RU169202U1 - Device for obtaining dry aerosol - Google Patents

Abstract

The utility model relates to medical equipment and can be used in halotherapy technology to create an artificial microclimate of a salt cave. A device for producing a dry aerosol includes a housing 1, a main air duct 2 with a motive 3 air flow, a grinding chamber 4 with a grinder of salt material in the form of a crushing body 5 s a rotation drive 6 and a control unit 7. The device further comprises two blowers 8 and 9 and two control valves 10 and 11 with a drive 12. The grinding chamber 4 has two inlet pipes 13 and 14 and d and the outlet pipe 15 and 16. To the first inlet pipe 13 located on the side of the chamber lid, an air duct is connected from the dispenser 17 and the blower 8. The second inlet pipe 14, to which the blower 9 is connected by an air duct, is connected to the air channel formed in the center of the bottom of the grinding chamber 4. The first outlet pipe 15 is located in the center of the chamber lid and a separator 18 is built into it, and the pipe 15 is connected by an air duct through the first control valve 10 to the main air duct 2. The second outlet pipe 16 is located on the side guide ited grinding chamber 4 and is connected to the duct through a second control valve 11 to the main duct 2.Poleznaya model prevents jamming of the drive shaft body crushing chamber without having to disassemble it for cleaning and for loading into solemateriala chamber.

Description

The inventive utility model relates to medical equipment and can be used in halotherapy technology to create an artificial microclimate of a salt cave.

A device for producing an aerosol is known, comprising a housing, an air duct with an inlet air flow inducer, a chamber for a salt material communicated with an air inlet and an outlet, and a straw mill in the form of a crushing body with a rotational drive, the chamber being divided into two parts by a movable horizontal partition made with the possibility of vertical movement, while in the lower part of the chamber there is a crushing body, the upper part of the chamber is connected to the air duct by inlet and outlet openings, and under the septum is made with at least one additional flat rib perpendicular to its surface, directed toward the crushing body and located perpendicular to the direction between the input and output openings of the chamber, while the height of the rib is chosen so that it does not reach the crushing body (patent RF number 2393882, 2010).

The disadvantage of this device is the need for periodic disassembly of the chamber both for cleaning it from the remnants of the salt material and for loading a new portion of the salt material.

A device for producing a dry aerosol is also known, comprising a housing, an air duct with an inlet air flow inducer located in a chamber communicated by means of an outlet duct with an air duct, a straw grinder in the form of a crushing body with a rotation drive, an aerosol concentration sensor connected to a control unit connected to the switch of the chopper drive, while in the output channel of the chamber a supply air pipe is fixed, the lower part of which is located above the crushing body of the chopper, and the other part is in the duct, while an opening is made in the upper part of the side of the air duct directed towards the air flow in the duct, the gap between the side of the chamber and the crushing body of the grinder is 3-10 mm, and the gap between the base of the chamber and the crushing body the chopper is 1-5 mm (RF patent No. 112830, 2012). This device is taken as the closest analogue.

The disadvantage of this device is the possible jamming of the drive shaft of the crushing body without periodic cleaning of the camera. At the same time, cleaning the chamber and loading the salt material into it is possible only by disassembling it.

The technical result, which is achieved by the claimed utility model, is to prevent jamming of the drive shaft of the crushing body without the need to disassemble the chamber for cleaning it, and for loading salt material into the chamber.

The specified technical result is achieved by the fact that the device for producing a dry aerosol, comprising a housing, a main duct with an air flow inducer, a grinding chamber with a grinder of straw material in the form of a crushing body with a rotation drive and a control unit, additionally contains two blowers and two control valves with a drive, wherein the grinding chamber has two inlet nozzles and two outlet nozzles, the second inlet nozzle located at the bottom of the grinding chamber and connected to the second blower, and p the first outlet pipe is connected to the main duct through the first control valve, the second outlet pipe is connected to the main duct through the second control valve.

In addition, the second outlet pipe of the grinding chamber can be placed above the crushing body on the side wall of the chamber.

Also, the drive shaft of the crushing body can be located coaxially from the bottom of the grinding chamber in the second inlet pipe.

The utility model is illustrated in the figure, which shows a diagram of a device for producing dry aerosol.

According to FIG. 1, a device for producing a dry aerosol includes a housing 1, a main duct 2 with an inducer 3 air flow, a grinding chamber 4 with a grinder of straw material in the form of a crushing body 5 with a rotation drive 6, for example an electric motor, and a control unit 7. The housing 1 is made in the form of a wall or a desktop unit, inside of which, for example, to the rear wall, a chassis is attached (not shown in the drawing) for installing device elements. The outlet of the main duct 2 is in communication with the halochamber (not shown in the drawing), where the microclimate of the salt cave is created. The driver 3 of the air flow can be made in the form of a fan. The device for producing dry aerosol further comprises two blowers 8 and 9, for example in the form of a microcompressor, and two control valves 10 and 11, for example in the form of ball valves, with a drive 12, for example, an electric motor with a gearbox and actuator position sensors (not shown in the drawing) . The grinding chamber 4 is made in the form of a cylinder with a bottom and a cover and has two inlet pipes 13 and 14 and two outlet pipes 15 and 16. An air duct from the metering unit 17 and the blower 8 is connected to the first inlet pipe 13 located on the side of the chamber cover. The second inlet pipe 14, to which the blower 9 is connected by an air duct, is connected to an air channel formed in the center of the bottom of the grinding chamber 4. The first outlet pipe 15 is located in the center of the chamber cover and a separator 18, for example, a cyclone type, is built into it, and the pipe 15 is connected to by the duct through the first control valve 10 with the main duct 2. The second output pipe 16 is located on the side surface of the grinding chamber 4 and is connected by the duct through the second control valve 11 with the main duct 2. The control unit 7 is mounted in the housing 1 and is connected by wire connection to the actuators 6 and 12, dispenser 17, blowers 8 and 9.

