CN215122531U - Windproof greenhouse - Google Patents

Abstract

The embodiment of the utility model provides a prevent wind big-arch shelter, including support and big-arch shelter membrane. The support includes first support frame, second support frame and educates seedling tray loading board, and first support frame is relative with the second support frame, educates seedling tray loading board and connects between first support frame and second support frame, does not enclose between first support frame and the second support frame and closes so that the air current flows between first support frame and second support frame. The greenhouse film is arranged on the top of the support. The embodiment of the utility model provides a prevent wind big-arch shelter does not enclose between first support frame and the second support frame and closes for the air current flows between first support frame and second support frame, has realized the smooth and easy circulation of air current, has improved the anti-wind performance of preventing wind big-arch shelter.

Description

Windproof greenhouse

Technical Field

The utility model relates to a big-arch shelter technical field particularly, relates to a prevent wind big-arch shelter.

Background

The greenhouse vegetable planting technology is a common technology in the field of agricultural production, and needs to be assisted by an agricultural greenhouse, the agricultural greenhouse has good heat insulation performance, and people can eat out-of-season vegetables and fruits due to the appearance of the greenhouse vegetable planting technology.

Current green house is blown down easily by wind when meetting strong wind weather, causes economic loss to the planting personnel.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the utility model is to provide a prevent wind big-arch shelter to solve above-mentioned problem. The embodiment of the utility model provides an above-mentioned purpose is realized through following technical scheme.

The embodiment of the utility model provides a prevent wind big-arch shelter, including support and big-arch shelter membrane. The support includes first support frame, second support frame and educates seedling tray loading board, and first support frame is relative with the second support frame, educates seedling tray loading board and connects between first support frame and second support frame, does not enclose between first support frame and the second support frame and closes so that the air current flows between first support frame and second support frame. The greenhouse film is arranged on the top of the support.

In one embodiment, the first support frame is provided with a first air vent, the second support frame is provided with a second air vent, and the first air vent corresponds to the second air vent.

In one embodiment, the rack further comprises a receiving portion, the greenhouse film is made of flexible materials, and the receiving portion is used for receiving the greenhouse film.

In one embodiment, the support further comprises a top plate, the top plate is connected between the first support frame and the second support frame, the top plate and the seedling tray bearing plate are spaced from each other, and the first support frame, the second support frame and the top plate are enclosed to form an accommodating portion.

In one embodiment, the support further comprises a stopper frame connected between the top plate and the nursery site loading plate.

In one embodiment, the nursery site loading plate is provided with a hollowed-out portion.

In one embodiment, the support is a bed frame of a bunk bed.

In one embodiment, the first support frame comprises a first support rod and a second support rod, the second support frame comprises a third support rod and a fourth support rod, the first support rod and the third support rod are respectively connected to two opposite ends of the seedling tray loading plate, the second support rod and the fourth support rod are respectively connected to two opposite ends of the seedling tray loading plate, and the first support rod, the second support rod, the third support rod and the fourth support rod are telescopic rods.

In one embodiment, the windproof greenhouse further comprises a counterweight block connected to the support to lower the center of gravity of the windproof greenhouse.

In one embodiment, the windproof greenhouse further comprises roller assemblies, and the roller assemblies are connected to the bottom of the first support frame and the bottom of the second support frame.

Compared with the prior art, the embodiment of the utility model provides a prevent wind big-arch shelter does not enclose between first support frame and the second support frame and closes for the air current flows between first support frame and second support frame, has realized the smooth and easy circulation of air current, has improved the wind resistance ability of preventing wind big-arch shelter.

These and other aspects of the invention will be apparent from and elucidated with reference to the embodiments described hereinafter.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural view of a windproof greenhouse provided in the embodiment of the present invention.

Fig. 2 is a schematic structural view of a windproof greenhouse provided in an embodiment of the present invention.

Fig. 3 is a schematic structural view of a windproof greenhouse provided in another embodiment of the present invention.

