RU150772U1 - COLD BATTERY - Google Patents

Abstract

1. The cold accumulator on binary or flake ice, consisting of a metal tank with thermal insulation, the evaporator of the refrigeration machine, nozzles for supplying and removing liquid, devices for removing ice from the surface of the evaporator, a tank for accumulating ice, a shaft, an electric motor, an electric drive, while liquid supply and discharge nozzles are located in the upper and lower parts of the metal tank, respectively, the metal tank is filled with liquid, the evaporator of the refrigeration machine is made in the form of a hollow torus of rectangular cross-section it is immersed in liquid, in the lower part of the evaporator there are pipes for supplying and discharging freon, devices for removing ice from the surface of the evaporator, the rotation of which is provided by the electric motor of the drive, mounted on a shaft and arranged coaxially with the evaporator, characterized in that the evaporator of the refrigeration machine, device for removing ice from the surface of the evaporator and the capacity for ice accumulation are located in a single housing inside a metal tank. 2. A cold accumulator on binary or flake ice according to claim 1, characterized in that water or a solution of salts in water is used as a liquid. 3. A cold accumulator on binary or flake ice according to claim 1, characterized in that a screw or scraper is used as a device for removing ice from the surface of the evaporator. 4. A cold accumulator on binary or flake ice according to claim 1, characterized in that the device is configured to remove ice from the surface of the evaporator both from the inside or from the outside, and from both sides of the evaporator simultaneously. The cold accumulator on binary or flake ice according to claim 1, characterized in �

Description

The technical field to which the utility model relates.

The claimed technical solution relates to the field of accumulation of cold using the heat of phase transition. The device can be used in ventilation, air conditioning, food processing and other areas of the national economy in order to accumulate cold.

State of the art

A device for producing flake ice containing a cylindrical evaporator made of steel, a rotation shaft located in the bearings, refrigerant inlet and outlet pipes connected to the ends of the rotation shaft through seals, a water bath for wetting, a knife block, a tray is known. The device is equipped with a frame on which bearings are installed using vertical stops, refrigerant inlet and outlet pipes, a bath with water, a knife block, a tray and a protective casing located above the evaporator located along its entire length, and the surface layer of the evaporator is made of aluminum. RF patent No. 8454 of November 16, 1998.

Also known is a device for freezing and obtaining flake ice, containing a base, an axis mounted on it, equipped with a device for introducing and removing refrigerant, a drive device, an external surface for evaporation and freezing of ice mounted on stuffing units, a device for removing ice from this surface, a bath with product. The device has an internal surface for evaporation and freezing of ice and a device for removing ice from it mounted on the stuffing box assemblies and communicated with the drive device, while a separating insert is placed between the external and internal surfaces to provide refrigerant boiling in a narrow slot gap, and the separating insert is made with developed surface in the form of corrugation, or thread, or grooves. RF patent No. 2206839 dated 06/20/2003.

It is also known a device for producing flake ice from a liquid, in particular water, comprising a housing consisting essentially of two plate-shaped sidewalls arranged parallel to each other and permeably passing between the sidewalls of the bath, an evaporation roller mounted rotatably in the sidewalls around a horizontal axis, supplied with refrigerant from the inside and partially immersed in a liquid located in the tank in the lower part of the housing, as well as located at a small distance and from the outer side surface of the evaporation roller the scraper for the ice formed on the side surface of the ice, the sidewalls have an essentially contour-free outer contour, sealing bodies are located on the end surfaces of the sidewalls extending at least along a part of the sidewall perimeter, with the side bathtubs end sections abuts against the end surfaces of the sidewalls with the possibility of pulling together with them by means of a clamping device. RF patent No. 2291360 dated January 10, 2007.

An ice cold accumulator is also known, comprising a housing, vertically mounted ice-freezing heat exchanger panels connected thereto, connected to the refrigeration machine, sensors indicating the amount of frozen ice in communication with the refrigeration machine control system, and water supply and discharge pipes from the housing. In order to intensify heat transfer in the cold consumption mode by increasing the heat transfer area of water with frozen ice passing through the casing, the cold accumulator is equipped with closed perforated partitions made of a material with a high coefficient of thermal conductivity, made in the casing so that each heat exchanger panel is placed inside the partitions, and the latter are installed with the formation of gaps between them and the walls of the housing. USSR author's certificate No. 1121560 of 10.30.1984.

