CN202952646U - Solar heating drying system of color printer - Google Patents
Solar heating drying system of color printer Download PDFInfo
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- CN202952646U CN202952646U CN2012207088931U CN201220708893U CN202952646U CN 202952646 U CN202952646 U CN 202952646U CN 2012207088931 U CN2012207088931 U CN 2012207088931U CN 201220708893 U CN201220708893 U CN 201220708893U CN 202952646 U CN202952646 U CN 202952646U
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- circulating pump
- heat exchanger
- hydraulic fluid
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/44—Heat exchange systems
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Abstract
The utility model discloses a solar heating drying system of a color printer, and relates to the field of solar energy technology. The solar heating drying system consists of a heat exchanger, a fan, a water storage tank, a nano heater, a solar heat collection pipe, a thermal insulation water gathering tank, an auxiliary heating circulating pump, a solar heating circulating pump and a heat exchanger circulating pump. When the solar heating drying system of a color printer works, the solar heating circulating pump conveys a no-scaling work liquid to the thermal insulation water gathering tank, and the solar heat collection pipe absorbs sunlight to heat the no-scaling work liquid. At night or in the case of insufficient sunlight, the auxiliary heating circulating pump conveys the no-scaling work liquid into a heater water tank, and the nano heater heats the no-scaling work liquid so that the temperature of the no-scaling work liquid in the water storage tank is kept at the best work temperature. The heat exchanger circulating pump conveys the no-scaling work liquid in the water storage tank to the heat exchanger to heat air on the surface of the heat exchanger, and the fan conveys the hot air to a color printer plant.
Description
Technical field
The present invention is a kind of color press solar energy heating drying system, and it relates to a kind of technical field of solar that is applied to, and particularly relates to a kind of color press solar energy heating drying system.
Background technology
Color press, when work, needs higher environment temperature, and the temperature of the curing chamber that it is attached needs insulation at 50~55 ℃.Color press and attached curing chamber thereof all need heating system.
The photo-thermal conversion of solar energy is one of three large technical fields of solar energy utilization.Along with the continuous progress of solar energy heating Element Technology, the application of solar energy heating technology has expanded to the commercial Application of medium-scale from small-scale domestic. applications.Solar energy heat collection pipe be take vacuum tube as main, and wherein the performance of the vacuum heat-pipe of copper aluminium material matter is better than the vacuum heat-pipe of glass material, and just the price of the vacuum heat-pipe of copper aluminium material matter will be far above the vacuum heat-pipe of glass material.In addition, traditional resistance wire auxiliary heater and efficiency and the life-span of household central heating sheet are lower, have restricted the application of solar energy heating technology at industrial circle, cause existing color press heating system still to take electrical heating as main, waste a large amount of electric energy.
Summary of the invention
The objective of the invention is to overcome the defect in expensive, the inefficient and low life-span that has the solar energy heating technology now, the color press solar energy heating drying system of a kind of low cost, high efficiency and high life is provided.Technical scheme of the present invention is as follows:
The total feature of the present invention is that color press solar energy heating drying system is comprised of heat exchanger, blower fan, storage tank, Nano-heaters, solar energy heat collection pipe, insulation collection box, auxiliary heating circulating pump, solar energy heating circulating pump, heat exchanger circulating pump.Several solar energy heat collection pipes are arranged on the insulation collection box, and several Nano-heaters are arranged on the heater water tank.
Pipeline connects into three loops to color press solar energy heating drying system, filling non-scaling hydraulic fluid, for example pure water in color press solar energy heating drying system.Pipeline connects successively storage tank, solar energy heating circulating pump, is incubated collection box, returns storage tank, forms the solar energy heating closed circuit.Pipeline connects successively storage tank, auxiliary heating circulating pump, heater water tank, returns storage tank, forms the auxiliary heating closed circuit.Pipeline connects successively storage tank, heat exchanger circulating pump, heat exchanger, returns storage tank, forms the heat exchange circulation loop.
Solar energy heat collection pipe is the vacuum heat-pipe of glass material, vacuum interlayer glass shell, elastic support, glass heat pipe, consists of.The vacuum interlayer glass shell is cylindrical shape, and the vacuum interlayer glass shell has two-layer shell, extracts air between interior shell and outer pipe shell and forms vacuum state, and interior shell inner surface scribbles heat absorbing coating.Elastic support is Ω shape sheet metal, and elastic support is arranged on glass heat pipe in the interior shell of vacuum interlayer glass shell.Glass heat pipe is the cylindrical of hollow, the inner vacuum state that forms, and the heat pipe working solution of annotating a small amount of, belong to gravity type heat pipe, and its end portion is heat pipe evaporator section, and upper part is heat pipe condenser section.
