CN217901554U - Be used for photovoltaic vacuum glass printing opacity performance detection device - Google Patents

Abstract

A device for detecting the light transmittance of photovoltaic vacuum glass comprises a bearing plate, a driving wheel and a detection device, wherein a support frame and the driving wheel are arranged above the bearing plate; the detection device comprises a light source emitter and a daylighting panel; a bottom plate is arranged below the bearing plate; the beneficial effects of the utility model reside in that: the device can realize the inspection of the light transmission performance of the photovoltaic vacuum glass in batches by matching the driving wheel with the detection device, can be combined with a finished product production line, and can directly enter the device through the driving wheel and finish the detection by the detection device; meanwhile, the surface of the photovoltaic vacuum glass before detection can be treated by matching with a cleaning device, so that the detection quality is ensured; therefore, batch high-efficiency detection of the photovoltaic vacuum glass can be realized, and the accuracy of the detection data of the light transmission performance of the device can be ensured by cleaning the photovoltaic vacuum glass before detection.

Description

Be used for photovoltaic vacuum glass printing opacity performance detection device

Technical Field

The utility model relates to a glass production check out test set technical field especially relates to a be used for glass light transmissivity detection device for photovoltaic technology.

Background

Photovoltaic glass, also known as "photovoltaic glass", is a special glass that presses in a solar photovoltaic module, can generate electricity by solar radiation, and has a relevant current leading-out device and a cable; the solar cell consists of glass, a solar cell piece, a film, back glass, a special metal wire and the like; the glass is the most novel high-tech glass product for buildings, can bear wind pressure and larger day and night temperature difference change, and has the advantages of attractive appearance, controllable light transmission, energy conservation and power generation, no fuel, no waste gas, no waste heat, no waste slag, no noise pollution and the like; the solar energy intelligent window is widely applied, such as a solar energy intelligent window, a solar energy pavilion, a photovoltaic glass building ceiling, a photovoltaic glass curtain wall and the like.

With the development of production and manufacturing technology, in order to ensure the protection and protection capability of the surface glass of the photovoltaic glass, the photovoltaic glass is simultaneously applied to automobiles, buildings and the like, and in order to ensure noise reduction and sound insulation, the photovoltaic vacuum glass is adopted; for photovoltaic vacuum glass detection, wherein the light transmittance of photovoltaic vacuum glass is an important index, the existing detection device generally adopts a manual handheld detection device to detect the photovoltaic vacuum glass one by one, the detection efficiency is low, the photovoltaic vacuum glass cannot be used in a production line in a matched manner, and the existing detection quality has certain difficulty because the surface of the photovoltaic vacuum glass is not cleaned.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome not enough among the prior art, provide a be used for photovoltaic vacuum glass light transmittance property detection device.

The utility model discloses a realize through following technical scheme: a device for detecting the light transmittance of photovoltaic vacuum glass comprises a bearing plate, transmission wheels and a detection device, wherein a support frame and the transmission wheels are arranged above the bearing plate through a support frame, the transmission wheels are arranged in parallel, and the transmission wheels are connected through a transmission belt; the detection device comprises a light source emitter and a daylighting plate, the light source emitter is arranged on the bearing plate, the daylighting plate is arranged in parallel to the bearing plate and is positioned above the transmission wheel, and the daylighting plate is fixed with the bearing plate through a daylighting frame; a bottom plate is arranged below the bearing plate, a driving motor is arranged on the bottom plate, and the driving motor is connected with a driving wheel through a driving belt.

Preferably, the front end of the bearing plate is provided with a cleaning device, the cleaning device comprises a collecting box and cleaning rollers, the collecting box is arranged at the front end of the bearing plate, the cleaning rollers are arranged above the collecting box and fixed on the two sides of the collecting box through a cleaning frame, and the cleaning rollers are vertically arranged, and the middle seams of the cleaning rollers and the driving wheels are horizontally arranged.

Furthermore, the collecting box is connected with the front end of the bearing plate in an inserting mode.

Preferably, a hydraulic support rod is arranged above the bottom plate, and the upper end of the hydraulic support rod is fixed with the bearing plate.

Furthermore, a damping pad is arranged between the hydraulic support rod and the bearing plate.

Preferably, the lighting panel is fixed to the lighting frame through fixing bolts, and the fixing bolts are arranged at four corners of the lighting panel.

Preferably, the bottom of the base is provided with a movable wheel.

