RU136071U1 - MAST TELESCOPIC - Google Patents

Abstract

1. Telescopic mast with sections in the form of multifaceted thin-walled shells, each of which is formed of two bent metal sheets joined together end-to-end along the length of the section, characterized in that the abutting edges of the bent metal sheets are connected by means of a patch plate placed on the inside of the sections and connected to them by threaded connections. 2. The mast according to claim 1, characterized in that each section is provided with at least one additional stiffener in the form of a longitudinal bar placed on the inner surface of the section face and connected to it by threaded connections. The mast according to claim 1, characterized in that the sections are made in the form of a regular octagonal prism.

Description

The technical field to which the utility model relates. The utility model relates to the field of ground construction and radio engineering, in particular to mast constructions designed to place antenna equipment and raise it to its working position.

State of the art

Known telescopic mast, consisting of a system of concentrically arranged tubular sections (see patent for invention SU 141186, op. 31.03.1960). Movable sections in the collapsed state of the mast are placed inside the lower stationary section. For the deployment and coagulation of the mast is a helical lifting mechanism.

Telescopic masts are characterized by mobility, ease of transportation, speed of deployment and folding. As a disadvantage of the known construction, it is worth noting the low stiffness of the sections, and, as a consequence, the low resistance of the mast to wind loads, which leads to height limitations and the need to install multiple stretch marks.

Known antenna support containing the lower support part and prismatic trihedral or tetrahedral sections made with the possibility of telescopic extension and folding (see patent for invention RU 2101444, IPC: E04P 12/08, publ. 10.01.1998 g). The implementation of the sections of the antenna support in the form of truss structures and the presence of an expanding supporting lower part contributes to increased rigidity and stability of the structure. However, the construction is characterized by increased metal consumption and the complexity of manufacturing sections.

As the closest analogue to the claimed technical solution, a mast consisting of sections, each of which is made in the form of a thin-walled shell with a cross section in the form of an equilateral polygon (see patent SU 1414956, IPC: E04H 12/08, publ. 07.08.88 g, was selected )

A multifaceted thin-walled shell is formed of two bent metal sheets joined together end-to-end along the length of the section with welds.

The implementation of the mast sections in the form of thin-walled shells simplifies the process of their manufacture. The multifaceted shape and the presence of longitudinal ribs contributes to increased rigidity. However, the use of welded joints for connecting the half-shells has a significant drawback, namely: a high probability of the appearance of residual stresses and warping, which leads to deviations of the geometric parameters of the finished sections, which is especially undesirable in the case of their telescopic installation. In addition, to carry out welding work, special equipment and highly skilled workers are required.

Utility Model Disclosure

The inventive utility model is aimed at simplifying the manufacturing processes of mast sections, ensuring the accuracy of their geometric parameters.

Using the proposed utility model allows to obtain a number of positive technical results, namely:

- simplification and cheapening of the manufacturing processes of mast sections, eliminating the need for qualified specialists.

- elimination of warping and ensuring the accuracy of geometric parameters;

- increasing the rigidity of the sections, and therefore the stability of the mast to shock, wind and other loads.

The problem is solved due to the fact that in the telescopic mast with sections made in the form of multi-faceted thin-walled shells, each of which is formed of two bent metal sheets, joined together end to end along the length of the section, according to the claimed utility model, the abutting edges of the bent metal sheets are connected by means of a patch plate placed on the inside of the section and connected to them by threaded connections.

The use of threaded connections eliminates the requirements of highly skilled workers and ensures the simplicity and manufacturability of the manufacture of sections, eliminates warping of metal sheets and helps to achieve high accuracy of the geometric dimensions of the finished sections. At the same time, threaded connections provide high reliability of the assembly and allow to accept large axial loads.

At the same time, the use of bent metal sheets (otherwise, semi-shells) and a patch plate for connecting not only simplified the manufacturing process, but also achieved increased rigidity of the section barrel.

If in the closest analogue the functions of the stiffeners are performed only by the ribs of the multifaceted section, then in the proposed mast design, overhead plates are also stiffeners.

In a preferred embodiment of the proposed utility model, the mast sections are made in the form of a regular octagonal prism.

The mast section may be provided with at least one additional stiffener in the form of a longitudinal bar placed on the inner surface of the section face and connected to it by threaded connections.

Structurally, the longitudinal bar is a part similar to a patch plate connecting the longitudinal edges of bent metal sheets - half-shells. At the same time, the longitudinal bar does not perform the connecting functions that occur in the case of a patch plate, but serves only to increase the rigidity of the structure.

Both overhead plates and longitudinal strips are placed in the space between the telescopic sections and do not interfere with the extension and folding of the sections, while performing the function of guides that ensure centering of the sections.

As a result of a significant, compared with the prototype, increase in structural rigidity, it became possible to reduce the thickness of the metal used to manufacture the section, while maintaining the necessary rigidity of the mast.

The analysis of the prior art by the applicant did not reveal any sources of information where the technical solution of the telescopic mast, characterized by a set of features equivalent to all the essential features of the claimed solution, would be disclosed, which allows us to conclude that the latter meets the “novelty” criterion.

Brief Description of the Drawings

The essence of the proposed solution is illustrated by drawings, which depict:

in FIG. 1 - mast, general view when folded;

in FIG. 2 is a section A-A of FIG. one;

in FIG. 3 is a fragment of FIG. 2, increased;

in FIG. 4 and FIG. 5 shows a cross section of a section made with additional reinforcement.

Implementation of the utility model The telescopic mast (see Fig. 1) contains the Nth number of concentrically arranged sections 1. Each section 1 is made in the form of a thin-walled shell in the form of a regular polyhedral prism, for a specific example - in the form of an octagonal prism. This is the preferred implementation of the device, but the number of faces may vary.

Each section 1 of the mast is formed from two bent metal sheets 2 and 3, made using well-known equipment used for such purposes, for example, alloy steel. The longitudinal edges of the bent sheets 2 and 3 are joined together end-to-end along the length of the section by means of a patch plate 4 superimposed on them from the inside of the section and connected to them by threaded connections using screws 5.

In order to increase the rigidity of the structure, section 1 can be provided with longitudinal strips 6 superimposed on the inner surface of the faces of the section and connected to it by threaded connections (conventionally shown in the drawings).

The patch plates 4 and the longitudinal bars 6 are placed in the space between the telescopic sections 1 and perform the functions of the guides, without interfering with the extension and folding of the sections.

In FIG. 4 shows an example of the execution of the section, when the longitudinal strips 6 are installed only on two opposite faces of the section 1, and together with the overhead plates 4 form structural stiffeners.

In FIG. 5, all faces of the section have a longitudinal stiffener.

Claims (3)

1. Telescopic mast with sections in the form of multifaceted thin-walled shells, each of which is formed of two bent metal sheets joined together end-to-end along the length of the section, characterized in that the abutting edges of the bent metal sheets are connected by means of a patch plate placed on the inside of the sections and connected to them by threaded connections. 2. The mast according to claim 1, characterized in that each section is equipped with at least one additional stiffener in the form of a longitudinal bar placed on the inner surface of the face of the section and connected to it by threaded connections. 3. The mast according to claim 1, characterized in that the sections are made in the form of a regular octagonal prism.

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