CN106196567A - heat energy water circulation system - Google Patents
heat energy water circulation system Download PDFInfo
- Publication number
- CN106196567A CN106196567A CN201610666165.1A CN201610666165A CN106196567A CN 106196567 A CN106196567 A CN 106196567A CN 201610666165 A CN201610666165 A CN 201610666165A CN 106196567 A CN106196567 A CN 106196567A
- Authority
- CN
- China
- Prior art keywords
- water
- heat container
- heat
- container
- connecting tube
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H1/00—Water heaters, e.g. boilers, continuous-flow heaters or water-storage heaters
- F24H1/10—Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium
- F24H1/12—Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium in which the water is kept separate from the heating medium
- F24H1/121—Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium in which the water is kept separate from the heating medium using electric energy supply
- F24H1/122—Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium in which the water is kept separate from the heating medium using electric energy supply combined with storage tank
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D13/00—Electric heating systems
- F24D13/04—Electric heating systems using electric heating of heat-transfer fluid in separate units of the system
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D19/00—Details
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D19/00—Details
- F24D19/10—Arrangement or mounting of control or safety devices
- F24D19/1006—Arrangement or mounting of control or safety devices for water heating systems
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H9/00—Details
- F24H9/0005—Details for water heaters
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H9/00—Details
- F24H9/18—Arrangement or mounting of grates or heating means
- F24H9/1809—Arrangement or mounting of grates or heating means for water heaters
- F24H9/1818—Arrangement or mounting of electric heating means
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H9/00—Details
- F24H9/20—Arrangement or mounting of control or safety devices
- F24H9/2007—Arrangement or mounting of control or safety devices for water heaters
- F24H9/2014—Arrangement or mounting of control or safety devices for water heaters using electrical energy supply
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H9/00—Details
- F24H9/20—Arrangement or mounting of control or safety devices
- F24H9/2007—Arrangement or mounting of control or safety devices for water heaters
- F24H9/2014—Arrangement or mounting of control or safety devices for water heaters using electrical energy supply
- F24H9/2028—Continuous-flow heaters
Landscapes
- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Steam Or Hot-Water Central Heating Systems (AREA)
- Thermotherapy And Cooling Therapy Devices (AREA)
Abstract
The present invention relates to a kind of heat energy water circulation system utilizing water vapour promotion water to circulate heat transfer.Purpose be to provide a kind of when add heat container internal memory leave a blank gas time, it is possible to be automatically drained out gas, and can the heat energy water circulation system of the hydrothermal blanket of heated water re-circulation's heat transfer, pad, a heatable brick bed plate, thermotherapy product etc..Adding heat container to communicate with water outlet connecting tube, water outlet connecting tube communicates with radiating tube again, and radiating tube communicates with water inlet connecting tube again, and water inlet connecting tube communicates with storage tank again, and storage tank is communicated with adding heat container by backwater connecting tube, backwater check valve;It is characterized in that: also include water pump, this water pump and described storage tank, the water route adding heat container are connected;Leaving a blank the anhydrous dry combustion method of gas when adding heat container internal memory, when heating vessel temp rises to more than 100 DEG C, starting mode of pump works, is supplied to add in heat container by water, and heating vessel temp declines, and water pump quits work.
Description
Technical field
The present invention relates to a kind of heat energy water circulation system utilizing water vapour promotion water to circulate heat transfer, particularly to water
Hot blanket, pad, bedding, case, bag, clothing, shoes and hats, tippet, waist support, rib, elbow support, wrister, legging, knee cap, spats ankle, hydro-thermal is treated
Case, water heat treatment bag, hydro-thermal treat blanket, pad, heater using water heating, Water-heating bed, hydro-thermal bed board, hydro-thermal a heatable brick bed, hot-water heating a heatable brick bed plate, hydro-thermal floor heating,
The heat energy water circulation system such as hydro-thermal floor, hydro-thermal ground, hydro-thermal wall.
Background technology
China Patent No.: 201110200320.8, publication No.: CN102865619A, date of publication: 2013.01.09, invention
Creation title: thermal energy water self-circulation system.During this patent uses, during water filling, add the air in heat container and can remain in and add
In heat container, being artificially difficult to discharge it, if not discharging the air adding in heat container, just cannot start work;It addition, work
During, once add and suck air in heat container, cannot backwater, circulate work.
Summary of the invention
It is an object of the present invention to provide a kind of when add heat container internal memory leave a blank gas time, it is possible to be automatically drained out gas, and can add
Hot water circuit heat transfer hydrothermal blanket, pad, bedding, case, bag, clothing, shoes and hats, tippet, waist support, rib, elbow support, wrister, legging, protect
Knee joint, spats ankle, hydro-thermal treats case, water heat treatment bag, hydro-thermal treatment blanket, pad, heater using water heating, Water-heating bed, hydro-thermal a heatable brick bed, hot-water heating a heatable brick bed plate, water
The thermally heat energy water circulation system such as warm, hydro-thermal floor, hydro-thermal ground, hydro-thermal wall.
Technical solution of the present invention, including: storage tank, adds heat container, heating, backwater connecting tube, backwater check valve, goes out
Water connecting tube, water inlet connecting tube, radiator, radiating tube;Radiator combines with radiating tube;Heating is tied mutually with adding heat container
Close, form electric-heating container;Adding heat container to communicate with water outlet connecting tube, water outlet connecting tube communicates with radiating tube again, and radiating tube is again
Communicating with water inlet connecting tube, water inlet connecting tube communicates with storage tank again, and storage tank is by backwater connecting tube, backwater check valve and adds
Heat container communicates;It is characterized in that: also include water pump, this water pump and described storage tank, the water route adding heat container are connected;When adding
The anhydrous dry combustion method of trapped air in heat container, when heating vessel temp rises to more than 100 DEG C, starting mode of pump works, is supplied to add by water
In heat container, heating vessel temp declines, and water pump quits work.
When using first, water filling in storage tank, in adding heat container, full air can not be discharged or use process is worked as
In, sucking air in adding heat container, it is impossible to during backwater, heating will add heat container heating, and heating vessel temp rises to 100 DEG C
Time above, starting mode of pump works, and is supplied to add in heat container by the water in storage tank, enters and adds the water in heat container and seethe with excitement rapidly product
After producing water vapor expands (making backwater closed check valve) and mixes with its interior air, quickly enter water outlet connecting tube, heat radiation
Pipe, water inlet connecting tube flow in storage tank, and air enters in storage tank, discharges to air, and the water produced in adding heat container steams
Steam and heat sinking, liquefaction, volume-diminished, produce resorption power (backwater check valve is opened), the water in storage tank is sucked and adds thermal capacitance
In device, heating vessel temp declines, and water pump quits work, and then adds heat container and continues to heat its interior water producing water vapor swollen
Swollen, backwater closed check valve simultaneously, water vapour promotes the water adding in heat container to be connected by water outlet connecting tube, radiating tube, water inlet
Pipe flows in storage tank, and the water emptying within adding heat container, water vapour dispels the heat rapidly, liquefaction, and volume diminishes, and produces resorption
Power, due to water outlet connecting tube, radiating tube, the drag effect of water inlet connecting tube, backwater check valve is opened, is led to by the water in storage tank
Cross backwater connecting tube, backwater check valve sucks and adds in heat container, so enters circulation duty.
