CN115001397B - Portable testing platform of large capacity photovoltaic power plant - Google Patents

Abstract

The utility model provides a portable testing platform of large capacity photovoltaic power plant, belongs to photovoltaic power plant and detects technical field, the box of installation on automobile body and the automobile body, install in the left side of box and place a and slewing mechanism, it includes a plurality of installed parts, one of them install photovoltaic module on the installed part, slewing mechanism includes installation piece and slurcam, slewing mechanism is through installation piece and box fixed connection, the one end that the box was kept away from to the installation piece is connected with the solid fixed cylinder through first axis of rotation, and through slewing mechanism's setting, the last pulling rod that sets up of slewing mechanism slides in the inside of solid fixed cylinder, consequently, and the slurcam realizes rotating through first axis of rotation, and the slurcam begins to rotate when the pulling rod removes to realize the promotion of slurcam to the photovoltaic module bottom, the slurcam carries out the in-process that promotes to the photovoltaic module bottom, the regulation of photovoltaic module angle is realized to testing platform detects the photovoltaic module of different angle settings.

Description

Portable testing platform of large capacity photovoltaic power plant

Technical Field

The invention relates to the technical field of photovoltaic power station detection, in particular to a mobile detection platform for a high-capacity photovoltaic power station.

Background

When a photovoltaic module arranged inside a photovoltaic power station is installed, the photovoltaic module needs to be detected, so that the photovoltaic module meets the requirements of different photovoltaic power stations, when the photovoltaic module is detected, the detection of the photovoltaic module is realized by using a detection platform, and at present, in an established photovoltaic power station, the problem that whether the pressure of the photovoltaic module on the photovoltaic power station meets the bearing capacity of the photovoltaic power station still exists, so that the pressure test of the photovoltaic power station has important significance on the aspects of safe operation and the like of the photovoltaic power station.

Among the prior art, chinese patent application with application number 201821903267.1 provides a photovoltaic module testing platform, wherein photovoltaic module testing platform includes movable carrier and set up in temperature control system and detecting system in the box of movable carrier, wherein, temperature control system include heating device and with supply air duct and return air duct that heating device connects, heating device is located the one end of box, the air outlet of supply air duct and the air intake of return air duct are located the box and are used for spreading into or spread photovoltaic module's one end, though, above-mentioned patent application passes through supply air duct and directly acts on the hot-air that heating device produced in the key region that needs to heat up as soon as possible and will need the cold air of key region that heats up as soon as possible through the return air duct and discharge to promote the temperature rise rate of whole photovoltaic module testing platform under adverse circumstances when solving the problem of the distance between testing platform and the photovoltaic power plant, however, the pressure that the different installation angles of photovoltaic module can bear is difficult to accurately detect, for this reason, has proposed a portable photovoltaic power plant large capacity testing platform as soon as possible.

Disclosure of Invention

The invention aims to provide a mobile detection platform of a high-capacity photovoltaic power station, which solves the problem that the pressure which can be borne by a photovoltaic module at different installation angles is difficult to accurately detect by arranging a placing piece and a rotating mechanism.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a portable testing platform of large capacity photovoltaic power plant, the box of installation on automobile body and the automobile body, place a and slewing mechanism are installed in the left side of box, it includes a plurality of installed parts, one of them install photovoltaic module on the installed part, slewing mechanism is including installation piece and slurcam, slewing mechanism is through installation piece and box fixed connection, the one end that the box was kept away from to the installation piece is rotated through first axis of rotation and is connected with the solid fixed cylinder, the one end sliding connection that the installation piece was kept away from to the solid fixed cylinder has the pole of pulling, the pole of pulling is located the inside of solid fixed cylinder and extends to the outside of solid fixed cylinder, the pole of pulling is kept away from the one end of solid fixed cylinder and is rotated through first axis of rotation and slurcam and is connected.

