CN117969417A - Optical glass light transmission detection device - Google Patents
Optical glass light transmission detection device Download PDFInfo
- Publication number
- CN117969417A CN117969417A CN202410373769.1A CN202410373769A CN117969417A CN 117969417 A CN117969417 A CN 117969417A CN 202410373769 A CN202410373769 A CN 202410373769A CN 117969417 A CN117969417 A CN 117969417A
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- Prior art keywords
- optical glass
- light transmittance
- fixedly connected
- telescopic rod
- driving
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- 239000005304 optical glass Substances 0.000 title claims abstract description 99
- 238000001514 detection method Methods 0.000 title claims abstract description 40
- 230000005540 biological transmission Effects 0.000 title claims abstract description 27
- 238000002834 transmittance Methods 0.000 claims abstract description 48
- 238000004140 cleaning Methods 0.000 claims abstract description 39
- 239000000523 sample Substances 0.000 claims abstract description 23
- 238000000034 method Methods 0.000 claims abstract description 15
- 238000012360 testing method Methods 0.000 claims abstract description 14
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 13
- 238000010438 heat treatment Methods 0.000 claims description 5
- 239000010720 hydraulic oil Substances 0.000 claims description 3
- 239000000428 dust Substances 0.000 abstract description 14
- 239000012535 impurity Substances 0.000 abstract description 4
- 230000033001 locomotion Effects 0.000 description 5
- 230000000694 effects Effects 0.000 description 4
- 238000001035 drying Methods 0.000 description 2
- 239000011521 glass Substances 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000001125 extrusion Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 230000003287 optical effect Effects 0.000 description 1
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- Investigating Or Analysing Materials By Optical Means (AREA)
Abstract
The invention belongs to the technical field of optical glass detection, and particularly relates to an optical glass light transmission detection device; comprising the following steps: the light source probe and the test hole are arranged on the light transmittance meter, and the light transmittance meter can detect the light transmittance of the optical glass; the optical glass light transmission detection device further comprises: a cleaning unit; according to the invention, the cleaning unit is arranged, so that the optical glass can be clamped and transported, and can be cleaned in the transportation process, on one hand, automatic feeding is realized, and the adhesion of fingerprint dust is reduced; on the other hand, the optical glass can be cleaned in the transportation process, and the influence of impurities such as dust on the light transmission detection of the optical glass is reduced.
Description
Technical Field
The invention belongs to the technical field of optical glass detection, and particularly relates to an optical glass light transmission detection device.
Background
Light transmission detection of optical glass is one method of assessing the transparency and optical properties of glass by measuring the ability of light to transmit through the glass material; it generally requires the use of a light transmittance meter;
when the light transmittance meter is used for carrying out light transmittance detection on the optical glass, a worker is often required to hold the optical glass for testing, so that the time and the labor are wasted, the degree of automation is low, fingerprints, dust and the like are easy to adhere to the optical glass, and particularly, the risk of dirt is easy to cause for the optical glass with smaller volume; and for optical glass stored for a long time, dust is more easily adhered to the surface of the optical glass; thereby affecting the light transmission detection of the optical glass.
In view of the above, the present invention provides an optical glass light transmittance detection device to solve the above-mentioned technical problems.
Disclosure of Invention
In order to make up for the defects in the prior art, the optical glass is automatically fed and cleaned; the invention provides an optical glass light transmission detection device.
The technical scheme adopted for solving the technical problems is as follows: an optical glass light transmission detection device, comprising: the light source probe and the test hole are arranged on the light transmittance meter, and the light transmittance meter can detect the light transmittance of the optical glass; the optical glass light transmission detection device further comprises: the cleaning unit is arranged and can clamp and transport the optical glass and clean the optical glass in the transportation process, so that on one hand, automatic feeding is realized and the adhesion of fingerprint dust is reduced; on the other hand, the optical glass can be cleaned in the transportation process, and the influence of impurities such as dust on the light transmission detection of the optical glass is reduced;
In the application, the light source probe and the test hole are arranged on the light transmittance meter, and the optical glass is placed between the light source probe and the test hole to realize detection.