For improving the present invention further, including temperature detect switch (TDS), this temperature detect switch (TDS) be located at described in add on heat container;Described temperature control
Switch is connected in a power with the heating added on heat container;Described water pump is connected with the heating added on heat container
In a power;Described temperature detect switch (TDS) is in parallel with water pump in a power.So, when using first, in storage tank
Water filling, is full of air in adding heat container and can not discharge or in the middle of use process, sucks air, it is impossible to backwater in adding heat container
Time, heating will add heat container heating, and when heating vessel temp rises to more than 100 DEG C, temperature detect switch (TDS) senses and adds heat container
Temperature rise to more than 100 DEG C, self circuit is disconnected by temperature detect switch (TDS), and now, only water pump and electric heater is connected on power supply
In circuit, electric current could pass through water pump, and starting mode of pump works, and is supplied to add in heat container by the water in storage tank, enters and adds thermal capacitance
Water in device seethes with excitement rapidly after producing water vapor expansion (making backwater closed check valve) and mixing with its interior air, enters rapidly
Enter water outlet connecting tube, radiating tube, water inlet connecting tube flow in storage tank, and air enters in storage tank, discharges to air, heating
The water vapour heat radiation produced in container, liquefaction, volume diminishes, and produces resorption power (backwater check valve is opened), by storage tank
Interior water sucks and adds in heat container, and heating vessel temp declines, and self circuit connected by temperature detect switch (TDS), now, due to the electricity of water pump
Hindering, electric current walks around water pump, enters electric heater by temperature detect switch (TDS), forms loop, and water pump quits work, and then adds heat container and continues
Continuous its interior water producing water vapor of heating also expands, backwater closed check valve simultaneously, and water vapour promotes the water adding in heat container to lead to
Cross water outlet connecting tube, radiating tube, water inlet connecting tube flow in storage tank, and the water emptying within adding heat container, water vapour is rapid
Heat radiation, liquefaction, volume diminishes, and produces resorption power, due to water outlet connecting tube, radiating tube, the drag effect of water inlet connecting tube, backwater
Check valve is opened, and is sucked by backwater connecting tube, backwater check valve by the water in storage tank and adds in heat container, so enters circulation
Duty.
For improving the present invention further, including attemperating unit, described attemperating unit is connected with the circuit of water pump;Described temperature control
The temperature of device induction heating vessel;Leaving a blank the anhydrous dry combustion method of gas when adding heat container internal memory, heating vessel temp rises to more than 100 DEG C
Time, described attemperating unit is connected the circuit of water pump, is made starting mode of pump work, be supplied to add in heat container by water;When adding heat container temperature
Degree declines, and described attemperating unit disconnects the circuit of water pump, makes water pump quit work.So, when using first, in storage tank
Water filling, is full of air in adding heat container and can not discharge or in the middle of use process, sucks air, it is impossible to backwater in adding heat container
Time, heating will add heat container heating, and when heating vessel temp and rising to more than 100 DEG C, attemperating unit senses and adds thermal capacitance
The temperature of device rises to more than 100 DEG C, and attemperating unit connects the circuit of water pump, and starting mode of pump works, and is supplied to by the water in storage tank
Add in heat container, enter add the water in heat container rapidly seethe with excitement generation water vapor expansion (making backwater closed check valve) and and its
In air mixing after, quickly enter water outlet connecting tube, radiating tube, water inlet connecting tube flows in storage tank, gas enters and stores up
In water tank, discharging to air, the water vapour heat radiation produced in adding heat container, liquefaction, volume diminishes, and produces resorption power and (makes back
Water one-way valve is opened), the water in storage tank is sucked and adds in heat container, make heating vessel temp decline, attemperating unit senses
The temperature adding heat container declines, and disconnects the circuit of water pump, and water pump quits work, and then adds heat container and continues to heat its interior Aquatic product
Producing water vapor also expands, and makes backwater closed check valve, and water vapour promotes the water adding in heat container by water outlet connecting tube, heat radiation
Pipe, water inlet connecting tube flow in storage tank, the water emptying within adding heat container, and water vapour dispels the heat rapidly, liquefaction, and volume becomes
Little, produce resorption power, due to water outlet connecting tube, radiating tube, the drag effect of water inlet connecting tube, make backwater check valve open, will
Water in storage tank is sucked by backwater connecting tube, backwater check valve and adds in heat container, so enters circulation duty.
For improving the present invention further, described attemperating unit is with temperature sensor;Heating is located in described temperature sensor
On container, the temperature of induction heating vessel;Leaving a blank the anhydrous dry combustion method of gas when adding heat container internal memory, heating vessel temp rises to 100 DEG C
Time above, described attemperating unit connects the circuit of water pump, makes starting mode of pump work, is supplied to add in heat container by water;When adding thermal capacitance
Device temperature declines, and described attemperating unit disconnects the circuit of water pump, makes water pump quit work.So, when using first, to water storage
Water filling in case, is full of air in adding heat container and can not discharge or in the middle of use process, sucks air, it is impossible to return in adding heat container
During water, heating will add heat container heating, and when heating vessel temp and rising to more than 100 DEG C, temperature sensor senses is to adding
The temperature of heat container rises to more than 100 DEG C, and attemperating unit connects the circuit of water pump, and starting mode of pump works, by the water in storage tank
Be supplied to add in heat container, enter add the water in heat container rapidly seethe with excitement generation water vapor expansion (making backwater closed check valve) and
After mixing with its interior air, quickly enter water outlet connecting tube, radiating tube, water inlet connecting tube flow in storage tank, and gas enters
Entering in storage tank, discharge to air, the water vapour heat radiation produced in adding heat container, liquefaction, volume diminishes, and produces resorption power and (makes
Obtain backwater check valve to open), the water in storage tank is sucked and adds in heat container, make heating vessel temp decline, temperature sensor
Sensing that the temperature adding heat container declines, make attemperating unit disconnect the circuit of water pump, water pump quits work, and then adds heat container and continues
Continuous its interior water producing water vapor of heating also expands, and makes backwater closed check valve, and water vapour promotes the water added in heat container to pass through
Water outlet connecting tube, radiating tube, water inlet connecting tube flow in storage tank, and the water emptying within adding heat container, water vapour dissipates rapidly
Heat, liquefaction, volume diminishes, and produces resorption power, due to water outlet connecting tube, radiating tube, the drag effect of water inlet connecting tube, makes backwater
Check valve is opened, and is sucked by backwater connecting tube, backwater check valve by the water in storage tank and adds in heat container, so enters circulation
Duty.
For improving the present invention further, described attemperating unit is temperature control switch, and described attemperating unit and water pump are connected on electricity
In source circuit;Described attemperating unit is located at and is added on heat container, the temperature of induction heating vessel;When add heat container internal memory leave a blank gas without
Water dry combustion method, when heating vessel temp rises to more than 100 DEG C, described attemperating unit is connected the circuit of water pump, is made starting mode of pump work,
It is supplied to add in heat container by water;When heating vessel temp declines, and described attemperating unit disconnects the circuit of water pump, water pump is made to stop work
Make.So, when using first, water filling in storage tank, in adding heat container, full air can not be discharged or use process is worked as
In, sucking air in adding heat container, it is impossible to during backwater, heating will add heat container heating, when heating vessel temp rises to 100
Time more than DEG C, attemperating unit senses that the temperature adding heat container rises to more than 100 DEG C, and attemperating unit connects the circuit of water pump, water
Pump startup works, and is supplied to add in heat container by the water in storage tank, enters and adds the water in heat container and seethe with excitement rapidly generation water vapour
After expanding (making backwater closed check valve) and mixing with its interior air, quickly enter water outlet connecting tube, radiating tube, water inlet even
Adapter is flowed in storage tank, and gas enters in storage tank, discharges to air, the water vapour heat radiation produced in adding heat container, liquid
Changing, volume diminishes, and produces resorption power (backwater check valve is opened), is sucked by the water in storage tank and adds in heat container, makes to add
Heat container temperature declines, and attemperating unit senses that the temperature adding heat container declines, and disconnects the circuit of water pump, and water pump quits work,
Then adding heat container to continue heat its interior water producing water vapor and expand, make backwater closed check valve, water vapour promotes heating
Water in container is flowed in storage tank by water outlet connecting tube, radiating tube, water inlet connecting tube, the water row within adding heat container
Sky, water vapour dispels the heat rapidly, liquefaction, and volume diminishes, and produces resorption power, due to water outlet connecting tube, radiating tube, water inlet connecting tube
Drag effect, makes backwater check valve open, and is sucked by backwater connecting tube, backwater check valve by the water in storage tank and adds heat container
In, so enter circulation duty.