A device for accumulating cold is also known, including an ice storage, a heat transfer circuit filled with a liquid cold transfer agent, comprising a heat transfer unit located in the ice storage, and a heat transfer unit located in the cooling chamber, supply and discharge channels and a pump. The device uses a cold-transfer agent with a freezing temperature of -60 ° C and below, while the heat exchange unit located in the ice storage includes the first and second vertical collectors located at opposite ends of the ice storage, each of which is equipped and communicated with at least two horizontal collectors placed parallel to each other at different levels along the height of the vertical collectors, in the thickness of the ice, and the cavity of horizontal collectors located in the same horizontal plane with a horizontal register including at least two pipes, and the cross section of the vertical collector is less than the sum of the cross sections of the horizontal collectors, which in turn is less than the sum of the cross sections of the horizontal registers, in addition, the pipes of the horizontal registers are equipped with fins, in addition, the heat exchange unit located in the refrigerating chamber is configured to operate in one of two modes, either with the selection of cold from the ice storage, or with the selection of cold from the outside air when it is temperature below - (40-60 ° C) and feed it into the ice storage. RF patent No. 2469245 of 12/10/2012.

Also known is a cold accumulator comprising a storage tank, sealed plastic containers located in a storage tank filled with a phase transition medium and having a profiled surface. The containers are made in the form of linear elastic pipes with a corrugated surface, the corrugated wall of the pipe is reinforced with a spiral of polyvinyl chloride, the pipes are placed in the storage tank in parallel in cross rows. RF patent No. 2438074 from 12/27/2011

An ice accumulator for producing ice water is also known, including a thermally insulated container with water, which is hydraulically connected to consumers of ice water, the main heat exchange section of the refrigeration unit and an additional heat exchange section for cooling water with an external refrigerant with ice thickness control sensors are installed inside the tank. A liquid non-freezing at ambient temperatures was selected as an external coolant. The device includes an air cooler of an external coolant with forced air circulation, which is installed outdoors and connected to the additional heat exchange section by a closed hydraulic circuit with forced circulation of an external coolant, and an ice thickness control sensor for the additional heat exchange section, which is electrically connected to the drive of the inducer, is introduced air flow rate in the air cooler; and an external flow rate inducer in the hydraulic circuit. RF patent No. 2484396 dated 06/10/2013

A cold and / or heat accumulator is also known, comprising a plurality of load-bearing elements loaded with a cold and / or heat storage medium, and at least one first heat exchanger, which is designed to pass the first heat carrier and which has at least one first having the shape of the coil is a hollow profile, and at least between one of the first bends of the coil formed by each two adjacent first shoulders and the first connecting zone is at least one supporting element. The load-bearing elements are formed by a plurality of strips of the load-bearing element, which are oriented essentially perpendicular to the first shoulders. RF patent No. 2392557 dated 06/20/2010.

The closest analogue of the claimed technical solution is a device for producing flake ice containing stationary outer and inner cylinders of the evaporator, a shaft, an electric motor, water tubes for irrigation of cylinders mounted on the shaft and mounted on the brackets of the inner and outer knives for rotating them together with the shaft and cutting ice frozen on cylinders, a reducer, a refrigerant supply pipe, a steam tank, a water collector, an excess water tank, an ice pack, a water pump. The unit is equipped with a refrigerant pipe installed in the space between the inner and outer cylinders of the evaporator and a flexible spiral element containing floats whose density is lower than the density of the liquid refrigerant. RF patent No. 2220385 dated December 27, 2003.

This installation has the following disadvantages:

- increased heat influx from the environment

- low compactness

- the need for a separate ice storage tank

- the need for subcooling ice to prevent sticking of individual ice flakes

Utility Model Disclosure

The task to which the claimed technical solution is directed is the accumulation of cold with minimal heat influx from the external environment, the maximum heat transfer between the cooled liquid and the storage body (ice), increasing the compactness of the equipment, combining the evaporator and the capacity for ice storage in one housing, reducing energy consumption ice generation, prevention of bonding and freezing of ice particles, maintaining a constant near-zero temperature of the liquid at the outlet of the battery.

