KR20130112534A - Pipe member equipped with heat insulation core pipeline and u-shaped annularly-distributed pipeline - Google Patents

Abstract

PURPOSE: A pipe member equipped with a core pipeline for heat insulation and a U-shaped annular pipeline is provided to prevent temperature difference energy loss caused by the heat transferred from the end of an inlet pipeline to the end of an outlet pipeline. CONSTITUTION: A pipe member equipped with a core pipeline for heat insulation and a U-shaped annular pipeline comprises a U-shaped pipeline structure (800) and a heat cutoff device (400). The U-shaped pipeline structure is composed of two or more pipelines and is installed in a cylindrical heat storage body (300). The heat cutoff device is composed of a solid, flexible body, foaming body, sealed gel body, gas, liquid, or vacuum structure.

Description

PIPE MEMBER EQUIPPED WITH HEAT INSULATION CORE PIPELINE AND U-SHAPED ANNULARLY-DISTRIBUTED PIPELINE}

The present invention relates to a pipe body having a core section for thermal barrier and a pipeline arranged in a U-shaped annular, more specifically, natural heat storage body, such as a top floor surface or reservoir, lake, river, sea, or artificially installed solid, meteorological Or installed in the heat accumulator (500) consisting of a liquid object, the U-shaped core pipe line and the end of the fluid inlet and / or the end of the conduit arranged in a conduit composed of a direct thermal barrier material, or between the two By installing a heat shield structure in the construction of the core block for the heat shield according to the present invention and a pipe body with a U-shaped annular conduit, thereby forming a heat transfer fluid having a temperature difference adjacent to each other on the same side when passing through the pipe It is possible to prevent the loss of temperature difference energy due to heat transfer between the pipe end of the inlet end and the pipe end of the outlet end installed in the state. The present invention relates to a pipe body having a core block for thermal barriers and a pipeline arranged in a U-shaped annular shape.

The U-shaped conduit device of a heat exchanger composed of a conventional U-shaped conduit is adjacent to each other when a fluid having a temperature difference flows between a conduit end of a fluid inlet end and a conduit end of a fluid outlet end installed adjacent to each other on the same side. Because of this problem, the temperature difference energy is frequently lost due to heat transfer due to the temperature difference.

The present invention has been made to solve the above problems, an object of the present invention is to direct the pipe end of the inlet and / or the outlet of the U-shaped fluid pipe of the U-shaped pipe which is radially formed to transfer thermal energy to each other A fluid inlet end and a fluid outlet end having a temperature difference installed adjacent to each other on the same side by installing a heat shielding material or installing a heat shielding structure between the two, and then installing a heat conductive cylinder made of a heat transfer material. It is to provide a U-shaped pipe that is formed radially to transfer the thermal energy to each other so as to prevent the loss of the temperature difference energy due to the heat transfer according to the temperature difference when the fluid having a temperature difference flows between the pipe end of.

The present invention relates to a tube body having a core section for thermal cutoff and a pipeline arranged in a U-shaped annular shape, comprising a natural heat storage body such as a top floor surface or a reservoir, a lake, a river, the sea, or an artificially installed solid, meteorological or liquid object. Installed in the configured heat storage body, by constructing the end of the fluid inlet and / or outlet end of the U-shaped core pipeline and the annularly arranged pipelines directly from the thermal barrier material, or by installing a thermal barrier structure between the two It consists of a core body for the heat-dissipated pipeline according to the present invention and a pipe body having a U-shaped annular pipe, so that the heat transfer fluid having a temperature difference is adjacent to each other on the same side when the heat transfer fluid flows through the pipe. Thermal cutoff core passage to prevent the loss of temperature difference energy due to heat transfer between the end and the end of the pipeline And a conduit having a conduit arranged in an annular U-shape.

