CN217470866U - Self-insulation agricultural greenhouse applying graphene heating film - Google Patents

Abstract

A self-heat-preservation agricultural greenhouse applying a graphene heating film relates to the technical field of greenhouse heat preservation, and comprises a greenhouse front wall and a greenhouse rear wall which are oppositely arranged, wherein the greenhouse front wall and the greenhouse rear wall are respectively and vertically and fixedly connected to a greenhouse foundation, double-slope greenhouse frames are fixedly supported at the upper ends of the greenhouse front wall and the greenhouse rear wall, solar cell panels are arranged above the double-slope greenhouse frames in parallel with the double-slope greenhouse frames, and symmetrical heat-preservation films are laid on the outer slope surface between the double-slope greenhouse frames and the solar cell panels; the upper end of the heat-insulating film is provided with a curtain rolling device which is fixedly connected to the outer side of the upper end of the double-slope shed frame; the graphene heating films are symmetrically arranged on the inner slope surface of the double-slope shed frame. The utility model provides an use graphite alkene heating film's among the conventional art the greenhouse that exists when using graphite alkene heating film receive and release loaded down with trivial details, control inconvenience and the big problem of power consumption.

Description

Self-insulation agricultural greenhouse applying graphene heating film

Technical Field

The utility model relates to a big-arch shelter keeps warm technical field, concretely relates to self preservation temperature green house of applied graphite alkene heating film.

Background

The greenhouse is a building which uses lighting covering materials as all or part of building enclosing structures and can be used for cultivating plants in winter or other seasons which are not suitable for open field plant growth. The greenhouse can transmit light, keep warm (or heat), can provide a growth period and increase the yield in seasons unsuitable for plant growth, and is mainly used for cultivating or growing seedlings of plants such as warm vegetables, flowers and trees in low-temperature seasons. The greenhouse can be divided into a great variety according to different roof truss materials, lighting materials, shapes, heating conditions and the like, such as a glass greenhouse and a plastic greenhouse; single-span greenhouses and multi-span greenhouses; single-roof greenhouses and double-roof greenhouses; a heating greenhouse, a non-heating greenhouse and the like. The greenhouse structure should be sealed and insulated, but should be convenient for ventilation and cooling. The modern greenhouse has equipment for controlling conditions such as temperature, humidity, illumination and the like, and the computer is used for automatically controlling and creating the optimal environmental conditions required by plants.

Warmhouse booth's heat preservation is an important ring in the greenhouse is planted, and present warmhouse booth mainly maintains the temperature in the warmhouse booth through solar radiation, and under the normal conditions, warmhouse booth coats and is stamped the heat preservation quilt, and the heat preservation quilt is packed up when sunrise, puts down when sunset, gathers heat through greenhouse effect, nevertheless to some sleet weather, solar radiation is not enough, and the temperature fluctuation range in the warmhouse booth is great, needs to use graphite alkene heating film to keep warm the regulation to the temperature in the warmhouse booth this moment.

The problems of the existing greenhouse using the graphene heating film in the using process include:

1. the graphene heating film is generally heated in the weather with insufficient solar radiation or at night, the temperature in the greenhouse is adjusted, the greenhouse effect is still adopted to collect heat in the day with sufficient solar radiation for saving energy, the temperature rise and the heat preservation in the greenhouse are realized, the graphene heating film needs to be folded at the moment, and the folding and unfolding process of the graphene heating film is difficult to operate, difficult to control and adjust and large in manpower consumption.

2. The graphene heating film can be heated only by being electrified, so that a large amount of electric energy is consumed when the greenhouse is insulated at night.

In view of the foregoing, it is apparent that the prior art has inconvenience and disadvantages in practical use, and thus, needs to be improved.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model provides an use self preservation temperature green house of graphite alkene heating film for solve the graphite alkene heating film that the green house of using graphite alkene heating film in the traditional art exists when using receive and release loaded down with trivial details, the inconvenient and big problem of power consumption of control.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides an use self preservation temperature green house of graphite alkene heating film, includes relative big-arch shelter front wall and the big-arch shelter back wall that sets up, big-arch shelter front wall and big-arch shelter back wall are vertical rigid coupling respectively on the big-arch shelter ground.

As an optimized scheme, double-slope shed frames are fixedly supported at the upper ends of the front wall and the rear wall of the greenhouse.

