CN115825779B - Photovoltaic power generation-based power storage equipment detection device - Google Patents

Abstract

The invention relates to the technical field of detection of power storage equipment, in particular to a power storage equipment detection device based on photovoltaic power generation, which comprises a detection table, a storage battery arranged on the detection table, a pressing switch fixedly arranged on the inner wall of a detection groove, and a sponge body arranged between a marking plate and a detection air bag; the power-on frame is movably arranged on the inner top wall of the detection cover, and a conductive sheet is arranged on the bottom wall of the rectangular plate; and one end, far away from the rotating plate, of the two sliding rods is fixedly provided with a linkage plate, and a unilateral driving assembly for driving the single sliding rod to rotate once is arranged between the pressing plate and the two sliding rods. According to the scheme, the detection cover is arranged above the storage battery, the temperature of the outer wall of the battery is detected by the detection air bag in the detection plate, the deformation condition of the outside of the battery is detected by the marking plate, and the deformation position of the storage battery is marked when deformation occurs; and when electric leakage occurs, the electric leakage is moved to the other side of the detection table, so that the accurate detection of fault reasons is realized and classification is completed.

Description

Photovoltaic power generation-based power storage equipment detection device

Technical Field

The invention relates to the technical field of power storage equipment detection, in particular to a power storage equipment detection device based on photovoltaic power generation.

Background

Inexhaustible solar energy has the advantages of no pollution, wide distribution, short construction period, safety, no noise and the like, and is widely used as a recognized alternative energy, wherein solar photovoltaic power generation becomes the mainstream. The solar photovoltaic power generation can only generate power under the condition of illumination in the daytime, and the power generation condition is influenced by various factors such as illumination intensity, temperature, weather, longitude and latitude, region and the like. Because of the lack of specificity of these other systems, the storage and energy storage battery plays a significant role in the photovoltaic power generation system.

Before the photovoltaic power storage energy storage battery leaves the factory, the photovoltaic power storage energy storage battery must be detected, and then the probability of potential safety hazard occurrence when the photovoltaic power storage energy storage battery is reduced, but in the existing detection means, the probability of failure or even explosion after the photovoltaic power storage energy storage battery leaves the factory is still very high, and the failure cause cannot be accurately detected during detection, so that the failure cause cannot be obtained at the first time when the failure battery is overhauled later, and the quality of detection is poor and the subsequent overhauling efficiency is low.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a power storage equipment detection device based on photovoltaic power generation, which can effectively solve the problem that the failure cause cannot be accurately detected in the prior art.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention provides a photovoltaic power generation-based power storage equipment detection device, which comprises a detection table, a storage battery placed on the detection table, a fixing frame, a detection cover and a first electric push rod, wherein the detection cover is arranged below the fixing frame; the detection plate is movably arranged on four inner side walls of the detection cover, one side of the detection plate, which is far away from the inner wall of the detection cover, is provided with a detection groove, a pressing switch is fixedly arranged on the inner wall of the detection groove, a movable plate is elastically arranged in the detection groove, one side of the movable plate, which is close to the pressing switch, is provided with a detection air bag, evaporation liquid is arranged in the detection air bag, one side of the movable plate, which is far away from the pressing switch, is elastically provided with a marking plate, a plurality of through holes are formed in the marking plate, a cavernous body is arranged between the marking plate and the detection air bag, pigment is arranged in the cavernous body, and the marking plate is flush with a notch of the detection groove; the power-on frame is movably arranged on the inner top wall of the detection cover, two rectangular plates are slidably arranged on the power-on frame, two curved plates are rotatably arranged on the rectangular plates, power-on plates are fixedly arranged on the two curved plates, a conductive sheet is arranged on the bottom wall of the rectangular plate, and a power-on switch electrically connected with the conductive sheet is arranged in the rectangular plate; the rotating groove is formed in two sides of the detecting table, the rotating plates are installed in the rotating grooves in a rotating mode, the sliding rods are movably installed at the bottoms of the rotating plates, the sliding rods are far away from the connecting plates, the connecting plates are fixedly installed at one ends of the sliding rods, second electric push rods used for pressing the two connecting plates are fixedly installed on the bottom wall of the detecting table, an output shaft is arranged at the bottom end of each second electric push rod, a pressing plate is arranged on the output shaft, and a single-side driving assembly used for driving the single sliding rod to rotate once is arranged between the pressing plate and the two sliding rods.

