CN204301570U - Finned tube energy storage and heat exchanger - Google Patents
Finned tube energy storage and heat exchanger Download PDFInfo
- Publication number
- CN204301570U CN204301570U CN201420796603.2U CN201420796603U CN204301570U CN 204301570 U CN204301570 U CN 204301570U CN 201420796603 U CN201420796603 U CN 201420796603U CN 204301570 U CN204301570 U CN 204301570U
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- endothermic tube
- straight
- tube
- linked box
- endothermic
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Abstract
The utility model relates to a kind of finned tube energy storage and heat exchanger, comprise straight endothermic tube, heat release pipe, fin, upper linked box, heating installation import, heating outlet, water inlet pipe, outlet pipe, curved endothermic tube, tube connector, lower linked box and end cap, straight endothermic tube is vertically arranged side by side, be communicated with in turn by tube connector between adjacent endothermic tube, be provided with end cap at the two ends of the straight endothermic tube of every root.In endothermic tube, be provided with heat release pipe, the heat release pipe of straight endothermic tube inside is provided with spiral fin.Upper linked box is provided with in the upper end of vertical one group of straight endothermic tube side by side, lower linked box is provided with in the lower end of vertical one group of straight endothermic tube side by side, curved endothermic tube is provided with in upper linked box and lower linked box, a water inlet pipe is provided with on the upper linked box that first straight endothermic tube is relative, an outlet pipe is provided with above the upper linked box that in the end straight endothermic tube is relative, be provided with heating installation import at upper linked box, be provided with a heating outlet in one end of lower linked box.
Description
Technical field
The utility model relates to a kind of finned tube energy storage and heat exchanger, belongs to field of heat exchange equipment.
Background technology:
Heat exchanger is that the partial heat of hot fluid is passed to cold fluid, makes fluid temperature (F.T.) reach the heat exchange equipment of technological process set quota, also known as heat exchanger.Heat exchanger is widely used in boiler HVAC field as heat-transfer equipment, and along with the develop rapidly of power-saving technology, the kind of heat exchanger gets more and more.There is following defect in traditional heat exchanger: 1, the area of dissipation of heat release pipe is little, and heat exchange is slow; What 2, take between heat release pipe side by side is interior connection, and its plumb joint, in endothermic tube, not only welds very difficult, and very easily corrodes, and causes the service life of whole heat exchanger short.3, function singleness, heat sinking function is poor, can only make heat exchanger and use, and can not make radiator and use.Society is badly in need of one and can does heat exchanger use, the Double-function heat exchanger that radiator uses can be made again.
Summary of the invention
It is fast that the purpose of this utility model is to provide a kind of heat exchange, can provide hot water continuously, have finned tube energy storage and the heat exchanger of heat exchanger and radiator function simultaneously.
For achieving the above object, the technical solution adopted in the utility model is:
A kind of finned tube energy storage and heat exchanger, comprise straight endothermic tube, heat release pipe, fin, upper linked box, heating installation import, heating outlet, water inlet pipe, outlet pipe, curved endothermic tube, tube connector, lower linked box and end cap, straight endothermic tube is vertically arranged side by side, be communicated with in turn by tube connector between adjacent endothermic tube, be provided with end cap at the two ends of the straight endothermic tube of every root.In endothermic tube, be provided with heat release pipe, the heat release pipe of straight endothermic tube inside is provided with spiral fin.Upper linked box is provided with in the upper end of vertical one group of straight endothermic tube side by side, lower linked box is provided with in the lower end of vertical one group of straight endothermic tube side by side, curved endothermic tube is provided with in upper linked box and lower linked box, a water inlet pipe is provided with on the upper linked box that first straight endothermic tube is relative, an outlet pipe is provided with above the upper linked box that in the end straight endothermic tube is relative, be provided with heating installation import at upper linked box, be provided with a heating outlet in one end of lower linked box.
Described straight endothermic tube is stainless steel straight tube, and several straight endothermic tube is vertically side-by-side, is connected by tube connector in the rear end of the rear end of first straight endothermic tube with second straight endothermic tube; The front end of second straight endothermic tube is connected by tube connector with the front end of the 3rd straight endothermic tube; Be connected by tube connector in the rear end of the rear end of the 3rd straight endothermic tube with the 4th straight endothermic tube.So the like, be communicated to second from the bottom straight endothermic tube always.The two ends of the straight endothermic tube of every root, by end cap seal, become a cylindricality energy storage heat exchanger.
Described heat release pipe is stainless steel straight tube, is arranged on the inside of every root endothermic tube, and two ends are connected with lower linked box with upper linked box respectively through the end cap at straight endothermic tube two ends.
Described tube connector is curved pipe, and its two ends are connected with adjacent two straight endothermic tubes respectively, and all straight endothermic tubes side by side before the straight endothermic tube of last root are communicated with in turn.
