RU2010143270A - DEVICE FOR ABSORBING OR REMOVING HEAT WITH A PIPELINE AS A DOUBLE SPIRAL FOR PASSING A FLUID WITH A DIFFERENCE OF TEMPERATURES - Google Patents

Abstract

1. A device for absorbing or removing heat with a double helix pipeline for passing a fluid with a temperature difference, in which the device consists of one or more pipeline sections installed in parallel or quasi-parallel by series or parallel connection, and each pipeline section is specifically distributed by arranging in the form of one or more double helixes for passing a heat-conducting fluid with a temperature difference, consisting of a medium in a gaseous or liquid state, a medium in a state of gaseous to liquid state, or a medium in a state of liquid to gaseous state, and through a pipeline in the form of a double fluid coils, forming a fluid flow evenly distributed according to temperature difference, so that fluids passing through adjacent sections of the pipeline pass in the opposite direction to perform the function of absorbing or diverting and heat in the passive heat storage area or volume for heat absorption or removal, thus providing a state with more uniform temperature distribution in the passive heat storage area or volume for heat removal or absorption, and the main elements include ! - a body 100 for absorbing or removing heat by transferring thermal energy, made of a heat-conducting material in a solid or colloidal or liquid or gaseous state for storing the heat energy of a heat-conducting fluid 110 consisting of a fluid in a gaseous or liquid state

Claims (18)

1. A device for absorbing or removing heat with a double helix conduit for the passage of a fluid with a temperature difference, in which the device consists of one or more parallel or quasi-parallel sections of the pipeline through a serial or parallel connection, and each section of the pipeline is specifically distributed by arrangement in the form of one or more double spirals for passing a heat-conducting fluid with a temperature difference consisting of a medium in a gaseous m or a liquid state, a medium in a state from gaseous to liquid state, or a medium in a state from liquid to gaseous state, and by means of a double helix conduit for a fluid forming a fluid stream uniformly distributed in accordance with the temperature difference, thus , fluids passing through adjacent sections of the pipeline pass in the opposite direction to perform the function of absorption or removal of heat in a passively accumulating section or volume for absorption or heat water, thereby providing a state with more uniform temperature distribution on the accumulating portion passively or screen for removal or absorption of heat, the main elements include a body 100 for absorbing or removing heat by transferring heat energy made of heat-conducting material in a solid, or colloidal, or liquid, or gaseous state to accumulate heat energy of a heat-conducting fluid 110, consisting of a fluid in a gaseous or liquid state, or fluid a medium in a gaseous to liquid state, or a fluid in a liquid to gaseous state inside the combined fluid conduit 101 with an arrangement in the form double helix for the passage of fluids with a temperature difference in different directions of the flow in accordance with the temperature difference for the implementation of the working function of heat absorption and cooling with energy dissipation or the working function of heat dissipation and heating with energy dissipation in a passively accumulating section or volume 200 for removal or absorption heat in a solid, or colloidal, or liquid, or gaseous state, and the number of bodies 100 for absorption or removal of heat through the transfer of thermal energy is equal to one or more than one; and a fluid conduit 101 made of good heat-conducting material, wherein the fluid conduit 101 has a parallel or quasi-parallel double helix pipeline structure, and the arrangement of the double helix pipeline structure is such that the sections of the fluid pipeline have a difference temperatures and for the passage of fluids with a temperature difference in different directions of flow are adjacent sections of the pipeline, thus, the heat-conducting fluid provides ivaet state with more uniform absorption of heat removal or temperature distribution on the body of the absorption feature or to passively dissipate heat accumulating portion or screen for removal or absorption of heat; characterized in that the outer section of the pipeline with a double helix arrangement is the inlet and outlet side of the pipeline, which is installed with the inlet 111 for the fluid and the outlet 112 for the fluid, and the portion of the pipeline for the fluid near the center of the spiral with a rotation in the opposite direction is is a guide structure 103 of the pipeline for the passage of the