RU2147766C1 - Regulator of usage of sand materials - Google Patents

Abstract

FIELD: control equipment. SUBSTANCE: device has tank with input and output holes, gate for measuring through section of output hole of tank, gate drive, force measuring detector, tray which interacts with flow of sand material, pneumatic cylinder control circuit, which has input pneumatic nozzle, which is connected to air, and shutter with drive. Input and output pneumatic nozzles are coaxial and are mounted with space between them. Shutter is spaced with respect to output pneumatic nozzle for reciprocal movement in direction which is perpendicular to axis of input and output pneumatic nozzles. This design provides possibility to eliminate mechanical contact between shutter and nozzle, so that mechanical wear of members of regulator is prevented. EFFECT: increased reliability of device operations, decreased power required for driving shutter, since shutter is not pressed against nozzle. 1 dwg

Description

 The invention relates to devices for controlling the flow and can be used in various industries.

 A known flow regulator for bulk materials containing a hopper with inlet and outlet openings, a gate, designed to change the bore of the outlet opening of the hopper, a force measuring device and a tray mechanically connected with a force measuring device, interacting with the flow of bulk material (Lutkin N.I., Morar K. K. Instruments for monitoring technological parameters in a stream, - M; Kolos, 1978, p. 18-27). The disadvantages of the known device are low accuracy and complexity of operation, due to the fact that the gate is controlled manually.

 The closest in technical essence to the proposed device is a flow controller for bulk materials containing a hopper with inlet and outlet openings, a gate designed to change the bore of the outlet opening of the hopper, a gate valve made in the form of a one-sided pneumatic cylinder with a spring-loaded membrane, a force measuring device, mechanically connected with a force measuring device, a tray interacting with the flow of bulk material associated with the output of the force measuring device a pneumatic cylinder control system containing an inlet pneumatic throttle associated with a source of compressed air, an output pneumatic throttle associated with the atmosphere, and a damper with a drive interacting with an output pneumatic throttle (Lotkov N.A., Polukhin A.I., Tantlevsky A.V. ., Chernykh VD Weight measuring equipment, - M: Agropromizdat, 1989, pp. 143-146). A disadvantage of the known device is its low reliability due to wear during mechanical contact of the shutter with the nozzle during the operation of the nozzle-shutter contact at a response frequency measured in tens of hertz. Another disadvantage of the known device is the increased power of the damper drive necessary to create sufficient force to force the damper to the nozzle.

 The purpose of the invention is to increase reliability and reduce the power of the drive damper.

 The design of the controller of the flow of bulk materials is shown schematically in the drawing. The regulator comprises a housing 1, a hopper 2, a gate 3, a gate actuator made in the form of a pneumatic cylinder 4 containing a membrane 5 and a spring 6. A load cell 7 is fixed to the body 1 with a tray 8, which interacts with the flow of bulk materials 9. The output of the load cell 7 is connected with a pneumatic cylinder control system comprising an inlet pneumatic nozzle 10 connected to a source of compressed air 11, an outlet pneumatic nozzle 12 and a shutter 13 with an actuator 14.

 The flow rate controller of bulk materials is as follows. The flow rate of bulk material is set by entering the setpoint corresponding to the pressure force of the flow of bulk material on the tray 8 at a given flow rate of bulk material. When the regulator is turned on, the outlet of the hopper 2 is blocked by a gate 3, the flow of bulk material to the tray 8 does not flow, the force acting on the tray 8 is less than the setting, while the damper does not block the stream of compressed air formed by the pneumatic inlet 10. air through the nozzle 12 enters the working cavity of the pneumatic cylinder 4, as a result of which the gate rotates, opening the outlet of the hopper 2, and the flow of bulk material flows to the tray 8. After the force acting on the tray 8 becomes According to the set point, the damper shuts off the stream of compressed air formed by the nozzle 10, and the compressed air from the working cavity of the pneumatic cylinder 4 enters the atmosphere, under the action of the spring 6, the gate 3 rotates, closing the outlet of the hopper 2. In this case, the flow rate of bulk material decreases, the force acting on tray 8, becomes less than the setting, and the flap moves, allowing compressed air to enter the working cavity of the pneumatic cylinder, and the gate rotates, opening the outlet of the hopper and increasing the flow rate of bulk material. Thus, at a given setting, the gate fluctuates relative to the position corresponding to a given flow rate of bulk material, and the average flow rate of bulk material is equal to a predetermined value.

 Using the proposed invention improves the reliability of the flow controller of bulk materials, since there is no mechanical contact between the valve and the nozzle, while there is no wear of the parts of the controller. An additional advantage of the proposed design of the controller over the known device is the reduction of the drive power of the damper, since the damper is not pressed to the nozzle.

Claims (1)

 Bulk material flow regulator containing a hopper with inlet and outlet openings, a gate designed to change the bore of the outlet hole of the hopper, a gate actuator made in the form of a one-sided pneumatic cylinder with a spring-loaded membrane, a load cell mechanically connected to the load cell, a tray interacting with the flow of bulk material associated with the output of the load sensor control system of the aforementioned pneumatic cylinder containing an input pneumatic nozzle, associated with a source of compressed air, the output pneumatic nozzle associated with the atmosphere, and a damper with a drive, characterized in that the inlet and outlet pneumatic nozzles are installed with a gap between them, and the shutter is installed with a gap relative to the output pneumatic nozzle with the possibility of translational movement in the direction perpendicular to the common axis of the inlet and outlet pneumatic nozzles, and overlapping in the extreme position of the air stream formed by the inlet pneumatic nozzle.