RU1797592C - Pneumatic device for pulsed discharge of bulk material from container - Google Patents

Abstract

Use: for unloading bulk materials from a container. SUMMARY OF THE INVENTION: the device comprises a hollow body 1 with a nozzle 2 for supplying compressed air, having a cover 7 blocked by a ball 10, a membrane 4 with an opening 11, and a nozzle 3 for releasing compressed air. The device is equipped with a membrane pneumatic motor with a membrane 15, a throttle with a non-return valve 21, which communicates one of its cavities with the body cavity 1, and a rod 18 connected to the membrane 15 is installed in the other cavity of the air motor. Two two-arm lever 23 is fixed to the cover 7, one the shoulder of which is connected to the stem 18, and the other is in contact with the ball 10. 1 ill.

Description

11 21 W 19 ft 15 16 17 18

The invention relates to the supply of material by pneumatic transport and can be used, for example, for shaking vaults of flour, cement in containers, for pulsed aeration, etc.

Devices are known comprising a hollow body with a nozzle for supplying air and a barrel located in the body cavity, a spring-loaded membrane covering the body cavity and the barrel inlet and the body cover forming a valve box with the membrane. However, such a device has a complex valve box design.

Also known is a pneumatic pulse device for discharging bulk material from a container, comprising a hollow body with a nozzle for supplying compressed air, a cap having a ball blocked by a spring-loaded ball, a nozzle located in the cavity of the body for supplying compressed air and a membrane fixed between the body and the cap with the possibility of blocking the inlet a nozzle for discharging compressed air and having an opening communicating with each other the cavities of the housing and the cover on both sides of the membrane.

However, this design allows only single pneumatic pulses (shots) to be obtained, which limits the technological capabilities.

The aim of the invention is to expand the technological capabilities of the mechanism, namely, receiving, along with single shots, a series of pneumatic shots in automatic mode, the pulse repetition rate (shots) being adjustable.

This goal is achieved by the fact that it is equipped with a membrane pneumatic motor, one cavity of which is communicated by means of an air duct having a throttle and a check valve with a cavity of the device body, and a rod connected to the membrane is installed in the other cavity of the pneumatic engine, and a two-arm lever is fixed to the cover of the device one shoulder connected to the rod, and the other in contact with said ball.

The drawing shows a General view of a pneumatic pulse device for discharging bulk material from a container.

The device comprises a hollow body 1 with a nozzle 2 for supplying compressed air and a nozzle for releasing compressed air (hereinafter the barrel) 3, a membrane 4 with washers 5 and 6, as well as a cover 7 with a hole 8 in which the spring 9 and the ball 10 are placed. the hole 4 is made to the membrane 4. The housing I encloses. the cavity 12 in itself. The membrane 4 and the cover 7 form a valve box, and they also form a cavity 13. In addition, the device

includes a membrane air motor containing a housing 14, a membrane 15, roofs. cu 16, return spring 17, stem 18. The housing 14 and the membrane 15 form the working cavity 19. The cavity 12 of the housing 1 of the air duct 20 is connected through the throttle with a check valve 21 with the adjustment handle 22 to the working cavity 19 of the membrane air motor, the rod 18 of which is articulated connected to one of the ends of the double shoulder lever 23. and the other end of the lever 23 contains a button protrusion 24 and is able to interact with the ball 10.

The device operates as follows. .

The first mode of operation is single shots (similar to the prototype). In this case, the adjusting knob 22 of the pneumatic spacer 21 is in the position when the passage

5, the cross section is closed and the compressed air does not pass through the pneumatic throttle and, accordingly, does not pass into the cavity 19 of the membrane pneumatic motor. Compressed air passing through the pipe 2 fills the cavity 12 of the housing 1 and through the hole 11 passes into the cavity 13 of the valve box formed by the cover 7 and the membrane 4. The pressure on both sides of the membrane 4 is the same and the membrane 4

5, spring 9 is pressed against the bore of the barrel 3, blocking it. When pressing the ball 10 by pressing the button protrusion 24 of the two shoulders of the lever 23, the air from the cavity 13 enters the atmosphere. Because the

0 the cross-sectional area of the hole 11 is smaller than the cross-sectional area of the hole 8, then the pressure in the cavity 13 drops and the membrane 4 moves away, compressing the spring 9 and opening the hole of the barrel 3, as a result

5 shot. When you stop pressing the ball 10, it closes the hole 8, the pressure on both sides of the membrane 4 is equalized and it closes the hole of the barrel 3.