fluid, thus, a heat-conducting fluid 110, consisting of a medium in a gaseous or liquid state, a fluid in a state of g a gaseous to a liquid state, or a fluid state to a liquid to gaseous state, passes through a fluid inlet 111 to a fluid outlet 112 located at both ends of the fluid conduit, thus the fluids in the fluid conduit, passing through neighboring sections of the pipeline, pass in the opposite direction, so that through the body 100 to absorb or remove heat through the transfer of thermal energy to transfer thermal energy to a passively accumulating section or volume 200 to him for absorption or removal of heat in a solid, or colloidal, or liquid, or gaseous state; and said fluid conduit 101 is comprised of one or more conduit sections in series or parallel connection, and each conduit section is distributed by arranging one or more double coils for passing a heat-conducting fluid 110 consisting of a medium in a gaseous or liquid state, in a gaseous to liquid state, or a medium in a liquid to gaseous state, through a fluid inlet 111 and a fluid outlet 112 media located at both ends of the fluid conduit 101 for heat-conducting fluids 110 passing through adjacent portions of the fluid conduit 101 in reverse flow directions to transfer thermal energy to the body 100 to absorb or remove heat by transferring heat energy made from a heat-conducting material in a solid, or colloidal, or liquid, or gaseous state; and the fluid conduit 101 is distributed parallel or quasi-parallel in a planar or three-dimensional structure in the body 100 to absorb or remove heat by transferring heat energy to perform the function of absorbing or removing heat in a passively storage portion or volume 200 to remove or absorb heat in the solid, or colloidal, or liquid, or gaseous state. 2. The device according to claim 1, in which the structural relationship between the body 100 for absorption or removal of heat through the transfer of thermal energy and the pipe 101 for the fluid can be formed through one or more relationships, as described below, including: (1) a body 100 for absorbing or removing heat by transferring heat energy is in an assembled structure with a fluid pipe 101; (2) a body 100 for absorbing or removing heat by transferring heat energy is in an integrated structure with a fluid conduit 101; (3) the function of the body 100 to absorb or remove heat by transferring heat energy is directly performed by the fluid conduit 101; (4) the function of the body 100 to absorb or remove heat by transferring heat energy is directly performed by the fluid pipe 101 with an additionally installed independent heat transfer plate 300 that is not connected to adjacent pipe sections; (5) the function of the body 100 to absorb or remove heat by transferring heat energy is directly performed by a common heat-conducting plate 400 connected between adjacent portions of the fluid pipe 101; and (6) the function of the body 100 to absorb or remove heat by transferring heat energy is directly performed by a heat-conducting plate 350 with heat-insulating slots connected between adjacent portions of the fluid pipe 101. 3. The device according to claim 1, in which another structure includes a body 100 for absorbing or removing heat by transferring heat energy made of heat-conducting material in a solid, or colloidal, or liquid, or gaseous state to accumulate heat energy of a heat-conducting fluid 110 consisting of a fluid in a gaseous or liquid state, a fluid in a gaseous to liquid state or a fluid state in a liquid to gaseous state inside the combined fluid conduit 101 with a double arrangement a spiral through which fluids with a temperature difference in different directions of the flow pass in accordance with the temperature difference for the implementation of the working function of heat absorption and cooling with energy removal or the working function of heat removal and heating with energy removal in a passively accumulating section or volume 200 for removal or heat absorption in a solid, or colloidal or gaseous state, and the number of bodies 100 for absorption or removal of heat through the transfer of thermal energy may be equal to one if more than one; and a fluid conduit 101 made of good heat-conducting material, wherein the fluid conduit 101 has a parallel or quasi-parallel double helix pipeline structure, and the arrangement of the double helix pipeline structure is such that the sections of the fluid pipeline have a difference temperatures and for the passage of fluids with a temperature difference in different directions of flow are adjacent sections of the pipeline, thus, the heat-conducting fluid provides ivaet state with more uniform absorption of heat removal or temperature distribution on the body of the absorption feature or to passively dissipate heat accumulating portion or screen