RU93512U1 - SYSTEM FOR COOLING AND FILLING DRINKS - Google Patents

Abstract

 1. A system for cooling and bottling beverages, including a container for a beverage, a cooling device with a spiral pipe, two thermally insulated double pipelines, the product pipe of the first pipe connected to the outlet pipe of the container and the inlet pipe of the spiral pipe of the cooling device, and the product pipe of the second pipe connected to the outlet pipe spiral pipe of the cooling device and with a filling valve, a circulation pump for circulating the refrigerant in a closed loop system cooling, characterized in that a coil is introduced into it to cool the container, the inlet of which is connected through the tube to the outlet pipe of the circulation pump, and its outlet is connected to the tube for circulating the refrigerant of the first pipe, while the thermally insulated double pipes are made in the form of tightly pressed against each other product lines and tubes for refrigerant circulation. ! 2. The system according to claim 1, characterized in that the coil for cooling the container is made in the form of a flat spiral and is installed under the container for a drink. ! 3. The system according to claim 1, characterized in that the coil for cooling the container has an additional part in the form of a cylindrical pipeline to cover the cylindrical part of the beverage container. ! 4. The system according to claim 1, characterized in that the coil for cooling the container is installed on a heat-insulating base, ensuring a snug fit of the coil to the bottom of the beverage container. ! 5. The system according to claim 1, characterized in that the side surface of the beverage container is covered by a heat-insulating shirt equipped with textile

Description

The inventive utility model relates to the field of refrigeration equipment, namely, cooling and bottling systems and can be used in enterprises selling such drinks as beer, water, kvass, juices, milk, etc.

The utility model is designed for uniform and stable cooling of drinks in order to ensure their constant quality characteristics and is convenient to use.

A device is known for transporting and storing beer in containers containing a cylindrical barrel, inside which a cylindrical coil covering the container is located, made in the form of a pipe folded in two with the formation of the forward and reverse branches, bent together in the form of a double cylindrical spiral through which the cooling refrigerant flows ( Pat. Of the Russian Federation. 71109 U1, IPC B65D 1/12, 02/27/2008). A significant drawback of this solution is the non-uniformity of the temperature of the drink in the container due to the lack of thermal insulation of both the lateral cylindrical and the upper and bottom surfaces of the container.

A known distribution system for cooling a container with liquid, including a cooling casing located around the container, a cooling reservoir, a cooling system and a pump circulating refrigerant through a cooling casing. The liquid from the container under pressure enters through the inlet line into a spiral line located in the cooling tank and through the outlet line is supplied to the distribution device (Pat. RF. 2182690 C2 IPC F25D 15/00, B67D 5/62, 11/19/1998). A significant drawback of the system is the uneven temperature of the liquid, associated with the lack of thermal insulation of the upper and bottom parts of the container, as well as the input and output lines, which leads to a loss of consumer qualities of the liquid entering the switchgear.

A known beverage cooling system comprising a beverage container, a cooling device filled with a cooling refrigerant in which a coil is located, the inlet pipe of which is connected through the central pipe of a double thermally insulated pipe to the outlet of the beverage container, and the outlet is connected through the central pipe of a second thermally insulated pipe with a filling valve . The cooling refrigerant is circulated using a circulation pump in a closed circuit from the outlet of the refrigerant of the cooling device through the circulation pump, the cooling jacket of the container, the gap between the inner and outer pipes of the first double insulated pipe to the inlet of the refrigerant of the cooling device (Pat. RF 2154782 C2, IPC F25D 9/00, F25B 21/02, publ. 08.20.2000).

This system is closest to the claimed utility model in terms of technical nature and the achieved result. However, it is not without significant drawbacks, the main of which are the inconvenience of operation that occurs when replacing the container, uneven cooling of the drink in the pipelines, heating of the drink with low consumption in the pipeline adjacent to the filling valve, technical difficulties associated with the implementation of double thermally insulated pipelines and the impossibility simultaneous connection of several containers with drinks.

The inventive utility model is aimed at solving the technical problem of creating a device that provides uniform and stable cooling of the drink, ensuring its constant qualitative characteristics.

The technical result is an increase in the efficiency of cooling drinks and ease of operation of the system.

