SU958270A1 - Closure for controlling loose material flow rate - Google Patents

Description

(54) SHUTTER FOR MANAGING THE FLOWS OF BULK

MATERIALS

The invention relates to shut-off and control technology, and more specifically, to bunker exhaust devices (closures) with automated control of the flow rate of bulk products, such as grain. Closest to the invention is a shutter for controlling the flow of bulk materials, comprising a housing, a vertical nozzle with a rectangular outlet section mounted therein and a rotary valve located below it to shut off the nozzle. It excludes the nonlinearity of the flow characteristic, to obtain which is close to linear, in this design the cylindrical valve has a figured cutout. The figure-cut valve overlaps the rectangular opening of the body in such a way that when it is rotated, the length of the rectangular bore section changes, while the flow rate of the bulk material varies linearly. Valves of this type are advisable to use in remote control and automatic control systems in conjunction with the measuring and regulating apparatus 1. The disadvantages of the known gate are the contact of the moving product with the elements of the cylinder actuator valve and the large clearance in height. The height of the device under actual operating conditions becomes even greater due to the additional upper adapter necessary to change the shape of the channel section and to evenly distribute the product along the entire length of the rectangular output section. A significant disadvantage is also the presence in the internal cavity of the body of a solid shaft intersecting the flow of bulk material. Such an obstacle in the flow path creates the danger of static arches and cessation of outflow, especially when transporting bulk material with elevated values of the coefficient of friction, for example, grains with increased surface moisture. The purpose of the invention is to increase the reliability of operation by preventing material from contacting with the drive elements and preventing material contamination. The goal is achieved by the fact that, in a gate containing a housing, a vertical branch pipe mounted therein with a rectangular outlet section and a rotary valve located below it to shut off the branch pipe, the branch pipe has a height equal to the height of the case and is designed so that its inlet section is is a circle or square.

In addition, axle shafts are mounted in the housing, on which a rotary valve is fixed.

The shape and size of the receiving opening of the vertical pipe allows the valve to be inserted into drift without additional transition elements.

The vertical pipe fences off the bulk material from the drive elements and performs the functions of an adapter, decolouring the gate coupling directly to the gravity feed, thereby achieving significant height savings. In the proposed construction, there is no solid shaft that prevents free flow of the product. The cylindrical valve rotates on two semi-axes x, which are outside the vertical pipe. The extreme positions of the rotary valve are limited by the walls of the vertical pipe.

FIG. 1 shows the shutter, frontal section; in fig. 2 - the same, top view; in fig. 3 shows section A-A in FIG. one.

The shutter consists of a housing 1 with a vertical nozzle 2 mounted therein, having an outlet opening 3 of rectangular cross section and a receiving opening 4, which is a circle or square for mating directly to the gravity feed 5. The outlet opening is blocked by a rotary cylindrical valve b, having shaped cut-out 7. On the side walls 8 and 9 of the valve b, two semi-axes 10 and 11 are rigidly fixed, placed in bearings 12 and 13 of housing 1. The shutter can be controlled using a single-turn actuator 14, is connected through coupling 15 to the half-axis U.

When the cylindrical valve b is rotated around the horizontal axis, the size of the outlet 3 of the vertical pipe 2, and hence the flow rate of the bulk material, is changed according to the law determined by the shape of the shaped cut 7. The length and angle of the cylindrical valve b are selected

according to the method described in the known device but so that in the extreme closed position of the valve its edge 16 abuts against the wall 17 of the inner material pipeline 2, and in the extreme open position the edge 18 abuts against the wall 19 of the vertical material pipeline.

The presence of a vertical nozzle, excluding contact of bulk material with the elements of a cylindrical valve actuator, helps to improve the sanitary condition of the transported medium, in particular, grain, and reduces abrasive wear and contamination of the valve parts, increasing the durability of its work. Making the vertical nozzle in the form of an adapter makes it possible to mount the valve into gravity without additional transition elements, which reduces the height required for installation and reduces the labor intensity of the installation work. The absence of parts in the internal cavity of the valve, preventing the free expiration of the product, increases the reliability of the entire system. There are no special mechanical stops for the rotary valve, the role of which is performed by the walls of the vertical pipe.

Claims (2)

1. A valve for controlling the flow rate of bulk materials, comprising a housing, a vertical nozzle with a rectangular outlet cross section mounted therein and a rotary valve located beneath it for closing the nozzle, characterized in that in order to increase the reliability of operation by preventing material from contacting the drive elements and prevent contamination of the material, the nozzle has a height equal to the height of the body, and is designed so that its inlet section is a circle or a square. 2. A closure according to claim 2, characterized in that semi-axes are mounted on the body, on which a rotary valve is fixed. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 660906, cl. B 65 D 90/54, 1976.