CN106196566A - heat energy water circulation system - Google Patents
heat energy water circulation system Download PDFInfo
- Publication number
- CN106196566A CN106196566A CN201610542493.0A CN201610542493A CN106196566A CN 106196566 A CN106196566 A CN 106196566A CN 201610542493 A CN201610542493 A CN 201610542493A CN 106196566 A CN106196566 A CN 106196566A
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- Prior art keywords
- water
- water supply
- heat container
- supply chamber
- connecting tube
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Classifications
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- 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
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- 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
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- 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)
- Heat-Pump Type And Storage Water Heaters (AREA)
Abstract
The present invention relates to a kind of heat energy water circulation system utilizing water vapour promotion water to circulate heat transfer, particularly to for hydrothermal blanket, pad, a heatable brick bed plate, the heat energy water circulation system of thermotherapy product.Purpose be to provide one in working order under, it is possible to the hydrothermal blanket of good backwater (supplying water within adding heat container), pad, a heatable brick bed plate, the heat energy water circulation system of thermotherapy product.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 check valve;It is characterized in that: at described storage tank and add and be additionally provided with water supply chamber between heat container, by this water supply chamber, described backwater check valve, storage tank is connected with adding heat container.
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.: 200510129300.0, publication number: CN1806723A, publication date: 2006.07.26, invention wound
Make title: hydrothermal blanket.Under this patent work state, the gas that can not be reduced to water that heating water produces sometimes remains in cartridge heater
The water return outlet of (adding heat container) or backwater connecting tube and cartridge heater (adding heat container) connecting place, form gas and block up, and causes not backwater to do
Burn phenomenon.Especially during cold-starting, water temperature is low, quantity of steam is less, it is impossible to form bigger suction, and due to water return outlet, return
Water connecting tube and cartridge heater (adding heat container) connecting place have retained gas, cannot be sucked by water in cartridge heater (adding heat container),
Causing can not backwater phenomenon.
Summary of the invention
It is an object of the present invention to provide one in working order under, it is possible to the hydro-thermal of good backwater (supplying water within adding heat container)
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.
Technical solution of the present invention, including: storage tank, adds heat container, heating, backwater check valve, water outlet connecting tube, enters
Water connecting tube, radiator, radiating tube;Radiator combines with radiating tube;Heating combines with adding heat container;Add heat container
Communicating with water outlet connecting tube, water outlet connecting tube communicates with radiating tube again, and radiating tube communicates with water inlet connecting tube again, connecting tube of intaking
Communicating with storage tank again, storage tank is communicated with adding heat container by backwater check valve;It is characterized in that: described storage tank with add
It is additionally provided with water supply chamber between heat container, by this water supply chamber, described backwater check valve, storage tank is connected with adding heat container.
By storage tank, water supply chamber, add heat container in fill water, heating electrified regulation, make the water temperature adding in heat container
Degree rises boiling and produces water vapour and expand, backwater closed check valve simultaneously, and water vapour promotion adds the water in heat container and passes through
Water connecting tube, radiating tube, water inlet connecting tube flow in storage tank, and the water emptying within adding heat container, water vapour enters water outlet
Dispelling the heat rapidly in connecting tube, liquefaction, volume diminish, and produce 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 the water in water supply chamber and adds in heat container, meanwhile, also by storage tank
Water suck in water supply chamber;When heating container work a period of time, when quitting work, produce in adding heat container can not reduce
In entering into water supply chamber for the gas of water and remain in top in water supply chamber;When adding heat container and being again started up work, produce in it
Raw water vapour dispels the heat, liquefaction, and volume diminishes, and produces resorption power, makes the supply of the water very first time in water supply chamber add heat container, enters
Entering the water adding in heat container to mix with its interior water vapour, make water vapour liquefy rapidly, volume diminishes, and produces bigger resorption power,
The most again the gas that retains of top in water supply chamber in company with current or by water impact, is formed bubble and together sucks and add in heat container,
, also being sucked in water supply chamber by the water in storage tank, the water in storage tank is inhaled into by backwater check valve, water supply chamber meanwhile
Add in heat container, 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 also
Originally it was that the gas of water enters in storage tank through water outlet connecting tube, radiating tube, water inlet connecting tube, entered can not reduce in storage tank
Gas for water 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,
Thus avoid gas and block up, it is impossible to backwater, causes anhydrous dry combustion method phenomenon.
For improving the present invention further, described water supply chamber is located at higher than heating container position.So, produce when adding hot water
The gas of water can not be reduced to, it is easier to entrance water supply chamber is interior and remains in top in water supply chamber, it is ensured that water supply chamber at any time can
Enough directly supply water within adding heat container, thus avoid gas and block up, it is impossible to backwater, cause anhydrous dry combustion method phenomenon.