What the insulation collection box was hollow is cylindrical, and two ends respectively have a collection box to take over, and on middle casing, several through holes are arranged, and several solar energy heat collection pipes are installed, and seal with the thermal-collecting tube sealing ring.In the insulation collection box, the non-scaling hydraulic fluid is arranged, part non-scaling hydraulic fluid flow between the interior shell and glass heat pipe of solar energy heat collection pipe, the heat absorbing coating of interior shell inner surface absorbs sunlight heating non-scaling hydraulic fluid, the heat pipe evaporator section of glass heat pipe conducts to heat pipe condenser section to heat again, in the insulation collection box, mobile non-scaling hydraulic fluid is taken away the heat of heat pipe condenser section, and the non-scaling hydraulic fluid temperature in storage tank is raise.
Nano-heaters is the cylindrical ceramic skeleton, and several through holes are arranged on cylindrical cross-section, and through-hole inner surface scribbles the nanometer resistive coating, respectively there is a binding post at the ceramic skeleton two ends, access power supply between two binding posts, can make the heating of nanometer resistive coating, and the heating ceramic skeleton.Several through holes are arranged on the heater water tank, several Nano-heaters are installed, with the sealing of heater sealing ring.Heater water tank two ends respectively have a water tank to take over, and make the non-scaling hydraulic fluid flow through the outer surface of Nano-heaters ceramic skeleton in the heater water tank, heating non-scaling hydraulic fluid.
The Air-cooled Heat Exchanger that heat exchanger is standard, have the non-scaling hydraulic fluid to flow through in heat exchanger, the air on heating heat exchanger surface, and blower fan is delivered to hot-air in the color press workshop.
During the work of color press solar energy heating drying system, the solar energy heating circulating pump is delivered to the insulation collection box to the non-scaling hydraulic fluid, and solar energy heat collection pipe absorbs sunlight, heating non-scaling hydraulic fluid.At night or sunlight, when inadequate, the auxiliary heating circulating pump is delivered to the non-scaling hydraulic fluid in the heater water tank, and Nano-heaters heating non-scaling hydraulic fluid, make the non-scaling hydraulic fluid temperature in storage tank maintain optimum working temperature.The heat exchanger circulating pump is delivered to heat exchanger to the non-scaling hydraulic fluid in storage tank, the air on heating heat exchanger surface, and blower fan is delivered to hot-air in the color press workshop.
Due to the vacuum heat-pipe that adopts glass material, engineering cost is low.Part non-scaling hydraulic fluid flow between the interior shell and glass heat pipe of solar energy heat collection pipe, participates in the conduction of heat, has improved the solar energy thermal conversion efficiency of glass material vacuum heat-pipe.The nanometer resistive coating of Nano-heaters ceramic skeleton inner surface does not directly contact with the non-scaling hydraulic fluid, has improved working life.In addition, the heat exchange efficiency of Air-cooled Heat Exchanger is far above the heat exchange efficiency of normal domestic use radiator.
The accompanying drawing explanation
Figure of description is system diagram and the structure chart of color press solar energy heating drying system.Wherein Fig. 1 is the system flow chart of color press solar energy heating drying system, and in figure, filled arrows is the flow direction of non-scaling hydraulic fluid, and hollow arrow is the flow direction of hot blast.Fig. 2 is solar energy heat collection pipe and the isometric cutaway view that is incubated the collection box assembling.Fig. 3 is the isometric cutaway view of solar energy heat collection pipe.Fig. 4 is the axonometric drawing of elastic support.Fig. 5 is the isometric cutaway view of Nano-heaters and the assembling of heater water tank.Fig. 6 is the axonometric drawing of Nano-heaters.
The figure acceptance of the bid is marked with color press workshop 1, heat exchanger 2, blower fan 3, storage tank 4, Nano-heaters 5, solar energy heat collection pipe 6, insulation collection box 7, auxiliary heating circulating pump 8, solar energy heating circulating pump 9, heat exchanger circulating pump 10, thermal-collecting tube sealing ring 11, collection box adapter 12, vacuum interlayer glass shell 13, elastic support 14, glass heat pipe 15, heater water tank 16, water tank adapter 17, heater sealing ring 18, binding post 19.
The specific embodiment
Below in conjunction with accompanying drawing, the present invention is done to further narration.
With reference to Fig. 1, color press solar energy heating drying system is comprised of heat exchanger 2, blower fan 3, storage tank 4, Nano-heaters 5, solar energy heat collection pipe 6, insulation collection box 7, auxiliary heating circulating pump 8, solar energy heating circulating pump 9, heat exchanger circulating pump 10.