For improving the present invention further, set up water supply chamber, by this water supply chamber, described backwater connecting tube, backwater check valve
Storage tank is connected with adding heat container.So, when heating container work a period of time, when quitting work, produce in adding heat container
In the raw gas that can not be reduced to water enters into water supply chamber and remain in top in water supply chamber;It is again started up work when adding heat container
When making, water vapour heat radiation of producing in it, liquefaction, volume diminishes, and produces resorption power, the gas that top in water supply chamber is retained with
With current or formed bubble by water impact and together suck and add in heat container, meanwhile, also by the water in storage tank in water supply chamber
Suck, suck and add the heated water vapour that produces again of the water in heat container, and promote its interior water and interior can not be reduced to water
Gas enter in storage tank through water outlet connecting tube, radiating tube, water inlet connecting tube, enter and can not be reduced to water in storage tank
Gas is discharged to air, so circulates.So, it is ensured that water supply chamber directly can supply water at any time within adding heat container.
For improving the present invention further, set up feed pipe, by this feed pipe, described water supply chamber is connected with adding heat container
Logical;Described feed pipe one end is stretched in water supply chamber, and the other end is connected with adding heat container;Stretch in water supply chamber at described feed pipe
This section of tube wall be provided with water supply hole.So, when heating container work a period of time, when quitting work, produce in adding heat container
The gas that can not be reduced to water enter into water supply chamber along feed pipe in and remain in top in water supply chamber;When adding heat container again
During secondary startup work, the water vapour produced in it dispels the heat, liquefaction, and volume diminishes, and produces resorption power, is retained top in water supply chamber
Gas by feed pipe suck add in heat container, meanwhile, the water retained below water supply chamber, by water supply hole, feed pipe
Suck within adding heat container, and also the water in storage tank sucked in water supply chamber, suction add the water in heat container again by
Heating produces water vapour, and promotes its interior water and the interior gas of water that can not be reduced to thereof through water outlet connecting tube, radiating tube, water inlet
Connecting tube enters in storage tank, and the gas that can not be reduced to water entered in storage tank is discharged to air, so circulates.So,
Ensure that water supply chamber can pass through water supply hole at any time, feed pipe directly supplies water within adding heat container.
For improving the present invention further, set the second backwater at described water pump on the water route communicated between heat container be connected with adding
Pipe, and sets the second backwater check valve thereon, by the second backwater connecting tube, the second backwater check valve by described storage tank with add
Heat container is connected.As such, it is possible to preferably the water in storage tank is sucked within adding heat container by the second backwater connecting tube,
And when water pump is in time adding water supply in heat container, the second backwater closed check valve, prevent water from entering in storage tank.
For improving the present invention further, set up steam pipe in described adding between heat container and water outlet connecting tube.So, water steams
Vapour can enter in steam pipe, and the gas that can not be reduced to water produced when adding hot water is carried and remained in steam pipe, under
Taken away in entrance storage tank by current during secondary circulation, discharge to air.
For improving the present invention further, add between heat container and storage tank by water outlet connecting tube, radiating tube, water inlet described
On the path that connecting tube is connected to form, water one-way valve is set up out in optional position.So, when backwater, water outlet closed check valve, keep away
Exempt from effluent recycling, thus realize more preferable backwater.
For improving the present invention further, also include energy storage heat exchanger, in it, be provided with heat exchanger channels;Described heating lower vessel portion
It is connected with the heat exchanger channels in energy storage heat exchanger, comes from the water and steam adding in heat container by energy storage heat exchanger
Heat exchanger channels carries out heat exchange;Described heat exchanger channels is connected with water outlet connecting tube one end again, make described in add heat container by changing
The passage of heat is connected with water outlet connecting tube;Described energy storage heat exchanger is metal derby, inside sets heat exchanger channels and is formed;Described heating
It is located at heating container side wall.So, heating container side wall is heated by heating, makes a small amount of water in water body side adding in heat container
Fast boiling produces water vapour and rises (in now adding heat container, water body internal temperature is relatively low) along sidewall and expand, water vapour
Promote rapidly and add the water in heat container and from top to bottom move and enter in energy storage heat exchanger and (add the water of lower temperature in heat container to enter
Carry out heat exchange in entering energy storage heat exchanger, make the energy storage heat exchanger temperature consistent with leaving water temperature), the water row within adding heat container
After sky, add a small amount of water speckled with in heated wall in heat container and also become water vapour subsequently also in energy storage heat exchanger, and with storage
Can carry out heat exchange by heat exchanger, water vapour discharges heat, and meanwhile, energy storage heat exchanger sucks this heat and stores, when returning
During water, back into the water in energy storage heat exchanger make again energy storage heat exchanger temperature reduce (heat energy is released in water by energy storage heat exchanger
Put), when the next time of water outlet again, carry out the water of lower temperature in self-heating container through energy storage heat exchanger, energy storage heat exchanger is again
Being discharged in water by heat energy, energy storage heat exchanger temperature reduced further, the steam in self-heating container enters accumulation of energy subsequently
Heat exchanger, then carry out heat exchange with energy storage heat exchanger, water vapour release heat, energy storage heat exchanger absorbs the heat of water vapour, makes
Water vapour liquefies.So, the water vapour in energy storage heat exchanger is directly liquefied, and is held by energy storage heat exchanger self-heating in the future
Water vapour in device, water, carry out heat exchange, and energy storage heat exchanger outwardly dispels the heat simultaneously, thus keeps long lasting for constantly
Resorption power, sucks in the entrance of substantial amounts of cold water adds heat container and mixes with the water vapour adding in heat container, making to add in heat container
Water vapour all liquefies, and produces huge suction, it is achieved completely backwater, so so that it is can well backwater, water cycle efficieny height.
In above-mentioned cyclic process, entering into the water vapour in energy storage heat exchanger and carry out heat exchange therewith, accumulation of energy simultaneously is changed
Hot device outwardly dispels the heat, and energy storage heat exchanger constantly absorbs substantial amounts of heat, and water vapour constantly discharges substantial amounts of heat, makes
Water vapour constantly liquefies, and volume diminishes, the long-time resorption power that constantly generation is bigger, makes water the most constantly suck and adds thermal capacitance
In device, and mix with its interior water vapour, make water vapour all liquefy, it is achieved completely backwater so that it is can good backwater.This
Sample, backwater amount is big, and water yield is also big, makes water circulation quantitative change big, in hgher efficiency.
For improving the present invention further, described feed pipe internal diameter is 2mm-6mm.So, the water vapour within adding heat container
When promoting water flowing, the water in feed pipe is under surface tension and drag effect, and the water in water supply chamber is now (due to the time relatively
Short) can not add in heat container by feed pipe inflow, when adding generation suction in heat container, the water in water supply chamber is again by this confession
Water pipe sucks and adds in heat container.
For improving the present invention further, the water supply hole on described water supply tube wall, its aperture is 2.5mm-4mm.So, water is made
It is easy to be entered by water supply hole, feed pipe add in heat container, and this hole has certain resistance, is retained top in water supply chamber
Gas by feed pipe suck add in heat container.
The present invention because of use water pump to have air dry-fire condition add heat container in supply water, make to add in heat container rapidly
Produce water vapor expansion and mix with its interior air, thus discharging and add the gas that heat container internal memory stays, it is not necessary to human intervention,
Thoroughly solve water filling, exhausting problem so that it is more practicality.So, these properties of product are promoted further so that it is be more easy to promote
Universal.
Accompanying drawing explanation
Fig. 1-9 is embodiment of the present invention structural representation.Wherein:
Fig. 4 is a kind of circuit diagram of temperature detect switch (TDS) of the present invention, water pump, electric-heating container.
Fig. 9 is radiator of the present invention when being blanket, pad, bedding body, radiating tube one arrangement figure.
In Fig. 1-9, arrow show water movement and check valve direction.
Detailed description of the invention
Shown in Fig. 1-9, storage tank 1 communicates with air;Radiating tube 10 is set in radiator 8;Heating 5 with add heat container 6
Combine, form electric-heating container;Adding heat container 6 to communicate with water outlet connecting tube 9, water outlet connecting tube 9 communicates with radiating tube 10 again,
Radiating tube 10 communicates with water inlet connecting tube 11 again, and water inlet connecting tube 11 communicates with storage tank 1 again, and storage tank 1 is connected by backwater
Pipe 15, backwater check valve 2 communicate with adding heat container 6;Also include water pump 23, this water pump 23 and storage tank 1, the water adding heat container 6
Road is connected;The anhydrous dry combustion method of trapped air within adding heat container 6, adds heat container 6 temperature when rising to more than 100 DEG C, and water pump 23 opens
Starting building to make, be supplied to water add in heat container 6, add heat container 6 temperature and decline, water pump 23 quits work.
