CN116254956A

CN116254956A - Fast-assembling energy-saving roof for work shed

Info

Publication number: CN116254956A
Application number: CN202310459923.2A
Authority: CN
Inventors: 马益锋
Original assignee: Shaoxing Tianshun Environmental Construction Co ltd
Current assignee: Shaoxing Tianshun Environmental Construction Co ltd
Priority date: 2023-04-23
Filing date: 2023-04-23
Publication date: 2023-06-13

Abstract

The invention relates to the technical field of supporting equipment for construction sites, in particular to a fast-assembled energy-saving roof for a greenhouse, which comprises a greenhouse frame and a solar panel. The fast-assembly energy-saving roof for the greenhouse can improve the heat insulation effect of the roof by adopting a multi-layer structure design, so that the greenhouse is more energy-saving; by adopting a turnover structure design, the surface of the solar cell can be opened under the condition of sufficient sunlight, the illumination conversion efficiency is improved, the sunlight blocking area of the whole greenhouse roof is improved, and the shading positive of the side wall of the greenhouse is further enhanced; through being provided with automatically controlled belt cleaning device in first top light apron and second top light apron below, can be more convenient maintain solar cell, reduce the later maintenance degree of difficulty, guarantee solar cell's conversion efficiency.

Description

Fast-assembling energy-saving roof for work shed

Technical Field

The invention relates to the technical field of supporting equipment for construction sites, in particular to a fast-assembling energy-saving roof for a greenhouse.

Background

The work shed is a simple house which is temporarily erected on the site for work or accommodation. The movable type electric power tool has the characteristics of mobility and convenient installation and disassembly. The current work shed is in order to practice thrift the cost, and convenient transformation just simple adoption roofing is various steel sheet as the roofing, and it is poor to insulate against heat the effect, need consume a large amount of electric energy to adjust inside temperature and air, and its inside power need be supplied with through external connection moreover, and is higher to the requirement of infrastructure, lays and use cost is great.

Disclosure of Invention

The invention aims to solve the technical problems that: in order to solve the problems in the prior art, the improved fast-assembly energy-saving roof for the greenhouse is provided, and the problems that the conventional greenhouse roof has poor heat insulation effect, a large amount of electric energy is consumed to adjust the internal temperature and air, the internal power supply is required to be supplied through external connection, the requirement on infrastructure is high, and the paving and using costs are high are solved.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a fast-assembling energy-conserving roof for work shed, includes work shed frame and solar cell panel, work shed frame upper end be located solar cell top and be provided with first top light apron and second top light apron, work shed frame upper surface is located solar cell both sides activity and is equipped with the automatically controlled upset frame of first top light apron of being used for controlling and the automatically controlled upset frame of second top light apron of second that is used for controlling, the automatically controlled upset frame upper surface top of first is fixed to be equipped with and is used for controlling the automatically controlled upset frame of first automatically controlled upset frame and the automatically controlled illumination intensity sensing controller of upset frame of second respectively.

The first electric control overturning frame comprises first movable mounting brackets fixed on two sides of the solar battery, first overturning connecting rods movably connected to the first movable mounting brackets through lateral rotating shafts, first electric control supporting rods movably connected to the first movable mounting brackets and first assembling frames movably assembled on the top ends of one sides of the first overturning connecting rods.

The second electric control overturning frame comprises second movable mounting brackets fixed on two sides of the solar battery, second overturning connecting rods movably connected to the second movable mounting brackets through lateral rotating shafts, second electric control supporting rods movably connected to the second movable mounting brackets and second assembling frames movably assembled on the top ends of one sides of the second overturning connecting rods.

The lower surfaces of the first assembly frame and the second assembly frame are fixedly provided with symmetrically arranged bottom assembly guide rails, electric control adjusting screw rods are movably assembled in the bottom assembly guide rails, and transverse cleaning frames controlled by the electric control adjusting screw rods are arranged on the lower surfaces of the first assembly frame and the second assembly frame.

The lower surface of the transverse cleaning frame is provided with an angle-adjustable high-pressure liquid spray nozzle and an angle-adjustable high-pressure air nozzle.

The side wall of the greenhouse frame is fixedly provided with a lateral triangular support frame through bolts, and one side of the lateral triangular support frame is fixedly provided with an electric control lateral support frame.

