RU149460U1 - FRAME FOR GREENHOUSE OR GREENHOUSE - Google Patents

Abstract

1. A frame for a greenhouse or greenhouse containing frame arcs, horizontal longitudinal connections between them, at least two frame arc amplifiers, at least one facade cross member, at least one door unit, while the frame provides for the connection of the above-mentioned load-bearing elements to each other, and all the supporting elements of the frame are made of a profile pipe, characterized in that each frame arc consists of two half arcs joined together so that the value of the angle formed by the sides of the roof of the greenhouse or greenhouse, n hoditsya in the range 75-105 °; at the same time, on each of the half-arcs of each wireframe arc one radius of curvature is formed, and the other sections of the half-arcs are straight. 2. The frame according to claim 1, characterized in that a transparent or translucent coating is attached to it. The frame according to claim 2, characterized in that the transparent or translucent coating is made of a polymeric material, for example, polyethylene or cellular polycarbonate. The frame according to claim 2, characterized in that the coating is completely or partially impermeable to ultraviolet radiation. The frame according to any one of claims 1 to 4, characterized in that the length of the frame arc is 0.94-1.00 of the length of the standard sheet of material used to cover the greenhouse or greenhouse. 6. The frame according to any one of claims 1 to 4, characterized in that each amplifier of the frame arc is made in the form of a rectilinear or curved section of a profile pipe connecting two sections of the corresponding frame arc. The frame according to claim 5, characterized in that each amplifier of the frame arc is made in the form of a rectilinear or curved section of a profile pipe connecting two sections�

Description

FIELD OF TECHNOLOGY TO WHICH A USEFUL MODEL IS

The utility model relates to cultivation facilities used in crop production. More specifically, the proposed technical solution relates to greenhouses, greenhouses and other similar structures, which are designed to create a protected ground when breeding vegetables, fruits, berries, flowers and other plant organisms.

BACKGROUND

A significant part of the territory of the Russian Federation (RF) is located in the risky farming zone, that is, in the climatic zone with relatively harsh winters and short, not always warm summers. This limits the ability to grow plants in open ground.

Depending on the technical device and the degree of creation of favorable climatic conditions, protected soil is divided into insulated soil, greenhouses and greenhouses. Greenhouses are usually called frame constructions heated by natural sources (for example, the sun or biofuels) for growing seedlings up to the stage of planting them in open ground. To greenhouses include artificially heated frame structures in which a longer growth of plants is carried out, starting from planting seeds or seedlings and ending with harvesting. Thus, the difference between the terms "greenhouse" and "greenhouse" is actually reduced to the presence of natural or artificial heating in the cultivation building.

However, there are other points of view that allow a mixture of the concepts of a greenhouse and a greenhouse, their full or incomplete synonymy. Without delving into the essence of this discussion, it should be noted that both greenhouses and greenhouses are frame structures, while the frames for them are identical from a technical point of view. Therefore, hereinafter, greenhouses, greenhouses and other similar structures will be collectively referred to as greenhouses.

A significant number of greenhouses are known in the art. In the production of greenhouses, their material consumption and reliability are essential.

A greenhouse is known by the RF patent for utility model No. 117257 (Zelenetsky A.V. Greenhouse. // RF patent for utility model No. 117257.- Prior. 08.26.2011.- IPC A01G 9 / 14.- Publish. 27.06.2012). This greenhouse, which is the prototype of the proposed technical solution, contains a frame that has a set of arches connected by a set of horizontal longitudinal ties, a rectangular door frame pivotally attached to the frame, a set of connecting nodes for joining the frame elements, as well as a translucent coating with a set of fixing nodes for mounting her parts to the frame. Moreover, all the elements of the frame and door frame are made of a hollow metal profile pipe of rectangular cross section. In addition, in this greenhouse there are amplifiers of frame arcs formed by a rectilinear section of a hollow metal profile pipe of rectangular cross section, connected by ends to a section of a frame arc. This greenhouse has positively established itself as a reliable technical device. However, it has drawbacks associated with the complexity of manufacturing frame arcs, the possibility of deflection of the roof under snow pressure in the winter season (especially in those regions of the Russian Federation in which the thickness of the snow cover is significant, for example, in Siberia), and also with a relatively high material consumption.

DISCLOSURE OF A USEFUL MODEL

Utility Model Technical Results

To eliminate the above disadvantages, a real utility model has been developed. The technical results of the proposed technical solution are: 1) the ease of manufacturing of frame arcs, 2) giving the roof additional stability with respect to snow pressure in the winter season and 3) reducing material consumption.