Preferably, the cleaning unit includes: the cleaning box is fixedly connected with one end of the light transmittance meter, and a placing table is arranged at the other end of the cleaning box; the other end of the light transmittance meter is fixedly connected with a conveying table, and a conveying belt is arranged on the conveying table; a first cavity is formed in one side, close to the light transmittance meter, of the cleaning box, a first spring rod is fixedly connected to the bottom, close to one side of the placing table, of the first cavity, a first telescopic rod is fixedly connected to the top, close to one side of the placing table, of the first cavity, and a first brush is fixedly connected to the ends of the first spring rod and the first telescopic rod; the top and the bottom of the first cavity, which is close to one side of the light transmittance meter, are fixedly connected with a second spring rod; the end part of each spring rod II is fixedly connected with a hair brush II; the conveying rails penetrate through the two sides of the light transmittance meter and extend to the two sides of the conveying table; a moving plate is arranged on the opposite side of each conveying track, a second telescopic rod is fixedly connected to one side of each moving plate, and a clamping plate is fixedly connected to the other end of each second telescopic rod; the moving plate is movable along the conveying rail.
Preferably, water is filled in the first cavity, the first telescopic rod can stretch out and draw back, a driving component is arranged at a position, corresponding to the first hairbrush, on the conveying track, and the driving component can drive the first telescopic rod to stretch out and draw back.
Preferably, the second hairbrush is provided with a heating wire;
The optical glass is placed on the placing table by a worker, the second telescopic rod is stretched, the optical glass is adapted to different sizes of the optical glass according to different stretching lengths, the optical glass is clamped by the two clamping plates, the moving plate moves along the conveying track, and the driving mode can be screw-nut pair driving; the clamping plates clamp the optical glass and drive the optical glass to pass through the cleaning box for detection by the light transmittance meter, the optical glass is immediately conveyed to the conveying table after detection, and the conveying table is provided with a conveying belt which can be used for conveying the optical glass and can be set according to the length of the conveying belt; the process is carried out by a cleaning box, the first telescopic rod is in an extension state in an original state, the first spring rod is driven to compress, namely, the first hairbrush is immersed into water in the first cavity, when the moving plate passes through the first hairbrush, the first telescopic rod is shortened by the driving assembly, deformation and extension of the first spring rod are recovered, at the moment, joints of the upper hairbrush and the lower hairbrush are positioned on a moving path of the optical glass, extrusion deformation can be carried out on the first spring rod and the first telescopic rod during passing, the surface of the optical glass is cleaned, the first hairbrush is dipped with water at the moment, the cleaning effect is enhanced, after the optical glass passes through, the first hairbrush is continuously immersed into the water, the first hairbrush is cleaned, and the water in the first cavity is replaceable, so that the cleaning of the first hairbrush is ensured; then the optical glass passes through a second hairbrush which is always in a dry state, and the joint of the upper hairbrush and the lower hairbrush is also positioned in the movement path of the optical glass; the second spring rod is compressed when the optical glass passes through, namely the optical glass is extruded to be wiped, and the second hairbrush is provided with a heating wire, so that better drying is facilitated.
Preferably, a first groove is formed in the position, facing the light source probe, of the light transmittance meter, and the test hole is positioned at the bottom of the first groove; the sliding connection has two opening and closing plates in a groove, the one side that the opening and closing plate kept away from each other has linked firmly No. three telescopic links between a groove both sides wall, the position that corresponds a groove on the delivery track is provided with drive assembly, drive assembly can drive No. three telescopic links and stretch out and draw back.
