CN220087232U - Energy storage photovoltaic board provided with divide case intensification mechanism - Google Patents

Abstract

The utility model discloses an energy storage photovoltaic plate provided with a box-separating temperature rising mechanism, which comprises a metal frame, wherein the metal frame is provided with the energy storage photovoltaic plate, the bottom of the metal frame is connected with supporting legs, lifting rods are inserted into the rear parts of the supporting legs, lifting adjusting mechanisms are arranged between the supporting legs and the lifting rods, adjusting locking mechanisms are arranged on the lifting adjusting mechanisms, adjusting guide rails are welded on two sides of the upper part of the metal frame, the upper ends of the lifting rods are movably arranged in the adjusting guide rails through mounting bolts, and heating boxes are fixedly arranged at the bottom of the metal frame through bolts.

Description

Energy storage photovoltaic board provided with divide case intensification mechanism

Technical Field

The utility model relates to the technical field of photovoltaic, in particular to an energy storage photovoltaic panel provided with a box-dividing and temperature-rising mechanism.

Background

The photovoltaic, namely the photovoltaic power generation system, is a power generation system which converts solar radiation energy into electric energy by utilizing the photovoltaic effect of semiconductor materials, and the energy of the photovoltaic power generation system is derived from inexhaustible solar energy, so that the photovoltaic power generation system is a clean, safe and renewable energy source. The photovoltaic power generation process does not pollute the environment and destroy ecology, and the photovoltaic power generation system consists of a solar photovoltaic panel matrix, a storage battery pack, a charge-discharge controller, an inverter, an alternating current power distribution cabinet, a solar tracking control system and other devices. When the energy storage photovoltaic board is used in cold areas, snow or frosting is easy to form on the photovoltaic board in winter, the positive power generation work of the photovoltaic board is seriously influenced, the traditional energy storage photovoltaic board is like a high-efficiency energy-saving solar cell panel assembly of Chinese patent CN218335814U, the processing capacity of frosting of snow is relatively lacking, the power generation efficiency is greatly reduced after snow is reduced in winter, and meanwhile, the angle adjustment operation of the energy storage photovoltaic board during installation is relatively complicated, so that the energy storage photovoltaic board is inconvenient to install rapidly.

Disclosure of Invention

The utility model aims to provide an energy storage photovoltaic plate provided with a box-dividing and temperature-rising mechanism, so as to solve the problem that the traditional energy storage photovoltaic plate is lack of snow frosting processing capability. In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an energy storage photovoltaic board that is provided with branch case intensification mechanism, includes metal framework, install multiunit energy storage photovoltaic board on the metal framework, metal framework bottom has the supporting leg through axis of rotation swing joint, the supporting leg rear portion has inserted the lifter, be provided with lift adjustment mechanism between supporting leg and the lifter, be provided with on the lift adjustment mechanism and adjust locking mechanical system, metal framework upper portion both sides welding has the regulation guide rail, the lifter upper end is through mounting bolt movable mounting in the regulation guide rail, the metal framework bottom has the heating cabinet through bolt fixed mounting, the inside six independent heating separate boxes that are provided with of heating cabinet. Further, the lifting adjusting mechanism comprises a first lifting rack, the first lifting rack is meshed with a first lifting gear, the first lifting gear is connected with a second lifting gear through a transmission rod, the other end of the metal frame is provided with a second lifting rack, the second lifting rack is meshed with the second lifting gear, and one end of the first lifting gear is provided with an adjusting hand wheel, so that the angle adjustment of the photovoltaic panel can be realized simply by rotating the adjusting hand wheel. Further, the adjusting and locking mechanism comprises a connecting sleeve, a plum blossom groove is formed in the connecting sleeve, each plum blossom groove is provided with a plum blossom clamping block, one side of each plum blossom clamping block is provided with a reset spring, the plum blossom clamping blocks are fixedly connected with an adjusting hand wheel through a connecting pull rod, and the adjusting hand wheel and the supporting legs are mutually meshed through two-way ratchets, so that rotation of the adjusting hand wheel can be limited, and deflection of angles is avoided. Furthermore, the two-way ratchet is divided into an inner layer and an outer layer, and the directions of the two-way ratchet of the inner layer and the outer layer are opposite, so that the regulating handwheel cannot rotate in two directions after locking. Further, separate through the heating groove each other between the inside heating separate tank of heating cabinet, be provided with the heating rod in the heating groove, heating groove center department is provided with the fan of bleeding, the fan bottom of bleeding is provided with dustproof filter screen, the air circulation mouth has been seted up between the heating separate tank of three group heating separate tanks below and the heating separate tank of the divide-by-side both sides and the heating groove, the air circulation mouth has not been seted up between the heating separate tank at heating tank top middle part and the heating groove to the heating rod can heat the air, then heats the photovoltaic board through the air, reaches the effect of snow removing defrosting. Furthermore, the heating groove is positioned at the parting bead in the middle of the metal frame, and the heat insulation strip is arranged between the heating groove and the parting bead in the middle of the metal frame, so that the high temperature of the heating rod can be prevented from directly affecting the photovoltaic panel. Further, the three heating separate boxes top on heating box upper portion is connected with the duckbilled of blowing through the return bend that blows, the duckbilled of blowing is towards energy storage photovoltaic board, the return bend of blowing and duckbilled of blowing are provided with the multiunit to can blow out the air current on to the photovoltaic board, clean dust and fallen leaves. Compared with the prior art, the utility model has the beneficial effects that:

1. through the arrangement of the heating boxes, the air suction fan can blow out air flow, the heating rod can heat the air flow, then the hot air flow can be shunted into each heating separate box, the photovoltaic panel is heated gently, snow and frost can be removed rapidly in winter, in addition, the air flow can be blown on the surface of the photovoltaic panel after being sprayed out through the air blowing duckbilled, snow, dust and fallen leaves can be blown away rapidly, rapid cleaning is realized, and the cleaning efficiency of the photovoltaic panel is improved;

2. through the setting of lift adjustment mechanism and regulation locking mechanical system for the lifter at supporting leg rear can just can realize going up and down through the regulating hand wheel on the manual operation lift adjustment mechanism, thereby can conveniently adjust the angle of photovoltaic board swiftly, convenient operation, when not using lift adjustment mechanism, the regulating hand wheel is blocked under the effect of two-way ratchet and is unable to rotate simultaneously, thereby realizes automatic locking, avoids the angle to appear shifting.

Drawings

FIG. 1 is a schematic diagram of an energy storage photovoltaic panel structure of the present utility model; FIG. 2 is a schematic view of the support leg structure of the present utility model; FIG. 3 is a schematic view of a lifting adjusting mechanism according to the present utility model; FIG. 4 is an enlarged schematic view of the structure of FIG. 3A according to the present utility model; FIG. 5 is a schematic view of an adjustment locking mechanism according to the present utility model; FIG. 6 is a schematic view of a metal frame structure according to the present utility model; FIG. 7 is a schematic view of the heating box of the present utility model. In the figure: 1. a metal frame; 2. an energy storage photovoltaic panel; 3. a rotating shaft; 4. support legs; 5. a lifting rod; 6. a lifting adjusting mechanism; 601. a first lifting rack; 602. a first lifting gear; 603. a transmission rod; 604. a second lifting gear; 605. a second lifting rack; 606. an adjusting hand wheel; 7. adjusting the locking mechanism; 701. a connection sleeve; 702. plum blossom grooves; 703. a plum blossom clamping block; 704. a return spring; 705. connecting a pull rod; 706. a two-way ratchet; 8. adjusting the guide rail; 9. installing a bolt; 10. a heating box; 11. Heating the separate tank; 12. a heating tank; 13. a heating rod; 14. a heat insulating strip; 15. an air extraction fan; 16. a dust-proof filter screen; 17. an air flow port; 18. a blowing elbow; 19. and (5) blowing the duckbill.

