RU108051U1 - COLD ACCUMULATION DEVICE - Google Patents

Abstract

 A device for accumulating cold, including a pipe filled with refrigerant and consisting of an evaporator, a condenser, consisting of condenser zones A and B, a condensing unit connected by discharge and discharge pipelines with a pipeline acting as an evaporator, made in the form of an ellipse section tube, tightly wound around the condenser and located in zone A, it is made in the form of a thermowell and placed in soil to a depth L, in the evaporation zone H1 of which there is an evaporator filled with refrigerant, cat the second through the intermediate pipe is connected to a funnel made with trapezoidal openings and a side, and the side is directed towards the movement of steam to collect evaporating vapors and enter their condensation zones A or B, in addition, the condenser zone B is made of separate vertical pipes connected by a collector , and is located at a distance of HB from the ground so that HB <1.5 m, characterized in that the thermowell has an outer diameter D and an inner diameter D1 at a distance L2 from zone A along the inner diameter D1 of the thermowell an additional evaporator filled with refrigerant, with a funnel and an intermediate pipe, made of heat-insulating material in the form of a glass with an inner diameter D2, in the lower part of which a hole is made for placing an intermediate pipe with an outer diameter d and an inner diameter D3, the lower part of which is angled 90 ° is brought to an additional evaporator in zone H2, located between the inner diameter of the thermowell D1 and the inner diameter of the evaporator D2, where D3 <d, D2 <D1, and the funnel is located in the upper part of the gap

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, including a casing pipe filled with refrigerant and consisting of an evaporator immersed in the soil, a condenser consisting of condenser zones A and B, 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, made in the form of an ellipse tube tightly wound around a condenser located in zone A, and the casing itself, ene in the form of a steel pipe, mounted in a reinforced concrete pile [Patent №62617 published: 27.04.2007].

Closest to the claimed utility model is a device for accumulating cold, including a pipe filled with refrigerant and consisting of an evaporator, a condenser consisting of condenser zones A and B, a condensing unit connected by discharge and discharge pipelines with a pipeline acting as an evaporator, made in the form of an ellipse tube, tightly wound on the capacitor, and located in zone A, characterized in that the tube is made in the form of a thermowell and placed in a preliminary time eschennuyu diaphragm steel pipe to a depth L, in the evaporation area H ₁ which is located an evaporator filled with a refrigerant which, via an intermediate pipe connected to a funnel formed with trapezoidal openings with sizes R _1, R _2, m, h, r and upstand f, wherein f ledge directed towards the movement of steam for evaporating the vapor collection and receipt of a condensation zone a or B, F zone between the steel pipe and the thermopiles in the evaporation zone ₁ H soil depth H ₂ is filled with antifreeze to increase the thermal conductivity of thermally and moreover, the capacitor area B formed of separate vertical pipes joined collector and located at a distance H from the ground _in such a way that _{in the} H <1.5 m [Patent №77617 published: 27.10.2008]..

The disadvantages of the known devices for the accumulation of cold are their high metal consumption and energy consumption, as well as the low stability of the supports installed in frozen soil.

To eliminate these shortcomings in the device for accumulating cold, a part of the intermediate pipe is equipped with an evaporation zone H ₂ in which an evaporator filled with refrigerant is additionally located, made in the form of a cup made of heat-insulating material, which is connected from the inside to the intermediate pipe, which is connected to a funnel made with trapezoidal openings, with the side directed towards the movement of steam to collect vaporizing vapors and enter their condensation zones A or B. T some solution will reduce the total area of the evaporator portion of H ₁ and H _2, and, consequently, the capacitor area zones A and B, without reducing the stability of the supports in the frozen ground.

The objective of the utility model is: adaptation of the device for local freezing of soil, reduction of metal consumption and energy consumption.