Preferably, the bottoms of the two opening plates are fixedly connected with brushes;
Under the normal state, the two opening and closing plates are in a contact state, so that the light source probe is shielded, and dust is prevented from contacting the light source probe; when the motion plate moves to the first groove, the driving assembly shortens the third telescopic rod, the opening and closing plates are separated, the light source probe is exposed to work, and the hairbrush at the bottom of the opening and closing plates can brush the light source probe to clean the light source probe.
Preferably, the driving assembly includes: the driving groove is slidably connected with a driving plate, a first spring is fixedly connected between the side wall of the driving plate and the side wall of the driving groove, and hydraulic oil is filled in the driving groove; the driving groove at the first hairbrush is communicated with the first telescopic rod, and the driving groove at the first hairbrush is communicated with the third telescopic rod; the motion plate is made of a permanent magnet and can attract the driving plate;
when the first spring is in the original position, the driving plate is far away from the moving plate, and when the moving plate attracts the driving plate, the first spring contracts, the first telescopic rod contracts at the moment, and the third telescopic rod contracts; therefore, when the moving plate moves to the corresponding position, the corresponding structure can be automatically controlled to react.
The beneficial effects of the invention are as follows:
1. According to the optical glass light transmission detection device, the cleaning unit is arranged, so that the optical glass can be clamped and transported, and can be cleaned in the transportation process, on one hand, automatic feeding is realized, and the adhesion of fingerprint dust is reduced; on the other hand, the optical glass can be cleaned in the transportation process, and the influence of impurities such as dust on the light transmission detection of the optical glass is reduced.
2. According to the optical glass light transmission detection device, the optical glass is clamped by the clamping plates and driven to pass through the cleaning box for detection by the light transmission meter, and the optical glass is conveyed to the conveying table immediately after detection; the cleaning box is arranged in the process, when the moving plate passes through the first hairbrush, the driving assembly shortens the first telescopic rod, the first spring rod is recovered to deform and stretch, at the moment, the joint of the upper hairbrush and the lower hairbrush is positioned on the moving path of the optical glass, the first spring rod and the first telescopic rod can be extruded and deformed during the passing, the surface of the optical glass is cleaned, at the moment, the first hairbrush is dipped with water, the cleaning effect is enhanced, and after the optical glass passes through, the first hairbrush is continuously immersed in the water, and the first hairbrush is cleaned; and then the optical glass passes through a second hairbrush, and the second hairbrush is always in a dry state to squeeze the optical glass for wiping.
Drawings
The invention is further described below with reference to the accompanying drawings.
FIG. 1 is a perspective view of the present invention;
FIG. 2 is a second perspective view of the present invention;
FIG. 3 is a third perspective view of the present invention;
FIG. 4 is a cross-sectional view of the cleaning tank of the present invention;
FIG. 5 is a schematic view of the drive assembly of the present invention;
FIG. 6 is a partial cross-sectional view of the light source probe of the present invention;
In the figure: 1. a light transmittance meter; 11. a light source probe; 12. a test well; 2. a cleaning unit; 21. a cleaning tank; 22. a placement table; 23. a transfer station; 24. a first brush; 25. a first cavity; 26. a spring rod number one; 27. a first telescopic rod; 28. a spring rod II; 29. a second brush; 3. a conveying rail; 31. a motion plate; 32. a second telescopic rod; 33. a clamping plate; 4. a drive assembly; 41. a driving groove; 42. a driving plate; 43. a first spring; 5. a first groove; 51. an opening plate; 52. and a third telescopic rod.
Detailed Description
The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.
