RU186134U1 - Prefabricated greenhouse frame - Google Patents

Abstract

The technical solution relates to gardening, to the cultivation of flowers, vegetables, berries, etc. in greenhouses and greenhouses, to designs of frameworks of greenhouses. The proposed design solves the technical problem of expanding the technical means of a certain purpose - providing the possibility of using greenhouse frames from transverse frames from a rectangular profile of longitudinal elements from a hat profile in the frame structures. For this, clamps are used, consisting of elements molded from plates, having a support pad for the walls of the frame profile and transverse stamping frames that repeat the external and internal forms of the hat profile of the longitudinal element. The longitudinal elements are fixed in the clamps by means of fasteners located in the coaxial holes of the middle shelves of the longitudinal elements and the shelves of the stamping clamps interacting with them.

Description

The technical solution relates to gardening, to the cultivation of flowers, vegetables, berries, etc. in greenhouses and greenhouses, to designs of frameworks of greenhouses.

The closest technical solution adopted for the prototype is the greenhouse frame of the team described in RF patent No. 112808, 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 of one from another and connected with each other by horizontal longitudinal connecting elements, at least one door pivotally mounted on the end arched structure in a frame formed by vertical uprights, with lined with 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 of predominantly rectangular cross-section, the connecting nodes are made in the form of a clamp containing two metal elements connected to each other, equipped with installation grooves of a predominantly U-shaped cross-section for placement of the connected frame elements in them and the shelves located between them with coaxial holes for installing a tightening device.

The general essential features of the prototype, which coincide with the essential features of the proposed technical solution, are as follows: prefabricated greenhouse frame, including end frames and intermediate frames connected by longitudinal elements, frame parts of a frame made of rectangular metal pipe, end and intermediate frame frames connected to the longitudinal elements using clamps; longitudinal elements are located end faces to the profiles of adjacent frames.

In a known design, the prototype, frames of a metal pipe of closed section are interconnected by longitudinal elements of a similar section.

The proposed design solves the technical problem of expanding the technical means of a certain purpose - providing the possibility of using the most common rectangular profile of longitudinal elements (referred to in various sources, including girders, rods, connecting elements, etc.) in the frame structures of greenhouses from the transverse frames. ) from another also widely used profile - hat profile (referred to in various sources, including as an omega profile).

To solve the aforementioned technical problem, a prefabricated greenhouse frame is proposed, characterized in that it is made of end and intermediate frames connected by longitudinal elements made of a metal pipe of rectangular cross section, the longitudinal elements are end faces to the profiles of adjacent frames and made of a metal profile having a middle shelf, inclined side walls and bends to the outside of their edges; frame frames are connected to the longitudinal elements using clamps; the clamps of the intermediate frames consist of two elements molded from the plates, having in the center a supporting platform for the wall of the profile of the frame and two transverse to the intermediate frame of the stamping, while stamping of one element repeat the external shape of the profile of the longitudinal element, and stamping of the second element repeat the internal shape of the profile of the longitudinal element ; the clips of the end frames are made of an element molded from the plate having a groove repeating on three sides the profile shape of the end frame and two transverse profiles of the stamping end frame repeating the external and internal profile shapes of the longitudinal element, respectively; the longitudinal elements are fixed in the clamps by means of fasteners located in the coaxial holes of the middle shelves of the longitudinal elements and the interacting shelves of the stamping clamps.

As a private option, the longitudinal elements are arranged outwardly flanged outward with the outer side of the frame profiles, which makes it possible to secure the edges of adjacent sheets if the greenhouse is made of a solid translucent fence (polycarbonate, including honeycomb, plexiglass, etc.) from short sheets, which must be joined along the perimeter of the frames.

As a private option, the longitudinal elements are made of a profile having a lower specific gravity compared to the profile of the frames.

As a private option, the clamps are additionally fastened to the frame profiles by means of a fastening element, which increases the reliability of mounting the clamps on the frames.

A special case of the profile of the longitudinal elements is a profile in which the bends are flanging.

Distinctive features of the proposed technical solution from the known (prototype) are the following - the longitudinal elements are made of a metal profile having a middle shelf, inclined side walls and bends outward of their edges; frame frames are connected to the longitudinal elements using clamps; the clamps of the intermediate frames consist of two elements molded from the plates, having in the center a supporting platform for the wall of the profile of the frame and two transverse to the intermediate frame of the stamping, while stamping of one element repeat the external shape of the profile of the longitudinal element, and stamping of the second element repeat the internal shape of the profile of the longitudinal element ; the clips of the end frames are made of an element molded from the plate having a groove repeating on three sides the profile shape of the end frame and two transverse profiles of the stamping end frame repeating the external and internal profile shapes of the longitudinal element, respectively; the longitudinal elements are fixed in the clamps by means of fasteners located in the coaxial holes of the middle shelves of the longitudinal elements and the interacting shelves of the stamping clamps. As private options, the longitudinal elements are bends outward; longitudinal elements are made of a profile having a lower specific gravity in comparison with the profile of the frames; the clamps are additionally fastened to the frame profiles by means of a fastener; the bends of the profile of the longitudinal elements have flanges.

