CN220254455U - Deicing snow mechanism and photovoltaic device - Google Patents

Abstract

The utility model relates to the technical field of photovoltaic panel assemblies, in particular to a deicing mechanism and a photovoltaic device, which comprises a containing assembly and a movable assembly, wherein the containing assembly comprises a mounting table and a fixing piece, the mounting table is a square platform with a certain height, the fixing piece is arranged on the mounting table, the heating assembly comprises an object and a heating piece, the object is arranged on the mounting table, the heating piece is arranged on the object, the movable assembly comprises a driving piece and a cleaning piece, the driving piece is arranged on the heating piece, the cleaning piece is arranged on the driving piece and plays a role in solving the problem that ice attached to a photovoltaic panel cannot be removed together when snow is deposited on the photovoltaic panel, and the retreating assembly comprises a construction piece and a splitting piece, the construction piece is arranged on the mounting table, and the splitting piece is arranged on the construction piece and plays a role in collecting and retreating ice and snow on the construction piece.

Description

Deicing snow mechanism and photovoltaic device

Technical Field

The utility model relates to the technical field of photovoltaic panel assemblies, in particular to a deicing and snow removing mechanism and a photovoltaic device.

Background

The photovoltaic panel assembly is a power generation device capable of generating direct current when exposed to sunlight, and is composed of a thin solid photovoltaic cell almost made of semiconductor materials, and the photovoltaic panel is disclosed as a solar photovoltaic panel with a snow removing function in Chinese patent literature through search [ application number: CN202011117158.9; publication No.: CN112202397B ]. This kind of solar photovoltaic board, including first diaphragm and first riser, the upper surface rigid coupling of first diaphragm has first riser, power generation facility is installed in the top left side of first riser, this solar photovoltaic board with snow removing function, through the second motor, the swash plate, the rectangle piece, the cotton rope, mutually support between structures such as running roller and the second diaphragm, can drive the running roller through the second motor and rotate, the running roller passes through the cotton rope and drives solar photovoltaic board and remove, solar photovoltaic board can remove and rotate in the spout department of swash plate through the slider on the rectangle piece, thereby make the snow on the solar photovoltaic board drop.

Although the solar photovoltaic panel can clean snow on the photovoltaic panel, the following defects exist in snow removal: when the weather is cold, snow below can freeze with photovoltaic board contact department, forms the thin ice sheet, and this ice sheet adopts the scraping of clearance board to remove very much, can influence photovoltaic board's normal operating to because photovoltaic board can install at the building top sometimes, these snow and ice sheet that remove drop directly easily, influence the safety of passerby under the building.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description summary and in the title of the application, to avoid obscuring the purpose of this section, the description summary and the title of the utility model, which should not be used to limit the scope of the utility model.

The present utility model has been made in view of the above-described problem that ice adhering to a photovoltaic panel cannot be removed together well when the photovoltaic panel is subjected to snow removal.

It is therefore an object of the present utility model to provide a deicing mechanism that provides for the cleaning of ice attached to a photovoltaic panel by a heating assembly and a deicing assembly.

In order to solve the technical problems, the utility model provides the following technical scheme: the deicing and snow removing mechanism comprises a containing assembly and a fixing piece, wherein the containing assembly comprises a mounting table and a fixing piece, the mounting table is a square platform with a certain height, and the fixing piece is arranged on the mounting table;

the heating assembly comprises an object and a heating element, wherein the object is arranged on the mounting table, and the heating element is arranged on the object; the method comprises the steps of,

the movable assembly comprises a driving piece and a cleaning piece, wherein the driving piece is arranged on the heating piece, and the cleaning piece is arranged on the driving piece.

As a preferable mode of the deicing mechanism of the present utility model, wherein: the fixing piece comprises a positioning column and a supporting column, the positioning column is arranged on the mounting table, and the supporting column is arranged on the positioning column;

the fixing piece further comprises a connecting rod and a supporting frame, wherein the connecting rod is arranged on the supporting column, and the supporting frame is arranged on the connecting rod.

