CN214482462U - Internal heat-insulation energy-saving structure of multi-span greenhouse - Google Patents

Abstract

The utility model discloses an interior heat preservation energy-saving structure of a greenhouse even, including a greenhouse body even, the indoor top of a greenhouse body even is equipped with the telescopic heat preservation of a plurality of layers level and is assembled, and the inboard of a greenhouse body daylighting curtain is equipped with vertical roll-up formula heat preservation and is assembled. When the lighting is needed, the horizontal telescopic heat preservation quilt assembly and the vertical rolling and releasing type heat preservation quilt assembly are folded; when heat preservation is needed, the horizontal telescopic heat preservation quilt assembly and the vertical rolling heat preservation quilt assembly are unfolded to form an inner heat preservation layer of the multi-span greenhouse, so that the heat preservation effect of the multi-span greenhouse is improved, the purposes of saving energy, reducing consumption and improving the economic benefit of the multi-span greenhouse are achieved.

Description

Internal heat-insulation energy-saving structure of multi-span greenhouse

Technical Field

The utility model relates to a greenhouse technical field, in particular to interior heat preservation energy-saving structure of a greenhouse even.

Background

The greenhouse is mainly applied to planting of economic crops such as vegetables, flowers and fruits, and is convenient for large-scale, standardized and industrialized planting modes.

The multi-span greenhouse is a greenhouse structure with the periphery and the top made of transparent lighting materials, the lighting problem of the greenhouse is effectively solved, the heat preservation effect is poor, especially for cold regions, the energy consumption expenditure in winter is greater than the output benefit, and therefore in the regions with low temperature, the greenhouse can be frequently in an idle state in winter, and therefore resource waste is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an interior heat preservation energy-saving structure in lian dong greenhouse can improve the heat preservation effect on the basis of guaranteeing the daylighting.

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

an internal heat-insulation energy-saving structure of a multi-span greenhouse comprises a multi-span greenhouse body, wherein a plurality of layers of horizontal telescopic heat-insulation quilt assemblies are arranged at the internal top of the multi-span greenhouse body, and vertical rolling heat-insulation quilt assemblies are arranged on the inner side of a lighting curtain wall of the multi-span greenhouse body.

Preferably, the horizontal telescopic heat preservation quilt assembly comprises a horizontal heat preservation quilt and a horizontal driving device, wherein a fixed end of the horizontal heat preservation quilt is connected to the indoor top of the multi-span greenhouse body, a movable end of the horizontal heat preservation quilt is connected with the horizontal driving device, and the horizontal driving device is used for driving the horizontal heat preservation quilt to be stretched and contracted on the indoor top of the multi-span greenhouse body.

Preferably, the horizontal driving device comprises a horizontal curtain supporting motor, a driving gear and a rack, one end of the rack is connected with the movable end of the horizontal heat preservation quilt, the driving gear is meshed with the rack, and the horizontal curtain supporting motor drives the rack to move horizontally through the driving gear fixed on the transmission shaft.

Preferably, the horizontal driving device further comprises a push-pull rod, the rack is connected with the push-pull rod, and the movable end of the horizontal heat preservation quilt is connected with the push-pull rod.

Preferably, the inner top of the multi-span greenhouse body is provided with a pulley assembly for the push-pull rod to slide.

Preferably, the heat preservation device comprises a plurality of horizontal heat preservation quilts which are laid flatly, and the movable end of each horizontal heat preservation quilt is connected with the push-pull rod.

Preferably, the vertical roll-off quilt assembly comprises a vertical face quilt and a lifting driving device, wherein the lifting driving device is used for driving the vertical face quilt to be lifted or hung.

