RU95456U1 - GREENHOUSE FRAME ELEMENT AND GREENHOUSE - Google Patents

Abstract

 1. The frame element of the greenhouse, characterized in that it is made of at least two pipe sections connected by end faces to each other and having holes and / or connecting elements on the surface. ! 2. The frame element of the greenhouse according to claim 1, characterized in that the docking element is made in the form of a pipe segment. ! 3. The frame element of the greenhouse according to claim 2, characterized in that the docking element is fixed to the pipe section by welding. ! 4. The frame element of the greenhouse according to claim 1, characterized in that the end sides of the pipe sections are connected to each other by means of connecting elements. ! 5. The frame element of the greenhouse according to claim 1, characterized in that it is made of steel. ! 6. Coated greenhouse, characterized in that it comprises a frame made of arc-shaped greenhouse frame elements interconnected by longitudinal rectilinear elements, each frame element consists of at least two pipe sections connected by end faces to each other and having holes and / or docking elements on the surface with the possibility of their connection with the mating hole and / or docking element of another frame element. ! 7. The greenhouse according to claim 6, characterized in that the docking element is made in the form of a pipe segment. ! 8. The greenhouse according to claim 7, characterized in that the docking element is fixed to the pipe section by welding. ! 9. The greenhouse according to claim 8, characterized in that the connecting elements are connected to each other by means of fasteners.

Description

The utility model relates to the construction of greenhouses for coating with polymeric materials, in particular, cellular polycarbonate.

Polycarbonate-coated greenhouses are currently known.

So, from the description of the patent of the Russian Federation No. 85298 (published on 08/10/2009) a utility model is known for a greenhouse containing end walls, frame arcs rigidly bonded to stiffeners, a flexible translucent coating in the form of end sheets fixedly mounted on frame arcs, and side sheets, and the frame arcs are rigidly attached to the base and have a profile with one or more longitudinal grooves, while two adjacent frame arcs are mounted open towards each other with grooves in which the edges of one sheet or several to sheets of translucent coating with the possibility of its sliding along the grooves.

In addition, there is a known greenhouse assembly containing a frame formed by arches, end arches, couplers for connecting the arch pillars to each other, a translucent coating, sealing and fastening units, a sealing tape, wherein the integral frame elements are made by welding, and the parts of the frame contacting the coating are coated material, while all the links of the frame are made of the same length at the ends with two mounting holes with a pitch "t" of -shaped thin-sheeted cold-rolled steel profile and installed with two grooves (grooves) outward, into which tapes (gaskets) of elastic material are inserted for contacting the film coating, the arches being interconnected by longitudinal links and consisting of a central and two side arches with widened ends and two racks, and the mounting holes are made on the longitudinal axes of the arches and racks, while at the ends of the longitudinal links are attached one-piece plate with mounting holes located on the axis, perpendicular a bright longitudinal axis of the links and symmetrical to it, and each node of the elements of mutual contact of the links of the arches and longitudinal links is connected by two screws with nuts, in addition, on the end arches of the frame, the film coating is divided along the vertical axis into two parts - right and left, adjacent edges of which lined with a ribbon of elastic material, and the tapes of each part are connected with staples with the possibility of lap contact with each other without gaps, while the upper ends of the tapes are fixed with screws in the upper part of the end arches, and the lower ends are accessories with a through groove on bushings with annular grooves and are fixed with a bracket (latch), and bushings are fixed on couplers mounted on end arches (RF patent No. 2196420, published January 20, 2003).

All currently known greenhouses consist of sufficiently dimensional parts in the form of solid end walls, long guide ties, which are fastened either by welding or by self-tapping screws on the underside of the supporting arches. The arcs themselves are also very large - for example, with dimensions of 3 × 6 m and a height of 2 meters in the greenhouse, even a connecting arc of 3 × 2 m can be transported only by freight transport, and when sections are located tens or hundreds of kilometers from points of sale, transportation itself to consumers very expensive.

Thus, the main disadvantages of the above greenhouses and their frame elements is the complexity of the design, the bulkiness and complexity of installation.

Due to these circumstances, there is a need for greenhouse frames consisting of separate compact elements that are easily assembled into a finished structure, but without losing their strength and bearing characteristics even in the most difficult climatic conditions.

The technical result achieved by using the patented frame element and the greenhouse is to simplify installation, compactness during storage and transportation of the greenhouse, increase the strength characteristics.

The claimed technical result is achieved through the use of a frame element of the greenhouse made of at least two pipe sections connected by end faces to each other and having docking elements and / or holes on the surface.