Description of the embodiments

The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, new embodiments may be formed by any combination of the embodiments or technical features described below. It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items. Referring to fig. 1-7, the present utility model provides the following schemes: the utility model provides an energy storage photovoltaic board provided with a case separation heating mechanism, including metal frame 1, install multiunit energy storage photovoltaic board 2 on the metal frame 1, metal frame 1 bottom has supporting leg 4 through axis of rotation 3 swing joint, supporting leg 4 rear portion has inserted lifter 5, be provided with lift adjustment mechanism 6 between supporting leg 4 and the lifter 5, lift adjustment mechanism 6 includes first lift rack 601, first lift rack 601 meshing has first lift gear 602, first lift gear 602 is connected with second lift gear 604 through transfer line 603, metal frame 1 other end is provided with second lift rack 605, second lift rack 605 and second lift gear 604 intermesh, first lift gear 602 one end is provided with adjustment hand wheel 606, during the installation, can drive first lift gear 602 through rotating adjustment hand wheel 606, first lift gear 602 will drive second lift gear 604 through transfer line 603 and rotate, thereby first lift gear 602 and second lift gear 604 can respectively through lift with its first lift and second lift rack 605 and the lift 5 of meshing down, thereby can realize that lift and adjust the angle is realized in the lift bolt 8 is installed at the front end of the lift frame 3 with the lift adjustment screw bolt 5; the lifting adjusting mechanism 6 is provided with an adjusting locking mechanism 7, the adjusting locking mechanism 7 comprises a connecting sleeve 701, a plum blossom groove 702 is formed in the connecting sleeve 701, each plum blossom groove 702 is provided with a plum blossom clamping block 703, one side of each plum blossom clamping block 703 is provided with a return spring 704, each plum blossom clamping block 703 is fixedly connected with an adjusting hand wheel 606 through a connecting pull rod 705, the adjusting hand wheels 606 and the supporting legs 4 are mutually meshed through two-way ratchets 706, the two-way ratchets 706 are divided into an inner layer and an outer layer, the directions of the two-way ratchets 706 of the inner layer and the outer layer are opposite, the adjusting hand wheel 606 needs to be pulled outwards when the adjusting hand wheel 606 is rotated, so that the two-way ratchets 706 on the adjusting hand wheel 606 and the supporting legs 4 are separated from the meshing, so that the rotation can be performed, when the adjusting hand wheel 606 is released, the adjusting hand wheel 606 and the plum blossom clamping block 703 can move along the plum blossom groove 702 under the pushing of the reset spring 704, so that the adjusting hand wheel 606 and the bidirectional ratchet 706 on the supporting leg 4 are mutually meshed, the adjusting hand wheel 606 can not rotate any more at this time because the bidirectional ratchet 706 is divided into an inner layer and an outer layer, and the directions of the bidirectional ratchet 706 on the inner layer and the outer layer are opposite, the section of the plum blossom clamping block 703 and the section of the plum blossom groove 702 are both plum blossom-shaped and mutually meshed, the connecting sleeve 701 and the adjusting hand wheel 606 can not rotate relatively, and therefore the first lifting gear 602 and the second lifting gear 604 can not rotate by themselves under the condition that the adjusting hand wheel 606 is locked, angular offset is avoided; the two sides of the upper part of the metal frame 1 are welded with adjusting guide rails 8, the upper ends of the lifting rods 5 are movably arranged in the adjusting guide rails 8 through mounting bolts 9, the bottoms of the metal frames 1 are fixedly provided with heating boxes 10 through bolts, six groups of independent heating separate boxes 11 are arranged in the heating boxes 10, the heating separate boxes 11 in the heating boxes 10 are mutually separated through heating grooves 12, heating rods 13 are arranged in the heating grooves 12, an air extraction fan 15 is arranged in the center of the heating grooves 12, a dustproof filter screen 16 is arranged at the bottoms of the air extraction fan 15, air circulation ports 17 are formed between the three groups of heating separate boxes 11 below the heating boxes 10 and the heating separate boxes 11 and the heating grooves 12 on the two sides, an air circulation port 17 is not formed between the heating separation tank 11 and the heating tank 12 in the middle of the upper part of the heating tank 10, when snow or frost is accumulated on the energy storage photovoltaic panel 2 in winter, the air suction fan 15 can be started, the air suction fan 15 can suck air from the outside, meanwhile, the dust-proof filter screen 16 can filter suspended dust in the air, the air enters the heating tank 12 and then is heated by the heating rod 13, the heated air enters the heating separation tank 11 through the air circulation port 17 to indirectly heat the energy storage photovoltaic panel 2, so that snow or frost on the energy storage photovoltaic panel 2 is melted, an air blowing duckbill 19 is connected above the three heating separation tanks 11 in the upper part of the heating tank 10 through the air blowing bent pipe 