The first technical result is achieved by the fact that a) each frame arc of the greenhouse consists of two half arcs (right and left), joined together in the upper part. Moreover, the manufacture of separate half-arcs is a simpler operation than the manufacture of a solid frame arc, which is offered in similar solutions. Indeed, the half-arcs are smaller, and the sections of the profile pipe used for their manufacture are easier to process, in particular, they require less space when performing molding operations. Besides; b) on each of the half-arcs of each frame arc, only one radius of curvature is locally formed, and the other sections of the half-arc are straight. As a result, the formation of half arcs for one frame is a simpler operation than in the case of a different curvature. Indeed, it is technologically much easier to form a predetermined curvature of a known radius at a specific point in a profile pipe than to bend the entire wireframe in a certain way (even minor errors in the curvature of the wireframe arc can lead to inconsistency of the frame elements when assembling a greenhouse or greenhouse).

The second claimed technical result is achieved by giving the roof of the greenhouse or greenhouse an angular shape, while the angle formed by the two sides of the roof is in the range from 75 to 105 degrees inclusive, most preferably 90 degrees. At these angle values, snow tends to roll down without staying on the roof. With a significant thickness of the snow cover, when the greenhouse or the greenhouse is completely under the snow, the snow exerts less pressure on the roof due to its geometric properties in comparison with a flat or rounded roof.

The third technical result is achieved a) by joining each frame arc of two half-arcs (right and left), as a result of which for the manufacture of the frame, arc sections of the profile pipe are required that have a shorter length, which are cheaper in manufacturing, transportation, storage and production, which reduces material consumption of the frame. An additional aspect of reducing the material consumption of the greenhouse in one of the particular cases of implementing the utility model is the fact that b) the length of each frame arc is optimized with respect to the length of the standard sheet of material used to cover the greenhouse or greenhouse. As a result, the coating material is used rationally, with minimal or no waste.

Utility Model Essence

A frame for a greenhouse or greenhouse is proposed, comprising frame arcs, horizontal longitudinal connections between them, at least two frame arc amplifiers, at least one facade cross member, and at least one door unit. In this case, the framework provides for the connection of the above supporting elements to each other, and all the supporting elements of the frame are made of a profile pipe. The proposed frame is characterized in that each frame arc consists of two half arcs joined together so that the angle formed by the sides of the roof of the greenhouse or greenhouse is in the range of 75-105 degrees. At the same time, on each of the half-arcs of each wireframe arc one radius of curvature is formed, and the other sections of the half-arcs are straight. In one particular case of a utility model, the frame for a greenhouse or greenhouse is characterized in that the length of the frame shower is 0.94-1.00 of the length of a standard sheet of material used to cover the greenhouse or greenhouse.

BRIEF DESCRIPTION OF THE DRAWINGS

In FIG. 1 shows the proposed frame of a greenhouse or greenhouse, front view (front facade). Separately shown is the joint of the frame half arcs. Elements of this figure are as follows:

1 - wireframe arc;

1a - frame half-arc left;

1b - frame half-arc right;

2 - amplifier wireframe arc;

3 - door block mounted on the facade of the greenhouse;

4 - cross member of the facade;

5 - connecting nodes;

6 - plot rounding frame half-arc.

In FIG. 2 presents the proposed frame of a greenhouse or greenhouse in three dimensions, where:

7 - longitudinal bonds (stringers),

and the remaining elements are numbered as shown above.

IMPLEMENTATION OF A USEFUL MODEL

A useful model is as follows.

The proposed frame of a greenhouse or greenhouse has a front facade surface, a rear facade surface and two side surfaces (two slopes), converging upward in the form of a horizontal rib, or ridge, roof. The frame contains a set of wireframe arcs connected by a set of horizontal longitudinal ties, called stringers. In the frame of a greenhouse or greenhouse there are at least two amplifiers of frame arcs, each of which is made in the form of a straight or curved section of a profile pipe connecting two sections of the corresponding frame arc. In the frame of the greenhouse or greenhouse there is also at least one cross-section of the facade. The crosspiece of the facade is a pipe running along the facade of a greenhouse or greenhouse, usually in the horizontal direction.