Pipeline connects into three loops to color press solar energy heating drying system, filling non-scaling hydraulic fluid, for example pure water in color press solar energy heating drying system.Pipeline connects successively storage tank 4, solar energy heating circulating pump 9, insulation collection box 7, returns storage tank 4, forms the solar energy heating closed circuit.Pipeline connects successively storage tank 4, auxiliary heating circulating pump 8, heater water tank 16, returns storage tank 4, forms the auxiliary heating closed circuit.Pipeline connects successively storage tank 4, heat exchanger circulating pump 10, heat exchanger 2, returns storage tank 4, forms the heat exchange circulation loop.
During the work of color press solar energy heating drying system, solar energy heating circulating pump 9 is delivered to insulation collection box 7 to the non-scaling hydraulic fluid, and solar energy heat collection pipe 6 absorbs sunlight, heating non-scaling hydraulic fluid.At night or sunlight, when inadequate, auxiliary heating circulating pump 8 is delivered to the non-scaling hydraulic fluid in heater water tank 16, and Nano-heaters 5 heating non-scaling hydraulic fluids, make the non-scaling hydraulic fluid temperature in storage tank 4 maintain optimum working temperature.Heat exchanger circulating pump 10 is delivered to heat exchanger 2 to the non-scaling hydraulic fluid in storage tank 4, the air on heating heat exchanger 2 surfaces, and blower fan 3 is delivered to hot-air in color press workshop 1.
With reference to Fig. 2, Fig. 3, Fig. 4, solar energy heat collection pipe 6 is vacuum heat-pipes of glass material, vacuum interlayer glass shell 13, elastic support 14, glass heat pipe 15, consists of.Vacuum interlayer glass shell 13 is cylindrical shape, and vacuum interlayer glass shell 13 has two-layer shell, extracts air between interior shell and outer pipe shell and forms vacuum state, and interior shell inner surface scribbles heat absorbing coating.Elastic support 14 is Ω shape sheet metals, and elastic support 14 is arranged on glass heat pipe 15 in the interior shell of vacuum interlayer glass shell 13.What glass heat pipe 15 was hollow is cylindrical, the inner vacuum state that forms, and the heat pipe working solution of annotating a small amount of, belong to gravity type heat pipe, and its end portion is heat pipe evaporator section, and upper part is heat pipe condenser section.
What insulation collection box 7 was hollow is cylindrical, and two ends respectively have a collection box to take over 12, on middle casing, several through holes are arranged, and several solar energy heat collection pipes 6 are installed, and seals with thermal-collecting tube sealing ring 11.In insulation collection box 7, the non-scaling hydraulic fluid is arranged, part non-scaling hydraulic fluid flow between the interior shell and glass heat pipe 15 of solar energy heat collection pipe 6, the heat absorbing coating of interior shell inner surface absorbs sunlight heating non-scaling hydraulic fluid, the heat pipe evaporator section of glass heat pipe 15 conducts to heat pipe condenser section to heat again, in insulation collection box 7, mobile non-scaling hydraulic fluid is taken away the heat of heat pipe condenser section, and the non-scaling hydraulic fluid temperature in storage tank 4 is raise.
With reference to Fig. 5, Fig. 6, Nano-heaters 5 is the cylindrical ceramic skeleton, several through holes are arranged on cylindrical cross-section, through-hole inner surface scribbles the nanometer resistive coating, respectively there is a binding post 19 at the ceramic skeleton two ends, access power supply between two binding posts 19, can make the heating of nanometer resistive coating, and the heating ceramic skeleton.Several through holes are arranged on heater water tank 16, several Nano-heaters 5 are installed, with 18 sealings of heater sealing ring.Heater water tank 16 two ends respectively have a water tank to take over 17, make the non-scaling hydraulic fluid flow through the outer surface of Nano-heaters 5 ceramic skeletons in heater water tank 16, heating non-scaling hydraulic fluid.
