RU203824U1 - Dry ice pellet making machine - Google Patents

Abstract

The utility model relates to the field of mechanical engineering, in particular, to devices for the production of dry ice granules of various diameters, and can be used in devices for cleaning surfaces. The device for producing dry ice granules contains a housing in which a drive is located, made in the form of a hydraulic station, connected to a working cylinder and designed to ensure its operation. A working cylinder is installed in the housing for the formation of granules, which has nozzles for injecting carbon dioxide in the liquid phase (liquid CO2) and matrices with nozzles (conventionally not shown) for the formation of granules. A heat exchanger is also installed in the body, made in the form of a hollow tubular body, inside which a spiral from a tube is located. One end of the tube is configured to be connected to an external container (not shown conventionally) with liquid CO2. The other end of the tube is connected to a nozzle for injecting liquid CO2 into the working cylinder. The heat exchanger contains an inner cylinder, and the spiral from the tube is located in the space between the inner cylinder and the walls of the hollow body of the heat exchanger. The technical result of the utility model is to provide a higher productivity for producing high density dry ice (CO2) granules. 2 ill.

Description

The utility model relates to the field of mechanical engineering, in particular, to devices for the production of dry ice granules of various diameters, and can be used in devices for cleaning surfaces.

Known devices used to clean surfaces from contamination, which use liquid carbon dioxide, placed in a built-in Dewar vessel or located in an external vessel. Liquid carbon dioxide, when fed into the adiabatic expansion chamber, is converted into a solid phase, which is used for surface cleaning (USSR author's certificate SU 1380923, IPC B24C 3/06 (2000.01) 1988).

The disadvantages of the devices described above include the fact that the resulting dry ice granules have a low density, which further negatively affects the surface cleaning process. In addition, as in the case of obtaining granules by crushing a block of dry ice, there is a loss of carbon dioxide due to the fact that a certain percentage of the material goes to the formation of granules that are too small, not suitable for sandblasting, for which the resulting granules are intended.

Known apparatus for the formation of granules of dry ice of high density, in which carbon dioxide (CO ₂ ), which is in the liquid phase, is injected under pressure into a cylinder with a piston. Carbon dioxide crystals are formed in a cylinder and compressed by a piston to form a block of dry ice, which, under high pressure from the piston, is extruded through die dies. (international application W08603707, IPC В24С 1/00, 1986).

The disadvantages include the fact that it does not provide means to reduce the heating of liquid CO ₂ during its transportation to the cylinder.

Known installation for the production of dry ice pellets, containing a housing, a throttle device, a heat exchanger, a device for pressing (see USSR AS No. 1709156, IPC F25C 1/22 (2000.01), 1992).

The disadvantage of this device is the location of the heat exchanger outside the body of the installation, which reduces the efficiency of cooling the liquid phase of CO _2.

A device for producing dry ice granules is known, comprising an engine with a gearbox, working cylinders having nozzles for injecting carbon dioxide in the liquid phase (liquid CO ₂ ) and a matrix with spinnerets for forming granules. The device is equipped with a heat exchanger made in the form of a hollow tubular body, inside which there is a spiral from a tube, one end of which is intended for connection to an external container with liquid CO ₂ , and the other end of the tube is connected to a nozzle for injecting liquid CO ₂ into the working cylinder. A ring with channels for the passage of gaseous CO _{2 is} installed on the pistons of the working cylinders. The cylinders are additionally communicated with the cavity of the tubular body of the heat exchanger for flowing gaseous CO ₂ into it and washing the outer surface of the spiral from the tube with liquid CO ₂ . The tubular body of the heat exchanger is also in communication with the external environment for the outlet of gaseous CO ₂ . The working cylinders of the device are installed above the heat exchanger (see RF patent No. 70 840, IPC B24C 9/00 (2006.01), 2008). This decision was made for a prototype.

The technical problem solved by the claimed utility model is to increase the performance of the device.

The technical problem posed is solved due to the fact that in the known device for producing dry ice granules, containing a housing with a drive installed in it, a working cylinder for forming granules, having nozzles for injecting carbon dioxide in the liquid phase (liquid CO ₂ ), a heat exchanger made in the form of a hollow tubular body, inside of which there is a spiral of a tube, one end of which is adapted to be connected to an external container with liquid CO ₂ , and the other end of the tube is connected to a nozzle for injecting liquid CO ₂ into the working cylinder, in accordance with the utility model, the heat exchanger contains an inner cylinder, and the spiral from the tube is located in the space between the inner cylinder and the walls of the hollow body of the heat exchanger.

The technical result from the use of this utility model is to provide a higher productivity and obtain granules of dry ice (CO ₂ ) of high density.