Through slewing mechanism's setting, the last pulling rod that sets up of slewing mechanism slides in the inside of solid fixed cylinder, therefore, and the slurcam realizes rotating through first axis of rotation, the slurcam begins to rotate when the pulling rod removes, thereby realize the promotion of slurcam to the photovoltaic module bottom, the in-process that the slurcam promoted is carried out to the photovoltaic module bottom, photovoltaic module begins to rotate under the effect of second axis of rotation, thereby realize the regulation of photovoltaic module angle, so that testing platform detects the photovoltaic module of different angle settings.

As a further scheme of the invention: the left side top fixedly connected with first joint piece of installed part, the right side top fixedly connected with second joint piece of installed part, the second joint hole has been seted up at the right side top of installed part, first joint piece and the mutual adaptation in second joint hole, adjacent installed part is through first joint piece and the joint in second joint hole.

As a still further scheme of the invention: first joint piece and second joint piece all are the arc setting, the radian that the bottom of the second joint piece that the right side of installed part set up formed is corresponding with the sunken of first joint piece top formation, at this moment, because first joint piece top is sunken state, it is protruding to be located the second joint piece lower extreme on installed part right side, thereby in the installation of adjacent installed part, after utilizing first joint piece and second joint hole joint to accomplish, first joint piece provides an ascending effort to the installed part that has the second joint piece in the inside in second joint hole, at this moment, the second joint piece is when first joint piece provides the effort that makes progress, second joint piece receives first joint piece effort in second joint hole, first joint piece provides a reaction force for the installed part, through first joint piece, the setting of second joint hole and second joint piece, first joint piece and the stability of second joint piece when realizing the installed part installation.

As a still further scheme of the invention: the placing part further comprises a frame body, one end, far away from the box body, of the photovoltaic assembly penetrates through the frame body, the frame body is installed on the box body through an installation part, the box body is close to one end, close to the placing part, of the box body and is provided with a pressure detector, the cylinder drives the pressure detector to move towards one side of the photovoltaic assembly, the pressure detector is close to one side of the photovoltaic assembly and is in contact with the photovoltaic assembly, and the distance between the frame body and the box body is always smaller than the distance between the pushing plate and the box body, close to one end of the box body and the box body.

As a still further scheme of the invention: the pressure detector is connected with the box body in a sliding mode through the air cylinder, and the mounting part close to one side of the box body is located inside the second cavity and fixedly connected with the box body.

As a still further scheme of the invention: two backup pads of photovoltaic module's bottom fixedly connected with, two the backup pad is located photovoltaic module's both sides respectively, the material of backup pad forms two for the iron plate preparation other fixedly connected with third joint piece is equallyd divide to one side that the backup pad is close to the installed part, a plurality of first joint holes have been seted up on the installed part, third joint piece is through corresponding first joint hole and installed part joint, because the backup pad is made to the iron sheet material, consequently, with the backup pad in installation photovoltaic module towards photovoltaic module's the outside pulling, then, the first joint hole joint that sets up on third joint piece that realizes setting up in the backup pad and the installed part to realize photovoltaic module's installation.

As a still further scheme of the invention: install the second axis of rotation between backup pad and the third joint piece, the backup pad passes through the second axis of rotation and is connected with corresponding third joint piece rotation, the backup pad rotates the cover and establishes on corresponding third joint piece, fixed cover is equipped with the torsional spring on the surface of second axis of rotation, the backup pad cover establish on the surface of torsional spring and with torsional spring fixed connection.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the photovoltaic module angle adjusting device, the rotating mechanism is arranged, the pulling rod arranged on the rotating mechanism slides in the fixed cylinder, therefore, the pushing plate rotates through the first rotating shaft, the pushing plate starts to rotate while moving, the pushing plate pushes the bottom end of the photovoltaic module, in the process that the pushing plate pushes the bottom end of the photovoltaic module, the photovoltaic module starts to rotate under the action of the second rotating shaft, and therefore the angle of the photovoltaic module is adjusted, and the detection platform can detect the photovoltaic modules arranged at different angles.

