CN220935143U - Solar panel detection device - Google Patents

Abstract

The utility model discloses a solar panel detection device, and belongs to the technical field of solar panel detection. The detection device comprises a light source bottom box, a workpiece placement plate and a detection mechanism, wherein the light source bottom box is used for supplying a sunlight-simulating light source, the workpiece placement plate is installed on the light source bottom box and used for loading a solar panel, the detection mechanism is installed on the light source bottom box and matched with the solar panel and used for detecting the working voltage of the solar panel and alarming according to working voltage data. The detection mechanism can be connected with the solar panel efficiently, is favorable for qualitatively detecting the conduction effectiveness of the solar panel of the sunlight-like light source of the bottom box of the receiving light source, can alarm abnormal detection results, improves the detection efficiency, and is provided with the detection contacts with adjustable detection positions and the replacement panel convenient to replace, so that the application range of the detection device is widened.

Description

Solar panel detection device

Technical Field

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

Background

Solar panels are devices that directly or indirectly convert solar radiation energy into electrical energy by absorbing sunlight, either through the photoelectric effect or the photochemical effect.

At present, the solar panel needs to be sampled in the production process of the solar panel for qualitative detection of the conductivity effectiveness, namely, the solar panel in a working state is tested for electrical performance under simulated illumination conditions, so that the effectiveness of the solar panel is judged.

In the prior art, the connection link of the solar panel detection device and the solar panel has higher precision requirement, and ineffective connection action often occurs, so that the detection quality of the solar panel is poor, and the practicability of the existing solar panel detection device is not enough.

Disclosure of utility model

The utility model aims to: a solar panel detection device is provided to solve the above problems in the prior art.

The technical scheme is as follows: the utility model provides a solar panel detection device, includes light source base case, work piece place board and detection mechanism, the light source base case is used for supplying imitative sunlight light source, the work piece is placed the board and is installed on the light source base case for load solar panel, detection mechanism installs on the light source base case, detection mechanism cooperates with solar panel for detect solar panel's operating voltage, and according to operating voltage data alarm.

Further, the detection mechanism comprises a detection movable plate, detection contacts, a voltage detection tool and an alarm, wherein two detection contacts are arranged on the detection movable plate and are respectively matched with a front electrode and a back electrode of the solar panel, the input end of the voltage detection tool is electrically connected with the two detection contacts, and the alarm is electrically connected with the output end of the voltage detection tool.

Further, the voltage detection tool comprises a voltage measurement unit and a detection unit, wherein the input end of the voltage measurement unit is electrically connected with the two detection contacts, the voltage measurement unit is used for measuring the working voltage of the solar panel, the input end of the detection unit is connected with the output end of the voltage measurement unit, the detection unit is used for judging whether the working voltage of the solar panel is smaller than the standard working voltage, and the output end of the detection unit is electrically connected with the alarm.

Further, detection mechanism still includes loading board, guide bar, pushes down handle and transfer line, the loading board sets up in the work piece and places the board top, install the guide bar between loading board and the light source base box, detect the movable plate and slide and set up on the guide bar, push down the handle and install the loading board to through guide bar and detect the movable plate transmission and be connected.

Further, the light source bottom box is internally provided with the fluorescent lamp, the end face of the backboard of the light source bottom box is higher than the setting surface of the workpiece placement plate, the upper carrier plate is arranged on the backboard, the light source bottom box is provided with the illumination hole, and the light source bottom box comprises a heat dissipation plate for heat dissipation of the fluorescent lamp.

Further, the work piece placing plate comprises a mounting plate and a replacement plate, the mounting plate is connected with the replacement plate through a sliding groove, the mounting plate is mounted on the light source bottom box, a placing groove is formed in the replacement plate, a positioning groove is formed in the placing groove, the positioning groove is matched with the illumination hole, and the replacement plate is a light-transmitting plate.

The beneficial effects are that: the detection mechanism can be connected with the solar panel efficiently, is favorable for qualitatively detecting the conduction effectiveness of the solar panel of the sunlight-like light source of the bottom box of the receiving light source, can alarm abnormal detection results, improves the detection efficiency, and is provided with the detection contacts with adjustable detection positions and the replacement panel convenient to replace, so that the application range of the detection device is widened.

Drawings

FIGS. 1 and 2 are schematic views of the structure of the present utility model;

FIG. 3 is a schematic view of the structure of the light source bottom case in the present utility model;

FIG. 4 is a schematic view of the construction of the work piece placement plate of the present utility model;

FIG. 5 is a schematic diagram of the structure of the detecting mechanism in the present utility model.

