CN205255582U - Energy -conserving heating cooling system of ultra -temperature - Google Patents
Energy -conserving heating cooling system of ultra -temperature Download PDFInfo
- Publication number
- CN205255582U CN205255582U CN201520972779.3U CN201520972779U CN205255582U CN 205255582 U CN205255582 U CN 205255582U CN 201520972779 U CN201520972779 U CN 201520972779U CN 205255582 U CN205255582 U CN 205255582U
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- electric
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- shaped valve
- heating
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Abstract
The utility model discloses an energy -conserving heating cooling system of ultra -temperature, including machine heating cooling body, dielectric heating device, medium cooling device, cooling heat exchanger, an electric T -shaped valve, the 2nd electric T -shaped valve, the 3rd electric T -shaped valve, fourth electric T -shaped valve. Energy -conserving heating cooling system of ultra -temperature's heating temperature can reach 360 DEG C, can satisfy the requirement of processing aviation, wind energy field new material, and its cooling rate is fast, cooling efficiency is high, and the cooling energy consumption is little, adopts the utility model discloses a heating coolant oil press is compared in tradition heating coolant oil press, and the cooling is extremely mutually synthermal, its energy consumption reducible 58% to can save two -thirds's cool time.
Description
Technical field
The utility model relates to a kind of heating and cooling system, relates in particular to a kind of super high-temp. energy-saving heating cooling systemSystem.
Background technology
Hydraulic press be a kind of by specific hydraulic fluid as working media,, lean on as power source by hydraulic pumpThe active force of pump makes hydraulic oil enter oil cylinder/piston by fluid pressure line, thereby the acting of oil cylinder/piston is completedCertain mechanical action is used as the one machinery of productivity. Existing hydraulic press, in order to produce portioned product,Ask it to possess heating, refrigerating function, but its heating-up temperature generally can only reach 165 DEG C of left and right, for some boatsThe new material in sky, wind energy field, its heating-up temperature often requires to reach 360 DEG C, considerably beyond existing oil pressureThe heating-up temperature of machine, and existing hydraulic press adopts cooling conduction oil or air-cooled mode to heat cold to machine conventionallyBut body carries out coolingly, and need to be equipped with powerful cooling exchanger, and it exists slow, the cooling effect of cooling velocityThe large problem of low, the cooling energy consumption of rate, thus, is badly in need of solving.
Utility model content
The purpose of this utility model is for the problems referred to above, and a kind of super high-temp. energy-saving heating and cooling system is provided,To solve the problem that existing hydraulic press heating-up temperature is low, cooling velocity is slow, cooling effectiveness is low, cooling energy consumption is large.
The purpose of this utility model is to be achieved through the following technical solutions:
A kind of super high-temp. energy-saving heating and cooling system, comprises machine heating cooling body, medium heating device, JieMatter cooling device, cooling heat exchanger, the first electric T-shaped valve, the second electric T-shaped valve, the 3rd electric three passesValve, the 4th electric T-shaped valve, the port a phase of the outlet of described medium heating device and the first electric T-shaped valveConnect, the port b of described the first electric T-shaped valve is connected with the import of internal circulation pump, and the first electric T-shaped valvePort c be connected with the outlet of medium cooling device, the import department of described internal circulation pump is provided with expansion slot,And the outlet of internal circulation pump is connected with the import of machine heating cooling body, the outlet of described machine heating cooling bodyBe connected with the port d of the second electric T-shaped valve, port e and the cooling heat exchanger of described the second electric T-shaped valveOne end be connected, the outlet of the other end of described cooling heat exchanger and machine heating cooling body is connected, described theThe port f of two electric T-shaped valves is connected with the port g of the 3rd electric T-shaped valve, described the 3rd electric T-shaped valvePort h be connected with the import of internal circulation pump, and the port i of the 3rd electric T-shaped valve and the 4th electric three passesThe port j of valve is connected, and the port k of described the 4th electric T-shaped valve is connected with answering back of medium heating device,And the port l of the 4th electric T-shaped valve is connected with answering back of medium cooling device.
As a kind of preferred version of the present utility model, described medium heating device is electric furnace.
As a kind of preferred version of the present utility model, described medium cooling device is cooling-water machine.
As a kind of preferred version of the present utility model, described cooling heat exchanger comprises snake pipe, described snakeThe outer setting of shape pipeline has water atomizer(-iser), and the outer setting of snake pipe has the device atomization that makes water fogging to go outSteam is drawn to the air-introduced machine on snake pipe.
As a kind of preferred version of the present utility model, the port f of described the second electric T-shaped valve and the 3rd electricityOn the connected pipeline of the port g of moving triple valve, be provided with temperature sensor.
The beneficial effects of the utility model are that the heating-up temperature of described super high-temp. energy-saving heating and cooling system can reachTo 360 DEG C, can meet the requirement of processing aviation, wind energy field new material, and its cooling velocity is fast, coolingEfficiency is high, and cooling energy consumption is little, adopts heating cold oil press of the present utility model, cold compared to traditional heatingBut hydraulic press, is cooled to uniform temp, and its energy consumption can reduce 58%, and can save for 2/3rds cool time.