The beneficial effects of the utility model reside in that: the device can realize the inspection of the light transmission performance of the photovoltaic vacuum glass in batches by matching the driving wheel with the detection device, can be combined with a finished product production line, and can directly enter the device through the driving wheel and finish the detection by the detection device; meanwhile, the surface of the photovoltaic vacuum glass before detection can be treated by matching with a cleaning device, so that the detection quality is ensured; therefore, batch high-efficiency detection of the photovoltaic vacuum glass can be realized, and the accuracy of the detection data of the light transmission performance of the device can be ensured by cleaning the photovoltaic vacuum glass before detection.

Drawings

Fig. 1 is a schematic structural diagram of an overall device for detecting the light transmittance of photovoltaic vacuum glass.

FIG. 2 is a schematic view of a combination structure of a carrier plate and a driving wheel for the transmittance detection device of a photovoltaic vacuum glass.

Fig. 3 is a schematic view of a combination structure of a photovoltaic vacuum glass light transmission performance detection device and a cleaning device.

FIG. 4 is a schematic view of a combination structure of a carrier plate and a detection device for a transmittance detection device of a photovoltaic vacuum glass.

Fig. 5 is a schematic bottom structure diagram of a device for detecting the light transmittance of photovoltaic vacuum glass.

Wherein: 1. a carrier plate; 2. a driving wheel; 21. a support frame; 3. a light source emitter; 31. a daylighting panel; 32. a lighting frame; 4. a base plate; 41. a drive motor; 5. a cleaning device; 51. a collection box; 52. cleaning the pair rollers; 53. a cleaning frame; 6. a hydraulic strut; 7. and (5) fixing the bolt.

Detailed Description

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

As shown in fig. 1-5, a device for detecting the light transmittance of photovoltaic vacuum glass comprises a bearing plate 1, a transmission wheel 2 and a detection device, wherein the bearing plate 1 and the transmission wheel 2 are arranged above the bearing plate 1 through a support frame 21, the bearing plate 1 and the transmission wheel 2 are main functional structures of the whole device, and the transmission wheel 2 is used for supporting the detected photovoltaic vacuum glass and horizontally transmitting the photovoltaic vacuum glass; the transmission wheels 2 are arranged in parallel, the transmission wheels 2 are connected through transmission belts, and the driving of the whole device can be realized through the driving motor 41; the detection device comprises a light source emitter 3 and a daylighting plate 31, the light source emitter 3 is arranged on the bearing plate 1, the daylighting plate 31 is arranged in parallel to the bearing plate 1, the daylighting plate 31 is positioned above the driving wheel 2, the daylighting plate 31 is fixed with the bearing plate 1 through a daylighting frame 32, the light source emitter 3 serves as a light source to emit detection light, the detection light penetrates through the photovoltaic vacuum glass to be detected, the light penetrating through the photovoltaic vacuum glass is projected onto the daylighting plate 31, the light transmittance of the photovoltaic vacuum glass is realized, the collection of the transmittance and the refraction condition is included, and the detection function is realized through external processing equipment; a bottom plate 4 is arranged below the bearing plate 1 and is a base of the integral device; the bottom plate 4 is provided with a driving motor 41, the driving motor 41 is connected with the driving wheel 2 through a driving belt, and the driving motor 41 provides power for the normal work of the whole device.

The cleaning device 5 is arranged at the front end of the bearing plate 1, the cleaning device 5 comprises a collecting box 51 and a cleaning roller 52, the collecting box 51 is arranged at the front end of the bearing plate 1, the cleaning roller 52 is arranged above the collecting box 51 and fixed at the two sides of the collecting set through a cleaning frame 53, the cleaning roller 52 is vertically arranged, and the middle seam of the cleaning roller 52 is horizontally arranged with the driving wheel 2; the cleaning roller 52 is actively rotated by an external driving device to clean the surface of the photovoltaic vacuum glass to be detected, and the impurities falling from the cleaning are collected in the collecting box 51.

The collecting box 51 is connected with the front end of the bearing plate 1 in a plugging mode, so that the collecting box 51 is convenient to disassemble, and the whole cleaning device 5 is replaced or cleaned.

The hydraulic support rod 6 is arranged above the bottom plate 4, the upper end of the hydraulic support rod 6 is fixed with the bearing plate 1, and the functional structure height on the bearing plate 1 and the bearing plate 1 is convenient to adjust, so that the horizontal height of the transmission wheel 2 horizontal plane of the whole device is consistent with the horizontal height of the photovoltaic vacuum glass conveying plane of the matched assembly line, the unified configuration of the device and the production assembly line can be realized, and the practicability of the device is guaranteed.