Preferably, the lifting driving device comprises a quilt rolling rope, a vertical face rope rolling motor and a rope rolling lever, one end of the quilt rolling rope is fixed to the indoor top of the multi-span greenhouse body close to the curtain wall, the other end of the quilt rolling rope is wound on the rope rolling lever and fixed to the rope rolling lever, the vertical face rope rolling motor and the rope rolling lever are located on the indoor top of the multi-span greenhouse body, the upper end of the vertical face heat preservation quilt is fixed to the indoor top of the multi-span greenhouse body close to the curtain wall, the lower end of the vertical face heat preservation quilt is fixed to the quilt rolling lever, the quilt rolling rope is wrapped on the outer layer of the quilt rolling lever and the vertical face heat preservation quilt, and the rope rolling motor is used for driving the rope rolling lever to rotate so as to control the rolled quilt to lift and further drive the quilt rolling lever to rotate, and accordingly the vertical face heat preservation quilt is rolled up or put down.

Preferably, the lifting driving device comprises a climbing quilt rolling machine and a vertically arranged climbing rod, the climbing quilt rolling machine is connected to the climbing rod in a vertically moving mode, the upper end of the vertical face heat preservation quilt is fixed to the indoor top of the multi-span greenhouse body close to the curtain wall, a quilt rolling rod is arranged at the lower end of the vertical face heat preservation quilt, the quilt rolling rod is connected to the climbing quilt rolling machine, and the climbing quilt rolling machine is used for driving the quilt rolling rod to rotate.

Preferably, the lifting driving device comprises a support arm type quilt rolling machine and a support arm arranged obliquely, the support arm type quilt rolling machine is connected to the support arm in a vertically moving mode, the upper end of the vertical surface heat preservation quilt is fixed to the indoor top of the multi-span greenhouse body close to the curtain wall, the lower end of the vertical surface heat preservation quilt is fixed to a quilt rolling rod, the quilt rolling rod is connected to the support arm type quilt rolling machine, and the support arm type quilt rolling machine is used for driving the quilt rolling rod to rotate.

Compared with the prior art, the technical scheme has the following advantages:

the utility model provides an interior heat preservation energy-saving structure of a greenhouse even, including a greenhouse body even, the interior top of a greenhouse body even is equipped with the telescopic heat preservation of a plurality of layers level and is assembled, and the inboard of the daylighting curtain of a greenhouse body even is equipped with vertical formula of putting of rolling up and keeps warm by the subassembly. When lighting is needed, the horizontal telescopic heat preservation quilt assembly and the vertical rolling and releasing type heat preservation quilt assembly are folded, and the telescopic amount can be controlled according to the lighting requirement; when the lighting is not needed and the heat is needed, the horizontal telescopic heat preservation quilt assembly and the vertical rolling heat preservation quilt assembly can be unfolded to form the inner heat preservation layer of the multi-span greenhouse, so that the heat preservation effect of the multi-span greenhouse is improved, the purposes of saving energy, reducing consumption and improving the economic benefit of the multi-span greenhouse are achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural view of an internal thermal insulation energy-saving structure of a multi-span greenhouse according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a horizontal telescopic heat preservation quilt assembly;

fig. 3 is a schematic structural diagram of a vertical rolling-releasing type heat preservation quilt assembly.

The reference numbers are as follows:

1 is a multi-span greenhouse body;

2, a horizontal telescopic heat preservation quilt assembly, 201 a horizontal heat preservation quilt, 202 a horizontal curtain supporting motor, 203 a driving gear, 204 a rack, 205 a pulley assembly, 206 a push-pull rod and 207 a driving edge;

3 is a vertical rolling-releasing type heat preservation quilt assembly, 301 is a vertical face rope rolling motor, 302 is a quilt rolling rope, 303 is a vertical face heat preservation quilt, 304 is a quilt rolling bar, 305 is a climbing-type quilt rolling machine, and 306 is a climbing rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and 2, fig. 1 is a schematic structural view of an internal thermal insulation and energy saving structure of a multi-span greenhouse according to an embodiment of the present invention; fig. 2 is a schematic structural view of a horizontal telescopic heat preservation quilt assembly.