When using first, water filling in storage tank 1, it is full of air in adding heat container 6 and can not discharge or use process
In the middle of, suck air in adding heat container 6, it is impossible to during backwater, heating 5 will add heat container 6 and heat, and add heat container 6 temperature liter
During to more than 100 DEG C, water pump 23 starts work, is supplied to add in heat container 6 by the water in storage tank 1, enters and adds in heat container 6
Water seethes with excitement rapidly after producing water vapor expansion (backwater check valve 2 is closed) and mixing with its interior air, quickly enters out
Water connecting tube 9, radiating tube 10, water inlet connecting tube 11 flow in storage tank 1, and air enters in storage tank 1, discharges to air,
The water vapour heat radiation produced in adding heat container 6, liquefaction, volume-diminished, produce resorption power (backwater check valve 2 is opened), will
Water in storage tank 1 sucks and adds in heat container 6, adds heat container 6 temperature and declines, and water pump 23 quits work, and then adds heat container 6 and continues
Continuous its interior water producing water vapor of heating also expands, and backwater check valve 2 is closed simultaneously, and water vapour promotes and adds the water in heat container 6
Flowed in storage tank 1 by water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11, the water emptying within adding heat container 6, water
Steam dispels the heat rapidly, liquefaction, and volume diminishes, and produces resorption power, due to water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11
Drag effect, backwater check valve 2 is opened, and by backwater connecting tube 15, backwater check valve 2, the water in storage tank 1 is sucked heating
In container 6, so enter circulation duty.
Electric-heating container in Fig. 4 by heating 5 with add heat container 6 and combine and formed.In conjunction with Fig. 1-3, temperature
Control switch 26 is located at and is added on heat container 6;Temperature detect switch (TDS) 26 is connected in a power with the heating 5 added on heat container 6;Water
Pump 23 is connected in a power with the heating 5 added on heat container 6;Temperature detect switch (TDS) 26 and water pump 23 are connected in parallel on power circuit
In.So, when using first, water filling in storage tank 1, it is full of air in adding heat container 6 and can not discharge or use process
In the middle of, suck air in adding heat container 6, it is impossible to during backwater, heating 5 will add heat container 6 and heat, and add heat container 6 temperature liter
During to more than 100 DEG C, temperature detect switch (TDS) 26 senses that the temperature adding heat container 6 rises to more than 100 DEG C, and temperature detect switch (TDS) 26 is by self electricity
Road disconnects, and now, only water pump 23 is connected in a power with electric heater, and electric current could pass through water pump 23, and water pump 23 opens
Start building make, be supplied to add in heat container 6 by the water in storage tank 1, enter add the water in heat container 6 rapidly seethe with excitement generation water vapour swollen
Swollen (backwater check valve 2 is closed) after mixing with its interior air, quickly enters water outlet connecting tube 9, radiating tube 10, water inlet
Connecting tube 11 flows in storage tank 1, and gas enters in storage tank 1, discharges to air, the water vapour produced in adding heat container 6
Heat radiation, liquefaction, volume diminishes, and produces resorption power (backwater check valve 2 is opened), is sucked by the water in storage tank 1 and adds thermal capacitance
In device 6, adding heat container 6 temperature and decline, self circuit connected by temperature detect switch (TDS) 26, and now, due to the resistance of water pump 23, electric current is walked around
Water pump 23, enters electric heater by temperature detect switch (TDS) 26, forms loop, and water pump 23 quits work, and then adds heat container 6 and continues to add
The water producing water vapor of Re Qinei also expands, and backwater check valve 2 is closed simultaneously, and water vapour promotes the water added in heat container 6 to pass through
Water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11 flow in storage tank 1, the water emptying within adding heat container 6, water vapour
Heat radiation rapidly, liquefaction, volume diminishes, and produces resorption power, due to water outlet connecting tube 9, radiating tube 10, the resistance of water inlet connecting tube 11
Effect, backwater check valve 2 is opened, by the water in storage tank 1 by water pump 23, backwater connecting tube 15, backwater check valve 2, second
Backwater connecting tube the 24, second backwater check valve 25 sucks and adds in heat container 6, so enters circulation duty.
Shown in Fig. 5-8, attemperating unit 28 is connected with the circuit of water pump 23;The temperature of attemperating unit 28 induction heating vessel 6;
The anhydrous dry combustion method of trapped air within adding heat container 6, adds heat container 6 temperature when rising to more than 100 DEG C, and attemperating unit 28 connects water pump
The circuit of 23, makes water pump 23 start work, is supplied to water add in heat container 6;Decline when adding heat container 6 temperature, attemperating unit 28
Disconnect the circuit of water pump 23, make water pump 23 quit work.So, when using first, water filling in storage tank 1, add heat container 6
The interior air that is full of can not be discharged or in the middle of use process, sucks air, it is impossible to during backwater in adding heat container 6, and heating 5 will
Adding heat container 6 to heat, when adding heat container 6 temperature and rising to more than 100 DEG C, attemperating unit 28 senses the temperature adding heat container 6
Rising to more than 100 DEG C, attemperating unit 28 connects the circuit of water pump 23, and water pump 23 starts work, is supplied to add by the water in storage tank 1
In heat container 6, enter add the water in heat container 6 rapidly seethe with excitement generation water vapor expansion (backwater check valve 2 is closed) and with
After its interior air mixing, quickly enter water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11 flow in storage tank 1, gas
Body enters in storage tank 1, discharges to air, the water vapour heat radiation produced in adding heat container 6, and liquefaction, volume diminishes, and produces resorption
Power (makes backwater check valve 2 open), is sucked by the water in storage tank 1 and adds in heat container 6, makes to add heat container 6 temperature and declines, temperature
Control device 28 senses that the temperature adding heat container 6 declines, and disconnects the circuit of water pump 23, and water pump 23 quits work, and then adds thermal capacitance
Device 6 continues heat its interior water producing water vapor and expand, and makes backwater check valve 2 close, and water vapour promotes and adds in heat container 6
Water is flowed in storage tank 1 by water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11, the water emptying within adding heat container 6,
Water vapour dispels the heat rapidly, liquefaction, and volume diminishes, and produces resorption power, due to water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11
Drag effect, make backwater check valve 2 open, the water in storage tank 1 is unidirectional by water pump 23, backwater connecting tube 15, backwater
Valve the 2, second backwater connecting tube the 24, second backwater check valve 25 sucks and adds in heat container 6, so enters circulation duty.
Fig. 7, shown in 8, attemperating unit 28 is with temperature sensor 32;Temperature sensor 32 is located at and is added on heat container 6, sensing
Add the temperature of heat container 6;The anhydrous dry combustion method of trapped air within adding heat container 6, adds heat container 6 temperature when rising to more than 100 DEG C, temperature
Control device 28 connects the circuit of water pump 23, makes water pump 23 start work, is supplied to water add in heat container 6;When adding heat container 6 temperature
Declining, attemperating unit 28 disconnects the circuit of water pump 23, makes water pump 23 quit work.So, when using first, to storage tank 1
Interior water filling, is full of air in adding heat container 6 and can not discharge or in the middle of use process, sucks air, it is impossible to return in adding heat container 6
During water, heating 5 will add heat container 6 and heat, and when adding heat container 6 temperature and rising to more than 100 DEG C, temperature sensor 32 senses
Rising to more than 100 DEG C to the temperature adding heat container 6, attemperating unit 28 connects the circuit of water pump 23, and water pump 23 starts work, will storage
Water in water tank 1 is supplied to add in heat container 6, enter add the water in heat container 6 rapidly seethe with excitement generation water vapor expansion (make backwater
Check valve 2 is closed) and after mixing with its interior air, quickly enter water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11 to
Flowing in storage tank 1, gas enters in storage tank 1, discharges to air, the water vapour heat radiation produced in adding heat container 6, liquefaction,
Volume diminishes, and produces resorption power (backwater check valve 2 is opened), is sucked by the water in storage tank 1 and adds in heat container 6, makes to add
Heat container 6 temperature declines, and temperature sensor 32 senses that the temperature adding heat container 6 declines, and makes attemperating unit 28 disconnect water pump 23
Circuit, water pump 23 quits work, and then adds heat container 6 and continues to heat its interior water producing water vapor expanding, makes backwater list
Closing to valve 2, water vapour promotes the water adding in heat container 6 by water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11 to storage
Flowing in water tank 1, the water emptying within adding heat container 6, water vapour dispels the heat rapidly, liquefaction, and volume diminishes, and produces resorption power, by
In water outlet connecting tube 9, radiating tube 10, the drag effect of water inlet connecting tube 11, backwater check valve 2 is made to open, by storage tank 1
Water is sucked by backwater connecting tube 15, backwater check valve 2 and adds in heat container 6, so enters circulation duty.
