RU78696U1 - POWDER-POWDER OF POWDER MATERIALS - Google Patents

Abstract

1. A powder metering feeder comprising a housing with a gas supply device and a gas-powder suspension supply device, characterized in that the housing is made in the form of a hollow cylinder with ends in the form of hemispheres sealed to the cylinder, a gas supply device and a supply device gas-powder suspensions are respectively made in the form of a gas supply pipe and a gas-powder suspension pipe, one of the hemispheres is equipped with a filling hole with a sealed cover, and the other is hemisphere sealed the gas supply pipe and the gas-powder suspension supply pipe, which are provided with detachable connections outside the housing for connecting to the gas and gas-powder suspension pipes respectively, and inside the body are parallel to the cylindrical surface of the hollow cylinder in a plane passing along the axis of the cylinder and the axes of the pipes, gas is located closer to the cylinder axis, inside the housing, the side surface of the nozzles is perforated with holes, and their ends are hermetically sealed, and the holes are sideways the surface of the gas supply pipe is located on the side of the cylinder axis, and the holes of the pipe on the lateral surface of the gas powder suspension are located outside the plane passing along the axis of the cylinder and the axis of the gas powder suspension pipe. 2. The feeder-dispenser according to claim 1, characterized in that the total area of the openings of the side surface of the gas supply pipe does not exceed the orifice of the gas supply pipe, and also does not exceed the total area of the holes of the side surface of the gas powder suspension supply pipe. Feeder dose

Description

The utility model relates to the field of pneumatic dosing and transportation of powder materials of various flowability and composition with a dispersion of powder particles of not more than 200 microns with feeding them into a medium with high or low pressure in the consumption zone. It can be used in various industries where it is necessary to supply powder material with the required flow rate, dispersion and composition. For example, in mechanical engineering, metallurgy, homebuilding, flour milling industries, in powder coating devices.

Known feeder-dispenser for a pistol - electrostatic spray gun for powder materials, a description of the invention to the patent of the Russian Federation No. 2115487, Fig.12, which is the closest analogue. This device contains a feeder, which is made in the form of a tumbled-down glass with a massive disk dividing the glass horizontally into two parts, with a through threaded hole along the axis. A powder-gas fitting is screwed into the disk, passing through the central hole in the glass with the help of an intermediate sleeve and which is part of the gas-powder suspension supply device. The beaker is connected to the spray gun through a hose. In the bottom of the glass near its central part, a gas supply device is mounted, for which a groove is made for supplying gas to the feeder; the disk is equipped with nozzles for the injection of this gas, located at an angle to the longitudinal axis of the glass. The walls of the glass extend beyond the disk. In the working position, the drive with its walls is lowered into the powder, and the level of the powder corresponds to the level of the disk. In this case, the lower walls of the glass limit the space with the powder, where gas is sprayed through the nozzles and gas is mixed with the powder.

The disadvantages of the known device include the fact that the sampling of the powder material is carried out only under the area of the glass, which does not completely empty the filling tank, the lack of adjustment of the flow rate of the powder material and a rather complicated and massive structure.

The technical task to be solved was to create a powder material metering feeder, with a simpler design, with which it would be possible to completely empty the filling tank, and to regulate the consumption of powder material.

The essence of the utility model consists in the fact that the feeder-dispenser of powder materials includes a housing with a gas supply device and a device for supplying gas-powder suspension, the housing is made in the form of a hollow cylinder with ends in the form of hemispheres, hermetically connected to the cylinder, the gas supply device and the gas-powder suspension supply device are, respectively, in the form of a gas supply pipe and a gas-powder suspension supply pipe, one of the hemispheres is provided with a filling hole with an airtight cover, to the other the gas supply pipe and the gas-powder suspension supply pipe are tightly mounted to the olusphere, which are provided with detachable connections outside the body for connecting, respectively, to the gas and gas-powder suspension mains, and inside the body are parallel to the cylindrical surface of the hollow cylinder in a plane passing along the axis the cylinder and the axes of the pipes, the gas supply pipe being located closer to the cylinder axis, inside the body, the side surface of the pipes is perforated with holes, and their ends are hermetically sealed closed, and the holes of the side surface of the gas supply pipe are located on the side of the cylinder axis, and the holes of the pipe side of the supply surface of the gas-powder suspension are located outside the plane passing along the cylinder axis and the axis of the pipe of the gas-powder suspension.

