CN106693410A - Liquid evaporation control system based on hydroelectric heat exchange - Google Patents
Liquid evaporation control system based on hydroelectric heat exchange Download PDFInfo
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- CN106693410A CN106693410A CN201510794445.6A CN201510794445A CN106693410A CN 106693410 A CN106693410 A CN 106693410A CN 201510794445 A CN201510794445 A CN 201510794445A CN 106693410 A CN106693410 A CN 106693410A
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- housing
- gas
- liquid
- separation chamber
- shell
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D1/00—Evaporating
- B01D1/0082—Regulation; Control
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- Chemical Kinetics & Catalysis (AREA)
- Heat Treatment Of Water, Waste Water Or Sewage (AREA)
Abstract
The invention discloses a liquid evaporation control system based on hydroelectric heat exchange. The liquid evaporation control system based on hydroelectric heat exchange comprises a seal shell with hollowed interior, wherein the shell is internally provided with a heat exchange tube, the top end of a gas-liquid separation chamber is provided with a gas outlet tube, the gas outlet tube is provided with a pressure gauge, a relief valve and a pressure regulator; the shell is internally provided with a water bath trough connected with an electric heater; the heat exchange tube is internally provided with a thermocouple; the shell is externally provided with an electric control tank and a junction box; the electric control tank is connected with the electric heater; the shell is internally provided with a level controller; the heat exchange tube is provided with a feed liquid electromagnetic valve and a liquid phase filter; the feed liquid electromagnetic valve, the thermocouple and the level controller are all connected with the junction box; the outer wall of the shell is provided with a water level gauge; the outer wall of the shell is fixedly provided with a temperature displayer; the shell is internally provided with a temperature probe. The system is capable of feeding back a heating gasification process in time, facilitating judgment by operation personnel, furthermore greatly improving the heating gasification efficiency, shortening the period and saving energy sources.
Description
Technical field
The present invention relates to a kind of system, more particularly, to a kind of liquid evaporation control system of water power heat exchange.
Background technology
Electrical heating is at present to metal material efficiency of heating surface highest, fastest, the induction heating equipment of low-loss and energy-saving environment-friendly type.Electrical heating, also known as high frequency heating machine, HF induction heating apparatus, high-frequency induction heating apparatus, high-frequency heating power, high frequency electric source, high frequency furnace.High-frequency welder, high frequency sensing heating machine, high frequency sensing heater (soldering apparatus) etc., in addition also Intermediate Frequency Induction Heating Equipment, superelevation frequency induction heating equipment etc..Range of application is quite varied.Heat energy is converted electric energy into heat object.It is a kind of form of utilization of power.Compared with general fuel is heated, electrical heating can obtain higher temperature (such as electric arc heated, temperature is up to more than 3000 DEG C), it is easy to accomplish temperature is automatically controlled and far distance controlled, vehicle-mounted electric-heating cup.Heating object can be on demand set to keep certain Temperature Distribution.Electrical heating can inside heating object direct heat, thus the thermal efficiency is high, and programming rate is fast, and can according to the technological requirement of heating, realize overall uniform heating or it is local plus(Including surface heating), easily realize heating in vacuum and control atmosphere heating.During electrical heating, the waste gas of generation, residue and flue dust are few, can keep the cleaning of heating object, free from environmental pollution.Therefore, electrical heating is widely used in the fields such as production, scientific research and experiment.The aspects such as manufacture, machine components and surface hardening, the melting of ferroalloy and the manufacture of Delanium particularly in monocrystalline and transistor, all using Electric heating.According to the difference of electric energy conversion regime, electrical heating is generally divided into resistance heating, sensing heating, electric arc heated, electron beam heating, infrared heating and medium heating etc..The complex structure of existing electric heating gasification structure, and transformation efficiency is low during heating and gasifying, wastes the energy, it is impossible to meet factory needing.
