CN210298751U - Rib-free warm-in-winter greenhouse - Google Patents

Abstract

The utility model discloses a boneless warm-in-winter greenhouse, which comprises a plurality of greenhouse body units, wherein an arched greenhouse body is formed by connecting the plurality of greenhouse body units in sequence, and two ends of the greenhouse body are respectively connected with a greenhouse head; the greenhouse body unit comprises an arched inflatable body, the arched inflatable body is provided with an inflation inlet and an exhaust outlet, one-way valves are arranged in the inflation inlet and the exhaust outlet, and the arched inflatable body is arched after being inflated through the inflation inlet; the bottom parts of two sides of the arched inflatable body are respectively fixed with the ground through a fixing mechanism, the fixing mechanism comprises a fixing seat arranged on the ground and fixing strips fixed at the bottom parts of two sides of the arched inflatable body, the fixing strips and the bottom parts of two sides of the arched inflatable body are connected into a whole, and the fixing strips and the fixing seat are connected and fixed through screws; two ends of the arched inflatable body and one end of the shed head close to the shed body are respectively provided with a connecting mechanism. The utility model discloses easily installation, convenient to use has practiced thrift installation time, is favorable to using widely.

Description

Rib-free warm-in-winter greenhouse

Technical Field

The utility model relates to a greenhouse technology, in particular to a boneless warm-in-winter greenhouse.

Background

A greenhouse is a frame-coated structure with excellent heat-insulating properties, which has become a major means of vegetable production. The existing greenhouse usually comprises a rigid framework of a bamboo structure or a steel structure, and a heat-insulating plastic film covers the framework to form a planting space isolated from the outside. However, the existing greenhouse comprises a rigid framework, so that the cost of the whole greenhouse is increased, more manpower and time are spent in the building process, and the invisible cost of a user is increased.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects in the prior art, the utility model aims to provide a boneless warm-in-winter greenhouse, which is easy to install, convenient to use, saves the installation time and is favorable for popularization and application.

The utility model provides a technical scheme that its technical problem adopted does: a frameless winter-warming greenhouse comprises a plurality of greenhouse body units, wherein the plurality of greenhouse body units are sequentially connected to form an arched greenhouse body, and two ends of the greenhouse body are respectively connected with a greenhouse head;

the greenhouse body unit comprises an arched inflatable body, the arched inflatable body is provided with an inflation inlet and an exhaust outlet, and one-way valves are arranged in the inflation inlet and the exhaust outlet, wherein the one-way valve arranged in the inflation inlet is a one-way air inlet valve, the one-way valve arranged in the exhaust outlet is a one-way air outlet valve, and the arched inflatable body is arched after being inflated through the inflation inlet;

the bottom parts of two sides of the arched inflatable body are respectively fixed with the ground through a fixing mechanism, the fixing mechanism comprises a fixing seat arranged on the ground and fixing strips fixed at the bottom parts of two sides of the arched inflatable body, the fixing strips and the bottom parts of two sides of the arched inflatable body are connected into a whole and are fixed with each other through screws;

the both ends of the arch inflation body and the one end that the canopy head is close to the canopy body are equipped with coupling mechanism respectively, coupling mechanism connects two adjacent arches and inflates the body and connect canopy body and canopy head.

Optionally, the arch-shaped inflatable body comprises an inner inflatable body and an outer inflatable body, and the inner inflatable body is connected with the outer inflatable body through an inflatable column in a supporting manner.

Optionally, both ends of the inflatable column are respectively integrated with the inner inflatable body and the outer inflatable body, and both ends of the inflatable column are respectively communicated with the inner inflatable body and the outer inflatable body.

Optionally, the inner inflatable body is connected with the outer edge of the outer inflatable body, and the outer side of the inner inflatable body is communicated with the outer side of the outer inflatable body.

Optionally, an inner door and an outer door are installed on the shed head, the inner door is communicated with the inside of the shed body, and the outer door is communicated with the outside and the inner door.

Optionally, the outer door is oriented perpendicular to the inner door.

Optionally, the connecting mechanism is a zipper.

Optionally, fixed pull ropes are further arranged outside the shed body unit and the shed head, and the fixed pull ropes are inserted and fixed on the ground through fixed blocks.

