SU509746A1 - Locking device - Google Patents

Description

one

The invention relates to a check valve. It can be used in areas of technology where liquid dosing is required. In devices filled with moving solids (sand, catalyst granules, etc.), it can be used as a double-acting check valve, and also for the automatic discharge of the product from the treatment area.

For the supply of fluid to devices filled with shallow moving solids, raolic devices are currently used, consisting of a valve (ball, cone, hemisphere or disk), seat, stem and pressure spring, which presses the valve to the seat.

However, check valves of a known type do not work satisfactorily. When Denmark receives solid particles under the saddle, the valve does not completely close the gap and, after stopping the supply of fluid, solid particles go through it and clog the supply line.

In addition, when the prodatst is tapped on the valve, its performance decreases dramatically, and the presence in the supply fluid

individual inclusions makes the check valve inoperative.

In order to simplify the design, the housing of the proposed device is made of elastic partitions separated from one another, which are connected by a source of pressure in the middle section.

FIG. J schematically shows a general view of a device for feeding one component, a section; in fig. 2 is a section along A-A in FIG. 1; on fkg. 3 is a general view of a device for feeding two components, a slit; in fig. 4 shows a section through B in FIG. 3; in fig. 5 is a general view of the device for feeding the base component in the working position; in fig. 6 is a section along BB in FIG. five.

The locking device consists of a housing 1, divided into chambers 2 by elastic partitions 3, which are separated at the ends (inlet and outlet of the liquid). Partitions 3 are compressed with each other by a source of pressure 4, which can serve as a liquid (water), air, mechanical pressure-springs, etc. Dispersion of the material under pressure is supplied through fitting 5 between elastic partitions 3 into the treatment zone. When the pressure of the dispersion of the material exceeds the pressure of the source 4, the elastic partitions move apart to form the slot-hole channel 6. When the supply stops, the partitions 3 return to the original position by blocking the passageway 6. When the material is loaded from the treatment zone, the mixture is withdrawn chamber pressures

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Fay.2. As a result, the partitions 3 move apart and open the slotted channel 6. Invention and Form The locking device, in the case of which an elastic element is installed, is characterized in that, in order to strengthen the structure, the elastic element is made of two pieces (adjoining plates between each other, connected by 66 edges, divorced on ri ends attached to the body