The content of the invention
Complex structure it is an object of the invention to overcome above-mentioned existing electric heating gasification structure, and transformation efficiency is low during heating and gasifying, waste the energy, for the problem that internal state can not be fed back in time, devise a kind of liquid evaporation control system of water power heat exchange, the system can in time be fed back to the process of heating and gasifying, operating personnel are facilitated to judge, and the efficiency of heating and gasifying can be greatly improved, shorten the cycle, energy saving, solve the complex structure of existing electric heating gasification structure, and transformation efficiency is low during heating and gasifying, waste the energy, for the problem that internal state can not be fed back in time.
The purpose of the present invention is achieved through the following technical solutions:A kind of liquid evaporation control system of water power heat exchange, seal casinghousing including inner hollow, heat-exchange tube is provided with the housing, heat-exchange tube is bent into disk-like structure, one end of heat-exchange tube is arranged on hull outside through housing, the other end is communicated with gas-liquid separation chamber, the bottom of gas-liquid separation chamber is set in the housing, gas-liquid separation chamber is arranged in the disk-like structure of heat-exchange tube formation, the top of gas-liquid separation chamber is provided with escaping pipe, escaping pipe one end connects with the top of gas-liquid separation chamber, the other end is arranged on the outside of housing, escaping pipe is arranged on and pressure gauge is provided with one end of hull outside, safety valve and pressure regulator, safety valve is arranged between pressure gauge and pressure regulator, pressure gauge is arranged between safety valve and gas-liquid separation chamber;Water bath is provided with the housing, water bath is arranged on the lower section of gas-liquid separation chamber, and water bath is connected with electric heater, and electric heater is arranged on hull outside and is fixed on the outer wall of housing;Thermocouple is provided with the disk-like structure that the heat-exchange tube is formed, the bottom insertion of thermocouple is in the housing;The hull outside is provided with electric control box and terminal box, and electric control box and terminal box are connected with each other, electric control box and with electric heater connect, water level controller is provided with housing, heat-exchange tube is arranged on one end of hull outside and is provided with liquid inlet electromagnetic valve and liquid filtration device, and liquid inlet electromagnetic valve, thermocouple and water level controller are connected with terminal box;The housing exterior walls are provided with water-level gauge;The housing exterior walls are fixed with temperature indicator, and hygrosensor is provided with housing, and hygrosensor is connected with temperature indicator.
The hull outside is provided with drainpipe, and drainpipe is connected with enclosure interior;Overflow pipe is provided with the housing, overflow pipe is connected with enclosure interior, and one end that overflow pipe is connected with enclosure interior is near the top of housing.
Blow-off pipe is provided with the gas-liquid separation chamber, one end of blow-off pipe is arranged on hull outside.
In sum, the beneficial effects of the invention are as follows:The system can in time be fed back to the process of heating and gasifying, operating personnel are facilitated to judge, and the efficiency of heating and gasifying can be greatly improved, shorten the cycle, energy saving, solves the complex structure of existing electric heating gasification structure, and transformation efficiency is low during heating and gasifying, the energy is wasted, for the problem that internal state can not be fed back in time.
Brief description of the drawings
Fig. 1 is structural representation of the invention.
Mark and corresponding parts title in accompanying drawing:1-liquid filtration device;2-liquid inlet electromagnetic valve;3-thermocouple;4-pressure gauge;5-safety valve;6-pressure regulator;7-electric control box;8-terminal box;9-water level controller;10-blow-off pipe;11-electric heater;12-overflow pipe;13-drainpipe;14-housing;15-water bath;16-temperature indicator;17-gas-liquid separation chamber;18-heat-exchange tube;19-water-level gauge;20-hygrosensor;21-escaping pipe.
Specific embodiment
With reference to embodiment and accompanying drawing, the present invention is described in further detail, but embodiments of the present invention are not limited only to this.