Further, unilateral drive assembly includes two fixed plates of fixed mounting on the test bench diapire, two fixed interlude has an electro-magnet on the fixed plate respectively, and two electro-magnets are controlled by pressing switch and electric switch respectively, all fixed mounting has first permanent magnet on the both sides outer wall of clamp plate, the electro-magnet repels with first permanent magnet when circular telegram.

Further, unilateral drive assembly still includes the limiting plate of fixed mounting on the slide bar, the limiting hole has been seted up to the limiting plate, the balladeur train is installed to fixed plate one side that is close to the limiting plate, slidable mounting has the fly frame on the balladeur train, fixed mounting has the second permanent magnet on the fly frame, be equipped with on the fly frame with limiting hole matched with gag lever post, the electro-magnet repels with the second permanent magnet when switching on.

Further, install the piston pipe on four lateral walls of detection cover respectively, four the piston pipe is the right angle form, piston pipe keeps away from detection cover one end activity and inserts and be equipped with first piston rod, four the piston pipe one end is kept away from to first piston rod is fixed mounting has the annular plate jointly, piston pipe is close to detection cover one end activity and inserts and be equipped with the second piston rod, and the second piston rod activity runs through the outer wall of detection cover, piston pipe one end fixed mounting is kept away from on the outer wall of pick-up plate to the second piston rod.

Further, slidable mounting has the regulating plate on the roof of detection cover, the regulating plate runs through the roof of detection cover and fixed mounting is on the roof of circular telegram frame, the screw hole has been seted up on the regulating plate, threaded rod is installed to the screw thread in the screw hole, install the servo motor that is used for driving the threaded rod on the outer wall of detection cover.

Further, the detection table is provided with a driving belt for conveying the storage battery, the rotating connection part of the rotating plate and the rotating groove is close to the driving belt, the rotating connection part is provided with a torsion spring, and the rotating plate is rotatably provided with a plurality of guide rollers.

Further, a spring rod is connected between the detection air bag and the detection groove, the marking plate is composed of a plurality of square plates, each square plate is elastically mounted on the detection air bag, and each square plate is provided with a through hole.

Further, two inclined planes are symmetrically arranged on the bottom wall of the power-on frame, the right-angle plate is slidably arranged on the inclined planes, two hinges are arranged on the right-angle plate, the curved plate is rotatably arranged on the hinges, and the curved plate is in a V shape.

Further, a temperature sensor is arranged on the power connection plate.

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

according to the scheme, the detection cover is arranged above the storage battery, the detection plate is arranged in the detection cover, the temperature of the outer wall of the battery is detected by the detection air bag in the detection plate, the electromagnet on the lower side is started to enable the storage battery to move to the side of the detection table when the temperature is too high, meanwhile, the deformation condition of the outer part of the battery is detected by the marking plate, and the deformation position of the storage battery is marked when deformation occurs; in addition, the conductive sheet is used for detecting whether the shell leaks electricity when the storage battery is charged and discharged, and the shell moves to the other side of the detection table when the storage battery leaks electricity, so that the accurate detection of fault reasons is realized, and classification is completed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is an overall schematic of the present invention;

FIG. 2 is a schematic view of the outer structure of the inspection hood according to the present invention;

FIG. 3 is a schematic view showing the internal structure of the inspection hood according to the present invention;

FIG. 4 is an enlarged view of the portion A of FIG. 3;

FIG. 5 is a schematic view of the structure of the piston tube and the detection plate according to the present invention;

FIG. 6 is a schematic view of the structure of the power-on rack of the present invention;

FIG. 7 is a schematic view of a power board according to the present invention;

FIG. 8 is a schematic diagram of a pushing assembly according to the present invention;

FIG. 9 is a schematic view of the structure between the platen and the drive rod in the present invention;

fig. 10 is an enlarged view of the part B structure in fig. 9.

