RU171089U1 - GREENHOUSE - Google Patents

Abstract

The utility model relates to the field of agriculture and can be used for growing crops in closed ground. The technical result of the invention is to increase the manufacturability of installation and production, increase reliability and stability. The technical result is achieved in that the greenhouse is collapsible, containing a support frame with a coating fixed to it, made in the form of arches successively placed one after another and interconnected in such a way that longitudinal connecting elements are placed between the arches along the support frame, forming longitudinal connections all arches and fastening nodes connected to arches, each arch consisting of at least one element, arches and longitudinal connecting elements are made of metal profiled silt with a rectangular cross-section, the mounting unit contains at least one fastener (insert) with an external surface corresponding to the inner surface of the metal profile with a rectangular cross-section, one end of which is permanently attached to the frame element, characterized in that the fasteners are integral (for example, by welding ) are attached to the longitudinal connecting elements. The doorway and door located in at least one of the extreme arches can be made of all-metal molecular weight. The longitudinal connecting elements can be made integral, the connecting elements-inserts are located between the ends, and one end of the connecting element-inserts is connected to the adjacent connected end of the arch element by a fixed connection. The lower longitudinal elements may include fasteners located on one side, and two mutually perpendicular fasteners are located in the corner portion, perpendicular to the lower longitudinal element. The upper longitudinal element can be connected to the arches by a screw connection. Fasteners may contain additional screw connections that increase the reliability of the assembled structure. The metal elements of the supporting frame can have a protective polymer coating. A useful model can be successfully used for the production and operation of greenhouses.

Description

The utility model relates to the field of agriculture and can be used for growing crops indoors.

The well-known “ARCH GREENHOUSE FRAME MODULE” MODULE RU 138193 [2], comprising the second and third transverse support elements made of a hollow metal square profile, a direct transverse base element, two straight longitudinal base elements, longitudinal ties, and also fastening elements-liners made of metal profile with dimensions smaller than the said profile, each transverse support element is made of a segment of the corresponding profile by bending it with the formation of two straight supports, per going in the upper part in a semicircular arch, the transverse base element ends are welded to the ends of the first transverse support element, equipped with a door and a window leaf, on the transverse support elements, as well as on the longitudinal elements of the base, fastening elements are fixedly mounted, by means of which they are detachable in type spike-groove "adjacent transverse support elements are interconnected by means of longitudinal ties, and the ends of the transverse support elements are connected with longitudinal direct elements of the base.

The disadvantage of this device is the low strength and reliability of the frame due to the low strength and reliability of the fasteners, including corner.

The closest technical solution is “TEMPLARA collapsible” RU 100699 [1], 1. Collapsible greenhouse containing a supporting frame with a coating attached to it, made in the form of successively placed one after another and interconnected arches in such a way that between the arches, longitudinal connecting elements are placed along the supporting frame, forming longitudinal connections of all arches and connected to the arches by fixing nodes, with each arch consisting of at least one element, arches and longitudinal connecting elements are made of a metal profile with rectangular cross-section, the fastening assembly comprises at least one attachment member insert having one end fixedly attached to the frame element (the outer surface of which corresponds to the inner surface of the abutting element).

The device has increased strength and reliability of the fasteners compared with [2] due to the integral connections of the fastener to the frame elements.

The disadvantage is the high complexity of the assembly, reducing the manufacturability of the assembly, due to the need to hold the longitudinal connecting elements during installation. The disadvantage is the large number of components that reduce the manufacturability of the device. The disadvantage is also the low strength and reliability due to the excessive number of elements of the assembly kit, each of which has limited strength and reliability of a smaller unit.

The technical result of the invention is to increase the manufacturability of installation and production, increase reliability and stability.

The technical result is achieved in that the greenhouse is collapsible, containing a support frame with a coating fixed to it, made in the form of arches successively placed one after another and interconnected in such a way that longitudinal connecting elements are placed between the arches along the support frame, forming longitudinal connections all arches and fastening nodes connected to the arches, with each arch consisting of at least one element, arches and longitudinal connecting elements are made of metal fillet with a rectangular cross-section, the mounting unit contains at least one fastener (insert) with an external surface corresponding to the inner surface of the metal profile with a rectangular cross-section, one end of which is integral to the frame element, characterized in that the fastening elements are integral (for example, by welding ) are attached to the longitudinal connecting elements.