As a preferable mode of the deicing mechanism of the present utility model, wherein: the commodity shelf comprises a commodity placing table and a connecting frame, wherein the commodity placing table is arranged on the mounting table, and the connecting frame is arranged on the commodity placing table.

As a preferable mode of the deicing mechanism of the present utility model, wherein: the heat supply piece comprises a photovoltaic panel and a solar hot water cylinder, the photovoltaic panel is arranged on the support frame, and the solar hot water cylinder is arranged on the object placing table.

As a preferable mode of the deicing mechanism of the present utility model, wherein: the heating part comprises a hot water outlet hose and an electromagnetic valve, wherein the hot water outlet hose is arranged on the solar hot water cylinder, and the electromagnetic valve is arranged on the hot water outlet hose.

As a preferable mode of the deicing mechanism of the present utility model, wherein: the driving piece comprises an auxiliary frame and a supporting plate, the auxiliary frame is arranged on the photovoltaic panel, and the supporting plate is arranged on the auxiliary frame;

the driving piece further comprises a motor, a stabilizing plate and a threaded rod, wherein the motor is arranged on the supporting plate, the stabilizing plate is arranged on the auxiliary frame, and the threaded rod is arranged on the motor.

As a preferable mode of the deicing mechanism of the present utility model, wherein: the cleaning piece comprises a connecting block and a push plate, the connecting block is arranged on the threaded rod, and the push plate is arranged on the threaded rod;

the cleaning piece further comprises a cleaning plate and a notch, wherein the cleaning plate is arranged on the push plate, and the notch is arranged on the cleaning plate.

The deicing and snow removing mechanism has the beneficial effects that: the utility model has the advantages that the primary structure of the accommodating component and the heating component plays a role in primary melting of the attached ice of the photovoltaic panel, and the movable component enables the whole mechanism to achieve the effects of removing snow and deicing, so that the utility model has the role of solving the problem that the attached ice layer on the photovoltaic panel cannot be removed together well when snow is accumulated on the photovoltaic panel.

In view of the fact that in the actual use process, the removed snow and crushed ice are easy to drop directly, and the safety of people passing under the stairs is affected.

In order to solve the technical problems, the utility model also provides the following technical scheme: the photovoltaic device comprises the deicing and snow removing mechanism and the reprocessing assembly, and comprises a construction member and a splitting member, wherein the construction member is arranged on the mounting table, and the splitting member is arranged on the construction member.

As a preferred embodiment of the photovoltaic device of the present utility model, wherein: the construction piece comprises a crushing box and a water outlet, the crushing box is arranged on the mounting table, and the water outlet is arranged on the crushing box;

the construction element further comprises a rotating handle and a first rotating rod, wherein the rotating handle is arranged on the crushing box, and the first rotating rod is arranged on the rotating handle.

As a preferred embodiment of the photovoltaic device of the present utility model, wherein: the split piece comprises a first gear and a second gear, the first gear is arranged on the first rotary rod, and the second gear is arranged on the first gear;

the splitting piece further comprises a second rotating rod and a crushing wheel, wherein the second rotating rod is arranged on the second gear, and the crushing wheel is arranged on the second rotating rod.

The photovoltaic device has the beneficial effects that: the whole device can collect the removed ice and snow and break the large ice layer through the retreating component to carry out retreating after deicing and snow, so that the damage of the removed large ice and snow to passers-by is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is an overall schematic diagram of a deicing mechanism.

Fig. 2 is a schematic side view of a deicing mechanism.

Fig. 3 is a schematic view of a portion a of a deicing mechanism.

Fig. 4 is an internal anatomic view of a solar water heater of a deicing mechanism.

Fig. 5 is a schematic diagram of the whole structure of a deicing mechanism and a photovoltaic device.