Each frame arc of the greenhouse consists of two half arcs (right and left), docked together in the upper part. Moreover, the manufacture of separate half arcs is a simpler operation than the manufacture of a solid frame arc. Indeed, the half-arcs are smaller, and the sections of the profile pipe used for their manufacture are easier to process, in particular, they require less space when performing molding operations. This achieves the technical result in the form of a simplification of the manufacture of frame arcs.

The frame half-arcs are joined together so that the angle formed by the sides of the roof of the greenhouse or greenhouse is in the range from 75 to 105 degrees inclusive, most preferably 90 degrees. Thus, the roof of the greenhouse or greenhouse is given an angular shape. With these values of the angle, snow tends to roll down from the roof without remaining on the roof. With a significant thickness of the snow cover, when the greenhouse or the greenhouse is completely under the snow, snow in any case exerts less pressure on the roof due to its geometric properties in comparison with a flat or rounded roof. This achieves the claimed technical result in the form of giving the roof additional stability with respect to snow pressure in the winter season.

Moreover, on each of the half arcs of each wireframe arc one radius of curvature is formed, and the other sections of the half arc are straight. As a result of this feature, the formation of half-arches for one frame of a greenhouse or greenhouse is a simpler operation than in the case of any other curvature on the half-arc. Indeed, it is technologically much easier to form a predetermined curvature of a known radius at a particular point in a profile pipe than to bend the entire frame arc in a certain way. It is known that in the manufacture of a frame arc, even insignificant errors in its curvature can lead to a mismatch of frame elements when assembling a greenhouse or greenhouse.

A polymer coating is attached to the proposed greenhouse or greenhouse frame. This coating may be optically transparent or translucent. The sheet coating can be made of cellular polycarbonate, polyethylene or any other similar material. The use of cellular polycarbonate allows you to achieve high coating strength and durability of the greenhouse or greenhouse at affordable cost. In order to protect cultivated plants from ultraviolet (UV) radiation when assembling a greenhouse or greenhouse, sheets of a polymer coating that do not allow UV radiation to enter the greenhouse or greenhouse can be used. In particular, a layer can be applied to the polymer coating to prevent the penetration of UV radiation.

The length of the frame arc is 0.94-1.00 of the length of the standard sheet of material used to cover the greenhouse or greenhouse. This is necessary in order for the polymer material to bend around each frame arc from the beginning to the end, or even slightly out of the frame, when abutting a greenhouse or greenhouse, abutting in the ground to provide better thermal insulation. Moreover, the length of the frame arc is understood to be its nonlinear length, i.e. the length of the curve defining the nonlinear extent of the wireframe arc.

A door block consisting of a frame and a door suspended from it is fixed on each facade surface or on any of them. On a facade with a door block, the facade cross member consists of two pipes running to the right and left of the door. The cross member of the facade strengthens the frame and secures the door unit to the frame of the greenhouse or greenhouse.

The door unit can also be located on the side surface of a greenhouse or greenhouse. In this case, one or more horizontal longitudinal bonds adjoin the door block and are fixed to it.

The proposed frame provides a connection of the supporting elements of the frame to each other, which is carried out by any of the following or any combination of the following: a) one-piece welding connection, b) one-piece adhesive connection, c) another one-piece connection, d) detachable connection by inserting a pipe of a smaller diameter into a pipe of a larger diameter and fixation with a fastener, e) another detachable connection.

In particular, each frame arc amplifier is connected to the corresponding frame arc by any of the following or any combination of the following: a) one-piece welding connection, b) one-piece adhesive connection, c) another one-piece connection, d) detachable connection by inserting a pipe of a smaller diameter into a pipe of a larger diameter and fixing with a fastener, e) another detachable connection. At the same time, the use of a welding joint allows to simplify installation and increase the strength of the frame of a greenhouse or greenhouse.

All the supporting elements of the frame and the door frame are made of a profile pipe of rectangular, square, triangular or other cross-sectional profile. This profile pipe, as a rule, is hollow, however, manufacturing options for the frame from incomplete formations are possible. The profile pipe, from which the supporting elements of the frame and the door frame are made, can be made of metal or other material with the necessary strength characteristics. Particular cases of the manufacture of a profile pipe include its manufacture from steel, galvanized steel, polymer coated steel, polymer coated galvanized steel, another metal, another polymer coated metal.

In the event that the frame of the greenhouse or greenhouse is made of a hollow profile pipe, then this pipe can be made in such a way that it will a) have a weld or b) will not have this weld. In the presence of a weld, this seam may be continuous or non-continuous.