As an optimized scheme, a solar panel is arranged above the double-slope shed frame in parallel with the double-slope shed frame.

As an optimized scheme, the solar cell panel is fixedly installed on the double-slope shed frame through a plurality of support frames fixedly connected to the outer slope surface of the double-slope shed frame.

As an optimized scheme, symmetrical heat insulation films are laid on the outer slope surface between the double-slope shed frame and the solar cell panel in a covering mode, a plurality of film falling blocks are fixedly connected to the lower end of each heat insulation film, and the film falling blocks are detachably mounted on the upper end surfaces of the front wall and the rear wall of the greenhouse respectively.

As an optimized scheme, a roller shutter device is arranged at the upper end of the heat-insulating film, and the roller shutter device is fixedly connected to the outer side of the upper end of the double-slope shed frame.

As an optimized scheme, the roller shutter is connected with the solar cell panel and is switched to supply power through the solar cell panel.

As an optimized scheme, a first mounting seat, a second mounting seat and a third mounting seat are fixedly connected to the inner slope surface folding corners of the double-slope shed frame respectively.

As an optimized scheme, the first mounting seat and the third mounting seat are symmetrically arranged and are respectively and transversely fixedly connected to the vertical inner walls of the double-slope shed frame.

As an optimized scheme, the second mounting seat is vertically fixed to the inner top end of the double-slope shed frame.

As an optimized scheme, a first roller is rotatably arranged between the first installation seats, a third roller is rotatably arranged between the third installation seats, and a second roller is fixedly arranged between the second installation seats.

As an optimized scheme, a first chain wheel set and a third chain wheel set are fixedly connected to opposite end faces of the first roller and the third roller respectively, and a second chain wheel set is rotatably arranged on an opposite end face of the second roller.

As an optimized scheme, the first chain wheel set and the second chain wheel set, and the second chain wheel set and the third chain wheel set are respectively connected and driven through a transmission chain.

As an optimized scheme, the outer cylinder surfaces of the first cylinder and the second cylinder are respectively rotatably supported with a graphene heating film, and the graphene heating film is arranged close to the inner slope surface of the double-slope shed frame.

As an optimized scheme, the upper end of the graphene heating film extends to the second mounting seat and is fixedly connected with the transmission chain respectively.

As an optimized scheme, a first driving motor and a second driving motor are fixedly connected to the first mounting seat and the second mounting seat respectively, and the first driving motor and the second driving motor are used for driving the first roller and the second roller to rotate respectively.

As an optimized scheme, a film storage box is fixedly connected to the front wall of the greenhouse and the opposite inner wall hillock of the rear wall of the greenhouse, and the lower end of the graphene heating film extends and rotates to be stored in the film storage box.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses the mode that well graphite alkene heating film receive and releases does: one end of the graphene heating film is fixed on the transmission chain, the transmission chain is driven to rotate through the driving motor, and the graphene heating film is driven to move close to the inner surface of the double-slope shed frame so as to realize the folding and unfolding of the graphene heating film; the winding and unwinding degree of the graphene heating film can be accurately controlled through the rotation of the driving motor, the operation is simple, and the manpower is not consumed; the light inlet quantity and the radiant quantity of the greenhouse can be adjusted through the retraction and release of the graphene heating film, so that the temperature of the greenhouse is adjusted.

The utility model discloses in the surface upper berth of two slope rack be equipped with the heat preservation membrane of activity, further strengthen the heat preservation effect of big-arch shelter, the solar cell panel who builds on the two slope racks absorbs solar energy and converts the electric energy into, supplies power to rolling up curtain ware and graphite alkene heating film, reduces the holistic energy resource consumption of big-arch shelter.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic view of the internal structure of the present invention;

fig. 2 is a partially enlarged view of a portion a in fig. 1.

In the figure: 1-a greenhouse front wall, 2-a greenhouse rear wall, 3-a greenhouse foundation, 4-a double-slope greenhouse frame, 5-a solar panel, 6-a support frame, 7-a heat preservation film, 8-a film weight block, 9-a curtain rolling device, 10-a first mounting seat, 11-a second mounting seat, 12-a third mounting seat, 13-a first roller, 14-a third roller, 15-a second roller, 16-a first chain wheel set, 17-a third chain wheel set, 18-a second chain wheel set, 19-a graphene heating film, 20-a first driving motor, 21-a second driving motor, 22-a film storage box and a transmission chain-23.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only used to illustrate the technical solutions of the present invention more clearly, and therefore are only used as examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 to fig. 1, the self-insulation agricultural greenhouse using the graphene heating film 19 comprises a front greenhouse wall 1 and a rear greenhouse wall 2 which are arranged oppositely, and the front greenhouse wall 1 and the rear greenhouse wall 2 are vertically and fixedly connected to a greenhouse foundation 3 respectively.