The embodiment of the utility model provides an interior heat preservation energy-saving structure of a greenhouse even, including a greenhouse body 1 even, a greenhouse body 1 is preferred to be the line greenhouse structure even, and the interior top of a greenhouse body 1 even is equipped with the telescopic heat preservation of a plurality of layers level by subassembly 2, can be one deck, two-layer or three-layer even more multilayer, and every layer level telescopic heat preservation is can be stretched out and drawn back alone by subassembly 2, specifically can select according to actual conditions, and the inboard of the daylighting curtain of a greenhouse body 1 even is equipped with vertical formula of putting of rolling up and is kept warm by subassembly 3. When lighting is needed, the horizontal telescopic heat preservation quilt assembly 2 and the vertical rolling-releasing type heat preservation quilt assembly 3 are folded, and the telescopic amount can be controlled according to the lighting requirement; when the lighting is not needed and the heat is needed, the horizontal telescopic heat preservation quilt assembly 2 and the vertical rolling type heat preservation quilt assembly 3 can be unfolded to form an inner heat preservation layer of the multi-span greenhouse, so that the heat preservation effect of the multi-span greenhouse is improved, the purposes of saving energy, reducing consumption and improving the economic benefit of the multi-span greenhouse are achieved.

As for the horizontal telescopic heat preservation quilt assembly 2, please refer to fig. 2, which specifically includes a horizontal heat preservation quilt 201 and a horizontal driving device, wherein a fixed end of the horizontal heat preservation quilt 201 is connected to the inner top of the multi-span greenhouse body 1, for example, the fixed end of the horizontal heat preservation quilt 201 can be connected to a truss on the inner top of the multi-span greenhouse body 1, a movable end of the horizontal heat preservation quilt 201 is connected with the horizontal driving device, the horizontal driving device is also fixed to the truss on the inner top of the multi-span greenhouse body 1, and when it is required to collect light, the horizontal driving device drives the horizontal heat preservation quilt 201 to be stored; when heat preservation is needed, the horizontal driving device drives the horizontal heat preservation quilt 201 to be unfolded so as to be shielded at the inner top of the multi-span greenhouse body 1.

The horizontal driving device comprises a horizontal screen supporting motor 202, a driving gear 203 and a rack 204, one end of the rack 204 is connected with the movable end of the horizontal heat preservation quilt 201, the driving gear 203 is meshed with the rack 204, a transmission shaft of the horizontal screen supporting motor 202 is connected with the driving gear 203, the horizontal screen supporting motor 202 rotates through the driving gear 203 fixed on the transmission shaft, and then the rack 204 is driven to move horizontally, so that the horizontal heat preservation quilt 201 is unfolded or folded.

The horizontal driving device further comprises a push-pull rod 206, the rack 204 is connected with the push-pull rod 206, and the movable end of the horizontal heat preservation quilt 201 is connected with the push-pull rod 206, namely, the horizontal heat preservation quilt 201 is controlled to move through the push-pull rod 206. The horizontal telescopic heat preservation quilt assembly 2 comprises a plurality of horizontal heat preservation quilts 201 which are tiled, the movable ends of the horizontal heat preservation quilts 201 are connected with the push-pull rod 206, and the stroke of the push-pull rod 206 can be reduced through the distribution mode, and the horizontal heat preservation quilts 201 are convenient to maintain. In order to facilitate the connection between the push-pull rod 206 and the plurality of horizontal heat preservation quilts 201, the push-pull rod 206 is provided with a plurality of driving edges 207 corresponding to the horizontal heat preservation quilts 201 one by one, and the movable end of the horizontal heat preservation quilt 201 is fixedly connected with the driving edges 207.

In order to facilitate the movement of the push-pull rod 206, the pulley assembly 205 for the push-pull rod 206 to slide is disposed at the inner top of the multi-span greenhouse body 1, for example, a plurality of pulley assemblies 205 arranged in a row may be disposed at the bottom of the truss, the push-pull rod 206 is disposed on the upper portion of the pulley assembly 205, and when the push-pull rod 206 is pushed, the push-pull rod 206 may drive the pulley to roll, thereby reducing the wear of the push-pull rod 206 assembly and further improving the service life thereof.