The side liquid storage tank of the centrifugal liquid pump of the internal installation is fixedly assembled at the lower end of the outer side face of the greenhouse frame, and flexible conveying pipes communicated with the liquid outlet of the centrifugal liquid pump are fixedly connected to the side walls of the first overturning connecting rod and the second overturning connecting rod through mounting frames.

The upper end of the inside of the transverse cleaning frame is fixedly provided with an electric control centrifugal fan matched with the angle-adjustable high-pressure air nozzle.

The upper end of the outer side surface of the shed frame is fixedly provided with a side guide cover, and the lower surface of the side guide cover is positioned at the lowest position and is fixedly provided with a longitudinal return pipe communicated with the inside of the side liquid storage tank.

The side liquid storage tank is internally and fixedly provided with a detachable metal filter screen frame.

The beneficial effects of the invention are as follows:

(1) The fast-assembly energy-saving roof for the greenhouse can improve the heat insulation effect of the roof by adopting a multi-layer structure design, so that the greenhouse is more energy-saving;

(2) By adopting a turnover structure design, the surface of the solar cell can be opened under the condition of sufficient sunlight, the illumination conversion efficiency is improved, the sunlight blocking area of the whole greenhouse roof is improved, and the shading positive of the side wall of the greenhouse is further enhanced;

(3) By arranging the electric control type cleaning device below the first top light cover plate and the second top light cover plate, the solar battery can be more conveniently maintained, the later maintenance difficulty is reduced, and the conversion efficiency of the solar battery is ensured;

(4) The light structure design is adopted, so that the loading, unloading and transportation are convenient and quick;

(5) The solar cell is adopted to replace the traditional roof decoration surface, the electric energy self-sufficiency rate is greatly improved, the requirement on the laying position is lower, and the application prospect is wider.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic bottom structure of a first electronically controlled roll-over frame according to the present invention.

Fig. 3 is a schematic bottom structure of a second electronically controlled roll-over frame according to the present invention.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the invention and therefore show only the structures which are relevant to the invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The fast-assembling energy-saving roof for the work shed shown in fig. 1, 2 and 3 comprises a work shed frame 1 and a solar cell panel 2, wherein a first top light cover plate 3 and a second top light cover plate 4 are arranged above the solar cell 2 at the upper end of the work shed frame 1, a first electric control turnover frame for controlling the first top light cover plate 3 and a second electric control turnover frame for controlling the second top light cover plate 4 are movably assembled on two sides of the solar cell 2 at the upper surface of the work shed frame 1, and an illumination intensity sensing controller 5 for respectively controlling the first electric control turnover frame and the second electric control turnover frame is fixedly assembled on the top of the upper surface of the first electric control turnover frame.

The solar cell 2 and the illumination intensity sensing controller 5 are prior art.

Through adopting solar cell 2 to supply power, cooperation illumination intensity sensing controller 5 carries out auxiliary configuration, and automatically controlled upset frame of automatically controlled first and second starts, respectively to both sides upset removal to control solar cell 2 upper end opening is opened and close, enlarges the sunshade area of work shed frame 1 both sides simultaneously, thereby further reduces the inside temperature of work shed, and then reduces the energy consumption, utilizes the electric energy self-sufficiency to reduce the consumption to external energy simultaneously, more energy-conservation.

Meanwhile, the bolts are adopted for quick assembly between the solar cell 2 and the upper end of the shed frame 1, between the first top light cover plate 3 and the first electric control turnover frame and between the second top light cover plate 4 and the second electric control turnover frame, so that the laying difficulty is greatly reduced, and the assembly period is shortened.

In order to match the upper end overturning adjustment, the first electric control overturning frame comprises first movable mounting brackets 6 fixed on two sides of the solar cell 2, a first overturning connecting rod 7 movably connected to the first movable mounting brackets 6 through a lateral rotating shaft, a first electric control supporting rod 8 movably connected to the first movable mounting brackets 6 and a first assembling frame 9 movably assembled at the top end of one side of the first overturning connecting rod 7.

In order to match the lower end turnover adjustment, the second electric control turnover frame comprises second movable mounting brackets 10 fixed on two sides of the solar cell 2, second turnover connecting rods 11 movably connected to the second movable mounting brackets 10 through lateral rotating shafts, second electric control supporting rods 12 movably connected to the second movable mounting brackets 10 and second assembly frames 13 movably assembled on the top ends of one sides of the second turnover connecting rods 11.