2. Through the arrangement of the mounting pieces, because the first clamping blocks arranged on the left side of the mounting pieces are mutually matched with the second clamping holes arranged on the right side of the mounting pieces, and the second clamping blocks are arranged on the right side of the mounting pieces, the mounting pieces are mounted by the two adjacent mounting pieces through the corresponding first clamping blocks and the second clamping holes, so that the distance between the mounting pieces and the box body is adjusted, when the mounting pieces are arranged, the first clamping blocks and the second clamping holes arranged on the mounting pieces are both arranged in an arc shape, and the radian formed by the bottom ends of the second clamping blocks arranged on the right side of the mounting pieces is corresponding to the depression formed by the top ends of the first clamping blocks, at the moment, because the tops of the first clamping blocks are in a depression state, second joint piece lower extreme arch that is located the installed part right side, thereby in the installation of adjacent installed part, utilize first joint piece and second joint hole joint after accomplishing, first joint piece provides an ascending effort at the inside in second joint hole to the installed part that has the second joint piece, at this moment, second joint piece is when first joint piece provides the effort that makes progress, second joint piece is when second joint hole receives first joint piece effort, first joint piece provides a reaction force for the installed part, through first joint piece, the setting of second joint hole and second joint piece, stability when installed part installation is realized to first joint piece and second joint piece.

3. Because the backup pad is made by the iron sheet material, consequently, with the backup pad in installation photovoltaic module outside pulling towards photovoltaic module, then, realize the third joint piece that sets up in the backup pad and the first joint hole joint that sets up on the installed part to realize photovoltaic module's installation, realize the quick installation between photovoltaic module and the testing platform.

Drawings

Fig. 1 is a schematic perspective view of a mobile detection platform of a large-capacity photovoltaic power station.

Fig. 2 is a schematic front view of the structure.

Fig. 3 is a schematic partial three-dimensional structure diagram of the mobile detection platform of the large-capacity photovoltaic power station in fig. 1, in which the rotating mechanism and the placing member are mounted on the box body.

Fig. 4 is an enlarged view of a point a in fig. 1.

Fig. 5 is a schematic structural diagram of fig. 3.

Fig. 6 is a schematic view of the photovoltaic module after being mounted to the mounting member of fig. 5.

Fig. 7 is an enlarged view of fig. 6 at B.

Fig. 8 is a structural diagram illustrating a state that the photovoltaic module is pushed after the rotating mechanism in fig. 6 rotates.

Fig. 9 is a schematic view of the multiple mounting members after installation.

Fig. 10 is an enlarged view at C in fig. 9.

Fig. 11 is a schematic view of the installation structure of two mounting members.

Fig. 12 is an enlarged view of fig. 11 at D.

Fig. 13 is a state structural view of the mount mounting process.

Fig. 14 is an enlarged view of fig. 13 at E.