Due to the presence of these distinctive features, the following technical result is achieved - it is possible to use in the frame structures of greenhouses from the transverse frames of a rectangular profile of longitudinal elements from a hat profile. Additionally, if the longitudinal elements are located outward flanges outward flush with the outer side of the frame profiles, then for translucent fencing you can use small-sized sheets, joining them butt-to-butt (this is especially important to ensure the small dimensions of the delivery sets of greenhouse parts). Due to the use for the longitudinal elements of the profile having a lower specific gravity in comparison with the profile of the frames, the weight of the frame of the greenhouse is reduced; as a rule, the pipe wall thickness cannot be less than 0.9 mm (pipes with a smaller wall thickness do not have sufficient strength characteristics and are not used in greenhouse constructions), and the hat profile can have a thickness of 0.5 mm or more with a close section perimeter, at In this case, the end and intermediate frames experience significant longitudinal and transverse loads from a translucent fence, snow, wind, etc., and the longitudinal force elements experience significantly less. the distance between the frames is much less than the width of the span of the frames (between the supports). In addition, the hat profile has a section more developed in the vertical direction, which increases its stability with respect to the main loads - vertical.

The proposed technical solution can be used in the construction of greenhouses and greenhouses for various agricultural purposes.

The described solution is illustrated by the drawings of FIG. 1-4.

In the figure of FIG. 1 shows the connection node of the intermediate frame of the frame with longitudinal elements.

In the figure of FIG. 2 depicts the clamp of the junction of the intermediate frame of the frame with longitudinal elements.

In the figure of FIG. 3 shows the connection node of the end frame of the frame with a longitudinal element.

In the figure of FIG. 4 shows the clamp of the connection node of the end frame of the frame with a longitudinal element.

In the figures of FIG. 1-4 depict: longitudinal element 1, frame 2 of the frame. The profile of the frame 2 of the frame is made of a metal pipe of rectangular cross section. The profile of the longitudinal element 1 has a middle shelf 3, inclined side walls 4, bends 5 to the outside of their edges, which have flanges 6. The end (Fig. 3) and intermediate (Fig. 1) frames 2 of the frame are connected to the longitudinal elements 1 by means of clamps 7 The clamp of the intermediate frame of FIG. 1, 2 consists of two elements 8 molded from plates, having bearing pads 9 for the walls of the profile of the frame 2 and two embossments 10 transverse to them, repeating respectively the external and internal shapes of the profiles of the longitudinal elements 1. The longitudinal elements 1 are fixed in the clamp 7 by means of fasteners 11 (screws) located in the coaxial holes of the middle shelves 3 of the longitudinal elements 1 and the interacting shelves 12 of the stampings 10 of the clamp 7. The clamp 13 of the end frame 2 of FIG. 3, 4 is made of a plate, has a groove 14, repeating on three sides the profile shape of the end frame 2, and transverse stampings 10, repeating respectively the external and internal profile shapes of the longitudinal element 1. The longitudinal element 1 is fixed in the clamp 13 by means of a fastening element 11, located in the coaxial holes of the middle shelf of the longitudinal element and the shelves of the clamping stampings interacting with it.

The frame of the greenhouse is assembled in the traditional way. Due to the use of longitudinal elements from a lighter "hat" profile using the proposed clamps, the frame of the greenhouse has significantly less weight.

Claims (8)

1. The frame of the prefabricated greenhouse, characterized in that it is made of end and intermediate frames connected by longitudinal elements made of a metal pipe of rectangular cross section, the longitudinal elements are end faces to the profiles of adjacent frames and are made of a metal profile having a middle shelf, inclined side walls and bends outward of their edges; frame frames are connected to the longitudinal elements using clamps; the clamps of the intermediate frames consist of two elements molded from the plates, having in the center a supporting platform for the wall of the profile of the frame and two transverse to the intermediate frame of the stamping, while stamping of one element repeat the external shape of the profile of the longitudinal element, and stamping of the second element repeat the internal shape of the profile of the longitudinal element ; the clips of the end frames are made of an element molded from the plate having a groove repeating on three sides the profile shape of the end frame and two transverse profiles of the stamping end frame repeating the external and internal profile shapes of the longitudinal element, respectively; the longitudinal elements are fixed in the clamps by means of fasteners located in the coaxial holes of the middle shelves of the longitudinal elements and the interacting shelves of the stamping clamps. 2. The frame according to claim 1, characterized in that the longitudinal elements are arranged outwardly bends outward flush with the outside of the frame profiles. 3. The frame according to any one of paragraphs. 1, 2, characterized in that the longitudinal elements are made of a profile having a lower specific gravity compared with the profile of the frames. 4. The frame according to any one of paragraphs. 1, 2, characterized in that the clamps are additionally fastened to the frame profiles by means of a fastener. 5. The frame according to 3, characterized in that the clamps are additionally fastened to the frame profiles by means of a fastener. 6. The frame according to any one of paragraphs. 1, 2, 5, characterized in that the bends of the profiles of the longitudinal elements are flanging. 7. The frame according to claim 3, characterized in that the bends of the profiles of the longitudinal elements have flanges. 8. The frame according to claim 4, characterized in that the bends of the profiles of the longitudinal elements have flanges.

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