Fig. 5, shown in 6, attemperating unit 28 is temperature control switch, and attemperating unit 28 is connected in a power with water pump 23;Temperature
Control device 28 is located at and is added on heat container 6, the temperature of induction heating vessel 6;Within adding heat container 6, the anhydrous dry combustion method of trapped air, adds
When heat container 6 temperature rises to more than 100 DEG C, attemperating unit 28 connects the circuit of water pump 23, makes water pump 23 start work, is supplied by water
To adding in heat container 6;Declining when adding heat container 6 temperature, attemperating unit 28 disconnects the circuit of water pump 23, makes water pump 23 stop work
Make.So, when using first, water filling in storage tank 1, it is full of air in adding heat container 6 and can not discharge or use process
In the middle of, suck air in adding heat container 6, it is impossible to during backwater, heating 5 will add heat container 6 and heat, when adding heat container 6 temperature
When rising to more than 100 DEG C, attemperating unit 28 senses that the temperature adding heat container 6 rises to more than 100 DEG C, and attemperating unit 28 connects water
The circuit of pump 23, water pump 23 starts work, is supplied to add in heat container 6 by the water in storage tank 1, enters and adds the water in heat container 6
After boiling produces water vapor expansion (backwater check valve 2 is closed) and mixes with its interior air rapidly, quickly enter water outlet
Connecting tube 9, radiating tube 10, water inlet connecting tube 11 flow in storage tank 1, and gas enters in storage tank 1, discharges to air, adds
The water vapour heat radiation produced in heat container 6, liquefaction, volume diminishes, and produces resorption power (backwater check valve 2 is opened), will storage
Water in water tank 1 sucks and adds in heat container 6, makes to add heat container 6 temperature and declines, and attemperating unit 28 senses the temperature adding heat container 6
Degree declines, and disconnects the circuit of water pump 23, and water pump 23 quits work, and then adds heat container 6 its interior Aquatic product unboiled water of continuation heating and steams
Vapour also expands, and makes backwater check valve 2 close, water vapour promote add water in heat container 6 by water outlet connecting tube 9, radiating tube 10,
Water inlet connecting tube 11 flows in storage tank 1, the water emptying within adding heat container 6, and water vapour dispels the heat rapidly, liquefaction, and volume becomes
Little, produce resorption power, due to water outlet connecting tube 9, radiating tube 10, the drag effect of water inlet connecting tube 11, make backwater check valve 2 open
Open, the water in storage tank 1 is sucked by backwater connecting tube 15, backwater check valve 2 and adds in heat container 6, so enter circulation industrial
Make state.
Shown in Fig. 1-3,5-8, setting up water supply chamber 16, water supply chamber 16 is located at higher than adding heat container 6 position;By this water supply chamber
16, water pump 23, backwater connecting tube 15, backwater check valve the 2, second backwater connecting tube the 24, second backwater check valve 25 are by storage tank 1
It is connected with adding heat container 6.So, work a period of time when adding heat container 6, when quitting work, produce not in adding heat container 6
Can be reduced in the gas of water enters into water supply chamber 16 and remain in top in water supply chamber 16;It is again started up work when adding heat container 6
When making, the water vapour produced in it dispels the heat, liquefaction, and volume diminishes, and produces resorption power, the gas retained top in water supply chamber 16
In company with current or formed bubble by water impact and together suck and add in heat container 6, meanwhile, also by the water in storage tank 1 to water supply
Suck in room 16, suck and add the heated water vapour that produces again of the water in heat container 6, and promote its interior water and interior can not be also
Originally it was that the gas of water enters in storage tank 1 through water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11, entered in storage tank 1
The gas that can not be reduced to water is discharged to air, so circulates.So, it is ensured that water supply chamber 16 at any time can be to adding heat container 6
Interior directly water supply.
Shown in Fig. 1-3,5-8, set up feed pipe 20, by this feed pipe 20, water supply chamber 16 is connected with adding heat container 6;
Feed pipe 20 one end is stretched in water supply chamber 16, and the other end is connected with adding heat container 6;In feed pipe 20 stretches into water supply chamber 16
This section of tube wall is provided with water supply hole 19.So, work a period of time when adding heat container 6, when quitting work, produce in adding heat container 6
In the raw gas that can not be reduced to water enters into water supply chamber 16 along feed pipe 20 and remain in top in water supply chamber 16;When adding
When heat container 6 is again started up work, the water vapour produced in it dispels the heat, liquefaction, and volume diminishes, and produces resorption power, by water supply chamber
The gas that in 16, top retains is sucked by feed pipe 20 and adds in heat container 6, meanwhile, and the water retained below water supply chamber 16,
Sucked within adding heat container 6 by water supply hole 19, feed pipe 20, and also the water in storage tank 1 sucked in water supply chamber 16,
Suck and add the heated generation water vapour again of the water in heat container 6, and promote its interior water and the interior gas that can not be reduced to water thereof
Body enters in storage tank 1 through water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11, enters can not be reduced in storage tank 1
The gas of water is discharged to air, so circulates.So, it is ensured that water supply chamber 16 can pass through water supply hole 19, feed pipe 20 at any time
Directly supply water within adding heat container 6.
Shown in Fig. 6-8, set up water supply joint 21;This water supply joint 21 is fixed on and adds on heat container 6, is provided with water supply logical in it
Road 30, this water channel 30 the narrowest place cross-sectional area is less than 26 square millimeters;Water supply joint 21 sets feed pipe 20 or supplies
Water nozzle is also connected with water channel 30.So, it is more easy to install manufacture.
Shown in Fig. 1-3,5-8, feed pipe 20 internal diameter is 2mm-6mm.So, the water vapour within adding heat container 6 promotes water
During flowing, the water in feed pipe 20 is under surface tension and drag effect, and the water in water supply chamber 16 is now (owing to the time is shorter)
Can not be flowed into by feed pipe 20 adds in heat container 6, and when adding generation suction in heat container 6, the water in water supply chamber 16 passes through again
This feed pipe 20 sucks and adds in heat container 6.
Shown in Fig. 1-3,5-8, the water supply hole 19 on feed pipe 20 wall, its aperture is 2.5mm-4mm.So, water is made to hold very much
Easily entered by water supply hole 19, feed pipe 20 and add in heat container 6, and this water supply hole 19 has certain resistance, by water supply chamber 16
The gas that interior top retains is sucked by feed pipe 20 and adds in heat container 6.Water supply hole 19 can set two or more.
Shown in Fig. 1-3,5-8, feed pipe 20 stretches into this section in water supply chamber 16, its length 10mm-50mm.In this way it is easier to
The gas retained top in water supply chamber 16 is sucked by feed pipe 20 and adds in heat container 6.
Shown in Fig. 1,3,5,6,8, set the second backwater connecting tube at water pump 23 on the water route communicated between heat container 6 with adding
24, and set the second backwater check valve 25 thereon, by second backwater connecting tube the 24, second backwater check valve 25 by storage tank 1
It is connected with adding heat container 6.As such, it is possible to by the second backwater connecting tube 24 preferably by the water in storage tank 1 to adding thermal capacitance
Suck in device 6, and when water pump 23 is in time adding water supply in heat container 6, and the second backwater check valve 25 is closed, prevent water from entering water storage
In case 1.