Fig. 6 is a schematic diagram of a partial enlarged structure of a deicing mechanism and a photovoltaic device.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the utility model. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1-3, in a first embodiment of the present utility model, there is provided a deicing mechanism comprising a housing assembly 100, a heating assembly 200 and a movable assembly 300, wherein the housing assembly 100 comprises a mounting table 101 and a fixing member 102, the mounting table 101 is a square platform having a certain height, the fixing member 102 is disposed on the mounting table 101, the fixing member 102 is fixedly connected to one side of the mounting table 101, the fixing member 102 is fixed to function to fix other objects on the fixing member 102, the heating assembly 200 comprises a placing member 201 and a heat supplying member 202, the placing member 201 is disposed on the mounting table 101, the placing member 201 and the fixing member 102 are both fixed to one side of the mounting table 101, the placing member 201 is fixed to the rear side of the fixing member 102, the heat supplying member 202 is disposed on the placing member 201, and the heat supplying member 202 is fixedly connected to the placing member 201, so that the heating member 202 can be lifted up to a proper position and then function to heat, the movable assembly 300 comprises a driving member 301 and a cleaning member 302, the driving member 301 is disposed on the driving member 301 and the cleaning member 301 is disposed on the driving member 301, and the cleaning member 301 is acted on the driving member 301.

Specifically, the fixing member 102 includes a positioning column 102a and a supporting column 102b, the positioning column 102a is disposed on the mounting table 101, the positioning column 102a is fixedly connected to the mounting table 101, two positioning columns 102a are respectively fixed to two sides of the mounting table 101, the positioning column 102a is provided with a groove with a certain depth, other objects can be fixedly mounted on the positioning column 102a, the supporting column 102b is disposed on the positioning column 102a, the supporting column 102b is fixedly connected to the positioning column 102a, two supporting columns 102b are mounted on the positioning column 102a, the distance between the two supporting columns 102b is smaller than the length of the positioning column 102a, the two supporting columns 102b are respectively located at two sides of the positioning column 102a, the fixing member 102 further includes a connecting rod 102c and a supporting frame 102d, the connecting rod 102c is disposed on the supporting column 102b, the connecting rod 102c is fixedly connected to the supporting column 102b, two supporting frames 102d are formed on the mounting table 101 through mounting of the connecting rod 102c to form two triangle-like structures, the supporting frame 102d is disposed on the connecting rod 102d, and the supporting frame 102d can be fixedly mounted on the supporting frame 102 d.

Further, the object placing device 201 includes a placing table 201a and a connecting frame 201b, the placing table 201a is disposed on the mounting table 101, the placing table 201a is fixedly connected to one side of the mounting table 101, the placing table 201a is of a structure, the connecting frame 201b is disposed on the placing table 201a, the connecting frame 201b is fixedly connected to the placing table 201a, two connecting frames 201b are disposed on one placing table 201a, and the two connecting frames 201b are fixedly connected to two sides of the placing table 201a, so that an object can be mounted on the placing table 201a and can be fixed on the connecting frames 201b through the mounting of the object placing device 201.