The first electric control stay bar 8 and the second electric control stay bar 12 are all of the prior art, and respectively control the first turning connecting rod 7 and the second turning connecting rod 11 to carry out turning adjustment control.

For matching with the bottom transmission adjustment, the lower surfaces of the first assembly frame 9 and the second assembly frame 13 are fixedly provided with symmetrically arranged bottom assembly guide rails 14, an electric control adjusting screw rod 15 is movably arranged in the bottom assembly guide rails 14, and the lower surfaces of the first assembly frame 9 and the second assembly frame 13 are provided with a transverse cleaning frame 16 controlled by the electric control adjusting screw rod 15.

The electric control adjusting screw rod 15 is in the prior art, and is composed of an adjusting motor and an external threaded rod and is used for controlling the transverse cleaning frame 16 to slide along the bottom assembly guide rail 14.

For cooperation of cleaning and air-drying, the lower surface of the horizontal cleaning frame 16 is equipped with an angle-adjustable high-pressure liquid spray nozzle 17 and an angle-adjustable high-pressure air spray nozzle 18.

The high-pressure spray nozzle 17 with adjustable angle sprays cleaning liquid to the surface of the solar cell panel 2 in an inclined way, so that stains on the surface of the solar cell panel 2 are removed, the high-pressure spray nozzle 18 with adjustable angle performs blowing treatment on the surface of the solar cell panel 2 after the cleaning is completed, residual liquid on the surface is quickly air-dried and removed, and meanwhile, the discharging efficiency of the cleaning liquid can be improved.

In order to improve the supporting force of the bottom side, a lateral triangular support frame 19 is fixed at the upper end of the side wall of the greenhouse frame 1 through bolts, and an electric control lateral support frame 20 is fixedly arranged on one side of the lateral triangular support frame 19.

Wherein automatically controlled side direction support frame 20 is prior art, supports the automatically controlled upset frame bottom of second after descending through stretching, promotes structural stability.

In order to cooperate with low-level liquid storage and facilitate cleaning and cooling of a roof, a side liquid storage tank 22 for internally mounting a centrifugal liquid pump 21 is fixedly assembled at the lower end of the outer side surface of the shed frame 1, and a flexible conveying pipe 23 communicated with a liquid outlet of the centrifugal liquid pump 21 is fixedly connected to the side walls of the first turning connecting rod 7 and the second turning connecting rod 11 through a mounting frame.

In order to improve the air drying efficiency after cleaning, the upper end of the inside of the transverse cleaning frame 16 is fixedly provided with an electric control centrifugal fan 24 matched with the angle-adjustable high-pressure air nozzle 18.

The electronically controlled centrifugal fan 24 is conventional in the art by drawing in outside air and then ejecting it from the angularly adjustable high pressure air nozzle 18.

In order to cooperate with the guiding and refluxing of the cleaning liquid, the upper end of the outer side surface of the shed frame 1 is fixedly provided with a side guide cover 25, and the lower surface of the side guide cover 25 is fixedly provided with a longitudinal reflux pipe 26 communicated with the inside of the side liquid storage tank 22 at the lowest position.

To enhance the internal filtration performance, the side tank 22 is fixedly fitted with a removable metallic filter screen frame 27 inside.

A lateral support block is fixed on the inner side of the lateral liquid storage tank 22, and a detachable metal filter screen frame 27 is arranged on the lateral support block by being directly swung.

The fast-assembly energy-saving roof for the greenhouse can improve the heat insulation effect of the roof by adopting a multi-layer structure design, so that the greenhouse is more energy-saving; by adopting a turnover structure design, the surface of the solar cell 2 can be opened under the condition of sufficient sunlight, the illumination conversion efficiency is improved, the sunlight blocking area of the whole greenhouse roof is improved, and the shading positive of the side wall of the greenhouse is further enhanced; by arranging the electric control type cleaning device below the first top light cover plate 3 and the second top light cover plate 4, the solar cell 2 can be more conveniently maintained, the later maintenance difficulty is reduced, and the conversion efficiency of the solar cell 2 is ensured; the light structure design is adopted, so that the loading, unloading and transportation are convenient and quick; the solar cell 2 is adopted to replace the traditional roof decoration surface, the electric energy self-sufficiency rate is greatly improved, the requirement on the laying position is lower, and the application prospect is wider.