In addition, the total area of the holes of the side surface of the gas supply pipe does not exceed the flow area of the gas supply pipe, and does not exceed the total area of the holes of the side surface of the gas powder suspension pipe.

In addition, the holes of the side surface of the gas supply pipe are arranged in a row in a plane passing along the axis of the cylinder.

In addition, the holes of the side surface of the gas supply pipe are arranged in two rows.

In addition, the gas supply pipe is equipped with a gas flow control device.

The technical result consists in the fact that a feeder-dispenser of a simple design was created, which allows completely emptying the filling device from powder material due to the cylindrical shape of the body with hemispherical ends and the geometry of the gas supply pipes and gas-powder suspension. And also allows you to adjust the amount of powder supplied by adjusting

the gas flow supplied to the metering feeder by a control device, which in the simplest case can be a control valve.

The essence of the utility model is illustrated in figure 1, which presents a General view of the device of the feeder-dispenser.

The device consists of a housing 1, a cover 2 of a filling hole, a perforated nozzle 3 for supplying gas, a perforated nozzle 4 for supplying a gas-powder suspension, an adjusting valve 5.

The housing 1 is made in the form of a hollow cylinder with end faces in the form of hemispheres, hermetically connected to the cylinder, one of the hemispheres is equipped with a filling hole with a sealed cover 2. Perforated gas supply pipe 3 and gas-powder suspension suspension supply pipe 4, which are outside, are hermetically mounted the housings are provided with detachable connections for connecting, respectively, to the gas line and the gas-powder suspension line (not shown in FIG.). Inside the casing, the gas supply pipe 3 and the gas-powder suspension suspension supply pipe 4 are arranged parallel to the cylindrical surface of the hollow cylinder in a plane passing along the axis of the cylinder and the axes of the pipes, the gas supply pipe 3 being located closer to the cylinder axis. Inside the housing, the side surface of the nozzles is perforated with holes, and their ends are hermetically sealed, and the holes of the side surface of the gas supply pipe 3 are located on the cylinder axis side, and the holes of the pipe side surface of the gas-powder suspension 4 are located outside the plane passing along the cylinder axis and the pipe axis supply of gas-powder suspension. The gas supply pipe 3 outside the housing 1 is equipped with a device regulating the gas supply 5 in the form of a control valve.

The operation of the device is as follows.

Open the control valve 5. Gas under pressure enters the perforated nozzle 3 of the gas supply, flows through the vertical holes in the perforated nozzle 3 in jets onto the surface of the powder material dispenser that is poured into the feeder, lifts it from the surface to form a suspension of particles in the gas. The gas-powder suspension obtained in this way enters through the horizontal holes in the perforated pipe 4 for supplying the suspension of powder and then is supplied to the consumer via the pneumatic line.

The operation of the device is characterized by a large surface of aeration of the powder, the ability to adjust the flow rate of the powder in a wide range from zero to maximum, the possibility of stable operation at an angle of ⁺ _ 45 ° from the horizontal, the ability to work in ejection modes from -0.1 to -0.8 atm and pressurization from 0.1 to 3.0 atm. Moreover, for optimal stable operation of the device in an adjustable range of powder consumption, the following proportions must be observed between the cross-sectional area of the gas supply pipe S _in , the sum of the cross-sectional areas of the holes of the perforated gas supply pipe ∑S _off gas and the sum of the areas of the openings of the perforated gas supply pipe of the suspended powder suspension ΣS _otv.vz: S _Rin ≥ΣS _{otv.gaz ..} ≤ΣS _otv.vz. In this case, the gas supply openings in the perforated gas supply pipe can be vertically downward, i.e. in the same plane as the axis of the housing 1 and the axis of the gas supply pipe 3 in one row or in 2 rows, and the angle between the line of the row of holes, the axis of the pipe and the above plane should not exceed 45 °, and the holes can be staggered.

An example of the operation of the device in boost mode.