1 is a view illustrating an example in which a conventional U-shaped pipe line 100 is installed in a heat storage body 500.
2 is a diagram illustrating an example in which a conventional U-shaped pipe line 100 is installed in a cylindrical heat storage body 300, and a cylindrical heat storage body 300 is installed in the heat storage body 500.
3 is a cylindrical heat accumulator 300 according to the present invention is provided with a U-shaped spiral pipeline structure 800 consisting of two or more multiple pipes are composed of multiple pipes, several spiral pipes are cylindrical heat storage body 300 Installed at the periphery thereof, the bottom portion of which is concentrated at the center and leads to the fluid first entrance end 101 through the central pipeline end 700 of the U-shaped spiral pipeline, and is composed of multiple pipelines. The outer periphery of the central pipeline end 700 of the configured U-shaped spiral pipeline is a perspective view showing a structure in which the heat shield device 400 is installed.
4 is a cross-sectional view of Fig.
5 is a cylindrical heat storage body 300 according to the present invention is provided with a U-shaped spiral pipeline structure 800 consisting of two or more pipes, several spiral pipes are arranged around the cylindrical heat storage body (300) And, it is a perspective view showing a structure in which the heat shield device 400 is installed on the outer edge of the central pipeline end 700 of each U-shaped spiral pipeline installed in the core portion composed of multiple pipelines.
Fig. 6 is a sectional view of Fig. 5. Fig.
Figure 7 is a cylindrical heat storage body 300 according to the present invention, so that two or more pipes may be installed in a border close to the periphery of the cylindrical heat storage body 300 U-shaped spiral pipeline structure 800 composed of multiple pipes Is installed, and the close to the center of the cylindrical heat storage body 300 is a joint pipe 200 consisting of a pipe with a relatively large pipe diameter is installed, the bottom portion of the U-shaped spiral pipe structure 800 of the multiple pipe It is a perspective view illustrating a structure in which a heat-transfer structure is installed at the outer edge of the joint pipe 200 and penetrates each other through the bottom of the joint pipe 200.
Fig. 8 is a sectional view of Fig. 7. Fig.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention will be described in more detail.

The present invention relates to a tube body having a core section for thermal cutoff and a pipeline arranged in a U-shaped annular shape, comprising a natural heat storage body such as a top floor surface or a reservoir, a lake, a river, the sea, or an artificially installed solid, meteorological or liquid object. Installed in the heat accumulator 500, the end of the fluid inlet and / or outlet end of the U-shaped core pipeline and the annularly arranged pipelines directly composed of the thermal barrier material, or between the thermal barrier structure By installing the constitution of the core block for the heat shield according to the present invention and the conduit having a conduit arranged in a U-shaped annular, according to the inlet installed in the state adjacent to each other on the same side when the heat transfer fluid having a temperature difference flows through the conduit Core for thermal cutoff to prevent the loss of temperature difference energy due to heat transfer between the pipe end of the stage and the pipe end of the outlet To provide a tubular body having a pipe arranged in the annular and U-shaped.

In the tube body having a heat shield core part pipeline according to the present invention and a conduit arranged in a U-shaped annular shape, each U-shaped conduit 100 passes one or more heat transfer fluids 111 as follows. Is,

1) liquid fluid;

2) gaseous fluids;

3) fluid converted from liquid phase to gas phase; or

4) a fluid converted from the gas phase to the liquid phase;

.

The U-shaped conduit device of a heat exchanger composed of conventional U-shaped pipes has a temperature difference between two end portions of a fluid inlet end and a fluid outlet end which are installed adjacent to each other. Among them, there is a problem that the temperature difference energy is lost frequently due to heat transfer according to the temperature difference. An example of the description is as follows.

1 illustrates an embodiment in which a conventional U-shaped pipe line 100 is installed in a heat storage body 500. Here, the temperature difference between the heat transfer fluid 111 passing through the end of the conduit installed in the state adjacent to the fluid second inlet end 102 on the same side as the end of the conduit of the fluid first inlet 101 of the U-shaped pipe (100) In the case of, the temperature difference between the two is often caused by heat transfer.

