CN219760963U - Photovoltaic module detection device - Google Patents

Abstract

The utility model discloses a photovoltaic module detection device which comprises an operation table, wherein a plurality of mounting holes are formed in the operation table, suction nozzles are arranged on the mounting holes, the suction nozzles are made of rubber materials, a vacuum box is fixedly connected to the side wall of the lower end of the operation table, the vacuum box is arranged at the lower end of the suction nozzles, the suction nozzles are communicated with the vacuum box, an ash suction device and a detection device are arranged on the operation table, an ash suction pipe is arranged on the ash suction device, and the ash suction pipe is a hose. According to the utility model, the plurality of suction nozzles are arranged on the detection table, so that the photovoltaic modules can be fixed through the suction nozzles, and the plurality of suction nozzles can be used for fixing the photovoltaic modules with different sizes, so that the detection table can detect the photovoltaic modules with different sizes, and the practicability is improved; and clear up the dust on the photovoltaic module through the dust suction device, avoided the raise dust, prevent that the dust from bringing threat and environmental pollution to staff's health.

Description

Photovoltaic module detection device

Technical Field

The utility model belongs to the technical field of photovoltaic detection, and particularly relates to a photovoltaic module detection device.

Background

The photovoltaic module is a core part in a solar power generation system and is the most important part in the solar power generation system, and the photovoltaic module is used for converting solar energy into electric energy and sending the electric energy into a storage battery for storage or pushing a load to work. After the photovoltaic module is processed and assembled, detection equipment is required to be used for detecting the performance of the photovoltaic module.

The utility model discloses a photovoltaic module detection device to patent number CN202021127966.9, including the test bench, the bottom of test bench is provided with multiunit bracing piece, and the top of test bench is provided with the detector, and the inside of detector is provided with the inner chamber, is provided with the electrical apparatus in the detector inner chamber, is provided with the electric wire pipeline on the left and right sides wall of detector respectively, is provided with electric power output pen and electric power input pen on two sets of electric wire pipeline respectively, and the top of two sets of electric wire pipeline is connected with electric power output pen and electric power input pen's input respectively; the front side wall of the detector is provided with a display board and a button, and the electric power output pen, the electric power input pen, the display board and the button are electrically connected with an electric appliance in the inner cavity of the detection table; a plurality of groups of fixing frames for installing the photovoltaic modules to be detected are arranged on the top end face of the detection table positioned in front of the detector. According to the utility model, the photovoltaic module is fixed through the plurality of groups of fixing frames, then the button is pressed, the button enables the electric appliance in the inner cavity of the detection platform to be started, then the electric power output pen and the electric power input pen are respectively contacted with the output end and the input end on the module circuit, and then the electric power output pen and the electric power input pen detect whether the module is electrified or not, so that a worker can conveniently detect the module, the situation that defective products flow into the market is reduced, and the practicability is improved.

However, when the photovoltaic module is used, the photovoltaic module is fixed through the fixing frame, and the fixing frame is inconvenient to move at the position on the detection table, so that the detection table cannot fix the photovoltaic modules with different sizes, the practicability of the detection device is limited, dust on the photovoltaic module is cleaned in a sweeping manner, dust can be raised, and the health of operators is threatened and the environment is polluted.

Accordingly, in view of the above-mentioned technical problems, it is necessary to provide a photovoltaic module detection apparatus.

Disclosure of Invention

The present utility model is directed to a photovoltaic module detection apparatus, which solves the above-mentioned problems.

In order to achieve the above object, an embodiment of the present utility model provides the following technical solution:

the utility model provides a photovoltaic module detection device, includes the operation panel, a plurality of mounting holes have been seted up on the operation panel, a plurality of all install the suction nozzle on the mounting hole, the suction nozzle adopts the rubber material to make, fixedly connected with vacuum box on the lower extreme lateral wall of operation panel, the vacuum box sets up in the lower extreme of suction nozzle, the suction nozzle is linked together with the vacuum box, install ash suction device and detection device on the operation panel, be provided with the ash suction pipe on the ash suction device, the ash suction pipe sets up to the hose, the ash suction mouth is installed to the front end of ash suction pipe.

