SU1105761A1 - Loose material batcher - Google Patents

Abstract

BATTERY OF MATERIALS, containing a hollow body with upper loading and lower vtutskim holes, located in the housing of the swivel element with a drive and tail mounted with the possibility of combining with the loading and discharge holes, a pneumatic source of discharge of dry material from the channel. characterized in that. To increase the metering accuracy, the rotation indicator of the drive, the synchronizer, the converter, the electronic key, the Tshtani source are introduced into it, and the pneumatic source is designed as an electric discharge accelerator with a capacitive drive, the channel being sealed into two parts with a flexible membrane , and in the case there are two holes for connecting the electric discharge accelerator with the loading hole and a part of the disk channel that is not connected with the loading and discharge holes, and the output of the rotary indicator is audio drive is connected via a synchronizer transformation Tel and a first input of an electronic key with electric discharge accelerator input, and a second electronic key input connected to a power source via a capacitive accumulator. about

Description

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The invention relates to the dosage of bulk materials and can be used in energy and other industries. A dispenser for bulk solids is known, comprising a cylindrical body with a hopper and an outlet fitting and a drive disk with cells installed in it, equipped with an actuator l. However, the known dispenser is characterized by low accuracy and reliability of dosing of bulk media. The closest in technical essence and the achieved result to the invention is a dispenser of bulk materials, comprising a hollow body with upper loading and lower outlets, located in the housing a rotating element with a drive and a channel mounted with the possibility of combining with the loading one. mi., pneumatic source of loose output. The material from channel 2. The disadvantage of this dispenser is also in the low accuracy of the dosage of micro doses, due to the ambiguity of the size of the channel during its rotation. The purpose of the invention is to improve the dosing accuracy of bulk materials. This goal is achieved in that the bulk material dispenser contains a hollow body with upper loading and lower outlet openings located in the body of a rotating element with a drive and canal installed with the possibility of combining with the loading and outlets, a pneumatic source of bulk material output from a channel, an indicator of drive rotation, a synchronizer, a converter, an electronic key, a power source, and pneumatically The source is made in the form of an electric discharge accelerator with a capacitive drive, the channel is hermetically divided into two parts with a flexible membrane, and two holes are made in the housing to connect the electric discharge accelerator to the loading hole and the disk channel part not communicating with the loading and discharge holes the output of the rotation indicator of the drive is connected through a synchronizer, a converter and the first input of the electronic key to the input of the electric discharge accelerator. And the second input of the electronic key is connected to and Power supply via capacitive storage. The drawing shows the proposed dispenser. The bulk material dispenser comprises a housing 1 with a hopper 2, an upper charging 3 and a lower exhaust 4 apertures, a rotatable element 5 with a drive 6, channels 7 and cells 8 formed by membranes 9, an electric accelerator 10 with a capacitive storage 11, a rotation indicator 12 connected through the synchronizer 13, the converter 14 to the first input of the electronic switch 15, the second input of which is connected through the capacitive drive 11 to the power source 16. The electric accelerator 10 is connected through the tubes 17. with holes 18 and 19 in the housing 1. Work This dispenser is carried out as follows. The bulk material from the hopper 2 fills the cell 8. The actuator 6 provides the rotation of the rotary element 5. The synchronizer 13 through the converter .14 and the electronic switch 15 supplies the voltage from the capacitive storage 11, which is discharged in the electric accelerator 10. Along the length tubes 17, a shock wave is formed, dividing into two fronts. The shock moving through the aperture. 18 enters the hopper 2, then moves in a flowable medium, providing a constant. The porosity porosity of the cell .8. due to the constancy of the parameters of the shock wave, when moving through the opening 19, it reaches the membrane 9 of the cell 8, connected to the outlet 4, acts like a piston on it, ensuring complete removal of the bulk dose through the outlet 4. Drive 6 provides rotation of the rotary element 5 by moving the cell 8 filled with the flowing medium to the loading 3 and outlet 4 holes. Thus, cyclical dosing of bulk material with constant porosity, ensured by the constant parameters of the shock wave, is achieved, which leads to an increase in dosing accuracy.

Claims (1)

Bulk material dispenser, comprising a hollow body with an upper feed and lower discharge openings, a rotary element located in the housing with a drive and a channel mounted to be combined with the feed and discharge openings, a pneumatic source for withdrawing bulk material from the channel, characterized in that in order to increase the accuracy of dosing, a drive rotation indicator, a synchronizer, a converter, an electronic key, a power source are introduced into it, and the pneumatic source is made in the form of an electric discharge accelerator with a capacitive storage, the channel being hermetically divided into two parts by a flexible membrane, and two openings are made in the housing for connecting an electric-discharge accelerator with a loading hole and a part of the disk channel not communicating with the loading and exhaust holes, while the output of the drive rotation indicator connected § through synchronizer, converter and first input of electronic switch-1 | cha with the input of the electric discharge accelerator, and the second input of the electronic key is connected to the power source | through a capacitive drive. S