CN110274494A

CN110274494A - By means of fitting multilayer pipe and the pipeline periphery three thermal energy body heat-exchange devices that externally heat passes

Info

Publication number: CN110274494A
Application number: CN201910500868.0A
Authority: CN
Inventors: 杨泰和
Original assignee: Individual
Current assignee: Individual
Priority date: 2012-09-27
Filing date: 2013-09-27
Publication date: 2019-09-24
Also published as: US20140083666A1; CN103697725A; AU2017268511A1; AU2013234402B2; TW201730495A; JP2019007729A; TWI586932B; CA2828311A1; CA2828311C; EP2713131B1; TW201416638A; AU2013234402A2; CN203501858U; TWM476252U; SG2013073028A; EP2713131A1; JP6746647B2; JP6401439B2; TWI619922B; AU2013234402A1

Abstract

The present invention borrows fitting multilayer pipe and the pipeline periphery three thermal energy body heat-exchange devices that externally heat passes, by by being constituted in the multilayer tube body of fitting, and internal layer pipeline is coated on to make heat exchange to the fluid in internal layer pipeline by the fluid of outer layer pipeline, and the fluid by outer layer pipeline, heat transfer is made to the thermal energy body of the solid-state or flow morphology that are contacted with outer layer pipeline periphery, and then constitutes the three thermal energy body heat-exchange devices in shellring shape.

Description

By means of fitting multilayer pipe and the pipeline periphery three thermal energy body heat-exchange devices that externally heat passes

Technical field

The present invention relates to a kind of three thermal energy body heat-exchange devices passed by means of the external heat of fitting multilayer pipe and pipeline periphery, specifically It is related to a kind of by being constituted in the multilayer tube body of fitting, is coated on internal layer pipeline to internal layer pipeline by the fluid of outer layer pipeline Interior fluid makees heat exchange, and by the fluid of outer layer pipeline, to the solid-state or flow morphology for being contacted with outer layer pipeline periphery Thermal energy body makees heat transfer, and then constitutes the three thermal energy body heat-exchange devices in shellring shape.

Background technique

Tradition is externally made the heat-exchange device of heat transfer by pipeline outer layer, usually by passing through the fluid of pipeline and passing through pipe The fluid of road outer layer, or make samming with the solid or liquid of pipeline outer layer, therefore the heat exchange of two thermal energy bodies can only be constituted Device.

Summary of the invention

It is handed over the purpose of the present invention is to provide a kind of by means of fitting multilayer pipe and the pipeline periphery three thermal energy body heat that externally heat passes Changing device is coated on internal layer pipeline to inner tube by the fluid of outer layer pipeline by constituting in the multilayer tube body of fitting Fluid in road makees heat exchange, and by the fluid of outer layer pipeline, to the solid-state or flow morphology for being contacted with outer layer pipeline periphery Thermal energy body make heat transfer, and then constitute be in shellring shape three thermal energy body heat exchanges.

In order to achieve the above object, the present invention provides a kind of three warm energy passed by means of the external heat of fitting multilayer pipe and pipeline periphery Heat exchange device, main composition include the first diversion tube, are made of heat carrier, and first flow path is through the first confluence room and extremely The first flow path series connection of few one first diversion tube, then lead to first fluid disengaging respectively by the first flow path both ends after connecting Mouthful, with the first thermal energy body for flow morphology into and out, and outside the first diversion tube to be arranged internal diameter of tube body big Two layers of pipe structure is constituted in the second diversion tube of the first diversion tube outer diameter, the second diversion tube is made of heat carrier, and By the caliber difference of the biggish internal diameter of the second diversion tube and the first diversion tube outer diameter for constituting the second flow path of annular section, Two flow paths are connected through the second confluence room with the second flow path of at least one second diversion tube, then by the second flow path both ends after connecting Lead to second fluid respectively to import and export, with so that the second thermal energy body in flow morphology is into and out, be led wherein constituting second The outer layer of flow tube body is for the third thermal energy body for being contacted with the fluid of gaseous state or liquid or being made of solid-state thermal energy body and then structure At the three thermal energy body heat-exchange devices for being in shellring shape, for by the second thermal energy body and the first thermal energy body and with third thermal energy body three Make the heat exchange of Wen Nengre biography between person；In first diversion tube for institute in the first thermal energy body of circulation and the second diversion tube Flow direction for the second thermal energy body of circulation is identical or opposite.

