CN219322313U - A build photovoltaic device fast for interim office room - Google Patents

Abstract

The utility model relates to the technical field of photovoltaic power generation equipment, in particular to a rapid photovoltaic device for a temporary office, which comprises a bracket, an upper sliding beam, a lower sliding beam, a beam frame, a plurality of hanging frames and a plurality of photovoltaic plates, wherein the upper sliding beam and the lower sliding beam are respectively and detachably connected with the beam frame, the beam frame is fixedly arranged on the bracket, the upper sliding beam and the lower sliding beam are parallel, the hanging frames are in two groups, two hanging frames of each group are respectively arranged on the upper sliding beam and the lower sliding beam, the positions of the two hanging frames of each group correspond, the photovoltaic plates are mutually connected to form a photovoltaic plate string, and two ends of the photovoltaic plate string are respectively connected with two hanging frames of the same group. The beneficial technical effects of the utility model include: the beam frame fixed on the support is used for installing the hanging frame, the photovoltaic panel string formed by the photovoltaic panels is installed on the hanging frame, and the photovoltaic square matrix can be built by quickly assembling the support and the hanging frame, so that the deployment is convenient and quick.

Description

A build photovoltaic device fast for interim office room

Technical Field

The utility model relates to the technical field of photovoltaic power generation equipment, in particular to a rapid photovoltaic device for temporarily building a office.

Background

The photovoltaic power station is a power generation device for directly converting solar radiation energy into electric energy by utilizing photovoltaic effect of a photovoltaic cell. Typically including transformers, inverters and photovoltaic arrays, and associated auxiliary facilities, etc. At present, a photovoltaic power generation system is mainly a direct current system, namely, electric energy generated by a solar battery charges a storage battery, and the storage battery directly supplies power to a load. The system has a simple structure and low cost, but is difficult to realize standardization and compatibility due to different load direct-current voltages. Therefore, the alternating current photovoltaic power generation device gradually becomes a main flow form of photovoltaic power generation. The inverter is a device for converting direct current generated by the photovoltaic array into alternating current, and the transformer can transform the alternating current obtained by conversion. The inverter is realized by a control circuit, generally has two control modes of square wave and sine wave, and the square wave output inverter power supply circuit is simple, low in cost, low in efficiency and large in harmonic component. Sine wave output is a development trend of inverter power supply, and with the development of microelectronic technology, a microprocessor with a PWM function is also known, so that the inverter technology of sine wave output is mature. However, the current photovoltaic power station is usually built in a fixed building mode, and a photovoltaic power station device convenient to transfer and carry is lacking, so that electricity consumption of mobile office rooms is convenient.

The prior art discloses a photovoltaic power plant cabinet, including the cabinet body and set up the rain shielding lid at cabinet body top and set up the baffle in cabinet body inside, one side of the cabinet body is connected with the cabinet door, install the controller on the cabinet door, the internally mounted photovoltaic board of rain shielding lid accomodates the subassembly, install sun light sensor on the rain shielding lid, sensor group is installed at the inner chamber top of the cabinet body, the inner wall of the cabinet body is located the both sides of baffle and all is equipped with a plurality of shower nozzles, one side of the cabinet body is fixed with the box, the internally mounted of box has the fire extinguisher, air inlet subassembly and exhaust fan are installed respectively to the rear side wall of the cabinet body. The photovoltaic panel and the components in the cabinet body can be effectively monitored and protected. But cannot solve the problem of the lack of mobile photovoltaic power plant devices suitable for rapid deployment at present.

Disclosure of Invention

The utility model aims to solve the technical problems that: the technical problem of a mobile photovoltaic power plant device suitable for rapid deployment is lacking at present. The utility model provides a build photovoltaic device fast for interim office room can realize the quick of photovoltaic power plant and build.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a build photovoltaic device fast for interim office room, includes support, last slide beam, slide beam down, roof beam frame, a plurality of stores pylon and a plurality of photovoltaic board, go up slide beam and slide beam down and dismantle respectively with the roof beam frame and be connected, roof beam frame fixed mounting is in on the support, go up slide beam and slide beam parallel down, a plurality of the two liang of groups of stores pylon, two stores pylon of every group are installed respectively on last slide beam and the slide beam down, two stores pylon positions of every group correspond, and a plurality of photovoltaic board interconnect constitutes the photovoltaic board cluster, photovoltaic board cluster both ends respectively with two of same group the stores pylon is connected.

Preferably, the support comprises two front support legs and two rear support legs, wherein the two front support legs are respectively connected with two sides of the front part of the beam frame, the two front support legs are respectively connected with two sides of the rear part of the beam frame, and the length of each front support leg is smaller than that of each rear support leg.

