CN210038413U

CN210038413U - Lens protection device

Info

Publication number: CN210038413U
Application number: CN201920857674.1U
Authority: CN
Inventors: 王锐; 宋磊; 令龙军; 李晓鸣; 郭福忠
Original assignee: Shenzhen Chaoweizhizao Technology Co Ltd
Current assignee: Shenzhen Chaoweizhizao Technology Co Ltd; CITIC Dicastal Co Ltd
Priority date: 2019-06-06
Filing date: 2019-06-06
Publication date: 2020-02-07
Anticipated expiration: 2029-06-06

Abstract

The embodiment of the utility model relates to an automatic technical field discloses a camera lens protection device, including transparent shielding piece, the neighbouring that is used for shielding the camera lens the wind knife tackle spare that transparent shielding piece set up and with the air supply system that the wind knife tackle spare links to each other, air supply system does the wind knife tackle spare provides compressed air, the wind knife tackle spare produces the wind curtain of blowing to transparent shielding piece top, the wind knife tackle spare includes first air-out passageway and second air-out passageway, first air-out passageway will compressed air direction be on a parallel with transparent shielding piece surface and sweep the air current on transparent shielding piece surface, second air-out passageway will compressed air direction is for blowing to the air current directly over transparent shielding piece to one side. The utility model provides a camera lens protection device can make the camera lens keep clean clear state, the interference that environmental pollution was avoided to the protection camera lens.

Description

Lens protection device

Technical Field

An embodiment of the utility model provides a relate to automatic technical field, in particular to a camera lens protection device for protecting industry camera lens.

Background

With the rapid development of industry, an automatic production line begins to appear in the industrial production, and industrial cameras are more and more widely applied to the automatic production line. Industrial cameras are very important auxiliary devices in industrial manufacturing, and are generally used for appearance detection, two-dimensional code recognition, dimension measurement, visual positioning, safety monitoring and the like.

The inventor finds that: many environments in industrial production are complex, dust, oil stain and other liquid pollution can cause the problems of dust covering, dirt and the like of a lens, and at the moment, an industrial camera cannot acquire clear and complete pictures, so that the use accuracy and efficiency can be seriously influenced, and serious people even cause production accidents.

In view of the above, there is a need for a lens protection device for an industrial lens, which can keep the lens clean and protect the lens from environmental pollution.

SUMMERY OF THE UTILITY MODEL

An object of the embodiments of the present invention is to provide a lens protection device, which can keep the lens clean and clean, and protect the lens from the interference of environmental pollution.

In order to solve the technical problem, the utility model provides an embodiment provides a lens protection device, it is including being used for shielding transparent shielding piece, the neighbouring of camera lens the wind knife tackle spare that transparent shielding piece set up and with the air supply system that wind knife tackle spare links to each other, air supply system does wind knife tackle spare provides compressed air, wind knife tackle spare produces the wind curtain of blowing to transparent shielding piece top, wind knife tackle spare includes first air-out passageway and second air-out passageway, first air-out passageway will compressed air direction is for being on a parallel with transparent shielding piece surface and sweep the air current on transparent shielding piece surface, second air-out passageway will compressed air direction is for blowing to the air current directly over transparent shielding piece to one side.

Compared with the prior art, the embodiment of the utility model adopts the transparent shielding piece to shield the lens, and utilizes the transparent shielding piece to shield the covering dust and dirt from the outside, thereby avoiding the lens from being polluted by dust, oil dirt and other liquid and ensuring the lens to keep a clean state; and the air knife assembly arranged adjacent to the transparent shielding piece generates an air curtain blowing towards the upper part of the transparent shielding piece by utilizing compressed air from an air supply system, so that dust, oil stain, liquid and the like attached to the surface of the transparent shielding piece can be blown off when the pollution degree of the transparent shielding piece reaches a clearing condition, the image quality of the lens shooting an object through the transparent shielding piece is not influenced, and the lens is protected from being interfered by environmental pollution.

In addition, in the lens protection device, the air knife assembly comprises a first air cavity communicated with an air supply system, the first air cavity is respectively communicated with the first air outlet channel and the second air outlet channel, the first air outlet channel guides the air flow from the first air cavity into the air flow which is parallel to the surface of the transparent shielding piece and sweeps across the surface of the transparent shielding piece, and the second air outlet channel guides the air flow from the first air cavity into the air flow which is obliquely blown to the position right above the transparent shielding piece.

In addition, in the lens protection device, the air knife assembly further comprises a foreign matter removing channel opposite to the first air outlet channel.

In addition, the lens protection device further comprises a switch assembly which can partially extend into the first air outlet channel and the second air outlet channel, and the switch assembly selectively cuts off one of the first air outlet channel and the second air outlet channel.