Claims (2)
1. a color press solar energy heating drying system, is characterized in that being comprised of heat exchanger (2), blower fan (3), storage tank (4), Nano-heaters (5), solar energy heat collection pipe (6), insulation collection box (7), auxiliary heating circulating pump (8), solar energy heating circulating pump (9), heat exchanger circulating pump (10); It is upper that several solar energy heat collection pipes (6) are arranged on insulation collection box (7), and several Nano-heaters (5) are arranged on heater water tank (16);
Pipeline connects into three loops to color press solar energy heating drying system, filling non-scaling hydraulic fluid in color press solar energy heating drying system; Pipeline connects successively storage tank (4), solar energy heating circulating pump (9), insulation collection box (7), returns storage tank (4), forms the solar energy heating closed circuit; Pipeline connects successively storage tank (4), auxiliary heating circulating pump (8), heater water tank (16), returns storage tank (4), forms the auxiliary heating closed circuit; Pipeline connects successively storage tank (4), heat exchanger circulating pump (10), heat exchanger (2), returns storage tank (4), forms the heat exchange circulation loop;
Solar energy heat collection pipe (6) is the vacuum heat-pipe of glass material, vacuum interlayer glass shell (13), elastic support (14), glass heat pipe (15), consists of; Vacuum interlayer glass shell (13) is cylindrical shape, and vacuum interlayer glass shell (13) has two-layer shell, extracts air between interior shell and outer pipe shell and forms vacuum state, and interior shell inner surface scribbles heat absorbing coating; Elastic support (14) is Ω shape sheet metal, and elastic support (14) is arranged on glass heat pipe (15) in the interior shell of vacuum interlayer glass shell (13); What glass heat pipe (15) was hollow is cylindrical, the inner vacuum state that forms, and the heat pipe working solution of annotating a small amount of, belong to gravity type heat pipe, and its end portion is heat pipe evaporator section, and upper part is heat pipe condenser section;
What insulation collection box (7) was hollow is cylindrical, and two ends respectively have a collection box to take over (12), on middle casing, several through holes are arranged, and several solar energy heat collection pipes (6) are installed, and seal with thermal-collecting tube sealing ring (11); In insulation collection box (7), the non-scaling hydraulic fluid is arranged, part non-scaling hydraulic fluid flow between the interior shell and glass heat pipe (15) of solar energy heat collection pipe (6), the heat absorbing coating of interior shell inner surface absorbs sunlight heating non-scaling hydraulic fluid, the heat pipe evaporator section of glass heat pipe (15) conducts to heat pipe condenser section to heat again, in insulation collection box (7), mobile non-scaling hydraulic fluid is taken away the heat of heat pipe condenser section, and the non-scaling hydraulic fluid temperature in storage tank (4) is raise;
The Air-cooled Heat Exchanger that heat exchanger (2) is standard, have the non-scaling hydraulic fluid to flow through in heat exchanger (2), the air on heating heat exchanger (2) surface, and blower fan (3) is delivered to hot-air in color press workshop (1).
2. color press solar energy heating drying system according to claim 1, it is characterized in that Nano-heaters (5) is the cylindrical ceramic skeleton, several through holes are arranged on cylindrical cross-section, through-hole inner surface scribbles the nanometer resistive coating, respectively there is a binding post (19) at the ceramic skeleton two ends, access power supply between two binding posts (19), can make the heating of nanometer resistive coating, and the heating ceramic skeleton; The heater water tank has several through holes on (16), and several Nano-heaters (5) are installed, with heater sealing ring (18) sealing; Heater water tank (16) two ends respectively have a water tank to take over (17), make the non-scaling hydraulic fluid flow through the outer surface of Nano-heaters (5) ceramic skeleton in heater water tank (16), heating non-scaling hydraulic fluid.
Priority Applications (1)
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CN2012207088931U CN202952646U (en) | 2012-12-07 | 2012-12-07 | Solar heating drying system of color printer |
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CN2012207088931U CN202952646U (en) | 2012-12-07 | 2012-12-07 | Solar heating drying system of color printer |
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CN2012207088931U Expired - Fee Related CN202952646U (en) | 2012-12-07 | 2012-12-07 | Solar heating drying system of color printer |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104129159A (en) * | 2013-11-26 | 2014-11-05 | 成都科创佳思科技有限公司 | Energy-saving drying chamber of embossing machine |
CN105775352A (en) * | 2014-12-23 | 2016-07-20 | 常熟市鑫盛制袋有限责任公司 | Processing device for wide-thread woven bag |
CN105774211A (en) * | 2014-12-23 | 2016-07-20 | 常熟市鑫盛制袋有限责任公司 | Energy-saving and efficient ink printing machine for wide-filament woven bags |
-
2012
- 2012-12-07 CN CN2012207088931U patent/CN202952646U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104129159A (en) * | 2013-11-26 | 2014-11-05 | 成都科创佳思科技有限公司 | Energy-saving drying chamber of embossing machine |
CN105775352A (en) * | 2014-12-23 | 2016-07-20 | 常熟市鑫盛制袋有限责任公司 | Processing device for wide-thread woven bag |
CN105774211A (en) * | 2014-12-23 | 2016-07-20 | 常熟市鑫盛制袋有限责任公司 | Energy-saving and efficient ink printing machine for wide-filament woven bags |
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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 |
Granted publication date: 20130529 Termination date: 20151207 |
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EXPY | Termination of patent right or utility model |