Reference numerals in the drawings represent respectively: 1. a detection table; 2. a storage battery; 3. a fixing frame; 4. a first electrical push rod; 5. a detection cover; 6. a piston tube; 7. a first piston rod; 8. a second piston rod; 9. an annular plate; 10. a detection plate; 11. a servo motor; 12. a threaded rod; 13. an adjusting plate; 14. a spring rod; 15. detecting an air bag; 1501. a sponge body; 1502. a marking plate; 1503. a through hole; 16. pressing the switch; 17. an electrifying frame; 18. an inclined plane; 19. a right angle plate; 20. a hinge; 21. a curved plate; 22. a power connection plate; 23. a temperature sensor; 24. a conductive sheet; 25. a rotating groove; 26. a rotating plate; 27. a guide roller; 28. a slide bar; 29. a linkage plate; 30. a second electric push rod; 31. a pressing plate; 32. a first permanent magnet; 33. a fixing plate; 34. an electromagnet; 35. a carriage; 36. a movable frame; 37. a limit rod; 38. a second permanent magnet; 39. an electric switch; 40. and a limiting plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of 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. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Examples: referring to fig. 1-10, a photovoltaic power generation-based power storage equipment detection device comprises a detection table 1 and a storage battery 2 arranged on the detection table 1, wherein a transmission belt for conveying the storage battery 2 is arranged on the detection table 1 (the storage battery 2 can be transferred through the transmission belt to replace manual transportation, so that the detection efficiency is improved, the detection quality is also improved), a fixing frame 3 is arranged above the detection table 1, a detection cover 5 is arranged below the fixing frame 3, and a first electric push rod 4 for driving the detection cover 5 to lift is arranged above the fixing frame 3; the detection plate 10 is movably arranged on the four inner side walls of the detection cover 5, the four side walls of the detection cover 5 are respectively provided with a piston pipe 6, the four piston pipes 6 are all in right angles, one end of the piston pipe 6, which is far away from the detection cover 5, is movably inserted with a first piston rod 7, one end of the four first piston rods 7, which is far away from the piston pipe 6, is fixedly provided with an annular plate 9 together, one end of the piston pipe 6, which is close to the detection cover 5, is movably inserted with a second piston rod 8, the second piston rod 8 movably penetrates through the outer wall of the detection cover 5, one end of the second piston rod 8, which is far away from the piston pipe 6, is fixedly arranged on the outer wall of the detection plate 10, one side, which is far away from the inner wall of the detection cover 5, of the detection plate 10 is provided with a detection groove, the movable plate is elastically installed in the detection groove, the movable plate is provided with the detection air bag 15 close to the side of the pressing switch 16, the detection air bag 15 is provided with evaporating liquid, the movable plate is provided with the marking plate 1502 which is elastically installed on the side of the movable plate, which is far away from the pressing switch 16, a plurality of through holes 1503 are formed in the marking plate 1502, a sponge 1501 is arranged between the marking plate 1502 and the detection air bag 15, pigment is arranged in the sponge 1501, the marking plate 1502 is flush with the notch of the detection groove, a spring rod 14 is connected between the detection air bag 15 and the detection groove, the marking plate 1502 is composed of a plurality of square plates, each square plate is elastically installed on the detection air bag 15, and one through hole 1503 is formed in each square plate.

This scheme is placed battery 2 to detect on the platform 1, drive through first electric push rod 4 and detect cover 5 and move down, the annular plate 9 of its side can follow its move down when detecting cover 5 moves down, annular plate 9 drives first piston rod 7 and moves up for the atmospheric pressure in the piston tube 6 increases, make the outside motion of second piston rod 8 toward piston tube 6 through the atmospheric pressure effect, second piston rod 8 drives the detection board 10 and moves toward the outer wall department of battery 2, and the travel distance and the speed of four detection boards 10 are the same, this just makes detection board 10 have the effect of location, thereby improve the precision of detection.

After the detection plate 10 is attached to the outer wall of the battery 2, as shown in fig. 5, the marking plate 1502 in the detection groove on the detection plate 10 is attached to the outer wall of the battery 2, and it is noted that the marking plate 1502 is aligned with the notch of the detection groove, so that the detection plate 10 is attached to the outer wall of the battery 2, the marking plate 1502 does not press the outer wall of the battery 2, and various conditions can occur when the battery 2 is subjected to power-on test, such as serious heat generation, serious case deformation, serious heat generation and case deformation;

when the heating occurs, the temperature outside the storage battery 2 is transmitted to the detection air bag 15 in the detection groove, the evaporation liquid in the detection air bag 15 is evaporated, the detection air bag 15 is inflated, and it is worth noting that the detection air bag 15 is mounted on the movable plate, a spring rod 14 is connected between the movable plate and the detection groove, the spring rod 14 is in the longest state in the initial state, that is, the detection air bag 15 presses the movable plate when inflated, the inflation direction only faces the pressing switch 16 singly, and the pressing switch 16 is pressed to enable the storage battery 2 detected at the time to be transferred to one side of the detection table 1.