In the figure: 10. a vehicle body; 101. a first cavity; 102. a second cavity; 11. a box body; 12. a pressure detector; 121. a cylinder; 20. placing the piece; 201. a frame body; 21. a mounting member; 211. a first clamping hole; 212. a first clamping block; 213. a second clamping hole; 214. a second clamping block; 30. a rotating mechanism; 301. mounting blocks; 31. a fixed cylinder; 311. a first rotating shaft; 32. pulling a rod; 33. a push plate; 41. a support plate; 411. a second rotating shaft; 42. a photovoltaic module; 43. and a third clamping block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In addition, an element of the present invention may be said to be "fixed" or "disposed" to another element, either directly on the other element or with intervening elements present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1 to 13, in an embodiment of the present invention, a mobile detection platform for a large-capacity photovoltaic power station includes a vehicle body 10 and a box body 11 installed on the vehicle body 10, a placement member 20 and a rotating mechanism 30 are installed on the left side of the box body 11, the placement member 20 includes a frame 201 and a plurality of installation members 21, the frame 201 is installed on the box body 11 through the installation members 21, when a photovoltaic module 42 is detected by using the mobile detection platform, according to a requirement of detection of the photovoltaic module 42, a distance between the frame 201 and the box body 11, which is installed on the placement member 20, is adjusted, so that the placement member 20 meets use requirements of the photovoltaic modules 42 with different lengths, adjustment of the distance between the frame 201 and the box body 11 is achieved by installing the plurality of installation members 21 between the box body 11 and the frame 201, a pressure detector 12 is installed at one end of the box body 11 close to the placement member 20, a first cavity 101 and a second cavity 102 are opened at one end of the box body 11 close to the placement member 20, an air cylinder 121 is installed inside the first cavity 101, one end of the air cylinder 121 close to the pressure detector 12 is fixedly connected with the pressure detector 12, the pressure detector 12 is slidably connected with the box body 11 through the air cylinder 121, the mounting member 21 close to one side of the box body 11 is located inside the second cavity 102 and is fixedly connected with the box body 11, the air cylinder 121 drives the pressure detector 12 to move towards one side of the photovoltaic module 42 in the detection process of the photovoltaic module 42, so that the side of the pressure detector 12 close to the photovoltaic module 42 is in contact with the photovoltaic module 42, the pressure detector 12 detects the pressure of the photovoltaic module 42, in the detection process of the photovoltaic module 42, the air cylinder 121 drives the pressure detector 12 to move towards one side of the photovoltaic module 42, so that the side of the pressure detector 12 close to the photovoltaic module 42 is in contact with the photovoltaic module 42, therefore, the pressure detector 12 detects the pressure of the photovoltaic module 42, the photovoltaic module 42 realizes the adjustment of the angle of the photovoltaic module under the action of the rotating mechanism 30, and the pressure detector 12 detects the pressure of the photovoltaic module 42 in different angle states.

One of them install photovoltaic module 42 on the installed part 21, two backup pads 41 of photovoltaic module 42's two bottom fixedly connected with, two backup pad 41 is located photovoltaic module 42's both sides respectively, the material of backup pad 41 forms for iron plate preparation, two other fixedly connected with third joint piece 43 is equallyd divide to one side that backup pad 41 is close to installed part 21, a plurality of first joint holes 211 have been seted up on the installed part 21, third joint piece 43 is through corresponding first joint hole 211 and installed part 21 joint, consequently, with backup pad 41 towards photovoltaic module 42's outside pulling when installing photovoltaic module 42, then, realize the first joint hole 211 joint that sets up on third joint piece 43 that sets up on the backup pad 41 and the installed part 21 to realize photovoltaic module 42's installation, install second axis of rotation 411 between backup pad 41 and the third joint piece 43, backup pad 41 rotates through second axis of rotation 411 and corresponding third joint piece 43 and is connected, backup pad 41 rotates the cover and establishes on corresponding third joint piece 43, be equipped with fixed cover on the surface of second axis of rotation 411, the backup pad 41 and the effectual torsional spring 21 that the box that the torsional spring 21 that the installation distance needs to pass through the effectual torsional spring 21 that the box that the torsional spring 21 is connected between the box that the installation distance is less than the box 201, the torsional spring 21, the effectual torsional spring 21 that the installation of torsional spring that the installation of torsion spring 21 is established, the installation of box is less than the box is kept away from, the effectual torsional spring 21 that the installation of torsional spring 21 that the installation is favorable to be equipped with the one end of the installation of box that the installation is connected between the installation, the installation of box that the installation is favorable to the torsion spring is favorable to be equipped with the torsion spring is favorable to be connected.