for removal or absorption of heat; wherein the outer section of the pipeline with the arrangement in the form of a double helix is the guide structure 103 of the pipeline, and the section of the pipeline for the fluid near the center of the spiral with turns in the opposite direction is used as the inlet and outlet side of the pipeline for the passage of fluid and is installed with inlet 111 for a fluid and a fluid outlet 112, thus, a heat-conducting fluid 110, consisting of a medium in a gaseous or liquid state, a fluid in a state from gaseous about to a liquid state, or a fluid state in a liquid to gaseous state, passes through a fluid inlet 111 and a fluid outlet 112 located at both ends of the fluid conduit, thus the fluids in the fluid conduit, passing through neighboring sections of the pipeline pass in the opposite direction, so that through the body 100 to absorb or remove heat through the transfer of thermal energy to transmit thermal energy to a passively accumulating section or volume 200 for absorption or heat removal in solid, or colloid, or liquid, or gaseous state; and the pipeline 101 for a fluid consists of one or more series or parallel connected sections of the pipeline with an arrangement in the form of one or more double spirals distributed for the passage of heat-conducting fluid 110, consisting of a medium in a gaseous or liquid state, a medium in a state from gaseous to liquid a state, or a liquid to gaseous state, through a fluid inlet 111 and a fluid outlet 112 located at both ends of the fluid pipe 101 media, for heat-conducting fluids 110 passing through adjacent portions of the fluid pipe 101 in reverse flow directions to transfer thermal energy to the body 100 to absorb or remove heat by transferring heat energy made from heat-conducting material in a solid, or colloidal, or liquid , or gaseous state; and the fluid conduit 101 is distributed parallel or quasi-parallel in a planar or three-dimensional structure in the body 100 to absorb or remove heat by transferring heat energy to perform the function of absorbing or removing heat in a passively storage portion or volume 200 to remove or absorb heat in the solid, or colloidal, or liquid, or gaseous state. 4. The device according to claim 1, in which another structure includes a body 100 for absorbing or removing heat by transferring heat energy made of heat-conducting material in a solid, or colloidal, or liquid, or gaseous state to accumulate heat energy of a heat-conducting fluid 110 consisting of a fluid in a gaseous or liquid state, a fluid in a gaseous to liquid state, or a fluid state in a liquid to gaseous state inside a combined fluid conduit 101 with a dual arrangement helix for the passage of fluids with a temperature difference in different directions of the flow in accordance with the temperature difference in order to carry out the working function of heat absorption and cooling with energy removal or the working function of heat removal and heating with energy removal in a passively accumulating section or volume 200 for removal or heat absorption in a solid, or colloidal or gaseous state, and the number of bodies 100 for absorption or removal of heat through the transfer of thermal energy may be equal to one or more her one; and a fluid conduit 101 made of good conductive material, wherein the fluid conduit 101 has a parallel or quasi-parallel double helix pipeline structure, and the arrangement of the double helix pipeline structure is such that portions of the fluid pipeline have a difference temperatures and for the passage of fluids with a temperature difference in different directions of the flow are adjacent sections of the pipeline, thus, the heat-conducting fluid provides state with more uniform temperature distribution on the body for the absorption or dissipation of heat in order to carry out the function of the absorption or dissipation of heat to passively accumulating portion or screen for removal or absorption of heat; wherein the outer portion of the pipeline with the double helix arrangement is the guide structure 103 of the pipeline, the portion of the fluid pipeline near the middle portion of the lateral portion of the pipeline with the double helix is the end face of the inlet and outlet of the pipeline and is installed with the fluid inlet 111 and fluid outlet 112, and the most peripheral and closest portion to the center of the spiral is rotated in the opposite direction for use as a guide the structure 103 of the pipeline for the passage of fluid, thus, from the inlet 111 for the fluid and the outlet 112 for the fluid at both ends of the pipeline for the passage of heat-conducting fluid 110, consisting of a medium in a gaseous or liquid state, a fluid in state from gaseous to liquid state, or fluid medium from liquid to gaseous state, forcing fluids passing