This technical result is achieved by the fact that the device for accumulating cold, including a pipe filled with refrigerant and consisting of an evaporator, a condenser consisting of condenser zones A and B, the pipe is made in the form of a thermowell, in the evaporation zone H ₁ which is an evaporator filled with refrigerant, which through an intermediate pipe is connected to a funnel made with trapezoidal openings and a side, and the side is directed in the direction of steam movement to collect the vaporizing vapors and their entry into the conda zones sation A or B, in addition, the condenser zone B is made of a separate vertical pipes joined collector and located at a distance H from the ground _in such a way that _{in the} H <1.5 m., according to claimed technical solution, the device for the accumulation cold portion of the intermediate pipe is provided with a flash zone wherein N ₂ is further located an evaporator filled with refrigerant unaltered configured as a sleeve made of heat-insulating material which is connected to the inner side of the intermediate tube, soybeans Inonii a funnel formed with trapezoidal openings and a rim, wherein the rim is directed towards the movement of steam for evaporating the vapor collection and receipt of a condensation zone A or B.

The proposed design of a device for accumulating cold is illustrated by the drawings - FIG. 1: a longitudinal section of a soil section with a device for accumulating cold; figure 2: glass-evaporator.

The device for accumulating cold includes a pipe made in the form of a thermowell 1, consisting of evaporators 2 and 3 filled with refrigerant, a condenser 4, consisting of condenser zones A and B, around the condenser zone A there is a pipe 5 acting as an evaporator and made in the form of an ellipse tube section tightly wound around a thermoway 1 around the pipeline 5, a shell with heat insulation 6 is mounted to reduce heat influx from the soil to zone A, Thermoway 1 placed in the soil to a depth of L (up to 50 meters) contains an evaporator 2, cat through the intermediate pipe 7 is connected to the funnel 8. The funnel 8 is located at a distance L ₂ from the condenser zone A and is made with trapezoidal openings and a side so that the side is directed in the direction of steam movement to collect the vaporizing vapors and their entry into the condensation zones A or B and to prevent refrigerant from entering the openings. An additional evaporator 3 with a funnel and an intermediate pipe made of a heat-insulating material in the form of a glass and filled with refrigerant, the additional evaporator is made with an inner diameter D ₂ in the lower part of which a hole is made to accommodate an intermediate pipe with an outer diameter d and an inner diameter D ₃ , lower part of which is led out at an angle of 90 ° to the additional evaporator in the zone of the evaporator H ₂ located between the inner diameter of the thermowell D ₁ and the inner diameter of the evaporator D ₂ , where D ₃ < d, D ₂ <D ₁ , and the funnel is located in the upper part of the intermediate pipe at a distance L ₁ from zone A and is made with trapezoidal openings and a side in such a way that the side is directed in the direction of steam movement to collect evaporating vapors and enter them condensation A or B and to prevent refrigerant from entering the openings.

The assembly and operation of the device is as follows. Thermoway 1 is placed in the soil to a depth of L up to 50 meters, in the evaporation zone H _{1 there} is an evaporator 2 filled with refrigerant, which is connected through an intermediate pipe 7 to a funnel 8 located at a distance L ₂ from the condenser zone A. In zone A, thermowells 1 are placed pipe insulation 5 to 6 to reduce heat leakage from the soil in the area A. at the distance H ₂ from the zone L ₂ is an additional evaporator 3 with the funnel 10 and the intermediate tube 9 made of a heat insulating material in the form of a sleeve and filled with a refrigerant, etc. than the additional evaporator is formed an inner diameter D ₂ at the bottom of which an opening for accommodating the intermediate pipe 9, the outer diameter d and the internal diameter D _3, the lower part of which is at an angle of 90 ° is derived in an additional evaporator 3, the evaporator zone of H _2, disposed between thermopiles inner diameter d ₁ and an inner diameter d of the evaporator _2, where d ₃ <d, d ₂ <d _1, and the funnel 10 located in the upper portion of the intermediate pipe 9 at a distance L ₁ from the zone a and is provided with trapezoidal openings and a rim that them that the rim is directed towards the movement of steam for evaporating the vapor collection and receipt of a condensation zone A or B, and to prevent the ingress of the refrigerant into the holes.