The upper ends of the front wall 1 and the rear wall 2 of the greenhouse are fixedly supported with a double-slope greenhouse frame 4.

And a solar cell panel 5 is arranged above the double-slope shed frame 4 in parallel with the double-slope shed frame.

The solar cell panel 5 is fixedly arranged on the double-slope shed frame 4 through a plurality of support frames 6 fixedly connected to the outer slope surface of the double-slope shed frame 4.

Symmetrical heat preservation films 7 are laid on the outer slope surface between the double-slope greenhouse frame 4 and the solar cell panel 5 in a covering mode, the lower end of each heat preservation film 7 is fixedly connected with a plurality of film falling blocks 8, and the film falling blocks 8 are detachably mounted on the upper end faces of the front greenhouse wall 1 and the rear greenhouse wall 2 respectively.

The upper end of the heat preservation film 7 is provided with a roller shutter device 9, and the roller shutter device 9 is fixedly connected to the outer side of the upper end of the double-slope shed frame 4.

The roller shutter 9 is connected with the solar cell panel 5 and is powered by the solar cell panel 5 in a conversion way.

The inner slope folding angle of the double-slope shed frame 4 is respectively and fixedly connected with a first mounting seat 10, a second mounting seat 11 and a third mounting seat 12.

The first mounting seat 10 and the third mounting seat 12 are symmetrically arranged and transversely and fixedly connected to the vertical inner wall of the double-slope shed frame 4 respectively.

The second mounting seat 11 is vertically fixed at the inner top end of the double-slope shed frame 4.

A first roller 13 is rotatably arranged between the first installation seats 10, a third roller 14 is rotatably arranged between the third installation seats 12, and a second roller 15 is fixedly arranged between the second installation seats 11.

The opposite end surfaces of the first roller 13 and the third roller 14 are respectively fixedly connected with a first chain wheel set 16 and a third chain wheel set 17, and the opposite end surface of the second roller 15 is rotatably provided with a second chain wheel set 18.

The first chain wheel set 16 and the second chain wheel set 18, and the second chain wheel set 18 and the third chain wheel set 17 are connected and driven through a driving chain 23 respectively.

The outer cylinder surfaces of the first roller 13 and the second roller 15 are respectively rotatably supported with a graphene heating film 19, and the graphene heating film 19 is arranged close to the inner slope surface of the double-slope shed frame 4.

The upper end of the graphene heating film 19 extends to the second mounting base 11 and is fixedly connected with the transmission chains 23 respectively.

A first driving motor 20 and a second driving motor 21 are respectively fixedly connected to the first mounting seat 10 and the second mounting seat 11, and the first driving motor 20 and the second driving motor 21 are respectively used for driving the first roller 13 and the second roller 15 to rotate.

The film containing box 22 is fixedly connected to the opposite inner wall hills of the front greenhouse wall 1 and the rear greenhouse wall 2, and the lower end of the graphene heating film 19 extends and rotates to be contained in the film containing box 22.

The utility model discloses when using: when the sunlight is sufficient, the first driving motor 20 and the second driving motor 21 are started to drive the transmission chain 23 to rotate, so that the graphene heating film 19 is driven to be recovered to the thin film storage box 22, the sunlight shines into the greenhouse through the heat-insulating film 7, and the self-heat preservation of the greenhouse is realized through the greenhouse effect of the greenhouse; in rainy and snowy days or nights with insufficient sunlight, the first driving motor 20 and the second driving motor 21 are started to rotate reversely and drive the transmission chain 23 to rotate, so that the graphene heating film 19 extends to cover the inner roof of the whole greenhouse, the graphene heating film 19 is electrified to dissipate heat at the moment, and the temperature in the greenhouse is self-regulated.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same, and although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: it is to be understood that modifications may be made to the above-described embodiments, or equivalents may be substituted for some or all of their features, without departing from the scope of the invention.

