CN113708725B - Photovoltaic module production is with adjusting test equipment - Google Patents

Abstract

The invention discloses an adjusting and testing device for photovoltaic module production, and relates to the technical field of devices for photovoltaic module production; the device comprises an installation mechanism, an adjustment testing mechanism, an auxiliary testing mechanism and a stable positioning mechanism, wherein the upper end and the rear part of the installation mechanism are connected with the adjustment testing mechanism, the middle part of the bottom of the installation mechanism is connected with the auxiliary testing mechanism, and two sides of the bottom end part of the auxiliary testing mechanism are fixedly connected with the stable positioning mechanism; the adjusting and testing mechanism comprises an adjusting piece, a testing piece is arranged at the rear end of the adjusting piece, and the upper end of the testing piece penetrates through the electric connection mechanism electrically connected with the outer storage battery. By arranging the adjusting and testing mechanism, the auxiliary testing mechanism and the stabilizing and positioning mechanism, the problems that the photovoltaic module is placed at a certain position in a single mode, the subsequent use and installation environment is not determined easily, the test treatment is difficult to be carried out according to the actual use condition during the test, and the auxiliary testing structure is unstable in structure and easy to topple over in the conventional electricity production testing equipment are solved.

Description

Photovoltaic module production is with adjusting test equipment

Technical Field

The invention belongs to the technical field of equipment for producing photovoltaic modules, and particularly relates to adjusting and testing equipment for producing photovoltaic modules.

Background

Photovoltaic modules are generally referred to as solar modules. Because the output voltage of the single solar cell is low, and the electrodes of the unpackaged cells are easy to fall off due to the influence of the environment, a certain number of single cells are sealed into a solar cell module in a series-parallel connection mode, the photovoltaic module needs to be tested and processed in production, and the test of the electricity generation amount belongs to one of tests.

Through the retrieval, chinese granted patent number CN213875787U authorizes the public day 2021.08.03, authorizes to disclose a testing arrangement for photovoltaic module, including the device body, the device body includes the shell, the surface connection of shell has control panel, the bottom of shell is connected with supports to sit, the bottom of shell is connected with the drain pan, the internal connection of shell has fixed establishment, fixed establishment includes first connecting block, the internal surface connection of drain pan has first connecting block, the bottom of shell is connected with the fixed block, the internal surface fixedly connected with spread groove of drain pan. The utility model discloses a through fixing device and angle adjusting device, fix the shell of testing arrangement for the photovoltaic module, also can adjust the base angle of testing arrangement for the photovoltaic module simultaneously, made things convenient for the user to use testing arrangement for the photovoltaic module, improved staff's work efficiency.

Through the retrieval, chinese granted patent number CN210142996U authorizes the public day 2020.03.13, authorizes and discloses a photovoltaic module test equipment, photovoltaic module test equipment includes box and withstand voltage insulation tester, the activity of box inner chamber is provided with withstand voltage insulation tester, the welding of withstand voltage insulation tester one end has the pivot, the welding of box inner chamber wall surface has the support, and support and pivot mutually support. The utility model discloses a simple structure, convenient operation and excellent in use effect, protect withstand voltage insulation tester through box and upper cover, seal the box through sealed pad and manger plate offset plate simultaneously, can carry out the separation to liquid, can effectively avoid intaking in the tester, and semiconductor refrigeration piece and heat dissipation fan mutually support, thereby with the further radiating effect of promotion to withstand voltage insulation tester, it carries out the battery to be transformed into light energy through the solar photovoltaic board and stores in the battery, thereby the person of facilitating the use carries out the electric quantity to the battery in the open air and supplements, it is more convenient to use.

However, the following disadvantages still exist in the practical use:

1. the existing electricity production testing equipment places the photovoltaic module at a certain position in a single form, detects electricity through an electric measuring instrument, cannot know the difference of electricity production in different illumination, is not beneficial to determining the subsequent use and installation environment and influences the use effect;

2. the existing electricity production testing equipment is difficult to be attached to the actual use condition for testing treatment or attached to the use condition for testing during testing, but the high-altitude operation risk is large;

3. when the existing electricity production testing equipment is used for testing under the laminating condition, the auxiliary testing structure is unstable in structure, the toppling condition is easy to occur, and the use cost is increased.