As shown in fig. 1, 2 and 3, the optical glass light transmission detection device of the present invention includes: the light transmittance meter 1, wherein the light source probe 11 and the test hole 12 are arranged on the light transmittance meter 1, and the light transmittance meter 1 can detect the light transmittance of the optical glass; the optical glass light transmission detection device further comprises: the cleaning unit 2 is used for clamping and transporting the optical glass and cleaning the optical glass in the transportation process;
When the optical glass is subjected to light transmission detection by the light transmittance meter 1 in working, a worker is often required to hold the optical glass for testing, so that the time and the labor are wasted, the degree of automation is low, fingerprints, dust and the like are easy to adhere to the optical glass, and particularly, the risk of dirt is easy to occur to the optical glass with smaller volume; and for optical glass stored for a long time, dust is more easily adhered to the surface of the optical glass; thereby affecting the light transmission detection of the optical glass; the cleaning unit 2 is arranged, so that the cleaning unit 2 can clamp and transport the optical glass and can clean the optical glass in the transportation process, on one hand, automatic feeding is realized, and the adhesion of fingerprint dust is reduced; on the other hand, the optical glass can be cleaned in the transportation process, and the influence of impurities such as dust on the light transmission detection of the optical glass is reduced;
In the application, a light source probe 11 and a test hole 12 are arranged on a light transmittance meter 1, and optical glass is placed between the light source probe 11 and the test hole 12 to realize detection.
As a specific embodiment of the present invention, as shown in fig. 1,2, 3, and 4, the cleaning unit 2 includes: a cleaning box 21, wherein one end of the light transmittance meter 1 is fixedly connected with the cleaning box 21, and the other end of the cleaning box 21 is provided with a placing table 22; a conveying table 23, the other end of the light transmittance meter 1 is fixedly connected with the conveying table 23, and a conveying belt is arranged on the conveying table 23; a first hairbrush 24, a first cavity 25 is formed in one side, close to the light transmittance meter 1, of the cleaning box 21, a first spring rod 26 is fixedly connected to the bottom, close to the placing table 22, of the first cavity 25, a first telescopic rod 27 is fixedly connected to the top, close to the placing table 22, of the first cavity 25, and the first hairbrush 24 is fixedly connected to the ends of the first spring rod 26 and the first telescopic rod 27; the top and the bottom of the first cavity 25, which is close to one side of the light transmittance meter 1, are fixedly connected with a second spring rod 28; the end part of each spring rod No. two 28 is fixedly connected with a hairbrush No. two 29; the conveying rails 3 are fixedly connected to the two sides of the cleaning box 21, and each conveying rail 3 penetrates through the two sides of the light transmittance meter 1 and extends to the two sides of the conveying table 23; a moving plate 31 is arranged on the opposite side of each conveying track 3, a second telescopic rod 32 is fixedly connected to one side of each moving plate 31, and a clamping plate 33 is fixedly connected to the other end of each second telescopic rod 32; the moving plate 31 is movable along the conveying rail 3;
as shown in fig. 4, water is filled in the first cavity 25, the first telescopic rod 27 can be telescopic, a driving component 4 is arranged on the conveying track 3 corresponding to the first hairbrush 24, and the driving component 4 can drive the first telescopic rod 27 to be telescopic;
the second brush 29 is provided with a heating wire;
When the device works, a worker puts the optical glass on the placing table 22, the second telescopic rod 32 stretches, the device adapts to different sizes of the optical glass according to different stretching lengths, the two clamping plates 33 clamp the optical glass, the moving plate 31 moves along the conveying track 3, and the driving mode can be screw-nut pair driving; that is, the clamping plate 33 clamps the optical glass and drives the optical glass to pass through the cleaning box 21 for detection by the light transmittance meter 1, the optical glass is transported to the conveying table 23 immediately after the detection, a conveying belt is arranged on the conveying table 23, the optical glass can be transported, and the length of the conveying belt can be set according to the requirement; the process is carried out by the cleaning box 21, the first telescopic rod 27 is in an extension state in the original state, the first spring rod 26 is driven to compress, namely, the first hairbrush 24 is immersed into water in the first cavity 25 at the moment, when the moving plate 31 passes through the first hairbrush 24, the first telescopic rod 27 is shortened, the first spring rod 26 is restored to deform and extend, at the moment, the seam between the upper hairbrush 24 and the lower hairbrush 24 is positioned on a moving path of optical glass, during the passing, the first spring rod 26 and the first telescopic rod 27 can be extruded and deformed, the surface of the optical glass is cleaned, at the moment, the first hairbrush 24 is dipped with water, the cleaning effect is enhanced, the first hairbrush 24 is continuously immersed into water to clean the first hairbrush 24, the water in the first cavity 25 is replaceable, and the cleaning of the first hairbrush 24 is ensured; then the optical glass passes through the second hairbrush 29, the second hairbrush 29 is always in a dry state, and the joint of the upper hairbrush 29 and the lower hairbrush 29 is also positioned on the movement path of the optical glass; the second spring rod 28 is compressed when the optical glass passes through, namely, the optical glass is extruded to be wiped, and the second hairbrush 29 is provided with a heating wire, so that better drying is facilitated.