The reference numerals are: 1. a light source bottom box; 11. a fluorescent lamp; 12. a back plate; 13. an illumination hole; 14. a heat dissipation plate; 2. a work placement plate; 21. a mounting plate; 22. replacing the plate; 23. a placement groove; 24. a positioning groove; 3. a detection mechanism; 31. loading a plate; 32. a guide rod; 33. pressing down the handle; 34. a transmission rod; 35. detecting a movable plate; 36. detecting a contact; 37. a voltage gauge; 38. an alarm.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that the utility model may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the utility model.

As shown in fig. 1 and 2, a solar panel detection device comprises a light source bottom box 1, a workpiece placement plate 2 and a detection mechanism 3, wherein the light source bottom box 1 is used for supplying a sunlight-like light source, the workpiece placement plate 2 is installed on the light source bottom box 1 and used for loading a solar panel, the detection mechanism 3 is installed on the light source bottom box 1, and the detection mechanism 3 is matched with the solar panel and used for detecting the working voltage of the solar panel and alarming according to working voltage data.

The detection mechanism 3 can be efficiently connected with the solar panel, so that the qualitative detection of the conduction effectiveness of the solar panel which receives the light source bottom box 1 and imitates the sunlight source is facilitated, the detection mechanism 3 can alarm abnormal detection results, and the detection efficiency is improved.

As shown in fig. 5, the detection mechanism 3 includes a detection moving plate 35, a detection contact 36, a voltage detection tool 37 and an alarm 38, two detection contacts 36 are disposed on the detection moving plate 35, the two detection contacts 36 are respectively matched with a front electrode and a back electrode of the solar panel, an input end of the voltage detection tool 37 is electrically connected with the two detection contacts 36, and the alarm 38 is electrically connected with an output end of the voltage detection tool 37. The two detection contacts 36 are adjusted at the setting positions of the detection movable plate 35 according to the electrode positions of the solar panel, so that the suitability of the detection mechanism 3 is improved.

The voltage detecting tool 37 includes a voltage measuring unit and a detecting unit, the input end of the voltage measuring unit is electrically connected with the two detecting contacts 36, the voltage measuring unit is used for measuring the working voltage of the solar panel, the input end of the detecting unit is connected with the output end of the voltage measuring unit, the detecting unit is used for judging whether the working voltage of the solar panel is smaller than the standard working voltage, and the output end of the detecting unit is electrically connected with the alarm 38. Specifically, the voltage measuring unit may select a voltmeter, taking the example that the standard working voltage set by the detecting unit is 3.5V, when the light source base box 1 normally emits sunlight, if the working voltage of the solar panel detected by the voltage measuring unit is lower than 3.5V, the alarm 38 alarms.

As shown in fig. 1 and 5, the detection mechanism 3 further includes an upper carrier plate 31, a guide rod 32, a pressing handle 33 and a transmission rod 34, the upper carrier plate 31 is disposed above the workpiece placement plate 2, the guide rod 32 is installed between the upper carrier plate 31 and the light source bottom case 1, the detection movable plate 35 is slidably disposed on the guide rod 32, and the pressing handle 33 is installed on the upper carrier plate 31 and is in transmission connection with the detection movable plate 35 through the guide rod 32. Under the guidance of the guide rod 32, the upper carrier plate 31 moves stably, which is favorable for the accurate butt joint of the detection contact 36, the lower handle 33 is used as the driving end for connecting the solar panel with the voltage detection tool 37, preferably the handle is pressed down quickly, and the handle can be replaced by a pneumatic driving device, so that the braking degree of the device is improved.

As shown in fig. 1 and 3, a fluorescent lamp 11 is arranged in a light source bottom box 1, the end face of a back plate 12 of the light source bottom box 1 is higher than the setting face of a workpiece placing plate 2, an upper carrier plate 31 is arranged on the back plate 12, an illumination hole 13 is formed in the light source bottom box 1, and the light source bottom box 1 comprises a heat dissipation plate 14 for heat dissipation of the fluorescent lamp 11. Specifically, the fluorescent lamp 11 is selected from 60W fluorescent lamps, the light source bottom box 1 is used as a light source provider, and a mounting position is provided for the detection mechanism 3, so that the fluorescent lamp is a basic component of the device.

As shown in fig. 3 and 4, the workpiece placement plate 2 includes a mounting plate 21 and a replacement plate 22, the mounting plate 21 is connected with the replacement plate 22 in a chute manner, the mounting plate 21 is mounted on the light source bottom case 1, a placement groove 23 is formed in the replacement plate 22, a positioning groove 24 is formed in the placement groove 23, the positioning groove 24 is matched with the illumination hole 13, and the replacement plate 22 is a light-transmitting plate.