In the proposed frame may be provided with one window or more windows. In this case, the window can be made in any of the following ways: a) the window is located in the door, b) the window is located above the door, c) the window is located in the side wall of the greenhouse or greenhouse.

To fix the window in the open or half-open position, a latch may be provided. The same lock may be provided for fixing the door in an open or half-open position.

On horizontal longitudinal ties (stringers) of the proposed frame of the greenhouse or greenhouse, fixed or removable hooks or other similar elements for tying cultivated plants can be provided. At least one latch can be installed on the supporting elements of the frame for mounting the lighting device.

For reliability of fastening to the ground, the frame of a greenhouse or greenhouse is connected to the foundation.

The technical result in the form of reducing material consumption is achieved by the fact that each frame arc is not solid, but consists of two half arcs, as a result of which sections of the profile pipe having a shorter length, which are cheaper to manufacture, transport, store during production, are required for the manufacture of the frame arc. which reduces the material consumption of the frame. An additional aspect of reducing the material consumption of the greenhouse in one of the particular cases of implementing the utility model is the fact that the length of each frame arc is optimized with respect to the length of the standard sheet of material used to cover the greenhouse or greenhouse in the form of the above ratio of 0.94-1.00 (ratio the length of the frame arc to the length of the standard sheet of material used to cover the greenhouse or greenhouse). As a result, the coating material is used rationally, with minimal or no waste.

The device operates as follows. The frame arcs 1 support a coating of a polymeric material, in particular of cellular polycarbonate (not shown). Longitudinal bonds 7 provide the rigidity of the frame in the horizontal direction. The door unit 3 when installing a polymer sheet on it allows you to isolate the end part of the greenhouse or greenhouse. The cross member of the facade 4 additionally fixes the door block to the frame. The connecting nodes 5 provide the connection of the frame elements. The amplifiers of the frame arcs 2 increase the rigidity of the frame of the greenhouse or the greenhouse relative to mechanical stresses directed along the vertical axis, for example, snow pressure. The rounding off section of the frame half-arc 6 provides for giving the frame of the greenhouse or greenhouse a characteristic shape and forming the necessary interior space of the greenhouse or greenhouse.

The utility model can be applied in the production of greenhouse frames, greenhouses or other cultivation structures.

Any of the provisions (including those qualifying as features of the proposed utility model) given in any of the following: in the description section "The technical field to which the utility model belongs", in the description section "Disclosure of the utility model", in the description section "Implementation of the utility model ", in the abstract - can be and if necessary will be included in the formula of this utility model. The last sentence should be regarded as an indication of the need to include in the formula of the utility model the features of the utility model given in the listed sections of the description and in the abstract.

Claims (34)

