RU230475U1 - VERTICAL STRUCTURAL ELEMENT FOR ORGANIZING USABLE SPACE AND REINFORCING THE RIGIDITY OF THE GREENHOUSE FRAME - Google Patents

Abstract

The utility model relates to agriculture, namely to the structures of frame greenhouses with a covering made of transparent and opaque materials for light. The structural element, according to the present utility model, contains posts made of profile metal and at least one transverse bar, wherein vertical stops are fixed to the highest and lowest points of the posts, made with the possibility of adjusting the height. The technical result consists in increasing the load-bearing capacity of the greenhouse structure and more efficient use of the useful space.

Description

The utility model relates to agriculture, namely to the construction of frame greenhouses with a covering made of transparent and opaque materials.

An arched greenhouse is known, containing a rigid body consisting of a gable roof, a translucent covering, side gable walls with gates and side support elements (see Brandman S.E. and Fedorov V.I. Goods for personal subsidiary farms / Handbook. - M.: Ekonomiya. - Pp. 66-68, Fig. 21). Also known (see Berson G.Z. Polar vegetable growing. - M.: Kolos. - 1979. - Pp. 43-52) are gable and polygonal greenhouses with different angles at the roof apex, installation of side gable walls to the roof slopes, with different length, width and height.

All the above greenhouse designs are calculated based on average annual values and maximum values of wind force and precipitation.

At present, weather conditions practically throughout the entire territory of Russia are characterized by numerous cases of significant excess of average annual and maximum values of wind force and precipitation, especially snow in winter. As a result, greenhouses on private farms that do not have a reliable design are destroyed by critical impacts of weather conditions.

The closest to the claimed utility model is the greenhouse frame (patent RU 2065686 A1), which contains a fence, lateral and central multi-tiered units made of two beams with fixed brackets for containers with plants. The frame is equipped with cross-shaped ties placed between the units, and the beams of the central units are mounted at an angle to the base and intersect at the top, with rigid ties placed above and below the point of intersection of the beams and arcs for a translucent covering are fixed to the latter, one end of which is fixed at the point of intersection of the beams, and the other - on the bracket closest to the base.

The disadvantage of the above design is the complexity of manufacturing and installation. Central multi-tiered installations made of two crossbars with fixed brackets for containers with plants are installed only in greenhouses of a special design, originally designed according to patent RU2065686 A1.

The technical task of this utility model is to create a structure in the form of a vertical structural element that allows, without great expense, to strengthen the rigidity of the frame of existing greenhouses of various designs, and at the same time is an element of organizing useful space.

The technical result consists in increasing the load-bearing capacity of the greenhouse structure.

The technical result is achieved in that the structural element, according to the present utility model, contains posts made of profile metal and horizontal crossbars, with vertical stops fixed to the very top and bottom points of the posts, made with the possibility of adjusting the height, with the upper vertical stops made with a support for the elements of the supporting frame of the greenhouse.

The structural element can be formed in the form of a rectangle, trapezoid or triangle without a lower base, containing horizontal crossbars.

The posts and horizontal crossbars of the structural element can be made of profile metal elements of various shapes and cross-sections, such as square, rectangular, round section profile pipes, channels, I-beams or other profiles. Each profile element can be made of aluminum, cold-rolled or hot-rolled steel profile.

The racks can be made as one piece or consist of several parts connected to each other.

The vertical stops are made with the possibility of resting the structural element in its lower part on the prepared foundation (for example: soil, pile foundation, concrete screed), and in its upper part - on the supporting frame of the greenhouse, giving it additional resistance to vertical and horizontal loads. The lower vertical stops are made with a support platform, and the upper vertical stops with a cradle for installing the greenhouse frame parts in them. The stops in a particular case of implementation are made with through holes for rough adjustment in height, at least three at the same distance from each other, and a screw with a thread for fine adjustment, providing the possibility of precise adjustment of the position of the structural element relative to the supporting surface and relative to the greenhouse.

The shape of the support can be different and selected in accordance with the shape of the greenhouse frame profile. The support of the upper vertical stop can be fixed to the greenhouse frame in various ways, using a bolted connection, a special clamp, spacers. A damping gasket made of elastic material, such as rubber or polyurethane, is installed between the support of the vertical stop and the greenhouse frame.

The installation of a structural element in a greenhouse allows for increasing the rigidity of the greenhouse frame and resistance to snow loads.

The structural elements can be located either individually in the greenhouse or form a modular frame by connecting individual structural elements together with profiles in such a way that at least two vertical structural elements form a frame for placing load-bearing elements that can be used to organize useful space. The said profiles can be made horizontal or inclined and placed at different heights from the level of the supporting surface.

The utility model is illustrated by the following figures:

Fig. 1 shows a variant of the implementation of a rectangular structural element;

Fig. 2 shows a variant of the implementation of a triangular structural element;

Fig. 3 shows a variant of the implementation of a modular frame made of vertical rectangular structural elements;

Fig. 4 shows a variant of the implementation of a modular frame made of vertical triangular structural elements;

Fig. 5 shows a schematic representation of a greenhouse in cross section with a rectangular structural element installed.

The vertical structural element 1 contains symmetrically located posts 2, connected by means of crossbars 3. The posts 2 are connected on the lower side with lower stops 4, equipped with support elements 5, and on the upper side - with upper stops 6. The upper stops 6 are made with an adjustable bracket 7.

When forming a modular frame, the posts 2 of the structural element are connected by means of horizontal profiles 8, which, together with the horizontal strips 3, serve as a support for the supporting elements 9, made, for example, in the form of shelves or containers.

The vertical structural element is mounted on a prepared foundation, soil or screw piles 10. Using vertical stops 4 and 6, the vertical structural element is adjusted in height until it stops against the greenhouse frame elements 11, ensuring the horizontal position of the supporting structures. In this case, the vertical structural element becomes a pre-stressed metal structure. Pre-stressed structures are building structures with an artificially created initial stress state (during manufacturing, assembly, installation), optimally distributed in the structural elements. Pre-stressing improves the operational properties of structures, increasing their rigidity and endurance. All connections between the frame elements are made on special fasteners using a bolted connection and are quickly assembled and disassembled structures. The bolted connection does not require special tools and highly qualified workers, which significantly reduces the time and cost of installing the vertical structural element.

The utility model allows improving the performance characteristics of a greenhouse of any design by increasing its resistance to snow loads, increasing the useful space and more efficient use of the useful volume. The vertical structural element is suitable (compatible) with the most popular type of greenhouses made of a profile pipe of an arched or gable shape, of which there are more than 90% in Russia.

Claims (4)

1. A vertical structural element for organizing useful space and strengthening the rigidity of a greenhouse frame, containing symmetrically installed posts connected by horizontal planks and equipped with vertical stops on the upper and lower sides, made with the possibility of adjusting the height, wherein the upper vertical stops are made with a support for the elements of the supporting frame of the greenhouse. 2. A vertical structural element according to item 1, characterized in that the vertical posts and horizontal strips are made of profile metal. 3. A vertical structural element according to claim 1, characterized in that the vertical posts are connected to the horizontal planks to form a triangle, trapezoid or rectangle. .