Still further, the heating element 202 comprises a photovoltaic panel 202a and a solar water heating tube 202b, the photovoltaic panel 202a is arranged on the support frame 102d, the photovoltaic panel 202a is fixedly connected on the support frame 102d, the solar water heating tube 202b is arranged on the object placing table 201a, the solar water heating tube 202b is fixedly connected on the object placing table 201a through the connecting frame 201b, the solar water heating tube 202b can convert solar energy into heat energy through absorbing solar energy so that water in the solar water heating tube 202b is warm water or hot water, because the solar water heating tube 202b absorbs solar energy into heat energy, when no solar water heating tube 202b does not have hot water, the later work is affected, so the application also provides another structure for heating water, the inside of the solar water heating tube 202b is provided with a resistance wire 202b-1 and a temperature sensor 202b-2, the model of the temperature sensor 202b-2 is PT100, the resistance wire 20b-1 is connected to the temperature sensor 202b-2, so that the temperature sensor 202b-2 detects that the water in the solar water heater 202b does not reach the preset temperature, and the resistance wire 202b-1 is heated, when the temperature sensor 202b-2 is lower than a certain temperature, the temperature sensor 202b-2 can be triggered, for example, when the temperature is lower than 10 degrees, the temperature sensor 202b-2 can sense the temperature and cause the resistance wire to perform heating, thus, the solar water heater 202b can not have no hot water without sun, the water in the solar water heater 202b is always kept at the temperature, the solar water heater 202b can not be lower than the photovoltaic panel 202a through the object placing table 201a, the solar water heater 202b can be caused to have the corresponding function on the photovoltaic panel 202a, the heating element 202 comprises hot water outlet hoses 202c and electromagnetic valves 202d, the hot water outlet hoses 202c are arranged on the solar hot water cylinder 202b, the hot water outlet hoses 202c are telescopic hoses, one telescopic side of each hot water outlet hose 202c is fixedly connected to the solar hot water cylinder 202b, the hot water outlet hoses 202c are of a certain length and can enable the hot water outlet hoses 202c to spray on the photovoltaic panel 202a, ice and snow on the surface of the photovoltaic panel 202a are melted to a certain extent, the electromagnetic valves 202d are arranged on the hot water outlet hoses 202c, each hot water outlet hose 202c is provided with one electromagnetic valve 202d, and the opening and closing of the hot water outlet hose 202c can be controlled through the electromagnetic valve 202 d.

The operation process comprises the following steps: the electromagnetic valve 202d is opened to enable the solar hot water cylinder 202b to heat water by solar energy, the heated water is sprayed on the photovoltaic panel 202a arranged on the support frame 102d through the plurality of spray heads arranged on the hot water outlet hose 202c, ice and snow on the surface of the photovoltaic panel 202a are melted, and hot water can be sprayed after the resistance wire heats the water in the solar hot water cylinder 202b through the temperature sensor when solar illumination is insufficient, so that the effect of primary melting of the ice and snow on the surface of the photovoltaic panel 202a by the hot water is met.

Example 2

Referring to fig. 1 to 3, in a second embodiment of the present utility model, unlike the previous embodiment, the present utility model provides a driving member 301 and a cleaning member 302 of a movable assembly 300, which solves the problem of removing ice and snow on a photovoltaic panel 202a, the movable assembly 300 includes the driving member 301 and the cleaning member 302, the driving member 301 is disposed on a heating member 202, the driving member 301 may act on the heating member 202, the cleaning member 302 is disposed on the driving member 301 by enabling the driving member 301 to act on the photovoltaic panel 202a in the heating member 202, and the cleaning member 302 is acted on the driving member 301 by enabling the cleaning member 302 to move by the driving member 301 to clean the ice and snow on the photovoltaic panel 202a after spraying hot water through a solar hot water tank 202b to melt.

Specifically, the driving member 301 includes an auxiliary frame 301a and a supporting plate 301b, the auxiliary frame 301a is disposed on the photovoltaic panel 202a, the auxiliary frame 301a is fixedly connected around the photovoltaic panel 202a and is used for surrounding the photovoltaic panel 202a, the supporting plate 301b is disposed on the auxiliary frame 301a and is close to one side of the solar water heater 202b, the driving member 301 further includes a motor 301c, a stabilizing plate 301d and a threaded rod 301e, the motor 301c is disposed on the supporting plate 301b, the motor 301c is fixedly connected on the supporting plate 301b, the stabilizing plate 301d is disposed on the auxiliary frame 301a, the stabilizing plate 301d is fixedly connected on one side of the auxiliary frame 301a, the stabilizing plate 301d and the supporting plate 301b are both connected on the auxiliary frame 301a, an included angle between the stabilizing plate 301d and the supporting plate 301b is 90 degrees, two motor 301d are disposed on the auxiliary frame 301a, the two motor 301d are fixedly connected on the two sides of the auxiliary frame 301a, the two motor 301d are respectively connected on the threaded rod 301d, and the threaded rod 301e can be connected on one side of the threaded rod 301e through the threaded rod 301d, and the threaded rod 301e can be connected on the threaded rod 301e, and the threaded rod 301e can be fixed on the side, and the threaded rod 301e, the threaded rod 301e can be fixed by the threaded rod and the threaded rod 301d, and the threaded rod 301d can be fixed.