For improving the present invention further, described water supply chamber and add and set water supply joint between heat container, set in this water supply joint
Having water channel, this water channel cross-sectional area is less than 26 square millimeters;Led to by described water supply joint and interior water supply thereof
Described water supply chamber is connected by road with adding heat container.So, when the water vapour added in heat container promotes water flowing, water channel
Interior water is under surface tension effects, and the water in water supply chamber now can not be by the water supply in water supply joint (owing to the time is shorter)
Passage flows into and adds in heat container, and when adding generation suction in heat container, the water in water supply chamber is sucked by this water channel and adds
In heat container;When heating container work a period of time, when quitting work, the gas that can not be reduced to water produced in adding heat container
In slowly entering water supply chamber along water channel and remain in top in water supply chamber;When adding heat container and being again started up work,
The water vapour produced in it dispels the heat, liquefaction, and volume diminishes, and produces resorption power, the water that will retain below water supply chamber, is connect by water supply
Water channel in Tou sucks within adding heat container, enters the water added in heat container and mixes with its interior water vapour, makes water vapour
Liquefaction rapidly, volume diminishes, and produces bigger resorption power, and the gas then retained top in water supply chamber is in company with current or by current
Impact formation bubble is together sucked by the water channel in water supply joint and adds in heat container, meanwhile, also by storage tank
Water suck in water supply chamber, the water in storage tank is inhaled into is added heat container by backwater check valve, water supply chamber, water channel
In, 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 enters in storage tank through water outlet connecting tube, radiating tube, water inlet connecting tube, enters the gas that can not be reduced to water in storage tank
Body is discharged to air.So, it is ensured that the water channel that water supply chamber can pass through in water supply joint at any time is straight within adding heat container
Connect water supply, thus avoid gas and block up, it is impossible to backwater, cause anhydrous dry combustion method phenomenon.Water channel cross-sectional area is alternatively 26,25,
24, less than 23,22,21,20,19,18,17,16,15,14,13,12,11,10 square millimeters.
For improving the present invention further, described water supply joint is provided with water nozzle and is connected with described water channel, should
Water nozzle is located in described water supply chamber, and is provided with Kong Bingyu water supply chamber at this water nozzle sidewall and communicates.So, the water within adding heat container
During the flowing of Steam Actuation water, the water in water channel is under surface tension effects, and the water in water supply chamber is now (due to the time relatively
Short) can not add in heat container by water channel inflow, when adding generation suction in heat container, the water in water supply chamber passes through water again
Hole on nozzle and sidewall thereof, water channel are drawn into and add in heat container;When heating container work a period of time, when quitting work,
The gas that can not be reduced to water produced in adding heat container slowly enters water supply along the water channel in water supply joint, Shui Zui
Indoor also remain in the interior top of water supply chamber;When adding heat container and being again started up work, the water vapour produced in it dispels the heat, liquefaction,
Volume diminishes, and produces resorption power, the water that will retain below water supply chamber, is sucked by hole, water channel within adding heat container, enters
The water added in heat container mixes with its interior water vapour, makes water vapour liquefy rapidly, and volume diminishes, and produces bigger resorption power, so
After the gas that retains of top in water supply chamber sucked by the water channel in water nozzle, water supply joint add in heat container, with this with
Time, also the water in storage tank is sucked in water supply chamber, the water in storage tank by backwater check valve, water supply chamber, Shui Zui, hole,
Water channel is inhaled into and adds in heat container, sucks and adds the heated generation water vapour again of the water in heat container, and promotes it interior
Water and the interior gas that can not be reduced to water thereof enter in storage tank through water outlet connecting tube, radiating tube, water inlet connecting tube, enter water storage
The gas that can not be reduced to water in case is discharged to air.So, it is ensured that water supply chamber can pass through Shui Zui, hole, water supply at any time
Water channel in joint directly supplies water within adding heat container, thus avoids gas and block up, it is impossible to backwater, causes anhydrous dry combustion method existing
As.