Embodiment:
As shown in Figure 1,A kind of liquid evaporation control system of water power heat exchange,Seal casinghousing 14 including inner hollow,Heat-exchange tube 18 is provided with the housing 14,Heat-exchange tube 18 is bent into disk-like structure,One end of heat-exchange tube 18 is arranged on outside housing 14 through housing 14,The other end is communicated with gas-liquid separation chamber 17,The bottom of gas-liquid separation chamber 17 is arranged in housing 14,Gas-liquid separation chamber 17 is arranged in the disk-like structure of the formation of heat-exchange tube 18,The top of gas-liquid separation chamber 17 is provided with escaping pipe 21,The one end of escaping pipe 21 connects with the top of gas-liquid separation chamber 17,The other end is arranged on the outside of housing 14,Escaping pipe 21 is arranged on and pressure gauge 4 is provided with the one end outside housing 14,Safety valve 5 and pressure regulator 6,Safety valve 5 is arranged between pressure gauge 4 and pressure regulator 6,Pressure gauge 4 is arranged between safety valve 5 and gas-liquid separation chamber 17;Water bath 15 is provided with the housing 14, water bath 15 is arranged on the lower section of gas-liquid separation chamber 17, and water bath 15 is connected with electric heater 11, and electric heater 11 is arranged on the outside of housing 14 and is fixed on the outer wall of housing 14;Thermocouple 3 is provided with the disk-like structure that the heat-exchange tube 18 is formed, the bottom of thermocouple 3 is inserted in housing 14;Electric control box 7 and terminal box 8 are provided with outside the housing 14, and electric control box 7 and terminal box 8 are connected with each other, electric control box 7 and connected with electric heater 11, water level controller 9 is provided with housing 14, heat-exchange tube 18 is arranged on the one end outside housing 14 and is provided with liquid inlet electromagnetic valve 2 and liquid filtration device 1, and liquid inlet electromagnetic valve 2, thermocouple 3 and water level controller 9 are connected with terminal box 8;The outer wall of the housing 14 is provided with water-level gauge 19;The outer wall of the housing 14 is fixed with temperature indicator 16, and hygrosensor 20 is provided with housing 14, and hygrosensor 20 is connected with temperature indicator 16;Drainpipe 13 is provided with outside the housing 14, and drainpipe 13 is connected with the inside of housing 14;Overflow pipe 12 is provided with the housing 14, overflow pipe 12 is connected with the inside of housing 14, and one end that overflow pipe 12 is connected with the inside of housing 14 is near the top of housing 14;Blow-off pipe 10 is provided with the gas-liquid separation chamber 17, one end of blow-off pipe 10 is arranged on outside housing 14.
In the technical program, electric control box 7 and terminal box 8 are all existing structures, heating and gasifying process is controlled by them, convenient operation, security is improved simultaneously, before the heat-exchange tube 18 that liquid enters in housing 14, filtered by liquid filtration device 1, impurity treatment therein is clean, after liquid inlet electromagnetic valve 2 experiences liquid to be entered, just signal is transported in terminal box 8, so that the control anti-explosion electric heater 11 of electric control box 7 and thermocouple 3 proceed by heating, heat-exchange tube 18 swaps heat, so that liquid gasification, substantially increase operating efficiency, reduce the middle stand-by period.Liquid after gasification is separated in gas-liquid separation chamber 17,Gas is transported to the place of needs by escaping pipe 21,During gas transmission out,It is adjusted for the atmospheric pressure value that escaping pipe 21 is exported by safety valve 5 and pressure regulator 6,So that reaching rational numerical value,Subsequent use can directly be carried out,Shorten pilot process,After after work for a period of time,When cleaning is needed in gas-liquid separation chamber 17,Sewage treatment is carried out by blow-off pipe 10,And the water in housing 14 is then discharged by drainpipe 13,Overflow pipe 12 be prevent water level in housing 14 too it is high cause internal pressure excessive and design water is discharged,Limit its peak level,Water-level gauge 19 and hygrosensor 20 are that water level and temperature are monitored,In the timely feedback temperature display 16 of numerical value that hygrosensor 20 will be detected,It is easy to operating personnel to check,It is adjusted according to temperature change,Ensure the water level in housing 14 with temperature in rational scope,What is gasified is in hgher efficiency.