Further, the cleaning member 302 includes a joint block 302a and a push plate 302b, the joint block 302a is disposed on the threaded rod 301e, the joint block 302a is a block structure with radian, the joint block 302a is provided with a through hole with threads, the through hole with threads can drive the joint block 302a to move when the threaded rod 301e rotates, the push plate 302b is disposed on the threaded rod 301e, the push plate 302b is provided with a through hole which can enable the threaded rod 301e to pass through and does not affect the rotation of the threaded rod 301e, one side of the push plate 302b is fixedly connected with the joint block 302a, the push plate 302b can move along with the movement of the joint block 302a on the threaded rod 301e, the cleaning member 302 further includes a cleaning plate 302c and a notch 302d, the cleaning plate 302c is disposed on the push plate 302b, the cleaning plate 302c is fixedly connected with one side of the push plate 302b, 90 degrees between clearance board 302c and the push pedal 302b, clearance board 302c is on next to photovoltaic board 202a, have the rugged soft plastic thorn on the clearance board 302c, just so can be used for scraping off attached ice and snow on the photovoltaic board 202a, clearance board 302c can follow the removal of push pedal 302b and remove, notch 302d sets up on clearance board 302c, clearance board 302c has two notches 302d, the position of two notches 302d corresponds with hot water outlet hose 202c position, hot water outlet hose 202c telescopic opposite side fixed connection is on notch 302d, can lengthen to the position that needs clearance board 302c to arrive along with the removal of clearance board 302c, make the hot water that flows in the hot water outlet hose 202c can also work when clearance board 302c is cleared up, also can remove the ice and snow on the photovoltaic board 202a better.

The rest of the structure is the same as that of embodiment 1.

The operation process comprises the following steps: the hot water outlet hose 202c is provided with a plurality of spray heads, so that hot water can be sprayed after solar water heating tube 202b absorbs solar energy and converts the solar energy into heat energy, and hot water can be sprayed after the resistance wire heats water in the solar water heating tube 202b through the temperature sensor when the solar energy illumination is insufficient, so that the effect of the hot water on primarily melting ice and snow on the surface of the photovoltaic plate 202a is achieved, the threaded rod 301e is driven by the motor 301c, the push plate 302b can be driven to move after the threaded rod 301e rotates, the cleaning plate 302c is not driven to move on the photovoltaic plate 202a, ice and snow on the photovoltaic plate 202a can be cleaned, and the cleaning work of the ice and snow attached to the photovoltaic plate 202a is completed.

Example 3

Referring to fig. 1 to 5, in a third embodiment of the present utility model, unlike the previous embodiment, the present utility model provides a photovoltaic device, which solves the problem that the removed ice and snow may fall down to affect the personal safety, and the reprocessing assembly 400 includes a structural member 401 and a splitting member 402, the structural member 401 is disposed on the mounting table 101, the structural member 401 is fixed on the mounting table 101, the structural member 401 acts on the mounting table 101, the splitting member 402 is disposed on the structural member 401, the splitting member 402 is connected in the structural member 401 and can move in the structural member 401, and the reprocessing assembly 400 completes the collection and the breaking of the scraped large ice and snow through the cooperation of the structural member 401 and the splitting member 402, thereby reducing the harm to the personal safety.