In addition, in the lens protection device, the air knife assembly comprises a pressing plate, an air cavity component arranged on the pressing plate and an air curtain pressing block covered on the air cavity component, the pressing plate and the air curtain pressing block jointly enclose the first air cavity, the air cavity component and the pressing plate jointly enclose the first air outlet channel, and the air cavity component and the air curtain pressing block jointly enclose the second air outlet channel.

In addition, in the lens protection device, the air cavity component comprises a bottom surface adjacent to the pressing plate and a top surface adjacent to the air curtain pressing block, a slotted hole penetrating through the top surface and the bottom surface is formed in the air cavity component, a first airflow guide surface adjacent to the slotted hole is arranged on the bottom surface, the pressing plate is opposite to the bottom surface, the slotted hole, the pressing plate located on one side of the bottom surface and the air curtain pressing block located on one side of the top surface jointly enclose the first air cavity, the pressing plate and the first airflow guide surface jointly enclose the first air outlet channel, a second airflow guide surface adjacent to the first air cavity is arranged on the air curtain pressing block, and the top surface and the second airflow guide surface jointly enclose the second air outlet channel.

In addition, the lens protection device further comprises a switch blocking piece, the air cavity piece comprises a first switch slot hole which penetrates through the top surface and the bottom surface and is respectively communicated with the first air outlet channel and the second air outlet channel, and the switch blocking piece is movably arranged in the first switch slot hole and selectively blocks one of the first air outlet channel and the second air outlet channel.

In addition, in the lens protection device, a groove isolated from the slot hole is formed in the top surface, the air curtain pressing block is opposite to the groove and forms a second air cavity together with the groove, a third air flow guide surface adjacent to the second air cavity is arranged on the air curtain pressing block, and the top surface and the third air flow guide surface form a second air outlet channel together.

In addition, the lens protection device further comprises a switch catch, a second switch groove communicated with the second air outlet channel is formed in the top surface, a third switch groove communicated with the second switch groove is formed in the air curtain pressing block, the second switch groove and the third switch groove are communicated with each other to form a moving channel, and the switch catch is movably arranged in the moving channel and selectively cuts off the second air outlet channel.

In addition, the lens protection device further comprises a rotatable switch knob, the switch knob is in transmission connection with the switch blocking piece, and the switch blocking piece moves under the rotation driving of the switch knob.

In addition, in the lens protection device, the switch knob is connected with the switch catch through sawtooth meshing.

In addition, in the lens protection device, a foreign matter removing groove opposite to the first airflow guide surface is further arranged on the bottom surface, and the foreign matter removing groove and the pressing plate jointly enclose a foreign matter removing channel.

In addition, in the lens protection device, the pressure plate is provided with a mounting groove for accommodating the transparent shielding piece and a viewing through hole which is arranged at the bottom of the mounting groove and is used for facing the lens, and the transparent shielding piece is fixed in the mounting groove.

In addition, in the lens protection device, the air cavity piece is in an annular shape with an inner hole, and the inner hole of the air cavity piece is over against the view finding through hole.

In addition, in the lens protection device, the air knife assembly comprises a first air cavity and a second air cavity which are communicated with an air supply system and isolated from each other, the first air cavity is communicated with the first air outlet channel, the second air cavity is communicated with the second air outlet channel, the first air outlet channel guides the air flow from the first air cavity into the air flow which is parallel to the surface of the transparent shielding piece and sweeps across the surface of the transparent shielding piece, and the second air outlet channel guides the air flow from the second air cavity into the air flow which is obliquely blown to the position right above the transparent shielding piece.

In addition, in the lens protection device, the air knife assembly comprises a pressing plate, an air cavity component arranged on the pressing plate, and an air curtain pressing block covered on the air cavity component, the air cavity component and the pressing plate together enclose the first air cavity and the first air outlet channel, and the air cavity component and the air curtain pressing block together enclose the second air cavity and the second air outlet channel.

In addition, in the lens protection device, the air cavity component comprises a first air cavity groove for containing compressed air and a first airflow guide surface adjacent to the first air cavity groove, the pressing plate is over against the first air cavity groove and the first airflow guide surface, the pressing plate and the first air cavity groove jointly enclose the first air cavity, and the pressing plate and the first airflow guide surface jointly enclose the first air outlet channel.

In addition, in the lens protection device, the air cavity component comprises a second air cavity groove for containing compressed air, the air curtain pressure block is opposite to the second air cavity groove and surrounds the second air cavity groove together to form the second air cavity, the air curtain pressure block comprises a second air flow guide surface adjacent to the second air cavity, and the air cavity component and the second air flow guide surface surround together to form the second air outlet channel.