Detailed Description

In order to facilitate understanding of the embodiments of the present invention, the embodiments of the present invention will be described more fully below with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the embodiments of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1, an embodiment of the present invention provides a windproof greenhouse 10, which includes a support 20 and a greenhouse film 30. The support 20 may be used to place a nursery site. Greenhouse film 30 sets up in the top of support 20, and greenhouse film 30 is used for sheltering from educates seedling tray, can be used for carrying out the sunshade cooling and hide rain etc. to the vegetables of educating seedling tray.

The support 20 comprises a first support frame 21, a second support frame 22 and a seedling tray bearing plate 23, the first support frame 21 is opposite to the second support frame 22, the seedling tray bearing plate 23 is connected between the first support frame 21 and the second support frame 22, and the first support frame 21 and the second support frame 22 are not enclosed so that airflow flows between the first support frame 21 and the second support frame 22, so that smooth circulation of the airflow is realized, and the wind resistance of the windproof greenhouse 10 is improved.

Referring to fig. 1 and 2, the first support frame 21 includes a first support rod 211, a second support rod 212, a first rail 213 and a second rail 214, wherein the first support rod 211 and the second support rod 212 are spaced apart and perpendicular to the bottom surface when in use, the first rail 213 is connected between the first support rod 211 and the second support rod 212, the second rail 214 is spaced apart from the first rail 213, and the second rail 214 is connected between the first support rod 211 and the second support rod 212. The above-mentioned connecting means may be welding.

In this embodiment, the first support bar 211 and the second support bar 212 have the same structure. For example, the first and second support bars 211 and 212 are both of a round bar structure, or both of a square bar structure. In other embodiments, the first support bar 211 and the second support bar 212 may have different structures. In the present embodiment, the lengths of the first and second support bars 211 and 212 are fixed. In one embodiment, the first support bar 211 and the second support bar 212 may also be telescopic bars, so that their respective lengths may be adjusted as needed.

In this embodiment, the first rail 213 includes two cross bars and a plurality of vertical bars connected between the two cross bars, wherein the two cross bars may be connected between the first support bar 211 and the second support bar 212, and the number of the vertical bars may be four. It should be noted that the cross bar refers to a bar which is horizontally arranged when in use, the vertical bar refers to a bar which is vertically arranged when in use, wherein the extending direction of the vertical bar may be the same as the extending direction of the first support bar 211 or the second support bar 212, and the structure of the second rail 214 may be the same as the structure of the first rail 213. In other embodiments, the first rail 213 and the second rail 214 may each be comprised of a single cross-bar.

The first support frame 21 is provided with a first air penetration hole 215, and the first air penetration hole 215 is used for penetrating air. The first ventilation opening 215 may be defined by the first support bar 211, the second support bar 212, the first rail 213, and the second rail 214.

Referring to fig. 1 and 2, the second supporting frame 22 includes a third supporting bar 221, a fourth supporting bar 222, a third rail 223 and a fourth rail 224, wherein the third supporting bar 221 is spaced from the fourth supporting bar 222, the third rail 223 is connected between the third supporting bar 221 and the fourth supporting bar 222, the fourth rail 224 is spaced from the third rail 223, and the fourth rail 224 is connected between the third supporting bar 221 and the fourth supporting bar 222. The above-mentioned connecting means may be welding.