Fig. 1,2, shown in 5-7, set up steam pipe 14 between heat container 6 and water outlet connecting tube 9 adding.So, water vapour can
Enter in steam pipe 14, the gas that can not be reduced to water produced when adding hot water is carried and remain in steam pipe 14, under
Taken away in entrance storage tank 1 by current during secondary circulation, discharge to air.Steam pipe 14 material is red copper.So, more easy heat radiation,
Backwater.And play aerofluxus, sound deadening.
Shown in Fig. 2,5-7, adding between heat container 6 and storage tank 1 by water outlet connecting tube 9, radiating tube 10, water inlet connecting tube
On 11 paths being connected to form, water one-way valve 12 is set up out in optional position.So, when backwater, go out water one-way valve 12 and close, keep away
Exempt from effluent recycling, thus realize more preferable backwater.
Shown in Fig. 1-3,5-8, add heat container 6 and for tubulose or tubular and obliquely or vertically arrange.So, heat container will can be added
6 make small volumes, contain a small amount of water, it is easy to quickly heating, Quick water exit, make cycle efficieny higher.During work, water vapour pushes away
Dynamic add the water in heat container 6 and move diagonally downward or straight down, between water vapour and the water surface, form adiabatic face, and water vapour
The least with the contact area of water, water vapour is difficult to heat conduction in water, and the volume of water vapour is difficult to loss, so, water yield is big, goes out
Coolant-temperature gage is low, and speed is fast, is more easy to backwater, and backwater amount is also big, the circulation of rapid, high volume so that it is work efficiency improves further;Add
Heated wall in heat container 6 can be bright finish, and so, under duty, in adding heat container 6, heated wall is little with the contact surface of water, institute
With, the quantity of steam of generation is the least, goes out water speed fast, is more easy to backwater.
Shown in Fig. 6-8, also include energy storage heat exchanger 18, in it, be provided with heat exchanger channels 22;Add heat container 6 bottom to change with accumulation of energy
Heat exchanger channels 22 in hot device 18 is connected, and comes from the water and steam added in heat container 6 by energy storage heat exchanger 18
Heat exchanger channels 22 carries out heat exchange;Heat exchanger channels 22 is connected with water outlet connecting tube 9 one end again, makes to add heat container 6 and passes through heat exchange
Passage 22 is connected with water outlet connecting tube 9;Energy storage heat exchanger 18 is metal derby, inside sets heat exchanger channels 22 and is formed;Heating 5 sets
In adding heat container 6 sidewall.So, heating 5 will add the heating of heat container 6 sidewall, make the water body side adding in heat container 6 a small amount of
Water fast boiling produces water vapour and rises (in now adding heat container 6, water body internal temperature is relatively low) along sidewall and expand, water
Steam (adds relatively low temperature in heat container 6 in promoting rapidly the water added in heat container 6 from top to bottom to move and entering energy storage heat exchanger 18
The water of degree enters in energy storage heat exchanger 18 and carries out heat exchange, makes energy storage heat exchanger 18 temperature consistent with leaving water temperature), work as heating
After water emptying in container 6, add a small amount of water speckled with in heated wall in heat container 6 and also become water vapour and change also into accumulation of energy subsequently
In hot device 18, and carrying out heat exchange with energy storage heat exchanger 18, water vapour discharges heat, and meanwhile, energy storage heat exchanger 18 is inhaled
Enter this heat and store, when backwater, backing into the water in energy storage heat exchanger 18 and make again energy storage heat exchanger 18 temperature reduce (accumulation of energy
Heat energy is discharged in water by heat exchanger 18), when the next time of water outlet again, carry out the water of the lower temperature in self-heating container 6 through storing
Energy heat exchanger 18, heat energy is discharged in water by energy storage heat exchanger 18 again, energy storage heat exchanger 18 temperature is reduced further, subsequently
Carry out the steam in self-heating container 6 and enter energy storage heat exchanger 18, then carry out heat exchange, water vapour release heat with energy storage heat exchanger 18
Amount, energy storage heat exchanger 18 absorbs the heat of water vapour, makes water vapour liquefy.So, the water vapour in energy storage heat exchanger 18 is direct
Being liquefied, and by the water vapour in energy storage heat exchanger 18 in the future self-heating container 6, water, carry out heat exchange, accumulation of energy simultaneously is changed
Hot device 18 outwardly dispels the heat, thus keeps long lasting for continuous resorption power, sucks the entrance of substantial amounts of cold water and adds in heat container 6
And mix with the water vapour added in heat container 6, make the water vapour added in heat container 6 all liquefy, produce huge suction, it is achieved complete
Full backwater, so so that it is can well backwater, water cycle efficieny height.
In above-mentioned cyclic process, enter into the water vapour in energy storage heat exchanger 18 and carry out heat exchange, simultaneously accumulation of energy therewith
Heat exchanger 18 outwardly dispels the heat, and energy storage heat exchanger 18 constantly absorbs substantial amounts of heat, and water vapour constantly discharges in a large number
Heat, make water vapour constantly liquefy, volume diminishes, and long-time constantly produces bigger resorption power, makes water the most constantly inhale
Enter to add in heat container 6, and mix with its interior water vapour, make water vapour all liquefy, it is achieved backwater completely so that it is can be good
Backwater.So, backwater amount is big, and water yield is also big, makes water circulation quantitative change big, in hgher efficiency.
Shown in Fig. 6-8, heat exchanger channels 22 cross-sectional area is less than 28 square millimeters.So, during backwater, enter into heat exchanger channels
The water vapour that it is interior will not be liquefied by the cold water in 22 simultaneously, but liquefies successively along heat exchanger channels 22, thus avoids acutely
Vibrations, produce noise.
Shown in Fig. 3, set up vaporium 7 between heat container 6 and water outlet connecting tube 9 adding.So, can more preferably accommodate water to steam
Vapour, and more easy heat radiation, backwater.Vaporium 7 can be made up of (generally pyrite or aluminum, aluminium alloy) metal tube.Vaporium 7 can
It is in charge of part by 2-6 to make.
Shown in Fig. 1-3, set up defecator 17, by this defecator 17, backwater connecting tube 15, backwater check valve 2, water
Pump the 23, second backwater connecting tube the 24, second backwater check valve 25, water supply chamber 16, feed pipe 20 by storage tank 1 with add heat container 6
It is connected.So, can prevent impurity from entering in check valve, water pump 23 so that it is malfunctioning.Defecator 17 may be provided in storage tank 1
May be alternatively provided at outside storage tank 1.
Shown in Fig. 1-3,5-8, adding heat container 6 and be made up of aluminum or aluminum alloy material, heating 5 uses PTC heating
Heating.So, being rapidly heated, flash heat transfer, make its more preferable circulating heat transfer, work efficiency is higher.Adding heat container 6 can be pipe
Shape can also be square tube type, and typically it is inner circle foreign side, the general 6mm-30mm of its internal diameter, length 10mm-300mm;When power exists
During below 600W, internal diameter optimum 10mm-16mm is best, and length is at 30mm-150mm preferably.
In the present invention, backwater connecting tube the 15, second backwater connecting tube 24 internal diameter is 2mm-6mm, most preferably 3.5mm,
3.8mm、4mm、4.5mm、5mm.Water inlet connecting tube 11, water outlet connecting tube 9 internal diameter are 3mm-8mm, most preferably 4mm, 4.5mm,
5mm.Backwater check valve 2 internal diameter is 2mm-6mm, most preferably 3mm-5mm.
In the present invention, backwater: refer to add the water vapour in heat container 6, vaporium 7, steam pipe 14, water outlet connecting tube 9, change
Heat, heat radiation, condensation, liquefaction, volume diminishes, produce resorption power (negative pressure), by the water in storage tank 1 by backwater connecting tube 15,
Backwater check valve the 2, second backwater connecting tube the 24, second backwater check valve 25, water pump 23, water supply chamber 16, feed pipe 20, water supply hole
19 parts such as grade, suck and add the process in heat container 6, energy storage heat exchanger 18, vaporium 7, steam pipe 14, water outlet connecting tube 9.
In accompanying drawing 9 of the present invention, the radiating tube 10 arrangement mode on radiator 8 is a kind of parallel way, but is not limited to
This, can be with the arrangement being any mode in parallel or series.