2 is a view illustrating an example in which a conventional U-shaped pipe line 100 is installed in a cylindrical heat storage body 300, and a cylindrical heat storage body 300 is installed in the heat storage body 500.

The cylindrical heat storage body 300 is a core heat pipe for the heat shield inside the heat storage body 500 composed of a natural heat storage body such as a shallow ground surface or a reservoir, a lake, a river, the sea, or an artificially installed solid, gaseous or liquid object. When the heat transfer fluid 111 of the fluid first inlet port 101 and the fluid second inlet port 102 of the U-shaped pipe has a temperature difference, it is installed adjacent to each other. As a result, the temperature difference energy is frequently lost due to heat transfer between the pipe end close to the fluid first entrance end 101 and the pipe end close to the fluid second entrance end 102 installed on the same side.

Accordingly, the present invention is installed in the heat storage body 500 consisting of natural heat storage body, such as a top floor surface or reservoir, lake, river, sea, or artificially installed solid, gaseous or liquid objects, arranged in a U-shaped core pipe line and annular By constructing the end part of the fluid inlet and / or outlet part of the conduit line directly from the thermal barrier material, or by installing a thermal barrier structure between the two, the core part for the thermal barrier line and the U-shaped annular profile It consists of a conduit with a conduit, so that when the heat transfer fluid with temperature difference flows through the conduit, the temperature difference energy is caused by heat transfer between the conduit end of the inlet end and the conduit end of the outlet end which are installed adjacent to each other on the same side. Provided is a tube body having a heat shield core pipeline and a U-shaped annular pipeline to prevent loss.

3 is a cylindrical heat accumulator 300 according to the present invention is provided with a U-shaped spiral pipeline structure 800 consisting of two or more multiple pipes are composed of multiple pipes, several spiral pipes are cylindrical heat storage body 300 It is installed around the bottom portion of the central conduit through the central passage end 700 of the U-shaped spiral pipeline through the fluid first entrance end 101, and consists of multiple pipelines consisting of multiple pipelines installed in the core part The outer periphery of the central pipeline end 700 of the configured U-shaped spiral pipeline is a perspective view showing a structure in which the heat shield device 400 is installed.

4 is a cross-sectional view of FIG. 3.

As shown in Figures 3 and 4, the main configuration is to include a U-shaped spiral tube and a heat shield 400 composed of multiple conduits,

The U-shaped spiral tube composed of the multiple conduits includes the U-shaped spiral conduit structure 800 composed of two or more conduits for passing a heat transfer fluid 111, or several sets of the U-shaped spiral conduit structure 800. Consists of one of the cylindrical heat accumulator 300 composed of a solid object or gel-like object, the U-shaped spiral conduit structure 800 composed of multiple conduits spirally close to the rim around the cylindrical heat accumulator 300. It is installed in an annular form, wherein the fluid first entrance end 101 of the U-shaped spiral pipeline structure 800 of each pipeline is installed on the top of the center of the spiral pipeline structure, the central pipeline end of the U-shaped spiral pipeline of each pipeline 700 and the lower portion of the U-shaped spiral pipeline structure 800 of each pipeline pass through each other, the fluid second entrance end 102 of each pipeline is U of each pipeline Type spiral is provided on the top of the raised upward in the channel structure 800. The second fluid the U-shaped helical conduit structure (800) through the pipe end portion 900 of the exit end 102 to the helical state.

