RU200986U1 - Metal shelving - Google Patents

Abstract

The utility model refers to exhibition, trade equipment, namely, metal shelves, and is intended for placing exhibition exhibits, as well as various assortment of goods of trade enterprises. The technical result of the utility model is to increase the rigidity, reliability of the panel and the rack as a whole. The technical result is achieved due to the fact that a metal rack containing at least two vertical racks made of sheet metal with a rectangular horizontal projection, forming an internal hollow space, and having slot-like rectangular nests, located in the form of a spatial mesh on its front and rear sides, shelves made of sheet metal with a thickness of 0.35 mm to 0.55 mm, each of which is a rectangular carrier plate in plan with flanges along the long and short sides, having stiffeners made in the form of bent profiles sheet metal, the horizontal ends of which are welded to the inner horizontal surface of the shelf. At the same time, from the rear long side of the shelf along its entire length, an inclined figured bend is made with a reverse, upward-facing figured bend, passing to the horizontal plane of the shelf, and attachment to the inner side of the plate by contact welding, forming a closed area in the cross section of the shelf, panels connecting the posts among themselves, in the form of rectangular bearing plates in the plan with flanges along the long and short sides and having L-shaped hooks on the flanges of the short sides that enter the slot-like slots of the vertical posts, brackets installed in the slot-shaped slots of the posts, on which the shelf stiffeners are supported , the thickness of the metal sheet from which the stiffeners are made is equal to the thickness of the metal sheet of the supporting plate of the shelf shelf, the thickness of the metal sheet from which the panels are made is from 0.35 mm to 0.55 mm, the L-shaped hooks are made on the L-shaped hooks ridge relief having a height h of not more than 2.0 mm, and the horizontal part of the zigovog o the relief is made in such a way that it is partially located on the flange of the short side of the panel, the flanges of the panel along the long sides are made with a bend inside the panel until they fit snugly against the inner surface of the flanges. An innovative solution to the utility model is that both shelf flanges along its long sides are equipped with a figured bend that passes to the inner surface of the shelf, the flanges of the shelves on the short sides are made with an L-shaped bend, the horizontal part of which goes to the inner surface of the shelf and in its end parts covers the curly folds of the flanges of the shelf along its long sides that pass to the inner surface of the shelf, and in the area of placement of the stiffeners is covered with shelves made from the end sides of the horizontal ends of the stiffeners, and connects to the inner surface of the shelf, with the shelves of the end sides of the horizontal ends of the stiffeners and the curly bends of the curly bends of the flanges of the shelf along its long sides by contact welding passing to the inner surface of the shelf. 14 fig.

Description

The utility model refers to exhibition, trade equipment, namely, to metal racks and is intended for placing exhibition exhibits, as well as various assortment of goods of trade enterprises. Shelves allow equipping stores of various formats - “convenience store”, “discounter”, “supermarket”. The versatility of the shelving design lies in the ability to create both wall-mounted (one-sided) and island (double-sided) versions of shelving, using the same parts.

A lot of racks are known, the details of which: racks, rear panels, overhead shelves are connected to each other by various types of fasteners. The structure of the racks, as a rule, includes several racks located at the corners of the rack, on which, with different vertical distances, one or several horizontal overhead shelves are fixed, items and / or bulk goods are stored on these shelves, for example, according to RF patent No. 2337599 publ. 10.11.2008 Bul. No. 31.

The disadvantage of this design is the significant metal consumption of the rack, increased cost, insufficient rigidity and reliability. Known metal rack under the RF patent for a useful model No. 192291 publ. 09/11/2019 The disadvantage of this design is the low quality of the spot weld in the manufacture of shelf shelves, due to the use of different thicknesses of the welded metal.