First diversion tube, the second diversion tube can be round or square or the pipe of ellipse or other geometries Body is constituted.

First diversion tube, the second diversion tube are made of same shape or tube body of different shapes.

First thermal energy body, the second thermal energy body are made of identical or different fluid.

The fluid includes turning liquid or liquid by gas or liquid or gaseous state and turning gaseous fluid to be constituted.

The third thermal energy body contains to be made of fluid or solid.

The third thermal energy body is that can add fluid pump further when being made of fluid to pump third thermal energy body and promote heat Exchange effect.

Heat conducting fins are further set between second diversion tube.

It is further that will be made between the second diversion tube inside with spiral flow deflector outside the first diversion tube The structure with spiral flow deflector is made to increase heat transfer effects in the inside of structure and/or the first diversion tube.

It is made to have between the second diversion tube inside outside first diversion tube and lead in flowing to spiral with spiral The inside of the structure of flow and/or the first diversion tube is made in the structure for flowing to spiral flow deflector with spiral.

Spiral is flowed in different spirals from being made to have between the second diversion tube inside outside first diversion tube The inside of the structure of flow deflector and/or the first diversion tube is made with the structure for flowing to spiral flow deflector in different spirals.

After adopting the above scheme, the present invention is by constituting the first diversion tube by the lesser internal layer pipeline of tube body internal-and external diameter, First diversion tube is made of first flow path the pore of the first diversion tube to be made of heat carrier, first flow path both ends It is imported and exported respectively through the first confluence room and first fluid, with the first thermal energy body for flow morphology into and out, Yi Jiyou The outer layer pipeline that internal diameter of tube body is greater than first flow path outer diameter constitutes the second diversion tube and constitutes two layers of pipe structure, the second diversion pipe Body is made of heat carrier, and by the caliber difference of the biggish internal diameter of the second diversion tube and the first diversion tube outer diameter for constituting ring The second flow path of shape section, second flow path both ends are imported and exported through the second confluence room and second fluid respectively, in fluid shape Second thermal energy body of state is into and out, wherein constitute the periphery of the outer layer pipeline of second flow path, for for be contacted with by stratum, The natural thermal energy body that surface soil earth, ocean, rivers and creeks, lake, pond, flow stream and atmosphere, air flow are constituted, or connect Touch in the thermal energy body being made of the liquid being manually set in sink, pond or container, thermal energy body include in gaseous state, liquid, Or solid-state thermal energy body is provided as third thermal energy body, to form the three thermal energy body heat exchange functions of being in shellring shape, for by second Thermal energy body and the first thermal energy body and the heat exchange for making Wen Nengre biography between third thermal energy body three.

Detailed description of the invention

Fig. 1 show the front-view schematic diagram of main composition constructive embodiment of the present invention；

Fig. 2 show the side elevational cross-section schematic diagram of Fig. 1 constructive embodiment；

The third thermal energy body that Fig. 3 show Fig. 1 embodiment is fluid and the front-view schematic diagram that fluid pump moves Installation practice is arranged；

Fig. 4 show the side elevational cross-section schematic diagram of Fig. 3 constructive embodiment；

Fig. 5 show the embodiment forward sight diagrammatic cross-section that Fig. 1, Fig. 2 add heat conducting fins；

Fig. 6 show the side elevational cross-section schematic diagram of Fig. 5 constructive embodiment；

It is in series connection, each section second be coated on outside the first diversion tube that Fig. 7, which show each section of the first diversion tube in Fig. 1, Fig. 2, Diversion tube is also in concatenated embodiment front-view schematic diagram；

Fig. 8 show the side elevational cross-section schematic diagram of Fig. 7 constructive embodiment；

It is in series connection, each section second be coated on outside the first diversion tube that Fig. 9, which show each section of the first diversion tube in Fig. 5, Fig. 6, Diversion tube is also in concatenated embodiment front-view schematic diagram；