Therefore, the existing adjusting and testing equipment for producing the photovoltaic module cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

Disclosure of Invention

The invention aims to provide adjusting and testing equipment for photovoltaic module production, which solves the problems that the existing electricity production quantity testing equipment is used for placing a photovoltaic module at a certain position in a single mode and detecting electricity quantity through an electric measuring instrument, so that the difference of the electricity production quantity under different illumination cannot be known, the subsequent use and installation environment is not determined, the use effect is influenced, in addition, the testing is difficult to be carried out according to the actual use condition during testing, or the testing is carried out according to the use condition, but the high-altitude operation risk is large, and meanwhile, in the testing under the laminating condition, the auxiliary testing structure is unstable in structure, the toppling condition is easy to occur, and the use cost is increased.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to adjusting and testing equipment for photovoltaic module production, which comprises an installation mechanism, an adjusting and testing mechanism, an auxiliary testing mechanism and a stable positioning mechanism, wherein the upper end and the rear part of the installation mechanism are connected with the adjusting and testing mechanism, the middle part of the bottom of the installation mechanism is connected with the auxiliary testing mechanism, and two sides of the bottom end part of the auxiliary testing mechanism are fixedly connected with the stable positioning mechanism;

the adjusting and testing mechanism comprises an adjusting piece, a testing piece is arranged at the rear end of the adjusting piece, and the upper end of the testing piece penetrates through the electric connection mechanism electrically connected with the outer storage battery.

Further, the adjusting part comprises a U-shaped frame, the upper parts of the two sides of the U-shaped frame are connected with a longitudinal adjusting motor in a penetrating mode, the inner end of the longitudinal adjusting motor is sleeved with a lower support, the upper middle part of the lower support is connected with a transverse adjusting motor, and the upper output end of the transverse adjusting motor is connected with an upper support in a rotating mode.

Based on above-mentioned technical characteristics, carry out accepting of structure by the upper bracket to photovoltaic module, at this moment, vertical accommodate motor of outer control end control and horizontal accommodate motor carry out vertically and horizontal different position's regulation to photovoltaic module through vertical accommodate motor and horizontal accommodate motor to when carrying out photovoltaic module equidirectional not the absorption to illumination, in order to carry out subsequent test treatment, do benefit to follow-up installation environment's selection.

Further, the U type frame outside is connected with protection machanism, and protection machanism is including welding the cavity frame in U type frame front and back tip, the cavity has cup jointed the pillar in the frame, and pillar upper end sliding connection has the guard plate, and guard plate bottom end portion fixedly connected with baffle.

Based on above-mentioned technical characteristics, accept the pillar by the cavity frame, and accept through the pillar to the guard plate that is connected with the baffle slides, the dismouting of its structure is easily, and then adjust the outer protection after accredited testing organization uses and handle through guard plate and baffle.

Further, connect the electric mechanism including being a set of wiring that the symmetry set up, and wiring inner electric connection has the pillar, the pillar outside has cup jointed the insulating cover, and the pillar inner cup joints in its inboard takeover, the takeover surface is provided with the insulating layer.

Based on above-mentioned technical characteristics, test the piece by the wiring and be connected between outer battery to detect the electric quantity in storage and the outer battery, test the piece and be the electric measuring apparatu, and through the flexible of pillar in taking over, when connecting the wiring, easily its length adjustment, simultaneously, insulating cover and insulating layer are used for outer insulation protection to handle.

Further, installation mechanism is including being a set of mounting bracket that centrosymmetry set up, and mounting bracket bottom outside central point puts and is connected with the kicker through frame damping, and the kicker bottom is equidistant to be provided with a plurality of lugs, and frame outer end middle part is equidistant to be provided with the bolt.

Based on above-mentioned technical characteristics, accept fixedly by the auxiliary test mechanism and the regulation accredited testing organization of mounting bracket to this equipment, and carry out the primary connection to the bracer through the frame to by the screw under the effect of outer bolt, carry out the secondary to it and then carry out the firm processing of this equipment by the bracer.

Further, connect through coupling mechanism between the mounting bracket, and coupling mechanism includes a set of connecting block, connecting block damping is connected in the inner cell body of mounting bracket, the junction outside between the connecting block is provided with the link, the front and back end equidistance through connection of link has the double-screw bolt.

