CN214337876U - Portable photovoltaic module EL test equipment appurtenance - Google Patents

Abstract

The utility model discloses a portable photovoltaic module EL test equipment auxiliary tool, which comprises a bearing base, two handheld telescopic rods and two supporting vertical pipes; wherein the bottom of the bearing base is provided with a bearing chassis, and 3 connecting pieces for connecting the bearing chassis and fixing a camera tripod are arranged above the bearing base; the two vertical support pipes are vertically and upwards arranged at two ends of the bearing base; two handheld telescopic links are parallel to the setting of bearing base, and handheld telescopic link one end is passed through adjustable angle fixed connector and is connected perpendicularly with the top of supporting the standpipe, and the other end of handheld telescopic link is connected with the flexible standpipe on perpendicular to ground. The utility model discloses on the basis of device is shot to former portable image, increased manual control's portable bearing base, simple structure, stability in use are good, can solve the safety problem when bicycle shed, green house and the roofing power station that does not have sufficient access passage carry out photovoltaic module EL test, effectively avoid personnel to fall, risk such as photovoltaic module damage.

Description

Portable photovoltaic module EL test equipment appurtenance

Technical Field

The utility model relates to a test equipment appurtenance technical field, concretely relates to portable photovoltaic module EL test equipment appurtenance.

Background

Under the background that the national non-renewable resources are compact and the environmental pollution problem is increasingly prominent, in recent years, China vigorously develops renewable clean energy sources such as photovoltaic power generation and the like. The scale of newly added photovoltaic power generation and accumulated installation in China continuously occupies the first position of the world for many years, and the photovoltaic power generation will occupy more and more in energy structures in China just before the realization of non-compensation flat-price internet surfing of the photovoltaic power generation.

In order to ensure healthy and efficient operation of the photovoltaic power station and promote the generation income as much as possible, the majority of photovoltaic power station owners pay more and more attention to the operation condition of the photovoltaic components and the construction quality of the power station, and the detection requirements on the photovoltaic components are also increased.

At present, the conventional test work of photovoltaic modules (EL) is generally carried out at night on a power station site, and quality defects such as hidden cracks, fragments, black films and the like of the photovoltaic modules cannot be judged by human eyes and need to be detected by means of a professional EL tester and a tripod. To general ground photovoltaic power plant and the roofing tiling subassembly photovoltaic power plant that leaves sufficient access way, place the camera tripod and can accomplish the shooting test operation to photovoltaic module on ground or access way.

However, the construction forms of the existing photovoltaic power stations in China are various, the height of a camera tripod is not enough for the project of mounting a photovoltaic module on a car shed and an agricultural greenhouse, and even if a platform is built and the tripod and the camera are placed on the platform, the testing condition cannot be met due to improper horizontal distance; similarly, for a roof tiled assembly photovoltaic power station without sufficient access ways, the testing conditions are difficult to achieve due to the fact that the tripod and the camera are far away from the assembly in the horizontal direction. And when testing bicycle shed, green house and the roofing power station photovoltaic module that does not have sufficient access way, often the manual work takes tripod and camera to step on the photovoltaic module surface and accomplish the test, and the photovoltaic module surface is wet smooth night, and high altitude construction exists personnel and falls the risk on bicycle shed and green house subassembly to in case trample photovoltaic module, lead to the subassembly to take place the condition such as hidden fracture, piece easily, damage photovoltaic module. Therefore, the photovoltaic modules of the car shed, the agricultural greenhouse and the roof power station without sufficient access channels can be safely tested, and the problem that the technical personnel need to solve at the present stage is urgent.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that needs to solve provides a portable photovoltaic module EL test equipment appurtenance, can test bicycle shed, green house and the roofing power station photovoltaic module that does not have sufficient access passage safely.

In order to solve the technical problem, the utility model adopts the following technical proposal.

A portable photovoltaic module EL test equipment auxiliary tool comprises a bearing base, two handheld telescopic rods and two supporting vertical pipes, wherein the bearing base is used for fixedly mounting an original portable image shooting device; the bottom of the bearing base is provided with a bearing chassis for bearing the bearing base, and 3 connecting pieces for connecting the bearing chassis and fixing a camera tripod are arranged above the bearing base; the two support vertical pipes are vertically and upwards arranged at two ends of the bearing base; two handheld telescopic links are parallel to the setting of bearing base, and handheld telescopic link one end is passed through adjustable angle fixed connector and is connected perpendicularly with the top of supporting the standpipe, and the other end of handheld telescopic link is handheld end, and handheld end bottom is connected with perpendicular to ground, is used for supporting the flexible standpipe of handheld telescopic link.