The thermal barrier device 400 is a thermal barrier structure composed of a solid or flexible body or foam having a thermal barrier effect, or a sealed gel body, or a gas, a liquid, or a structure in a vacuum state, and two or more. The U-shaped spiral pipeline structure 800 configured as a pipe is installed in the cylindrical heat storage body 300, and concentrated in the cylindrical heat storage body 300 to penetrate the fluid first entrance end 101 upwards. The central conduit end 700 of the U-shaped spiral conduit composed of multiple conduits is installed, and the central conduit end 700 of the U-shaped spiral conduit is directly made of a heat shielding material, or wrapped with a heat shielding material, Alternatively, the heat shield device 400 is installed around the center pipe end portion 700 of the U-shaped spiral pipe line in which each pipe line is concentrated, and thus the heat shield device 400 is installed on the top of each pipe line. Central pipeline end 700 of the U-shaped spiral pipeline and the U-shaped spiral pipeline structure 800 of each pipeline and the pipeline end of the U-shaped spiral pipeline structure 800 of each pipeline fluid second entrance end 102 900) significantly reduces the loss of temperature difference energy due to heat transfer.

The structure is composed of one or more of the following structures,

1) a U-shaped spiral consisting of multiple pipelines to the U-shaped spiral pipeline structure 800 consisting of two or more pipelines and the pipeline end 900 of the fluid second entrance end 102 of the U-shaped spiral pipeline structure 800; While constituting the conduit, the central conduit end 700 of the U-shaped spiral conduit of each conduit is concentrated and installed in the axial center in a state adjacent to each other, and around the central conduit end 700 of the U-shaped spiral conduit. A pipeline structure assembly configured to install the thermal barrier device 400 or to manufacture a central pipeline end 700 of the U-shaped spiral pipeline of each pipeline by a direct thermal barrier material;

2) A cylindrical heat accumulator 300 composed of a heat transfer material and having various geometric shapes, such as a circular or conical or square or rectangular or star shape, comprising two or more conduits, wherein the U-shaped spiral conduit structure 800 is formed. And the center of the U-shaped spiral pipe line 800 which is covered with the pipe end portion 900 of the fluid second entrance end 102 of the U-shaped spiral pipe structure 800 and is concentrated in the state adjacent to each other and is installed as an axial center. Cylindrical structure (refer to the perspective views shown in FIGS. 3 and 4) coated with the cylindrical heat storage body 300 constituted by installing the heat shield device 400 around the pipeline end 700, or each The heat-blocking device 400 is installed around the central pipeline end 700 of each of the U-shaped spiral pipelines installed at the center in the axial direction by concentrating the sets adjacent to each other. Is a cylindrical structure coated with the cylindrical heat accumulator 300, which is constructed by manufacturing a central pipeline end 700 of each of the U-shaped spiral pipelines with a direct thermal barrier material (see FIG. 5). The cylindrical heat storage body 300 according to the U-shaped spiral pipeline structure 800 consisting of two or more pipes are installed, several spiral pipes are arranged around the cylindrical heat storage body 300, multiple pipelines A perspective view showing a structure in which a heat shield device 400 is installed at the outer edge of the central pipeline end 700 of each U-shaped spiral pipeline installed in the core portion, and FIG. 6 is a sectional view of FIG. 5; And

3) The U-shaped spiral pipeline consisting of the U-shaped spiral pipeline structure 800 having two or more pipelines in the form of a structure having a pipeline therein as directly manufactured by the cylindrical heat storage body 300 is formed. And the conduit end 900 of the fluid second entrance end 102 of the U-shaped spiral conduit structure 800 and wherein each conduit passes through the fluid first entrance end 101. The central conduit end 700 of the U-shaped spiral conduit is installed in the state adjacent to each other in the state, and around the central conduit end 700 of the U-shaped spiral conduit in the interior configured by installing the thermal barrier device 400 A cylindrical structure having the cylindrical heat accumulator 300 having a pipe as a structure;

It is configured in the form of a structure comprising a.

Figure 7 is a cylindrical heat storage body 300 according to the present invention, so that two or more pipes may be installed in a border close to the periphery of the cylindrical heat storage body 300 U-shaped spiral pipeline structure 800 composed of multiple pipes Is installed, and the close to the center of the cylindrical heat storage body 300 is a joint pipe 200 consisting of a pipe with a relatively large pipe diameter is installed, the bottom portion of the U-shaped spiral pipe structure 800 of the multiple pipe It is a perspective view showing a structure in which a heat-transfer structure is installed on the outer edge of the joint pipe 200 and penetrates to the bottom of the joint pipe 200 and passes through each other, and FIG. 8 is a cross-sectional view of FIG.