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 internal diameter is 2mm-6mm;Described feed pipe one end is stretched in water supply chamber, and the other end is connected with adding heat container;
Stretch at described feed pipe and be provided with water supply hole on this section of tube wall in water supply chamber.So, the water vapour within adding heat container promotes
During water flowing, the water in feed pipe is under surface tension effects, and the water in water supply chamber now can not pass through (owing to the time is shorter)
Feed pipe flows into and adds in heat container, and when adding generation suction in heat container, the water in water supply chamber is inhaled by water supply hole, feed pipe again
Enter to add in heat container;When heating container work a period of time, when quitting work, produce in adding heat container can not be reduced to water
In gas slowly enters water supply chamber along feed pipe and remain in top in water supply chamber;It is again started up work when adding heat container
Time, the water vapour produced in it dispels the heat, liquefaction, and volume diminishes, and produces resorption power, and the water that will retain below water supply chamber, by supplying
Water hole, feed pipe suck within adding heat container, enter the water added in heat container and mix with its interior water vapour, make water vapour rapid
Liquefaction, volume diminishes, and produces bigger resorption power, and the gas then retained top in water supply chamber is sucked by feed pipe and adds thermal capacitance
In device, meanwhile, also being sucked in water supply chamber by the water in storage tank, the water in storage tank passes through backwater check valve, water supply
Room, feed pipe, water supply hole are inhaled into and add in heat container, suck and add the heated generation water vapour again of the water in heat container, and push away
Its interior water dynamic and the interior gas that can not be reduced to water thereof enter in storage tank through water outlet connecting tube, radiating tube, water inlet connecting tube,
The gas that can not be reduced to water entered in storage tank is discharged to air.So, it is ensured that water supply chamber at any time can be by supplying water
Hole, feed pipe directly supply water within adding heat container, thus avoid gas and block up, it is impossible to backwater, cause anhydrous dry combustion method phenomenon.
For improving the present invention further, described in add heat container and be tubulose and obliquely or vertically arrange.So, thermal capacitance will can be added
Device makes small volume, contains a small amount of water, it is easy to quickly heating, Quick water exit, makes cycle efficieny higher.During work, water vapour
Promotion adds the water in heat container and moves diagonally downward or straight down, forms adiabatic face between water vapour and the water surface, and water steams
Vapour is the least with the contact area of water, and water vapour is difficult to heat conduction in water, and the volume of water vapour is difficult to loss, so, water yield is big,
Leaving water temperature 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.
For improving the present invention further, set up backwater connecting tube, by this backwater connecting tube, described backwater check valve, confession
Storage tank is connected by hydroecium with adding heat container.So, it is more easy to install manufacture.
For improving the present invention further, set up vaporium in described adding between heat container and water outlet connecting tube.So, can be more
Accommodate well water vapour, and more easy heat radiation, backwater.
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, 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 water supply hole has certain resistance, in water supply chamber
The gas that side retains is sucked by feed pipe and adds in heat container.
For improving the present invention further, the hole on the sidewall of the water nozzle on described water supply joint, its aperture is 2.5mm-
4mm.So, make water be easy to by the hole entrance on water nozzle and sidewall thereof and add in heat container, and this hole has certain resistance
Power, the gas retained top in water supply chamber is sucked by water nozzle and adds in heat container.
For improving the present invention further, set up flexible cavity, by this flexibility cavity, described backwater check valve, water supply chamber
Storage tank is connected with adding heat container.So, in work process, the water vapour heat radiation produced within adding heat container, liquefaction, body
Amassing and diminish, when producing resorption power, under atmospheric pressure, this flexibility cavity produces elastic deformation, makes this flexibility cavity narrow
Or attenuate, now, current within it by being obstructed, make backwater slow, at the same time, enter into the part adding in heat container
Water, enters fluidized state so that the resorption power added in heat container diminishes, and this flexibility cavity occurs again elastic deformation, this compliance cavity
Body broadens or thicker or restore to the original state, and so, current smoothly pass over again flexible cavity, backwater check valve, water supply chamber are inhaled into
To adding in heat container, until being filled water in adding heat container, complete backwater process.During above-mentioned backwater, due to flexible cavity
Effect, makes slower constantly the entering of water add in heat container, so, can be reduced or eliminated and add the impact of current, shake in heat container
Dynamic, thus realize reducing or eliminate and add the purpose of noise in heat container.
The present invention will be because at storage tank and add and be additionally provided with water supply chamber between heat container, by this water supply chamber, backwater check valve will
Storage tank is connected with adding heat container.In work process, when heating container work a period of time, when quitting work, add heat container
The gas that can not be reduced to water of interior generation enter in water supply chamber and remain in water supply chamber in top;Again open when adding heat container
When starting building to make, the water vapour produced in it dispels the heat, liquefaction, and volume diminishes, and produces resorption power, makes the water very first time in water supply chamber
Supply adds heat container, enters the water added in heat container and mixes with its interior water vapour, makes water vapour liquefy rapidly, and volume diminishes,
Produce bigger resorption power, the most again the gas that top in water supply chamber retains in company with current or is formed bubble together by water impact
Suction adds in heat container, is also sucked in water supply chamber by the water in storage tank meanwhile, and the water in storage tank is unidirectional by backwater
Valve, water supply chamber are inhaled into and add in heat container, suck and add the heated generation water vapour again of the water in heat container, and promote it interior
Water and the interior gas that can not be reduced to water thereof enter in storage tank through water outlet connecting tube, radiating tube, water inlet connecting tube, enter water storage
The gas that can not be reduced to water in case is discharged to air, so circulates.So, it is ensured that water supply chamber at any time can be to adding thermal capacitance
Directly supply water in device, thus avoid gas and block up, it is impossible to backwater, cause anhydrous dry combustion method phenomenon, promote these properties of product further, make
It is more easy to popularize.