The solar panel is placed in the positioning groove 24, the placing groove 23 is convenient for taking and placing the solar panel, and the part of the workpiece placing plate 2 playing a bearing role is independently arranged as the replacement plate 22, so that the replacement cost of the workpiece placing plate 2 is reduced, and the solar panel has advantages in both general design and loss design.

When the solar panel detection device is used, a proper replacement panel 22 is selected according to the solar panel to be detected, the installation position of the detection contact 36 on the detection movable panel 35 is regulated, and a corresponding standard working voltage is set for the detection unit. After the preparation work is finished, starting the fluorescent lamp 11, placing the solar panel into the positioning groove 24, irradiating light rays to the positioning groove 24 from the illumination hole 13, irradiating the light rays to the solar panel through the replacement plate 22, and converting the light energy into electric energy by the solar panel; then, the handle 33 is moved down to slide the transmission rod 34 up and down with the detection moving plate 35 on the guide rod 32 until the detection moving plate moves to the limit position, the detection contact 36 is connected with the front electrode and the back electrode of the solar panel, the voltage detection tool 37 detects the working voltage of the solar panel and compares the working voltage with the previously set standard working voltage, if the working voltage is smaller than the standard working voltage, the quality inspection is failed, and the alarm 38 alarms.

The preferred embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the specific details of the above embodiments, and various equivalent changes can be made to the technical solutions of the present utility model within the scope of the technical concept of the present utility model, and these equivalent changes all fall within the protection scope of the present utility model.

Claims (6)

1. The utility model provides a solar panel detection device, its characterized in that includes light source base case (1), work piece place board (2), and detection mechanism (3), light source base case (1) are used for supplying imitative sunlight light source, work piece place board (2) install on light source base case (1) for load solar panel, detection mechanism (3) are installed on light source base case (1), detection mechanism (3) cooperate with solar panel for detect solar panel's operating voltage, and according to operating voltage data alarm.

2. The solar panel detection device according to claim 1, wherein the detection mechanism (3) comprises a detection movable plate (35), detection contacts (36), a voltage detection tool (37) and an alarm (38), two detection contacts (36) are arranged on the detection movable plate (35), the two detection contacts (36) are respectively matched with a front electrode and a back electrode of the solar panel, an input end of the voltage detection tool (37) is electrically connected with the two detection contacts (36), and the alarm (38) is electrically connected with an output end of the voltage detection tool (37).

3. A solar panel detection arrangement according to claim 2, characterized in that the voltage gauge (37) comprises a voltage measuring unit and a detection unit, the input of the voltage measuring unit is electrically connected with the two detection contacts (36), the voltage measuring unit is used for measuring the operating voltage of the solar panel, the input of the detection unit is connected with the output of the voltage measuring unit, the detection unit is used for judging whether the operating voltage of the solar panel is smaller than the standard operating voltage, and the output of the detection unit is electrically connected with the alarm (38).

4. The solar panel detection device according to claim 2, wherein the detection mechanism (3) further comprises an upper carrier plate (31), a guide rod (32), a pressing handle (33) and a transmission rod (34), the upper carrier plate (31) is arranged above the workpiece placement plate (2), the guide rod (32) is arranged between the upper carrier plate (31) and the light source bottom box (1), the detection movable plate (35) is slidably arranged on the guide rod (32), and the pressing handle (33) is arranged on the upper carrier plate (31) and is in transmission connection with the detection movable plate (35) through the guide rod (32).

5. The solar panel detection device according to claim 4, wherein the light source bottom box (1) is internally provided with a fluorescent lamp (11), the end face of a back plate (12) of the light source bottom box (1) is higher than the setting surface of the workpiece placement plate (2), the upper carrier plate (31) is installed on the back plate (12), the light source bottom box (1) is provided with an illumination hole (13), and the light source bottom box (1) comprises a heat dissipation plate (14) for heat dissipation of the fluorescent lamp (11).

6. The solar panel detection device according to claim 5, wherein the workpiece placement plate (2) comprises a mounting plate (21) and a replacement plate (22), the mounting plate (21) is connected with the replacement plate (22) in a sliding way, the mounting plate (21) is mounted on the light source bottom box (1), a placement groove (23) is formed in the replacement plate (22), a positioning groove (24) is formed in the placement groove (23), the positioning groove (24) is matched with the illumination hole (13), and the replacement plate (22) is a light-transmitting plate.