As shown in Figures 7 and 8, the main configuration is to include a U-shaped spiral tube consisting of multiple conduits and the heat shield device 400,

The U-shaped spiral tube composed of the multiple conduits may be a U-shaped spiral tube composed of two or more conduits for passing the heat transfer fluid 111, or a plurality of sets of the U-shaped spiral conduit structure 800 in the form of a solid object or gel. Consists of one of the cylindrical heat accumulator 300 is installed on the object, the U-shaped spiral pipe structure 800 composed of multiple conduits are annularly installed around the cylindrical heat accumulator 300 in a spiral state, Each conduit includes a conduit end 900 of a fluid second inlet end 102 for a U-shaped spiral conduit structure 800 for passing through a relative fluid second inlet end 102, wherein the U-shaped helix conduit of each conduit A bottom portion of the structure 800 passes through the cavity line 200, and the cavity line 200 is installed at the center of the U-shaped spiral pipeline structure 800, and an upper portion of the structure 800 is disposed in the space of the fluid. It passes through the first exit end (1101).

The thermal barrier device 400 is a thermal barrier structure composed of a solid or flexible body or foam having a thermal barrier effect, or a sealed gel body, or a gas, a liquid, or a vacuum structure. U-shaped spiral pipeline structure 800 is installed in the cylindrical heat storage body 300, the cavity pipe 200 is installed in the axial center of the cylindrical heat storage body 300, the upper end of the fluid The pipe end of the common pipeline 200 of the common first entrance end 1101 and the U-shaped spiral pipe line is directly made of a heat shielding material, or installed wrapped with a heat shielding material, or the U of each pipe line. Of the conduit end 900 of the male spiral conduit structure 800 and the conduit end 900 of the fluid second entrance end 102 of the U-shaped spiral conduit structure 800 of each conduit and of the common conduit 200 of the U-shaped spiral conduit; Installed the heat shield device 400 between As the thermal barrier device 400 is the joint end 200 and the pipe end of the U-shaped spiral pipeline structure 800 and the second U-shaped spiral pipeline structure 800 of the respective fluid passages (102) 900) significantly reduces the loss of temperature difference energy due to heat transfer.

The structure is composed of one or more of the following structures,

1) the U-shaped spiral conduit structure 800 consisting of two or more conduits and the U-shaped spiral conduit structure 800 of the U-shaped spiral conduit structure 800; The helical pipeline structure 800 and the lower portion of the U-shaped spiral pipeline structure 800 of each pipeline passes through the common pipeline 200 jointly, the common pipeline 200 is the upward direction Passing through the common first entrance end 1110 of the fluid and the joint pipe 200 is installed by installing the thermal barrier device 400, or by making the joint pipe 200 directly from the thermal barrier material Pipeline structure assembly;

2) A cylindrical heat accumulator 300 composed of a heat transfer material and having various geometric shapes, such as a circular or conical or square or rectangular or star shape, comprising two or more conduits, wherein the U-shaped spiral conduit structure 800 is formed. And a U-shaped spiral conduit formed of a conduit end 900 of the U-shaped spiral conduit structure 800 and the fluid second entrance end 102, and a bottom portion and an angle covered by the U-shaped spiral conduit structure 800. The lower part of the conduit penetrates each other, and an upper end thereof is configured to pass through the common conduit 200 and the thermal barrier device 400 installed in the common conduit 200 of the common first entrance end 1101 of the fluid. A cylindrical structure coated with the cylindrical heat accumulator 300; And

3) The U made of the cylindrical heat storage body 300, the U consisting of a multi-pipe consisting of the U-shaped spiral pipe structure 800 provided with two or more pipes in the form of a structure provided with a pipe therein A spiral helical pipeline structure 800 and a conduit end 900 of the fluid second entrance end 102 of the U-shaped spiral pipeline structure 800 and underneath the U-shaped spiral pipeline structure 800 of each pipeline. The cylindrical heat accumulator 300 having a conduit therein is formed by jointly passing through the common conduit 200 and the thermal cutoff device 400 installed at the center of the U-shaped spiral conduit structure 800. A cylindrical structure having a structure);

It is configured in the form of a structure comprising a.