Described fin is spirality stainless steel substrates, is arranged on the body of every root heat release pipe, can increases the area putting heat pipe heat radiation, improves the efficiency of heat exchange.
Described end cap is circular, is processed by stainless sheet steel, and center is provided with the perforation of heat release pipe, is provided with a tube connector and bores a hole between the perforation of heat release pipe and edge.Be provided with connecting portion in the inner side at its edge, in order to be connected with the inwall of straight endothermic tube, the edge seal of end cap is welded on the tube wall of straight endothermic tube port, and the perforation of heat release pipe is welded with the heat release seal of tube, and tube connector perforation is welded with tube connector aperture seal.
Described curved endothermic tube is rolled over to hold by thin stainless steel tube and is formed, and the curved endothermic tube one end wherein in upper linked box is connected with water inlet pipe, and the other end is connected with first straight endothermic tube by the end cap of first straight endothermic tube upper end; Curved endothermic tube one end in lower linked box is connected with the lower end of second from the bottom straight endothermic tube, and the other end is connected with the lower end of the straight endothermic tube of last root.
Described outlet pipe is connected with the upper end of the straight endothermic tube of last root through connecting case.
The beneficial effects of the utility model are, design science is reasonable, and be easy to install, long service life, heat exchange is fast, and the hot water of storage is many, can provide hot water continuously, has the dual-use function of heat exchanger and radiator simultaneously.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the utility model is further illustrated.
Fig. 1 is structural representation of the present utility model.
Fig. 2 is the structural representation of end cap.
1 straight endothermic tube, 2 heat release pipes, 3 fins, 4 upper linked box, 5 heating installation imports, 6 heating outlets, 7 water inlet pipes, 8 outlet pipes, 9 curved endothermic tubes, 10 tube connectors, 11 lower linked box, 12 end caps in figure.
Detailed description of the invention
As shown in Figure 1, a kind of finned tube energy storage and heat exchanger, comprise straight endothermic tube 1, heat release pipe 2, fin 3, upper linked box 4, heating installation import 5, heating outlet 6, water inlet pipe 7, outlet pipe 8, curved endothermic tube 9, tube connector 10, lower linked box 11 and end cap 12, straight endothermic tube 1 is vertically arranged side by side, be communicated with in turn by tube connector 10 between adjacent endothermic tube, be provided with end cap 12 at the two ends of the straight endothermic tube 1 of every root.In endothermic tube, be provided with heat release pipe 2, the heat release pipe 2 of straight endothermic tube 1 inside is provided with spiral fin 3.Upper linked box 4 is provided with in the upper end of vertical one group of straight endothermic tube 1 side by side, lower linked box 11 is provided with in the lower end of vertical one group of straight endothermic tube 1 side by side, curved endothermic tube 9 is provided with in upper linked box 4 and lower linked box 11, a water inlet pipe 7 is provided with on the upper linked box 4 that first straight endothermic tube 1 is relative, the upper linked box 4 that in the end straight endothermic tube 1 is relative is provided with an outlet pipe 8 above, be provided with heating installation import 5 at upper linked box 4, be provided with a heating outlet 6 in one end of lower linked box 11.
Described straight endothermic tube 1 is stainless steel straight tube, and several straight endothermic tube 1 is vertically side-by-side, is connected by tube connector 10 in the rear end of the rear end of first straight endothermic tube 1 with second straight endothermic tube 1; The front end of second straight endothermic tube 1 is connected by tube connector 10 with the front end of the 3rd straight endothermic tube 1; Be connected by tube connector 10 in the rear end of the rear end of the 3rd straight endothermic tube 1 with the 4th straight endothermic tube 1.So the like, be communicated to second from the bottom straight endothermic tube 1 always.The two ends of the straight endothermic tube 1 of every root are sealed by end cap 12, become a cylindricality energy storage heat exchanger.Described heat release pipe 2 is stainless steel straight tube, is arranged on the inside of every root endothermic tube, and two ends are connected with lower linked box 11 with upper linked box 4 respectively through the end cap 12 at straight endothermic tube 1 two ends.Described tube connector 10 is curved pipe, and its two ends are connected with adjacent two straight endothermic tubes 1 respectively, and all straight endothermic tubes 1 side by side before the straight endothermic tube of last root 1 are communicated with in turn.Described fin 3 is spirality stainless steel substrates, is arranged on the body of every root heat release pipe 2, can increase the area that heat release pipe 2 dispels the heat, and improves the efficiency of heat exchange.Described curved endothermic tube 9 is rolled over to hold by thin stainless steel tube and is formed, and curved endothermic tube 9 one end wherein in upper linked box 4 is connected with water inlet pipe 7, and the other end is connected with first straight endothermic tube 1 by the end cap 12 of first straight endothermic tube 1 upper end; Curved endothermic tube 9 one end in lower linked box 11 is connected with the lower end of second from the bottom straight endothermic tube 1, and the other end is connected with the lower end of the straight endothermic tube 1 of last root.Described outlet pipe 8 is connected with the upper end of the straight endothermic tube 1 of last root through connecting case.