The closest in technical essence to the claimed design of a metal rack and adopted as a prototype is a metal rack according to the application for utility model No. 2019141918 containing at least two vertical posts made of sheet metal with a rectangular horizontal projection forming an internal hollow space and having slot-like slots rectangular, arranged in the form of a spatial mesh on its front and back sides, shelves made of sheet metal with a thickness of 0.35 mm to 0.55 mm, each of which is a rectangular carrier plate in plan with flanges along the long and short sides having stiffeners made in the form of bent profiles made of sheet metal, the horizontal ends of which are welded to the inner horizontal surface of the shelf, while on the back long side of the shelf along its entire length, an oblique figured bend with a reverse upward-facing figured otg is made or by passing to the horizontal plane of the shelf and attaching to the inner side of the plate by resistance welding, forming a closed area in the cross section of the shelf, the panels connecting the vertical posts to each other, in the form of rectangular bearing plates in the plan with flanges along the long and short sides and having flanges short sides L-shaped hooks included in the slot-like slots of the vertical posts, brackets installed in the slot-shaped slots of the vertical posts, on which the shelf stiffeners rest, the thickness of the metal sheet from which the stiffeners are made is equal to the thickness of the metal sheet of the rack shelf support plate, thickness to the sheet the metal from which the panels are made is from 0.35 mm to 0.55 mm., an L-shaped zig relief is made on the L-shaped hooks, having a height h, no more than 2.0 mm, and the horizontal part of the zig relief is made in such a way that partially located on the flange of the short side of the pan spruce, the flanges of the panel along their long sides are made with a bend inside the panel until the bend fits snugly against the inner surface of the flanges.

However, this technical solution also has disadvantages, in particular, insufficient rigidity of the shelves of the rack, which leads to increased deflections of its plane under the influence of the weight of the goods placed on it.

The purpose of the technical solution according to the claimed utility model is to increase the rigidity, strength and reliability of a metal rack by increasing the rigidity of its shelves.

The specified goal-the technical result is achieved in that a metal rack containing at least two vertical posts made of sheet metal with a rectangular horizontal projection forming an internal hollow space and having slot-like rectangular nests located in the form of a spatial mesh on its front and back sides , shelves made of sheet metal with a thickness of 0.35 mm to 0.55 mm, each of which is a rectangular bearing plate in plan with flanges along the long and short sides and having stiffeners made in the form of bent sheet metal profiles, the horizontal ends of which are welded to the inner horizontal surface of the shelf, while, from the rear long side of the shelf, along its entire length, an inclined figured bend is made with an upward-facing figured bend passing to the horizontal plane of the shelf and fastened to the inner side of the plate by contact welding, forming a closed area in the cross-section of the shelf, the panels connecting the vertical posts to each other, in the form of rectangular bearing plates in the plan with flanges along the long and short sides and having L-shaped hooks on the flanges of the short sides that enter the slot-like slots of the vertical posts, brackets installed in the slot-like sockets of the vertical racks, on which the shelf stiffeners are supported, the thickness of the metal sheet from which the stiffeners are made is equal to the thickness of the metal sheet of the supporting plate of the rack shelf, according to the utility model, the thickness of the metal sheet from which the panels are made is from 0.35 mm to 0.55 mm, an L-shaped zig relief is made on the L-shaped hooks, having a height h, not exceeding 2.0 mm, and the horizontal part of the zig relief is made in such a way that it is partially located on the flange of the short side of the panel, flanges of panels along their long sides are made with a bend inside the panel up to of the bend to the inner surface of the flanges, according to the utility model, both flanges of the shelf along its long sides are equipped with a figured bend passing to the inner surface of the shelf, the flanges of the shelves on the short sides are made with an L-shaped bend, the horizontal part of which goes to the inner surface of the shelf and in its the end parts covers the curly folds of the flanges of the shelf along its long sides that pass to the inner surface of the shelf, and in the area of placement of the stiffeners it is covered with shelves made on the end sides of the horizontal ends of the stiffeners and connects to the inner surface of the shelf, with the shelves of the end sides of the horizontal ends of the stiffeners with the figured bends of the figured bends of the flanges of the shelf along its long sides, passing to the inner surface of the shelf, by contact welding.