Based on the technical characteristics, the connecting frame is used for structurally connecting and fixing a group of connecting blocks through the studs, and the length of the connecting blocks can be easily adjusted while structural connection between the mounting frames is carried out through the expansion and contraction of the outer ends of the connecting blocks in the groove bodies.

Furthermore, the auxiliary testing mechanism comprises a support plate, a sleeve is downwards arranged at the center of the bottom end of the support plate, a sleeve column is sleeved in the sleeve, a hydraulic cylinder is arranged below the sleeve column, and the bottom end of the sleeve column is movably connected with the upper output end of the hydraulic cylinder.

Based on above-mentioned technical characteristics, carry out accepting of structure by the sleeve pipe to the cover post upper end, and be connected between the last output end of cover post lower extreme and pneumatic cylinder, control the pneumatic cylinder through outer control end to rise the processing through the pneumatic cylinder to this equipment, with the high demand of laminating in-service use, improve the precision of test.

Further, firm positioning mechanism includes a plurality of telescopic links, and a plurality of telescopic links are connected in the sleeve pipe both sides, and the ring piece upper end that output and the set post outside cup jointed at the bottom of the telescopic link is connected, ring piece week side central point equidistance is connected with firm pole, and middle part threaded connection has the inserted bar at the bottom of the firm pole.

Based on the technical characteristics, the outer control end controls the telescopic rod, at the moment, the telescopic rod applies downward force to the ring block, at the moment, the ring block moving downwards drives the stabilizing rod connected with the inserting rod to move downwards, and the inserting rod moving downwards enters the ground and drives the stabilizing rod to extend into the deep part of the ground so as to perform outer positioning treatment on the equipment and the auxiliary testing mechanism.

The invention has the following beneficial effects:

1. the photovoltaic module is subjected to test processing by the adjusting and testing mechanism, so that a better subsequent installation environment can be selected, the photovoltaic module is easy to use, specifically, the upper bracket in the adjusting and testing mechanism carries out structural bearing on the photovoltaic module, at the moment, the longitudinal adjusting motor and the transverse adjusting motor are controlled by the external control end, the photovoltaic module is adjusted at different positions in the longitudinal direction and the transverse direction by the longitudinal adjusting motor and the transverse adjusting motor, so that the photovoltaic module absorbs illumination in different directions, and the power generation amount is tested by the testing piece.

2. The auxiliary testing mechanism is arranged, the testing environment is subjected to fitting simulation treatment, so that the testing accuracy is improved, specifically, the upper output end of a hydraulic cylinder in the auxiliary testing mechanism is connected with the bottom end of the supporting plate through a sleeve column, at the moment, the outer control end controls the hydraulic cylinder, the hydraulic cylinder is used for lifting the equipment so as to fit the height of the equipment in actual use, and the steps are repeated for testing.

3. The auxiliary testing mechanism is provided with the stabilizing and positioning mechanism, so that the damage probability of the auxiliary testing mechanism is reduced, the use cost is saved, particularly, the telescopic rod in the stabilizing and positioning mechanism is controlled by the external control end, before the auxiliary testing mechanism is used, the telescopic rod applies downward force to the ring block, at the moment, the downward moving ring block drives the stabilizing rod connected with the inserting rod to move downwards, and the downward moving inserting rod enters the ground and drives the stabilizing rod to extend into the deep part of the ground.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a rear view of the present invention;

FIG. 3 is a schematic bottom view of the present invention;

FIG. 4 is a schematic connection diagram of the mounting mechanism, the auxiliary testing mechanism and the stable positioning mechanism of the present invention;

FIG. 5 is a schematic view of a stable positioning mechanism of the present invention;

FIG. 6 is a schematic view of an adjustment testing mechanism of the present invention;

FIG. 7 is a schematic view of the structure of the adjusting member of the present invention;

FIG. 8 is a schematic view of the shielding mechanism of the present invention.