18, the air blowing duckbill 19 faces the energy storage photovoltaic panel 2, the air in the heating separate box 11 flows out through the air blowing bent pipe 18 and the air blowing duckbilled 19 are arranged in a plurality of groups, and the air is blown onto the energy storage photovoltaic plate 2 through the air blowing duckbilled 19, dust, fallen leaves and other sundries on the energy storage photovoltaic plate 2 are blown away, so that the working efficiency of the energy storage photovoltaic plate 2 is improved, the heating groove 12 is positioned at the parting bead position in the middle of the metal frame 1, the heat insulation strip 14 is arranged between the heating groove 12 and the parting bead position in the middle of the metal frame 1, and the heat insulation strip 14 is arranged between the heating groove 12 and the parting bead position in the middle of the metal frame 1, so that the high-temperature heating rod 13 is not directly contacted with the energy storage photovoltaic plate 2, and damage to the energy storage photovoltaic plate 2 is avoided. Working principle: when the energy storage photovoltaic plate with the box separation heating mechanism is used, firstly, during installation, the first lifting gear 602 can be driven to rotate by rotating the adjusting hand wheel 606, the first lifting gear 602 can drive the second lifting gear 604 to rotate through the transmission rod 603, so that the first lifting gear 602 and the second lifting gear 604 can drive the lifting rod 5 to ascend and descend through the first lifting rack 601 and the second lifting rack 605 meshed with the first lifting gear 602 and the second lifting gear 604 respectively, the mounting bolt 9 at the upper end of the lifting rod 5 can move back and forth in the adjusting guide rail 8, and the metal frame 1 can rotate around the rotating shaft 3, so that angle adjustment is realized; when the adjusting hand wheel 606 is rotated, the adjusting hand wheel 606 needs to be pulled outwards, so that the adjusting hand wheel 606 and the bidirectional ratchets 706 on the supporting leg 4 are disengaged from each other, rotation can be carried out, when the adjusting hand wheel 606 is released, the adjusting hand wheel 606 and the plum blossom clamping block 703 can move along the plum blossom groove 702 under the pushing of the reset spring 704, so that the adjusting hand wheel 606 and the bidirectional ratchets 706 on the supporting leg 4 are engaged with each other, the adjusting hand wheel 606 cannot rotate again because the bidirectional ratchets 706 are divided into an inner layer and an outer layer, and the directions of the bidirectional ratchets 706 of the inner layer and the outer layer are opposite, and the section of the plum blossom clamping block 703 and the section of the plum blossom groove 702 are in plum blossom shape and are engaged with each other, so that the connecting sleeve 701 and the adjusting hand wheel 606 cannot rotate relatively, and the first lifting gear 602 and the second lifting gear 604 cannot rotate automatically under the condition that the adjusting hand wheel 606 is locked, and the angle offset is avoided; when snow or frost is gone up to energy storage photovoltaic board 2 in winter, can start the air extraction fan 15, the air extraction fan 15 will follow outside extraction air, and dust screen 16 can filter the suspension dust in the air simultaneously, can be heated by heating rod 13 after the air gets into heating tank 12, because heating tank 12 is located the parting bead department in the middle of metal frame 1, be provided with thermal insulation strip 14 between the parting bead in the middle of heating tank 12 and the metal frame 1, therefore high-temperature heating rod 13 can not directly contact with energy storage photovoltaic board 2, avoids causing the damage to energy storage photovoltaic board 2, and the air after the heating can get into in the heating separate tank 11 through air circulation port 17, carries out indirect heating to energy storage photovoltaic board 2 for energy storage photovoltaic board 2 fan high snow or frost melts, and the air that heats separate tank 11 can flow through blowing return bend 18 simultaneously, and blows dust and sundries such as fallen leaves on the energy storage photovoltaic board 2 through blowing duckbill 19, improves energy storage photovoltaic board 2 work efficiency, thereby accomplishes a series of work. What is not described in detail in this specification is prior art known to those skilled in the art. Although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. Energy storage photovoltaic board that is provided with branch case intensification mechanism, including metal frame (1), its characterized in that: install multiunit energy storage photovoltaic board (2) on metal frame (1), metal frame (1) bottom has supporting leg (4) through axis of rotation (3) swing joint, lifter (5) have been inserted at supporting leg (4) rear portion, be provided with lift adjustment mechanism (6) between supporting leg (4) and lifter (5), be provided with on lift adjustment mechanism (6) and adjust locking mechanism (7), metal frame (1) upper portion both sides welding has regulation guide rail (8), lifter (5) upper end is through mounting bolt (9) movable mounting in regulation guide rail (8), metal frame (1) bottom is through bolt fixed mounting heating cabinet (10), heating cabinet (10) inside are provided with six independent heating separate boxes (11).

