RU83383U1 - Dismountable GREENHOUSE - Google Patents

Abstract

1. Collapsible greenhouse containing a support frame with a coating fixed to it, made in series placed one after another and rigidly interconnected by tubular and / or rod arches in such a way that, respectively, between the arches along the frame are placed connecting tubular or rod elements connected with arches mounting nodes. ! 2. A greenhouse according to claim 1, in which a light-moisture-air-permeable non-woven material is used for coating. ! 3. The greenhouse according to claim 1, in which a light-moisture-air-permeable non-woven material based on polypropylene is used. ! 4. The greenhouse according to claim 1, in which in the coating on its lower edges loops or slots are made for additional fixing in the ground. ! 5. The greenhouse according to claim 1, in which notches are made at the ends of the arches fixed in the ground. ! 6. The greenhouse according to claim 1, in which the arches are made up of at least two parts rigidly interconnected, and the ends of the connecting elements and the ends of the components of the arches are fastened in place of each of the joints with a common mounting unit. ! 7. The greenhouse according to claim 1 or 6, in which the common fastening unit is made cross-shaped with the condition that the cross section of all its ends matches the geometric shape and dimensions of the cross section of the composite elements to be connected. ! 8. The greenhouse according to claim 1, in which the arches are arcuate. ! 9. The greenhouse according to claim 1, in which the arches are made in a trapezoidal shape. ! 10. The greenhouse according to claim 1, in which the arches are elliptical in shape. ! 11. The greenhouse according to claim 1, in which the arches are made of a parabolic shape. ! 12. The greenhouse according to claim 1, in which the arches are made of hyperbolic shape.

Description

The utility model relates to the field of agriculture and can be used in the field of gardening, floriculture and other agricultural industries related to growing plants, accelerating their development and the need to shelter them from adverse weather conditions.

A large number of different designs of greenhouses are known, for example, protected by the USSR copyright certificate No. 1702940 A1, bull. No. 1, 01/07/1992, as well as reflected in the information provided on the Internet sites: http://www.perchina.ru/tom.htm, http://www.oma.by/press/news/37.html and http://sad-dacha.narod.ru/opisanie/dach.htm. The closest known analogue is the design of a greenhouse for growing vegetables and herbs in an artificial microclimate, as displayed in the monograph “Greenhouses. Greenhouses ”, CJSC“ ASTV ”, 1998, p. 31. The basis of the design of this greenhouse is a supporting frame under a transparent film, which is made of steel pipes painted to protect against rust. The disadvantage of this design, in particular, is that it has stable dimensions and is not amenable to remounting in order to increase or decrease dimensions.

The task set for implementation when creating this utility model is to improve the well-known greenhouse and develop its collapsible design with the achievement of the technical result, which consists in the fact that the design and supporting frame of the greenhouse provide the ability to easily remount it in order to increase or reduce the size, securely fasten the coating on the frame not only in the transverse, but also in the longitudinal direction, as well as disassemble the greenhouse for easy storage during off-season d.

The specified technical result is achieved by the proposed design of a collapsible greenhouse containing a supporting frame with a coating fixed to it. The supporting frame is made up sequentially placed one after another and rigidly interconnected by tubular and / or rod arches so that between the arches along the frame are placed respectively

tubular or rod elements connected to arches by fixing nodes. Arches can be made up of at least two parts that are rigidly interconnected, and the ends of the connecting elements and the ends of the components of the arches are fastened at each joint with a common mounting unit. In this case, the common fastening unit can be made cross-shaped with the condition that the cross section of all its ends matches the geometric shape and dimensions of the cross section of the composite elements to be connected. The preferred form of arches is arched or trapezoidal. To cover the greenhouse, it is advisable to use a light-moisture-air-permeable non-woven material, for example, based on polypropylene. In the coating of the greenhouse, loops or slots are made on its lower edges for additional fixing in the ground, and notches can be made on the ends of the arches fixed in the ground.

When presenting information confirming the possibility of implementing a utility model and achieving a technical result, it is advisable to describe in more detail the proposed device and its modifications. When describing the product, it is not advisable to dwell in detail on the design features known from published data, as well as its constituent elements.

In detail, it is advisable to dwell only on the distinguishing essential features of the proposed product, which, in particular, are schematically shown in the drawings, where Fig. 1 shows a general view of the greenhouse; figure 2 is a cross section of figure 1; figure 3 is a variant of the greenhouse with arches in the section of a trapezoidal shape; figure 4 - mounting unit for tubular connecting elements; figure 5 - mounting unit for rod connecting elements.

As already noted in the brief description section of the utility model, arches can be made up of two or more parts, and the ends of the connecting elements and the ends of the parts of the arches are fixed at the place of each of the joints with a common mounting unit. The common mounting unit may be made cross-shaped, and the cross section of all its ends must correspond in geometric shape and dimensions to the cross section of the constituent elements that are connected.

Arches can have an arcuate (figure 2), trapezoidal (figure 2), elliptical, parabolic, hyperbolic or other convex geometric shape, which allows them to be expediently divided into constituent elements and the manufacture of a greenhouse of a convex shape, in particular in the form of a hemisphere. Arches of an elliptical, parabolic, hyperbolic or other arbitrary convex shape due to their obviousness and the analogy of figure 2, 3 it is impractical to display on separate drawings

The advantages of a convex greenhouse without concave sections, approaching the hemisphere in their configuration, are the relatively minimum required area of the coating and the best conditions for maintaining heat in it when the external temperature is lowered, since in this case the ratio of the volume of the greenhouse to the area of the coating surface bounding it is maximum.