The second mode of operation is to obtain a series of pneumatic shots in automatic mode with an adjustable repetition rate. In this case, the adjusting knob 22 of the pneumatic spacer 21 is in a position where the passage section

5 open and compressed air passes into the cavity 19 of the membrane air motor. In this case, as in the first case, compressed air passing through the pipe 2 fills the cavity 13 of the valve box. Pressure on both sides of the membrane 4 is exerted

the membrane 4 is pressed by the spring 9 against the hole of the barrel 3, blocking it, compressed air also passes through an adjustable air throttle with a non-return valve 21 (with a set flow rate of compressed air), air ducts 20 and enters the cavity 19 of the membrane air motor, as a result of which the membrane 15 bends, compressing the return spring 17, while the rod 18 is moving, acting on the shoulder of the two shoulders of the lever 23, the other shoulder of which at the same time acts on the ball 10, recessing it, as a result of which compressed air from the cavity 13 goes into a atmosphere. Since the cross-sectional area of the hole 11 is smaller than the area of the hole 8, the pressure in the cavity 13 drops and the membrane 4 moves away, compressing the spring 9 and opening the hole of the barrel 3, as a result of which a shot is fired. Since the pressure in the cavity 12 drops, the spring 17 of the membrane air motor pushes the membrane 15 and, accordingly, the rod 18 to its original position, while the air from the cavity 19 freely passes through the throttle with a check valve 21. The two-arm lever 23 connected to the rod 18 stops pressing the ball 10 and it closes the hole 8, the pressure on both sides of the membrane 4 is equalized and it closes the hole under the action of the spring 9

barrel 3. It should be noted that the process of equalizing the pressure on both sides of the membrane 4 through the hole 11 is faster than the flow of air through the air throttle 21 into the cavity 19 of the air motor (since the cross-sectional area of the throttle is less than the cross-sectional area of the hole 11) to the amount when the air motor is triggered. When the amount of air flows enough into the chamber 19, the membrane air motor is activated and the two shoulders lever again and presses the ball 10 and a shot occurs. In this way, shot cycles are repeated automatically. Moreover, it is customizable; compressed air flow with the adjusting knob 22 of the pneumatic spacer 2-1, the delay time of the operation of the membrane pneumatic motor and, consequently, the repetition rate of shots (pneumatic pulses) are adjusted.

The invention allows to expand technological capabilities, to intensify transport operations, aeration of bulk materials, etc. In addition, the pneumatic pulse device can operate on compressed air that does not contain atomized oil, which is important, for example, for the food industry.

Claims (1)

SUMMARY OF THE INVENTION An air-pulsed device for discharging bulk material from a container, comprising a hollow body with a nozzle for supplying compressed air, having a cover blocked by a spring-loaded ball, a cap located in the cavity of the body, a nozzle for discharging compressed air and a membrane fixed between the body and the cover with the possibility of blocking the inlet a nozzle for discharging compressed air and having an opening communicating with each other the cavities of the housing and the cover on both sides of the membrane, characterized in that, in order to expand technological capabilities, it is equipped with a membrane pneumatic motor, one cavity of which is communicated by means of an air duct having a throttle and a non-return valve, with a cavity of the device body, and a rod connected to the membrane is installed in the other cavity of the air motor, and a two-arm lever is fixed to the device cover one shoulder connected to the rod and the other in contact with said ball,