The system can in time be fed back to the process of heating and gasifying, operating personnel are facilitated to judge, and the efficiency of heating and gasifying can be greatly improved, shorten the cycle, energy saving, solves the complex structure of existing electric heating gasification structure, and transformation efficiency is low during heating and gasifying, the energy is wasted, for the problem that internal state can not be fed back in time.
The above; only it is presently preferred embodiments of the present invention; any formal limitation is not done to the present invention, every any simple modification, equivalent variations substantially made to above example according to technology of the invention, method are each fallen within protection scope of the present invention.
Claims (3)
1. the liquid evaporation control system that a kind of water power exchanges heat, it is characterised in that:Seal casinghousing including inner hollow(14), the housing(14)In be provided with heat-exchange tube(18), heat-exchange tube(18)It is bent into disk-like structure, heat-exchange tube(18)One end pass through housing(14)It is arranged on housing(14)Outside, the other end is communicated with gas-liquid separation chamber(17), gas-liquid separation chamber(17)Bottom be arranged on housing(14)In, gas-liquid separation chamber(17)It is arranged on heat-exchange tube(18)In the disk-like structure of formation, gas-liquid separation chamber(17)Top be provided with escaping pipe(21), escaping pipe(21)One end and gas-liquid separation chamber(17)Top connection, the other end is arranged on housing(14)Outside, escaping pipe(21)It is arranged on housing(14)Pressure gauge is provided with outside one end(4), safety valve(5)And pressure regulator(6), safety valve(5)It is arranged on pressure gauge(4)And pressure regulator(6)Between, pressure gauge(4)It is arranged on safety valve(5)And gas-liquid separation chamber(17)Between;The housing(14)In be provided with water bath(15), water bath(15)It is arranged on gas-liquid separation chamber(17)Lower section, water bath(15)It is connected with electric heater(11), and electric heater(11)It is arranged on housing(14)Outside is simultaneously fixed on housing(14)Outer wall on;The heat-exchange tube(18)Thermocouple is provided with the disk-like structure of formation(3), thermocouple(3)Bottom be inserted in housing(14)In;The housing(14)Outside is provided with electric control box(7)And terminal box(8), and electric control box(7)And terminal box(8)It is connected with each other, electric control box(7)With and electric heater(11)Connection, housing(14)In be provided with water level controller(9), heat-exchange tube(18)It is arranged on housing(14)Liquid inlet electromagnetic valve is provided with outside one end(2)With liquid filtration device(1), liquid inlet electromagnetic valve(2), thermocouple(3)And water level controller(9)And terminal box(8)Connection;The housing(14)Outer wall is provided with water-level gauge(19);The housing(14)Outer wall is fixed with temperature indicator(16), housing(14)In be provided with hygrosensor(20), and hygrosensor(20)With temperature indicator(16)Connection.
2. the liquid evaporation control system that a kind of water power according to claim 1 exchanges heat, it is characterised in that:The housing(14)Outside is provided with drainpipe(13), and drainpipe(13)With housing(14)Inside connection;The housing(14)In be provided with overflow pipe(12), overflow pipe(12)With housing(14)Inside connection, and overflow pipe(12)With housing(14)One end of inside connection is near housing(14)Top.
3. the liquid evaporation control system that a kind of water power according to claim 1 exchanges heat, it is characterised in that:The gas-liquid separation chamber(17)In be provided with blow-off pipe(10), blow-off pipe(10)One end be arranged on housing(14)It is outside.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510794445.6A CN106693410A (en) | 2015-11-17 | 2015-11-17 | Liquid evaporation control system based on hydroelectric heat exchange |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510794445.6A CN106693410A (en) | 2015-11-17 | 2015-11-17 | Liquid evaporation control system based on hydroelectric heat exchange |
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CN106693410A true CN106693410A (en) | 2017-05-24 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201510794445.6A Pending CN106693410A (en) | 2015-11-17 | 2015-11-17 | Liquid evaporation control system based on hydroelectric heat exchange |
Country Status (1)
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CN (1) | CN106693410A (en) |
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2015
- 2015-11-17 CN CN201510794445.6A patent/CN106693410A/en active Pending
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Application publication date: 20170524 |