When the deformation of the outer wall of the storage battery 2 occurs, the expanded storage battery 2 shell is pressed onto the marking plate 1502 beyond the notch of the detection groove, the marking plate 1502 extrudes the sponge 1501, the internal pigment is printed on the outer wall of the storage battery 2 through the through holes 1503, and in order to improve the marking accuracy, the marking plate 1502 is changed into a plurality of square plates which can slide independently, each square plate is provided with one through hole 1503, and thus the expansion places can be pressed against the square plates at the corresponding positions, and the expansion places can be marked accurately. And when the flag 1502 is pressed, it will drive the movable plate to press against the pressing switch 16, and transfer the battery 2 to one side (the same side as the high temperature) of the inspection stage 1. Although on the same side as the heat generation, there is one more mark on the outer wall.

Referring to fig. 1-10; the circular telegram frame 17, movable mounting is on detecting the interior roof of cover 5, slidable mounting has regulating plate 13 on the roof of detecting the cover 5, regulating plate 13 runs through the roof of detecting the cover 5 and fixed mounting is on the roof of circular telegram frame 17, threaded hole has been seted up on regulating plate 13, threaded rod 12 is installed to the screw thread in the threaded hole, install the servo motor 11 that is used for driving threaded rod 12 on the outer wall of detecting the cover 5, and slidable mounting has two rectangular plate 19 on circular telegram frame 17, two inclined planes 18 have been seted up to the symmetry on circular telegram frame 17 diapire, rectangular plate 19 slidable mounting is on inclined plane 18, install two hinges 20 on the rectangular plate 19, curved plate 21 is installed on hinge 20 in the rotation, and curved plate 21 is the V type, rotatable mounting has two curved plates 21 on the rectangular plate 21, equal fixed mounting has and connects electric plate 22, be equipped with temperature sensor 23 on the electric plate 22, be equipped with conducting strip 24 on the diapire of rectangular plate 19, be equipped with in the rectangular plate 19 with the electric switch 39 with conducting strip 24 electric connection.

In order to facilitate power connection, the scheme is that the power-on frame 17 is slidably mounted on the top wall inside the detection cover 5, when the detection cover 5 moves downwards, the right-angle plates 19 are pressed on the top wall of the storage battery 2, when the right-angle plates 19 are pressed, the two right-angle plates 19 slide on the inclined surfaces 18 (are close to each other, as shown in fig. 6, arrows are not drawn), when the two right-angle plates 19 are close to each other, the curved plates 21 are close to the electrodes of the storage battery 2, the curved plates 21 are pressed by the electrodes, the curved plates 21 drive the power connection plates 22 to rotate, and the power connection plates 22 clamp the electrodes of the storage battery 2 to finish power connection. The position of the electrifying frame 17 can be adjusted, the servo motor 11 drives the threaded rod 12 to rotate, and the position of the adjusting plate 13 is changed through screw transmission, so that the position of the electrifying frame 17 is adjusted, and different storage batteries 2 are adapted. It should be noted that the temperature sensor 23 is disposed on the power receiving plate 22 to monitor the temperature of the electrode.

Further, the bottom wall of the rectangular plate 19 is provided with a conductive piece 24, and when the casing of the battery 2 leaks electricity, the conductive piece 24 guides the current to the power switch 39, and the power switch 39 is activated to move the battery 2 detected this time to the other side (the side opposite to the high temperature deformation) of the detection table 1.

Referring to fig. 1-10; the rotating grooves 25 are formed in two sides of the detection table 1, the rotating plates 26 are rotatably arranged in the two rotating grooves 25, the rotating connection parts of the rotating plates 26 and the rotating grooves 25 are close to the transmission belt, torsion springs are arranged at the rotating connection parts, a plurality of guide rollers 27 are rotatably arranged on the rotating plates 26, sliding rods 28 are movably arranged at the bottoms of the two rotating plates 26, a linkage plate 29 is fixedly arranged at one end of each sliding rod 28 far away from the rotating plate 26, a second electric push rod 30 for pressing the two linkage plates 29 is fixedly arranged on the bottom wall of the detection table 1, an output shaft is arranged at the bottom end of the second electric push rod 30, a pressing plate 31 is arranged on the output shaft, a single-side driving assembly for driving the single sliding rod 28 to rotate once is arranged between the pressing plate 31 and the two sliding rods 28, the single-side driving assembly comprises two fixed plates 33 fixedly arranged on the bottom wall of the detection table 1, an electromagnet 34 is fixedly inserted on the two fixed plates 33 respectively, the two electromagnets 34 are controlled by a pressing switch 16 and an electric switch 39 respectively, a first permanent magnet 32 is fixedly arranged on the outer walls of two sides of the pressing plate 31, a second permanent magnet 30 for pressing the two permanent magnets 32 are fixedly arranged on the outer walls of the pressing plate 32, a limit bracket 38 is fixedly arranged on the two limit brackets 40 and a limit bracket 36 is fixedly arranged on the limit bracket 36, and a limit bracket 36 is fixedly arranged on the limit bracket 36.