FIG. 9 is an enlarged view taken at A in FIG. 2 according to the present invention;

FIG. 10 is an enlarged view of the position B in FIG. 3 according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. an installation mechanism; 110. a mounting frame; 120. a frame; 130. a support block; 200. adjusting the testing mechanism; 210. an adjustment member; 211. a U-shaped frame; 212. a longitudinal adjustment motor; 213. a lower bracket; 214. a lateral adjustment motor; 215. an upper bracket; 220. testing the piece; 300. an auxiliary testing mechanism; 310. a support plate; 320. sleeving a column; 330. a hydraulic cylinder; 400. a positioning mechanism is stabilized; 410. a telescopic rod; 420. a ring block; 430. a stabilizing rod; 440. inserting a rod; 500. a power connection mechanism; 510. wiring; 520. connecting columns; 530. an insulating sleeve; 540. taking over a pipe; 600. a protection mechanism; 610. a hollow frame; 620. a pillar; 630. a protection plate; 640. a baffle plate; 700. a connecting mechanism; 710. connecting blocks; 720. a connecting frame; 730. a stud.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1 to 10, the present invention is an adjusting and testing apparatus for photovoltaic module production, including an installation mechanism 100, an adjusting and testing mechanism 200, an auxiliary testing mechanism 300 and a stable positioning mechanism 400, wherein the upper end and the rear portion of the installation mechanism 100 are connected with the adjusting and testing mechanism 200, the middle portion of the bottom of the installation mechanism 100 is connected with the auxiliary testing mechanism 300, and two sides of the bottom end of the auxiliary testing mechanism 300 are fixedly connected with the stable positioning mechanism 400;

the adjusting and testing mechanism 200 comprises an adjusting piece 210, a testing piece 220 is arranged at the rear end of the adjusting piece 210, and the upper end of the testing piece 220 penetrates through the electric connection mechanism 500 which is electrically connected with the external storage battery and is electrically connected with the external storage battery;

the adjusting part 210 comprises a U-shaped frame 211, the upper parts of the two sides of the U-shaped frame 211 are in through connection with a longitudinal adjusting motor 212, the inner end of the longitudinal adjusting motor 212 is sleeved with a lower support 213, the upper middle part of the lower support 213 is connected with a transverse adjusting motor 214, and the upper output end of the transverse adjusting motor 214 is rotatably connected with an upper support 215;

the auxiliary testing mechanism 300 comprises a support plate 310, a sleeve is downwards arranged at the center of the bottom end of the support plate 310, a sleeve column 320 is sleeved in the sleeve, a hydraulic cylinder is arranged below the sleeve column 320, and the bottom end of the sleeve column 320 is movably connected with the upper output end of the hydraulic cylinder 330;

the stabilizing positioning mechanism 400 comprises a plurality of telescopic rods 410, the telescopic rods 410 are connected to two sides of the sleeve, the output ends of the telescopic rods 410 are connected with the upper end parts of ring blocks 420 sleeved outside the sleeve columns 320, stabilizing rods 430 are equidistantly connected to the central positions of the circumferential sides of the ring blocks 420, and the middle parts of the stabilizing rods 430 are in threaded connection with inserting rods 440.

The protection mechanism 600 is connected to the outer side of the U-shaped frame 211, the protection mechanism 600 comprises hollow frames 610 welded to the front end portion and the rear end portion of the U-shaped frame 211, supporting columns 620 are sleeved in the hollow frames 610, the upper ends of the supporting columns 620 are connected with protection plates 630 in a sliding mode, and the bottom end portions of the protection plates 630 are fixedly connected with baffle plates 640;

specifically, when the protection mechanism 600 is used, the bottom ends of the bumps at the two side ends of the bottom of the protection plate 630 are placed in the grooves in the middle of the outer side of the support column 620, and downward pushing force is applied to connect the protection plate 630 and the support column 620, at this time, the bottom end of the support column 620 is placed in the hollow frame 610, and downward force is applied until the bottom end of the baffle 640 contacts with the upper end of the U-shaped frame 211, and the reverse step is applied to detach the baffle 640;

the power connection mechanism 500 comprises a group of connection wires 510 which are symmetrically arranged, the inner ends of the connection wires 510 are electrically connected with connection posts 520, the outer sides of the connection posts 520 are sleeved with insulating sleeves 530, the inner ends of the connection posts 520 are sleeved in connection tubes 540 on the inner sides of the connection posts 520, and the outer surfaces of the connection tubes 540 are provided with a layer of insulating layer;

specifically, when the power connection mechanism 500 is used, a pushing and pulling force is applied to the connection post 520, so that the connection post 520 is correspondingly extended and retracted in the connection pipe 540, and a pushing and pulling force is applied to the insulating sleeve 530, so that the insulating sleeve 530 performs external shielding and isolation processing on the connection post 520 exposed in an external environment, and meanwhile, the end of one connection wire 510 is electrically connected to the external storage battery and the test piece 220, and the end of the other connection wire 510 is electrically connected to the external storage battery and the photovoltaic module.