FIG. 1 shows a metal rack in axonometric projection (main elements); in fig. 2 - shelf, bottom and side view; in fig. 3 - node A in Fig. 2; in fig. 4 - node B in Fig. 2; in fig. 5 - node B in FIG. 2; figure 6 is a stiffener, side view; in fig. 7 - the same, top view; in fig. 8 - section G-G in Fig. 3; in fig. 9 - section D-D in Fig. 3; in fig. 10 is a diagram of loading a shelf with a distributed load and deformation of the shelf with its equal thickness along the length (angle of rotation on the supports and deflection); in fig. 11 is a diagram of loading a shelf with a concentrated load and deformation of the shelf with its equal thickness along the length; in fig. 12 is a diagram of the deformation of the shelf from a vertically applied load (distributed or concentrated), the angles of rotation on the supports and along the length of the shelf when performing the shelf structure according to the proposed utility model; in fig. 13 - node I in FIG. 12; in fig. 14 - section E-E in Fig. 3.

The metal rack contains at least two vertical racks 1 made of sheet metal with a rectangular horizontal projection, forming an internal hollow space and having slot-like slots 2 of a rectangular shape located in the form of a spatial mesh on its front and rear sides, shelves 3 are made made of sheet metal, each of which is a rectangular bearing plate in the plan with flanges, stiffeners 4 having horizontal ends 5, with which the stiffeners are connected by resistance welding to the inner surface of the shelf and equipped in the end part with shelves 6, brackets 7, which are installed with their three-position end hooks in slot-like slots 2 vertical posts, panels 8 connecting posts 1 to each other, made of sheet metal with a thickness of 0.35 mm to 0.55 mm in the form of rectangular bearing plates in plan with flanges along the short and long sides of the panels and having on flanges of short sides L-shaped hooks equipped with a ridge reinforcing relief with a bulge height relative to the surface of up to 2 mm, flanges made with bends along the long sides of the panel and equipped with cutouts in which vertical posts 1 are placed when installing panels in a rack. One of the flanges of the shelf along its long side, is made in the form of an inclined figured bend 9 with a reverse upward-facing figured bend 10, passing to the inner surface of the shelf, the second flange 11 of the shelf along its other long side is also made with a figured bend 12, passing to the horizontal plane shelves, the flanges of the shelf along its short sides are made with an L-shaped bend 13 with a horizontal part 14 passing to the inner surface of the shelf, the shelf has a cavity 15, through which it is installed on the brackets 7.

When placing, moving goods on the shelves of the rack or in case of force majeure situations arise when these goods, often heavy, exert a force on the rack shelf in the form of a distributed q or concentrated F load, causing bending deformations in the shelf along the length of the shelf and angular rotation in places where the shelf is installed on the brackets. In this case, the greatest deflections f of the shelf occur in its middle, and the angles of rotation on the supports (Fig. 10, 11). It is obvious that the deflection of the flange depends on the angle of rotation on the supports. A decrease in the angle of rotation on the supports leads to a decrease in the deflection of the beam, which means an increase in the strength, rigidity, durability of the shelf and the entire metal rack.

In the claimed utility model, it is proposed to increase the rigidity of the shelf by increasing the rigidity of the connection of the flange flanges on the short sides with the ends of the flange stiffeners and in the area of the corner joints of the flange flanges on the short sides with flange flanges on the long sides. According to the innovative solution of the utility model, both flanges of the shelf along its long sides are equipped with a figured bend, passing to the inner surface of the shelf, the flanges of the shelf on the short sides are made with an L-shaped bend, the horizontal part of which goes to the inner surface of the shelf, and in its end parts covers the rolling on the inner surface of the shelf, curly bends of the flanges of the long sides of the shelf, and in the area where the ends of the stiffeners are located, it is covered with shelves made from the end sides of the horizontal ends of the stiffeners and is connected to the inner surface of the shelf, with the shelves of the end sides of the horizontal ends of the stiffeners and with the transition to the inner surface shelves with curly bends of flanges of long sides of the shelf by resistance welding. The implementation of the above nodes of the shelf according to the proposed innovative solution makes it possible to increase the rigidity of the shelf in these joints, to reduce the angle of rotation of the shelf on the supports and, as a consequence, to reduce the deflection of the shelf. This means to increase the strength and durability of the shelf and the entire metal rack. This obviously follows from the theory of resistance of materials, criteria and methods for ensuring their strength.