The condenser zone B is made of separate vertical pipes 11 connected by a collector 12, and is located at a distance H _of <1.5 m, because from the ground, otherwise, if H _is <1.5 m., the rules of operation require the manufacture of additional sites for equipment maintenance. The device for accumulating cold comprises a compressor-condenser unit 13, consisting of a compressor 14, a condenser 15 located on a continuous frame 16 and connected by a discharge pipe 17 and a discharge pipe 18 using a thermostatic valve and a pressure coupling with a pipe 5. With the onset of a period when the average daily temperature outside air temperature drops below 0 ° С, soil is cooled and frozen due to the circulation of refrigerant between evaporators 2, 3 and condenser 4.

The circulation is as follows.

The liquid refrigerant located in the evaporation zones H ₁ and H ₂ , moreover, the zone H ₁ can be changed by filling or taking the refrigerant, is affected by the temperature of the soil, while the liquid refrigerant begins to evaporate between the outer surface of the evaporators 2 and 3 and the inner surface of the thermowell 1, the vapors of which move upward between the thermowell 1 and the intermediate pipes 7 and 9. Having approached the funnels 8 and 10, the vapors pass through their holes and enter the condensation zone A or B and, depending on the ambient temperature, condense. The liquid refrigerant flows along the walls of the thermowell 1 to the funnel 10, and enters through the pipe 9 into the zone H _{2 of the} evaporator 3, where heat is transferred from the soil to the boiling refrigerant, the excess liquid refrigerant flows through the walls of the evaporator 3 to the funnel 8, and flows through the intermediate pipe 7 to zone H _{1 of the} evaporator 2 of the thermowell 1.

With the onset of the period when the average daily temperature of the outdoor air becomes higher than 0 ° C, an increase in pressure occurs in the thermowell 1 and the refrigerant circulation stops. Turns on the condensing unit 13, the pressure in the thermowell 1 decreases. The refrigerant from the compressor-condenser unit 13 located on the continuous frame 16 enters the discharge pipe 17, and then throttles into the pipe 5, made in the form of an ellipse section tube tightly wound on the thermowell 1, where the refrigerant located in the condensation is condensed by means of heat exchange condenser zone A. Next, the refrigerant vapor from the pipeline 5 enters the discharge pipe 18 and returns to the condensing unit 13, where they are compressed and condensed, and having passed the discharge pipe 17, the refrigerant is throttled and returned to zone A. Then the cycle repeats.

The proposed device for accumulating cold allows you to separate the area of the evaporation zone, while reducing their total area, and due to the fact that the area of the condensation zone is also reduced, it allows to reduce the energy consumption and metal consumption of the device.

Claims (1)

A device for accumulating cold, including a pipe filled with refrigerant and consisting of an evaporator, a condenser, consisting of condenser zones A and B, a condensing unit connected by discharge and discharge pipelines with a pipeline acting as an evaporator, made in the form of an ellipse section tube, tightly wound on a condenser, and located in zone A, is made in the form of a thermowell and placed in soil to a depth L, in the evaporation zone H _{1 of} which there is an evaporator filled with refrigerant, cat the second through the intermediate pipe is connected to a funnel made with trapezoidal openings and a side, and the side is directed in the direction of steam movement to collect evaporating vapors and enter their condensation zones A or B, in addition, the condenser zone B is made of separate vertical pipes connected by a collector , and is located at a distance of H _in from the ground so that H _is <1.5 m, characterized in that the thermowell has an outer diameter D and an inner diameter D ₁ at a distance L ₂ from zone A along the inner diameter D _{1 of the} thermowell y an additional evaporator filled with a refrigerant was installed, with a funnel and an intermediate pipe made of heat-insulating material in the form of a glass with an inner diameter D ₂ , in the lower part of which a hole was made to accommodate an intermediate pipe with an outer diameter d and an inner diameter D ₃ , the lower part of which at an angle of 90 ° is derived in an additional evaporator in zone H ₂ disposed between the inner diameter d ₁ thermopiles and evaporator inner diameter d _2, where d ₃ <d, d ₂ <d _1, and a funnel positioned at the top hour and the intermediate pipe at a distance L ₁ from the area A.