1. A frame for a greenhouse or greenhouse containing frame arcs, horizontal longitudinal connections between them, at least two frame arc amplifiers, at least one facade cross member, at least one door unit, while the frame provides for the connection of the above-mentioned load-bearing elements to each other, and all the supporting elements of the frame are made of a profile pipe, characterized in that each frame arc consists of two half arcs joined together so that the value of the angle formed by the sides of the roof of the greenhouse or greenhouse, n hoditsya in the range 75-105 °; moreover, on each of the half arcs of each wireframe arc one radius of curvature is formed, and the other sections of the half arcs are straight. 2. The frame according to claim 1, characterized in that a transparent or translucent coating is attached to it. 3. The frame according to claim 2, characterized in that the transparent or translucent coating is made of a polymeric material, for example, polyethylene or cellular polycarbonate. 4. The frame according to claim 2, characterized in that the coating is completely or partially impermeable to ultraviolet radiation. 5. The frame according to any one of claims 1 to 4, characterized in that the length of the frame arc is 0.94-1.00 of the length of the standard sheet of material used to cover the greenhouse or greenhouse. 6. The frame according to any one of claims 1 to 4, characterized in that each amplifier of the frame arc is made in the form of a rectilinear or curved section of the profile pipe connecting two sections of the corresponding frame arc. 7. The frame according to claim 5, characterized in that each amplifier of the frame arc is made in the form of a rectilinear or curved section of the profile pipe connecting two sections of the corresponding frame arc. 8. The frame according to any one of claims 1 to 4, 7, characterized in that the connection of the supporting elements of the frame to each other is carried out by any of the following or any combination of the following: a) one-piece welding joint, b) one-piece adhesive joint, c) detachable connections by inserting a pipe of a smaller diameter into a pipe of a larger diameter and fixing with a fastener. 9. The frame according to claim 5, characterized in that the connection of the supporting elements of the frame to each other is carried out by any of the following or any combination of the following: a) one-piece welding joint, b) one-piece adhesive joint, c) a removable joint by inserting a pipe of a smaller diameter into a pipe of a larger diameter and fixation with a fastener. 10. The frame according to claim 6, characterized in that the connection of the supporting elements of the frame to each other is carried out by any of the following or any combination of the following: a) one-piece welding joint, b) one-piece adhesive joint, c) a removable joint by inserting a pipe of a smaller diameter into a pipe of a larger diameter and fixation with a fastener. 11. The frame according to any one of claims 1 to 4, 7, 9, 10, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made has any of the following cross-sectional profiles: a) rectangular, b) square , c) triangular. 12. The frame according to claim 5, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made has any of the following cross-sectional profiles: a) rectangular, b) square, c) triangular. 13. The frame according to claim 6, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made has any of the following cross-sectional profiles: a) rectangular, b) square, c) triangular. 14. The frame according to claim 8, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made has any of the following cross-sectional profiles: a) rectangular, b) square, c) triangular. 15. The frame according to any one of claims 1 to 4, 7, 9-10, 12-14, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made is a) hollow, b) solid. 16. The frame according to claim 5, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made is a) hollow, b) solid. 17. The frame according to claim 6, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made is a) hollow, b) solid. 18. The frame according to claim 11, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made is a) hollow, b) solid. 19. The frame according to clause 15, wherein the hollow profile pipe, from which the supporting elements of the frame and the door frame are made, does not have a weld or has a weld, which can be solid or non-continuous. 20. The frame according to any one of paragraphs.16-18, characterized in that the hollow profile pipe, from which the supporting elements of the frame and the door frame are made, does not have a weld or has a weld, which can be solid or non-continuous. 21. The frame according to any one of claims 1 to 4, 7, 9-10, 12-14, 16-19, characterized in that the profile pipe, from which the supporting elements of the frame and the door frame are made, is made: a) of metal, b) from steel, c) from galvanized steel, d) from steel with a polymer coating, e) from galvanized steel with a polymer coating. 22. The frame according to claim 5, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made is made: a) of metal, b) of steel, c) of galvanized steel, d) of steel with a polymer coating , e) of galvanized steel with a polymer coating. 23. The frame according to claim 6, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made is made: a) of metal, b) of steel, c) of galvanized steel, d) of steel with a polymer coating , e) of galvanized steel with a polymer coating. 24. The frame according to claim 8, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made is made: a) of metal, b) of steel, c) of galvanized steel, d) of steel with a polymer coating , e) of galvanized steel with a polymer coating. 25. The frame according to claim 11, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made is made: a) of metal, b) of steel, c) of galvanized steel, d) of steel with a polymer coating , e) of galvanized steel with a polymer coating. 26. The frame according to claim 15, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made is made: a) of metal, b) of steel, c) of galvanized steel, d) of steel with a polymer coating , e) of galvanized steel with a polymer coating. 27. The frame according to claim 20, characterized in that the profile pipe from which the supporting elements of the frame and the door frame are made is made: a) of metal, b) of steel, c) of galvanized steel, d) of steel with a polymer coating , e) of galvanized steel with a polymer coating. 28. The frame according to claim 1, characterized in that at least one window is provided in the frame. 29. The frame according to p. 28, characterized in that the window is made in any of the following ways: a) the window is located in the door, b) the window is above the door, c) the window is located in the side wall of the greenhouse. 30. The frame according to any one of paragraphs.28-29, characterized in that for fixing the window in the open or half-open position, a latch is provided. 31. The frame according to claim 1, characterized in that the horizontal longitudinal ties are provided with fixed or removable hooks or other similar elements for tying cultivated plants. 32. The frame according to any one of claims 1 to 4, 7, 9-10, 12-14, 16-19, 22-29, 31, characterized in that a latch is provided for fixing the door in the open or half-open position. 33. The frame according to any one of claims 1 to 4, 7, 9-10, 12-14, 16-19, 22-29, 31, characterized in that at least one of the supporting elements of the frame has a latch for attaching the lighting instrument. 34. The frame according to any one of claims 1 to 4, 7, 9-10, 12-14, 16-19, 22-29, 31, characterized in that the frame of the greenhouse is connected to the foundation.

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