Brief description of the drawings
Fig. 1 is the schematic diagram of the utility model super high-temp. energy-saving heating and cooling system.
In figure:
1, machine heating cooling body; 2, electric furnace; 3, cooling-water machine; 4, the first electric T-shaped valve; 5,Internal circulation pump; 6, the second electric T-shaped valve; 7, the 3rd electric T-shaped valve; 8, the 4th electric T-shaped valve; 9,Water atomizer(-iser); 10, air-introduced machine; 11, snake pipe; 12, temperature sensor; 13, expansion slot.
Detailed description of the invention
Further illustrate the technical solution of the utility model below in conjunction with accompanying drawing and by detailed description of the invention.Be understandable that, embodiment described herein is only for explaining the utility model, but not to this practicalityNovel restriction.
Please refer to shown in Fig. 1, Fig. 1 is the schematic diagram of the utility model super high-temp. energy-saving heating and cooling system.
In the present embodiment, comprise machine heating cooling body 1, electric furnace 2, cooling-water machine 3, cooling heat transferringDevice, the first electric T-shaped valve 4, the second electric T-shaped valve 6, the 3rd electric T-shaped valve 7, the 4th electric three passesValve 8, the outlet of described electric furnace 2 is connected with the port a of the first electric T-shaped valve 4, described first electronicThe port b of triple valve 4 is connected with the import of internal circulation pump 5, and the port c of the first electric T-shaped valve 4 withThe outlet of cooling-water machine 3 is connected, and the import department of described internal circulation pump 5 is provided with expansion slot 13, and internal circulation pump5 outlet is connected with the import of machine heating cooling body 1, the outlet and second of described machine heating cooling body 1The port d of electric T-shaped valve 6 is connected, the port e of described the second electric T-shaped valve 6 and cooling heat exchangerOne end is connected, and the other end of described cooling heat exchanger is connected with the outlet of machine heating cooling body 1, described coldBut heat exchanger comprises snake pipe 11, and the outer setting of described snake pipe 11 has water atomizer(-iser) 9, and snakelikeThe steam that the outer setting of pipeline 11 has device 9 atomizations that make water fogging to go out is drawn to the air-introduced machine on snake pipe 1110, the port f of described the second electric T-shaped valve 6 is connected with the port g of the 3rd electric T-shaped valve 7, and theOn the pipeline that the port f of two electric T-shaped valves 6 is connected with the port g of the 3rd electric T-shaped valve 7, be provided with temperatureDegree sensor 12, the port h of described the 3rd electric T-shaped valve 7 is connected with the import of internal circulation pump 5, and theThe port i of three electric T-shaped valves 7 is connected with the port j of the 4th electric T-shaped valve 8, and the described the 4th electronic threeThe port k of logical valve 8 is connected with answering back of electric furnace 2, and the port l of the 4th electric T-shaped valve 8 and coldAnswering back of water machine 3 is connected.
When work, under heated condition: cooling-water machine 3 is in closed condition, and electric furnace 2 is worked, to pipelineIn medium heat, the medium after heating is flowed through first electronic by the port a of the first electric T-shaped valve 4The port b of triple valve 4 enters internal circulation pump 5, flow to machine heating cooling body 1 by the outlet of internal circulation pump 5,Machine heating cooling body 1 is heated, and the medium after the machine of flowing through heating cooling body 1 is by second electronic threeThe port d of logical valve 6 flow to the port g of the 3rd electric T-shaped valve 7 through the port f of the second electric T-shaped valve 6,Flowed out to again the port j of the 4th electric T-shaped valve 8 by the port i of the 3rd electric T-shaped valve 7, finally by the 4thThe port k of electric T-shaped valve 8 flows back in electric furnace 2, forms a Heating Cyclic;
Under heating and thermal insulation state: cooling-water machine 3 is still in closed condition, and the medium in pipeline is by internal circulation pump 5Outlet flow to machine heating cooling body 1 machine heating cooling body 1 carried out to heating and thermal insulation, heated by machineThe medium that cooling body 1 flows out is the port f through the second electric T-shaped valve 6 by the port d of the second electric T-shaped valve 6Flow to the port g of the 3rd electric T-shaped valve 7, then flow back into interior circulation by the port h of the 3rd electric T-shaped valve 7Pump 5, forms a heat-insulating circulating system;
Under the quick state of cooling of high temperature: it is cold that the medium in pipeline flow to machine heating by the outlet of internal circulation pump 5But body 1 carries out coolingly to machine heating cooling body 1, and the medium being flowed out by machine heating cooling body 1 enters coldBut in the snake pipe 11 of heat exchanger, now, water atomizer(-iser) 9 makes water fogging, and air-introduced machine 10 is by atomizationWater is drawn on the outer wall of snake pipe 11, makes the water of atomization be vaporized into steam, absorbs heat, and thenMake the medium in snake pipe 11 cooling fast, the medium being flowed out by snake pipe 11 is by second electronic threeThe port e of logical valve 6 flow to the port g of the 3rd electric T-shaped valve 7 through the port f of the second electric T-shaped valve 6,Flow back into internal circulation pump 5 by the port h of the 3rd electric T-shaped valve 7 again, form a quick cooling recirculation system;
Under sub-cooled state: cooling-water machine 3 is worked, the medium in pipeline is carried out cooling, cooled JieMatter enters internal circulation pump 5 by the flow through port b of the first electric T-shaped valve 4 of the port c of the first electric T-shaped valve 4,5 outlets by internal circulation pump flow to machine heating cooling body 1, machine heating cooling body 1 is carried out cooling, streamMedium after machine heating cooling body 1 via the port d of the second electric T-shaped valve 6 through the second electric three passesThe port f of valve 6 flow to the port g of the 3rd electric T-shaped valve 7, then by the port i of the 3rd electric T-shaped valve 7Flow out to the port j of the 4th electric T-shaped valve 8, finally flow back into cold by the port l of the 4th electric T-shaped valve 8In water machine 3, form a sub-cooled circulatory system.