Further, a vacuum tube is arranged at the lower end of the vacuum box, and the vacuum tube is communicated with the vacuum box.

Further, an ash storage chamber is arranged in the ash suction device, and an ash storage box is connected in the ash storage chamber in a sliding manner.

Further, a handle is fixedly connected to the outer side wall of the ash storage box, and the handle drives the ash storage box to slide.

Further, a through hole is formed in the rear side wall of the ash storage chamber, and the through hole is communicated with the ash suction pipe.

Further, the lower extreme fixedly connected with supporting leg of operation panel, the supporting leg is used for supporting the operation panel.

Compared with the prior art, the utility model has the following advantages:

according to the utility model, the plurality of suction nozzles are arranged on the detection table, so that the photovoltaic modules can be fixed through the suction nozzles, and the plurality of suction nozzles can be used for fixing the photovoltaic modules with different sizes, so that the detection table can detect the photovoltaic modules with different sizes, and the practicability is improved; and clear up the dust on the photovoltaic module through the dust suction device, avoided the raise dust, prevent that the dust from bringing threat and environmental pollution to staff's health.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to the drawings without inventive effort to those skilled in the art.

FIG. 1 is a front view of a photovoltaic module inspection apparatus according to an embodiment of the present utility model;

FIG. 2 is a perspective view of a photovoltaic module inspection apparatus according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram illustrating a usage state of a photovoltaic module inspection apparatus according to an embodiment of the present utility model;

FIG. 4 is a front cross-sectional view of a photovoltaic module inspection apparatus according to an embodiment of the present utility model;

fig. 5 is a right side cross-sectional view of a photovoltaic module inspection apparatus according to an embodiment of the present utility model.

In the figure: 1. the device comprises an operating platform, a mounting hole, a suction nozzle, a vacuum box, a vacuum tube, an ash absorbing device, an ash storage chamber, an ash storage box, an ash absorbing tube, an ash absorbing nozzle, a detection device, a photovoltaic module, a supporting leg, a through hole and a handle.

Detailed Description

The present utility model will be described in detail below with reference to the embodiments shown in the drawings. The embodiments are not intended to limit the utility model, but structural, methodological or functional modifications from the embodiments are within the scope of the utility model.

The utility model discloses a photovoltaic module detection device, which is shown in fig. 1-5, and comprises an operation table 1, wherein a photovoltaic module 12 is a core part in a solar power generation system and is also the most important part in the solar power generation system, and the photovoltaic module detection device is used for converting solar energy into electric energy. After the photovoltaic module 12 is processed and assembled, the detection equipment is required to detect the performance of the photovoltaic module 12. The detection device facilitates the detection of the photovoltaic module 12, and the operation table 1 is a position where the photovoltaic module 12 is placed when in detection.

Referring to fig. 4, the operation table 1 is provided with a plurality of mounting holes 2, and the plurality of mounting holes 2 are provided with suction nozzles 3. By providing a plurality of mounting holes 2 in the operation table 1, the mounting holes 2 are provided for mounting the suction nozzle 3 on the operation table 1. In order to facilitate the installation of the suction nozzle 3, an internal thread is arranged in the installation hole 2, an external thread is arranged outside the installation end of the suction nozzle 3, and the suction nozzle 3 is in threaded connection with the internal thread arranged in the installation hole 2 through the external thread on the suction nozzle 3.

Referring to fig. 1 to 5, the suction nozzle 3 is made of rubber material, and the photovoltaic module 12 needs to be fixed when the photovoltaic module 12 is detected. The suction nozzle 3 is provided for fixing the photovoltaic module 12, and when the photovoltaic module 12 is placed on the suction nozzle 3, the photovoltaic module 12 can be adsorbed on the suction nozzle 3 through the action of negative pressure by providing negative pressure in the suction nozzle 3 so as to complete the fixing of the photovoltaic module 12. Make suction nozzle 3 through the rubber material for suction nozzle 3 can realize the fixed of photovoltaic module 12, can protect photovoltaic module 12 when fixed photovoltaic module 12 simultaneously, prevents photovoltaic module 12 damage.

