the camera adapter plate A (44) is fixed with an upper and lower adjusting block (45) and a camera adapter plate B (46) through screws, the camera adapter plate B (46) is fixed with a camera (47) through a screw.

2. The optical component rotation detecting device according to claim 1, wherein the jig plate (35) has a plurality of screw holes formed therein.

3. An optical component rotation detecting device as claimed in claim 1, wherein the sleeve (8) is provided in two and is fixed to the adapter plate B (7) by screws.

4. The optical component rotation detecting device according to claim 1, wherein the rotation axis a (22) is stepped in shape.

5. The optical component rotation detecting apparatus according to claim 1, wherein the module a (4) and the module B (6) are disposed horizontally and vertically.

6. The optical part rotation detecting device according to claim 1, wherein the fine adjustment mechanism a (42) and the fine adjustment mechanism B (43) are vertically disposed.

7. An optical component rotation detecting device as claimed in claim 1, wherein the sleeve (8) is provided with a through hole in the middle, and the through hole is in clearance fit with the shaft (9).

Images