Above embodiment has just set forth general principle of the present utility model and characteristic, and the utility model is not subject toState embodiment restriction, do not departing under the prerequisite of the utility model spirit and scope, the utility model also has eachPlant and change and change, these variations and change all fall within the scope of claimed the utility model. This practicalityNovel claimed scope is defined by appending claims and equivalent thereof.
Claims (5)
1. a super high-temp. energy-saving heating and cooling system, is characterized in that: comprise machine heating cooling body, JieMatter heater, medium cooling device, cooling heat exchanger, the first electric T-shaped valve, the second electric T-shaped valve,The 3rd electric T-shaped valve, the 4th electric T-shaped valve, the outlet of described medium heating device and the first electric three passesThe port a of valve is connected, and the port b of described the first electric T-shaped valve is connected with the import of internal circulation pump, and theThe port c of one electric T-shaped valve is connected with the outlet of medium cooling device, and the import department of described internal circulation pump establishesBe equipped with expansion slot, and the import of the outlet of internal circulation pump and machine heating cooling body is connected, described machine heatsThe outlet of cooling body is connected with the port d of the second electric T-shaped valve, the port e of described the second electric T-shaped valveBe connected with one end of cooling heat exchanger, the outlet of the other end of described cooling heat exchanger and machine heating cooling bodyBe connected, the port f of described the second electric T-shaped valve is connected with the port g of the 3rd electric T-shaped valve, and described theThe port h of three electric T-shaped valves is connected with the import of internal circulation pump, and the port i of the 3rd electric T-shaped valve withThe port j of the 4th electric T-shaped valve is connected, port k and the medium heating device of described the 4th electric T-shaped valveAnswer back connectedly, and the port l of the 4th electric T-shaped valve is connected with answering back of medium cooling device.
2. super high-temp. energy-saving heating and cooling system according to claim 1, is characterized in that: institute gives an account ofMatter heater is electric furnace.
3. super high-temp. energy-saving heating and cooling system according to claim 1, is characterized in that: institute gives an account ofMatter cooling device is cooling-water machine.
4. super high-temp. energy-saving heating and cooling system according to claim 1, is characterized in that: described coldBut heat exchanger comprises snake pipe, and the outer setting of described snake pipe has water atomizer(-iser), and snake pipeThe steam that outer setting has the device atomization that makes water fogging to go out is drawn to the air-introduced machine on snake pipe.
5. super high-temp. energy-saving heating and cooling system according to claim 1, is characterized in that: describedOn the pipeline that the port f of two electric T-shaped valves is connected with the port g of the 3rd electric T-shaped valve, being provided with temperature passesSensor.
Priority Applications (1)
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CN201520972779.3U CN205255582U (en) | 2015-11-30 | 2015-11-30 | Energy -conserving heating cooling system of ultra -temperature |
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CN201520972779.3U CN205255582U (en) | 2015-11-30 | 2015-11-30 | Energy -conserving heating cooling system of ultra -temperature |
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CN201520972779.3U Withdrawn - After Issue CN205255582U (en) | 2015-11-30 | 2015-11-30 | Energy -conserving heating cooling system of ultra -temperature |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105313372A (en) * | 2015-11-30 | 2016-02-10 | 无锡锦和科技有限公司 | Superhigh-temperature energy-saving heating and cooling system |
-
2015
- 2015-11-30 CN CN201520972779.3U patent/CN205255582U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105313372A (en) * | 2015-11-30 | 2016-02-10 | 无锡锦和科技有限公司 | Superhigh-temperature energy-saving heating and cooling system |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20160525 Effective date of abandoning: 20170329 |