Open the cover 2 of the filling hole, pour the powder 2/3 of the volume of the internal cavity of the housing 1 of the feeder-dispenser, which is 0.5 l. Close the cover 2 of the filling hole, arrange the housing 1 of the device horizontally or at an angle, but not more than 45 ° for stable operation of the device. Close the control valve 5, supply gas under pressure to the inlet of the control valve 5, the device is ready for operation. The control valve 5 is opened, gas at a pressure of 0.3 atm enters the perforated gas supply pipe 3, streams through the holes of the perforated gas supply pipe 3 flowing onto the surface of the powder material filled into the metering feeder, forming a suspension of powder particles in the gas in the volume of the internal cavity dosing feeder. Thus obtained suspension of powder under pressure enters through the holes in the perforated pipe 4 for supplying gas-powder suspension and then through the pneumatic line to the consumer. Depending on the degree of opening of the control valve 5, the flow rate of the powder material may be different. With a fully open control valve 5 with a flow area d _y = 2 mm and a feed pressure of 0.3 atm, the volumetric flow rate of the powder will be 40 ml / min.

An example of the operation of the device in ejection mode.

The powder is poured into the metering feeder, the volume of which is 0.5 l, the control valve 5 is closed, the nozzle 4 for supplying the gas-powder suspension is connected to a source of reduced pressure which is -0.4 atm. Open the control valve 5, gas / air / under the influence of atmospheric pressure enters the perforated pipe 3 gas supply, through the holes in the perforated pipe 3 gas supply, streams into the cavity of the feeder-dispenser, forming a suspension of powder in gas / air /. The suspension thus obtained enters through the holes in the perforated pipe 4 for supplying the gas-powder suspension and then through the pneumatic line to the consumer. Depending on the degree of opening of the control valve 5, the flow rate of the consumed powder material can be changed. With a fully open control valve 5 having a flow area d _y = 2 mm and an ejection of -0.4 atm, the volumetric flow rate of the powder material will be 50 ml / min.

An example of the operation of the device in boost mode.

Fill with powder material to 2/3 of a 500-liter feeder-dispenser. Connect the device through the control valve 5 to the source of pressure of the compressed gas. Fully open the control valve 5 having a flow area d _y = 10 mm Gas under a pressure of 2 atm enters the perforated gas supply pipe 3, through the holes in the perforated gas supply pipe 3 it enters the cavity of the metering feeder, forming a gas-powder suspension, which through the holes in the perforated pipe 4 of the gas-powder suspension supply to the consumer . In this case, the volumetric flow rate of the powder material will be 1500 ml / min.

Claims (5)

1. A powder metering feeder comprising a housing with a gas supply device and a gas-powder suspension supply device, characterized in that the housing is made in the form of a hollow cylinder with ends in the form of hemispheres sealed to the cylinder, a gas supply device and a supply device gas-powder suspensions are respectively made in the form of a gas supply pipe and a gas-powder suspension pipe, one of the hemispheres is equipped with a filling hole with a sealed cover, and the other is hemisphere sealed the gas supply pipe and the gas-powder suspension supply pipe, which are provided with detachable connections outside the housing for connecting to the gas and gas-powder suspension pipes respectively, and inside the body are parallel to the cylindrical surface of the hollow cylinder in a plane passing along the axis of the cylinder and the axes of the pipes, gas is located closer to the cylinder axis, inside the housing, the side surface of the nozzles is perforated with holes, and their ends are hermetically sealed, and the holes are sideways the surface of the gas supply pipe is located on the side of the cylinder axis, and the holes of the pipe side surface of the gas-powder suspension are located outside the plane passing along the axis of the cylinder and the axis of the gas-powder suspension supply pipe. 2. The feeder-dispenser according to claim 1, characterized in that the total area of the openings of the side surface of the gas supply pipe does not exceed the orifice of the gas supply pipe, and also does not exceed the total area of the holes of the side surface of the gas powder suspension supply pipe. 3. The feeder-dispenser according to claim 1, characterized in that the holes of the lateral surface of the gas supply pipe are arranged in a row in a plane passing along the axis of the cylinder. 4. The feeder-dispenser according to claim 1, characterized in that the holes of the lateral surface of the gas supply pipe are arranged in two rows. 5. The feeder-dispenser according to claim 1, characterized in that the gas supply pipe is equipped with a gas flow control device.