RU148795U1 - MAST SUPPORT LATTICE - Google Patents

Abstract

1. The supporting lattice mast, having belts with a certain pitch, between which there are braces, characterized in that the vertical struts of the side face of its base are attached to the frame of the building wall, for example, a modular building, hangar shelter, a separate block container, the connection of each vertical mast base post with the building frame is hinged, containing upper and lower hinge brackets, with horizontal axes parallel to the wall of the building, while the upper bracket s-type hinges are made of a parallelogram hinge and the bottom - the type cylindrical sharnira.2. The lattice supporting mast according to claim 1, characterized in that the mast base plane opposite the wall of the building is made beveled from top to bottom.

Description

The invention relates to the construction, in particular, to support masts for fastening and supporting gas ducts or ducts of various installations located, for example, in modular buildings, block containers (block boxes) or in hangar shelters, in particular to support masts lattice for mounting and maintaining gas ducts or ducts of heating or compressor installations located in such structures, and can also be used for mounting communication equipment, telecommunications and other equipment.

Currently, prefabricated buildings, such as modular buildings, consisting of one or more block containers, collapsible hangar shelters, are widely used. The advantage of such buildings compared to capital buildings is the high speed and ease of installation, such structures are easily reconstructed and modernized, if necessary, they can even be moved to a new place. Such buildings, as a rule, contain a frame from profile metal rolling, sheathed with frameless sandwich panels, corrugated board or other similar materials. Such structures are used for various purposes, including for the placement of various technological equipment in them, and are widely used in industrial enterprises, including oil and gas producers. Technological equipment located in such structures, for example, heating installations, reciprocating compressor units, contain gas ducts (chimneys, exhaust pipes, air intake pipes) having a vertical part, with a height sufficient to ensure sanitary-hygienic standards for the dispersion of exhaust substances (for chimneys, gas exhaust pipes) or to ensure clean intake air (for air intake pipes). Such flues can have a height that is significantly, sometimes several times higher than the height of the building and must have means for fastening and maintaining in an upright position.

Various methods are known for solving this problem.

There is a known design for fixing gas ducts to a building wall using a light frame or clamps with anchor fastening, for example, the Stroykomplekt Company (Yaroslavl, http: /www.tehcomp.ru/). Such fastening is economical, since it does not require a supporting structure and a separate foundation for it. The disadvantage of this design is the height of the flues is limited by the height of the building, it is not always possible to attach the flues to the wall of the building, the weight of the flues is limited.

A mast for mounting gas ducts of the same Stroykomplekt Company (Yaroslavl, http: /www.tehcomp.ru/) is known, which is a self-supporting supporting mast on which individual gas ducts are fixed. The mast is made of round metal pipes. The mast base is attached to the foundation anchor basket, which takes all the loads of the flues on itself. Vertical ducts are attached with clamps. On the mast, you can install up to 3 gas trunks having different diameters. The disadvantage is a large material consumption, high weight, the need for additional space for the mast foundation, large wind load.

The famous tower by A.S. for invention No. 787604 (publ. 15.12.1980). The tower includes a foundation and a tetrahedral pillar made of flat trusses and struts passing through the nodes of flat trusses and forming horizontal diaphragms, flat trusses are located in the diagonal planes of the truss. The disadvantage is the complex construction of the tower, the need for additional space for the foundation of the tower, due to the diagonal arrangement of flat trusses, it is impossible to use the space inside the tower to accommodate the gas duct.

Known tower to maintain the exhaust trunks according to the patent for invention RU 2052055 (publ. 10.01.1996). The tower contains the outer and inner waist grids with triangular cells and spacers connecting them, each node being connected by ten rods to the nodes nearest to it, and every six rods connecting the four nodes closest to each other, form a rigid spatial element having the shape of an irregular tetrahedron, and every two adjacent elements have three common rods, made of metal pipes. The disadvantage of such a tower is the complexity of the structures, the high complexity of manufacturing and high material consumption. A foundation is also required for such a tower.

Known masts supporting to maintain the gas ducts of modular boiler houses, for example, the same company "Stroykomplekt" (Yaroslavl, http://www.tehcomp.ru/). The mast is a supporting lattice column in the form of a prism of square or triangular section, having belts located at a certain pitch, between which there are braces. From 1 to 4 gas ducts (sometimes up to 6) can be fixed on the mast - this depends on the number of sides of the column. The flues can be both inside the column and outside. The gas ducts are fixed to the supporting column by brackets and clamps. Due to the lattice design of the mast, the wind load on the foundation and the weight of the structure are reduced. The mast is attached to the foundation, which accepts all the loads of the duct. This technical solution is selected for the closest analogue of the claimed utility model. The disadvantage of such a mast is that additional space is required for the mast foundation. Prefabricated block-modular buildings and hangar shelters, as mentioned above, are widely used for the placement of technological equipment in industrial enterprises, including oil and gas producers. Moreover, their compactness has a great advantage when placed in the current layout and infrastructure of the enterprise. However, in such conditions, it is not always possible to allocate space for the mast foundation to maintain the gas ducts of installations located in modular buildings, individual block containers, or collapsible prefabricated hangar shelters. The construction of the foundation under the mast requires excavation, concreting, while it also takes time to harden and harden the concrete, material is required for the foundation.