With the above-described preferred embodiments according to the present invention as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present invention. The technical scope of the present invention is not limited to the description, but must be determined according to the scope of claims.

Claims

1. The utility model provides a fast-assembling energy-conserving roof for work shed, includes work shed frame (1) and solar cell panel (2), characterized by: the solar energy greenhouse is characterized in that a first top light cover plate (3) and a second top light cover plate (4) are arranged above the solar cell (2) at the upper end of the greenhouse frame (1), a first electric control turnover frame for controlling the first top light cover plate (3) and a second electric control turnover frame for controlling the second top light cover plate (4) are movably assembled on two sides of the solar cell (2) at the upper surface of the greenhouse frame (1), and an illumination intensity sensing controller (5) for respectively controlling the first electric control turnover frame and the second electric control turnover frame is fixedly assembled on the top of the upper surface of the first electric control turnover frame.

2. The fast-assembling energy-saving roof for a shed as in claim 1, wherein: the first electric control overturning frame comprises first movable mounting brackets (6) fixed on two sides of the solar cell (2), a first overturning connecting rod (7) movably connected to the first movable mounting brackets (6) through a lateral rotating shaft, a first electric control supporting rod (8) movably connected to the first movable mounting brackets (6) and a first assembling frame (9) movably assembled at the top end of one side of the first overturning connecting rod (7).

3. The fast-assembling energy-saving roof for a shed as in claim 2, wherein: the second electric control overturning frame comprises second movable mounting brackets (10) fixed on two sides of the solar cell (2), second overturning connecting rods (11) movably connected to the second movable mounting brackets (10) through lateral rotating shafts, second electric control supporting rods (12) movably connected to the second movable mounting brackets (10) and second assembling frames (13) movably assembled at the top ends of one sides of the second overturning connecting rods (11).

4. A fast-assembling energy-saving roof for a work shed as in claim 3, wherein: the automatic cleaning device is characterized in that bottom assembly guide rails (14) which are symmetrically arranged are fixedly arranged on the lower surfaces of the first assembly frame (9) and the second assembly frame (13), an electric control adjusting screw rod (15) is movably arranged in the bottom assembly guide rails (14), and a transverse cleaning frame (16) controlled by the electric control adjusting screw rod (15) is arranged on the lower surfaces of the first assembly frame (9) and the second assembly frame (13).

5. The fast-assembling energy-saving roof for a greenhouse of claim 4, wherein: the lower surface of the transverse cleaning frame (16) is provided with an angle-adjustable high-pressure liquid spray nozzle (17) and an angle-adjustable high-pressure air spray nozzle (18).

6. The fast-assembling energy-saving roof for a shed as in claim 1, wherein: the side wall of the greenhouse frame (1) is fixedly provided with a lateral triangular support frame (19) through bolts, and one side of the lateral triangular support frame (19) is fixedly provided with an electric control lateral support frame (20).

7. A fast-assembling energy-saving roof for a work shed as in claim 3, wherein: the side liquid storage tank (22) of the centrifugal liquid pump (21) is fixedly assembled at the lower end of the outer side surface of the work shed frame (1), and flexible conveying pipes (23) communicated with the liquid outlet of the centrifugal liquid pump (21) are fixedly connected to the side walls of the first overturning connecting rod (7) and the second overturning connecting rod (11) through mounting frames.

8. The fast-assembling energy-saving roof for a greenhouse of claim 4, wherein: an electric control centrifugal fan (24) matched with the angle-adjustable high-pressure air nozzle (18) is fixedly arranged at the upper end inside the transverse cleaning frame (16).

9. The fast-assembling energy-saving roof for a shed as in claim 7, wherein: the upper end of the outer side face of the shed frame (1) is fixedly provided with a side guide cover (25), and the lower surface of the side guide cover (25) is positioned at the lowest position and is fixedly provided with a longitudinal return pipe (26) communicated with the inside of the side liquid storage tank (22).

10. The fast-assembling energy-saving roof for a shed as in claim 7, wherein: the side liquid storage tank (22) is fixedly provided with a detachable metal filter screen frame (27).