SU839938A1 - Chamber feeder charging valve - Google Patents

Description

Appropriately refers to pneumatic conveying systems, for example, for supplying concrete mixes in buildings and, in particular, to loading valves for chamber feeders of pneumatic conveying installations. A charging valve of the feed chambers is known, which contains a suspended suspension mobile from water with a support tip at its end and a spring-loaded hollow cone-shaped case mounted at the end of the pull, with a gap 1 formed in the upper part of the case between it and the end. the charging valve does not provide for the discharge of air from the chamber feeder to atmospheric when maintaining the loading of the latter. The purpose of the invention is to enhance the functionality of the charging valve by imparting to it the functions of a dump valve. The purpose of the valve is achieved by the fact that the valve body is open in the upper and lower parts and has a horizontal partition inside which has a hole that is covered by a hem Fig, 1 shows the loading valve, a general view; in fig. 2 shows an embodiment of a chamber feeder using a loading valve. The charging valve of the chamber feeder contains a suspension from the drive, hanging from 1 with supporting point 5 at its lower end. The opposite end of the pull rod 1 is connected to the lever 3, and the bottom is spring-loaded relative to the hollow cone-shaped case 4 by the spring 5. In the upper part of the case 4, a gap 6 is formed between it and the tail, the case has a horizontal partition 7 with an opening inside. The loading valve is mounted on a chamber feeder, for example, a concrete mixture supplying device containing a receiving hopper 8, a pressure vessel 9 with mixing blades 10 and a concrete pipe 11. The lever 3 of the valve, at the end of which a counterweight 12 is located, is connected to a pneumatic cylinder 13. Pressure vessel equipped with a sensor 14 for the minimum working pressure in the tank and a safety valve 15, the receiving hopper 8 is equipped with a sensor 16 for the level of the loaded portion of concrete. The compressed air distribution system of the chamber feeder consists of the distributor 17 for controlling the pneumatic cylinder 13 and the distributors 18 and 19 for supplying air, respectively, to the pressure reservoir and the concrete pipe. To control system pressure

serves as a pressure gauge 20. The supply of concrete to the receiving bin 8 is performed by a conveyor 21, an electric motor 22 is mounted to drive the blades 10.

The charging valve of the chamber pittel of the concrete mixture supply device works as follows,

In the initial state, the loading valve is closed under the action of the counter-load 12, However, due to the spring between the fifth 2 and the partition 7 there was a gap that provides a connection between the internal cavity of the container 9 and the atmosphere. At the same time, the valves 18 and 19 block the pipelines for supplying compressed air, and the valve 17 provides the connection of the rods of the cavity of the pneumatic cylinder 13 with the pipe for supplying air from the opposite side; cavities - with the atmosphere.

Next, compressed air is supplied through the distributor 1 to the rod cavity of the pneumatic cylinder 13, under the action of which through the lever 3 tons ha 1, compressing the spring 5, rises up to the stop of the terminal 2 into the partition 7. This interrupts the connection of the internal cavity of the pressure tank 9 s atmosphere, and the loading valve is additionally raised. After that, the conveyor 21 is activated and when the bunker 8 is filled to the level indicated by the sensor 16 by the distributor 17, the cavities of the power cylinder 13 are switched: rod to atmosphere, anti-rod to air pressure. Under the action of the piston of the cylinder, 13 t ha 1 goes down, and if there is a residual (minimum operating) pressure in the pressure tank (from the previous discharge tank capacity cycle), the holding valve is closed, the second 2 is separated from the bulkhead 7, and the pressure air in the tank 9 is discharged, after which the valve under the action of its own

The masses and masses of the concrete mixture pressing on it fall down and hit the spring 5, which causes it to oscillate, increasing the valve capacity in the open state. After emptying the receiving bin 8, the charging valve closes and the compressed air is connected to the conduit 11 and the tank 9, and the loading conveyor 21 is turned off.

Under the action of the pressure of compressed air in the air tank and the water line and due to the effect of the blades 10, which briefly block the outlet opening of the tank

9, the mixture is moved through the concrete line in portions separated by air gaps. After emptying the pressure vessel and releasing the mixture from the concrete pipe, the pressure in the pressure vessel drops to the minimum working temperature and the air supply to the pressure vessel and the water pipe stops. Then, the piston of the pneumatic cylinder 13 is again set in motion, as a result of which the air is exhausted (residual). And the loading valve opens to start emptying the receiving hopper, i.e. Duty cycle repeat T

Claims (1)

Invention Formula Chamber loading valve. a feeder comprising a suspension hitch movable from the drive with a support point at its end and a spring-loaded hollow cone-shaped body mounted at the end of the pull, and in top of the case between it and This ring is formed by an annular gap, characterized in that, in order to expand its functionality by imparting to it the functions of an air discharge valve 5, the valve body is made open in the upper and lower parts and has a horizontal partition inside with an orifice that is covered by a heel, which is located under the partition. Sources of information taken into account in the examination 1, Vorobiev et al., Pneumatic conveying installations. Reference book, L ,, Mechanical Engineering, 1969, p., 69, rice, 51 (prototype), Jy / .;-./ FIG. 2 G.A.