The third support rod 221 and the first support rod 211 are respectively connected to opposite ends of the nursery site loading plate 23, and the direction from the third support rod 221 to the first support rod 211 is substantially the same as the length direction of the nursery site loading plate 23. The fourth support bar 222 and the second support bar 212 are respectively connected to two opposite ends of the nursery site loading plate 23, and the directions of the fourth support bar 222 and the second support bar 212 are substantially the same as the length direction of the nursery site loading plate 23. In the present embodiment, the third support bar 221 and the fourth support bar 222 have the same structure, and may have the same structure as the first support bar 211 or the second support bar 212. The lengths of the third support bar 221 and the fourth support bar 222 are fixed. In one embodiment, the third support bar 221 and the fourth support bar 222 may also be telescopic bars, so that their respective lengths may be adjusted as needed. First bracing piece 211, second bracing piece 212, third bracing piece 221 and fourth bracing piece 222 are the telescopic link, when running into strong wind weather, can reduce the whole height of support 20 through the length that reduces the telescopic link to reduce the center of support 20, promote the wind resistance ability of preventing wind big-arch shelter 10. When ground humidity is great, can increase the height of educating seedling tray loading board 23 apart from ground through the length that increases the telescopic link to reduce the influence of ground humidity to educating the matrix humidity in the seedling tray.

In this embodiment, the third rail 223 and the fourth rail 224 have the same structure, and may have the same structure as the first rail 213 or the second rail 214, for example, the third rail 223 also includes two cross bars and a plurality of vertical bars connected between the two cross bars.

The second support frame 22 is provided with a second ventilation opening 225, and the second ventilation opening 225 is used for ventilation. The second air penetration 225 corresponds to the first air penetration 215, wherein corresponding means that an axis of the second air penetration 225 coincides with an axis of the first air penetration 215. The first air vents 215 correspond to the second air vents 225, so that the air flow flows into the bracket 20 along the first air vents 215 and can flow out of the second air vents 225, or the air flow flows into the bracket 20 along the second air vents 225 and can flow out of the first air vents 215, that is, the air flow can smoothly flow in the bracket 20 through the first air vents 215 and the second air vents 225, and the wind resistance of the wind-proof greenhouse 10 is improved. The second air-permeable opening 225 is formed by enclosing a third support bar 221, a fourth support bar 222, a third rail 223 and a fourth rail 224.

With continued reference to fig. 1, the nursery site loading plate 23 can be used to load a nursery site, wherein the nursery site can be a commercially available nursery site. The seedling tray can be used for cultivating excellent vegetable seedlings, excellent fruit seedlings or other new crop varieties with high quality, high yield and high stress resistance. The seedling raising tray can be internally provided with a substrate to culture vegetable seedlings, fruit seedlings or saplings of saplings, so that the novel crops with high yield and high stress resistance are carefully selected, the formula of the substrate can be composed of soil, chicken manure and cow manure, the volume ratio of the soil, the chicken manure and the cow manure can be 1:1:1, the substrate utilizes organic fertilizers such as the chicken manure and the cow manure, the environment is purified, and the digestion and utilization of agricultural organic wastes are realized. In this embodiment, the number of the nursery site loading plate 23 may be one. In other embodiments, a plurality of seedling tray bearing plates 23 may be provided to increase the yield of seedlings, and the plurality of seedling tray bearing plates 23 may be provided at intervals in a vertical direction.

Referring to fig. 1 and 2, the nursery site loading plate 23 includes a first connecting rod 231, a second connecting rod 232 and a plurality of loading rods 233, wherein the first connecting rod 231 is connected between the first supporting rod 211 and the third supporting rod 221, and the first connecting rod 231 is a rectangular rod-shaped structure. The second connecting rod 232 is connected between the second supporting rod 212 and the fourth supporting rod 222, and the second connecting rod 232 is a rectangular rod-shaped structure. The plurality of load bearing bars 233 are connected between the first connecting bar 231 and the second connecting bar 232, and the plurality of load bearing bars 233 are arranged at intervals along the length direction of the first connecting bar 231 or the second connecting bar 232.

Educate seedling tray loading board 23 and be equipped with fretwork portion 234, fretwork portion 234 is enclosed by first connecting rod 231, second connecting rod 232 and two adjacent carrier bars 233 and closes and form. When the seedlings in the seedling raising tray are watered and irrigated, redundant water can leak from the hollow part 234, the accumulation of the redundant water in the seedling raising tray is avoided, and rotten roots of the seedlings caused by accumulated water are avoided. In other embodiments, the hollow part 234 can also be a mesh hole provided on the nursery site loading plate 23.