In order to conveniently classify the detected storage battery 2, two rotating plates 26 are rotatably arranged on two sides of the detection table 1, a pressing plate 31 below the detection table is driven by a second electric push rod 30 to move downwards, the pressing plate 31 drives a linkage plate 29, the linkage plate 29 drives a sliding rod 28 to rotate (notably, the end part of the sliding rod 28 is slidably arranged on the bottom wall of the rotating plate 26 and the sliding connection part can rotate as shown in fig. 9), the sliding rod 28 drives the rotating plate 26 to rotate, and the rotating plate 26 rotates to the storage battery 2 to classify the storage battery 2.

Further, in this embodiment, the first permanent magnets 32 are installed on both sides of the pressing plate 31, the first permanent magnets 32 are driven, and two electromagnets 34 are disposed at the bottom of the detecting table 1, where the two electromagnets 34 are controlled by the pressing switch 16 and the power switch 39, respectively, if the pressing switch 16 is started when heated, the electromagnet 34 on one side is started, the first permanent magnet 32 and the second permanent magnet 38 on the corresponding side are both subjected to repulsive force, the limiting rod 37 is clamped into the limiting hole under the repulsive force, the slide rod 28 on the side is positioned and cannot be pushed, and the pressing plate 31 moves to above the linkage plate 29 on the other side under the repulsive force (only aligns with a single linkage plate 29 at this time), and at this time, the linkage plate 29, the slide rod 28 and the rotating plate 26 on the other side are all rotatable, and the second electric push rod 30 drives the pressing plate 31 to press the linkage plate 29, so that the rotating plate 26 rotates to push the storage battery 2, thereby completing classification. Similarly, the power switch 39 is rotated by the rotating plate 26 on the opposite side of the push switch 16.

It should be noted that, when electric leakage, heat, etc. occur, the second electric push rod 30 drives the pressing plate 31 to move downwards, both the rotating plates 26 cannot rotate, and the driving belt drives the storage battery 2 to move continuously, but the outer wall of the driving belt has marks. Further, when no mark is provided, the pressing switch 16 and the power switch 39 are respectively connected with a lamp body in an external mode, and the detection is prompted.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; these modifications or substitutions do not depart from the essence of the corresponding technical solutions from the protection scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. The utility model provides a power storage equipment detection device based on photovoltaic power generation, includes detection platform (1) and places battery (2) on detection platform (1), its characterized in that still includes:

the fixing frame (3) is arranged above the detection table (1), a detection cover (5) is arranged below the fixing frame (3), and a first electric push rod (4) for driving the detection cover (5) to lift is arranged above the fixing frame (3);

the detection plate (10) is movably arranged on four inner side walls of the detection cover (5), one side, far away from the inner wall of the detection cover (5), of the detection plate (10) is provided with a detection groove, the inner wall of the detection groove is fixedly provided with a pressing switch (16), the detection groove is internally provided with a movable plate in an elastic manner, one side, close to the pressing switch (16), of the movable plate is provided with a detection air bag (15), the detection air bag (15) is internally provided with evaporating liquid, one side, far away from the pressing switch (16), of the movable plate is provided with a marking plate (1502), the marking plate (1502) is provided with a plurality of through holes (1503), a sponge body (1501) is arranged between the marking plate (1502) and the detection air bag (15), the sponge body (1501) is provided with pigment, and the marking plate (1502) is flush with a notch of the detection groove;

the power-on frame (17) is movably arranged on the inner top wall of the detection cover (5), two rectangular plates (19) are slidably arranged on the power-on frame (17), two curved plates (21) are rotatably arranged on the rectangular plates (19), power-on plates (22) are fixedly arranged on the two curved plates (21), a conducting strip (24) is arranged on the bottom wall of the rectangular plate (19), and a power-on switch (39) electrically connected with the conducting strip (24) is arranged in the rectangular plate (19);

