WO2019103652A1

WO2019103652A1 - Frame of a skeleton-type load-bearing structure

Info

Publication number: WO2019103652A1
Application number: PCT/RU2018/000660
Authority: WO
Inventors: Давит Варданович МАНУКЯН
Original assignee: Давит Варданович МАНУКЯН
Priority date: 2017-11-22
Filing date: 2018-10-05
Publication date: 2019-05-31

Abstract

The utility model relates to the field of construction and can be used in the construction of warehouse buildings, the load-bearing structures of which are formed on the basis of storage rack systems. The technical result is an increase in loading capacity with minimal metal content. A frame of a skeleton-type structure comprises vertical posts which are connected by diagonals, wherein the diagonals are formed from tubular profiles of rectangular cross section. The vertical posts are provided with strengthening elements in the lower part. A structural channel which is fastened to the vertical posts with the aid of a bolted connection is used as a strengthening element.

Description

FRAME FRAMEWORK CARRYING DESIGN

The utility model relates to the field of construction and can be used in the construction of storage buildings, the supporting structures of which are racking systems.

The prior art known solutions.

So from the description to the patent of the Russian Federation Ns 160210 (published 09/08/2015) a pavilion-type frame structure is known, containing vertical struts and stiffeners connecting the vertical struts.

For the closest analogue to the patented solution adopted the frame of two-legged columns with braces, struts and struts (see RF Patent N ^Q 2010093, published 03.30.1994).

The disadvantage of the closest analogue is the lack of strength and reliability of the frame structure, the inability to withstand increased loads, due to the design of the frame stand.

The technical problem addressed by the claimed utility model is the elimination of these shortcomings, the expansion of the arsenal of technical means, the expansion of the performance characteristics and functionality of the frame construction frame by installing support elements while maintaining high bearing capacity due to an increase in the geometric characteristics of a single section.

The technical result of the patented solution is to increase the load capacity with a simultaneous decrease in metal consumption.

The technical result is achieved through the use of a frame supporting frame structure, including vertical racks connected by braces, while the braces are made of tubular profiles of rectangular cross section, and in the lower part of the vertical racks are connected with reinforcing elements.

Thanks to the implementation of bracing of tubular profiles of rectangular cross-section, which have the necessary margin of safety, and the supply of vertical racks with reinforcing elements in the lower part - in places of maximum internal efforts that occur in rack racks, the structure is strengthened while maintaining high load capacity by distributing the load and simultaneous reducing metal consumption by reducing the thickness of vertical racks and braces.

In the particular case of implementation, a channel is used as a reinforcing element, which leads to a decrease in the metal consumption of the product as a whole, without losing the functional properties of the frame.

In particular, the reinforcing element is connected to the upright by means of a bolted connection, thereby creating a tight connection between the mentioned elements, which start to work together as a whole, i.e. all loads are distributed as one detail, which additionally increases the carrying capacity of the frame as a whole.

In particular, the uprights are connected to the base plate by bolting.

Further, the solution is explained with reference to the figures, which depict the following.

FIG. 1 - frame with vertical uprights and braces.

FIG. 2 is an isometric view of a vertical stand with a reinforcing element.

FIG. 3 is a sectional view of a vertical column with a base plate.

FIG. 4 is a top view of FIG. 2

According to the figures, the frame of the frame structure contains vertical uprights 1 in the form of vertical symmetric metal profiles, between which there are metal horizontal beams 4, connecting the frames to each other forming a rack for storing cargo and responsible for stability and geometric unchangeability of the structure. Also for load distribution, the frame contains braces 2, made of tubular profiles of rectangular cross-section, which connect the opposite vertical pillars 1 to each other at a certain, specified in design angle to the vertical racks 1. In the lower part, the vertical pillars 1 are additionally equipped with reinforcing elements 3 for increasing load capacity. In the particular case of implementation, in the lower part of the vertical racks 1 from the floor to the first level of horizontal beams 4 - in the place of the occurrence of maximum internal forces in the vertical racks of the 1 rack, metal lining on the vertical racks representing channel 3, groove are used as reinforcing elements. which corresponds to the width of the vertical rack 1. The use of vertical racks 1 with reinforcing elements 3, instead of increasing the thickness of the vertical racks 1 for the perception of high loads, saves metal by reducing metal consumption. To increase the strength of the structure, the reinforcing element in the form of a channel 3 is welded to the base plate 5, and the vertical post 1 is fastened to the U-shaped protrusion of the base plate 5 by means of a bolt joint 7, forming a reinforced support. Bolted connection 6 of channel 3 with stand 1 creates a tight connection of these elements, which begin to work together as a whole, i.e. all loads from a practical point of view are distributed as one detail. Thus, the geometric characteristics of a single cross section (effective area, axial and sectorial moments of resistance of areas, radii of inertia) increase, which increases the bearing capacity of the frame as a whole.

Frame frame structures works as follows.

Frame frame construction is part of the spatial framework of the building. Being a carrier element, it directly perceives permanent and temporary loads. Initially, the frame with installed diagonals 2 and vertical posts 1 with the help of the bolted connection 7 is attached to the U-shaped protrusion of the support plate 5, which is fixed to the foundation with anchors. The reinforcing element 3 is welded to the base plate 5, and the fastening of the reinforcing element 3 with the stand 1 is carried out by means of a bolted connection 6.

It was experimentally established that for a self-supporting rack on the front frames (stand 160x100x2.5 mm) with a distance between the levels of beams of 2000 mm (typical KOMITAS):

1. The load sustained by the frame of the frame structure with reinforcement and diagonals of tubular profiles of rectangular section is equal to 32500 kgf.

2. The load maintained by the frame without reinforcement with supporting elements and diagonals with a closed profile is equal to 28,000 kgf.

Thus, the use of a reinforced frame frame structure contributes to an increase in load capacity by 4500 kgf.

The use of reinforced frame frame bearing structure for the construction of warehouse buildings, bearing structures of which are racking systems, allows to ensure high energy efficiency of these buildings, a comfortable environment, high financial efficiency of this type of building based on metal structures, sufficient durability of structures, manufacturability of construction, relatively low cost and significantly reduce the design and construction time, and connection with the use of a reinforced frame, allows for a higher efficiency of the storage area of the warehouse, reaching ysya possibility of placing a larger storing places such as on the number of (more storage levels) and by weight, on the same storage area.

Claims

Formula utility model

1. Frame frame structures, characterized in that it contains vertical racks connected by braces, while the braces are made of tubular profiles of rectangular cross section, and in the lower part of the vertical racks are equipped with reinforcing elements.

2. The frame according to claim 1, characterized in that a channel is used as a reinforcing element.

3. The frame according to claim 1, characterized in that the reinforcing elements are attached to the uprights by means of a bolted connection.

4. The frame according to claim 1, characterized in that the vertical uprights are connected to the base plate by bolting, and the reinforcing elements are welded to it.