100: U-shaped pipeline 101: fluid first entrance end
102 fluid second entrance end 111 heat transfer fluid
200: joint pipe 300: cylindrical heat storage body
400: heat shield 500: heat storage body
700: center pipeline end of U-shaped spiral pipeline
800: U-shaped spiral pipeline structure
900: conduit end 900 of the U-shaped spiral conduit structure 800 fluid second entrance end 102
1101: common first entrance end of the fluid

Claims (2)

The fluid inlet of a U-shaped core pipe and an annularly arranged pipe, which is installed in a natural heat storage body such as a ground floor surface or a reservoir, a lake, a river, the sea, or an artificially installed solid, gaseous or liquid object. Pipe body having the core part pipeline for the heat shield according to the present invention and the U-shaped annular conduit by constructing the end of the pipeline and the end of the pipeline directly from the thermal barrier material, or by installing the thermal barrier structure between the two. Therefore, when the heat transfer fluid having a temperature difference flows through the pipeline, the temperature difference energy is prevented from being lost due to the heat transfer between the pipeline end of the inlet end and the pipeline end of the outlet end installed adjacent to each other on the same side. As,
Cylindrical heat accumulator 300 is provided with a U-shaped spiral conduit structure 800 consisting of two or more multiple conduits consisting of multiple conduits, a plurality of spiral conduits are installed around the cylindrical heat accumulator 300, The bottom portion of the U-shaped spiral pipe line is composed of multiple pipes installed at the core part of the U-shaped spiral pipe line through the central pipe end 700 of the U-shaped spiral pipe line. The outer periphery of the central pipeline end of the 700 is composed of a structure in which the heat shield device 400 is installed,
The main configuration is to include a U-shaped spiral tube and heat shield 400 composed of multiple pipelines,
The U-shaped spiral tube composed of the multiple conduits includes the U-shaped spiral conduit structure 800 composed of two or more conduits for passing a heat transfer fluid 111, or several sets of the U-shaped spiral conduit structure 800. Consists of one of the cylindrical heat accumulator 300 composed of a solid object or gel-like object, the U-shaped spiral conduit structure 800 composed of multiple conduits spirally close to the rim around the cylindrical heat accumulator 300. It is installed in an annular form, wherein the fluid first entrance end 101 of the U-shaped spiral pipeline structure 800 of each pipeline is installed on the top of the center of the spiral pipeline structure, the central pipeline end of the U-shaped spiral pipeline of each pipeline 700 and the lower portion of the U-shaped spiral pipeline structure 800 of each pipeline pass through each other, the fluid second entrance end 102 of each pipeline is U of each pipeline Through the pipe end portion 900 of the spiral-shaped conduit structure 800, the fluid exit the second stage 102 is provided at the upper end raised upward by the helical state in the U-shaped helical pipe structures 800,
The thermal barrier device 400 is a thermal barrier structure composed of a solid or flexible body or foam having a thermal barrier effect, or a sealed gel body, or a gas, a liquid, or a structure in a vacuum state, and two or more. The U-shaped spiral pipeline structure 800 configured as a pipe is installed in the cylindrical heat storage body 300, and concentrated in the cylindrical heat storage body 300 to penetrate the fluid first entrance end 101 upwards. The central conduit end 700 of the U-shaped spiral conduit composed of multiple conduits is installed, and the central conduit end 700 of the U-shaped spiral conduit is directly made of a heat shielding material, or wrapped with a heat shielding material, Alternatively, the heat shield device 400 is installed around the center pipe end portion 700 of the U-shaped spiral pipe line in which each pipe line is concentrated, and thus the heat shield device 400 is installed on the top of each pipe line. Central pipeline end 700 of the U-shaped spiral pipeline and the U-shaped spiral pipeline structure 800 of each pipeline, and the U-shaped spiral pipeline structure 800 of each pipeline, the pipeline end of the fluid second entrance end 102 ( Significantly reduce the temperature difference energy loss due to heat transfer between 900,