A damping pad is arranged between the hydraulic support rod 6 and the bearing plate 1, so that the vibration of the bearing plate 1 and the functional structure on the bearing plate 1 caused by the work of the driving motor 41 is avoided, and the damage of the photovoltaic vacuum glass is avoided.

The daylighting panel 31 is fixed with the daylighting frame 32 through the fixing bolt 7, and the fixing bolt 7 is set up in the four corners position of daylighting panel 31, conveniently carries out the daylighting panel 31 and dismantles and change, and the daylighting panel 31 needs often to be changed as the easy ageing part.

The bottom of base sets up removes the wheel, makes things convenient for the overall device to remove, improves the device practicality.

Principle of operation

When the device is installed and adjusted, the device is firstly pushed to a position where the assembly line needs to be installed through the bottom moving wheel, then the height of the hydraulic support rod 6 is controlled, and the horizontal height of the horizontal plane of the driving wheel 2 of the device is ensured to be consistent with the horizontal height of the photovoltaic vacuum glass conveying plane of the matched assembly line, so that the device and the production assembly line can be uniformly configured, and the practicability of the device is ensured; and finally, connecting the external power supplies with corresponding equipment one by one, and allocating and connecting the detection equipment one by one to complete the setting and installation of the whole device.

When the device is used for detection, the photovoltaic vacuum glass is carried out along the assembly line of the previous stage, firstly, the photovoltaic vacuum glass passes through the cleaning device 5, the cleaning roller 52 is actively rotated by an external driving device, the surface of the photovoltaic vacuum glass to be detected is cleaned, and the sundries falling after cleaning are collected in the collecting box 51; then the cleaned photovoltaic vacuum glass to be detected is transmitted to the transmission wheel 2, the driving motor 41 drives the transmission wheel 2 to rotate, meanwhile, the detection device works, the light source emitter 3 serves as a light source to emit detection light, the detection light penetrates through the photovoltaic vacuum glass to be detected, the light penetrating through the photovoltaic vacuum glass is projected onto the daylighting panel 31, the light transmittance of the photovoltaic vacuum glass is achieved, the light transmittance and the refraction condition are collected, and the detection function is achieved through external processing equipment; and finally, conveying the detected photovoltaic vacuum glass to a next-stage production line by the driving wheel 2, and then completing the light transmittance detection of the photovoltaic vacuum glass.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions on some technical features, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (7)

1. The utility model provides a be used for photovoltaic vacuum glass printing opacity performance detection device which characterized in that: the device comprises a bearing plate, transmission wheels and a detection device, wherein a support frame and the transmission wheels are arranged above the bearing plate, the transmission wheels are arranged in parallel, and the transmission wheels are connected through a transmission belt; the detection device comprises a light source emitter and a daylighting plate, the light source emitter is arranged on the bearing plate, the daylighting plate is arranged in parallel to the bearing plate and is positioned above the transmission wheel, and the daylighting plate is fixed with the bearing plate through a daylighting frame; a bottom plate is arranged below the bearing plate, a driving motor is arranged on the bottom plate, and the driving motor is connected with a driving wheel through a driving belt.

2. The device for detecting the light transmittance of the photovoltaic vacuum glass as claimed in claim 1, wherein: the front end of the bearing plate is provided with a cleaning device, the cleaning device comprises a collecting box and cleaning rollers, the collecting box is arranged at the front end of the bearing plate, the cleaning rollers are arranged above the collecting box and fixed on the two sides of the collecting box through a cleaning frame, and the cleaning rollers are vertically arranged, and the middle seams of the cleaning rollers and the driving wheels are horizontally arranged.

3. The device for detecting the light transmittance of the photovoltaic vacuum glass as claimed in claim 2, wherein: the collecting box is connected with the front end of the bearing plate in an inserting mode.

4. The device for detecting the light transmittance of the photovoltaic vacuum glass as claimed in claim 1, wherein: the upper part of the bottom plate is provided with a hydraulic support rod, and the upper end of the hydraulic support rod is fixed with the bearing plate.

5. The device for detecting the light transmittance of the photovoltaic vacuum glass as claimed in claim 4, wherein: and a damping pad is arranged between the hydraulic support rod and the bearing plate.

6. The device for detecting the light transmittance of the photovoltaic vacuum glass as claimed in claim 1, wherein: the lighting board is fixed with the lighting frame through fixing bolts, and the fixing bolts are arranged at the four corners of the lighting board.

7. The device for detecting the light transmittance of the photovoltaic vacuum glass as claimed in claim 1, wherein: the bottom of the bottom plate is provided with a moving wheel.

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