Figure 10 show the side elevational cross-section schematic diagram of Fig. 9 constructive embodiment；

Figure 11, which show to be made between the second diversion tube inside outside the first diversion tube of the invention, to be had in same spiral The structure of spiral flow deflector and/or the inside of the first diversion tube are flowed to, being made has in spiral flowing to spiral flow deflector The front view of embodiment；

Figure 12 show the side elevational cross-section schematic diagram of Figure 11 constructive embodiment；

Figure 13 show outside the first diversion tube of the invention and is made between the second diversion tube inside in different spiral shells Eddy flow is made to have and flows to spiral stream guidance in different spirals to the structure of spiral flow deflector and/or the inside of the first diversion tube The front view of piece embodiment；

Figure 14 show the side elevational cross-section schematic diagram of Figure 13 constructive embodiment.

Specific embodiment

Hereby its main composition is described as follows:

Such as Fig. 1 and Fig. 2, the present invention borrows fitting multilayer pipe and the pipeline periphery three thermal energy body heat-exchange devices that externally heat passes, master It is configured to the first diversion tube 101 for having above all the way or all the way, the first diversion tube 101 is made of heat carrier, and by The pore of first diversion tube 101 constitutes first flow path 102, and 102 both ends of first flow path are respectively through the first confluence room 103 again through the One fluid inlet and outlet 104 for flow morphology the first thermal energy body 105 into and out, and outside the first diversion tube 101 It is arranged all the way or all the way above internal diameter of tube body and is greater than 101 outer diameter of the first diversion tube and constitutes the second diversion tube 201 and constitute two layers Pipe structure, the second diversion tube 201 are made of heat carrier, and by the biggish internal diameter of the second diversion tube 201 and the first water conservancy diversion The caliber difference of 101 outer diameter of tube body is for the second flow path 202 of composition annular section, and 202 both ends of second flow path are respectively through the second confluence Room 203 is supplied in the second thermal energy body 205 of flow morphology through second fluid inlet and outlet 204 into and out, wherein constituting second again The outer layer of diversion tube 201 is for the third thermal energy body for being contacted with the fluid of gaseous state or liquid or being made of solid-state thermal energy body 305 constitute the three thermal energy body heat-exchange devices in shellring shape in turn, for by the second thermal energy body 205 and the first thermal energy body 105 And make the heat exchange of Wen Nengre biography between 305 three of third thermal energy body；

Above-mentioned first diversion tube 101, the second diversion tube 201 can be to constitute above all the way or all the way；

Above-mentioned first diversion tube 101, the second diversion tube 201 can be round or square or ellipse or other geometries Tube body is constituted；

Above-mentioned first diversion tube 101, the second diversion tube 201 can be made of same shape or tube body of different shapes；

Above-mentioned first thermal energy body 105, the second thermal energy body 205 can be made of identical or different fluid, including by gaseous state or liquid State or gaseous state turn liquid or liquid turns gaseous fluid and constituted；

In above-mentioned first diversion tube 101 in the first thermal energy body 105 of circulation and the second diversion tube 201 for circulation The flow direction of second thermal energy body 205 can be identical or opposite.

The present invention borrows fitting multilayer pipe and the pipeline periphery three thermal energy body heat-exchange devices that externally heat passes, in third thermal energy body 305 promote hot friendship for that when being made of gaseous state or fluid liquid, can add fluid pump 400 further with the dynamic third thermal energy body 305 of pump Change effect.

As shown in Fig. 3 and Fig. 4, to add fluid pump 400 further to pump dynamic third thermal energy body 305 and promote heat exchange effect Fruit.

As shown in figs. 5 and 6, further setting is led between the second diversion tube 201 in Fig. 1, Fig. 2 embodiment Hot fin 1000 can be conducted for making temperature between the second diversion tube 201 and third thermal energy body 305.