The structure is configured to include one or more of the following structure forms,
1) a U-shaped spiral consisting of multiple pipelines to the U-shaped spiral pipeline structure 800 consisting of two or more pipelines and the pipeline end 900 of the fluid second entrance end 102 of the U-shaped spiral pipeline structure 800; While constituting the conduit, the central conduit end 700 of the U-shaped spiral conduit of each conduit is concentrated and installed in the axial center in a state adjacent to each other, and around the central conduit end 700 of the U-shaped spiral conduit. A pipeline structure assembly configured to install the thermal barrier device 400 or to manufacture a central pipeline end 700 of the U-shaped spiral pipeline of each pipeline by a direct thermal barrier material;
2) A cylindrical heat accumulator 300 composed of a heat transfer material and having various geometric shapes, such as a circular or conical or square or rectangular or star shape, comprising two or more conduits, wherein the U-shaped spiral conduit structure 800 is formed. And the center of the U-shaped spiral pipe line 800 which is covered with the pipe end portion 900 of the fluid second entrance end 102 of the U-shaped spiral pipe structure 800 and is concentrated in the state adjacent to each other and is installed as an axial center. The cylindrical structure covered with the cylindrical heat storage body 300 constituted by the heat shield device 400 is installed around the pipeline end 700, or each set is concentrated in a state adjacent to each other to the center in the axial direction. The thermal cut-off device 400 is installed around the central pipeline end 700 of each of the U-shaped spiral pipes installed, or the U-shaped material is directly made of a thermal cut-off material. The cylindrical structure covered with the cylindrical heat storage body 300 that is formed by making the center of the channel end 700 of the spiral pipe; And
3) The U-shaped spiral pipeline consisting of the U-shaped spiral pipeline structure 800 having two or more pipelines in the form of a structure having a pipeline therein as directly manufactured by the cylindrical heat storage body 300 is formed. And the conduit end 900 of the fluid second entrance end 102 of the U-shaped spiral conduit structure 800 and wherein each conduit passes through the fluid first entrance end 101. The central conduit end 700 of the U-shaped spiral conduit is installed in the state adjacent to each other in the state, and around the center conduit end 700 of the U-shaped spiral conduit in the interior configured by installing the heat shield device (400) It is configured to include; a cylindrical structure having a cylindrical heat storage body 300 is provided with a pipe structure
Tubes with core pipelines for thermal barriers and pipelines that are U-shaped. The method of claim 1,
The cylindrical heat accumulator 300 is provided with the U-shaped spiral pipeline structure 800 formed of two or more conduits composed of multiple conduits so that the cylindrical heat accumulator 300 may be installed at a rim close to the periphery of the cylindrical heat accumulator 300. Near the center of the cylindrical heat accumulator 300 is provided with a common conduit 200 consisting of a conduit with a relatively large conduit diameter, and the bottom of the U-shaped spiral conduit structure 800 of the multiple conduit is the joint conduit. Further to the bottom of the (200) and penetrate each other, and further includes a structure in which the heat shield structure is installed on the outer edge of the common pipe (200),
The main configuration is to include a U-shaped spiral tube and the heat shield 400 composed of multiple pipelines,