Adopt above-mentioned technical scheme, the utility model discloses when using, can directly aerify internally to the arch inflation inlet of the body through the arch, when aerifing, seal the gas vent, can prevent that gas from leaking, wait to aerify a plurality of arches inflation body and canopy head and inflate the back of tying, aerify a plurality of arches body again and connect, form the canopy body, be connected to the both ends of canopy body with the canopy head at last, accomplish the installation of whole big-arch shelter. Consequently, through this step, avoided traditional big-arch shelter still need install the trouble of skeleton when buildding, moreover the utility model discloses a mode of a plurality of canopy body units, the combination forms the canopy body, when leakage appears in a certain canopy body unit, only need to maintain to this a canopy body unit or change can, prevent to change whole canopy body and produce loaded down with trivial details step and costly to can reduce the maintenance cost.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the end face structure of the canopy unit of the present invention;

FIG. 3 is a schematic view of the connection of adjacent canopy units of the present invention;

fig. 4 is a schematic structural diagram of the door frame of the present invention.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and are not limiting of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1, the utility model discloses a warm warmhouse booth in winter of boneless formula, this warmhouse booth adopt inflatable mode to install, have abandoned the loaded down with trivial details process that needs the installation skeleton in traditional big-arch shelter for the installation progress of big-arch shelter, practice thrift installation time, convenient to use moreover. The boneless warm-in-winter greenhouse comprises a plurality of greenhouse body units 1, wherein the greenhouse body units 1 form an arched shape after being inflated, and after the plurality of greenhouse body units 1 are inflated, the plurality of greenhouse body units 1 are sequentially connected with one another to form an arched greenhouse body 2, and two ends of the greenhouse body 2 are respectively connected with a greenhouse head 3.

Specifically, as shown in fig. 2, the canopy unit 1 includes an arch-shaped inflatable body 101, the arch-shaped inflatable body 101 is provided with an inflation inlet 102 and an exhaust outlet 103, and one-way valves 4 are respectively disposed in the inflation inlet 102 and the exhaust outlet 103, wherein the one-way valve 4 disposed in the inflation inlet 102 is a one-way air inlet valve, and the one-way valve 4 disposed in the exhaust outlet 103 is a one-way air outlet valve, and the one-way valve 4 is used to limit the flow direction of air during inflation and exhaust to prevent the phenomenon of air backflow.

In this embodiment, as shown in fig. 2, when the arched inflatable body 101 is fixed, the two side bottoms of the arched inflatable body 101 are respectively fixed to the ground through the fixing mechanism 5, wherein the fixing mechanism 5 includes a fixing base 501 disposed on the ground and a fixing strip 502 fixed to the two side bottoms of the arched inflatable body 101, the fixing strip 502 and the two side bottoms of the arched inflatable body 101 are integrally connected, and the fixing strip 502 and the fixing base 501 are connected and fixed through a screw 503. In this embodiment, in order to fixedly connect the arched inflatable body 101 to the fixing bar 502, the skirt portions 104 spaced apart from the inside of the arched inflatable body 101 may be respectively provided at both side bottom portions of the arched inflatable body 101, and the skirt portions 104 may be fixed to the fixing bar 502. In addition, the fixing base 501 is further provided with a groove 504 for bearing the arched inflatable body 101 and the canopy head 3, when the device is installed, the bottoms of the two sides of the inflated arched inflatable body 101 can be placed into the groove 504, and then the skirt pendulum 104 is fixed.

In this embodiment, as shown in fig. 3, two ends of the arched inflatable bodies 101 and one end of the canopy head 3 near the canopy body 2 are respectively provided with a connecting mechanism 6, such as a zipper structure, for connecting two adjacent arched inflatable bodies 101 and connecting the canopy body 2 and the canopy head 3 through the connecting mechanism 6. In this embodiment, in order to ensure the tightness between two adjacent arched inflatable bodies 101 when the zipper structure is adopted, after the zipper structure is connected to two adjacent arched inflatable bodies 101, a layer of film 601 may be laid on the zipper structure to cover the zipper structure.

In this embodiment, in order to improve the inflation efficiency when inflating the arch-shaped inflatable body 101, the arch-shaped inflatable body 101 can be divided into an inner inflatable body 1011 and an outer inflatable body 1012, and the inner inflatable body 1011 and the outer inflatable body 1012 are supported and connected by an inflation column 1013.

Specifically, two ends of the inflation column 1013 are respectively integrally formed with the inner inflation body 1011 and the outer inflation body 1012, and two ends of the inflation column 1013 are respectively communicated with the inner inflation body 1011 and the outer inflation body 1012, so that during inflation, gas can flow from the outer inflation body 1012 to the inner inflation body 1011 through the inflation column 1013, and further, the effect of balancing internal pressure and external pressure is achieved.

In addition, in this embodiment, the inner inflatable body 1011 is connected to the outer edge of the outer inflatable body 1012, and the outer side of the inner inflatable body 1011 is communicated with the outer side of the outer inflatable body 1012, so as to ensure the connectivity between the inner inflatable body 1011 and the outer inflatable body 1012, thereby facilitating the quick inflation during inflation.