Specifically, the construction member 401 includes a crushing box 401a and a water outlet 401b, the crushing box 401a is disposed on the mounting table 101, the crushing box 401a is fixedly connected to the mounting table 101, the length of the crushing box 401a is longer than that of the photovoltaic panel 202a, more ice and snow can be collected, the water outlet 401b is disposed on the crushing box 401a, the water outlet 401b is disposed on one side of the crushing box 401a, when the crushing box 401a collects ice and snow, the ice and snow can be released after the ice and snow melts into water, the construction member 401 further includes a rotating handle 401c and a first rotating rod 401d, the rotating handle 401c is disposed on the crushing box 401a, the rotating handle 401c is rotatably connected to one side of the crushing box 401a and can be controlled manually or by the motor 301c, the first rotating rod 401d is disposed on the rotating handle 401c, one side of the first rotating rod 401d is fixedly connected to the rotating handle 401c, the other side of the first rotating rod 401d is connected to one side of the crushing box 401a, and the first rotating rod 401d can rotate along with the rotation of the rotating handle 401 c.

Further, the splitting piece 402 includes first gear 402a and second gear 402b, first gear 402a sets up on first rotary rod 401d, the quantity of first gear 402a has a plurality of and equally spaced apart from fixing respectively on first rotary rod 401d, first gear 402a can follow the rotation of first rotary rod 401d and rotate, second gear 402b sets up on first gear 402a, the quantity of second gear 402b and the quantity of first gear 402a are unanimous, second gear 402b and first gear 402a mesh mutually, first gear 402a can drive second gear 402b and rotate when rotatory, both mesh mutually also can play the effect to the ice and snow breakage, splitting piece 402 still includes second rotary rod 402c and broken wheel 402d, second rotary rod 402c sets up on second gear 402b, second rotary rod 402c fixed connection is on second gear 402b, second rotary rod 402c can run through second gear 402b, second 402c is fixed on the inner wall of crushing case 401a, broken wheel d sets up on second rotary rod 402c and has the broken piece of spike-shaped roller 402d to make two broken side face pieces broken, the first rotary rod 402d has a plurality of spike-shaped roller 402d to make broken in the crushing piece 402d, two spike-shaped roller 402d is broken to have a certain roller pair of broken side, broken piece 402d is broken in the side, two spike-shaped roller 402d is broken piece.

The rest of the structure is the same as that of embodiment 2.

The operation process comprises the following steps: the first rotating rod 401d is driven to rotate by driving the rotating handle 401c to drive the first gear 402a to rotate, the second gear 402b and the second rotating rod 402c can be driven to rotate, the crushing wheel 402d is driven to rotate, the ice and snow can be crushed by meshing between the first gear 402a and the second gear 402b and rotation of the crushing wheel 402d, the ice and snow scraped on the photovoltaic panel 202a are further crushed into small pieces to be processed, then the small pieces fall into the crushing box 401a to be collected, the water outlet 401b can be opened to discharge water after the ice and snow in the crushing box 401a are melted, and accordingly the effect of collecting and reprocessing the scraped ice and snow is achieved.

It should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present utility model may be modified or substituted without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered in the scope of the claims of the present utility model.

Claims (10)

1. Deicing snow mechanism, its characterized in that: comprising the steps of (a) a step of,

the accommodating assembly (100) comprises an installation table (101) and a fixing piece (102), wherein the installation table (101) is a square platform with a certain height, and the fixing piece (102) is arranged on the installation table (101);

the heating assembly (200) comprises an object placing piece (201) and a heating piece (202), wherein the object placing piece (201) is arranged on the mounting table (101), and the heating piece (202) is arranged on the object placing piece (201); the method comprises the steps of,

the movable assembly (300) comprises a driving piece (301) and a cleaning piece (302), wherein the driving piece (301) is arranged on the heating piece (202), and the cleaning piece (302) is arranged on the driving piece (301).