The doorway and the door, located in at least one of the extreme arches, can be welded all-metal. The specified implementation will increase the strength of the facade of the greenhouse and simplify installation.

The longitudinal connecting elements can be made integral, the connecting elements-inserts are located between the ends, and one end of the connecting element-inserts is connected to the adjacent connected end of the arch element by a fixed connection. The specified implementation of the longitudinal elements will simplify the transportation and mount greenhouses of arbitrary length by joining fragments of the longitudinal connecting elements.

The lower longitudinal elements may include fasteners located on one side, and two mutually perpendicular fasteners are located in the corner portion, perpendicular to the lower longitudinal element. The specified implementation will speed up the installation of the greenhouse.

The upper longitudinal element can be connected to the arches by a screw connection. The specified implementation will speed up the installation and increase the strength of the upper part of the greenhouse.

Fasteners may contain additional screw connections that increase the reliability of the assembled structure.

The metal elements of the support frame may have a protective polymer coating, which allows to increase durability.

The device is schematically shown in FIG. 1 (general view), FIG. 2 (device of the lower corner part), FIG. 3 (attachment device to the lower longitudinal connecting element), FIG. 4 (mounting device of the upper longitudinal connecting element), FIG. 5 (attachment device for the longitudinal connecting element), FIG. 6 (set of longitudinal connecting elements),

Where:

1 - lower segments of the arches;

2 - upper segments of arches;

3 - lower longitudinal connecting elements;

4 - central longitudinal connecting element;

5 - upper longitudinal connecting elements;

6 - fasteners;

7 - corner elements of the lower longitudinal connecting elements;

8 - screw connection;

9 - end elements with doors;

10 - additional screw connection.

The device operates as follows: the supporting frame rests on the lower longitudinal connecting elements 3, on one side of which are fastening elements 6 to which the lower ends of the lower segments of the arches 1 are attached. Central longitudinal connecting elements 4 are connected to the upper ends of the lower segments of the arches 1 by connecting fasteners 6, one-piece connected with longitudinal connecting elements. The central longitudinal connecting elements 4 are also connected to the upper segments of the arches 2, for which the fastening elements are arranged in pairs on opposite sides of the element. The upper segments of the arches 2 are connected to the upper longitudinal connecting element 4 by screw connections. To connect to the all-welded end (front) part with the finished doors 9, there are corner elements 7 on the lower longitudinal corner elements. The upper part of the end element 9 is connected to the upper longitudinal connecting element 4 by a screw connection. The fasteners may additionally be secured with a screw connection 10.

The technical result - improving the manufacturability of the installation - is achieved by the absence of the need to hold several elements during the installation of connections.

The technical result - increasing the manufacturability of production - is achieved by reducing the number of connected parts.

The technical result is an increase in reliability and stability - work is achieved by reducing the number of connections, the probability of failure of each of which differs from zero.

Industrial application. The utility model can be successfully used for the production and operation of greenhouses.

Claims (7)

1. A collapsible greenhouse containing a support frame with a coating fixed to it, made in the form of arches successively arranged one after another and interconnected in such a way that longitudinal connecting elements are placed between the arches along the support frame, forming longitudinal connections of all arches and connected with arches fastening nodes, with each arch consisting of at least one element, arches and longitudinal connecting elements are made of a metal profile with a rectangular cross section, Fastening assembly comprises at least one fastening element c outer surface corresponding to the inner surface of the metal profile with rectangular cross-section, one end of which is fixedly attached to the frame member, characterized in that the fastening elements are integrally connected to the longitudinal coupling elements. 2. The greenhouse according to claim 1, characterized in that the doorway and the door located in at least one of the extreme arches are made of welded metal. 3. The greenhouse according to claim 1, characterized in that the longitudinal connecting elements are made integral, the connecting elements-liners are located between the ends, and one end of the connecting element-liner is connected to the adjacent connected end of the arch element fixed connection. 4. The greenhouse according to claim 1, characterized in that the lower longitudinal elements comprise fasteners located on one side, and two mutually perpendicular fasteners perpendicular to the lower longitudinal element are located in the corner part. 5. The greenhouse according to claim 1, characterized in that the upper longitudinal element is connected to the arches by a screw connection. 6. The greenhouse according to claim 1, characterized in that the fasteners contain additional screw connections. 7. The greenhouse according to claim 1, characterized in that the metal elements of the supporting frame have a protective polymer coating.

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