SU1388101A1 - Apparatus for dispersing liquid products - Google Patents

Abstract

The invention relates to a device for spraying liquids and can be used in drying plants for the production of high-purity products in the chemical, food, medical, pharmaceutical and other industries. The purpose of the invention is to increase the reliability of the device and ensure the automatic cleaning of gas and liquid nozzles. For this, the device is equipped with a drive mechanism for axially mixing the central rod and the pipe with a liquid nozzle, wherein the mechanism is made in the form of a rod connected to the drive, mounted along the axis of the housing and connected to the central rod by means of an adjusting sleeve, and the pipe is made with an inlet chamber surrounding the central. rod and located with a gap between the housing and the adjusting sleeve. A spring is installed between the sleeve and the chamber, and the central disk is made with a stop disk placed in the cavity of the chamber. Axial axial restraints are mounted on the housing of the inlet chamber with a pipe and a liquid nozzle. The device is equipped with a perforated protective casing and a nozzle with compressed gas. The spring-membrane mechanism under the action of the pressure of the gas flowing into its cavity, causes the rod and the adjusting sleeve connected to it to move in the direction of the liquid nozzle. The sleeve acts through the spring on the inlet chamber and causes its axial movement together with the pipe and the liquid nozzle. The liquid nozzle enters the gas nozzle channel and ensures its cleaning. 3 h. item f-ly, 2 ill. i (L

Description

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The invention relates to a device for spraying liquids and can be used in drying plants for the production of high-purity products in the chemical, food, medical, pharmaceutical and other industries.

The purpose of the invention is to increase the reliability of the device and ensure the automatic cleaning of gas and liquid nozzles.

FIG. I shows a device for dispersing liquid products; in fig. 2 - drive device.

The device comprises a tubular body 1, connected by a nozzle 2 with a source of compressed gas supply (not shown), and a gas nozzle 3 connected to it. Along the axis of the body 1, a pipe 4 for supplying a liquid product is axially moved. At the outlet end of the pipe 4, a liquid nozzle 5 is fixed. Along the axis of the pipe 4, a central rod 6 is mounted for axial movement for cleaning the liquid nozzle 5.

The pipe 4 is made with an inlet chamber 7, covering the central rod 6, and communicated by a pipe 8 with a source of liquid product supply (not shown) or a source of compressed gas.

The device has an actuating diaphragm-spring mechanism 9 for axial movement of the central rod 6 and the pipe 4 with a liquid nozzle 5. The mechanism 9 has a rod 10 mounted along the axis of the housing 1 and connected by means of an adjusting sleeve 11 to the central rod 6.

The input chamber 7 is located with a gap between the housing 1 and the adjusting sleeve 11. Between the last and the camera 7 is installed a spacer spring 12. The central rod 6 is made with a stop disc 13 placed in the cavity of the chamber 7. On the bracket 14 of the housing 1 fixed upper 15 and lower 16 axial cam limiters 7.

The device has a noBOpotHbm knife 17, tight to the end of the gas and liquid nozzles, and a drive 18 for turning the knife 17 attached to the flange 19 of the housing 1. The device is equipped with a protective perforated casing 20 and a nozzle 21 supplied to it by compressed gas.

The device works as follows.

The liquid product is fed into the pipe 4 through the pipe 8 and the inlet chamber 7 and exits through the liquid nozzle 5. Compressed / -az enters the cavity of the tubular body 1 through the pipe 2 and exits through the annular gap formed by the gas nozzle 3 and the liquid nozzle 5. When exposed the gas flow to the liquid is their mixing, spraying the liquid product and drying it.

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When used for spraying easily crystallizing liquid products such as sodium or potassium carbonate solution, deposits of gas and liquid nozzles form on the surfaces of the gas and liquid nozzles, which can disrupt the spraying process and change the degree of dispersion. To stabilize the specified dispersion parameters, gas and liquid nozzles are periodically cleaned.

