CN219401270U - Novel optical coating machine - Google Patents

Abstract

The utility model discloses a novel optical coating machine, and relates to the technical field of coating machines. The utility model comprises the following steps: the coating machine comprises a coating machine body, wherein a box body is fixedly arranged on one side of the coating machine body, and an object inlet and an object outlet are formed in the box body; the sliding plate is slidably arranged between two sides of the inner wall of the box body; the lifting assembly is arranged in the box body and is used for driving the sliding plate to lift; the number of the cleaning brushes is at least three, and the three cleaning brushes are distributed in a linear array and are rotatably arranged at the bottom of the sliding plate. According to the utility model, through the cooperation of the lifting assembly, the cleaning brush, the driving assembly, the centralizing frame, the dust collection assembly, the movable plate, the placing frame and the movable assembly, the cleaning dust collection can be carried out before the optical lens enters the coating machine body for coating, so that the time and labor waste caused by manual cleaning are avoided, meanwhile, the problems of incomplete manual cleaning and reduced coating effect are avoided, and the use of people is facilitated.

Description

Novel optical coating machine

Technical Field

The utility model relates to the technical field of coating machines, in particular to a novel optical coating machine.

Background

The optical film plating machine is a process test instrument used in the fields of information science, system science and physics, and comprises a layer (or a plurality of layers) of metal (or medium) films coated on the surface of an optical part, so that the reflection and transmission characteristics of the surface of the optical part can be changed, the purpose of coating films on the surface of the optical part is to meet the requirements of reducing or increasing the reflection, beam splitting, color separation, light filtering, polarization and the like of light, the change of the reflectivity or the transmissivity of the light is monitored in real time mainly through optical glass (also called a light control plate and placed on a light control tray) in the optical film plating, and real-time reflectivity or transmissivity data is provided for a host computer, so that the optical thickness control of the film is realized, and the computer carries out evaporation of a material at an instant when the reflectivity or the transmissivity is changed to a preset stop position according to the reflectivity or the transmissivity, so that the required film thickness is obtained.

Before the optical lens is coated, the surface of the optical lens needs to be cleaned, and the existing surface of the optical lens is cleaned by manpower, so that the cleaning efficiency is low due to time and labor consumption, dust particles can be remained during cleaning, and the thickness of the coating film of the coating machine can be influenced if the dust particles remain on the surface of the optical lens, thereby influencing the coating effect.

Disclosure of Invention

The utility model aims at: in order to solve the problems in the background art, the utility model provides a novel optical coating machine.

The utility model adopts the following technical scheme for realizing the purposes: a novel optical coating machine, comprising: the coating machine comprises a coating machine body, wherein a box body is fixedly arranged on one side of the coating machine body, and an object inlet and an object outlet are formed in the box body; the sliding plate is slidably arranged between two sides of the inner wall of the box body; the lifting assembly is arranged in the box body and is used for driving the sliding plate to lift; the cleaning brushes are at least three in number, are arranged at the bottom of the sliding plate in a linear array distribution and are used for cleaning dust on the surface of a coated object; the driving assembly is arranged on the sliding plate and is used for driving the three cleaning brushes to rotate simultaneously; the centralized frame is fixedly arranged at the bottom of the sliding plate and is in an up-down penetrating structure with at least three through holes; the dust collection assembly is arranged on the box body and is used for sucking cleaned dust; the movable plate is slidably mounted at the bottom of the inner wall of the box body, three placing frames are fixedly mounted at the top of the movable plate, and a movable assembly for driving the movable plate to move is mounted at the bottom of the inner wall of the box body.

Further, the lifting assembly comprises two electric push rods fixedly mounted at the top of the inner wall of the box body, and the telescopic ends of the two electric push rods are fixedly connected with the top of the sliding plate.

Further, the driving assembly comprises a driving motor fixedly installed on the top of the sliding plate, three gears are fixedly installed on the tops of the three cleaning brushes respectively, the three gears are meshed with each other, and the output end of the driving motor is meshed with one of the gears.

Further, the dust collection assembly comprises a centralized cover fixedly inserted on one side of the centralized frame, a dust collection box is fixedly arranged on one side of the box body, a suction pump is fixedly arranged at the top of the dust collection box, the output end of the suction pump is communicated with the dust collection box, and a hose is connected between one end of the suction pump and the centralized cover.