The mounting mechanism 100 comprises a group of mounting frames 110 which are arranged in a central symmetry manner, the central position of the outer side of the bottom end of each mounting frame 110 is connected with a supporting block 130 through a frame 120 in a damping manner, a plurality of convex blocks are arranged at the bottom ends of the supporting blocks 130 at equal intervals, and bolts are arranged at the middle parts of the outer ends of the frames 120 at equal intervals;

specifically, when the mounting mechanism 100 is used, the upper end of the supporting block 130 is connected in the frame 120 in a damping manner, a tightening force is applied to a bolt placed in a screw hole in the middle of the outer end of the frame 120, the structure of the supporting block 130 is connected, and at the moment, the bottom end of the supporting block 130 is placed in contact with the ground;

the mounting frames 110 are connected through a connecting mechanism 700, the connecting mechanism 700 comprises a group of connecting blocks 710, the connecting blocks 710 are connected in a damping mode in a groove body at the inner end of the mounting frame 110, a connecting frame 720 is arranged on the outer side of the connecting position between the connecting blocks 710, and studs 730 are equidistantly connected at the front end and the rear end of the connecting frame 720 in a penetrating mode;

specifically, when the structures between the mounting brackets 110 are connected, the inner ends of the connecting blocks 710 are in contact with each other and clamped to the upper ends of the inner sides of the connecting frames 720, at the moment, the studs 730 are placed at the designated positions and the tightening force is applied, at the moment, the end portions of the connected connecting blocks 710 are sequentially placed in the groove bodies at the inner ends of the mounting brackets 110 respectively, and the pushing force is applied.

When the device is used in particular:

firstly, the equipment is moved to a designated position, and an upward force is applied to the protection plate 630, at this time, the support column 620 moves upwards in the hollow frame 610 until the support column 620 is separated from the hollow frame 610, at this time, the protection mechanism 600 is separated from the equipment;

then, the photovoltaic module to be tested is placed in the upper bracket 215, downward force is applied, the photovoltaic module is structurally positioned through the upper bracket 215, at the moment, the connection and length adjustment of the docking mechanism 500 are performed, at the moment, the push-pull force is applied to the docking columns 520, so that the docking columns 520 are correspondingly stretched in the connection pipes 540, the push-pull force is applied to the insulating sleeves 530, so that the insulating sleeves 530 perform external shielding and isolation treatment on the docking columns 520 exposed in the external environment, meanwhile, the end part of one connection wire 510 is respectively electrically connected with the external storage battery and the test piece 220, and the end part of the other connection wire 510 is electrically connected with the external storage battery and the photovoltaic module;

then, the upper end of the sleeve column 320, the lower end of which is connected with the upper output end of the hydraulic cylinder 330, is sleeved in the sleeve at the bottom end of the support plate 310, at this time, the external control end controls the hydraulic cylinder 330, and the hydraulic cylinder 330 applies a lifting force to the equipment, so that the photovoltaic module is lifted to a specified position to fit the situation in actual use.

Then, the external control end controls the telescopic rod 410, the telescopic rod 410 applies downward moving force to the ring block 420, the downward moving ring block 420 drives the stabilizing rod 430 connected with the inserting rod 440 to move downward, and the downward moving inserting rod 440 enters the ground and drives the stabilizing rod 430 to extend into the deep part of the ground so as to perform stable positioning treatment on the lifted equipment;

secondly, when the photovoltaic module rises to the height of the photovoltaic module under the actual use condition, the external control end controls the longitudinal adjusting motor 212 and the transverse adjusting motor 214, at the moment, the longitudinal adjusting motor 212 drives the photovoltaic module to adjust the longitudinal different positions, the transverse adjusting motor 214 drives the photovoltaic module to adjust the transverse different positions, meanwhile, after the photovoltaic module is adjusted in one position, the photovoltaic module in the position is subjected to illumination absorption and power generation, the photovoltaic module is stored through an external storage battery, and meanwhile, the test piece 220 is used for detecting and recording the generated power;

finally, after the device is used, the reverse steps are repeated, the auxiliary testing mechanism 300 and the stable positioning mechanism 400 are disassembled, the protection mechanism 600 is reinstalled, and the device is moved to the original position.