In addition, in the lens protection device, the air supply system comprises a first air inlet pipe communicated with the first air cavity, a second air inlet pipe communicated with the second air cavity, an electromagnetic valve and an air supply pipe respectively communicated with the first air inlet pipe and the second air inlet pipe through the electromagnetic valve, and the electromagnetic valve selectively controls at least one of the first air inlet pipe and the second air inlet pipe to be communicated with the air supply pipe.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

Fig. 1 is a schematic perspective view of a lens protection apparatus having a parallel air blowing module according to a first embodiment of the present invention;

fig. 2 is a schematic diagram of a frame structure of a control module and an air supply system of a lens protection apparatus according to a first embodiment of the present invention;

fig. 3 is a schematic perspective view of a lens protection apparatus having a parallel air blowing module and an oblique air blowing module according to a first embodiment of the present invention;

fig. 4 is a schematic perspective view of a lens protection apparatus having an oblique air blowing module according to a first embodiment of the present invention;

fig. 5 is a schematic view of a frame structure of a lens protection apparatus according to a second embodiment of the present invention;

fig. 6 is a schematic perspective view of a wind knife assembly according to a third embodiment of the present invention;

fig. 7 is a schematic top view of an air cavity member according to a third embodiment of the present invention;

fig. 8 is a schematic view showing the structure of the bottom surface of an air chamber member according to a third embodiment of the present invention;

figure 9 is a cross-sectional view of a fan blade assembly according to a third embodiment of the present invention;

fig. 10 is a schematic perspective view of an air curtain pressure block according to a third embodiment of the present invention;

fig. 11 is a schematic perspective view of a pressing plate according to a third embodiment of the present invention;

fig. 12 is a schematic perspective view of a switch blade according to a third embodiment of the present invention;

fig. 13 is a schematic perspective view of a switch knob according to a third embodiment of the present invention;

fig. 14 is a perspective view of a wind knife assembly according to a fourth embodiment of the present invention;

fig. 15 is a plan view and a sectional view of an air cavity member according to a fourth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will explain in detail each embodiment of the present invention with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that in various embodiments of the invention, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solution claimed in the present application can be implemented without these technical details and various changes and modifications based on the following embodiments.

The utility model discloses a first embodiment relates to a camera lens protection device, and the core of this embodiment lies in, camera lens protection device includes: the air supply system is used for supplying compressed air to the air knife assembly, and the air curtain blowing to the upper part of the transparent shielding piece is generated by the air knife assembly.

The lens protection device adopts the transparent shielding piece to shield the lens, and utilizes the transparent shielding piece to shield covering dust and dirt from the outside, so that the lens is prevented from being polluted by dust, oil dirt and other liquid, and the lens is ensured to be kept in a clean state; and the air knife assembly arranged adjacent to the transparent shielding piece generates an air curtain blowing towards the upper part of the transparent shielding piece by utilizing compressed air from an air supply system, so that dust, oil stain, liquid and the like attached to the surface of the transparent shielding piece can be blown off when the pollution degree of the transparent shielding piece reaches a clearing condition, the image quality of the lens shooting an object through the transparent shielding piece is not influenced, and the lens is protected from being interfered by environmental pollution.

The following describes in detail the non-contact detection device according to the present embodiment, and the following is only provided for easy understanding and is not necessary to implement the present embodiment.

Referring to fig. 1, a lens protection apparatus 10 according to the present embodiment includes a transparent shielding member 11, a wind knife assembly 12, and an air supply system 13.

The transparent shielding member 11 is used for shielding the lens 20 of the industrial camera, shielding the lens 20 from external dust and dirt, preventing the lens 20 from being polluted by dust, oil and other liquid, and ensuring that the lens 20 is kept in a clean state. In the present embodiment, the transparent shield 11 may be a glass plate or a translucent material made of other transparent materials such as a resin plate, so that it is possible to ensure that the shot view can be taken through the transparent shield 11 even after the lens 20 is shielded. Preferably, the surface of the transparent shielding member 11 is formed with an anti-adhesion film layer (not shown) for preventing dirt from adhering thereto, so that the dirt has a small adhesion force after falling on the surface of the transparent shielding member 11, and the dirt is blown off by the air flow generated by the air knife assembly 12. In this embodiment, the film layer may be a film layer that is resistant to liquid adhesion, and liquid, oil stain, etc. may form a spherical cap shape after falling, and is easy to roll, poor in adhesion, and easy to blow away. This prevents the transparent shielding member 11 from being stained with oil and liquid spots, thereby ensuring that the lens 20 can take a clear picture. In particular, the membrane layer may be a nano hydrophobic and oleophobic membrane layer.

The wind knife assembly 12 is disposed adjacent to the transparent shield 11 to create a wind curtain that blows over the transparent shield 11. In this embodiment, the air knife assembly 12 comprises a parallel air blowing module 120, the parallel air blowing module 120 is arranged in a semicircular shape, and the air blowing direction formed by the compressed air is inclined downwards and towards the transparent shielding member 11, so that the air flow can adhere to the surface of the transparent shielding member 11 to form an air flow approximately parallel to the surface of the transparent shielding member 11 and sweep across the surface of the transparent shielding member 11 after reaching the surface of the transparent shielding member 11.

An air supply system 13 is connected to the knife assembly 12 to provide the knife assembly 12 with the compressed air required to produce the air curtain.