The present invention borrows fitting multilayer pipe and the pipeline periphery three thermal energy body heat-exchange devices that externally heat passes, the first diversion pipe Body 101 and the second diversion tube 201 are in addition to as shown in Figure 1 and Figure 2 by each pipeline section in parallel connection, further by the first diversion tube 101 And second diversion tube 201 be in cascaded structure；Hereby it is described as follows:

As shown in Fig. 7 and Fig. 8, to be in series connection, the second diversion tube by the first diversion tube 101 in Fig. 1, Fig. 2 embodiment Series connection is made in 201 each pipeline section, and the first diversion tube 101 is made of heat carrier, and first flow path 102 is through the first confluence room 103 connect with the first flow path 102 of at least one first diversion tube 101, then are led to respectively by 102 both ends of first flow path after connecting Toward first fluid inlet and outlet 104, with the first thermal energy body 105 for flow morphology into and out, and in the first diversion pipe The second diversion tube 201 that internal diameter of tube body is arranged outside body 101 greater than 101 outer diameter of the first diversion tube constitutes two layers of tube body knot Structure, the second diversion tube 201 are made of heat carrier, and by the biggish internal diameter of the second diversion tube 201 and the first diversion tube 101 The caliber difference of outer diameter is for constituting the second flow path 202 of annular section, and second flow path 202 is through the second confluence room 203 and at least 1 the The second flow paths 202 of two diversion tubes 201 is connected, then by 202 both ends of second flow path after connecting lead to respectively second fluid into Outlet 204, with so that the second thermal energy body 205 in flow morphology is into and out, wherein constituting the outer of the second diversion tube 201 Layer is constituted in three in turn for the third thermal energy body 305 that supplies to be contacted with the fluid of gaseous state or liquid or be made of solid-state thermal energy body The cricoid three thermal energy bodies heat-exchange device of layer, for by the second thermal energy body 205 and the first thermal energy body 105 and with third thermal energy body Make the heat exchange of Wen Nengre biography between 305 threes.

As shown in Fig. 9 and Figure 10, by the first diversion tube 101 in Fig. 5, Fig. 6 embodiment and to be coated on first and leading Series connection is made in each pipeline section of the second diversion tube 201 outside flow tube body 101.

The present invention borrows fitting multilayer pipe and the pipeline periphery three thermal energy body heat-exchange devices that externally heat passes, further for by the Structure with spiral flow deflector 222 and/or the are made between the outside of one diversion tube 101 and 201 inside of the second diversion tube The inside of one diversion tube 101 is made the structure with spiral flow deflector 111 to increase heat transfer effects, is hereby described as follows:

As shown in figures 11 and 12, wherein borrowing fitting multilayer pipe and pipeline the periphery three warm energy that externally heat passes for constituting the present invention Being made between 101 outside of the first diversion tube of heat exchange device and 201 inside of the second diversion tube has in same spiral flow To the structure of spiral flow deflector 222 and/or the inside of the first diversion tube 101, being made has in spiral flowing to spiral stream guidance The structure of piece 111.

As shown in Figure 13 and Figure 14, wherein passed for constituting the present invention by means of the external heat of fitting multilayer pipe and pipeline periphery three The outside of the first diversion tube 101 of thermal energy body heat-exchange device has in different from being made between 201 inside of the second diversion tube Spiral flows to the structure of spiral flow deflector 222 and/or the inside of the first diversion tube 101, and being made has in different spirals flow direction The structure of spiral flow deflector 111.

Embodiment described above is only to absolutely prove preferred embodiment that is of the invention and being lifted, protection model of the invention It encloses without being limited thereto.Those skilled in the art's made equivalent substitute or transformation on the basis of the present invention, in the present invention Protection scope within.Protection scope of the present invention is subject to claims.

Claims

1. a kind of three thermal energy body heat-exchange devices passed by means of the external heat of fitting multilayer pipe and pipeline periphery, it is characterised in that: it is led It constitutes including the first diversion tube (101), is made of heat carrier, first flow path (102) is through the first confluence room (103) and at least The first flow path (102) of one first diversion tube (101) is connected, then is led to respectively by first flow path (102) both ends after connecting First fluid imports and exports (104), with the first thermal energy body (105) for flow morphology into and out, and；