As for the vertical rolling-releasing type heat preservation quilt assembly 3, please refer to fig. 1, which specifically includes a vertical surface heat preservation quilt 303 and a lifting driving device, when lighting is required, the lifting driving device can drive the vertical surface heat preservation quilt 303 to be lifted, and when heat preservation is required, the lifting driving device drives the vertical surface heat preservation quilt 303 to be hung down.

Wherein, lift drive arrangement is including rolling up by rope 302, the serving bar and facade serving motor 301, it is fixed near curtain department to roll up by the indoor top of rope 302 and multi-span greenhouse body 1, the other end twines on the serving bar and fixes, facade serving motor 301 is located multi-span greenhouse body 1's indoor top with the serving bar, facade heat preservation is fixed near curtain department by 303's upper end and multi-span greenhouse body 1's indoor top, the lower extreme is fixed by 304 with rolling up, it is wrapped up by rope 302 and is being put up in the outer of rolling up by 304 and heat preservation by 303. The driving end of the vertical surface rope winding motor 301 is connected with the rope winding bar. The elevation cord-rolling motor 301 drives the cord-rolling bar to rotate so that the rolled cord 302 contracts, the lower end of the elevation heat-preservation quilt 303 can be driven to move upwards, the lower end of the elevation heat-preservation quilt 303 is rolled up under the action of the rolled cord bar 304, and the elevation heat-preservation quilt 303 can hang down under the action of gravity when the cord-rolling bar is rotated reversely so that the rolled cord 302 extends.

The embodiment of the utility model provides another lifting driving device still provides, please refer to fig. 3, specifically include climbing formula quilt rolling machine 305 and the pole 306 that climbs that sets up vertically, climbing formula quilt rolling machine 305 reciprocates and connects on climbing pole 306, facade heat preservation is fixed by upper end of 303 and the indoor top of multi-span greenhouse body 1 near the curtain, the lower extreme is fixed by thick stick 304 with rolling, roll by thick stick 304 and connect on climbing formula quilt rolling machine 305, when climbing formula quilt rolling machine 305 shifts up, and drive roll by thick stick 304 and rotate, can roll up facade heat preservation by 303; when the climbing quilt rolling machine 305 moves downwards and drives the quilt rolling bar 304 to rotate reversely, the vertical quilt 303 can be hung down.

In addition to the two lifting driving devices, the lifting device can also be of a structure which specifically comprises a support arm type quilt rolling machine and a support arm arranged obliquely, wherein the support arm type quilt rolling machine is connected to the support arm in a vertically moving mode, the upper end of a vertical surface heat preservation quilt is fixed to the indoor top of the multi-span greenhouse body 1 close to a curtain wall, the lower end of the vertical surface heat preservation quilt is fixed to a quilt rolling rod 304, the quilt rolling rod 304 is connected to the support arm type quilt rolling machine, the support arm type quilt rolling machine is used for driving the quilt rolling rod to rotate, and specifically, when the support arm type quilt rolling machine moves upwards and drives the quilt rolling rod 304 to rotate, the vertical surface heat preservation quilt 303 can be rolled up; when the arm type quilt rolling machine moves downwards and drives the quilt rolling bar to rotate reversely, the vertical surface heat preservation quilt 303 can be hung down.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The above is a detailed introduction to the internal heat-preservation and energy-saving structure of the multi-span greenhouse provided by the utility model. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. The internal heat-insulation energy-saving structure of the multi-span greenhouse comprises a multi-span greenhouse body (1) and is characterized in that a plurality of layers of horizontal telescopic heat-insulation quilt assemblies (2) are arranged at the indoor top of the multi-span greenhouse body (1), and vertical rolling-up type heat-insulation quilt assemblies (3) are arranged on the inner side of a lighting curtain wall of the multi-span greenhouse body (1).

2. The internal insulation energy-saving structure of the multi-span greenhouse of claim 1, wherein the horizontal telescopic insulation quilt assembly (2) comprises a horizontal insulation quilt (201) and a horizontal driving device, the fixed end of the horizontal insulation quilt (201) is connected to the indoor top of the multi-span greenhouse body (1), the movable end of the horizontal insulation quilt (201) is connected with the horizontal driving device, and the horizontal driving device is used for driving the horizontal insulation quilt (201) to be stretched and contracted on the indoor top of the multi-span greenhouse body (1).

