RU160976U1 - Dismountable design for the creation of the second tier in the rooms with high ceilings - Google Patents

Abstract

Collapsible design for creating a second tier in rooms with high ceilings, containing a set of vertical and horizontal elements forming the frame of the structure, and also containing a set of oblique jumpers between the vertical elements, characterized in that the structure contains additional horizontal stiffeners made in the form of beams - jumpers or trusses, stiffeners are installed in the horizontal plane of the second tier perpendicular to the horizontal elements of the con structures sequentially, with an additional stiffening element extending beyond the frame, mounted on a horizontal element on the outer side of the frame, the upper beam of the stiffening element connected to the upper part of the horizontal frame element, and the lower beam of the stiffening element, respectively, with the lower part of the horizontal frame element , a rigidity element is installed inside the frame connecting the corresponding horizontal element and the vertical frame element.

Description

The utility model relates to equipment for exhibitions, showrooms, offices, shops, warehouses and is intended for use as a supporting second tier for the placement of products, organization of office premises, meeting rooms. The design contains a set of horizontal and vertical power elements, as well as a set of oblique jumpers between the vertical elements, which together forms its main frame. The use of additional horizontal stiffeners (for example, slopes) that go beyond the framework of the main frame allows you to significantly strengthen the flooring of the load level and increase the size of the usable area.

Known invention (patent No. 2014796) "Collapsible design." The design in the specified invention consists of unified assembly units, allowing to convert its volumes and forms depending on the nature of the exposition and the parameters of the exhibition pavilion. The design uses rod elements with rectilinear longitudinal holes of predominantly round shape in cross section forming racks and couplers, and means for connecting the rod elements into a spatial structure.

However, this design has significant drawbacks. Firstly, this design is limited in use, i.e. It is intended exclusively for exhibits. Secondly, the design does not allow rational use of space in rooms with high ceilings, i.e. does not allow to create two-story expositions. Thirdly, this design does not allow to withstand heavy loads, i.e. not intended for storage of heavy and bulky products. In addition, there are other disadvantages associated with the narrow specificity of the use of the invention.

Also known is the design based on the materials of the site (created on 05/17/2014), designed to create a second tier. The design task was achieved through the use of vertical struts and horizontal power elements, which are beams (including "rail-shaped"), fastened together by bolted joints. Thus, it is possible to create a bearing ceiling and rational use of the volume of rooms with high ceilings. However, this design has disadvantages:

- insufficient rigidity, which determines the low allowable load on the ceiling (200-350 kg / m ² );

- the configuration of the platform of the second tier is rigidly determined by the shape, size and seating for bolted connections, which is due to the power scheme of the two-story platform, and depends on the installation location of the vertical (support) racks;

- rigidly defined installation locations of the vertical (support) racks.

- irrational use of the volume of the first floor due to the dependence of certain places of installation of the support posts

As a result, the overall composition of the design imposes significant restrictions on its formation. In addition, there are other disadvantages, for example:

- the relatively large weight of both individual elements and the structure as a whole.

- long installation time.

The purpose of the utility model is to develop a collapsible structure (or individual elements) to form a variety of platforms in the premises with a more rational use of the zone of the first tier.

This goal is achieved through the use of additional horizontal stiffeners, made in the form of beams jumpers or trusses. The stiffeners are installed in the horizontal plane of the second tier perpendicular to the horizontal elements of the structural frame sequentially in a straight line, while an additional stiffener extending beyond the frame is fixed to the horizontal element on the outside of the frame, and the upper beam of the stiffener is connected to the upper part of the horizontal element the frame, and the lower beam of the stiffener, respectively, with the lower part of the horizontal element, the frame element is installed inside the frame a point connecting the corresponding horizontal element and the vertical element.

The figure 1 shows the complete assembly (top view and sectional view), and the main structural elements are indicated.

1 - supporting vertical element (support stand);

2 - intermediate vertical element;

3 - horizontal frame element;

4 - an additional stiffener extending beyond the framework;

5 - internal stiffener;

6 - the upper beam of the stiffener;

7 - lower beam of the stiffener.

8 - the upper beam of the stiffening element extending beyond the framework.

The figure 2 shows the complete assembly in isometry, which shows the connection of additional stiffeners with horizontal structural elements (in accordance with Figure 1).

Additional stiffening elements operate as follows.

Using the horizontal and vertical (supporting and intermediate) elements, a power metal frame is assembled (figure 1 shows an example of a rectangular type of power frame).

As indicated above, both additional stiffeners are installed at the level of the second tier in the horizontal plane of the power frame, which serves as the basis for laying the flooring. (To create a working surface on the second tier, it is possible to use various types of flooring: particle boards, plywood, metal sheets, concrete pouring on corrugated board.)

Through the flooring of the second tier, the load arising outside the power frame is perceived by a horizontal remote (extending beyond the frame) stiffener. Due to the load, a torque occurs at the junction of the external stiffener with the horizontal structural frame member. To compensate for the torque and prevent its impact on the horizontal frame element of the structure, a second (internal) stiffener is installed inside the frame, which forms rigid connections with the specified horizontal element and a vertical element inside the frame. The second stiffener is installed in line with the external stiffener. The force acting on the horizontal frame element is transmitted to the second (internal) stiffener, and through it to the vertical element. The vertical element can be made as a supporting structural element or as an intermediate vertical element (figure 1 shows an example of a structure with an intermediate vertical element).

Both additional stiffening elements can be made either in the form of a truss assembled from separate elements - corners, lintels, etc., which are rigidly fixed to each other in a certain way, or in the form of separate beams (upper and lower). The stiffening elements have openings for connection with vertical elements (intermediate or supporting) and horizontal elements of the power frame.

The benefits of the utility model are as follows:

the use of additional stiffeners according to the above diagram allows, without reducing the requirements for stiffness of the power frame, to form a configuration of the second tier of the structure, regardless of the support points of the vertical elements. At the same time, the requirements for the rigidity of horizontal elements are reduced, and with them their dimensions and weight are reduced, which reduces the cost of the structure and the cost of its transportation, installation and dismantling.

Based on the technical solution presented in this application, a model of a collapsible design was created, its tests were carried out. The test results showed clear advantages in comparison with the closest analogue according to the criteria of technical characteristics, as well as production and economic indicators.

Claims (1)

Collapsible design for creating a second tier in rooms with high ceilings, containing a set of vertical and horizontal elements forming the frame of the structure, and also containing a set of oblique jumpers between the vertical elements, characterized in that the structure contains additional horizontal stiffeners made in the form of beams - jumpers or trusses, stiffeners are installed in the horizontal plane of the second tier perpendicular to the horizontal elements of the con structures sequentially, with an additional stiffening element extending beyond the frame, mounted on a horizontal element on the outer side of the frame, the upper beam of the stiffening element connected to the upper part of the horizontal frame element, and the lower beam of the stiffening element, respectively, with the lower part of the horizontal frame element , a rigidity element is installed inside the frame connecting the corresponding horizontal element and the vertical frame element.

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