When a control signal is applied to the actuator 18, the rotary knife 17 cuts off deposits from the ends of the gas and liquid nozzles. After cleaning the end of the liquid and

5 gas nozzles, a control signal is applied to the spring-membrane mechanism 9 for axial movement of the central rod 6 and pipe 4 with a liquid nozzle 5. Spring-loaded membrane-membrane mechanism 9 under the action of the pressure of the gas flowing into it

0 cavity, informs the stem 10 and the adjusting sleeve 11 connected to it, moving towards the liquid nozzle. The sleeve 11 acts through the spring 12 on the inlet chamber 7 and causes its axial movement

5 together with the pipe 4 and the liquid nozzle 5. The liquid nozzle 5, having a conical shape, enters the conical channel of the gas nozzle 3 and ensures its removal from deposits. In contact with the camera 7 with the lower limiter 16

0 axial movement is stopped. Further movement of the sleeve 11 is accompanied by compression of the spring 12, axial movement of the central rod 6- and its introduction into the channel of the liquid nozzle 5 When the central rod 6 is inserted into the channel of the liquid

5, the nozzles 5 are cleaned of deposits. When the sleeve 11 contacts the end of the chamber 7, the movement of the rod and the central rod 6 stops. After cessation of gas supply to the spring, the gum-diaphragm mechanism 9, the rod 10 and the central rod 6 return to their original position. When this stop disk 13 of the rod 6 acts on the camera 7 and moves it all the way into the upper stopper 15.

5 The adjustment of the stroke of the central rod 6 with respect to the liquid-liquid nozzle 5 and the latter relative to the gas nozzle 3 is carried out by means of an adjusting sleeve 11 and stops 15 and 16.

When compressed gas is supplied through the cell 21, an overpressure is created in the space bounded by the casing 20. The gas escaping through the openings of the casing 20 prevents the ingress of dust and stabilizes the temperature in the spray area.

- When connecting the nozzle 8 to the source of compressed gas, the chamber 7, the pipe 4 and the liquid nozzle 5 are purged from residues of the sprayed product.

Claims (3)

1. A device for dispersing liquid products, comprising a tubular body, a fluid nozzle connected to a compressed gas supply source, a liquid nozzle pipe mounted on the base of the body, a liquid nozzle connected to the tubular body and nozzle mounted on the pipe body axial movement of the central rod for cleaning the liquid nozzle, a rotary knife, tight to the end of the gas and liquid nozzles, and a knife rotation drive, distinguished by. . This is because, in order to increase the reliability of - 15 axial movement of the entrance chamber with a pipe the mechanism is made in the form of a shaft connected to the drive, mounted along the axis of the housing and connected by means of an adjusting sleeve to the central stem, and the pipe is made with an inlet chamber covering the central stem and positioned with a gap between the housing and the adjusting sleeve, and between the sleeve and the chamber spacer spring, and the central disk is made with a stop disk placed in the cavity of the chamber. 2. The device according to claim 1, characterized in that limiters are mounted on the case The operation of the device and the provision of automatic cleaning of gas and liquid nozzles, it is equipped with a drive mechanism for the axial movement of the central rod and the pipe with a liquid graduate. bout and fluid nozzle. 3. A device according to claim 1, characterized in that it is provided with a protective perforated casing and a compressed gas connection pipe thereto. . . 5 axial movement of the inlet chamber with pipe the mechanism is made in the form of a shaft connected to the drive, mounted along the axis of the housing and connected by means of an adjusting sleeve to the central stem, and the pipe is made with an inlet chamber covering the central stem and positioned with a gap between the housing and the adjusting sleeve, and between the sleeve and the chamber spacer spring, and the central disk is made with a stop disk placed in the cavity of the chamber. 2. The device according to claim 1, characterized in that limiters are mounted on the case axial movement of the inlet chamber with a pipe and a liquid nozzle. 3. A device according to claim 1, characterized in that it is provided with a protective perforated casing and a compressed gas connection pipe thereto. // cfjuei cpue.Z / J