The support 20 further includes a receiving portion 24, the receiving portion 24 is disposed on the top of the first support frame 21 and the second support frame 22, and the receiving portion 24 may be used to receive the greenhouse film 30, for example, when the greenhouse film 30 is not needed to be shielded, the greenhouse film 30 may be lifted and arranged and then placed into the receiving portion 24, and then the greenhouse film 30 is fixed in the receiving portion 24 through a rope or a heavy object, so as to prevent the greenhouse film 30 from being blown off by wind.

The bracket 20 further includes a top plate 25, and the top plate 25 is connected between the first support frame 21 and the second support frame 22. The top plate 25 and the nursery tray carrying plate 23 are spaced apart from each other, for example, in the vertical direction. The top plate 25, the first support frame 21 and the second support frame 22 may enclose to form the receiving portion 24, for example, the first support frame 21 and the second support frame 22 both protrude out of the top plate 25, and the top plate 25, the second rail 214 and the fourth rail 224 enclose to form the receiving portion 24.

The support frame 20 further includes a stopper frame 26, and the stopper frame 26 is connected between the top plate 25 and the nursery site loading plate 23, for example, the stopper frame 26 is connected between the top plate 25 and the first connecting rod 231, wherein the connecting manner may be welding to provide high connecting strength. The stopper frame 26 is used to stop the seedling raising tray on the seedling raising tray loading plate 23 to prevent the seedling raising tray from falling down due to being touched by mistake or being blown by wind.

In this embodiment, the support 20 may be a bed frame of a bunk bed. For example, the bed frame of the discarded double-layer iron bed can be used as the bracket 20, thereby realizing the recycling of discarded articles, having low purchase cost, not only bringing economic benefit to farmers, but also being beneficial to environmental protection. In addition, the surface of the bed frame of the abandoned double-layer iron bed is usually painted and is not easy to rust, and the bed frame of the double-layer iron bed has stable structure and is easy to ventilate, so that the wind resistance is strong, the phenomenon of being blown down by wind is not easy to occur, and the maintenance cost is reduced. The inventor of this application discovers through practice that under the same environment, for general green house, utilize the bedstead of double-deck iron bed to carry out the cultivation of seedling, seedling output can promote more than 30% to the quality is better.

The greenhouse film 30 is arranged between the first support frame 21 and the second support frame 22, and the greenhouse film 30 is used for shielding the seedling tray bearing plate 23. In the present embodiment, the greenhouse film 30 is made of a flexible material, for example, polyethylene or polyvinyl chloride, and the thickness of the greenhouse film 30 may be about 0.1 mm. The greenhouse film 30 shields the seedling tray bearing plate 23, for example, the seedling tray bearing plate 23 can be shielded in all directions, and the seedlings in the seedling tray can be insulated. When the seedlings need to be ventilated, the greenhouse film 30 can be lifted, and the greenhouse film 30 is contained in the containing cavity, so that the seedlings can fully utilize the environmental conditions of natural light, water vapor, temperature and the like, and the growth of the seedlings is facilitated.

Referring to fig. 2, in an embodiment, the wind-proof greenhouse 10 further includes a weight block 40, and the weight block 40 is connected to the support 20 to lower the center of gravity of the wind-proof greenhouse 10 and improve the wind resistance of the wind-proof greenhouse 10. In this embodiment, the counterweight 40 may be disposed at the bottom of the first support frame 21 and the second support frame 22, wherein the disposition may be fixed and connected by binding or the like. In other embodiments, the weight block 40 may be further disposed on the seedling tray bearing plate 23, the weight block 40 may be placed on the seedling tray bearing plate 23, and the weight block 40 may be further fixed to the seedling tray bearing plate 23 through binding or the like.