This problem is solved due to the fact that the claimed cold battery on binary or flake ice consists of a metal tank with thermal insulation, inside of which there is an evaporator of the refrigeration machine, designed to collect the heat of the liquid and to form ice on its surface and ice to remove ice from the surface of the evaporator mounted on the shaft and driven by an electric drive through a gear transmission or clutch. The electric motor of the drive is located coaxially with the shaft on which devices for removing ice from the surface of the evaporator are fixed or orthogonal to it. The metal tank is filled with liquid (water, a solution of salts in water). The evaporator of the refrigeration machine is made in the form of a hollow torus of rectangular cross section and immersed in a liquid. As devices for removing ice from the surface of the evaporator, a screw or a scraper can be used. Devices for removing ice from the surface of the evaporator are mounted on the shaft and are aligned with the evaporator. Ice can be removed from the surface of the evaporator from the inside, from the outside or from both sides of the evaporator at the same time. In this case, a screw or scraper can be used to remove ice from the inner surface of the evaporator, and a scraper to remove ice from the outer surface of the evaporator.

Thus, the design of the device allows you to combine in a single unit, as a binary or flake ice generator, and a storage tank of ice and chilled liquid. Since ice is suspended in water, no bonding and freezing of ice particles occurs.

The technical result provided by the given set of features is to improve heat transfer between the cooled liquid and the storage body (ice), reduce heat influx from the external environment, reduce energy consumption for ice generation. The device also allows a long period of time to maintain the temperature of the liquid at the outlet of the device close to 0 ° C.

The invention is illustrated in FIG. 1, which shows a cold accumulator with a local section, and FIG. 2. which shows a section of the battery.

Brief Description of the Drawings

The cold accumulator is a metal tank (1) with thermal insulation (2), which can be filled with liquid or ice (3) (acts as a tank for the accumulation of ice and cooled liquid) and includes an evaporator of the refrigeration machine (4). The evaporator of the chiller (4) is immersed in liquid. The evaporator of the chiller (4) is a hollow torus of rectangular cross section. The rotating auger (or scrapers) (7) for removing ice from the surface of the evaporator are mounted on the shaft coaxially with the evaporator and are driven by the electric motor of the drive (8) by means of a gear transmission or clutch (9). The electric motor is located on a rigid base in the upper part of the metal tank. In the upper and lower parts of the metal tank, two pipes are fixed, which serve to supply (5) heated and drained (6) cooled liquid, respectively. In addition, in the lower part of the evaporator there are pipes designed for the discharge (10) and supply (11) of freon.

Claims (5)

1. The cold accumulator on binary or flake ice, consisting of a metal tank with thermal insulation, the evaporator of the refrigeration machine, nozzles for supplying and removing liquid, devices for removing ice from the surface of the evaporator, a tank for accumulating ice, a shaft, an electric motor, an electric drive, while liquid supply and discharge nozzles are located in the upper and lower parts of the metal tank, respectively, the metal tank is filled with liquid, the evaporator of the refrigeration machine is made in the form of a hollow torus of rectangular cross-section it is immersed in liquid, in the lower part of the evaporator there are pipes for supplying and discharging freon, devices for removing ice from the surface of the evaporator, the rotation of which is provided by the electric motor of the drive, mounted on the shaft and arranged coaxially with the evaporator, characterized in that the evaporator of the refrigeration machine, device for removing ice from the surface of the evaporator and the capacity for the accumulation of ice are located in a single housing inside a metal tank. 2. The cold accumulator on binary or flake ice according to claim 1, characterized in that water or a solution of salts in water is used as a liquid. 3. The cold accumulator on binary or flake ice according to claim 1, characterized in that a screw or scraper is used as a device for removing ice from the surface of the evaporator. 4. The cold accumulator on binary or flake ice according to claim 1, characterized in that the device is configured to remove ice from the surface of the evaporator both from the inside or from the outside, and from both sides of the evaporator at the same time. 5. The cold accumulator on binary or flake ice according to claim 1, characterized in that the drive motor is located on a single shaft with devices for removing ice from the surface of the evaporator or connected to them by means of a gear transmission or clutch.

Images