Further, the moving assembly comprises an electric linear guide rail fixedly mounted at the bottom of the inner wall of the box body, a sliding block is slidably mounted on the outer surface of the electric linear guide rail, and the sliding block is fixedly connected with the moving plate

The beneficial effects of the utility model are as follows:

according to the utility model, through the cooperation of the lifting assembly, the cleaning brush, the driving assembly, the centralizing frame, the dust collection assembly, the movable plate, the placing frame and the movable assembly, the cleaning dust collection can be carried out before the optical lens enters the coating machine body for coating, so that the time and labor waste caused by manual cleaning are avoided, meanwhile, the problems of incomplete manual cleaning and reduced coating effect are avoided, and the use of people is facilitated.

Drawings

FIG. 1 is a perspective view of the structure of the present utility model;

FIG. 2 is a further perspective view of the structure of the present utility model;

fig. 3 is a perspective view of the present utility model in a cross-section of the structure of fig. 1.

Reference numerals: 1. a film plating machine body; 2. a case; 3. a sliding plate; 4. a lifting assembly; 41. an electric push rod; 5. a cleaning brush; 6. a drive assembly; 61. a driving motor; 62. a gear; 7. a centralizing frame; 8. a dust collection assembly; 81. a centralizing cover; 82. a dust collection box; 83. a suction pump; 84. a hose; 9. a moving plate; 10. placing a frame; 11. a moving assembly; 111. an electric linear guide rail; 112. a sliding block.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1-3, a novel optical film plating machine according to an embodiment of the present utility model includes: the coating machine comprises a coating machine body 1, wherein a box body 2 is fixedly arranged on one side of the coating machine body 1, and an object inlet and an object outlet are formed in the box body 2; the sliding plate 3 is slidably arranged between two sides of the inner wall of the box body 2; the lifting assembly 4 is arranged in the box body 2 and is used for driving the sliding plate 3 to lift; the cleaning brushes 5 are at least three in number, and the three cleaning brushes 5 are rotatably arranged at the bottom of the sliding plate 3 in a linear array distribution manner and are used for cleaning dust on the surface of a coated object; the driving component 6 is arranged on the sliding plate 3 and is used for driving the three cleaning brushes to rotate simultaneously; the centralized frame 7 is fixedly arranged at the bottom of the sliding plate 3, and the centralized frame 7 is provided with at least three through holes in a vertically penetrating structure; a dust collection assembly 8, wherein the dust collection assembly 8 is mounted on the box body 2 and is used for sucking cleaned dust; the movable plate 9, the movable plate 9 slidable mounting in the bottom of box 2 inner wall, the top fixed mounting of movable plate 9 has three to place frame 10, the bottom of box 2 inner wall is installed and is used for driving the movable assembly 11 that movable plate 9 removed.

The optical lens is placed in the placement frame 10, then the moving assembly 11 is utilized to drive the moving plate 9 to move into the box body 2, then the lifting assembly 4 is started to drive the sliding plate 3 to move downwards, so that the cleaning brush 5 is driven to move downwards, the centralized frame 7 is driven to move downwards, the three placement frames 10 enter the centralized frame 7, then the driving assembly 6 is utilized to drive the three cleaning brushes 5 to synchronously rotate, thereby cleaning the surface of the optical lens in the three placement frames 10, and meanwhile, the dust collection assembly 8 is utilized to absorb the dust of cleaning and lifting, thereby cleaning the surface of the optical lens after the cleaning is finished, the film plating is conveniently carried out, after the cleaning is finished, the placement frames 10 on the moving plate 9 are driven by the moving assembly 11 to move into the film plating machine body 1, and the optical lens inside the film plating machine body 1 is driven to carry out film plating, so compared with the prior art, the cleaning and dust removal device has the advantages that the cleaning and time-consuming manual cleaning are avoided before the optical lens enters the film plating machine body 1, and the cleaning effect is not reduced, and the cleaning effect is not thoroughly achieved.

As shown in fig. 3, in some embodiments, the lifting assembly 4 includes two electric push rods 41 fixedly mounted on the top of the inner wall of the case 2, and telescopic ends of the two electric push rods 41 are fixedly connected to the top of the sliding plate 3.

The electric push rod 41 is started to enable the telescopic end of the electric push rod to stretch, so that the sliding plate 3 is driven to move up and down, and the lifting position is convenient to carry out.