It is understood that the lens protection device 10 of the present embodiment further includes a housing 14 in order to provide more comprehensive shielding protection for the lens 20. The housing 14 covers the lens 20 therein, and the housing 14 is provided with a viewing through hole 140 facing the lens 20, and the transparent shielding member 11 is detachably inserted into the housing 14, shields the lens 20, and faces the viewing through hole 140. Therefore, the view through hole 140 prevents the housing 14 from influencing the shooting view of the lens 20, and the transparent shielding member 11 is inserted into the housing 14 to close the view through hole 140 to prevent dirt from entering the housing 140. It will be appreciated that the size of the housing 14 may be customized according to the volume of the lens 20 to be protected.

Preferably, the wind knife assembly 12 and the transparent shielding member 11 are fixed together on a bearing plate 15 which can be drawn out and inserted into the housing 14, the bearing plate 15 is provided with an opening 150, the transparent shielding member 11 is fixed in the opening 150, and the wind knife assembly 12 is arranged on the bearing plate 15 and adjacent to the opening 150. Thus, in this embodiment, when the lens protection device 10 is in operation, the carrying plate 15 can be pushed into the housing 14, so that the transparent shielding member 11 covers the lens 20.

More preferably, a light source 16 is further disposed on the housing 14, and the light source 16 can provide auxiliary lighting for the lens 20 during shooting. In this embodiment, the light source 16 is annular and disposed around the viewing through-hole 140. It should be noted that the light source 16 is not limited to the above design, and the position of the light source 16 may not be set on the housing 14. For example: in one possible embodiment, an annular light source 16 may be disposed around the fan assembly 12 to provide auxiliary lighting for the lens 20 during shooting from the periphery of the fan assembly 12; in another alternative embodiment, the air duct assembly 12 is annular and disposed around the annular light source 16 and the transparent shield 11, and the annular light source 16 is disposed adjacent to the transparent shield 11, so that the air curtain generated by the air knife assembly 12 and blowing over the transparent shield 11 can also protect the light source 16 from contamination. It is understood that the shape of light source 16 may not be circular and will not be described in detail herein.

Referring to fig. 2, preferably, the lens protection apparatus 10 further includes a control module 17 connected to the air supply system 13, and the control module 17 receives the image of the transparent barrier 11, determines the contamination degree of the transparent barrier 11 according to the image, and starts and stops the air supply system 13 according to the contamination degree. The image of the transparent shield 11 can be captured by the lens 20 and sent to the control module 17 (or can be captured by an additional camera and sent to the control module 17). Due to the complex application environment of the industrial camera, the air knife component 12 can be started when needing to work according to different environments and different fouling degrees, and the influence on the service life of the air knife component 12 caused by long-time continuous use is avoided.

In the present embodiment, the control module 17 includes an arithmetic unit 170 that receives the image, a controller 171 connected to the arithmetic unit 170, and an alarm presentation unit 172 connected to the controller 171 and the air supply system 13. The operation unit 170 analyzes the image to determine whether the degree of contamination of the transparent shielding member 11 exceeds a preset value, the controller 171 receives the determination result of the operation unit 170 and sends a trigger instruction to the alarm prompting unit 172 according to the determination result, and the alarm prompting unit 172 sends a start signal or a stop signal to the air supply system 13 in response to the trigger instruction.

Specifically, the arithmetic unit 170 may be a high-performance computer, or may be a dedicated chip or a field programmable array. Because the environment shot by the lens 20 of the industrial camera is relatively stable, the image with the best image quality of the on-site environment of the transparent shielding piece 11 can be stored in the database as a template, when a new image of the transparent shielding piece 11 is collected, the new image is firstly compared with the template image, when the area of a dirty spot is higher than a preset threshold value or the difference value between the image contrast caused by dust and the original template image is higher than the preset threshold value, the alarm prompting unit 172 gives a starting signal to the air supply system 13, and the air knife assembly 12 starts to operate. During the operation of the air knife assembly 12, the lens 20 of the industrial camera continues to capture/shoot the picture of the transparent shielding element 11 and transmits the picture to the operation unit 170, the operation unit 170 repeats the above calculation process until the dirty spot and the image contrast difference are lower than the threshold value, the alarm prompting unit 172 sends a closing signal to the air supply system 13, and the air knife assembly 12 stops working.

Further, the controller 171 further sends an adjustment instruction to the alarm prompting unit 172 according to the determination result, the alarm prompting unit 172 responds to the adjustment instruction to send a wind power adjustment signal to the air supply system 13, and the air supply system 13 adjusts the pressure of the compressed air supplied to the air knife assembly 12 according to the wind power adjustment signal, so that different wind powers are adopted according to different pollution degrees, effective decontamination is ensured, and energy saving is achieved.

More preferably, the alarm prompting unit 172 is further capable of responding to the triggering instruction and sending an alarm to remind the production line staff of attention.