It is known that the angle of rotation on the supports of beam or frame flat structures is calculated by the formulas:

Q = q * l * l * l / 24 E * J (Fig. 10) and

Q = F * l * l * / 16 * E * J (fig. 11)

where: Q is the angle of rotation on the supports, l is the length of the shelf between the support brackets, E is the modulus of elasticity of the shelf material, which characterizes the material's ability to resist bending depending on the properties of the material itself, J is the moment of inertia of the structure (shelf) section, characterizing the ability of the structure to resist change in shape depending on the size of the cross section. The value E * J is the rigidity of the structure. (1, 2) Obviously, the greater the rigidity of the structure, the less it is subject to change in shape under the influence of external loads. The moment of inertia of the section is calculated using the well-known formula (1):

J = _B * h * h * h / 12

where в is the width of the shelf section at the junction of the shelf elements according to the proposed technical solution of the utility model, h is the height of this section equal to 3k, where k is the thickness of the shelf sheet. It is obvious that the use of the "overlapping" connection of the above-mentioned shelf nodes allowed to increase the section thickness in these joints (up to innovative solutions for the proposed utility model, the thickness in these sections was 2k) and, as a consequence, to multiply the moment of inertia of the shelf section in the places of "reinforcement". This makes it possible to reduce the angle of rotation Q of the plane of the shelf on the support brackets along the length X of the section of the L-shaped bend of the flange of the shelf along its short side passing to the inner surface of the shelf and, as a consequence, to reduce the angle of rotation of the plane of the shelf Q along its length, the deflection f parts, to reduce internal stresses in the material of the shelf and thereby increase the rigidity of the shelf, its strength, durability and reliability of the entire structure of the metal shelf.

References:

1. N.M. Belyaev "Resistance of materials", M. "Science", 1976, p. 222; 282-285

2. M.R. Movnin "Resistance of Materials", Leningrad, "Shipbuilding", 1972, p. 69.

Claims (1)

A metal rack containing at least two vertical posts made of sheet metal with a rectangular horizontal projection, forming an internal hollow space, and having slot-like rectangular nests located in the form of a spatial mesh on its front and rear sides, shelves made of sheet metal with a thickness of 0.35 mm to 0.55 mm, each of which is a rectangular carrier plate in plan with flanges along the long and short sides, having stiffeners made in the form of bent sheet metal profiles, the horizontal ends of which are welded to the inner horizontal surface of the shelf, while on the rear long side of the shelf along its entire length, an oblique figured bend is made with an upward-facing figured bend passing to the horizontal plane of the shelf, and fastening to the inner side of the plate by contact welding, forming a closed area in the cross-section of the shelf b, panels connecting the posts to each other, in the form of rectangular bearing plates in the plan with flanges along the long and short sides and having L-shaped hooks on the flanges of the short sides that enter the slot-like slots of the vertical posts, brackets installed in the slot-like slots of the posts, on which the stiffening elements of the shelves are supported, the thickness of the metal sheet from which the stiffeners are made is equal to the thickness of the metal sheet of the supporting plate of the shelf shelf, the thickness k of the metal sheet from which the panels are made is from 0.35 mm to 0.55 mm, per G -shaped hooks made an L-shaped zig relief, having a height h, no more than 2.0 mm, and the horizontal part of the zig relief is made in such a way that it is partially located on the flange of the short side of the panel, the flanges of the panel along their long sides are made with a bend inside the panel until it fits snugly against the inner surface of the flanges, characterized in that both flanges of the shelf along of its long sides are equipped with a figured bend, passing to the inner surface of the shelf, the flanges of the shelves on the short sides are made with an L-shaped bend, the horizontal part of which goes to the inner surface of the shelf and in its end parts covers the curly bends of the flanges of the shelf along the long its sides, and in the area of stiffening elements placement, it is covered with shelves made from the end sides of the horizontal ends of the stiffeners, and is connected to the inner surface of the shelf, with the shelves of the end sides of the horizontal ends of the stiffeners and with the curly bends of the curly bends of the shelf flanges passing to the inner surface of the shelf along its long sides by resistance welding.

Images