As shown in fig. 3, in some embodiments, the driving assembly 6 includes a driving motor 61 fixedly installed on the top of the sliding plate 3, three gears 62 are fixedly installed on the top of the three cleaning brushes 5, the three gears 62 are engaged with each other, and an output end of the driving motor 61 is engaged with one of the gears 62.

The driving motor 61 is started to drive one of the gears 62 to rotate, and as the three gears 62 are meshed with each other, the other two gears 62 are simultaneously driven to rotate, and the other two cleaning brushes 5 are further driven to simultaneously rotate, so that the optical lenses in the placing frame 10 are simultaneously cleaned.

As shown in fig. 2-3, in some embodiments, the dust collection assembly 8 includes a collecting cover 81 fixedly inserted into one side of the collecting frame 7, a dust box 82 is fixedly installed on one side of the box 2, a suction pump 83 is fixedly installed on the top of the dust box 82, an output end of the suction pump 83 is communicated with the dust box 82, and a hose 84 is connected between one end of the suction pump 83 and the collecting cover 81.

The suction pump 83 is started, suction force of the suction pump enters the concentration hood 81 through the hose 84 to generate negative pressure, and then dust lifted in the concentration frame 7 is sucked and enters the dust collection box 82 to complete dust collection.

As shown in fig. 3, in some embodiments, the moving assembly 11 includes an electric linear guide 111 fixedly mounted on the bottom of the inner wall of the case 2, and a slider 112 is slidably mounted on the outer surface of the electric linear guide 111, and the slider 112 is fixedly connected to the moving plate 9.

The electric linear guide 111 and the sliding block 112 are in the prior art, and the sliding block 112 can be driven to move by starting the electric linear guide 111, so that the moving plate 9 is driven to move, one end of the electric linear guide 111 extends into the film plating machine body 1, and the other end extends to the outside of the box body 2.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. A novel optical coating machine, characterized by comprising:

the coating machine comprises a coating machine body (1), wherein a box body (2) is fixedly arranged on one side of the coating machine body (1), and an object inlet and an object outlet are formed in the box body (2);

the sliding plate (3) is slidably arranged between two sides of the inner wall of the box body (2);

the lifting assembly (4) is arranged in the box body (2) and is used for driving the sliding plate (3) to lift;

the cleaning brushes (5) are at least three in number, and the three cleaning brushes (5) are rotatably arranged at the bottom of the sliding plate (3) in a linear array distribution manner and are used for cleaning dust on the surface of a coated object;

the driving assembly (6) is arranged on the sliding plate (3) and is used for driving the three cleaning brushes to rotate simultaneously;

the centralized frame (7) is fixedly arranged at the bottom of the sliding plate (3), and the centralized frame (7) is provided with at least three through holes in an up-down penetrating structure;

the dust collection assembly (8) is arranged on the box body (2) and is used for sucking cleaned dust;

the movable plate (9), movable plate (9) slidable mounting in the bottom of box (2) inner wall, the top fixed mounting of movable plate (9) has three frame (10) of placing, the bottom of box (2) inner wall is installed and is used for driving movable assembly (11) that movable plate (9) removed.

2. The novel optical coating machine according to claim 1, wherein the lifting assembly (4) comprises two electric push rods (41) fixedly mounted on the top of the inner wall of the box body (2), and the telescopic ends of the two electric push rods (41) are fixedly connected with the top of the sliding plate (3).

3. The novel optical film plating machine according to claim 1, wherein the driving assembly (6) comprises a driving motor (61) fixedly mounted on the top of the sliding plate (3), three gears (62) are fixedly mounted on the tops of the three cleaning brushes (5), the three gears (62) are meshed with each other, and the output end of the driving motor (61) is meshed with one of the gears (62).

4. The novel optical film plating machine according to claim 1, wherein the dust collection assembly (8) comprises a concentration cover (81) fixedly inserted on one side of the concentration frame (7), a dust collection box (82) is fixedly installed on one side of the box body (2), a suction pump (83) is fixedly installed on the top of the dust collection box (82), the output end of the suction pump (83) is communicated with the dust collection box (82), and a hose (84) is connected between one end of the suction pump (83) and the concentration cover (81).

5. The novel optical coating machine according to claim 1, wherein the moving assembly (11) comprises an electric linear guide rail (111) fixedly mounted at the bottom of the inner wall of the box body (2), a sliding block (112) is slidably mounted on the outer surface of the electric linear guide rail (111), and the sliding block (112) is fixedly connected with the moving plate (9).