Preferably, the tops of the two support vertical pipes are horizontally connected through a support transverse pipe for ensuring the stability of an auxiliary tool.

Preferably, a supporting transverse pipe used for ensuring the stability of the auxiliary tool is horizontally connected between the handheld ends of the two handheld telescopic rods.

Preferably, the bearing base is a glass fiber reinforced plastic base, a rubber pad for insulation and buffering is laid on the surface of the bearing base, and an aluminum alloy frame for edge sealing is arranged at the edge of the bearing base; and the rubber strip for preventing the collision of the bearing base is adhered to the edge of the inner side of the aluminum alloy frame.

Preferably, the bottom of the telescopic vertical pipe is provided with a rubber pad for preventing the telescopic vertical pipe from directly contacting the photovoltaic panel.

Preferably, 6 universal wheels used for realizing free movement of the image shooting device on the surface of the photovoltaic panel are uniformly arranged below the bearing chassis in a surrounding manner; and the universal wheel is provided with a brake pad.

Preferably, the angle-adjustable fixed connecting piece is a cross fastener.

Due to the adoption of the technical scheme, the utility model has the following technical progress.

The utility model discloses on the basis of device is shot to former portable image, increased manual control's portable bearing base, not only simple structure, stability in use are good, have still solved the safety problem when bicycle shed, green house and the roofing power station that does not have sufficient access way carry out photovoltaic module EL test, can effectively avoid personnel to fall, risk such as photovoltaic module damages, have improved photovoltaic module's EL efficiency of software testing greatly.

Drawings

Fig. 1 is a top view of the present invention;

fig. 2 is a left side view of the present invention;

fig. 3 is a front view of the present invention.

Wherein: 1. the device comprises a rubber strip, 2 parts of an aluminum alloy frame, 3 parts of universal wheels, 4 parts of a load-bearing base, 5 parts of connecting pieces, 6 parts of a handheld telescopic rod, 7 parts of a horizontal supporting pipe, 8 parts of a vertical supporting pipe, 9 parts of a load-bearing chassis, 10 parts of a telescopic vertical pipe, 11 parts of an angle-adjustable fixed connecting piece and 12 parts of a rubber pad.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The utility model provides a portable photovoltaic module EL test equipment appurtenance, combines to show in fig. 1-3, includes bearing base 4, two handheld telescopic links 6 and two support standpipes 8 of connecting bearing base 4 and handheld telescopic link 6.

Bearing base 4 is circular, and diameter 90cm chooses for use the glass steel material, and the rubber pad has been laid on the surface, and the rubber pad can guarantee insulating while, possesses the cushioning effect, prevents and the photovoltaic module between the damage of colliding with each other. The edge of the bearing base 4 is provided with an aluminum alloy frame 2 for edge sealing; the glue of the inboard edge of aluminum alloy frame 2 has rubber strip 1, and rubber strip 1 is used for preventing bearing base 4 from colliding with.

The bottom of the bearing base 4 is provided with a bearing chassis 9, and the bearing chassis 9 is used for bearing the bearing base 4. 6 universal wheels 3 are uniformly arranged below the bearing chassis 9 in a surrounding manner; universal wheel 3 is 2 cun PU wheels or rubber wheel, is provided with the brake block, possesses the brake function, can realize bearing base 4 and image shooting device and freely remove and guarantee the stability of removal on photovoltaic board surface. 3 connecting pieces 5 are arranged above the bearing base 4, the connecting pieces 5 are angle iron connecting pieces, one end of each connecting piece is connected with the bearing base plate 9, and the other end of each connecting piece is connected with the supporting legs of the camera tripod through hoops.

The two vertical supporting pipes 8 are metal pipes (the length can be adjusted according to the situation) with the length of 0.75 meter, are vertically and upwards arranged at the two ends of the bearing base 4 and are used for supporting the handheld telescopic rod 6; horizontal connection 1 supports violently pipe 7 between the top of two support standpipe 8, and the stability that violently pipe 7 was used for guaranteeing appurtenance is managed in the support.