The technical result is also achieved through the use of a coated greenhouse, which contains a frame made of arched shape greenhouse frame elements interconnected by longitudinal rectilinear elements, each frame element consists of at least two pipe sections connected by end faces of each other with the other and having docking elements and / or holes on the surface with the possibility of their connection with the mating docking element and / or hole of another frame element.

In this case, the end sides of the pipe sections are connected to each other by means of connecting elements

Docking elements can be connected to each other by means of fasteners, in particular, bolts with nuts.

In particular, the docking element can be made in the form of a pipe segment and attached to the pipe section by welding.

Due to the use of collapsible elements of the frame of the greenhouse, compactness is ensured during storage and transportation, and by connecting the elements of the frame by entering the docking element of the frame section into the return hole of another pipe section, ease of installation is ensured.

The claimed technical result is achieved due to the design of the frame elements of the greenhouse. Each element of the arc-shaped frame consists of at least two parts, into the sides of which the docking elements are welded, mainly from the pipe, which, being reciprocal parts for the ends of the upper part of the arc-shaped elements, closely fill the space inside the pipe from which it is made the arc itself. There is no backlash. In these places, the actual wall thickness of the arcs doubles, and thereby increases the resistance to snow loads of the entire greenhouse.

Thus, the task of creating compact, collapsible arcs, both docking and end - easy to assemble, convenient in transportation and storage.

To enhance the stability of the entire frame to arcuate elements, also in certain places are welded, in particular, by argon welding, the connecting elements from the pipe to connect the arcuate elements longitudinal. The longitudinal elements of the frame are also made of pipe and fit tightly into the connecting elements or holes. For reliability and increased stability of the entire frame are also connected with bolts and nuts.

In end arcs, docking elements for fixing the door frame are also welded in certain places.

Also, the implementation of the frame from a steel pipe will lead to a significant increase in the bearing characteristics of the greenhouse.

Further, the solution is illustrated by reference to the figures, which depict the following:

In figure 1 is a General view of the greenhouse;

In figure 2 - an element of the frame of an arched shape;

In figure 3 - an element of the frame of a rectilinear shape (side view and top view).

The greenhouse consists of arcuate elements 1 fastened to each other by means of rectilinear elements 2, also from the rectilinear elements 2 a greenhouse door, a window leaf and stiffeners are assembled.

The frame elements of the arcuate shape 1 and rectilinear shape 2 in this example are made in the form of three pipe sections connected by the end faces to each other by entering the docking element 3 into the corresponding groove on the end side of the pipe section. Docking elements 3 are also symmetrically welded on the surface of each pipe section. In addition, the surface of the carcass element contains holes 4, which are intended for fastening the greenhouse to the foundation or special supports.

The assembly of the greenhouse is as follows.

First, the pipe sections by means of fasteners - bolts with nuts (not shown) are fastened to each other to form elements of an arched shape 1. After that, the elements of an arched shape are fastened by longitudinal elements of a rectilinear shape 2, which can also be assembled from several assembled frames, fixed by means of fasteners, which inserted into holes 4, attached to the foundation or special supports, after which the polycarbonate coating is laid.

The patented utility model makes it possible to produce compact parts from industrial materials on an industrial basis, greatly simplifies their transportation and assembly by all consumers, and most importantly, does not reduce, and due to the thickening of the walls of the pipes from which the arcs are made (at the points of their joints) increase the strength and load-bearing characteristics the frame of the greenhouse allows it to withstand snow loads of up to 40 kg per meter when coated with cellular polycarbonate up to 4 mm thick.

Claims (9)

1. The frame element of the greenhouse, characterized in that it is made of at least two pipe sections connected by end faces to each other and having holes and / or connecting elements on the surface. 2. The frame element of the greenhouse according to claim 1, characterized in that the docking element is made in the form of a pipe segment. 3. The frame element of the greenhouse according to claim 2, characterized in that the docking element is fixed to the pipe section by welding. 4. The frame element of the greenhouse according to claim 1, characterized in that the end sides of the pipe sections are connected to each other by means of connecting elements. 5. The frame element of the greenhouse according to claim 1, characterized in that it is made of steel. 6. Coated greenhouse, characterized in that it comprises a frame made of arc-shaped greenhouse frame elements interconnected by longitudinal rectilinear elements, each frame element consists of at least two pipe sections connected by end faces to each other and having holes and / or docking elements on the surface with the possibility of their connection with the mating hole and / or docking element of another frame element. 7. The greenhouse according to claim 6, characterized in that the docking element is made in the form of a pipe segment. 8. The greenhouse according to claim 7, characterized in that the docking element is fixed to the pipe section by welding. 9. The greenhouse according to claim 8, characterized in that the connecting elements are connected to each other by means of fasteners.