The top of the left side of the mounting member 21 is fixedly connected with a first clamping block 212, the top of the right side of the mounting member 21 is fixedly connected with a second clamping block 214, the top of the right side of the mounting member 21 is provided with a second clamping hole 213, the first clamping block 212 and the second clamping hole 213 are mutually adaptive, the first clamping block 212 and the second clamping block 214 are both arranged in an arc shape, the adjacent mounting member 21 is clamped through the first clamping block 212 and the second clamping hole 213, when the mounting member 21 is mounted, because the first clamping block 212 arranged at the left side of the mounting member 21 and the second clamping hole 213 arranged at the right side of the mounting member 21 are mutually adaptive, and the second clamping block 214 is arranged at the right side of the mounting member 21, the mounting of the mounting member 21 is realized through the corresponding first clamping block 212 and the second clamping hole 213 by the two adjacent mounting members 21, thereby realizing the adjustment of the distance between the mounting member 21 and the box body 11, because first joint piece 212 top is sunken state, it is protruding to be located the second joint piece 214 lower extreme on installed part 21 right side, thereby in the installation of adjacent installed part 21, utilize first joint piece 212 and second joint hole 213 joint to accomplish after, first joint piece 212 provides an ascending effort to the installed part 21 that has second joint piece 214 in the inside of second joint hole 213, this moment, second joint piece 214 is when first joint piece 212 provides the effort that makes progress, second joint piece 214 receives first joint piece 212 effort in second joint hole 213, first joint piece 212 provides a reaction force for installed part 21, through first joint piece 212, the setting of second joint hole 213 and second joint piece 214, stability when first joint piece 212 and second joint piece 214 realize the installed part 21 installation.

The rotating mechanism 30 comprises an installation block 301 and a push plate 33, the rotating mechanism 30 is fixedly connected with the box body 11 through the installation block 301, one end, far away from the box body 11, of the installation block 301 is rotatably connected with a fixed cylinder 31 through a first rotating shaft 311, one end, far away from the installation block 301, of the fixed cylinder 31 is slidably connected with a push rod 32, the push rod 32 is located inside the fixed cylinder 31 and extends to the outer side of the fixed cylinder 31, one end, far away from the fixed cylinder 31, of the push rod 32 is rotatably connected with the bottom end of the push plate 33 through the first rotating shaft 311, the push plate 33 starts to rotate while the push rod 32 moves, so that the push plate 33 pushes the bottom end of the photovoltaic module 42, in the process that the push plate 33 pushes the bottom end of the photovoltaic module 42, the photovoltaic module 42 starts to rotate under the action of a second rotating shaft 411, so that the angle of the photovoltaic module 42 is adjusted, the detection platform detects the photovoltaic modules 42 at different angles, in the detection process of the photovoltaic module 42, the cylinder 121 drives the pressure detector 12 to move towards one side of the photovoltaic module 42, so that the pressure detector 12 detects the photovoltaic modules 42 at different angles, the pressure, the mounting pieces 21 is required to be explained, and the distance of the installation block that the box body 11 is smaller than the distance of the effective distance of the installation block of the box body 11, and the effective distance of the box body 11.

The working principle of the invention is as follows:

when the movable detection platform is used for detecting the photovoltaic module 42, firstly, according to the requirement of detection of the photovoltaic module 42, the distance between the frame body 201 and the box body 11 arranged on the placing piece 20 is adjusted, so that the placing piece 20 can meet the use of the photovoltaic modules 42 with different lengths, the adjustment of the distance between the frame body 201 and the box body 11 is realized by installing a plurality of installing pieces 21 between the box body 11 and the frame body 201, when the installing pieces 21 are installed, because the first clamping blocks 212 arranged at the left side of the installing pieces 21 are mutually matched with the second clamping holes 213 arranged at the right side of the installing pieces 21, and the second clamping blocks 214 are arranged at the right side of the installing pieces 21, the installation of the installing pieces 21 is realized by the corresponding first clamping blocks 212 and the second clamping holes 213, so as to realize the adjustment of the distance between the installing pieces 21 and the box body 11, when the installing pieces 21 are arranged, the first clamping blocks 212 and the second clamping holes 213 arranged on the mounting member 21 are both arc-shaped, and the radian formed by the bottom ends of the second clamping blocks 214 arranged on the right side of the mounting member 21 corresponds to the depression formed by the top ends of the first clamping blocks 212, so that when the first clamping blocks 212 are clamped inside the second clamping holes 213, the angle of the mounting member 21 needs to be rotated so as to clamp the first clamping blocks 212 and the second clamping holes 213 on adjacent mounting members 21, when the adjacent mounting members 21 are clamped, as shown in fig. 13, the rotation of the mounting member 21 realizes the clamping operation between the first clamping blocks 212 and the second clamping holes 213, after the clamping of the mounting members 21 is completed, as shown in fig. 9 and 10, at this time, the top ends of the mounting members 21 are horizontally arranged, and the positional relationship between the first clamping blocks 212 and the second clamping holes 213 realizing the clamping of the adjacent mounting members 21 is as shown in fig. 10, at this moment, because first joint piece 212 top is sunken state, it is protruding to be located the second joint piece 214 lower extreme on installed part 21 right side, thereby in the installation of adjacent installed part 21, utilize first joint piece 212 and second joint hole 213 joint after accomplishing, first joint piece 212 provides an ascending effort to installed part 21 that has second joint piece 214 in the inside of second joint hole 213, at this moment, second joint piece 214 is when first joint piece 212 provides ascending effort, second joint piece 214 receives first joint piece 212 effort in second joint hole 213, first joint piece 212 provides a reaction force for installed part 21, through first joint piece 212, the setting of second joint hole 213 and second joint piece 214, stability when first joint piece 212 and second joint piece 214 realize the installed part 21 installation, it needs to explain, after installation installed part 21, the distance between framework 201 and the box 11 is less than the distance that push plate 33 is close to box 11 one end and box 11 and causes, effectual rotation mechanism 30 that avoids rotating the framework 201 to block the in-process blocks.

After the distance between the frame 201 and the box 11 is adjusted, the photovoltaic module 42 to be detected is installed on the corresponding installation part 21, the photovoltaic module 42 is installed on the photovoltaic module 42 through the third clamping block 43, because the support plate 41 is made of an iron sheet, when the photovoltaic module 42 is installed, the support plate 41 is pulled towards the outside of the photovoltaic module 42, then, the third clamping block 43 arranged on the support plate 41 is clamped with the first clamping hole 211 arranged on the installation part 21, so as to realize the installation of the photovoltaic module 42, because the pulling rod 32 arranged on the rotating mechanism 30 slides inside the fixed cylinder 31, therefore, the pushing plate 33 rotates through the first rotating shaft 311, the pushing plate 33 starts to rotate while the pulling rod 32 moves, thereby realizing the pushing of the pushing plate 33 to the bottom end of the photovoltaic module 42, in the process of pushing the bottom end of the photovoltaic module 42 by the pushing plate 33, the photovoltaic module 42 starts to rotate under the action of the second rotating shaft 411, thereby realizing the angle adjustment of the angle of the photovoltaic module 42, so that the detection platform detects the photovoltaic module 42 which is in the pressure of the photovoltaic module 42, thereby realizing the detection of the pressure detector 12 which is close to the photovoltaic module 12, and the pressure detector 12, thereby realizing the detection of the photovoltaic module 42 under the detection of the photovoltaic module 12, and realizing the detection of the photovoltaic module 12, and the detection of the photovoltaic module 12, and the detection under the detection platform.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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 specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims (6)