In a modified embodiment of the present embodiment, referring to fig. 3, the air knife assembly 12 further comprises an oblique air blowing module 121 disposed on the parallel air blowing module 120, the oblique air blowing module 121 being used for generating an air flow directly above the oblique transparent shielding member 11. When the air knife assembly is started, air can be blown at high speed simultaneously in both directions of "parallel to the surface of the transparent shield 11" and "directly above the oblique transparent shield 11" by the parallel air blowing module 120 and the oblique air blowing module 121. On the one hand, the airflow right above the oblique transparent shielding piece 11 can blow away the dust, liquid and other pollutants before falling on the transparent shielding piece 11; on the other hand, even if some dust and liquid fall on the transparent shield 11, they can be easily blown away by the airflow "parallel to the surface of the transparent shield 11".

It should be noted that the lens protection device 10 is not limited to the aforementioned solution of "including only the parallel air blowing module 120" and "including both the parallel air blowing module 120 and the oblique air blowing module 121", and in other modified embodiments of the present embodiment, the lens protection device 10 may also include only the oblique air blowing module 121 to blow away contaminants such as dust and liquid before falling onto the transparent shielding member 11, as shown in fig. 4. In addition, the parallel air blowing module 120 and the oblique air blowing module 121 provided in the foregoing embodiments are not limited to the semicircular shape shown in fig. 1 and 2, and for example, the oblique air blowing module 121 shown in fig. 4 may also be an annular shape. When the oblique air blowing module 121 is circular, the generated air flow forms a conical air curtain right above the transparent shielding member 11, and the conical air curtain shields the transparent shielding member 11 below, so that contaminants such as dust and liquid are less likely to fall on the transparent shielding member 11.

A second embodiment of the present invention relates to a lens protection device 30, and referring to fig. 5, the lens protection device 30 includes: a parallel blowing module 31 for generating an air flow parallel to and sweeping across the surface of the transparent shield; and the oblique air blowing module 32 is used for generating air flow right above the oblique transparent shielding piece. Unlike the first embodiment, the lens protection apparatus 30 further includes an airflow control module 33 connected to the parallel blowing module 31 and the oblique blowing module 32, respectively, and a main control module 34 connected to the airflow control module 33.

The main control module 34 receives the image of the transparent shielding member, analyzes the image to obtain the pollution degree of the transparent shielding member, and sends an instruction to the airflow control module 33 according to the pollution degree. And the airflow control module 33 respectively controls the parallel blowing module 31 and the oblique blowing module 32 to be started and closed according to the instruction. Specifically, according to different instructions, the airflow control module 33 may start the parallel blowing module 31 and the oblique blowing module 32 to generate airflows in two directions at the same time, or start one of the parallel blowing module 31 and the oblique blowing module 32 to generate an airflow in one direction.

The third embodiment of the present invention relates to an air knife assembly 40, see fig. 6, which comprises a pressing plate 41, an air chamber member 42 arranged on the pressing plate 41, and an air curtain pressing block 43 covered on the air chamber member 42.

Referring also to fig. 7-11, air cavity member 42 includes a bottom surface 420 adjacent to pressure plate 41 and a top surface 421 adjacent to air curtain pressure block 43. The cavity member 42 is formed with a slot 422 penetrating the top surface 421 and the bottom surface 420, and the bottom surface 420 is formed with a first airflow guiding surface 423 adjacent to the slot 420. The pressing plate 41 faces the bottom surface 420, and the slotted hole 422, the pressing plate 41 on one side of the bottom surface 420 and the air curtain pressing block 43 on one side of the top surface 421 jointly enclose the first air cavity 424. The pressing plate 41 and the first airflow guiding surface 423 jointly enclose a first air outlet channel 425. The air curtain pressure block 43 is provided with a second air flow guide surface 430 adjacent to the first air cavity 424, and the top surface 421 and the second air flow guide surface 430 together enclose a second air outlet channel 431. That is, the air cavity member 42, the pressing plate 41 and the air curtain pressing block 43 together enclose a first air cavity 424, the air cavity member 42 and the pressing plate 41 together enclose a first air outlet channel 425, and the air cavity member 42 and the air curtain pressing block 43 together enclose the second air outlet channel 431. The first air outlet channel 425 and the second air outlet channel 431 are both communicated with the first air cavity 424, the first air outlet channel 425 guides the air flow from the first air cavity 424 to be parallel to the surface of the transparent shielding piece 11 and sweeps the air flow A (shown by an arrow in fig. 9) on the surface of the transparent shielding piece 11, and the second air outlet channel 431 guides the air flow from the first air cavity 424 to be obliquely blown to the air flow B (shown by an arrow in fig. 9) right above the transparent shielding piece 11.