The second diversion pipe that internal diameter of tube body is greater than the first diversion tube (101) outer diameter is arranged outside the first diversion tube (101) Body (201) constitutes two layers of pipe structure, and the second diversion tube (201) is made of heat carrier, and by the second diversion tube (201) compared with Second flow path (202) of the caliber difference of big internal diameter and the first diversion tube (101) outer diameter for composition annular section, second flow path (202) connect through the second confluence room (203) with the second flow path (202) of at least one second diversion tube (201), then by connecting after Second flow path (202) both ends lead to respectively second fluid inlet and outlet (204), with for be in flow morphology the second thermal energy body (205) into and out, wherein the outer layer for constituting the second diversion tube (201) be for be contacted with gaseous state or liquid fluid or The third thermal energy body (305) being made of solid-state thermal energy body constitutes the three thermal energy body heat-exchange devices in shellring shape in turn, with For making the heat of Wen Nengre biography by the second thermal energy body (205) and the first thermal energy body (105) and between third thermal energy body (305) three Exchange；

Institute is for institute in the first thermal energy body (105) and the second diversion tube (201) of circulation for circulating in first diversion tube (101) The second thermal energy body (205) flow direction be it is identical or opposite；

The claims are write into accordingly according to the picture and text of application case specification.

2. the three thermal energy body heat-exchange devices passed as described in claim 1 by means of the external heat of fitting multilayer pipe and pipeline periphery, Be characterized in that: first diversion tube (101), the second diversion tube (201) can for round or square or ellipse or other The tube body of geometry is constituted.

3. the three thermal energy body heat-exchange devices passed as described in claim 1 by means of the external heat of fitting multilayer pipe and pipeline periphery, Be characterized in that: first diversion tube (101), the second diversion tube (201) are same shape or tube body of different shapes institute It constitutes.

4. the three thermal energy body heat-exchange devices passed as described in claim 1 by means of the external heat of fitting multilayer pipe and pipeline periphery, Be characterized in that: first thermal energy body (105), the second thermal energy body (205) are made of identical or different fluid.

5. the three thermal energy body heat-exchange devices passed as described in claim 1 by means of the external heat of fitting multilayer pipe and pipeline periphery, Be characterized in that: the fluid includes turning liquid or liquid by gas or liquid or gaseous state and turning gaseous fluid to be constituted.

6. the three thermal energy body heat-exchange devices passed as described in claim 1 by means of the external heat of fitting multilayer pipe and pipeline periphery, Be characterized in that: the third thermal energy body (305) contains to be made of fluid or solid.

7. the three thermal energy body heat-exchange devices passed as described in claim 1 by means of the external heat of fitting multilayer pipe and pipeline periphery, Be characterized in that: the third thermal energy body (305) is that when being made of fluid, can add fluid pump (400) further to pump third Thermal energy body (305) promotes heat exchange effect.

8. the three thermal energy body heat-exchange devices passed as described in claim 1 by means of the external heat of fitting multilayer pipe and pipeline periphery, It is characterized in that: heat conducting fins (1000) is further set between second diversion tube (201).

9. the three thermal energy body heat-exchange devices passed as described in claim 1 by means of the external heat of fitting multilayer pipe and pipeline periphery, Be characterized in that: further for will the first diversion tube (101) it is external be made between the second diversion tube (201) inside with spiral shell The structure of flow deflector (222) and/or the inside of the first diversion tube (101) are revolved, the knot with spiral flow deflector (111) is made Structure is to increase heat transfer effects.

10. the three thermal energy body heat-exchange devices passed as claimed in claim 9 by means of the external heat of fitting multilayer pipe and pipeline periphery, Be characterized in that: external be made between the second diversion tube (201) inside of first diversion tube (101) has in same spiral The structure of spiral flow deflector (222) and/or the inside of the first diversion tube (101) are flowed to, being made has in spiral flowing to spiral shell Revolve the structure of flow deflector (111).

11. the three thermal energy body heat-exchange devices passed as claimed in claim 9 by means of the external heat of fitting multilayer pipe and pipeline periphery, Be characterized in that: first diversion tube (101) it is external be made that have be in different spiral shells between the second diversion tube (201) inside To the structure of spiral flow deflector (222) and/or the inside of the first diversion tube (101), be made has in different spiral flows eddy flow To the structure of spiral flow deflector (111).