Two handheld telescopic links 6 are parallel to the setting of bearing base 4, and handheld telescopic link 6 3 meters under the extension state, 1.5 meters (can continue the extension as the case may be) under the contraction state, can satisfy the photovoltaic module EL test work demand of different distances. One end of the handheld telescopic rod 6 is vertically connected with the top of the supporting vertical pipe 8 through an angle-adjustable fixed connecting piece 11; the other end of the handheld telescopic rod 6 is a handheld end and is connected with a telescopic vertical pipe 10 through an angle-adjustable fixed connecting piece 11, 1 horizontal support connecting piece is horizontally connected between the handheld ends, and the horizontal support connecting piece 7 is used for guaranteeing the stability of the auxiliary tool. The angle-adjustable fixed connecting piece 11 for connection adopts a cross fastener, so that personnel can control the whole system better on the ground while the auxiliary tool can move on the photovoltaic module with an inclination angle.

Two flexible standpipes 10 set up perpendicularly respectively in the below of two handheld telescopic links 6 handheld ends for support handheld telescopic link 6, can guarantee image shooting system's stability when using manpower sparingly. The bottom of the telescopic vertical pipe 10 is provided with a rubber pad 12, and the rubber pad 12 is used for preventing the telescopic vertical pipe 10 from directly contacting the photovoltaic panel in the shooting process, so that the photovoltaic panel is protected.

When the utility model is used, a tripod provided with a shooting camera is fixed on a bearing base 4 of an auxiliary tool through a connecting piece 5; placing an auxiliary tool provided with a shooting camera on a photovoltaic module to be subjected to EL test; the camera activity is shot in the handheld telescopic link 6 drive of handheld, and after the angle was shot in the adjustment, through flexible standpipe 10 support handheld telescopic link 6, guarantee image shooting system's stability.

The utility model has the advantages of simple structure, the stability in use is good, can adjust as required, when having solved test bicycle shed, green house and the roofing power station photovoltaic module that does not have sufficient access passage, can't carry out EL test operation's problem safely, has effectively avoided personnel to fall, photovoltaic module damages risk such as waiting, has improved photovoltaic module EL efficiency of software testing greatly.

Claims (7)

1. The utility model provides a portable photovoltaic module EL test equipment appurtenance which characterized in that: the portable image shooting device comprises a bearing base (4) for fixedly mounting the original portable image shooting device, two handheld telescopic rods (6) for driving the bearing base (4) to move and two supporting vertical pipes (8) for connecting the bearing base (4) and the handheld telescopic rods (6); the bottom of the bearing base (4) is provided with a bearing chassis (9) for bearing the bearing base (4), and 3 connecting pieces (5) for connecting the bearing chassis (9) and fixing a camera tripod are arranged above the bearing base (4); the two supporting vertical pipes (8) are vertically and upwards arranged at two ends of the bearing base (4); two handheld telescopic links (6) are parallel to the setting of bearing base (4), and handheld telescopic link (6) one end is passed through adjustable angle fixed connector (11) and is connected perpendicularly with the top of supporting standpipe (8), and the other end of handheld telescopic link (6) is handheld end, and handheld end bottom is connected with perpendicular to ground, is used for supporting flexible standpipe (10) of handheld telescopic link (6).

2. The portable photovoltaic module EL test device aid of claim 1, wherein: the tops of the two support vertical pipes (8) are horizontally connected through a support horizontal pipe (7) used for ensuring the stability of the auxiliary tool.

3. The portable photovoltaic module EL test device aid of claim 1, wherein: a horizontal supporting pipe (7) used for ensuring the stability of the auxiliary tool is horizontally connected between the handheld ends of the two handheld telescopic rods (6).

4. The portable photovoltaic module EL test device aid of claim 1, wherein: the bearing base (4) is a glass fiber reinforced plastic base, a rubber pad for insulation and buffering is laid on the surface of the bearing base (4), and an aluminum alloy frame (2) for edge sealing is arranged at the edge of the bearing base (4); the rubber strip (1) used for preventing the bearing base (4) from colliding is adhered to the inner side edge of the aluminum alloy frame (2).

5. The portable photovoltaic module EL test device aid of claim 1, wherein: the bottom of the telescopic vertical pipe (10) is provided with a rubber pad (12) for preventing the telescopic vertical pipe (10) from directly contacting the photovoltaic panel.

6. The portable photovoltaic module EL test device aid of claim 1, wherein: 6 universal wheels (3) used for realizing free movement of the image shooting device on the surface of the photovoltaic panel are uniformly distributed and surrounded below the bearing chassis (9); and the universal wheel (3) is provided with a brake pad.

7. The portable photovoltaic module EL test device aid of claim 1, wherein: the angle-adjustable fixed connecting piece (11) is a cross fastener.

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