CN103954148B - Medium-pressure high-temperature steam heating heat exchanger - Google Patents
Medium-pressure high-temperature steam heating heat exchanger Download PDFInfo
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- CN103954148B CN103954148B CN201410148686.9A CN201410148686A CN103954148B CN 103954148 B CN103954148 B CN 103954148B CN 201410148686 A CN201410148686 A CN 201410148686A CN 103954148 B CN103954148 B CN 103954148B
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Abstract
The utility model relates to a medium-pressure high-temperature steam heating heat exchanger, comprising a plurality of heat conduction pipe connection heat exchange pieces; the heat conduction pipe connection heat exchange pieces are of metal seamless heat conduction pipe connection heat exchange pieces; radiating pieces wrap the outer parts of the heat conduction pipe connection heat exchange pieces; heat conduction pipe connection plates are arranged at two ends of the heat conduction pipe connection heat exchange pieces; seal ends are arranged at the outer parts of the heat conduction pipe connection plates; the heat exchanger is also provided with an inlet flange, an outlet flange and a water emptying outlet, which are all arranged on the seal ends. The heat exchanger can bear the weight of about 30Kg, the maximal pressure of 36Kg and the highest temperature of 320 DEG C and can meet the medium-pressure high-temperature needs in the industrial production. Steam heating is adopted, and industrial waste heat steam can be adopted as a heat exchange source to realize the step utilization of waste heat, thus making great contribution to use of new resources, effectively avoiding haze generated in the burning of a boiler and eliminating the haze source. The heat exchanger accords with the topic of environment protection, and is low in price, low in cost and simple in operation.
Description
Technical field
The present invention relates to a kind of heat exchanger, specifically relate to super pressure-high temperature Steam Heating heat exchanger in one, be applied to weaving, printing and dyeing, rubber, process hides, timber is processed, and oil and foodstuffs is processed, the fields such as application baking vanish.
Background technology
Radiator is widely used in industrial every field.As weaving, printing and dyeing, rubber, process hides, timber is processed, and oil and foodstuffs is processed, and has been widely applied, all obtains satisfied effect in the industries such as application baking vanish.Heat exchanger is in the market mainly based on heating liquid, and Some Enterprises adopts flue gas as heat exchange source, but flue gas needs to be produced by boiler combustion coal, and be the source that haze produces, the theme protected with current environment is disagreed.It is raw material that Some Enterprises proposes with natural gas, although the temperature that natural gas produces is faster than heating liquid, efficiency wants high, and Gas Prices is expensive, and production cost is too expensive, cannot commercially popularize.
Based on this, the present invention is proposed.
Summary of the invention
For the above-mentioned technical problem of prior art, the object of this invention is to provide super pressure-high temperature Steam Heating heat exchanger in one, the pressure of about 30 kilograms can be born; both industrial needs had been met by the heat exchange of steam; meet again the requirement of environmental protection, and with low cost, simple to operate.
For achieving the above object, the present invention is achieved by the following technical solutions:
Super pressure-high temperature Steam Heating heat exchanger in one, comprise some heat pipes connection heat exchanger fin, described heat pipe connection heat exchanger fin is metal seamless heat pipe connection heat exchanger fin, the outside of heat pipe connection heat exchanger fin is coated with fin, and the two ends of heat pipe connection heat exchanger fin are all provided with heat pipe gusset piece, described heat pipe gusset piece outside is provided with end socket, and described heat exchanger is also provided with suction flange, outlet(discharge) flange and dewatering outlet, and described suction flange, outlet(discharge) flange and dewatering outlet are installed on end socket.
Described some heat pipe connection heat exchanger fins are that tandem is installed, described suction flange and outlet(discharge) flange are arranged on two end sockets respectively, described dewatering outlet and outlet(discharge) flange are arranged on same end socket, and dewatering outlet is positioned at above outlet(discharge) flange, and suction flange is relative with dewatering outlet.
Described some heat pipe connection heat exchanger fins are parallel installation, and described suction flange, outlet(discharge) flange and dewatering outlet are arranged on same end socket, and suction flange is positioned at the top of outlet(discharge) flange, and dewatering outlet is arranged on the bottom of end socket.
Described heat exchanger is first horizontal, described some heat pipe connection heat exchanger fins are laterally and left-right situs, described suction flange, outlet(discharge) flange and dewatering outlet are arranged on same end socket, and suction flange is positioned at the top of outlet(discharge) flange, and dewatering outlet is arranged on the bottom of end socket.