As a specific embodiment of the present invention, as shown in fig. 1, 2, 3 and 6, a first groove 5 is formed on the position, facing the light source probe 11, of the light transmittance meter 1, and a test hole 12 is positioned at the bottom of the first groove 5; the first groove 5 is internally and slidably connected with two opening and closing plates 51, a third telescopic rod 52 is fixedly connected between one side, away from each other, of the opening and closing plates 51 and two side walls of the first groove 5, a driving assembly 4 is arranged on the conveying track 3 at a position corresponding to the first groove 5, and the driving assembly 4 can drive the third telescopic rod 52 to stretch;
The bottoms of the two opening and closing plates 51 are fixedly connected with brushes;
When the device works, the two opening and closing plates 51 are in a contact state in a normal state, so that the light source probe 11 is shielded, and dust is prevented from contacting the light source probe 11; when the moving plate 31 moves to the first groove 5, the driving component 4 shortens the third telescopic rod 52, the opening and closing plate 51 is separated, the light source probe 11 is exposed to work, and the brush at the bottom of the opening and closing plate 51 brushes the light source probe 11 to clean the light source probe 11.
As a specific embodiment of the present invention, as shown in fig. 5, the driving assembly 4 includes: the driving groove 41 is slidably connected with the driving plate 42, a first spring 43 is fixedly connected between the side wall of the driving plate 42 and the side wall of the driving groove 41, and hydraulic oil is filled in the driving groove 41; the driving groove 41 at the first hairbrush 24 is communicated with the first telescopic rod 27 through an external pipeline, the driving groove 41 at the first groove 5 is communicated with the third telescopic rod 52 through an external pipeline, the external pipeline can be a rubber hose and can be arranged on the outer surface of the whole device in a bendable manner, and the external pipeline is not shown in the drawing of the specification; the moving plate 31 is made of permanent magnets, and the moving plate 31 can attract the driving plate 42;
When the first spring 43 is in the original position in operation, the driving plate 42 is far away from the moving plate 31, and when the moving plate 31 attracts the driving plate 42, the first spring 43 contracts, at the moment, the first telescopic rod 27 contracts, and the third telescopic rod 52 contracts; the corresponding structure can be automatically controlled to react when the moving plate 31 moves to the corresponding position.
Claims (7)
1. An optical glass light transmission detection device, comprising:
The optical glass comprises a light transmittance meter (1), wherein a light source probe (11) and a test hole (12) are arranged on the light transmittance meter (1), and the light transmittance meter (1) can detect the light transmittance of the optical glass;
The method is characterized in that: the optical glass light transmission detection device further comprises:
And the cleaning unit (2) can clamp and transport the optical glass and can clean the optical glass in the transportation process.