The specified technical result is achieved by the fact that in the known cooling and bottling system comprising a beverage container, a cooling device with a spiral pipe, two thermally insulated double pipelines, the product pipe of the first pipe being connected to the outlet pipe of the container and the inlet pipe of the spiral pipe of the cooling device, and the product pipe the second pipeline is connected at one end to the outlet pipe of the spiral pipe of the cooling device, and the other to a filling valve m, a circulation pump for circulating the refrigerant in a closed circuit of the cooling system, a coil has been introduced to cool the container, the inlet of which is connected through the pipe to the outlet pipe of the circulation pump, and its outlet is connected to the pipe for circulating the refrigerant of the first thermally insulated double pipeline, while the thermally insulated double pipeline is made in the form of a product pipe and tube tightly pressed against each other for circulation of the refrigerant.

Preferably, the coil for cooling the container is made in the form of a flat spiral mounted under the container for the drink and tightly adjacent to its bottom surface.

It is advisable to cool the side surface of the container to introduce an additional part in the coil for cooling the container, made in the form of a pipe of cylindrical shape, covering its cylindrical part.

The coil for cooling the container is installed on a heat-insulating base, which ensures a snug fit of the coil to the bottom of the container and its thermal insulation.

It is preferable to cover an additional part of the coil with a heat-insulating jacket fixed with textile fasteners.

To prevent heating of the upper part of the beverage container, it is advisable to install a thermally insulating sealant.

For the simultaneous use of several beverage containers, it is preferable to install a series of series-connected beverage containers on the respective coils connected in series with each other, the inlet of the coil of the first container is connected to the outlet pipe of the circulation pump, and the outlet of the additional part of the coil of the latter is connected to the pipe for circulating the refrigerant of the first thermally insulated pipeline, forming a closed loop of refrigerant circulation.

The cooling and bottling system may further comprise an additional tube connected at one end to a pipe adjacent to the dispensing tap, and at the other end to an inlet to the cooling device.

The utility model is illustrated by the following graphic materials.

Figure 1 schematically presents a cooling and bottling system for drinks with one container for a drink.

Figure 2 presents the cooling and bottling system with a series of series-connected beverage containers.

The inventive utility model comprises a beverage container 1, a cooling device 2 filled with refrigerant, into which a spiral pipe 3 is immersed to cool a beverage squeezed out of the container 1 by compressed air coming from a cylinder through a valve and an air duct, two thermally insulated double pipelines, which are tightly pressed product lines 4, 5, to the respective tubes 6, 7 for circulation of the refrigerant, and the product line 4 of the first pipe is connected to the outlet pipe 8 of the container 1 and the input path by cutting 9 of the spiral pipe 3 of the cooling device 2, and the product pipe 7 of the second pipe is connected at one end to the outlet pipe 10 of the spiral pipe 3 of the cooling device 2, and to the other with a filling valve 11, a circulation pump 12 for circulating the refrigerant in a closed loop of the cooling system, coil 13 for cooling the container, the inlet of which is connected through the tube 14 to the outlet pipe 15 of the circulation pump 12, and the outlet of the coil 13 is connected to the tube 6 for circulating the refrigerant of the first pipeline.

The coil 13 for cooling the container is made in the form of a flat spiral and is installed under the container for the drink.

The coil 13 is provided with an additional part in the form of a pipe 16 of cylindrical shape to cover the cylindrical part of the container 1 for a drink.

The coil 13 is installed on a heat-insulating base 17, which ensures a snug fit of the coil to the bottom of the beverage container.

The side surface of the beverage container 1 is covered by a heat-insulating shirt 18 provided with textile fasteners (not shown in the drawing).

In the upper part of the container 1 is installed insulating seal 19.

When implementing a utility model in the form of a series of series-connected containers 1 for drinks, each of the containers is mounted on the respective coils 13 for cooling the containers.

In this case, the coils 13 for cooling the containers are connected in series with each other and with additional parts in the form of cylindrical pipelines 16, the inlet of the coil of the first container is connected through the pipe 14 to the outlet pipe 15 of the circulation pump 12, and the output of the additional part of the coil of the last container is connected to the pipe 6 for refrigerant circulation of the first pipeline, forming a closed loop of refrigerant circulation.