Referring also to fig. 12, the fan assembly 40 is preferably further provided with a switch assembly having a switch flap 50. Specifically, the air cavity member 42 includes a first switch slot 426 penetrating through the top surface 421 and the bottom surface 420 and communicating with the first air outlet channel 425 and the second air outlet channel 431, respectively. The switch flap 50 is movably disposed in the first switch slot 426, and selectively blocks one of the first outlet channel 425 and the second outlet channel 431. That is to say, the switch blocking sheet 50 may partially extend into the first outlet channel 425 and the second outlet channel 431, so as to separate the first outlet channel 425 and the second outlet channel 431.

It should be noted that the pressing plate 41 and the air curtain pressing block 43 are respectively provided with

grooves

410 and 432 communicated with the first switch slot 426, and the

grooves

410 and 432 provide a further moving space for the switch blocking piece 50, so as to ensure that the switch blocking piece 50 blocks the first air outlet channel 425 and the second air outlet channel 431.

Preferably, the switch assembly further includes a rotatable switch knob 51 engaged with the switch flap 50, as shown in fig. 13, the switch knob 51 is in transmission connection with the switch flap 50, and the switch flap 50 moves under the rotation driving of the switch knob 51 to partially extend into the first outlet channel 425 and the second outlet channel 431, so as to separate the first outlet channel 425 and the second outlet channel 431. In the present embodiment, the switch knob 51 and the switch blade 50 are engaged with each other by the

serrations

510 and 500.

It should be noted that the bottom surface 420 of the air cavity member 42 may further be provided with a foreign substance removal groove 427 facing the first airflow guide surface 423, and the foreign substance removal groove 427 and the pressing plate 41 together enclose a foreign substance removal passage 428. That is, the foreign matter removing passage 428 faces the first air outlet passage 425, and facilitates the discharge of the contaminants blown off from the surface of the transparent shield 11 by the duct assembly 12. Preferably, the pressing plate 41 is also provided with a recess 410 at a position facing the foreign substance removing groove 427, and the recess 410 can further increase the diameter of the foreign substance removing passage 428 to facilitate the removal of the contaminants.

Further, optionally, a groove 428 isolated from the slotted hole 422 is formed on the top surface 421 of the air cavity member 42, and the air curtain pressure block 43 faces the groove 428 and encloses a second air cavity 429 together with the groove 428. The air curtain pressure block 43 is provided with a third air flow guide surface 433 adjacent to the second air cavity 429, and the top surface 421 and the third air flow guide surface 433 jointly enclose another second air outlet channel 431.

It can be understood that the top surface 421 of the air cavity member 42 may further be provided with a second switch groove 426 ' communicated with the second air outlet channel 431, the air curtain pressure block 43 is provided with a third switch groove 434 communicated with the second switch groove 426 ', the second switch groove 426 ' and the third switch groove 434 are communicated with each other to form a moving channel, another switch blocking piece 50 (shown in the right half of fig. 9) may be accommodated in the moving channel, and the switch blocking piece 50 in the moving channel is movably disposed in the moving channel and selectively blocks the second air outlet channel 431 on the right side.

The air knife assembly 40 has the following three modes of operation:

when the baffle plates 50 shown on the left side and the right side of fig. 9 are all moved down to the bottom, the two second air outlet channels 431 on the left side and the right side are both inclined to the right above the transparent shielding member 11 to blow out airflow;

when the baffle 50 shown on the left side of fig. 9 moves upward to the top and the baffle 50 shown on the right side moves downward to the bottom, the first air outlet channel 425 and the second air outlet channel 431 on the right side respectively blow out air flows which are parallel to the surface of the transparent shielding member 11 and are inclined to the right above the transparent shielding member 11;

when the baffle 50 shown on the left and right sides of fig. 9 is moved up to the top, only the first air outlet channel 425 blows out the air flow parallel to the surface of the transparent shielding member 11,

therefore, the direction of the air flow can be flexibly adjusted by rotating the switch knob 51 according to actual requirements.

It should be noted that the pressing plate 41 may be a circular ring with an inner hole, the pressing plate 41 is provided with an installation groove 413 for accommodating the transparent shielding element 11, and a viewing through hole 414 which is provided at the bottom of the installation groove 413 and is used for facing the lens, and the transparent shielding element 11 is fixed in the installation groove 413. Correspondingly, the air cavity member 42 is also annular with an inner bore, and the inner bore of the air cavity member 42 faces the viewing through-hole 414. In the present embodiment, the number of the air curtain pressing blocks 43 is two and each is in a semicircular arc shape, and the two air curtain pressing blocks are respectively covered on the top of the annular air cavity member 42 to respectively form the first air cavity 424 and the second air cavity 429.

A fourth embodiment of the present invention relates to a wind knife assembly 50, as shown in fig. 14, comprising a pressing plate 51, an air chamber 52 arranged on the pressing plate 51, an air curtain pressing block 53 covered on the air chamber 52, and an air supply system 54 connected to the air chamber 52.