The authors were faced with the task of creating a simple design of a support lattice mast for fastening and supporting gas ducts or air ducts of various installations located, for example, in a modular building, a separate block container or a collapsible quick-erected hangar shelter, under which a separate foundation is not required, reduction of installation time, material consumption of the support lattice mast. The following is a description of the proposed lattice mast with reference to the fastening of flues and with respect to modular buildings, block containers and hangar shelters, but this does not limit its use in other similar structures and for fastening other devices.

To achieve the specified technical result, the support mast is lattice, having belts with a certain pitch, between which there are braces, with vertical struts of the lateral edge of its base attached to the frame of the building wall, for example, a modular building, hangar shelter or a separate block container. At the same time, the connection of each vertical mast base post with the building frame is hinged, containing upper and lower hinge brackets, with horizontal axes parallel to the building wall, while the upper hinge brackets are made in the form of a hinged parallelogram, and the lower ones in the form of a cylindrical hinge. The mast base plane, opposite the wall of the building, can be made beveled from top to bottom. Thus, the construction of the mast mast is integrated with the structure of the building. The flues are placed both outside and inside the mast and are attached to it using brackets and / or clamps.

The implementation of the mast with the base connected to the frame of the building, for example, a modular building, hangar shelter or a separate block container, allows you to distribute the vertical load from the weight of the flues and the mast on the frame of the building. Thus, there is no need for a foundation for the mast, for excavation and concreting, the time for mast installation is reduced, and the freed space can be used for other purposes.

Making the connection with the hinge, with the upper hinge brackets made as a hinged parallelogram, and the lower ones as a cylindrical hinge, avoids bending and torque in the connection when exposed, for example, to wind load or thermal deformation. In addition, this contributes to the quick fastening of the mast to the building, reducing the installation time of the mast.

The execution of the mast plane opposite the wall of the mast base slanted from top to bottom allows to reduce the weight and material consumption of the mast compared to the prototype, the lack of foundation also helps to reduce material consumption.

Distinctive features of the proposed device from the above known, closest to it, is that the supporting lattice mast with vertical struts of the lateral edge of its base is attached to the frame of the building wall, for example, a block-modular building, a separate block container or hangar shelter. At the same time, the connection of each vertical mast base post with the building frame is hinged, containing upper and lower hinge brackets, with horizontal axes parallel to the building wall, while the upper hinge brackets are made in the form of a hinged parallelogram, and the lower ones in the form of a cylindrical hinge. The mast base plane, opposite the wall of the building, can be made beveled from top to bottom. The combination of these features allows you to create a simple design of the mast supporting lattice, which does not need a foundation, reduced installation time of the mast supporting lattice, material consumption.

The proposed design is illustrated by drawings.

The figure 1 shows a General view of the mast of the supporting trellised triangular section integrated in a block container in a perspective view, Figure 2 shows the base of the mast, Figure 3 shows the base of the mast in a perspective view (base conventionally shown in horizontal position), Figure 4 shows the bottom cylindrical hinge bracket, figure 5 shows the bracket of the lower cylindrical hinge bracket in a perspective view, figure 6 shows the upper hinge bracket, made hinged parallelogram type. The figure 7 presents another example of a mast supporting lattice integrated in a two-story hangar shelter, a place free from the foundation under the mast was used to organize the entrance to the building.

The lattice supporting mast 1 with its base 2 (Fig. 1, Fig. 2, Fig 7) is attached to the frame of the wall of the building 3 and supports the flues 4. The base 2 of the mast of the supporting lattice 1 at the bottom with vertical posts 5 is connected to the frame of the wall of the building 3 by means of a fork 6 and the finger 7 of the lower cylindrical bracket-hinge 8, rigidly fixed with its bracket 9 on the frame of the building 3 (Fig. 2, Fig. 4, Fig. 5). In the upper part, the base 2 of the mast supporting lattice 1 with vertical uprights 5 is attached to the frame of the wall of the building 3 by means of an upper hinge bracket 10, made as a hinged parallelogram and containing: two brackets 11, one of which is rigidly attached to the vertical strut 5 of the base 2 of the mast 2 of the supporting trellised 1, and the second is rigidly connected to the frame of the building 3 (Fig. 2, 3, 6); two earrings 12 and four fingers 13. The horizontal axes of the fingers 7 and 13 of the hinge brackets 8 and 10 are parallel to the wall of the building 3. Thanks to the hinge brackets 8 and 10, when, for example, wind load or thermal deformations are applied to the mast, support lattice 1, load is distributed in such a way that the lower hinge brackets 8 take on all the load, unloading the upper hinge brackets 10 and transferring the load to the frame of the building 3, while bending and torque are eliminated.

The claimed technical solution of the mast supporting lattice can be implemented in industrial production using standard equipment and technologies. In the manufacture of a support lattice mast, standard metal rolling and fastening means are used.

The authors developed a lattice supporting mast, which was successfully implemented in the project of a modular gas installation of an air heating system of type SVO-400MP012 and a project for a hangar shelter for a compressor station type MKS-37.45-95, 3GGPD.01 of the applicant’s enterprise.

Claims (2)

1. The supporting lattice mast, having belts with a certain pitch, between which there are braces, characterized in that the vertical struts of the side face of its base are attached to the frame of the building wall, for example, a modular building, hangar shelter, a separate block container, the connection of each vertical mast base post with the building frame is hinged, containing upper and lower hinge brackets, with horizontal axes parallel to the building wall, with the upper bracket s-type hinges are made of a parallelogram hinge and the bottom - of the cylindrical joint type. 2. The lattice supporting mast according to claim 1, characterized in that the mast base plane opposite the wall of the building is made beveled from top to bottom.

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