RU1787189C - Block-container - Google Patents

Abstract

Usage: the construction of modular buildings. SUMMARY OF THE INVENTION: a block container comprises upper and lower floors, interconnected by corner posts. The overlaps have frames of bent profiles and are provided with composite transverse beams of interconnected metal and wood components. Longitudinal bent profiles are made with stiffeners installed in the plane of profiles and beams. Stiffeners. Have cuts along two diagonally located corners at the horizontal edge of one of the cuts. The upper beams are supported by a metal component, and the lower beams are supported by a wooden component on the limb of stiffeners. The flooring is made of outer and inner skins, which are attached to the transverse beams. The limb of the stiffeners at the level of the upper floor has a variable height. 1 s.p. f-ly, 6 ill. fe eat s

Description

The invention relates to construction and. Designed for the construction of mobile buildings and structures.

A known construction of a block container, including upper and lower floors in the form of flat frames, consisting of longitudinal and transverse elements and a floor with stiffeners, corner posts and wall panels, and the posts are rigidly connected to the profiles of the floor frames / panels are mounted and connected to the profiles of the frames by means of a U-shaped profile, and each joint of adjacent panels is fixed by means of a device connected to the profile of the upper frame.

The known construction provides a variety of planning solutions for mobile buildings, building complexes and campuses for various purposes.

The disadvantage of such a structural embodiment of the block container is the insufficient bearing capacity of the floors, due to the hinged fastening of the profiled flooring to the bent profile of the floor frame, which reduces the operational reliability of the structure as a whole.

The closest to the invention in technical essence is the design of the block container, including upper and lower floors, each of which

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made in the form of a rigid frame from hollow bent profiles having a support shelf for vertical struts, a vertical wall for fixing wall panels and a bent shelf for laying flooring, vertical corner posts from a bent profile of angular section and flooring, the flooring being connected to profiles the supporting frame by special mounting bracket and bolt, and the corner is connected to the protrusion of the bent profile 10 of the frame ...

The known constructive solution, in addition to reducing the metal consumption, provides protection of the inner surface of the supporting bent profiles of the frame rods against moisture penetration.

The disadvantages of the known solution include the lack of structural elements that prevent the twisting of the supporting profiles, which reduces the bearing capacity of the skeleton of the block container 20.

The purpose of the invention is to improve performance and increase the bearing capacity of the block container.

This goal is achieved by the fact that 25 in the block container, including the upper and lower floors in the form of rigid frames from longitudinal and transverse external bent profiles connected by an angle. with struts, between which wall panels and flooring are installed, both floors are equipped with composite transverse beams of metal and wood components interconnected, and longitudinal curved profiles with 35 stiffeners in the form of vertical plates installed in the cavity of these profiles and in the plane of the transverse beams attached to the latter and made with cuts at two diagonally located corners and with a bend at the horizontal edge of one of the cuts, while the composite transverse beams are attached captures to the stiffeners with the support of the upper beams - a wooden component on the limb 45 of the stiffener, and the flooring is made in the form of outer and inner skins attached to the transverse beams.

In addition, the goal is also achieved by the fact that in the block container, the stiffeners at the level of the upper floor are made with a variable horizontal bending height in the longitudinal direction of the frames.

Figure 1 presents a General view of the block-55 container, axonometric; figure 2 - carrier system of the block container, axonometric: in Fig.Z - section aa in figure 2; figure 4 is a section bB in figure 2; Fig. 5 is a projection of a stiffener (frontal and lateral); figure 6 - scan element stiffness.

The container block includes the upper floor 1 and the lower floor 2 in the form of rigid frames, consisting of longitudinal 3 and transverse 4 elements of bent profiles, the outer skin 5 and the inner skin 6, corner posts 7 and wall panels 8. Longitudinal profiles 3 floor frames equipped with stiffening elements 9, made in the form of vertical plates with cuts at two diagonally located corners and a bend 10 at the horizontal face at one of the cuts. Cross beams 11 of floors 1.2 are made of metal component 12 and wood component 13, interconnected by gauges 14. On horizontal bending 10 of stiffener 9, notches 15 are made at a height corresponding to the necessary height of horizontal bending 10. Trees This component 13 of the transverse beam 11 is connected to the stiffener 9 by means of 6H) LT 16, passed through the holes 17 in the stiffener 9.

The installation of the block container is carried out as follows.

The frame is assembled from the rigid frames of the upper 1 and lower 2 floors, consisting of longitudinal 3 and transverse 4 elements from bent profiles and corner posts 7. In the bent profiles of longitudinal elements 3 s at the locations of the transverse beams 11. The stiffeners 9 are welded so that one of the protrusions of the elements 9 was included in the open section of the profile 3, the closure of its contour. When installing the upper ceiling 1, the height of the horizontal bend 10 of the element 9 is changed according to the notches 15, the distance between which determines the outcome from the required angle of inclination of the ceiling 1 in the longitudinal direction. In the upper floor 1, the metal components 12 of the transverse beams 11 rest on the bend 10 of the stiffener 9 and are connected to it. the wooden components 13 are connected to the second protrusion of the element 9 by means of bolts 16. In the lower floor 2, the wooden components 13 of the transverse beams 11 are supported on the horizontal bend 10 of the stiffener 9 and bolted 16, and the metal component 12 of the transverse beams 11 are rigidly connected to the bent profile 3. Then, the outer 5 and inner 6 flooring floors 1 and 2 are mounted. After that, wall panels 8 are installed.

During the operation of the block container, operational loads on the upper 1 and lower 2 floors are absorbed by the transverse beams 13 and transferred to the longitudinal thin-walled open profiles .3 of the floor frames subjected to torsion. At the same time, the stiffeners 9 located in the cavities of the longitudinal profiles 3 prevent the geometric shape from changing and the cross-sections of the thin-walled profiles 3 being rotated. The connection of the composite: transverse beams 11 with the profiles 3 by means of the stiffening elements 9 also prevents torsion in the longitudinal profiles of the frames and increases the rigidity of the nodal connection of the profiles of the frames 3 and the transverse beams 11, which increases their bearing capacity under operational loads.

Thus, the proposed structural embodiment provides an increase in the load-carrying capacity of the block container and an improvement in its performance by preventing geometric shape changes and turning of the cross sections of the longitudinal floor frames and increasing the rigidity of the nodal joints of the cross floor beams with the frame profiles. In addition, the simplicity of changing the height of the transverse beams of the floors allows you to create an organized drain in the longitudinal ceiling in the longitudinal direction and change the thickness of the heat-insulating layer of the floors depending on the version .0

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Claims (2)

1. A container block comprising upper and lower floors in the form of rigid frames of longitudinal and transverse external curved profiles interconnected by corner posts, between which wall panels are installed, and flooring, characterized in that, in order to improve performance and increase bearing capacity, both floors are equipped with composite transverse beams of metal and wood components interconnected, and longitudinal bent profiles with stiffeners in the form of vertical plates, installed in the cavity of these profiles and in the plane of the transverse beams attached to the latter and made with cuts along two diagonally located corners and bending at the horizontal edge of one of the notches, with the composite transverse beams attached to the stiffeners with the support of the upper beams of the metal component, and the lower beams - a wooden component on the limb of the stiffeners, and the flooring is made in the form of outer and inner skins attached to the transverse beams. 2. A block container, according to claim 1, characterized in that the stiffening elements at the level of the upper floor are made with a variable horizontal bending height, in the longitudinal direction of the frames, Schigl 10 10 fifteen