The U-shaped spiral tube formed of the multiple conduits may be a U-shaped spiral tube composed of two or more pipes for passing the heat transfer fluid 111, or a plurality of sets of the U-shaped spiral pipe structures 800 may be a solid object or a gel-like object. Consists of one of the cylindrical heat accumulator 300 is installed in, the U-shaped spiral pipe structure 800 composed of multiple conduits are annularly installed around the cylindrical heat accumulator 300 in a spiral state, each The conduit comprises a U-shaped spiral conduit structure 800 for passing through a relative fluid second entrance end 102 and a conduit end 900 of a fluid second entrance end 102, wherein the U-shaped spiral conduit structure of each conduit A bottom portion of the 800 passes through the cavity line 200, and the cavity line 200 is installed at the center of the U-shaped spiral pipeline structure 800, and an upper end thereof is a common first fluid. Penetrates the entrance end 1101,
The thermal barrier device 400 is a thermal barrier structure composed of a solid or flexible body or foam having a thermal barrier effect, or a sealed gel body, or a gas, a liquid, or a vacuum structure. U-shaped spiral pipeline structure 800 is installed in the cylindrical heat storage body 300, the cavity pipe 200 is installed in the axial center of the cylindrical heat storage body 300, the upper end of the fluid The pipe end of the common pipeline 200 of the common first entrance end 1101 and the U-shaped spiral pipe line is directly made of a heat shielding material, or installed wrapped with a heat shielding material, or the U of each pipe line. Of the conduit end 900 of the male spiral conduit structure 800 and the conduit end 900 of the fluid second entrance end 102 of the U-shaped spiral conduit structure 800 of each conduit and of the common conduit 200 of the U-shaped spiral conduit; Installed the heat shield device 400 between As the thermal barrier device 400 is the joint end 200 and the pipe end of the U-shaped spiral pipeline structure 800 and the second U-shaped spiral pipeline structure 800 of the respective fluid passages (102) Significantly reduce the temperature difference energy loss due to heat transfer between 900,
The structure is composed of one or more of the following structures,
1) the U-shaped spiral conduit structure 800 consisting of two or more conduits and the U-shaped spiral conduit structure 800 of the U-shaped spiral conduit structure 800; The helical pipeline structure 800 and the lower portion of the U-shaped spiral pipeline structure 800 of each pipeline passes through the common pipeline 200 jointly, the common pipeline 200 is the upward direction Passing through the common first entrance end 1110 of the fluid and the joint pipe 200 is installed by installing the thermal barrier device 400, or by making the joint pipe 200 directly from the thermal barrier material Pipeline structure assembly;
2) A cylindrical heat accumulator 300 composed of a heat transfer material and having various geometric shapes, such as a circular or conical or square or rectangular or star shape, comprising two or more conduits, wherein the U-shaped spiral conduit structure 800 is formed. And a U-shaped spiral conduit formed of a conduit end 900 of the U-shaped spiral conduit structure 800 and the fluid second entrance end 102, and a bottom portion and an angle covered by the U-shaped spiral conduit structure 800. The lower part of the conduit penetrates each other, and an upper end thereof is configured to pass through the common conduit 200 and the thermal barrier device 400 installed in the common conduit 200 of the common first entrance end 1101 of the fluid. A cylindrical structure coated with the cylindrical heat accumulator 300; And
3) The U made of the cylindrical heat storage body 300, the U consisting of a multi-pipe consisting of the U-shaped spiral pipe structure 800 provided with two or more pipes in the form of a structure provided with a pipe therein A spiral helical pipeline structure 800 and a conduit end 900 of the fluid second entrance end 102 of the U-shaped spiral pipeline structure 800 and underneath the U-shaped spiral pipeline structure 800 of each pipeline. The cylindrical heat accumulator 300 having a conduit therein is formed by jointly passing through the common conduit 200 and the thermal cutoff device 400 installed at the center of the U-shaped spiral conduit structure 800. It is configured to include; a cylindrical structure having a structure)
Tubes with core pipelines for thermal barriers and pipelines that are U-shaped.

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