In this embodiment, the structure of the canopy head 3 is similar to that of the canopy body unit 1, and an inflatable structure is also adopted, and the difference between the canopy head 3 and the canopy body unit 1 is that a portal 9 is further provided at the end of the canopy head 3 away from the canopy body 2, as shown in fig. 4, the portal 9 is of an inflatable frame structure, and the portal 9 is formed by inflating. In this embodiment, the canopy head 3 is provided with an inner door 301 and an outer door 302, the inner door 301 is communicated with the interior of the canopy body 2, the outer door 302 is communicated with the outside and the inner door 301, and the orientation of the outer door 302 is perpendicular to the orientation of the inner door 301, therefore, the inner door 301 is installed on one side of the canopy 9 close to the canopy body 2, the outer door 302 is installed on two sides of the canopy 9, and the front side and the top of the canopy 9 are respectively provided with the transparent glass 901.

In this embodiment, the canopy body unit 1 and the canopy head 3 are further provided with a fixing pull rope 7, the fixing pull rope 7 is fixed on the ground through the fixing block 8 in an inserting manner, and the fixing mechanism 5 can be assisted through the fixing pull rope 7 and the fixing block 8, so that the whole installation of the greenhouse is firmer and more stable.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be understood by those skilled in the art that the scope of the present invention is not limited to the specific combination of the above-mentioned features, but also covers other embodiments formed by any combination of the above-mentioned features or their equivalents without departing from the spirit of the present invention. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Besides the technical features described in the specification, other technical features are known to those skilled in the art, and further description of the other technical features is omitted here in order to highlight the innovative features of the present invention.

Claims (8)

1. The frameless winter-warming greenhouse is characterized by comprising a plurality of greenhouse body units (1), wherein an arched greenhouse body (2) is formed by sequentially connecting the plurality of greenhouse body units (1), and two ends of the greenhouse body (2) are respectively connected with a greenhouse head (3);

the greenhouse body unit (1) comprises an arched inflatable body (101), the arched inflatable body (101) is provided with an inflation inlet (102) and an exhaust outlet (103), one-way valves (4) are arranged in the inflation inlet (102) and the exhaust outlet (103), the one-way valve (4) arranged in the inflation inlet (102) is a one-way air inlet valve, the one-way valve (4) arranged in the exhaust outlet (103) is a one-way air outlet valve, and the arched inflatable body (101) is arched after being inflated through the inflation inlet (102);

the bottom parts of two sides of the arched inflatable body (101) are respectively fixed with the ground through a fixing mechanism (5), the fixing mechanism (5) comprises a fixing seat (501) arranged on the ground and a fixing strip (502) fixed to the bottom parts of two sides of the arched inflatable body (101), the fixing strip (502) and the bottom parts of two sides of the arched inflatable body (101) are connected into a whole, and the fixing strip (502) and the fixing seat (501) are connected and fixed through a screw (503);

the both ends of body (101) are aerifyd to the arch and one end that canopy head (3) are close to canopy body (2) is equipped with coupling mechanism (6) respectively, adjacent two arches are aerifyd body (101) and are connected canopy body (2) and canopy head (3) are connected in coupling mechanism (6).

2. The frameless winter-warming greenhouse of claim 1, wherein the arched inflatable body (101) comprises an inner inflatable body (1011) and an outer inflatable body (1012), and the inner inflatable body (1011) and the outer inflatable body (1012) are in supporting connection through an inflatable column (1013).

3. The frameless winter-warming greenhouse as claimed in claim 2, wherein the two ends of said inflatable column (1013) are respectively formed integrally with said inner inflatable body (1011) and said outer inflatable body (1012), and the two ends of said inflatable column (1013) are respectively connected to the inner inflatable body (1011) and said outer inflatable body (1012).

4. The frameless winter-warm greenhouse of claim 3, wherein the inner inflatable body (1011) is connected with the outer edge of the outer inflatable body (1012), and the outer side of the inner inflatable body (1011) is communicated with the outer side of the outer inflatable body (1012).

5. The frameless winter-warming greenhouse shed according to claim 4, wherein the shed head (3) is provided with an inner door (301) and an outer door (302), the inner door (301) is communicated with the interior of the shed body (2), and the outer door (302) is communicated with the outside and the inner door (301).

6. The frameless winter warm greenhouse of claim 5, wherein the outer door (302) is oriented perpendicularly to the inner door (301).

7. The frameless winter-warm greenhouse of claim 6, wherein the connecting mechanism (6) is a zipper.

8. The frameless winter-warming greenhouse shed according to claim 7, wherein the shed body unit (1) and the shed head (3) are further provided with fixing pull ropes (7), and the fixing pull ropes (7) are inserted and fixed on the ground through fixing blocks (8).

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