Implementation of the device with a heat exchanger containing an inner cylinder and a spiral from a tube located in the space between the inner cylinder and the walls of the hollow body, allows for a higher productivity of obtaining granules of dry ice (CO ₂ ) of high density.

Due to the presence of an inner cylinder in the heat exchanger, and the placement of a spiral from a tube in the space between the inner cylinder and the walls of the hollow body, an increase in the efficiency of cooling liquid carbon dioxide is provided and thus the productivity of the device is increased.

FIG. 1 is a general diagram of the device;

FIG. 2 is a transparent diagram of a heat exchanger.

The device for producing dry ice granules contains a housing 1 in which a drive 2 is located, made in the form of a hydraulic station, connected to the working cylinder 3 and designed to ensure its operation. In the housing 1, a working cylinder 3 is installed for the formation of granules, which has nozzles 4 for injecting carbon dioxide in the liquid phase (liquid CO ₂ ) and a matrix with nozzles (conventionally not shown) for the formation of granules. A heat exchanger 5 is also installed in the housing 1, made in the form of a hollow tubular housing, inside which there is a spiral 6 from a tube 7. One end 8 of a tube 7 is configured to connect to an external container (not shown conventionally) with liquid CO ₂ . The other end 9 of the tube 7 is connected to the nozzle 4 for injecting liquid CO ₂ into the working cylinder 3. The heat exchanger 5 contains the inner cylinder 10, and the spiral 6 from the tube 7 is located in the space between the inner cylinder 10 and the walls 11 of the heat exchanger hollow body.

Device operation.

When starting the drive 2, made in the form of a hydraulic station, the piston stroke in the working cylinder 3 is provided.

Liquid CO ₂ under a pressure of 23 atm. is fed from an external container (conventionally not shown) through the end 8 of the tube 7 of the spiral 6 into the heat exchanger 5. The liquid phase of CO ₂ passes through the spiral 6 of the heat exchanger, where it is subjected to additional cooling, and through the end 9 of the tube 7 it enters the nozzle 4 located at the inlet to working cylinder 3. As a result, adiabatic expansion of liquid CO ₂ occurs, since the pressure in the working cylinder 3 is significantly lower than the pressure of liquid CO ₂ and is 1 atm. Due to a sharp increase in volume, the temperature of the additionally cooled CO ₂ decreases and it turns into snow. Additional cooling of CO ₂ in the liquid phase, which is cooled by passing through the heat exchanger 5, makes it possible to reduce the loss of the transition of carbon dioxide into a gaseous state and then into snow. Due to this, the quantitative mass of loose snow, formed in the working cylinder 3 by compression at a pressure drop, increases. Further, during the forward stroke of the piston of the working cylinder 3, the snow is compacted and forced through the die of the matrix, which is located at the outlet of the working cylinder 3. As a result, the formation of granules of dry ice of high density occurs.

Gaseous CO ₂ from the piston space of the working cylinder 3 enters the tube 12, through which it flows into the space between the inner cylinder 10 and the walls 11 of the hollow body of the heat exchanger 5 and, washing the copper tube with liquid CO ₂ , maintains its low temperature. Due to the presence in the body of the heat exchanger 5 of the inner cylinder 10, a space is formed between the inner cylinder 10 and the walls 11 of the hollow body of the heat exchanger 5, in which the spiral 6 is located. Since the volume of the space between the inner cylinder 10 and the walls 11 of the hollow body of the heat exchanger 5 is much less than the volume of the hollow body of the heat exchanger _{gaseous CO 2} coming from the piston space of the working cylinder 3 has a high concentration around the coil 6 of the heat exchanger, which provides more efficient cooling of the liquid phase of CO ₂ passing through the tube 7 of the coil of the heat exchanger.

Finished granules of dry ice from the working cylinder 3 fall into containers for storage and transportation (conventionally not shown).

All units and parts of the claimed device can be manufactured using modern equipment, or known devices can be used (for example, a well-known drive hydraulic cylinder).

The claimed utility model can be used in the field of mechanical engineering, in particular, it can find application when used in devices for abrasive cleaning of surfaces.

Claims (1)

A device for producing dry ice granules, containing a housing with a drive installed in it, a working cylinder for forming granules, having nozzles for injecting carbon dioxide in the liquid phase - liquid CO ₂ , a heat exchanger made in the form of a hollow tubular housing, inside which there is a spiral from a tube , one end of which is adapted to be connected to an external container with liquid CO ₂ , and the other end of the tube is connected to a nozzle for injecting liquid CO ₂ into the working cylinder, characterized in that the heat exchanger contains an inner cylinder, and the spiral from the tube is located in the space between the inner cylinder and walls of the hollow body of the heat exchanger.

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