through adjacent sections of the pipeline in reverse flow directions and through the body 100 d I absorption or dissipation of heat by transmitting the heat to transfer heat energy accumulates passively portion 200 or the volume for the absorption or dissipation of heat in the solid, or colloid, or liquid, or gaseous state; and the pipeline 101 for a fluid consists of one or more series or parallel connected sections of the pipeline with an arrangement in the form of one or more double spirals distributed for the passage of heat-conducting fluid 110, consisting of a medium in a gaseous or liquid state, a medium in a state from gaseous to liquid state or medium in a liquid to gaseous state through a fluid inlet 111 and a fluid outlet 112 located at both ends of the fluid pipe 101 media to cause the heat-conducting fluids 110 to pass through adjacent portions of the fluid pipe 101 in reverse flow directions, so as to transfer thermal energy to the body 100 to absorb or remove heat by transferring heat energy made from heat-conducting material in solid or colloidal or liquid or gaseous state; and the fluid conduit 101 is distributed parallel or quasi-parallel in a planar or three-dimensional structure in the body 100 to absorb or remove heat by transferring heat energy to perform the function of absorbing or removing heat in a passively storage portion or volume 200 to remove or absorb heat in the solid, or colloidal, or liquid, or gaseous state. 5. The device according to claim 1, in which in addition to transferring thermal energy through the body 100 to absorb or remove heat by transferring thermal energy, the fluid pipe 101 is distributed in parallel or quasi-parallel in a flat structure or three-dimensional structure for the direct formation of a structural body for a heat-conducting fluid 110, consisting of a medium in a gaseous or liquid state, a fluid in a state from a gaseous to a liquid state, or a fluid medium in a state from a liquid to a gaseous state the state passing through it, for the direct implementation of heat dissipation and heating with the removal of energy or absorption of heat and cooling with the removal of energy in a passively accumulating section or volume 200 for absorption or removal of heat in a solid, or colloidal, or liquid, or gaseous state. 6. The device according to claim 1, in which the structural relationship between the passively accumulating section or volume 200 for the absorption or removal of heat in the solid, or colloidal, or liquid, or gaseous state and the pipe 101 for the fluid include the fact that the pipe 101 for a fluid and a passively accumulating section or volume 200 for absorbing or removing heat in a solid, or colloidal, or liquid, or gaseous state directly form a common structural body and transfer thermal energy to a passively accumulating in the area or volume 200 for absorption or removal of heat in a solid, or colloidal, or liquid, or gaseous state, while the corresponding fluid conduit is distributed parallel or quasi-parallel in a flat structure or three-dimensional structure to create a structural body of the conduit for passing a passively accumulating heat-absorbing or removing heat-conducting fluid 100 'in place of a passively accumulating section or volume 200 for absorbing or removing heat in a solid or colloidal or liquid or gaseous state. 7. The device according to claim 1, in which an independent heat-conducting plate 300 and / or a common heat-conducting plate 400, and / or a heat-conducting plate 350 with heat-insulating slots are additionally installed on the pipe 101 for the fluid and / or the structural body of the pipe for transmitting passively accumulating heat-absorbing or heat transfer fluid 100 'to enhance heat absorption or heat removal effects. 8. The device according to claim 1, in which the fluid passing through the pipeline 101 for the fluid and / or structural body of the pipeline, transmitting passively accumulating heat-absorbing or diverting heat-conducting fluid 100 ', can be controlled by a control device 500 for actuating the pumping device 600 double-acting fluid for periodic two-way direct / reverse pumping of heat-conducting fluid 110 and enhancing effects of temperature equalization; and A double-acting pumping device 600 for a fluid is used for periodic direct and reverse pumping under the control of a control device 500 including an electromechanical device, an electronic device or a microcomputer and related software. 9. The device according to claim 1, in which the pipeline 101 for the fluid and / or structural body of the pipeline, transmitting passively accumulating heat-absorbing or removing heat-conducting fluid 100 ', and the body 100 for absorption or removal of heat by transferring heat energy is made in the form of an integral structure. 