Referring to fig. 15, the air cavity member 52 includes a first air cavity groove 520 for receiving the compressed air, and a first air flow guide surface 521 adjacent to the first air cavity groove 520. The pressure plate 51 faces the first air cavity groove 520 and the first air flow guiding surface 521, the pressure plate 51 and the first air cavity groove 520 together enclose a first air cavity 522, and the pressure plate 51 and the first air flow guiding surface 521 together enclose a first air outlet channel 523. The air cavity 52 further includes a second air cavity groove 524 for accommodating compressed air, the air curtain pressure block 53 faces the second air cavity groove 524 and encloses a second air cavity 525 together with the second air cavity groove 524, the air curtain pressure block 53 includes a second air flow guide surface (not shown in fig. 15) adjacent to the second air cavity 525, and the air cavity 52 and the second air flow guide surface enclose a second air outlet channel together. That is, the air cavity member 52 and the pressing plate 51 below the air cavity member together define a first air cavity 522 and a first air outlet channel 523, and the air cavity member 52 and the air curtain pressing block 53 above the air cavity member together define a second air cavity 525 and a second air outlet channel. The first air cavity 522 is communicated with the first air outlet channel 523, the second air cavity 525 is communicated with the second air outlet channel, and the first air outlet channel 523 guides the airflow from the first air cavity 522 into the airflow which is parallel to the surface of the transparent shielding piece and sweeps across the surface of the transparent shielding piece; the second air outlet channel guides the airflow from the second air cavity 525 to be obliquely blown to the airflow right above the transparent shielding member.

The air supply system 54 includes a first air intake pipe 541 communicating with the first air chamber 522 via a joint 526, a second air intake pipe 542 communicating with the second air chamber 525 via a joint 527, a solenoid valve 543, and an air supply pipe 544 communicating with the first air intake pipe 541 and the second air intake pipe 542 via the solenoid valve 543, respectively. The solenoid valve 543 functions as a switch, and selectively controls at least one of the first air inlet pipe 541 and the second air inlet pipe 542 to be communicated with the air supply pipe 544.

The air knife assembly 50 has the following three modes of operation:

when the electromagnetic valve 543 controls the first air inlet tube 541 to be connected to the air supply tube 544 and the second air inlet tube 542 to be disconnected from the air supply tube 544, the air knife assembly 50 guides the air flow from the first air cavity 522 to be parallel to the surface of the transparent shielding member and sweeps the air flow over the surface of the transparent shielding member through the first air outlet channel 523;

when the electromagnetic valve 543 controls the first air inlet tube 541 to be isolated from the air supply tube 544 and the second air inlet tube 542 to be conducted with the air supply tube 544, the air knife assembly 50 guides the air flow from the second air cavity 525 to the air flow blowing obliquely to the right above the transparent shielding piece through the second air outlet channel;

when the solenoid valve 543 controls the first air inlet tube 541 and the second air inlet tube 542 to be conducted with the air supply tube 544 at the same time, the air knife assembly 50 guides the air flow from the first air chamber 522 to be parallel to the surface of the transparent shielding member and sweep the surface of the transparent shielding member through the first air outlet channel 523, and guides the air flow from the second air chamber 525 to be obliquely blown to the air flow directly above the transparent shielding member through the second air outlet channel.

Therefore, the direction of the air flow can be flexibly adjusted through the electromagnetic valve 543 according to actual requirements.

It will be understood by those skilled in the art that the foregoing embodiments are specific examples of the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in its practical application.

Claims

1. A lens protection device, comprising: the air supply system is used for shielding the lens, is close to the air knife assembly that transparent shielding piece set up and with the air supply system that the air knife assembly links to each other, air supply system does the air knife assembly provides compressed air, the air knife assembly produces the wind curtain of blowing to transparent shielding piece top, the air knife assembly includes first air-out passageway and second air-out passageway, first air-out passageway will compressed air direction be on a parallel with transparent shielding piece surface and sweep the air current on transparent shielding piece surface, second air-out passageway will compressed air direction be oblique blow to the air current directly over the transparent shielding piece.

2. The lens protection device according to claim 1, wherein the air knife assembly includes a first air chamber communicating with an air supply system, the first air chamber communicates with the first air outlet channel and the second air outlet channel, respectively, the first air outlet channel guides the air flow from the first air chamber to an air flow parallel to the surface of the transparent shield and sweeping across the surface of the transparent shield, and the second air outlet channel guides the air flow from the first air chamber to an air flow blowing obliquely to a direction directly above the transparent shield.

3. The lens protection device according to claim 2, wherein the air knife assembly further includes a foreign object removal passage facing the first air outlet passage.

4. The lens protection device of claim 2, further comprising a switch assembly partially extendable into the first outlet duct and the second outlet duct, the switch assembly selectively blocking one of the first outlet duct and the second outlet duct.