3. The internal insulation energy-saving structure of the multi-span greenhouse of claim 2, wherein the horizontal driving means comprises a horizontal tonneau motor (202), a driving gear (203) and a rack (204), one end of the rack (204) is connected with the movable end of the horizontal insulation quilt (201), the driving gear (203) is engaged with the rack (204), and the horizontal tonneau motor (202) is rotated by the driving gear (203) fixed on a transmission shaft, thereby driving the rack (204) to move horizontally.

4. The internal insulation energy-saving structure of the multi-span greenhouse of claim 3, wherein the horizontal driving device further comprises a push-pull rod (206), the rack (204) is connected with the push-pull rod (206), and the movable end of the horizontal insulation quilt (201) is connected with the push-pull rod (206).

5. The internal insulation energy-saving structure of the multi-span greenhouse of claim 4, wherein the indoor top of the multi-span greenhouse body (1) is provided with a pulley assembly (205) for the push-pull rod (206) to slide.

6. The internal insulation energy-saving structure of the multi-span greenhouse of claim 5, which comprises a plurality of horizontal insulation quilts (201) laid in a flat manner, wherein the movable end of each horizontal insulation quilt (201) is connected with the push-pull rod (206).

7. The internal insulation energy-saving structure of the multi-span greenhouse of any one of claims 1 to 6, wherein the vertical roll-off quilt assembly (3) comprises a vertical face insulation quilt (303) and a lifting driving device for driving the vertical face insulation quilt (303) to be lifted or hung down.

8. The internal insulation energy-saving structure of the multi-span greenhouse of claim 7, wherein the lifting driving device comprises a roll-up rope (302), a vertical face roll-up rope motor (301) and a roll-up rope lever, one end of the roll-up rope (302) is fixed with the indoor top of the multi-span greenhouse body (1) near the curtain wall, the other end is wound on the roll-up rope lever and fixed, the vertical face roll-up rope motor (301) and the roll-up rope lever are positioned at the indoor top of the multi-span greenhouse body (1), the upper end of the vertical face insulation quilt (303) is fixed with the indoor top of the multi-span greenhouse body (1) near the curtain wall, the lower end is fixed with a roll-up lever (304), the roll is wrapped on the roll-up lever (304) and the outer layer of the vertical face insulation quilt (303) by the rope (302), the roll-up rope motor (301) is used for driving the roll-up rope lever to rotate so as to control the roll-up and down of the roll-up rope (302), thereby driving the quilt rolling bar (304) to rotate, and rolling up or putting down the vertical surface heat preservation quilt (303).

9. The internal insulation energy-saving structure of the multi-span greenhouse of claim 7, wherein the lifting driving device comprises a climbing quilt rolling machine (305) and a vertically arranged climbing rod (306), the climbing quilt rolling machine (305) is connected to the climbing rod (306) in a vertical moving manner, the upper end of the vertical face insulation quilt (303) is fixed to the indoor top of the multi-span greenhouse body (1) close to a curtain wall, the lower end of the vertical face insulation quilt is fixed to a quilt rolling rod (304), the quilt rolling rod (304) is connected to the climbing quilt rolling machine (305), and the climbing quilt rolling machine (305) is used for driving the quilt rolling rod (304) to rotate.

10. The internal insulation energy-saving structure of the multi-span greenhouse of claim 7, wherein the lifting driving device comprises a support arm type quilt rolling machine and an obliquely arranged support arm, the support arm type quilt rolling machine is connected to the support arm in an up-and-down manner, the vertical surface insulation quilt (303) is fixed to the indoor top of the multi-span greenhouse body (1) close to the curtain wall at the upper end, is fixed to the roll bar (304) at the lower end, the roll bar (304) is connected to the support arm type quilt rolling machine, and the support arm type quilt rolling machine is used for driving the roll bar (304) to rotate.

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