It is proposed to use a light-moisture-air-permeable non-woven material based on, for example, polypropylene to cover the greenhouse. This modern material meets all the conditions that apply to greenhouse coatings, because it has the necessary set of quality and strength characteristics needed for materials of this purpose.

It is advisable to make loops or slots on the lower edges of the coating for additional fixing in the ground, and notches at the ends of the arches with which they are fixed in the ground.

One of the possible options for the greenhouse, depicted in figure 1, includes a supporting tubular frame 1 with a coating 2, which is mounted on the arches 6 assembled from separate parts 3, 4, 5 (figure 3, figure 4), as well as on the connecting elements 7 (figure 1) placed between the arches 6 along the supporting frame 1. The connecting elements 7 also have a tubular shape with a corresponding section. The tubular parts 3, 4, 5 are connected to the tubular connecting elements 7 by means of fastening nodes 8 (Fig. 4, 5), which have a cross-shaped shape, and the cross section of all their ends 9 corresponds in geometric shape and dimensions to the cross section of the constituent elements 3, 4, 5, 7, which are fastened. In Fig.4 shows a variant of the mounting unit 8 for the constituent elements 3, 4, 5, 7 of a tubular shape, Fig.5 - for a rod-like form. For more reliable fixing of the frame at those ends of the arches 6, with which they are fixed in the ground, notches 10 are made (Fig. 2), and in the lower edges of the coating 2, slots 11 or patch loops are made (Fig. 1). The connecting elements 7 can be placed not only horizontally, but also at an angle relative to the horizon, etc.

The assembly of the greenhouse is as follows. First, you can connect the components 3, 4, 5 of the arch 6 to each other using fastening nodes 8, fix it in the ground, then add the connecting elements 7, attach the second arch 6 to them (pre-assembled), and so on, until it is assembled frame of the required length. On the finished frame fixed in the ground 1, the coating 2 is pulled and its lower edge is fixed with slots 11 or patch loops, throwing them on the pins fixed in the ground (not shown in the drawings). Non woven fabric

for example, polypropylene, which is proposed to be used for coating 2, due to its quality and strength characteristics, not only provides the necessary conditions for the development of plants in the greenhouse, but also makes it possible to securely fix it on the frame, as well as relative to the ground. Having high strength, coating 2, covering the frame 1, adds to it even greater rigidity, strength and reliability.

The design of the greenhouse is easily dismantled in order to reduce or increase the size, or in connection with the end of the growing season. Structural elements can be folded compactly into storage without taking up much space.

Thus, as can be seen from the above, the combination of the claimed essential features ensures the achievement of the indicated technical result in the proposed design, namely: the support frame of the greenhouse can be remounted in simple ways in order to increase or decrease its size, and securely fix the coating on the frame not only in the transverse but also in the longitudinal direction. As an additional useful technical result achieved, it should be noted that the very shape of the constituent elements of the arches 6, which make up the frame 1, allows for their convenient storage when folded during the off-season period.

The options of the greenhouse described above and shown in the drawings, which are claimed as a utility model, do not exhaust all the possibilities of modifications of its design within the framework of the claimed utility model formula. The selected design features of the proposed device formed the claimed technical solution, covering all the necessary modifications and varieties of the greenhouse, which also meet the requirements of decorative, artistic and technical aesthetics.

The industrial applicability of the proposed technical solution is determined by the fact that the design of the greenhouse allows it to be mass-produced in the factory using conventional technological equipment and equipment.

The achieved technical result, as shown by the experimental data, can only be realized by an interconnected set of all the essential features of the claimed device, reflected in the formula of the utility model, for any values of design features covered by the claimed claims. The claimed essential features of the greenhouse were formed on the basis of processing the results of experimental studies, analyzing and summarizing them and known from

published data sources that are interconnected by the conditions for achieving the technical result indicated in the application, as well as using creative intuition.

In addition, the greenhouse does not require expensive scarce materials or the use of complex technological processes and specially trained personnel for its production. Tubular and core materials that are used to manufacture the frame of the greenhouse are manufactured in sufficient quantities by industry. Non-woven materials for the manufacture of coatings are also produced by our domestic industry.

Claims (12)

1. Collapsible greenhouse containing a supporting frame with a coating fixed to it, made in series placed one after another and rigidly interconnected by tubular and / or rod arches so that between the arches along the frame placed respectively tubular or rod elements connected with arches mounting nodes. 2. A greenhouse according to claim 1, in which a light-moisture-air-permeable non-woven material is used for coating. 3. The greenhouse according to claim 1, in which a light-moisture-air-permeable non-woven material based on polypropylene is used. 4. The greenhouse according to claim 1, in which in the coating on its lower edges loops or slots are made for additional fixing in the ground. 5. The greenhouse according to claim 1, in which notches are made at the ends of the arches fixed in the ground. 6. The greenhouse according to claim 1, in which the arches are made up of at least two parts rigidly interconnected, and the ends of the connecting elements and the ends of the components of the arches are fastened in place of each of the joints with a common mounting unit. 7. The greenhouse according to claim 1 or 6, in which the common fastening unit is made cross-shaped with the condition that the cross section of all its ends matches the geometric shape and dimensions of the cross section of the composite elements to be connected. 8. The greenhouse according to claim 1, in which the arches are arcuate. 9. The greenhouse according to claim 1, in which the arches are made in a trapezoidal shape. 10. The greenhouse according to claim 1, in which the arches are elliptical in shape. 11. The greenhouse according to claim 1, in which the arches are made of a parabolic shape. 12. The greenhouse according to claim 1, in which the arches are made of hyperbolic shape.