2. Deicing mechanism as claimed in claim 1, characterized in that: the fixing piece (102) comprises a positioning column (102 a) and a supporting column (102 b), the positioning column (102 a) is arranged on the mounting table (101), and the supporting column (102 b) is arranged on the positioning column (102 a);

the fixing piece (102) further comprises a connecting rod (102 c) and a supporting frame (102 d), wherein the connecting rod (102 c) is arranged on the supporting column (102 b), and the supporting frame (102 d) is arranged on the connecting rod (102 c).

3. Deicing mechanism as claimed in claim 2, characterized in that: the object placing device is characterized in that the object placing device (201) comprises an object placing table (201 a) and a connecting frame (201 b), the object placing table (201 a) is arranged on the mounting table (101), and the connecting frame (201 b) is arranged on the object placing table (201 a).

4. A deicing mechanism as set forth in claim 3, wherein: the heat supply piece (202) comprises a photovoltaic plate (202 a) and a solar hot water cylinder (202 b), the photovoltaic plate (202 a) is arranged on the support frame (102 d), and the solar hot water cylinder (202 b) is arranged on the object placing table (201 a).

5. The ice and snow removal mechanism of claim 4, wherein: the heating element (202) comprises a hot water outlet hose (202 c) and a solenoid valve (202 d), wherein the hot water outlet hose (202 c) is arranged on the solar hot water cylinder (202 b), and the solenoid valve (202 d) is arranged on the hot water outlet hose (202 c).

6. Deicing mechanism as claimed in claim 4 or 5, characterized in that: the driving piece (301) comprises an auxiliary frame (301 a) and a supporting plate (301 b), wherein the auxiliary frame (301 a) is arranged on the photovoltaic panel (202 a), and the supporting plate (301 b) is arranged on the auxiliary frame (301 a);

the driving piece (301) further comprises a motor (301 c), a stabilizing plate (301 d) and a threaded rod (301 e), wherein the motor (301 c) is arranged on the supporting plate (301 b), the stabilizing plate (301 d) is arranged on the auxiliary frame (301 a), and the threaded rod (301 e) is arranged on the motor (301 c).

7. The ice and snow removal mechanism of claim 6, wherein: the cleaning piece (302) comprises an engagement block (302 a) and a push plate (302 b), the engagement block (302 a) is arranged on the threaded rod (301 e), and the push plate (302 b) is arranged on the threaded rod (301 e);

the cleaning piece (302) further comprises a cleaning plate (302 c) and a notch (302 d), wherein the cleaning plate (302 c) is arranged on the pushing plate (302 b), and the notch (302 d) is arranged on the cleaning plate (302 c).

8. A photovoltaic device, characterized by: comprising a deicing mechanism as claimed in any one of claims 1 to 7, and,

reprocessing assembly (400) comprising a construction element (401) and a splitting element (402), said construction element (401) being arranged on said mounting table (101), said splitting element (402) being arranged on said construction element (401).

9. The photovoltaic device according to claim 8, wherein: the construction piece (401) comprises a crushing box (401 a) and a water outlet (401 b), wherein the crushing box (401 a) is arranged on the mounting table (101), and the water outlet (401 b) is arranged on the crushing box (401 a);

the construction element (401) further comprises a rotating handle (401 c) and a first rotating rod (401 d), wherein the rotating handle (401 c) is arranged on the crushing box (401 a), and the first rotating rod (401 d) is arranged on the rotating handle (401 c).

10. The photovoltaic device according to claim 9, wherein: the splitting piece (402) comprises a first gear (402 a) and a second gear (402 b), the first gear (402 a) is arranged on the first rotating rod (401 d), and the second gear (402 b) is arranged on the first gear (402 a);

the splitting piece (402) further comprises a second rotating rod (402 c) and a crushing wheel (402 d), the second rotating rod (402 c) is arranged on the second gear (402 b), and the crushing wheel (402 d) is arranged on the second rotating rod (402 c).