Referring to fig. 1 in combination with fig. 3-5, a vacuum box 4 is fixedly connected to the side wall of the lower end of the operation table 1, the vacuum box 4 is arranged at the lower end of the suction nozzle 3, the suction nozzle 3 is communicated with the vacuum box 4, a vacuum tube 5 is arranged at the lower end of the vacuum box 4, and the vacuum tube 5 is communicated with the vacuum box 4. In order to realize the negative pressure supply to the suction nozzles 3, a vacuum box 4 is fixedly connected to the side wall of the lower end of the operation table 1, the vacuum box 4 is arranged at the lower end of the suction nozzles 3, the vacuum box 4 contains all the suction nozzles 3, and the suction nozzles 3 are communicated with the vacuum box 4. A vacuum tube 5 is provided at the lower end of the vacuum box 4, and the vacuum tube 5 is communicated with the inside of the vacuum box 4, and one end of the vacuum tube 5 away from the vacuum box 4 is connected with a vacuum device, through which negative pressure is provided in the vacuum box 4.

Preferably, in order to enable the suction nozzle 3 to have a negative pressure, the photovoltaic module 12 is adsorbed by the negative pressure, so that the fixation of the photovoltaic module 12 is achieved. The negative pressure can be provided by a vacuum device, a vacuum pump can be selected, and the pressure can be provided by compressed air. The vacuum device or the compressed air is connected with the vacuum tube 5, negative pressure is formed in the vacuum tube 5, and the vacuum tube 5 is communicated with the vacuum box 4, so that the negative pressure is formed in the vacuum box 4. Because suction nozzle 3 is linked together with vacuum box 4, therefore there is negative pressure in vacuum box 4 can make suction nozzle 3 in produce the negative pressure, and the negative pressure in suction nozzle 3 alright adsorb photovoltaic module 12, has realized fixing photovoltaic module 12.

Preferably, because the suction nozzles 3 are provided in plurality, and the suction nozzles 3 adsorb the lower end side walls of the photovoltaic modules 12, the photovoltaic modules 12 with different sizes can be adsorbed when in use, so that the detection device is flexible to use.

Referring to fig. 2, the operation table 1 is provided with an ash suction device 6 and a detection device 11, and since dust is present on the photovoltaic module 12, in order to make the detection of the photovoltaic module 12 accurate, the dust on the photovoltaic module 12 needs to be cleaned before the detection, and the ash suction device 6 is a device for cleaning the dust. A detection device 11 is mounted on the console 1, and the detection device 11 is a device for detecting the photovoltaic module 12.

Referring to fig. 1-5, the ash absorbing device 6 is installed at the outer edge of the operation table 1, an ash absorbing pipe 9 is arranged on the ash absorbing device 6, the ash absorbing pipe 9 is a hose, and an ash absorbing nozzle 10 is installed at the front end of the ash absorbing pipe 9. In order to clean dust on the photovoltaic module 12, dust is cleaned by arranging the dust suction device 6 so that dust cannot be raised during cleaning of the dust, and the environment and the health of operators are threatened. The dust is cleaned through the adsorption mode by the dust suction device 6, the dust suction pipe 9 is arranged on the dust suction device 6, the dust suction nozzle 10 is arranged at the front end of the dust suction pipe 9, the dust is adsorbed through the dust suction nozzle 10, and the dust suction pipe 9 is arranged as a hose, so that the dust suction device is convenient to move in use, and the dust on the photovoltaic module 12 is convenient to adsorb.

Referring to fig. 5, an ash storage chamber 7 is provided in the ash suction device 6, and an ash storage box 8 is slidably connected in the ash storage chamber 7. The outer side wall of the ash storage box 8 is fixedly connected with a handle 15, and the handle 15 drives the ash storage box 8 to slide. The rear side wall of the ash storage chamber 7 is provided with a through hole 14, and the through hole 14 is communicated with the ash suction pipe 9. After the dust is adsorbed by the dust-adsorbing tube 9, the dust enters the dust-adsorbing tube 9. By providing the dust storage chamber 7 on the dust suction device 6, the dust storage chamber 7 is used for storing adsorbed dust so as to clean the dust. The ash storage box 8 is slidably connected in the ash storage chamber 7, so that dust in the ash storage chamber 7 is convenient to clean. The handle 15 is fixedly connected to the outer side wall of the ash storage chamber 7, and the ash storage chamber 7 is conveniently drawn out through the handle 15.