In the present invention, in radiating tube 10 may be provided in radiator 8 or surface.Concrete radiating tube 10 is silica gel tube.Manufacture hydro-thermal
Blanket, pad, bedding, shoulder protector, heat-treatment clothes etc., radiating tube 10 internal diameter is 3mm-8mm, optimal internal diameter is 3.5mm, 3.8mm, 4mm,
4.5mm、5mm.Concretely internal diameter 3.5mm external diameter 5mm, internal diameter 4mm external diameter 6mm, internal diameter 4mm external diameter 7mm.
In the present invention, radiator 8 refers to radiator portion, can be specifically blanket, pad, bedding, case, bag, clothing, shoes and hats, drape over one's shoulders
Shoulder, waist support, rib, elbow support, wrister, legging, knee cap, spats ankle, radiator, bed, bed board, a heatable brick bed, a heatable brick bed plate, floor, ground, wall
Deng.In Fig. 2-3,5-8, radiator 8 is blanket, pad, bedding body.In Fig. 1, radiator 8 circulates heat-treatment clothes for water.
In the present invention, backwater check valve 2 may be provided in storage tank 1 and the optional position on 6 water routes being connected that add heat container,
Concrete backwater check valve 2 can be located at storage tank 1 inside or storage tank 1 is outside;Also can be located on storage tank 1 shell wall;Also can be located at
Add in heat container 6;Also can be located at and add outside heat container 6;Also can be located in backwater connecting tube 15;Second backwater check valve 25 can be located at
Storage tank 1 is internal or storage tank 1 is outside.
In the present invention, feed pipe 20 can be made up of plastics or metal material, can be specifically red copper, pyrite, rustless steel or
Teflon etc.;Water supply chamber 16 can be made up of pipe fitting, specifically can be in charge of part by 2-4 and make.So, it is more easy to install, manufacture.
In the present invention, energy storage heat exchanger 18 is metal derby, and this metal derby can be plate-like, strip etc., can the side of being, circle
, flat, high, long, short etc., it is not limited by shape, size, as long as can storing, discharging to come from and add heat container 6
In vapour, the heat of water, and make it carry out heat exchange.
In the present invention, energy storage heat exchanger 18 refers to: can store, discharge and come from steam, the heat of water added in heat container 6
Amount, and make it carry out the device of heat exchange.
In the present invention, storage tank and the position relationship adding heat container do not limit, and storage tank can be located at the top adding heat container,
May be alternatively provided at heating container side position, all in the present invention protects.
In the present invention, add heat container and do not limited by shape, size, can be any shape, size add heat container.
Claims (10)
1. a heat energy water circulation system, including: storage tank (1), adds heat container (6), heating (5), backwater connecting tube
(15), backwater check valve (2), water outlet connecting tube (9), water inlet connecting tube (11), radiator (8), radiating tube (10);Radiator
(8) combine with radiating tube (10);Heating (5) combines with adding heat container (6), forms electric-heating container;Add heat container
(6) communicating with water outlet connecting tube (9), water outlet connecting tube (9) communicates with radiating tube (10) again, and radiating tube (10) is connected with water inlet again
Pipe (11) communicates, and water inlet connecting tube (11) communicates with storage tank (1) again, and storage tank (1) passes through backwater connecting tube (15), backwater list
Communicate with adding heat container (6) to valve (2);It is characterized in that: also include water pump (23), this water pump (23) and described storage tank (1),
The water route adding heat container (6) is connected;The anhydrous dry combustion method of trapped air within adding heat container (6), adds heat container (6) temperature and rises to
When more than 100 DEG C, water pump (23) starts work, is supplied to water add in heat container (6), adds heat container (6) temperature and declines, water pump
(23) quit work.
Heat energy water circulation system the most according to claim 1, it is characterised in that: including temperature detect switch (TDS) (26), this temperature control is opened
Pass (26) adds on heat container (6) described in being located at;Described temperature detect switch (TDS) (26) is connected with the heating (5) added on heat container (6)
In a power;Described water pump (23) is connected in a power with the heating (5) added on heat container (6);Described temperature
Control switch (26) is in parallel in a power with water pump (23).
Heat energy water circulation system the most according to claim 1, it is characterised in that: include attemperating unit (28), described temperature control
Device (28) is connected with the circuit of water pump (23);The temperature of described attemperating unit (28) induction heating vessel (6);When adding heat container
(6) the anhydrous dry combustion method of interior trapped air, adds heat container (6) temperature when rising to more than 100 DEG C, and described attemperating unit (28) connects water pump
(23) circuit, makes water pump (23) start work, is supplied to water add in heat container (6);Decline when adding heat container (6) temperature, institute
State attemperating unit (28) and disconnect the circuit of water pump (23), make water pump (23) quit work.
Heat energy water circulation system the most according to claim 3, it is characterised in that: described attemperating unit (28) passes with temperature
Sensor (32);Described temperature sensor (32) is located at and is added on heat container (6), the temperature of induction heating vessel (6);When adding heat container
(6) the anhydrous dry combustion method of interior trapped air, adds heat container (6) temperature when rising to more than 100 DEG C, and described attemperating unit (28) connects water pump
(23) circuit, makes water pump (23) start work, is supplied to water add in heat container (6);Decline when adding heat container (6) temperature, institute
State attemperating unit (28) and disconnect the circuit of water pump (23), make water pump (23) quit work.
Heat energy water circulation system the most according to claim 3, it is characterised in that: described attemperating unit (28) is that temperature control is opened
Closing, described attemperating unit (28) is connected in a power with water pump (23);Described attemperating unit (28) is located at and is added heat container (6)
On, the temperature of induction heating vessel (6);The anhydrous dry combustion method of trapped air within adding heat container (6), adds heat container (6) temperature and rises to
When more than 100 DEG C, described attemperating unit (28) connects the circuit of water pump (23), makes water pump (23) start work, is supplied to add by water
In heat container (6);Declining when adding heat container (6) temperature, described attemperating unit (28) disconnects the circuit of water pump (23), makes water pump
(23) quit work.
Heat energy water circulation system the most according to claim 1, it is characterised in that: set up water supply chamber (16), by this water supply
Storage tank (1) is connected by room (16), described backwater connecting tube (15), backwater check valve (2) with adding heat container (6).
Heat energy water circulation system the most according to claim 6, it is characterised in that: set up feed pipe (20), by this water supply
Described water supply chamber (16) is connected by pipe (20) with adding heat container (6);Described feed pipe (20) one end is stretched in water supply chamber (16),
The other end is connected with adding heat container (6);It is provided with confession on this section of tube wall in described feed pipe (20) stretches into water supply chamber (16)
Water hole (19).
Heat energy water circulation system the most according to claim 1, it is characterised in that: described water pump (23) with add heat container
(6) set the second backwater connecting tube (24) on the water route communicated between, and set the second backwater check valve (25) thereon, by second
Described storage tank (1) is connected by backwater connecting tube (24), the second backwater check valve (25) with adding heat container (6).
Heat energy water circulation system the most according to claim 1, it is characterised in that: add heat container (6) with water outlet even described
Steam pipe (14) is set up between adapter (9).