5. The lens protection device according to claim 2, wherein the air knife assembly includes a pressing plate, an air cavity member disposed on the pressing plate, and an air curtain pressing block covering the air cavity member, the pressing plate, and the air curtain pressing block together enclose the first air cavity, the air cavity member and the pressing plate together enclose the first air outlet channel, and the air cavity member and the air curtain pressing block together enclose the second air outlet channel.

6. The lens protection device according to claim 5, wherein the air chamber member includes a bottom surface adjacent to the pressing plate and a top surface adjacent to the air curtain pressing block, the air chamber member is provided with a slot hole penetrating through the top surface and the bottom surface, the bottom surface is provided with a first air flow guiding surface adjacent to the slot hole, the pressing plate faces the bottom surface, the slot hole, the pressing plate located on one side of the bottom surface and the air curtain pressing block located on one side of the top surface together define the first air chamber, the pressing plate and the first air flow guiding surface together define the first air outlet channel, the air curtain pressing block is provided with a second air flow guiding surface adjacent to the first air chamber, and the top surface and the second air flow guiding surface together define the second air outlet channel.

7. The lens protection device according to claim 6, further comprising a switch flap, wherein the air cavity member includes a first switch slot penetrating through the top surface and the bottom surface and respectively communicating with the first air outlet channel and the second air outlet channel, and the switch flap is movably disposed in the first switch slot and selectively closes off one of the first air outlet channel and the second air outlet channel.

8. The lens protection device according to claim 6, wherein a groove isolated from the slot is formed in the top surface, the air curtain pressure block faces the groove and forms a second air cavity together with the groove, a third airflow guiding surface adjacent to the second air cavity is formed on the air curtain pressure block, and the top surface and the third airflow guiding surface form the second air outlet channel together.

9. The lens protection device according to claim 8, further comprising a switch catch, wherein a second switch recess communicating with the second air outlet channel is disposed on the top surface, a third switch recess communicating with the second switch recess is disposed on the air curtain pressure block, the second switch recess and the third switch recess communicate with each other to form a moving channel, and the switch catch is movably disposed in the moving channel and selectively blocks the second air outlet channel.

10. The lens protection device according to claim 7 or 9, further comprising a rotatable switch knob, wherein the switch knob is in transmission connection with the switch flap, and the switch flap is moved by the rotation of the switch knob.

11. The lens protection device of claim 10, wherein the switch knob and the switch catch are connected by saw tooth engagement.

12. A lens protection device as claimed in claim 6, wherein the bottom surface is further provided with a foreign substance removal groove facing the first airflow guide surface, and the foreign substance removal groove and the pressing plate together define a foreign substance removal channel.

13. The lens protection device according to claim 5, wherein the pressing plate has a mounting groove for receiving the transparent shielding member and a viewing through hole formed at a bottom of the mounting groove for facing the lens, and the transparent shielding member is fixed in the mounting groove.

14. The lens protection device according to claim 13, wherein the air chamber member has a ring shape having an inner hole, and the inner hole of the air chamber member faces the finder through-hole.

15. The lens protection device according to claim 1, wherein the air knife assembly includes a first air chamber and a second air chamber that are respectively communicated with and isolated from an air supply system, the first air chamber is communicated with the first air outlet channel, the second air chamber is communicated with the second air outlet channel, the first air outlet channel guides the air flow from the first air chamber into the air flow that is parallel to the surface of the transparent shielding member and sweeps across the surface of the transparent shielding member, and the second air outlet channel guides the air flow from the second air chamber into the air flow that is obliquely blown to the right above the transparent shielding member.

16. The lens protection device according to claim 15, wherein the air knife assembly includes a pressing plate, an air cavity member disposed on the pressing plate, and an air curtain pressing block covering the air cavity member, the air cavity member and the pressing plate together enclose the first air cavity and the first air outlet channel, and the air cavity member and the air curtain pressing block together enclose the second air cavity and the second air outlet channel.

17. The lens protection device according to claim 16, wherein the air cavity member includes a first air cavity groove for accommodating compressed air, and a first airflow guiding surface adjacent to the first air cavity groove, the pressing plate faces the first air cavity groove and the first airflow guiding surface, the pressing plate and the first air cavity groove together enclose the first air cavity, and the pressing plate and the first airflow guiding surface together enclose the first air outlet channel.

18. The lens protection device according to claim 17, wherein the air chamber member includes a second air chamber groove for accommodating compressed air, the air curtain press block faces the second air chamber groove and forms the second air chamber together with the second air chamber groove, the air curtain press block includes a second air flow guide surface adjacent to the second air chamber, and the air chamber member and the second air flow guide surface form the second air outlet channel together.

19. The lens protection device according to claim 15, wherein the air supply system includes a first air inlet pipe communicating with the first air chamber, a second air inlet pipe communicating with the second air chamber, an electromagnetic valve, and an air supply pipe communicating with the first air inlet pipe and the second air inlet pipe via the electromagnetic valve, respectively, and the electromagnetic valve selectively controls at least one of the first air inlet pipe and the second air inlet pipe to be communicated with the air supply pipe.