RU112808U1 - GREENHOUSE Dismountable - Google Patents

Abstract

1. A collapsible greenhouse containing a frame with a translucent cover fixed on it, consisting of a rectangular base, two end and intermediate arches connected to it, consisting of at least one element, located mutually parallel at some distance from one another and interconnected by horizontal longitudinal connecting elements, at least one door hinged to the end arched structure in a frame formed by vertical posts connected to horizontal shelves and end arches, as well as a set of connecting nodes for connecting the frame elements, while the frame elements and the door frame is made of a metal profile of a predominantly rectangular cross-section, characterized in that the connecting nodes are made in the form of a clamp containing two interconnected metal elements provided with mounting grooves of predominantly U-shaped cross-section for placement in them with of the frame elements to be connected and shelves located between them with coaxial holes for installing the tightening device. ! 2. A collapsible greenhouse according to claim 1, characterized in that the metal elements are provided with three locating grooves located in one plane and arranged in a T-shaped manner. ! 3. A collapsible greenhouse according to claim 1, characterized in that the metal elements are provided with four locating grooves located in one plane and located crosswise between themselves. ! 4. A collapsible greenhouse according to claim 1, characterized in that the metal elements are provided with three mustache

Description

The utility model relates to the field of agriculture, namely to cultivation facilities, in particular, greenhouses and hotbeds designed for growing vegetables, flowers, seedlings and the like plants in an artificial microclimate under light-transmitting coatings.

Closest to the proposed utility model is a greenhouse containing a frame with a translucent honeycomb polycarbonate coating attached to it, consisting of a rectangular base, two end arches and intermediate arches connected to it, consisting of two elements located mutually parallel at some distance from one another and interconnected by horizontal longitudinal connecting elements, at least one door pivotally mounted on the end arched structure in a frame formed vertical racks connected to horizontal shelves and end arches, as well as a set of connecting nodes for connecting frame elements, while frame elements and door frames are made of metal profile, mainly of rectangular cross-section. Connecting nodes for connecting frame elements are made of a T-shaped or cross-shaped. In this case, the T-shaped connection unit consists of a straight U-shaped cross-section of the metal base with a metal shank fixed to it by welding perpendicularly to the U-shaped cross-section, and the cross-shaped connecting unit consists of a direct U-shaped cross-section of the metal base with fixedly attached to it by welding perpendicular to the U-shaped in cross section with two metal shanks directed in different directions. Holes are made in the base and in the shanks of the assembly, corresponding to pre-prepared holes in the frame elements to be connected for the free installation of a screw or bolt with a nut and washers. [Patent No. 96725, A01G 9/14, 11/27/2009].

The famous greenhouse has a number of significant drawbacks. The first significant drawback of the described greenhouse is the complexity of installation, due to the need for preliminary manufacturing of holes in the connected elements of the frame, as well as combining these holes with holes on the base and shanks of the connecting nodes for the passage of a screw or bolt. Another disadvantage of the known greenhouse is the low manufacturability of its manufacture, due to the low manufacturability of the manufacture of connecting nodes, each of which is individually made by connecting the base and shanks by welding.

The utility model is aimed at solving the problem of reducing the complexity of installing a collapsible greenhouse, while increasing the manufacturability of its manufacture.

The essence of the utility model is that in a greenhouse collapsible, containing a frame with a translucent coating fixed to it, consisting of a rectangular base, two end arches and intermediate arches connected to it, consisting of at least one element located mutually parallel at some distance from one another and interconnected by horizontal longitudinal connecting elements, at least one door pivotally mounted on the end arched structure in a frame formed vertical racks connected to horizontal shelves and end arches, as well as a set of connecting nodes for connecting frame elements, while the frame and door frame elements are made of a metal profile, mainly of rectangular cross-section, it is proposed that the connecting nodes be made in the form of a clamp containing two connected between themselves metal elements equipped with installation grooves of a predominantly U-shaped cross-section for placement of the connected frame elements and dix therebetween shelves with coaxial holes for the tightening device.

The metal elements can be equipped with three mounting grooves located in the same plane and arranged in a T-shape.

The metal elements can be equipped with four mounting grooves placed in the same plane and located crosswise in a cross-shaped manner.

The metal elements may be provided with three alignment grooves arranged in a Y-shape so that two of the alignment grooves are placed in one plane perpendicular to the plane of placement of the third alignment groove.

Metal elements can be made by stamping. The tightening device can be made in the form of a screw or bolt mounted in a coaxial hole and connected to a nut and washer.

Translucent coating can be made of cellular polycarbonate.

The execution of the connecting nodes in the form of a clamp containing two metal elements connected to each other, provided with installation grooves of a predominantly U-shaped cross-section for accommodating the connected frame elements and the shelves between them with coaxial holes for installing the tightening device, reduces the complexity of mounting the proposed greenhouse, due to the possibility of connecting the frame elements without pre-manufacturing holes in the profiles of the connected eleme comrade frame and alignment of said apertures with openings on the connecting nodes.

The supply of metal elements with three alignment grooves located in the same plane and arranged in a T-shape between them provides ease of connecting arches with the base of the frame and end arches with horizontal longitudinal connecting elements, the supply of metal elements with four alignment grooves located in the same plane and located between crosswise, provides ease of connection of arches with horizontal longitudinal connecting elements, as well as the supply of meta of the individual elements with three installation grooves arranged Y-shaped so that two of the installation grooves are placed in one plane perpendicular to the plane of placement of the third installation groove, which makes it easy to connect the base of the frame with the end arches, which together with the construction of a tightening device in the form of a screw or a bolt installed in a coaxial hole and connected to a nut and washer helps reduce the complexity of installation of the proposed utility model.