the rotating groove (25) is formed in two sides of the detecting table (1), the rotating grooves (25) are internally provided with rotating plates (26) in a rotating mode, the bottoms of the rotating plates (26) are movably provided with sliding rods (28), the sliding rods (28) are far away from one ends of the rotating plates (26) and are fixedly provided with linkage plates (29), the bottom wall of the detecting table (1) is fixedly provided with a second electric push rod (30) used for pressing the two linkage plates (29), the bottom end of the second electric push rod (30) is provided with an output shaft, a pressing plate (31) is arranged on the output shaft, and a single-side driving assembly used for driving the single sliding rod (28) in a single mode is arranged between the pressing plate (31) and the two sliding rods (28).

2. The photovoltaic power generation-based power storage equipment detection device according to claim 1, wherein the unilateral driving assembly comprises two fixing plates (33) fixedly installed on the bottom wall of the detection table (1), one electromagnet (34) is fixedly inserted in each fixing plate (33), the two electromagnets (34) are respectively controlled by a pressing switch (16) and an electric connection switch (39), first permanent magnets (32) are fixedly installed on the outer walls of two sides of the pressing plate (31), and the electromagnets (34) repel the first permanent magnets (32) when being electrified.

3. The photovoltaic power generation-based power storage equipment detection device according to claim 2, wherein the unilateral driving assembly further comprises a limiting plate (40) fixedly installed on the sliding rod (28), the limiting plate (40) is provided with a limiting hole, a sliding frame (35) is installed on one side, close to the limiting plate (40), of the fixed plate (33), a movable frame (36) is installed on the sliding frame (35) in a sliding mode, a second permanent magnet (38) is fixedly installed on the movable frame (36), a limiting rod (37) matched with the limiting hole is arranged on the movable frame (36), and the electromagnet (34) repels the second permanent magnet (38) when being electrified.

4. The power storage equipment detection device based on photovoltaic power generation according to claim 1, wherein the four side walls of the detection cover (5) are respectively provided with a piston tube (6), four piston tubes (6) are all in a right angle shape, one end of each piston tube (6) far away from the detection cover (5) is movably inserted with a first piston rod (7), one end of each piston tube (7) far away from each piston tube (6) is fixedly provided with an annular plate (9), one end of each piston tube (6) close to the detection cover (5) is movably inserted with a second piston rod (8), the second piston rods (8) movably penetrate through the outer wall of the detection cover (5), and one end of each second piston rod (8) far away from each piston tube (6) is fixedly arranged on the outer wall of the detection plate (10).

5. The photovoltaic power generation-based power storage equipment detection device according to claim 1, wherein an adjusting plate (13) is slidably mounted on the top wall of the detection cover (5), the adjusting plate (13) penetrates through the top wall of the detection cover (5) and is fixedly mounted on the top wall of the power-on frame (17), a threaded hole is formed in the adjusting plate (13), a threaded rod (12) is mounted in the threaded hole in a threaded mode, and a servo motor (11) for driving the threaded rod (12) is mounted on the outer wall of the detection cover (5).

6. The electricity storage equipment detection device based on photovoltaic power generation according to claim 1, wherein a transmission belt for conveying the storage battery (2) is arranged on the detection table (1), a rotating connection part of the rotating plate (26) and the rotating groove (25) is close to the transmission belt, a torsion spring is arranged at the rotating connection part, and a plurality of guide rollers (27) are rotatably arranged on the rotating plate (26).

7. The electricity storage equipment detection device based on photovoltaic power generation according to claim 1, wherein a spring rod (14) is connected between the detection air bag (15) and the detection groove, the marking plate (1502) is composed of a plurality of square plates, each square plate is elastically installed on the detection air bag (15), and each square plate is provided with a through hole (1503).

8. The photovoltaic power generation-based power storage equipment detection device according to claim 1, wherein two inclined planes (18) are symmetrically formed in the bottom wall of the power supply frame (17), the right angle plate (19) is slidably mounted on the inclined planes (18), two hinges (20) are mounted on the right angle plate (19), the curved plate (21) is rotatably mounted on the hinges (20), and the curved plate (21) is in a V shape.

9. The power storage device detection apparatus based on photovoltaic power generation according to claim 1, wherein a temperature sensor (23) is provided on the power receiving plate (22).

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