10. according to the heat energy water circulation system described in claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 8 or 9, it is characterised in that:
It is connected by water outlet connecting tube (9), radiating tube (10), water inlet connecting tube (11) between heat container (6) with storage tank (1) in described adding
On the path formed, water one-way valve (12) is set up out in optional position.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610100056.3A CN105757771A (en) | 2016-02-15 | 2016-02-15 | Heat energy water circulating system |
CN2016101000563 | 2016-02-15 |
Publications (1)
Publication Number | Publication Date |
---|---|
CN106196567A true CN106196567A (en) | 2016-12-07 |
Family
ID=56330307
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610100056.3A Pending CN105757771A (en) | 2016-02-15 | 2016-02-15 | Heat energy water circulating system |
CN201610666165.1A Withdrawn CN106196567A (en) | 2016-02-15 | 2016-08-08 | heat energy water circulation system |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610100056.3A Pending CN105757771A (en) | 2016-02-15 | 2016-02-15 | Heat energy water circulating system |
Country Status (1)
Country | Link |
---|---|
CN (2) | CN105757771A (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106839062A (en) * | 2016-12-26 | 2017-06-13 | 王彤宇 | heat energy water circulation system |
CN106839065A (en) * | 2017-03-25 | 2017-06-13 | 王彤宇 | Heat energy water circulation system |
CN106839064A (en) * | 2017-03-25 | 2017-06-13 | 王彤宇 | Heat energy water circulation system |
CN107062368A (en) * | 2017-05-22 | 2017-08-18 | 王彤宇 | heat energy water circulation system |
CN107449158A (en) * | 2017-08-25 | 2017-12-08 | 王彤宇 | Heat energy water cycle temperature inspection and control safe and highly efficient operation system |
CN112682963A (en) * | 2020-12-29 | 2021-04-20 | 丽水市左尚设计装饰工程有限公司 | Floor heating device based on intelligent home decoration |
Citations (16)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2034933B (en) * | 1978-10-25 | 1983-05-18 | Sueddeutsche Kuehler Behr | Regulating apparatus for a heating or air conditioning installation |
CN2309531Y (en) * | 1997-04-22 | 1999-03-03 | 深圳新世纪饮水科技有限公司 | Power automatic controller for electric water heater |
CN2453330Y (en) * | 2000-11-17 | 2001-10-10 | 王文军 | Automatic water circulation and automatic alarming device for boiler |
KR100542971B1 (en) * | 2005-05-19 | 2006-01-20 | 정완식 | Small-size boiler |
KR20080091637A (en) * | 2007-04-09 | 2008-10-14 | 주식회사 경동나비엔 | Heating system using heat exchanger of instant electric boiler |
KR20100063883A (en) * | 2008-12-04 | 2010-06-14 | 대화기전 주식회사 | Method for heating mat and heat-mat |
CN201660792U (en) * | 2010-04-15 | 2010-12-01 | 美的集团有限公司 | Control circuit of garment steamer |
CN202149601U (en) * | 2011-06-27 | 2012-02-22 | 深圳安吉尔饮水产业集团有限公司 | Fast heating water dispensing device |
CN103216928A (en) * | 2012-01-19 | 2013-07-24 | 王彤宇 | Heat energy water circulation system |
CN103557510A (en) * | 2013-10-23 | 2014-02-05 | 浙江华光电器集团有限公司 | Steam generator capable of achieving continuous high-pressure steam jet |
CN103604226A (en) * | 2013-11-01 | 2014-02-26 | 李建华 | Vacuum tube type heat collection system |
CN203893298U (en) * | 2014-03-21 | 2014-10-22 | 浙江农林大学 | Novel domestic heater |
CN104274004A (en) * | 2013-07-01 | 2015-01-14 | 王彤宇 | Water heating blanket and mat |
CN104970630A (en) * | 2014-04-09 | 2015-10-14 | 王彤宇 | Water-heat blanket or pad or quilt or mattress |
CN105003947A (en) * | 2015-08-08 | 2015-10-28 | 王彤宇 | Heat energy water circulation system |
CN105180253A (en) * | 2015-08-08 | 2015-12-23 | 王彤宇 | Heat-energy water circulation system |
-
2016
- 2016-02-15 CN CN201610100056.3A patent/CN105757771A/en active Pending
- 2016-08-08 CN CN201610666165.1A patent/CN106196567A/en not_active Withdrawn
Patent Citations (16)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2034933B (en) * | 1978-10-25 | 1983-05-18 | Sueddeutsche Kuehler Behr | Regulating apparatus for a heating or air conditioning installation |
CN2309531Y (en) * | 1997-04-22 | 1999-03-03 | 深圳新世纪饮水科技有限公司 | Power automatic controller for electric water heater |
CN2453330Y (en) * | 2000-11-17 | 2001-10-10 | 王文军 | Automatic water circulation and automatic alarming device for boiler |
KR100542971B1 (en) * | 2005-05-19 | 2006-01-20 | 정완식 | Small-size boiler |
KR20080091637A (en) * | 2007-04-09 | 2008-10-14 | 주식회사 경동나비엔 | Heating system using heat exchanger of instant electric boiler |
KR20100063883A (en) * | 2008-12-04 | 2010-06-14 | 대화기전 주식회사 | Method for heating mat and heat-mat |
CN201660792U (en) * | 2010-04-15 | 2010-12-01 | 美的集团有限公司 | Control circuit of garment steamer |
CN202149601U (en) * | 2011-06-27 | 2012-02-22 | 深圳安吉尔饮水产业集团有限公司 | Fast heating water dispensing device |
CN103216928A (en) * | 2012-01-19 | 2013-07-24 | 王彤宇 | Heat energy water circulation system |
CN104274004A (en) * | 2013-07-01 | 2015-01-14 | 王彤宇 | Water heating blanket and mat |
CN103557510A (en) * | 2013-10-23 | 2014-02-05 | 浙江华光电器集团有限公司 | Steam generator capable of achieving continuous high-pressure steam jet |
CN103604226A (en) * | 2013-11-01 | 2014-02-26 | 李建华 | Vacuum tube type heat collection system |
CN203893298U (en) * | 2014-03-21 | 2014-10-22 | 浙江农林大学 | Novel domestic heater |
CN104970630A (en) * | 2014-04-09 | 2015-10-14 | 王彤宇 | Water-heat blanket or pad or quilt or mattress |
CN105003947A (en) * | 2015-08-08 | 2015-10-28 | 王彤宇 | Heat energy water circulation system |
CN105180253A (en) * | 2015-08-08 | 2015-12-23 | 王彤宇 | Heat-energy water circulation system |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106839062A (en) * | 2016-12-26 | 2017-06-13 | 王彤宇 | heat energy water circulation system |
CN106839065A (en) * | 2017-03-25 | 2017-06-13 | 王彤宇 | Heat energy water circulation system |
CN106839064A (en) * | 2017-03-25 | 2017-06-13 | 王彤宇 | Heat energy water circulation system |
CN107062368A (en) * | 2017-05-22 | 2017-08-18 | 王彤宇 | heat energy water circulation system |
CN107449158A (en) * | 2017-08-25 | 2017-12-08 | 王彤宇 | Heat energy water cycle temperature inspection and control safe and highly efficient operation system |
CN112682963A (en) * | 2020-12-29 | 2021-04-20 | 丽水市左尚设计装饰工程有限公司 | Floor heating device based on intelligent home decoration |
CN112682963B (en) * | 2020-12-29 | 2022-07-29 | 丽水市左尚设计装饰工程有限公司 | Floor heating device based on intelligent home decoration |
Also Published As
Publication number | Publication date |
---|---|
CN105757771A (en) | 2016-07-13 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106196567A (en) | heat energy water circulation system | |
CN106196566A (en) | heat energy water circulation system | |
CN106524285A (en) | Heat energy water circulation system | |
KR20190002339U (en) | Hot water boiler for camping | |
CN102425853A (en) | Energy-saving type three-temperature-output water boiler | |
CN106839064A (en) | Heat energy water circulation system | |
CN106524284A (en) | Heat energy water circulating system | |
CN102226573B (en) | Heat water reciprocating circulating system | |
CN105003947A (en) | Heat energy water circulation system | |
CN105180251A (en) | Heat-energy water circulation system | |
CN103216928B (en) | heat energy water circulation system | |
CN106839062A (en) | heat energy water circulation system | |
CN107300208A (en) | Hot water cyclesystem | |
CN105910270A (en) | Heat energy water circulation system | |
CN107449158A (en) | Heat energy water cycle temperature inspection and control safe and highly efficient operation system | |
CN105003948A (en) | Heat energy water circulation system | |
CN107906750B (en) | A kind of energy-efficient cold, hot and warm drinking-water machine | |
CN106052126A (en) | Heat energy water circulating blanket or pad | |
CN105066227A (en) | Heat energy water circulating system | |
CN205619483U (en) | Hot water supply system and air conditioner with same | |
CN105757770A (en) | Heat energy water circulation system | |
CN106839065A (en) | Heat energy water circulation system | |
KR200385896Y1 (en) | Heating apparatus of standing type for hot-water mat | |
CN107062368A (en) | heat energy water circulation system | |
CN105091068A (en) | Heat energy water circulating system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
WW01 | Invention patent application withdrawn after publication |
Application publication date: 20161207 |
|
WW01 | Invention patent application withdrawn after publication |