RU1795234C - Register and method of its manufacture - Google Patents

Abstract

SUMMARY OF THE INVENTION: Rectangular windows are made over the entire area of the base with longitudinal ribs, forming transverse and longitudinal lintels. The ribs are deflected at an angle to the plane of the base, in the cross section they look like an isosceles trapezoid and are attached with large bases to the longitudinal bridges. The angle of inclination of the ribs is 45-60 °. The width and length of each window are respectively (0.7-1.5) and (7th) N. The width of each longitudinal bridge is (0.2-0.6) N. The length of the larger base of each trapezoid is (0, 1-0.3) H, where H is the height of the rib. Windows are cut down in a checkerboard pattern with the formation of two adjacent transverse rows at the same time. After cutting down the windows, the ribs are bent relative to the base by a predetermined angle. 2 sec P. f-ly, 4 ill.

Description

The invention relates to the field of construction and construction industry and can be used for the production of unified ventilation grilles of any given length for industrial and civil construction, as well as transport.

Ventilation grilles are known, which are a sheet web, for example of aluminum alloys, with through windows made therein.

Known gratings can be made only in predetermined dimensions, which are determined by the dimensions of the sheet blank and the dimensions of the stamp.

In addition, the absence of ribs of the known lattice causes its low mechanical strength.

Known long extrusion grating containing longitudinal strips of ribs interconnected by jumpers with the formation of windows, with ribs

inclined to the plane of the ribs at an angle other than 90 °.

A disadvantage of the known grating is the relatively low throughput due to the turbulence of the flows passing through the grating openings.

A known method of manufacturing a ventilation extrusion grill, including the operation of manufacturing a long workpiece of any given length with inclined ribs, followed by punching holes (windows).

The purpose of the invention is to increase the throughput of the grating. . The goal is achieved in that in a ventilation grill containing a base with longitudinal ribs, the axis of which is inclined to the plane of the base, and windows placed longitudinal and transverse rows across its entire area, the cross section of the ribs is an equal-sided trapezoid, ribs simvj

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metrically placed on the longitudinal jumpers, and their axis is inclined to the base plane at an angle of a 45-60 °, while the width of each window is 0.7-1.5 N, the width of the jumpers is 0.2-0.6 N, width the base of each of the ribs is 0.1-0.3 N, where N is the height of the ribs and the window length is 7-10 N.

In FIG. 1 shows a lattice with ribs perpendicular to its base; in FIG. 2 is a section along AA of FIG. 1; in FIG.

3 - lattice with inclined ribs; in FIG.

4 is a section along BB of FIG. 3.

The lattice is a base 1 with longitudinal ribs 2, over the whole area of which rectangular windows 3 are cut out. The windows are located along the grating area in longitudinal and transverse rows, with each longitudinal row located between adjacent longitudinal ribs 2. In cross section, each rib is an equal-sided trapezoid, with each rib symmetrically placed on the corresponding jumper 4, and its axis is inclined to the base plane at an angle of "45-60 °. The width of each window is 0.7-1.5 N, the length is -7-10 N, the width of the jumpers between the rows of windows is 0.2-0.6 N, the width of the base of each of the ribs is 0.1-0.3 N where H is the height of the ribs.

The lattice works as follows.

By means of a fan, a stream of air is blown through the grate windows. With the indicated ratios of the sizes of the windows of the grating and its ribs, the configuration of the ribs, their inclination and their symmetrical arrangement with respect to the jumpers, a series of laminar flows is formed providing the maximum grating capacity.

 Changing the angle of inclination of the ribs changes the angle of inclination of the air flow generated by these ribs. This extends the technological capabilities of the grill, which can be used both in the supply ventilation and in the exhaust. Depending on the particular installation conditions of the grill, the ribs may be located at right angles to the plane of its base.

A method of manufacturing a lattice is as follows.

First, a finned panel is pressed from a round or flat billet on an extruder press, the ribs of which are located at right angles to the base plane. A panel of any given length can be pressed in one stroke of the press. .Then the compressed panel is stretched on the correct stretching machine. If necessary, after editing, the panel is cut lengthwise into separate panels. After that, the windows are punched in the panel, and in one press stroke, the windows are cut in a checkerboard pattern in two adjacent transverse rows, i.e., two extreme windows in the same row and a window placed between them in the adjacent row. When the panel is fed to the step and the next press stroke, the middle window of the next (third) row and the extreme windows of the previous transverse row are punched, the middle window in which was punched for the previous press stroke. Windows punched in one stroke of the press are shown in FIG. 1 same shading.

Such a punching sequence allows an increase in the distance in plan between the punching punches of the press with minimum jumper sizes.

Depending on the type of ventilation and the installation location of the grill, the ribs can be located at a right angle to the base or at any angle within a range of 45-60 °. In the first case, punching windows in a finned panel is the last operation, i.e. eh. after punching the windows, the panel becomes a finished product. In the second case, after punching the windows, the ribs are bent to a predetermined angle and on a roller straightening machine. With this sequence of operations, the ribs do not impede the penetration of punched punches to the base of the panel, which makes it possible to obtain the minimum width of the bridges and the symmetrical placement of the ribs relative to the longitudinal bridges, which, in turn, positively affects the laminar flow of air.

The implementation of the elements of the proposed lattice within the specified dimensions, selected empirically, allows laminar flows and thereby increase the throughput of the lattice.

The influence of the sizes on the throughput of the grating is shown in Table 1. It should be noted that with the ratio of the sizes indicated in the table, the total area of the windows is unchanged.

The proposed lattice has a minimum metal consumption, high mechanical strength and maximum throughput when the air flow passes through its windows in a directional manner, while the lattice can be made of any practically unlimited length, and its ribs can be located at an angle a. - 45-60 ° to the base or perpendicular to it.

SUMMARY OF THE INVENTION 1. A ventilation grille comprising a base, windows made over its entire area, having a width and a length, forming transverse and longitudinal lintels having a width, longitudinal ribs deviated at an angle to the plane of the base and having a height that differs. Moreover, the ribs in the cross section have the appearance of an isosceles trapezoid and are attached with their large BNJIH bases to the longitudinal bridges, while the angle of inclination of the ribs is 45-60 °. the width and length of each window being respectively (0.7-1.5) and (7-10) N,

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the width of each longitudinal web is (0.2-0.6) H, and the length of the larger base of each trapezoid is (0.1-0.3) H, where H is the height of the rib.

2. A method of manufacturing a ventilation grill by cutting windows from the base with longitudinal ribs to form transverse and longitudinal rows thereof, characterized in that the windows are cut in a checkerboard pattern with the formation of two adjacent transverse rows at the same time, and after all windows are cut the base bends the ribs relative to the base by a predetermined angle.

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