The cooling and bottling system includes an additional tube 20 connected at one end to a tube 7 adjacent to the filling valve 11, and the second end to the inlet pipe 21 of the cooling device.

The system operates as follows.

The drink through the outlet pipe 8 of the container 1 enters through the product pipe 4 of the first thermally insulated double pipe, tightly pressed to the pipe 6 for circulation of the refrigerant and then through the inlet pipe 9 to the spiral pipe 3 of the cooling device 2. Next, the cooled drink through the outlet pipe 10 and the product pipe 5 of the second thermally insulated the pipeline enters the filling valve 11.

The refrigerant is circulated through a second double insulated pipe through the outlet pipe 15 of the circulation pump 12, a pipe 7 for circulating the refrigerant, an additional pipe 20 connected at one end to a pipe 7 adjacent to the filling valve 11, and the second end to the inlet pipe 21 of the cooling device 2.

Thermal insulation of the beverage container 1 is carried out from below by a heat-insulating base 17, from above by means of a heat-insulating seal 19, and the side surface of the container 1 is covered by a thermo-insulating jacket 18 equipped with textile fasteners to prevent heating.

Thus, the beverage is cooled in the container by means of a coil 13 and, when flowing through a spiral pipe 3, immersed in the refrigerant of cooling device 2. The use of the first heat-insulated double pipeline, which is a product pipeline 4 and a pipe 6 tightly pressed against it with circulating refrigerant and a second pipeline including an additional tube 20, eliminates the heating of the beverage when it is supplied from the container 1 to the cooling device 2 and then to the filling valve 11.

With the simultaneous use of several containers with a drink (Figure 2), the latter are installed on similar coils 13 and are equipped with additional pipelines 16 connected to them, cooling the side surfaces of the containers. In this case, the coils 13 for cooling the containers 1 and the corresponding additional parts of the pipelines 16 of the cylindrical shape of the individual containers are also connected together in series.

During the operation of the cooling and bottling system, the beverage is uniformly and stably cooled, its heating in the pipelines is prevented, which leads to constant quality characteristics of the beverage and ensures ease of use of the system.

Claims (9)

1. A system for cooling and bottling beverages, including a container for a beverage, a cooling device with a spiral pipe, two thermally insulated double pipelines, the product pipe of the first pipe connected to the outlet pipe of the container and the inlet pipe of the spiral pipe of the cooling device, and the product pipe of the second pipe connected to the outlet pipe spiral pipe of the cooling device and with a filling valve, a circulation pump for circulating the refrigerant in a closed loop system cooling, characterized in that a coil is introduced into it to cool the container, the inlet of which is connected through the tube to the outlet pipe of the circulation pump, and its outlet is connected to the tube for circulating the refrigerant of the first pipe, while the thermally insulated double pipes are made in the form of tightly pressed against each other product lines and tubes for refrigerant circulation. 2. The system according to claim 1, characterized in that the coil for cooling the container is made in the form of a flat spiral and is installed under the container for a drink. 3. The system according to claim 1, characterized in that the coil for cooling the container has an additional part in the form of a cylindrical pipeline to cover the cylindrical part of the beverage container. 4. The system according to claim 1, characterized in that the coil for cooling the container is installed on a heat-insulating base, ensuring a snug fit of the coil to the bottom of the beverage container. 5. The system according to claim 1, characterized in that the side surface of the beverage container is covered by a heat-insulating shirt equipped with textile fasteners. 6. The system according to claim 1, characterized in that a thermally insulating sealant is installed in the upper part of the container. 7. The system according to claim 1, characterized in that it comprises a series of series-connected beverage containers mounted on respective coils for cooling the containers. 8. The system according to claim 7, characterized in that the coils for cooling the containers are connected in series with each other and additional parts in the form of cylindrical pipelines, while the inlet of the coil of the first container is connected to the outlet pipe of the circulation pump, and the output of the additional part of the coil of the last container is connected to the pipe for circulation of the refrigerant of the first pipeline, forming a closed loop of circulation of the refrigerant. 9. The system according to claim 1, characterized in that an additional tube is inserted into it, connected at one end to a tube adjacent to the filling valve, and the second end to the inlet pipe of the cooling device.