Described heat exchanger is second horizontal, described some heat pipe connection heat exchanger fins are longitudinally and left-right situs, described suction flange and outlet(discharge) flange are arranged on same end socket, and described dewatering outlet and outlet(discharge) flange are arranged on different end sockets, and outlet(discharge) flange is relative with dewatering outlet.
Described heat exchanger is vertical, described some heat pipe connection heat exchanger fins are laterally and are arranged above and below, described suction flange and outlet(discharge) flange are arranged on same end socket, suction flange is positioned at above outlet(discharge) flange, described dewatering outlet and outlet(discharge) flange are arranged on different end sockets, and outlet(discharge) flange is relative with dewatering outlet, described heat pipe connection heat exchanger fin outside is provided with support, and described support two ends are all connected with heat pipe gusset piece.
Described fin is circular, square, oval, semicircle or oval nest plate shape.
For increasing radiating effect, as preferably, described fin be ellipse.
Beneficial effect of the present invention is as follows:
1, middle super pressure-high temperature Steam Heating heat exchanger of the present invention, can bear about 30 kilograms, maximum pressure is 36 kilograms, and temperature can reach 320 DEG C, can meet the needs of the middle super pressure-high temperature of needs in industrial production.
2, the present invention adopts Steam Heating; industrial exhaust heat steam can be adopted as heat exchange source; realize step UTILIZATION OF VESIDUAL HEAT IN; very large contribution is made in the utilization not being only new forms of energy, and effectively prevent the haze in boiler combustion, has eliminated the source of haze; consistent with the theme of environmental protection; and low price, cost is low, simple to operate.
3, in the present invention, heat pipe connection heat exchanger fin outside is coated with the fin of circle, square, oval, semicircle or oval nest plate shape, and radiating effect is very good.
4, the present invention can become tandem, parallel, first horizontal, second horizontal or vertical according to the different Demand Design of commercial Application, meets the arrangement of different industrial production system.
Accompanying drawing explanation
Fig. 1 is structural representation of the present invention;
Fig. 2 is the structural representation of the embodiment of the present invention 1;
Fig. 3 is the structural representation of the embodiment of the present invention 2;
Fig. 4 is the structural representation of the embodiment of the present invention 3;
Fig. 5 is the structural representation of the embodiment of the present invention 4;
Fig. 6 is the structural representation of the embodiment of the present invention 5;
Fig. 7-11 is the schematic shapes of fin in the present invention;
Wherein, 1 be heat pipe connection heat exchanger fin, 2 be heat pipe gusset piece, 3 for end socket, 4 for suction flange, 5 for outlet(discharge) flange, 6 for dewatering outlet, 7 for support, 8 be fin.
Detailed description of the invention
Below in conjunction with specific embodiment, the present invention is further illustrated, but protection scope of the present invention is not limited to this.
As illustrated in figures 7-11, the fin 8 in the present invention can be circular, square, oval, semicircle or oval nest plate shape.When fin 8 is circular, heat pipe connection heat exchanger fin 1 is round shape inside and outside with fin 8 being; When fin 8 is square, heat pipe connection heat exchanger fin 1 and the shape of fin 8 in inner circle foreign side; When fin 8 is oval, heat pipe connection heat exchanger fin 1 and the shape of fin 8 in inside and outside equal ellipse; When fin 8 is semicircle, heat pipe connection heat exchanger fin 1 and fin 8 are the shape of the outer semicircle of inner circle; When fin 8 is oval nest plate shape, heat pipe connection heat exchanger fin 1 and the shape of fin 8 in interior multiple oval foreign side.
When wherein fin 8 is oval, radiating effect is best.Do concrete introduction with regard to other structure of super pressure-high temperature Steam Heating heat exchanger in the present invention below, in all the present invention, do not have the structure of appearance and connected mode to be the known property general knowledge of this area.
embodiment 1
As illustrated in fig. 1 and 2, middle super pressure-high temperature Steam Heating heat exchanger of the present invention, comprise some heat pipes connection heat exchanger fin 1, heat pipe connection heat exchanger fin 1 is metal seamless heat pipe connection heat exchanger fin, 30 kilograms of even larger pressure can be born, also high temperature can be born, the outside of heat pipe connection heat exchanger fin 1 is coated with fin 8, and the two ends of heat pipe connection heat exchanger fin 1 are all provided with heat pipe gusset piece 2, heat pipe gusset piece 2 outside is provided with end socket 3, heat exchanger of the present invention is also provided with suction flange 4, outlet(discharge) flange 5 and dewatering outlet 6, suction flange 4, outlet(discharge) flange 5 and dewatering outlet 6 are installed on end socket 3.
