RU202380U1 - Connecting node - Google Patents

Abstract

The utility model relates to the field of agriculture, is used in the construction / erection of small frame metal structures, mainly greenhouses, is used directly when connecting / fixing some elements of the greenhouse frame. The claimed technical solution consists of several constituent elements. The connecting unit includes the first element, presented in the form of a standard shaped tube. This pipe has a transverse through hole at one end. The second element, included in the connecting unit, is also presented in the form of a standard shaped pipe, but one of its ends is made narrowed (crimped). This element is made in the form of a four-pointed star and has edges. A through transverse hole is also provided on the second component and is located at the beginning of the taper. The taper is at least 0.5 mm. The third element represents the same standard profile pipe with a transverse through hole. The assembly of the assembly is carried out as follows: the second element is inserted with the narrowed end into the cavity of the first element, until it stops. Moreover, the through holes of the two longitudinal reinforcements must coincide with each other. The third element is located on top of the prefabricated composition of the first two elements and perpendicular to the latter. The third element is usually an arc of the structural frame. The transverse through holes of all three elements must be at the same level, forming one through hole. Subsequently, all three elements are fixed with fasteners. The unit can be either galvanized pipe or ferrous metal. This technical solution is used when assembling the greenhouse, for attaching the crossbars to the side and top walls of the greenhouse. Serves to strengthen the rigidity (this is how a pipe with a connecting unit is inserted into another pipe and screwed with a fastener to the arc of the greenhouse). With the help of the assembly, the assembly of the greenhouse is much easier and easier. The advantage of the joint is that there are no welding seams, which over time become covered with rust and are inferior in strength to this joint, especially under alternating loads.

Description

The field of technology.

The utility model relates to the field of agriculture, is used in the construction / erection of small frame metal structures, mainly greenhouses, is used directly when connecting / fixing some elements of the greenhouse frame.

State of the art.

Currently, pre-fabricated greenhouses and hotbeds are in great demand, since they do not require large costs both financially and in terms of installation time for these structures.

Frames are used for the construction of any kind of such structures - and arched and rectangular, and greenhouses of the "pyramid" type, and polygonal. The advantage of using metal as a frame is obvious - it is strength, reliability, relative stiffness - all that is needed for an agricultural building. Profile, mesh, pipes, etc. can be used as metal structures. Thus, these designs assume the presence of a number of constituent elements to be connected and fastened to each other.

From open sources on the Internet, as well as according to data obtained by the method of visual observation, during the construction of such structures, the assembly of the constituent elements is fixed by welding. Those. there is a weld on the profile, pipes, which subsequently, during the operation of the structure, undergoes metal corrosion, and besides, it can crack under wind loads and vibration.

Disclosure of the utility model.

the presence of structural elements;

characteristics of the element and their relationship.

The objective of the claimed utility model is to improve the operational characteristics of the elements used and involved in the assembly of structures during the construction of greenhouses and greenhouses.

The technical result of the proposed solution is the implementation of the designated task, while obtaining a simpler version, without losing the quality of the final result.

The essence of the utility model lies in the fact that the connecting unit includes the first element, presented in the form of a standard shaped pipe, having a transverse through hole at one end, the second element, presented in the form of a standard shaped pipe, one end of which is made narrowed, having edges, and is made in the form of a four-pointed star, containing a transverse through hole and a third element, presented in the form of a standard shaped pipe having a transverse through hole, and the second element with a narrowed end is inserted into the cavity of the first element, and the third element is located on top of the prefabricated composition of the first two elements, and perpendicular in relation to the latter, and the transverse through holes of all three elements are at the same level, forming one through hole, subsequently secured by a fastening element. Wherein:

the end of the second element is made tapered and the taper is at least 0.5 mm;

unit elements are made of galvanized pipe;

the elements of the assembly are made of ferrous metal.

Brief description of the drawings.

The essence of the utility model is illustrated by drawings, where:

FIG. 1 - connecting node.

FIG. 2 - constricted element.

FIG. 3 is a general view.

Implementation of the utility model.

The utility model relates to the field of agriculture, is used in the construction / erection of small frame metal structures, mainly greenhouses, is used directly when connecting / fixing some elements of the greenhouse frame.

The claimed technical solution consists of several constituent elements. The connecting unit (Fig. 1) includes the first element (1), presented in the form of a standard shaped pipe. This pipe has a transverse through hole at one end (not shown). The second element (2, Fig. 2), included in the connecting unit, is also presented in the form of a standard shaped pipe, but one of its ends is made narrowed (crimped). This element is made in the form of a four-pointed star and has edges. A through transverse hole is also provided on the second component and is located at the beginning of the taper. The taper is at least 0.5 mm. The third element (3) represents the same standard profile pipe with a transverse through hole. The assembly of the assembly is carried out as follows: the second element is inserted with the narrowed end into the cavity of the first element, until it stops. Moreover, the through holes of the two longitudinal reinforcements must coincide with each other. The third element is located on top of the prefabricated composition of the first two elements, and perpendicular to the latter. The third element is usually an arc of the structural frame. The transverse through holes of all three elements must be at the same level, forming one through hole. Subsequently, all three elements are simultaneously fastened with fasteners.

The assembly can be either galvanized pipe or ferrous metal. This technical solution is used when assembling the greenhouse (Fig. 3), for attaching the crossbars to the side and top walls of the greenhouse. Serves to increase rigidity (this is how a pipe with a connecting unit is inserted into another pipe and screwed with a fastener to the arc of the greenhouse). With the help of the assembly, the assembly of the greenhouse is much easier and easier. The advantage of the joint is that there are no welds, which eventually become rusty and inferior in strength to this joint, especially under alternating loads.

Claims (4)

1. A connecting unit, including the first element, presented in the form of a standard shaped pipe and having a transverse through hole at one end, the second element, presented in the form of a standard shaped pipe, one end of which is made narrowed, having edges, and is made in the form of a four-pointed star, containing a transverse through hole and a third element, presented in the form of a standard shaped pipe having a transverse through hole, and the second element is inserted with a tapered end into the cavity of the first element, and the third element is located on top of the prefabricated composition of the first two elements and perpendicular to the latter, and the transverse through holes of all three elements are at the same level, forming one through hole, which are subsequently fixed with a fastening element. 2. A joint assembly according to claim 1, characterized in that the end of the second element is tapered and the taper is at least 0.5 mm. 3. A connecting assembly according to claim 1, characterized in that the assembly elements are made of galvanized pipe. 4. A connecting assembly according to claim 1, characterized in that the assembly elements are made of ferrous metal.

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