1. The utility model provides a portable testing platform of large capacity photovoltaic power plant, includes box (11) of installation on automobile body (10) and automobile body (10), its characterized in that, place a (20) and slewing mechanism (30) are installed to the left side of box (11), place a (20) including a plurality of installed parts (21), one of them install photovoltaic module (42) on installed part (21), slewing mechanism (30) are including installation piece (301) and catch plate (33), slewing mechanism (30) are through installation piece (301) and box (11) fixed connection, the one end that box (11) were kept away from to installation piece (301) is rotated through first axis of rotation (311) and is connected with fixed cylinder (31), the one end sliding connection that installation piece (301) was kept away from to fixed cylinder (31) has pulling rod (32), pulling rod (32) are located the inside of fixed cylinder (31) and extend to the outside of fixed cylinder (31), the one end that fixed cylinder (31) were kept away from to pulling rod (32) is connected with the bottom of catch plate (33) through first axis of rotation (311) through rotating;

the placing part (20) further comprises a frame body (201), one end, far away from the box body (11), of the photovoltaic assembly (42) penetrates through the frame body (201), the frame body (201) is installed on the box body (11) through an installation part (21), one end, close to the placing part (20), of the box body (11) is provided with a pressure detector (12), the pressure detector (12) is connected with the box body (11) in a sliding mode through a cylinder (121), the cylinder (121) drives the pressure detector (12) to move towards one side of the photovoltaic assembly (42), one side, close to the photovoltaic assembly (42), of the pressure detector (12) is in contact with the photovoltaic assembly (42), and the distance between the frame body (201) and the box body (11) is always smaller than the distance, close to one end of the box body (11) and the box body (11), of a pushing plate (33).

2. The mobile detection platform for the large-capacity photovoltaic power stations is characterized in that a first clamping block (212) is fixedly connected to the top of the left side of the mounting part (21), a second clamping block (214) is fixedly connected to the top of the right side of the mounting part (21), a second clamping hole (213) is formed in the top of the right side of the mounting part (21), the first clamping block (212) and the second clamping hole (213) are mutually adaptive, and adjacent mounting parts (21) are clamped through the first clamping block (212) and the second clamping hole (213).

3. The mobile detection platform for the large-capacity photovoltaic power stations is characterized in that the first clamping blocks (212) and the second clamping blocks (214) are arranged in an arc shape, the tops of the first clamping blocks (212) are in a concave state, the lower ends of the second clamping blocks (214) on the right side of the installation part (21) are convex, and when the installation part (21) is installed in an adjacent mode, the first clamping blocks (212) provide an upward acting force for the installation part (21) with the second clamping blocks (214) in the second clamping holes (213).

4. The mobile detection platform for the large-capacity photovoltaic power station as claimed in claim 1, wherein a first cavity (101) and a second cavity (102) are formed in one end, close to the placing member (20), of the box body (11), an air cylinder (121) is installed inside the first cavity (101), one end, close to the pressure detector (12), of the air cylinder (121) is fixedly connected with the pressure detector (12), and the installation member (21), close to one side of the box body (11), is located inside the second cavity (102) and is fixedly connected with the box body (11).

5. The mobile detection platform for the large-capacity photovoltaic power stations as claimed in claim 4, wherein two support plates (41) are fixedly connected to the bottom end of the photovoltaic module (42), the two support plates (41) are respectively located on two sides of the photovoltaic module (42), the support plates (41) are made of iron plates, the two support plates (41) are respectively fixedly connected with third clamping blocks (43) on one sides close to the mounting pieces (21), a plurality of first clamping holes (211) are formed in the mounting pieces (21), and the third clamping blocks (43) are clamped with the mounting pieces (21) through the corresponding first clamping holes (211).

6. The mobile detection platform for the large-capacity photovoltaic power plants as claimed in claim 5, wherein a second rotation shaft (411) is installed between the support plate (41) and the third clamping block (43), the support plate (41) is rotatably connected with the corresponding third clamping block (43) through the second rotation shaft (411), the support plate (41) is rotatably sleeved on the corresponding third clamping block (43), a torsion spring is fixedly sleeved on the outer surface of the second rotation shaft (411), and the support plate (41) is sleeved on the outer surface of the torsion spring and is fixedly connected with the torsion spring.

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