The second outlet pipe 16 can be placed on the side wall of the grinding chamber 4 above the crushing body 5.

The shaft 19 of the drive 6 of the crushing body 5 can be located coaxially from the bottom of the grinding chamber 4 in the second inlet pipe 14.

A device for producing a dry aerosol is assembled as follows.

First, on the chassis of the housing 1, the main duct 2 is installed with a driver 3 of the air flow. The rear wall of the casing and the chassis have openings for the outward casing of the outlet of the main duct 2. Then, a grinding chamber 4 with a crushing body 5 and a drive 6 is installed on the chassis. Next, a control unit 7, blowers 8 and 9, valves 10 and 11 with a drive are mounted 12 and the dispenser 17. After that, connected by air ducts, for example, flexible hoses, the blower 8 through the dispenser 17 with the first inlet 13, the blower 9 with the second inlet 14, the outlet 15 through the valve 10 with the main duct 2, and the outlet 16 with the main in the duct 2 through the valve 11. Then connect the control unit 7 with a drive 6, blowers 8 and 9, a drive 12 and a dispenser 17 by wire connection. The assembled chassis is installed in the housing 1. The housing 1 also has an opening located, for example, on the upper wall (on the drawing is not shown), for filling the powder of the salt material into the dispenser 17.

A device for producing dry aerosol works as follows.

After the device is turned on by the operator through the control unit 7, the inducer 3 creates an air flow in the main duct 2. Salt powder is loaded into dispenser 17. The signal about the presence of salt powder in the dispenser is supplied to the control unit 7. The control unit turns on the actuator 12, opens the control valve 10 and closes the control valve 11 (position - generation of haloaerosol). If there is salt powder in the dispenser 17, the control unit includes blowers 8 and 9, the drive 6 of the crushing body 5 and the dispenser 17. The salt powder from the dispenser 17 is supplied to the grinding chamber 4 by the air flow of the blower 8. Thus, the salt powder is fed into the chamber without disassembling it . The grinding body 5 rotating by the shaft 19 crushes the salt powder, and in the grinding chamber 4, a “fluidized bed” state arises under the influence of the air blower 9, and haloaerosol particles are separated by the rotation of the crushing body 5. A finely dispersed fraction remains in the central zone of the grinding chamber 4, and the coarse powder fraction is discarded to the walls of the grinding chamber, i.e. there is a cyclone effect. The air flow of the blower 9 passes through the center of the chamber, picks up the finely dispersed fraction of the haloaerosol and mixes it with the air stream in the main duct 2 through the separator 18 and the control valve 10. The resulting haloaerosol enters the halochamber.

After the halotherapy session is completed, the grinding chamber 4 is cleaned. To do this, the control unit 7 turns on the actuator 12, closes the control valve 10 and opens the control valve 11 (position - cleaning). After that, the control unit 7 turns off the blower 8 and the dispenser 17, turns on the drive 6 of the crushing body 5 and the air flow of the blower 9 removes salt powder from the grinding chamber 4 and air ducts. Thus, during interruptions in the operation of the device in the grinding chamber 4, no material remains, which, absorbing moisture from the air and stone, can cause jamming of the drive shaft of the crushing body.

The placement of the second outlet pipe 16 on the side wall of the grinding chamber 4 above the crushing body 5 increases the cleaning efficiency of the chamber.

The location of the shaft 19 of the drive 6 of the crushing body 5 coaxially from the bottom of the grinding chamber 4 in the second inlet pipe 14 increases the reliability of the device.

Thus, the claimed utility model prevents jamming of the drive shaft of the crushing body without the need for disassembling the chamber both for cleaning it and for loading salt material into the chamber.

Claims (3)

1. A device for producing a dry aerosol, comprising a housing, a main duct with an air flow inducer, a grinding chamber with a grinder of the material in the form of a crushing body with a rotation drive, and a control unit, characterized in that it additionally contains two blowers and two control valves with a drive, this grinding chamber has two inlet nozzles and two outlet nozzles, the second inlet nozzle located at the bottom of the grinding chamber and connected to the second blower, while the first outlet nozzle connected to the main duct through a first control valve and a second outlet connected to the main duct through a second control valve. 2. A device for producing a dry aerosol according to claim 1, characterized in that the second outlet pipe of the grinding chamber is located above the crushing body on the side wall of the chamber. 3. A device for producing a dry aerosol according to claim 1, characterized in that the drive shaft of the crushing body is located coaxially below the grinding chamber in the second inlet pipe.

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