Preferably, the dust absorbed by the dust suction nozzle 10 enters the dust suction pipe 9, and the dust suction pipe 9 is communicated with the dust storage chamber 7 due to the through hole 14 arranged on the rear side wall of the dust storage chamber 7, so that the dust in the dust suction pipe 9 enters the dust storage chamber 7 and is stored in the dust storage box 8, and when the dust is more, the dust storage box 8 is drawn out to treat the dust, so that dust emission is avoided.

Referring to fig. 1 to 5, a support leg 13 is fixedly connected to the lower end of the console 1, and the support leg 13 is used for supporting the console 1. Through a plurality of supporting legs 13 of fixedly connected with in the lower extreme of operation panel 1, support operation panel 1 through supporting leg 13 for operation panel 1 makes the detection convenient when using stably.

When the vacuum box is used, the photovoltaic module 12 to be detected is placed on the suction nozzle 3, the vacuum device is started, so that negative pressure is generated in the vacuum tube 5, the vacuum tube 5 can generate negative pressure in the vacuum box 4, the negative pressure in the vacuum box 4 can cause negative pressure in the suction nozzle 3, and the negative pressure in the suction nozzle 3 can adsorb the photovoltaic module 12 so as to realize the fixation of the photovoltaic module 12; then starting the ash suction device 6, and cleaning dust on the photovoltaic module 12 through the ash suction nozzle 10, wherein the ash suction nozzle 10 can adsorb the dust on the photovoltaic module 12 so as to clean the photovoltaic module 12; finally, the detection device 11 is used for detecting the photovoltaic module 12, and the vacuum device is stopped after the detection is finished, so that the photovoltaic module 12 can be taken down.

The technical scheme shows that the utility model has the following beneficial effects:

according to the utility model, the plurality of suction nozzles are arranged on the detection table, so that the photovoltaic modules can be fixed through the suction nozzles, and the plurality of suction nozzles can be used for fixing the photovoltaic modules with different sizes, so that the detection table can detect the photovoltaic modules with different sizes, and the practicability is improved; and clear up the dust on the photovoltaic module through the dust suction device, avoided the raise dust, prevent that the dust from bringing threat and environmental pollution to staff's health.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment contains only one independent technical solution, and that such description is provided for clarity only, and that the technical solutions of the embodiments may be appropriately combined to form other embodiments that will be understood by those skilled in the art.

Claims (6)

1. The utility model provides a photovoltaic module detection device, includes operation panel (1), its characterized in that, a plurality of mounting holes (2) have been seted up on operation panel (1), a plurality of suction nozzle (3) are all installed on mounting hole (2), suction nozzle (3) adopt the rubber material to make, fixedly connected with vacuum box (4) on the lower extreme lateral wall of operation panel (1), vacuum box (4) set up in the lower extreme of suction nozzle (3), suction nozzle (3) are linked together with vacuum box (4), install on operation panel (1) suction device (6) and detection device (11), be provided with on suction device (6) suction tube (9), suction tube (9) set up to the hose, suction nozzle (10) are installed to suction tube (9) front end.

2. The photovoltaic module detection device according to claim 1, wherein a vacuum tube (5) is arranged at the lower end of the vacuum box (4), and the vacuum tube (5) is communicated with the vacuum box (4).

3. The photovoltaic module detection device according to claim 1, wherein an ash storage chamber (7) is arranged in the ash suction device (6), and an ash storage box (8) is slidably connected in the ash storage chamber (7).

4. A photovoltaic module detection apparatus according to claim 3, wherein a handle (15) is fixedly connected to the outer side wall of the ash storage box (8), and the handle (15) drives the ash storage box (8) to slide.

5. The photovoltaic module detection device according to claim 4, wherein a through hole (14) is formed in the rear side wall of the ash storage chamber (7), and the through hole (14) is communicated with the ash suction pipe (9).

6. The photovoltaic module detection device according to claim 1, wherein a supporting leg (13) is fixedly connected to the lower end of the operation table (1), and the supporting leg (13) is used for supporting the operation table (1).