In the present embodiment 1, heat pipe connection heat exchanger fin 1 is tandem installation, suction flange 4 and outlet(discharge) flange 5 are arranged on two end sockets 3 respectively, dewatering outlet 6 and outlet(discharge) flange 5 are arranged on same end socket 3, and dewatering outlet 6 is positioned at above outlet(discharge) flange 5, and suction flange 4 is relative with dewatering outlet 6.
embodiment 2
As shown in Figure 3, in the present embodiment 2, some heat pipe connection heat exchanger fins 1 are parallel installation, and suction flange 4, outlet(discharge) flange 5 and dewatering outlet 6 are arranged on same end socket 3, and suction flange 4 is positioned at the top of outlet(discharge) flange 5, and dewatering outlet 6 is arranged on the bottom of end socket 3.
Other structure of the present embodiment 2 and connected mode identical with embodiment 1, do not repeat herein.
embodiment 3
As shown in Figure 4, heat exchanger in the present embodiment 3 is first horizontal, some heat pipe connection heat exchanger fins 1 are laterally and left-right situs, suction flange 4, outlet(discharge) flange 5 and dewatering outlet 6 are arranged on same end socket 3, and suction flange 4 is positioned at the top of outlet(discharge) flange 5, dewatering outlet 6 is arranged on the bottom of end socket 3.
Other structure of the present embodiment 3 and connected mode identical with embodiment 1, do not repeat herein.
embodiment 4
As shown in Figure 5, heat exchanger in the present embodiment 4 is second horizontal, some heat pipe connection heat exchanger fins 1 are longitudinally and left-right situs, suction flange 4 and outlet(discharge) flange 5 are arranged on same end socket 3, dewatering outlet 6 and outlet(discharge) flange 5 are arranged on different end sockets 3, and outlet(discharge) flange 5 is relative with dewatering outlet 6.
Other structure of the present embodiment 4 and connected mode identical with embodiment 1, do not repeat herein.
embodiment 5
As shown in Figure 6, heat exchanger in the present embodiment 5 is vertical, some heat pipe connection heat exchanger fins 1 are laterally and are arranged above and below, suction flange 4 and outlet(discharge) flange 5 are arranged on same end socket 3, suction flange 4 is positioned at above outlet(discharge) flange 5, and dewatering outlet 6 and outlet(discharge) flange 5 are arranged on different end sockets 3, and outlet(discharge) flange 5 is relative with dewatering outlet 6, heat pipe connection heat exchanger fin 1 outside is provided with support 7, and support 7 two ends are all connected with heat pipe gusset piece 2.
Other structure of the present embodiment 5 and connected mode identical with embodiment 1, do not repeat herein.
Middle super pressure-high temperature Steam Heating heat exchanger of the present invention, can bear about 30 kilograms, maximum pressure is 36 kilograms, and temperature can reach 320 DEG C, can meet the needs of the middle super pressure-high temperature of needs in industrial production.Adopt Steam Heating; industrial exhaust heat steam can be adopted as heat exchange source; realize step UTILIZATION OF VESIDUAL HEAT IN; very large contribution is made in the utilization not being only new forms of energy, and effectively prevent the haze in boiler combustion, has eliminated the source of haze; consistent with the theme of environmental protection; and low price, cost is low, simple to operate.Heat pipe connection heat exchanger fin 1 outside is coated with the fin 8 of circle, square, oval, semicircle or oval nest plate shape, and radiating effect is very good, and wherein oval fin 8 radiating effect is best.The present invention can become tandem, parallel, first horizontal, second horizontal or vertical according to the different Demand Design of commercial Application, meets the arrangement of different industrial production system.
Above-described embodiment only illustrates inventive concept of the present invention for explaining; but not the restriction to rights protection of the present invention; all changes utilizing this design the present invention to be carried out to unsubstantiality such as change etc. as suction flange 4, outlet(discharge) flange 5 and dewatering outlet 6 installation site in end socket 3, all should fall into protection scope of the present invention.