Preferably, the beam frame is provided with two front struts and two rear struts, the two front struts are respectively positioned at two sides of the front part of the beam frame, the two rear struts are respectively positioned at two sides of the rear part of the beam frame, the front struts are rotationally connected with the front supporting legs, and the rear struts are fixedly connected with the rear supporting legs.

Preferably, the front strut is detachably connected to the front leg and the rear strut is detachably connected to the rear leg.

Preferably, the hanging rack is provided with a sliding groove, the top of the upper sliding beam is provided with a protrusion matched with the sliding groove, and the bottom of the lower sliding beam is provided with a protrusion matched with the sliding groove.

Preferably, the hanger is provided with a pair of hanging lugs, the top of the photovoltaic panel is provided with hanging rods matched with the hanging lugs, the bottom of the photovoltaic panel is provided with hanging rod lugs, and a plurality of photovoltaic panels are sequentially connected through the hanging rods and the hanging rod lugs.

Preferably, the hanging frame is provided with a tightening screw hole, the position of the tightening screw hole is matched with the sliding groove, and a screw is screwed in the tightening screw hole.

Preferably, the beam frame is provided with a gradient indicating device.

Preferably, the inclination indicating device comprises a pendulum and an angle dividing line, the pendulum is rotationally connected with the beam frame, the angle dividing line is fixedly connected with the beam frame, and the angle dividing line is matched with the pendulum in position. The position of the pendulum relative to the angle score line indicates the angle of the beam frame and the plumb line.

Preferably, the upper sliding beam and the lower sliding beam are respectively detachably connected with the beam frame.

The beneficial technical effects of the utility model include: the hanging frame is arranged on the beam frame fixed on the bracket, the photovoltaic panel string formed by the photovoltaic panels is arranged on the hanging frame, the construction of the photovoltaic square matrix can be completed by quickly assembling the bracket and the hanging frame, and the temporary office power supply can be shared by connecting the inverter and the transformer, so that the deployment is convenient and quick; through changing the interval of preceding landing leg and back landing leg, can change the inclination of photovoltaic board, make the photovoltaic board have more excellent light receiving angle, improve the generating efficiency of photovoltaic board.

Other features and advantages of the present utility model will be disclosed in the following detailed description of the utility model and the accompanying drawings.

Drawings

The utility model is further described with reference to the accompanying drawings:

fig. 1 is a schematic structural diagram of a fast-building photovoltaic device according to an embodiment of the present utility model.

Fig. 2 is a schematic diagram of a back structure of a photovoltaic device constructed quickly according to an embodiment of the present utility model.

Fig. 3 is a schematic structural diagram of a rapid photovoltaic device rack according to an embodiment of the present utility model.

Fig. 4 is a schematic structural diagram of a fast-building photovoltaic device bracket according to an embodiment of the utility model.

Fig. 5 is a schematic diagram of a photovoltaic panel structure for quickly constructing a photovoltaic device according to an embodiment of the present utility model.

Wherein: 1. the hanging rack, 2, an upper sliding beam, 3, a photovoltaic panel, 4, a rear supporting leg, 5, a beam frame, 6, a rear supporting rod, 7, a lower slide beam, 8, a front support rod, 9, a front support leg, 10, a hanging lug, 11, a hanging rod, 12 and a hanging rod lug.

Detailed Description

The technical solutions of the embodiments of the present utility model will be explained and illustrated below with reference to the drawings of the embodiments of the present utility model, but the following embodiments are only preferred embodiments of the present utility model, and not all embodiments. Based on the examples in the implementation manner, other examples obtained by a person skilled in the art without making creative efforts fall within the protection scope of the present utility model.

In the following description, directional or positional relationships such as the terms "inner", "outer", "upper", "lower", "left", "right", etc., are presented for convenience in describing the embodiments and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model.

Before introducing the technical scheme of the embodiment, an application scene of the embodiment is introduced.

Photovoltaic power plants are facilities that can produce electricity from solar radiation. The photovoltaic power station is a power generation device for directly converting solar radiation energy into electric energy by utilizing photovoltaic effect of a photovoltaic cell. Typically including transformers, inverters and photovoltaic arrays, and associated auxiliary facilities, etc. At present, a photovoltaic power generation system is mainly a direct current system, namely, electric energy generated by a solar battery charges a storage battery, and the storage battery directly supplies power to a load. The system has simple structure and low cost, but due to the different load direct current voltages, it is difficult to achieve standardization and compatibility of the system. Therefore, the alternating current photovoltaic power generation device gradually becomes a main flow form of photovoltaic power generation.