2. The energy storage photovoltaic panel provided with the box-dividing and temperature-raising mechanism according to claim 1, characterized in that: the lifting adjusting mechanism (6) comprises a first lifting rack (601), the first lifting rack (601) is meshed with a first lifting gear (602), the first lifting gear (602) is connected with a second lifting gear (604) through a transmission rod (603), the other end of the metal frame (1) is provided with a second lifting rack (605), the second lifting rack (605) is meshed with the second lifting gear (604), and one end of the first lifting gear (602) is provided with an adjusting hand wheel (606).

3. An energy storage photovoltaic panel provided with a box-dividing and temperature-increasing mechanism as claimed in claim 2, characterized in that: the adjusting and locking mechanism (7) comprises a connecting sleeve (701), plum blossom grooves (702) are formed in the connecting sleeve (701), plum blossom clamping blocks (703) are arranged in each plum blossom groove (702), a reset spring (704) is arranged on one side of each plum blossom clamping block (703), an adjusting hand wheel (606) is fixedly connected to each plum blossom clamping block (703) through a connecting pull rod (705), and the adjusting hand wheels (606) are meshed with each other through two-way ratchets (706).

4. An energy storage photovoltaic panel provided with a box-dividing and temperature-increasing mechanism according to claim 3, characterized in that: the two-way ratchet (706) is divided into an inner layer and an outer layer, and the directions of the two-way ratchet (706) of the inner layer and the outer layer are opposite.

5. The energy storage photovoltaic panel provided with the box-dividing and temperature-raising mechanism according to claim 1, characterized in that: the heating box comprises a heating box body (10), wherein heating boxes (11) are arranged inside the heating box body (10), the heating boxes (12) are mutually separated, a heating rod (13) is arranged in each heating box body (12), an air suction fan (15) is arranged at the center of each heating box body (12), a dustproof filter screen (16) is arranged at the bottom of each air suction fan (15), air circulation ports (17) are formed between the three groups of heating boxes (11) below the heating box body (10) and between the heating boxes (11) on the two sides of the heating box body and the heating boxes (12), and air circulation ports (17) are not formed between the heating boxes (11) on the middle part of the upper part of the heating box body (10) and the heating boxes (12).

6. The energy storage photovoltaic panel provided with the box-dividing and temperature-raising mechanism according to claim 5, characterized in that: the heating groove (12) is positioned at the parting bead in the middle of the metal frame (1), and a heat insulation strip (14) is arranged between the heating groove (12) and the parting bead in the middle of the metal frame (1).

7. The energy storage photovoltaic panel provided with the box-dividing and temperature-raising mechanism according to claim 5, characterized in that: the upper parts of three heating separate boxes (11) on the upper part of the heating box (10) are connected with air blowing duckbilled (19) through air blowing bent pipes (18), the air blowing duckbilled (19) faces the energy storage photovoltaic panel (2), and the air blowing bent pipes (18) and the air blowing duckbilled (19) are provided with a plurality of groups.