Claims (2)
1. super pressure-high temperature Steam Heating heat exchanger in a kind, it is characterized in that: comprise some heat pipes connection heat exchanger fin, described heat pipe connection heat exchanger fin is metal seamless heat pipe connection heat exchanger fin, the outside of heat pipe connection heat exchanger fin is coated with fin, and the two ends of heat pipe connection heat exchanger fin are all provided with heat pipe gusset piece, described heat pipe gusset piece outside is provided with end socket, described heat exchanger is also provided with suction flange, outlet(discharge) flange and dewatering outlet, and described suction flange, outlet(discharge) flange and dewatering outlet are installed on end socket;
Described some heat pipes connection heat exchanger fins are that tandem is installed or parallel installation, and described heat exchanger is first horizontal, second horizontal or vertical;
Described some heat pipes connection heat exchanger fins be parallel installation and heat exchanger be first horizontal time, described some heat pipe connection heat exchanger fins are laterally and left-right situs, described suction flange, outlet(discharge) flange and dewatering outlet are arranged on same end socket, and suction flange is positioned at the top of outlet(discharge) flange, dewatering outlet is arranged on the bottom of end socket;
Described heat exchanger be second horizontal time, described some heat pipe connection heat exchanger fins are longitudinally and left-right situs, described suction flange and outlet(discharge) flange are arranged on same end socket, and described dewatering outlet and outlet(discharge) flange are arranged on different end sockets, and outlet(discharge) flange is relative with dewatering outlet;
When described heat exchanger is vertical, described some heat pipe connection heat exchanger fins are laterally and are arranged above and below, described suction flange and outlet(discharge) flange are arranged on same end socket, suction flange is positioned at above outlet(discharge) flange, described dewatering outlet and outlet(discharge) flange are arranged on different end sockets, and outlet(discharge) flange is relative with dewatering outlet, described heat pipe connection heat exchanger fin outside is provided with support, and described support two ends are all connected with heat pipe gusset piece;
Described fin is circular, square, oval, semicircle or oval nest plate shape;
When described fin is circular, heat pipe connection heat exchanger fin and fin are round shape inside and outside being; When fin is square, heat pipe connection heat exchanger fin and fin are the shape of inner circle foreign side; When fin is oval, heat pipe connection heat exchanger fin and fin are the shape of inside and outside equal ellipse; When fin is semicircle, heat pipe connection heat exchanger fin and fin are the shape of the outer semicircle of inner circle; When fin is oval nest plate shape, heat pipe connection heat exchanger fin and fin are the shape of interior multiple oval foreign side.
2. middle super pressure-high temperature Steam Heating heat exchanger as claimed in claim 1, it is characterized in that: described some heat pipe connection heat exchanger fins are that tandem is installed, described suction flange and outlet(discharge) flange are arranged on two end sockets respectively, described dewatering outlet and outlet(discharge) flange are arranged on same end socket, and dewatering outlet is positioned at above outlet(discharge) flange, suction flange is relative with dewatering outlet.
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CN201410148686.9A CN103954148B (en) | 2014-04-14 | 2014-04-14 | Medium-pressure high-temperature steam heating heat exchanger |
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CN201410148686.9A CN103954148B (en) | 2014-04-14 | 2014-04-14 | Medium-pressure high-temperature steam heating heat exchanger |
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CN103954148B true CN103954148B (en) | 2015-04-29 |
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Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2170490Y (en) * | 1993-04-29 | 1994-06-29 | 尹协谦 | Multi-purpose Al alloy warm-air radiator |
CN2349523Y (en) * | 1998-12-16 | 1999-11-17 | 华南理工大学 | Heat conductor with rough surface fin |
CN102636045A (en) * | 2012-04-23 | 2012-08-15 | 张家港市江南利玛特设备制造有限公司 | Marine heater |
CN203837525U (en) * | 2014-04-14 | 2014-09-17 | 浙江精宝机械有限公司 | Medium pressure and high temperature steam heating heat exchanger |
-
2014
- 2014-04-14 CN CN201410148686.9A patent/CN103954148B/en not_active Ceased
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2170490Y (en) * | 1993-04-29 | 1994-06-29 | 尹协谦 | Multi-purpose Al alloy warm-air radiator |
CN2349523Y (en) * | 1998-12-16 | 1999-11-17 | 华南理工大学 | Heat conductor with rough surface fin |
CN102636045A (en) * | 2012-04-23 | 2012-08-15 | 张家港市江南利玛特设备制造有限公司 | Marine heater |
CN203837525U (en) * | 2014-04-14 | 2014-09-17 | 浙江精宝机械有限公司 | Medium pressure and high temperature steam heating heat exchanger |
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Decision date of declaring invalidation: 20160714 Decision number of declaring invalidation: 29303 Granted publication date: 20150429 |