RU42546U1 - COLD ACCUMULATION DEVICE - Google Patents

Abstract

A device for accumulating cold, containing a casing pipe filled with refrigerant and consisting of an evaporator immersed in the ground and a condenser, a shell mounted around a part of the condenser with a gap, discharge and discharge pipes, characterized in that the device contains a condensing unit located above a condenser and connected by discharge and discharge pipelines with a pipeline located in the gap between the evaporator and the shell and made in the form of an elliptical tube I am tightly wound on the capacitor, and the gap between the pipeline and the shell is filled with thermal insulation.

Description

The utility model relates to the field of refrigeration and relates to the freezing of soil used to create ice-rock fences.

A device for accumulating cold is known, provided with a shell mounted around the casing with a gap, and the space between the casing and the shell is filled with liquid freezing below the temperature of the ice-water phase transition.

The disadvantage of this device is the long process of freezing the soil and the inability to use the device in areas with a relatively warm and long summer period. (Aut. St. N 553328. M. cl. E 02 D 3/12 04/05/77.)

Closest to the claimed utility model is a device for accumulating cold, consisting of an evaporator immersed in the soil and a condenser located above the surface of the soil. Around the evaporator and part of the condenser is mounted shell with a gap. Which is filled with a coolant. The shell mounted around the capacitor is thermally insulated. The discharge and discharge pipelines are connected to the shell, and the discharge pipeline is located inside the shell and is connected to the collector. (Device for accumulating cold. Patent N 2168584 dated 06/10/2001 E 02 D 3/115)

The disadvantages of this device is that in winter during sunny weather the surface temperature of the condenser part of the heat pipe rises, as a result of which the productivity of the device decreases. In addition, when the coolant is supplied, the cooling of the device is centralized, as a result of which the energy costs increase and the manufacturability of the device deteriorates.

The objective of the utility model is to increase profitability and productivity, improve manufacturability and expand the functionality of the device.

This technical result is achieved in that the device for accumulating cold comprises a casing pipe filled with refrigerant and consisting of an evaporator immersed in the ground and a condenser consisting of condenser zones A and B, a shell mounted around a part of the condenser with a gap, discharge and discharge pipelines, a condensing unit located above the condenser and connected by discharge and discharge pipelines with a pipeline acting as an evaporator located in the gap dy capacitor and the casing and configured as a tube elliptical cross section tightly wound on the capacitor, wherein the gap between the pipeline and the shell is filled with insulation.

The device includes a casing pipe, consisting of an evaporator 1 immersed in the ground, and a condenser 2, consisting of condenser zones A and B, around the part of the capacitor 2 in the condenser zone A, a sheath 3 is mounted with a gap in which the pipe 4 is located, acting as an evaporator and made in the form of an ellipse tube tightly wound on the capacitor 2, the gap in the condenser zone A between the pipe 4 and the shell 3 is filled with thermal insulation 5. The device for accumulating cold contains a compressor-condenser unit 6, located above the capacitor 2 on a continuous frame of opaque material and connected by a discharge pipe 7 and a discharge pipe 8 by means of a thermostatic valve 9 using a pressure coupling 10 with a pipe 4.

The device operates as follows.

With the onset of the period when the average daily outdoor temperature drops below 0 ° C, cooling and freezing occurs

soil due to the circulation of refrigerant in the casing evaporator. Condensation occurs in capacitor zone B.

With the onset of the period when the daily average outdoor temperature rises above 0 ° C, pressure increases in the casing and the refrigerant circulation stops and the condensing unit 6 is turned on. Due to the circulation of the refrigerant in the condensing unit 6, the pressure in the casing decreases. The refrigerant from the compressor-condenser unit 6 located above the condenser 2 enters the discharge pipe 7, then into the condenser zone A into the pipe 4, which acts as an evaporator and made in the form of an ellipse section tube tightly wound on the condenser 2, where the refrigerant is condensed by heat exchange, located in the condenser 2, around which the shell 3 is mounted with a gap, and the gap between the pipe 4 and the shell 3 is filled with thermal insulation 5. Next, the refrigerant vapor from the pipeline 4 pos upayut in the discharge line 8 and returned to the condensing unit 6 where they are compression, condensation, and through the discharge pipe 7, the refrigerant is returned to the condenser zone A, and the cycle is repeated.

Using the described device allows you to increase the productivity of the heat pipe on sunny days due to the shading of the condenser zone B, reduce the cost of cold by using direct cooling of the condenser zone A and increase manufacturability by changing the temperature regime of freezing individually for each device, due to the fact that the device for accumulation cold contains a condensing unit, which is mounted on top of a heat pipe on a frame made of light impervious material.

Claims (1)

A device for accumulating cold, containing a casing pipe filled with refrigerant and consisting of an evaporator immersed in the ground and a condenser, a shell mounted around a part of the condenser with a gap, discharge and discharge pipes, characterized in that the device contains a condensing unit located above a condenser and connected by discharge and discharge pipelines with a pipeline located in the gap between the evaporator and the shell and made in the form of an elliptical tube I am tightly wound on the capacitor, and the gap between the pipeline and the shell is filled with thermal insulation.