10. The device according to claim 1, in which the pipeline 101 for the fluid and / or structural body of the pipeline, transmitting passively accumulating heat-absorbing or removing heat-conducting fluid 100 ', and the body 100 for absorption or removal of heat by transferring heat energy is made in the form of assembled designs. 11. The device according to claim 1, in which the pipeline 101 for the fluid and / or structural body of the pipeline, transmitting passively accumulating heat-absorbing or removing heat-conducting fluid 100 ', and the body 100 for absorption or removal of heat by transferring heat energy is made through a structural element a single structural body in the form of a plate, block or a plurality of plates, or a structural element assembled from the plates, and made by at least one structural element, if necessary tee. 12. The device according to claim 1, in which it can consist of one or more than one element, and among the correspondingly related sections of the pipeline for the fluid, they are connected in series, parallel or series-parallel and can be made in various geometric shapes. 13. The device according to claim 1, in which the heat-conducting fluid 110 passing through the pipe 101 for the fluid and / or the structural body of the pipeline, transmitting passively accumulating heat-absorbing or removing heat-conducting fluid 100 ', is supplied by pumping and / or evaporation, and / or natural circulation of heat-cold. 14. The device according to claim 1, in which energy for heating or cooling is diverted to a passively accumulating section or volume 200 for removal or absorption of heat in a liquid state by using natural convection of cold-heat fluid with a temperature difference, and / or forced pumping a fluid for conveying heat and conveying and / or radiation and / or conductivity; or energy for heating or cooling is diverted to a passively accumulating portion or volume 200 to remove or absorb heat in a solid, or colloidal, or liquid, or gaseous state through conduction. 15. The device according to claim 1, in which the heat-conducting fluid 110 passing through the pipe 101 for the fluid and / or the structural body of the pipe for the passage of passively accumulating heat-absorbing or removing heat-conducting fluid 100 'is circulated in a closed circuit or discharged from an open circuit . 16. The device according to claim 1, in which the inlets for the fluid and the outlets for the fluid of various sections of the pipeline for the fluid are installed in the same direction or direction of different orientations within the three-dimensional space. 17. The device according to claim 1, in which there are various methods of installing a pipeline for a fluid, including when the pipeline for the fluid has a tubular structure, and / or the pipeline for the fluid has a plate structure for the flow of fluid, and / or the porous fluid conduit has a lumpy structure for fluid flow. 18. The device according to claim 1, in which the device is used for various heat-absorbing, or heat-removing, or cooling heat-conducting overhead devices, such as radiators with cooling engine water, or a cooling device with energy removal using a heat-conducting fluid to absorb heat, or heating heat-removing devices using a heat-conducting fluid to remove heat, such as heat-transferring devices for heating equipment, a heater, or a device TWA for the transfer of thermal energy, or for heating or cooling ceilings, walls or floors of buildings, or for cooling photovoltaic panels, or for heating or cooling electric machines or machinery, or for absorbing and dissipating heat from various machine bodies, thermal pipe structures, body structures, various microchips or semiconductor components, ventilation devices, or for heat absorption, heat dissipation or heat transfer for sound devices, various lamps or devices on the LED iodine, or heat absorption of an evaporator or heat removal or heat transfer of capacitors, air conditioning units, or heat transfer of mechanical devices, or heat removal of frictional heat loss, or heat removal or heat transfer from an electric heater or other electric heating appliances or devices for cooking, or absorbing heat or transferring heat energy from stoves with fire, or devices for cooking, or absorption Nia heat, heat dissipation or thermal energy transfer layer of soil or water, plant or housing building or building material or devices building construction, the absorption or dissipation of heat of the water tower, or heat absorption, heat dissipation or thermal energy transfer of batteries or fuel cells; and It is used to transfer thermal energy in household appliances, industrial products, electronic products, electrical machines or mechanical devices, power generation equipment, buildings, air conditioning units, industrial equipment or the manufacturing process.