The implementation of metal elements by stamping contributes to the solution of the problem of improving the manufacturability of the proposed greenhouse.

Figure 1 shows a General view of a collapsible greenhouse, Figure 2 shows a General view of a connecting node with T-shaped grooves, Figure 3 shows a General view of a connecting node with a cross-shaped grooves.

The greenhouse is collapsible, it contains a frame with a translucent coating attached to it (not indicated in the figures). The frame consists of a rectangular base 1, two end arches 2 connected to it and intermediate arches 3, consisting of at least one element and interconnected by horizontal longitudinal connecting elements 4. End arches 2 and arches 3 are mutually parallel at a certain distance one from the other. The frame also contains at least one door 5, hinged on the end arch structure in the frame 6, formed by vertical uprights 7 connected to the horizontal shelves 8 and end arches 2, and a set of connecting nodes 9 for connecting the frame elements. Frame elements: rectangular base 1, end arches 2, intermediate arches 3, horizontal longitudinal connecting elements 4, door 5, vertical racks 7 and horizontal shelves 8 are made of a metal profile, mainly of rectangular cross section. The connecting nodes are made in the form of a clamp containing two metal elements 10 and 11 connected to each other, provided with installation grooves 12 of a predominantly U-shaped cross section for accommodating the connected frame elements and the shelves 13 located between them with coaxial holes 14 for installing the tightening device 15 The tightening device 15 is made in the form of a bolt (not shown in the figures) installed in a coaxial hole 14 and connected to a nut and washer (not indicated in the figures).

The metal elements 10 and 11 in one embodiment are provided with three alignment grooves 12 arranged in the same plane and arranged in a T-shape. In another embodiment, the metal elements are provided with four alignment grooves 12 arranged in the same plane and arranged in a crosswise manner. The metal elements 10 and 11 in the third embodiment are provided with three alignment grooves 12 arranged Y-shaped so that two of the alignment grooves are placed in one plane perpendicular to the plane of placement of the third alignment groove. Metal 10 and 11 elements can be made by stamping. A translucent coating can be made of cellular polycarbonate and fixed to the frame by means of screws - self-tapping screws with washers.

Installation of the greenhouse can be carried out as follows.

Initially, a platform for a greenhouse is prepared, for which a relatively flat surface is preliminarily prepared. Collect the connecting nodes. Then the end arched structures are assembled, for which they connect the end part of the rectangular base 1, the end arches 2, the vertical racks 7 and the horizontal shelves 8 by means of the connecting nodes determined by the design, for which the profiles of the connected elements are placed in the installation grooves 12 and fix them by tightening the bolts in the nuts. Mount the door 5, pivotally securing it in the frame 6. To the assembled end arched structure, connect the required number of intermediate arches 3 and connect them to the horizontal longitudinal connecting elements 4 and base 1 by means of the connecting nodes determined by the design, for which the profiles of the connected elements are placed in the installation grooves 12 and fix them in the clamp by tightening the bolts in the nuts. The frame of the greenhouse is assembled. After assembling the frame, you can begin to cover the greenhouse with polycarbonate. The fastening of the parts of the polycarbonate to the frame elements is carried out, for example, using self-tapping screws with washers. The finished greenhouse is fixed either on the foundation, for example, in the form of a wooden frame made of bars, or on the ground, for example, using pegs embedded in the ground attached to the elements of the base of the frame. The greenhouse is ready for operation.

Thus, the collapsible greenhouse described above contributes to solving the problem of reducing the complexity of its installation by performing connecting nodes in the form of a clamp containing two metal elements connected to each other, provided with installation grooves of a predominantly U-shaped cross section for placement of the connected frame elements in them and located between them shelves with coaxial holes for installing a tightening device. Moreover, the performance of metal elements by stamping helps to solve the problem of improving the manufacturability of the proposed greenhouse.

Claims (7)

1. The collapsible greenhouse, comprising a frame with a translucent coating fixed to it, consisting of a rectangular base, two end arches and intermediate arches connected to it, consisting of at least one element located mutually parallel at a certain distance from one another and interconnected by horizontal longitudinal connecting elements, at least one door pivotally mounted on the end arch structure in a frame formed by vertical struts connected to the horizon steel shelves and end arches, as well as a set of connecting nodes for connecting the frame elements, while the frame elements and door frames are made of a metal profile of predominantly rectangular cross-section, characterized in that the connecting nodes are made in the form of a clamp containing two interconnected metal an element provided with installation grooves of a predominantly U-shaped section for accommodating the connected frame elements and the shelves with coaxial between them tverstiyami for installation tightening device. 2. The collapsible greenhouse according to claim 1, characterized in that the metal elements are provided with three installation grooves located in the same plane and arranged in a T-shape. 3. The collapsible greenhouse according to claim 1, characterized in that the metal elements are provided with four mounting grooves located in the same plane and arranged crosswise between themselves. 4. The collapsible greenhouse according to claim 1, characterized in that the metal elements are provided with three alignment grooves arranged Y-shaped so that two of the alignment grooves are placed in one plane perpendicular to the plane of placement of the third alignment groove. 5. The greenhouse is collapsible according to claim 1, characterized in that the metal elements are made by stamping. 6. The collapsible greenhouse according to claim 1, characterized in that the tightening device is made in the form of a screw or bolt installed in a coaxial hole and connected to a nut and washer. 7. The collapsible greenhouse according to claim 1, characterized in that the translucent coating is made of cellular polycarbonate.