Claims (8)

1. The utility model provides an use self preservation temperature green house of graphite alkene heating film which characterized in that: the greenhouse comprises a greenhouse front wall (1) and a greenhouse rear wall (2) which are arranged oppositely, wherein the greenhouse front wall (1) and the greenhouse rear wall (2) are respectively and vertically fixedly connected to a greenhouse foundation (3), double-slope greenhouse frames (4) are supported and fixed at the upper ends of the greenhouse front wall (1) and the greenhouse rear wall (2), solar cell panels (5) are arranged above the double-slope greenhouse frames (4) in parallel to the double-slope greenhouse frames, and symmetrical heat insulation films (7) are laid on the outer slope surface between the double-slope greenhouse frames (4) and the solar cell panels (5);

the upper end of the heat-insulating film (7) is provided with a roller shutter device (9), and the roller shutter device (9) is fixedly connected to the outer side of the upper end of the double-slope shed frame (4);

and graphene heating films (19) are symmetrically arranged on the inner slope surface of the double-slope shed frame (4).

2. The self-insulation agricultural greenhouse applying the graphene heating film according to claim 1, wherein the self-insulation agricultural greenhouse comprises: the solar cell panel (5) is fixedly arranged on the double-slope shed frame (4) through a plurality of support frames (6) fixedly connected to the outer slope surface of the double-slope shed frame (4); the lower end of the heat-insulating film (7) is fixedly connected with a plurality of film falling blocks (8), and the film falling blocks (8) are respectively detachably mounted on the upper end surfaces of the front greenhouse wall (1) and the rear greenhouse wall (2); the roller shutter device (9) is connected with the solar panel (5) and is used for converting and supplying power through the solar panel (5).

3. The self-insulation agricultural greenhouse applying the graphene heating film according to claim 2, wherein the self-insulation agricultural greenhouse comprises: interior slope dog-ear department of two slope rack (4) rigid coupling respectively has first mount pad (10), second mount pad (11) and third mount pad (12), first mount pad (10) with third mount pad (12) symmetry sets up and is in respectively horizontal rigid coupling on the vertical inner wall of two slope rack (4), second mount pad (11) vertical being fixed in the interior top of two slope rack (4).

4. The self-insulation agricultural greenhouse applying the graphene heating film according to claim 3, wherein the self-insulation agricultural greenhouse comprises: rotate between first mount pad (10) and be equipped with first cylinder (13), it is equipped with third cylinder (14) to rotate between third mount pad (12), the fixed second cylinder (15) that is equipped with between second mount pad (11), the rigid coupling has first sprocket group (16) and third sprocket group (17) respectively on the relative terminal surface of first cylinder (13) and third cylinder (14), the relative terminal surface rotation of second cylinder (15) is equipped with second sprocket group (18).

5. The self-insulation agricultural greenhouse applying the graphene heating film according to claim 4, wherein the self-insulation agricultural greenhouse comprises: the first chain wheel set (16) and the second chain wheel set (18) as well as the second chain wheel set (18) and the third chain wheel set (17) are connected and driven through a driving chain (23).

6. The self-insulation agricultural greenhouse applying the graphene heating film according to claim 5, wherein the self-insulation agricultural greenhouse comprises: graphite alkene heating film (19) are pressed close to the interior slope setting of two slope rack (4), graphite alkene heating film (19) rotate to be supported first cylinder (13) with on the outer tube face of second cylinder (15), the upper end of graphite alkene heating film (19) extends to second mount pad (11) department and respectively with driving chain (23) looks rigid coupling.

7. The self-insulation agricultural greenhouse applying the graphene heating film according to claim 6, wherein the self-insulation agricultural greenhouse comprises: the first installation seat (10) and the second installation seat (11) are fixedly connected with a first driving motor (20) and a second driving motor (21) respectively, and the first driving motor (20) and the second driving motor (21) are used for driving the first roller (13) and the second roller (15) to rotate respectively.

8. The self-insulation agricultural greenhouse applying the graphene heating film according to claim 7, wherein the self-insulation agricultural greenhouse comprises: the greenhouse is characterized in that a film storage box (22) is fixedly connected to the front wall (1) of the greenhouse and the opposite inner wall of the rear wall (2) of the greenhouse, and the lower end of the graphene heating film (19) extends and rotates to be stored in the film storage box (22).

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