Referring to fig. 3, the windproof greenhouse 10 further includes roller assemblies 50, and the roller assemblies 50 are connected to the bottoms of the first support frames 21 and the bottoms of the second support frames 22. The roller assembly 50 includes a first roller 51, a second roller 52, a third roller 53 and a fourth roller 54, wherein the first roller 51 is connected to the bottom of the first support bar 211, the second roller 52 is connected to the bottom of the second support bar 212, the third roller 53 is connected to the bottom of the third support bar 221, and the fourth roller 54 is connected to the bottom of the fourth support bar 222. For example, the first roller 51, the second roller 52, the third roller 53, and the fourth roller 54 may each be a brake wheel with a brake structure. Can realize the removal of support 20 through roller components 50, when needs shift the seedling, can loosen the brake structure to promote support 20 and remove to preset position, will educate seedling tray transport to preset position again, reduce the harm that causes the seedling in the handling. When the seedlings do not need to be transferred, the corresponding rollers can be braked by the brake structure, so that the roller assembly 50 is prevented from driving the support 20 to move.

In this embodiment, any two wind-proof greenhouses 10 can be fixedly connected through a connecting member (not shown), wherein the connecting member can be a tie, a hoop, or the like, and it is sufficient to fixedly connect the two wind-proof greenhouses 10. Compared with a single windproof greenhouse 10, the integral structure formed by connecting the windproof greenhouses 10 through the connecting pieces greatly increases the mass and the occupied area, and improves the wind resistance of the windproof greenhouse 10.

To sum up, the embodiment of the utility model provides a prevent wind big-arch shelter 10, educate seedling tray loading board 23 and connect between first support frame 21 and second support frame 22, do not enclose between first support frame 21 and the second support frame 22 and close for the air current flows between first support frame 21 and second support frame 22, the air current can also flow through first ventilation opening 215 of first support frame 21 and second ventilation opening 225 of second support frame 22 in proper order, the smooth and easy circulation of air current has been realized, the wind resistance of preventing wind big-arch shelter 10 has been improved.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a prevent wind big-arch shelter which characterized in that includes:

the seedling tray bearing plate is connected between the first support frame and the second support frame, and the first support frame and the second support frame are not enclosed so that airflow can flow between the first support frame and the second support frame; and

the greenhouse film is arranged on the top of the support.

2. The windproof greenhouse of claim 1, wherein the first support frame is provided with a first air vent, the second support frame is provided with a second air vent, and the first air vent corresponds to the second air vent.

3. The windproof greenhouse of claim 1, wherein the support further comprises a receiving portion, the greenhouse film is made of a flexible material, and the receiving portion is used for receiving the greenhouse film.

4. The windproof greenhouse of claim 3, wherein the support further comprises a top plate, the top plate is connected between the first support frame and the second support frame, the top plate and the seedling tray bearing plate are spaced from each other, and the first support frame, the second support frame and the top plate enclose the accommodating portion.

5. The windproof greenhouse of claim 4, wherein the support further comprises a stop frame connected between the top plate and the nursery site loading plate.

6. The windproof greenhouse of claim 1, wherein the nursery tray carrying plate is provided with a hollowed-out portion.

7. The windproof greenhouse of any one of claims 1 to 6, wherein the support is a bed frame of a bunk bed.

8. The windproof greenhouse according to any one of claims 1 to 6, wherein the first support frame comprises a first support bar and a second support bar, the second support frame comprises a third support bar and a fourth support bar, the first support bar and the third support bar are respectively connected to opposite ends of the nursery site loading plate, the second support bar and the fourth support bar are respectively connected to opposite ends of the nursery site loading plate, and the first support bar, the second support bar, the third support bar and the fourth support bar are telescopic bars.

9. The wind-proof greenhouse of any one of claims 1-6, further comprising a weight block connected to the support to lower the center of gravity of the wind-proof greenhouse.

10. The wind-proof greenhouse of any one of claims 1 to 6, wherein the wind-proof greenhouse further comprises roller assemblies, and the roller assemblies are connected to the bottom of the first support frame and the bottom of the second support frame.

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