The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.

Claims (5)

1. The utility model provides a photovoltaic module production is with adjusting test equipment, includes installation mechanism (100), adjusts test mechanism (200), supplementary test mechanism (300) and firm positioning mechanism (400), its characterized in that: the upper end and the rear part of the installation mechanism (100) are connected with adjusting and testing mechanisms (200), the middle part of the bottom of the installation mechanism (100) is connected with an auxiliary testing mechanism (300), and two sides of the bottom end part of the auxiliary testing mechanism (300) are fixedly connected with stable positioning mechanisms (400);

the adjusting and testing mechanism (200) comprises an adjusting piece (210), a testing piece (220) is arranged at the rear end of the adjusting piece (210), and the upper end of the testing piece (220) penetrates through an electric connection mechanism (500) which is electrically connected with the external storage battery and is electrically connected with the external storage battery;

the adjusting part (210) comprises a U-shaped frame (211), the upper parts of two sides of the U-shaped frame (211) are connected with a longitudinal adjusting motor (212) in a penetrating manner, the inner end of the longitudinal adjusting motor (212) is sleeved with a lower support (213), the upper middle part of the lower support (213) is connected with a transverse adjusting motor (214), and the upper output end of the transverse adjusting motor (214) is rotatably connected with an upper support (215);

the auxiliary testing mechanism (300) comprises a support plate (310), a sleeve is downwards arranged at the center of the bottom end of the support plate (310), a sleeve column (320) is sleeved in the sleeve, a hydraulic cylinder is arranged below the sleeve column (320), and the bottom end of the sleeve column (320) is movably connected with the upper output end of the hydraulic cylinder (330);

steady fixed position mechanism (400) include a plurality of telescopic links (410), and a plurality of telescopic links (410) are connected in the sleeve pipe both sides, and ring piece (420) upper end that output and set post (320) outside cup jointed at the bottom of telescopic link (410) is connected, ring piece (420) week side central point equidistance is connected with firm pole (430), and has inserted bar (440) at the bottom of firm pole (430) middle part threaded connection.

2. The adjusting and testing device for the production of the photovoltaic module as recited in claim 1, wherein a protection mechanism (600) is connected to the outer side of the U-shaped frame (211), the protection mechanism (600) comprises hollow frames (610) welded to the front end and the rear end of the U-shaped frame (211), a supporting column (620) is sleeved in each hollow frame (610), a protection plate (630) is slidably connected to the upper end of each supporting column (620), and a baffle (640) is fixedly connected to the bottom end of each protection plate (630).

3. The adjusting and testing device for the production of the photovoltaic module as recited in claim 1, wherein the electrical connection mechanism (500) comprises a set of connection wires (510) symmetrically arranged, the inner ends of the connection wires (510) are electrically connected with connection posts (520), the outer sides of the connection posts (520) are sleeved with insulating sleeves (530), the inner ends of the connection posts (520) are sleeved in the connection tubes (540) on the inner sides of the connection posts, and the outer surfaces of the connection tubes (540) are provided with insulating layers.

4. The adjusting and testing device for the photovoltaic module production as recited in claim 1, wherein the mounting mechanism (100) comprises a set of mounting frames (110) arranged in a central symmetry manner, a supporting block (130) is connected to the central position of the outer side of the bottom end of the mounting frames (110) through a frame (120) in a damping manner, a plurality of convex blocks are arranged at the bottom end of the supporting block (130) at equal intervals, and bolts are arranged at the middle part of the outer end of the frame (120) at equal intervals.

5. The adjusting and testing device for the photovoltaic module production is characterized in that the mounting frames (110) are connected through a connecting mechanism (700), the connecting mechanism (700) comprises a group of connecting blocks (710), the connecting blocks (710) are connected in a damping mode in grooves at the inner ends of the mounting frames (110), connecting frames (720) are arranged on the outer sides of the connecting positions between the connecting blocks (710), and studs (730) are connected to the front ends and the rear ends of the connecting frames in a penetrating mode at equal intervals.

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