As shown in Figure 2, described end cap 12 is circular, and processed by stainless sheet steel, center is provided with heat release pipe 2 and bores a hole, and bores a hole and is provided with a tube connector 10 between edge bore a hole at heat release pipe 2.Connecting portion is provided with in the inner side at its edge, in order to be connected with the inwall of straight endothermic tube 1, the edge seal of end cap 12 is welded on the tube wall of straight endothermic tube 1 port, and heat release pipe 2 is bored a hole and heat release pipe 2 seal welding, and tube connector 10 perforation is welded with tube connector 10 aperture seal.
Operation principle: the running water that temperature is lower enters the curved endothermic tube 9 in upper linked box 4 from water inlet pipe 7, first straight endothermic tube 1 is entered after carrying out heat exchange with the high temperature heating installation connected in case, after carrying out heat exchange with heat release pipe 2, enter second straight endothermic tube 1 by tube connector 10 again carry out heat exchange, until enter second from the bottom straight endothermic tube 1.Enter lower linked box 11 carry out heat exchange in second from the bottom straight endothermic tube 1 after, continue to carry out heat exchange with the high temperature heating installation in lower linked box 11 in lower linked box 11, and then enter in the straight endothermic tube 1 of last root and carry out heat exchange.After several heat exchange, the temperature of running water raises, and flows out finally by outlet pipe 8.
The heating installation that temperature is high enters upper linked box 4 through heating installation import 5, enter after carrying out heat exchange with the running water in curved endothermic tube 9 after heat release pipe 2 carries out heat exchange with the running water of straight endothermic tube 1 again and enter lower linked box 11 again, heating installation flows out through heating outlet 6 carry out heat exchange with the running water in the curved endothermic tube 9 in lower linked box 11 in lower linked box 11 after.
The distance that running water flows through in heat exchanger is large, and the time of heat exchange is long, and the height of the temperature liter of running water, the body of straight endothermic tube 1 is not only thick but also long, and the hot water of storage is many.The material of whole heat exchanger is stainless steel, and good heat dissipation effect, outside decapacitation Quick supplying hot water, can also use as radiator.
Claims (3)
1. a finned tube energy storage and heat exchanger, comprise straight endothermic tube, heat release pipe, fin, upper linked box, heating installation import, heating outlet, water inlet pipe, outlet pipe, curved endothermic tube, tube connector, lower linked box and end cap, it is characterized in that: straight endothermic tube is vertically arranged side by side, be communicated with in turn by tube connector between adjacent endothermic tube, be provided with end cap at the two ends of the straight endothermic tube of every root; In endothermic tube, be provided with heat release pipe, the heat release pipe of straight endothermic tube inside is provided with spiral fin; Upper linked box is provided with in the upper end of vertical one group of straight endothermic tube side by side, lower linked box is provided with in the lower end of vertical one group of straight endothermic tube side by side, curved endothermic tube is provided with in upper linked box and lower linked box, a water inlet pipe is provided with on the upper linked box that first straight endothermic tube is relative, an outlet pipe is provided with above the upper linked box that in the end straight endothermic tube is relative, be provided with heating installation import at upper linked box, be provided with a heating outlet in one end of lower linked box.
2. finned tube energy storage according to claim 1 and heat exchanger, is characterized in that: described heat release pipe is stainless steel straight tube, is arranged on the inside of every root endothermic tube, and two ends are connected with lower linked box with upper linked box respectively through the end cap at straight endothermic tube two ends.
3. finned tube energy storage according to claim 1 and heat exchanger, it is characterized in that: described curved endothermic tube is rolled over to hold by thin stainless steel tube and formed, curved endothermic tube one end wherein in upper linked box is connected with water inlet pipe, and the other end is connected with first straight endothermic tube by the end cap of first straight endothermic tube upper end; Curved endothermic tube one end in lower linked box is connected with the lower end of second from the bottom straight endothermic tube, and the other end is connected with the lower end of the straight endothermic tube of last root.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420796603.2U CN204301570U (en) | 2014-12-05 | 2014-12-05 | Finned tube energy storage and heat exchanger |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420796603.2U CN204301570U (en) | 2014-12-05 | 2014-12-05 | Finned tube energy storage and heat exchanger |
Publications (1)
Publication Number | Publication Date |
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CN204301570U true CN204301570U (en) | 2015-04-29 |
Family
ID=53107103
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201420796603.2U Expired - Fee Related CN204301570U (en) | 2014-12-05 | 2014-12-05 | Finned tube energy storage and heat exchanger |
Country Status (1)
Country | Link |
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CN (1) | CN204301570U (en) |
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2014
- 2014-12-05 CN CN201420796603.2U patent/CN204301570U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150429 Termination date: 20191205 |