The photovoltaic power station can conveniently provide life or office electricity in an area which is not covered by the commercial power. In a part of remote areas with rich illumination resources, a photovoltaic power station mode is adopted to supply power to a mobile office room, so that the method is the best choice. The photovoltaic electric energy obtained in sunny days is stored in the storage battery. The storage battery is used for office and living electricity at night and in the cloudy day. The electricity utilization problem of the mobile office can be effectively solved. The power supply of the photovoltaic power station mainly depends on the total area of the photovoltaic panel 3, the light receiving area of the photovoltaic panel 3 and the illumination intensity contained in the photovoltaic power station. The photovoltaic power station directly outputs direct current. Because most living and office electric equipment needs to be powered by alternating current, an inverter and a transformer are needed to respectively convert the direct current into alternating current and transform the alternating current into proper voltage. The inverter, the transformer and the corresponding controller all belong to the mature prior art, and no improvement is made on the inverter, the transformer and the corresponding controller in the embodiment. The inverter, the transformer and the corresponding controller in the prior art are adopted.

For temporary office rooms requiring continuous transfer, the use of mains supply is obviously very cumbersome. The battery is used for supplying power, so that the problem that the endurance time is insufficient and facilities for charging the battery are lacked exists. Photovoltaic power is the best option. However, the existing photovoltaic power stations all adopt a form of fixed building, which is unfavorable for carrying and transferring and quick construction at a destination. For this embodiment, please refer to fig. 1, which includes a support, an upper sliding beam 2, a lower sliding beam 7, a beam frame 5, a plurality of hangers 1 and a plurality of photovoltaic panels 3, wherein the upper sliding beam 2 and the lower sliding beam 7 are respectively detachably connected with the beam frame 5, the beam frame 5 is fixedly installed on the support, the upper sliding beam 2 and the lower sliding beam 7 are parallel, the hangers 1 are respectively installed on the upper sliding beam 2 and the lower sliding beam 7 in two pairs, the hangers 1 of each group correspond to the positions of the hangers 1 of each group, the photovoltaic panels 3 are mutually connected to form a photovoltaic panel 3 string, and two ends of the photovoltaic panel 3 string are respectively connected with the hangers 1 of the same group. The support is fixed on the ground, and the upper sliding beam 2 and the lower sliding beam 7 are arranged on the support through the beam frame 5, so that the upper sliding beam 2 and the lower sliding beam 7 are fixed. The upper sliding beam 2, the lower sliding beam 7, the beam frame 5 and the support are connected in a detachable mode, and the upper sliding beam, the lower sliding beam and the support are convenient to detach and build again. The hanging frame 1 is provided with a tightening screw hole, the position of the tightening screw hole is matched with the sliding groove, and a screw is screwed in the tightening screw hole.

Referring to fig. 2, in this embodiment, the bracket includes two front legs 9 and two rear legs 4, the two front legs 9 are respectively connected to two sides of the front portion of the beam 5, the two front legs 9 are respectively connected to two sides of the rear portion of the beam 5, and the length of the front legs 9 is smaller than that of the rear legs 4.

On the other hand, the present embodiment provides a solution of the hanger 1 with a chute. Referring to fig. 3, a hanger 1 is provided with a chute, a protrusion matching the chute is provided on the top of an upper sliding beam 2, and a protrusion matching the chute is provided on the bottom of a lower sliding beam 7. The hanging frame 1 can slide along the upper sliding beam 2 or the lower sliding beam 7, and after the hanging frame slides to a proper position, the hanging frame is fixed by adopting screws. A plurality of photovoltaic panels 3 are connected between the groups of hangers 1 to form a photovoltaic square matrix.

Referring to fig. 4, a beam frame 5 is provided with two front struts 8 and two rear struts 6, the two front struts 8 are respectively located at two sides of the front portion of the beam frame 5, the two rear struts 6 are respectively located at two sides of the rear portion of the beam frame 5, the front struts 8 are rotatably connected with front supporting legs 9, and the rear struts 6 are fixedly connected with rear supporting legs 4. The front strut 8 is detachably connected to the front leg 9 and the rear strut 6 is detachably connected to the rear leg 4. The upper slide beam 2 and the lower slide beam 7 are detachably connected with the beam frame 5 respectively.

Referring to fig. 5, a hanger 1 is provided with a pair of hanging lugs 10, a hanging rod 11 matched with the hanging lugs 10 is arranged at the top of a photovoltaic panel 3, a hanging rod lug 12 is arranged at the bottom of the photovoltaic panel 3, and a plurality of photovoltaic panels 3 are sequentially connected through the hanging rod 11 and the hanging rod lug 12. More favorable hanging lugs 10 and hanging rod lugs 12 are provided with openings, so that the hanging rod 11 can be conveniently clamped in. The hanging lugs 10 and the hanging rod lugs 12 have certain elasticity, so that the hanging rod 11 can be clamped in and disassembled more conveniently and rapidly.