2. The optical glass light transmittance detection device according to claim 1, wherein: the cleaning unit (2) comprises:
the cleaning box (21), one end of the light transmittance meter (1) is fixedly connected with the cleaning box (21), and the other end of the cleaning box (21) is provided with a placing table (22);
the transmission platform (23), the other end of the light transmittance meter (1) is fixedly connected with the transmission platform (23), and a transmission belt is arranged on the transmission platform (23);
A first hairbrush (24), a first cavity (25) is formed in one side, close to the light transmittance meter (1), of the cleaning box (21), a first spring rod (26) is fixedly connected to the bottom, close to the placing table (22), of the first cavity (25), a first telescopic rod (27) is fixedly connected to the top, close to the placing table (22), of the first cavity (25), and the first hairbrush (24) is fixedly connected to the ends of the first spring rod (26) and the first telescopic rod (27); the top and the bottom of the first cavity (25) close to one side of the light transmittance meter (1) are fixedly connected with a second spring rod (28); the end part of each spring rod II (28) is fixedly connected with a hairbrush II (29);
The conveying rails (3) are fixedly connected to the two sides of the cleaning box (21), and each conveying rail (3) penetrates through the two sides of the light transmittance meter (1) and extends to the two sides of the conveying table (23); a moving plate (31) is arranged on the opposite side of each conveying track (3), a second telescopic rod (32) is fixedly connected to one side of each moving plate (31), and a clamping plate (33) is fixedly connected to the other side of each second telescopic rod (32); the moving plate (31) can move along the conveying track (3).
3. The optical glass light transmittance detection device according to claim 2, wherein: the utility model discloses a flexible electric motor car, including cavity (25) and flexible rod (27), be equipped with water in cavity (25), flexible rod (27) can stretch out and draw back, the position that corresponds brush (24) on delivery track (3) is provided with drive assembly (4), drive assembly (4) are connected with flexible rod (27) through external pipeline, drive assembly (4) can drive flexible rod (27) flexible.
4. An optical glass light transmittance detection device according to claim 3, wherein: and a heating wire is arranged on the second hairbrush (29).
5. The optical glass light transmittance detection device according to claim 4, wherein: a first groove (5) is formed in the position, facing the light source probe (11), of the light transmittance meter (1), and the test hole (12) is formed in the bottom of the first groove (5); the utility model discloses a flexible device is characterized in that two opening and closing plates (51) are connected in a sliding manner in a groove (5), a third telescopic rod (52) is fixedly connected between one side, away from each other, of the opening and closing plates (51) and two side walls of the groove (5), a driving assembly (4) is arranged at a position, corresponding to the groove (5), on the conveying track (3), the driving assembly (4) is connected with the third telescopic rod (52) through an external pipeline, and the driving assembly (4) can drive the third telescopic rod (52) to stretch out and draw back.
6. The optical glass light transmittance detection device according to claim 5, wherein: the bottoms of the two opening and closing plates (51) are fixedly connected with brushes.
7. The optical glass light transmittance detection device according to claim 6, wherein: the drive assembly (4) comprises: the driving device comprises a driving groove (41), wherein a driving plate (42) is connected in the driving groove (41) in a sliding mode, a first spring (43) is fixedly connected between the side wall of the driving plate (42) and the side wall of the driving groove (41), and hydraulic oil is filled in the driving groove (41); the driving groove (41) at the first hairbrush (24) is communicated with the first telescopic rod (27) through an external pipeline, and the driving groove (41) at the first groove (5) is communicated with the third telescopic rod (52) through an external pipeline; the moving plate (31) is made of permanent magnets, and the moving plate (31) can attract the driving plate (42).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202410373769.1A CN117969417A (en) | 2024-03-29 | 2024-03-29 | Optical glass light transmission detection device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202410373769.1A CN117969417A (en) | 2024-03-29 | 2024-03-29 | Optical glass light transmission detection device |
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| Publication Number | Publication Date |
|---|---|
| CN117969417A true CN117969417A (en) | 2024-05-03 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202410373769.1A Pending CN117969417A (en) | 2024-03-29 | 2024-03-29 | Optical glass light transmission detection device |
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