The beam 5 is provided with a gradient indicating device. The inclination indicating device comprises a pendulum bob and an angle dividing line, wherein the pendulum bob is rotationally connected with the beam frame 5, the angle dividing line is fixedly connected with the beam frame 5, and the angle dividing line is matched with the pendulum bob in position. The position of the pendulum relative angle score line indicates the angle of the beam 5 to the plumb line.

The beneficial technical effects of the embodiment include: the hanger 1 is installed through the beam frame 5 fixed on the bracket, the photovoltaic panel 3 string formed by the photovoltaic panels 3 is installed on the hanger 1, the construction of the photovoltaic square matrix can be completed through rapid assembly of the bracket and the hanger 1, the temporary office power supply can be shared by connecting the inverter and the transformer, and the deployment is convenient and rapid; through changing the interval of preceding landing leg 9 and back landing leg 4, can change the inclination of photovoltaic board 3, make photovoltaic board 3 have better light receiving angle, improve the generating efficiency of photovoltaic board 3.

While the utility model has been described in terms of embodiments, it will be appreciated by those skilled in the art that the utility model is not limited thereto but rather includes the drawings and the description of the embodiments above. Any modifications which do not depart from the functional and structural principles of the present utility model are intended to be included within the scope of the appended claims.

Claims (10)

1. A photovoltaic device for quickly constructing a temporary office is characterized in that,

including support, last slide beam, slide beam down, roof beam frame, a plurality of stores pylon and a plurality of photovoltaic board, go up slide beam and slide beam down and be connected with the roof beam frame can be dismantled respectively, roof beam frame fixed mounting is in on the support, go up slide beam and slide beam parallel down, a plurality of two liang of groups of stores pylon are installed respectively on last slide beam and the slide beam, two stores pylon positions of every group correspond, and a plurality of photovoltaic board interconnect constitutes the photovoltaic board cluster, photovoltaic board cluster both ends respectively with two of same group the stores pylon is connected.

2. A quick construction photovoltaic installation for a temporary office according to claim 1, characterized in that,

the support comprises two front support legs and two rear support legs, wherein the two front support legs are respectively connected with two sides of the front part of the beam frame, the two front support legs are respectively connected with two sides of the rear part of the beam frame, and the length of each front support leg is smaller than that of each rear support leg.

3. A quick construction photovoltaic installation for a temporary office according to claim 2, characterized in that,

the beam frame is provided with two front supporting rods and two rear supporting rods, the two front supporting rods are respectively located on two sides of the front portion of the beam frame, the two rear supporting rods are respectively located on two sides of the rear portion of the beam frame, the front supporting rods are rotationally connected with the front supporting legs, and the rear supporting rods are fixedly connected with the rear supporting legs.

4. A quick construction photovoltaic installation for a temporary office according to claim 3, characterized in that,

the front support rod is detachably connected with the front support leg, and the rear support rod is detachably connected with the rear support leg.

5. A quick construction photovoltaic installation for a temporary office according to any of claims 1 to 4, characterized in that,

the hanger is provided with a sliding groove, the top of the upper sliding beam is provided with a bulge matched with the sliding groove, and the bottom of the lower sliding beam is provided with a bulge matched with the sliding groove.

6. A quick construction photovoltaic installation for a temporary office according to claim 5, characterized in that,

the hanger is provided with a pair of hangers, the top of the photovoltaic panel is provided with a hanging rod matched with the hangers, the bottom of the photovoltaic panel is provided with hanging rod lugs, and a plurality of photovoltaic panels are sequentially connected through the hanging rods and the hanging rod lugs.

7. A quick construction photovoltaic installation for a temporary office according to claim 5, characterized in that,

the hanger is provided with a tightening screw hole, the position of the tightening screw hole is matched with the sliding groove, and a screw is screwed in the tightening screw hole.

8. A quick construction photovoltaic installation for a temporary office according to any of claims 1 to 4, characterized in that,

and the beam frame is provided with an inclination indicating device.

9. A quick construction photovoltaic installation for a temporary office according to claim 8, characterized in that,

the inclination indicating device comprises a pendulum and an angle dividing line, wherein the pendulum is rotationally connected with the beam frame, the angle dividing line is fixedly connected with the beam frame, and the angle dividing line is matched with the pendulum in position.

10. A quick construction photovoltaic installation for a temporary office according to any of claims 1 to 4, characterized in that,

the upper sliding beam and the lower sliding beam are respectively detachably connected with the beam frame.

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