Accompanying drawing explanation
Fig. 1-10 is embodiment of the present invention structural representation.Wherein:
When Figure 10 radiator of the present invention is blanket, pad, bedding body, radiating tube one arrangement figure.
In Fig. 1-10, arrow show water movement and check valve direction.
Detailed description of the invention
Shown in Fig. 1-10, storage tank 1 communicates with air;In radiator 8 is located at by radiating tube 10 or surface;Heating 5 sets
In adding heat container 6 sidewall;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 communicate with water inlet connecting tube 11 again, and water inlet connecting tube 11 communicates with storage tank 1 again, and storage tank 1 passes through backwater connecting tube 15, returns
Water one-way valve 2 communicates with adding heat container 6;At storage tank 1 and add and be additionally provided with water supply chamber 16 between heat container 6, by this water supply chamber
16, storage tank 1 is connected by backwater check valve 2 with adding heat container 6.
By storage tank 1, water supply chamber 16, add heat container 6 in fill water, heating 5 electrified regulation, make to add in heat container 6
Coolant-temperature gage rise boiling and produce water vapour expanding, backwater check valve 2 is closed simultaneously, 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 in entering water outlet connecting tube 9, and liquefaction, volume diminish, and produces resorption power, due to water outlet connecting tube 9, heat radiation
Pipe 10, the drag effect of water inlet connecting tube 11, make backwater check valve 2 open, and is sucked by the water in water supply chamber 16 and adds heat container 6
In, meanwhile, also the water in storage tank 1 is sucked in water supply chamber 16;Work a period of time when adding heat container 6, stop work
When making, add in the interior gas that can not be reduced to water produced of heat container 6 enters into water supply chamber 16 and remain in water supply chamber 16
Side;When adding heat container 6 and being again started up work, the water vapour produced in it dispels the heat, liquefaction, and volume diminishes, and produces resorption power, makes
Water very first time supply in water supply chamber 16 adds heat container 6, enters the water added in heat container 6 and mixes with its interior water vapour, makes
Water vapour liquefies rapidly, and volume diminishes, and produces bigger resorption power, and the gas retained top in water supply chamber 16 the most again is in company with water
Stream or formed bubble by water impact and together suck and add in heat container 6, meanwhile, also by the water in storage tank 1 in water supply chamber 16
Sucking, the water in storage tank 1 is inhaled into is added in heat container 6 by backwater connecting tube 15, backwater check valve 2, water supply chamber 16, sucks
Add the heated generation water vapour again of the water in heat container 6, and promote its interior water and the interior gas warp that can not be reduced to water thereof
Water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11 enter in storage tank 1, enter and can not be reduced to water in storage tank 1
Gas is discharged to air, so circulates.So, it is ensured that water supply chamber 16 directly can supply water at any time within adding heat container 6, thus
Avoid gas to block up, it is impossible to backwater, cause anhydrous dry combustion method phenomenon.
Shown in Fig. 1-9, water supply chamber 16 is located at higher than adding heat container 6 position.So, produce when adding hot water can not be reduced to
The gas of water, it is easier in entering water supply chamber 16 and remain in top in water supply chamber 16, it is ensured that water supply chamber 16 at any time can be to
Directly supply water in adding heat container 6, thus avoid gas and block up, it is impossible to backwater, cause anhydrous dry combustion method phenomenon.
Shown in Fig. 5,7,8, water supply chamber 16 and add and set water supply joint 18 between heat container 6, it is provided with confession in this water supply joint 18
Aquaporin 23, this water channel 23 cross-sectional area is less than 26 square millimeters;By water supply joint 18 and interior water channel thereof
Water supply chamber 16 is connected by 23 with adding heat container 6.So, when the water vapour added in heat container 6 promotes water flowing, water channel
Water in 23 is under surface tension effects, and the water in water supply chamber 16 now can not be by water supply joint 18 (owing to the time is shorter)
Water channel 23 flow into add in heat container 6, when add heat container 6 in produce suction time, the water in water supply chamber 16 again pass through this confession
Aquaporin 23 sucks and adds in heat container 6;Work a period of time when adding heat container 6, when quitting work, produce in adding heat container 6
Can not be reduced in the gas of water slowly enters water supply chamber 16 along water channel 23 and remain in top in water supply chamber 16;When
Adding heat container 6 when being again started up work, water vapour heat radiation of producing in it, liquefaction, volume diminishes, and produces resorption power, will supply water
The water retained below room 16, is sucked within adding heat container 6 by the water channel 23 in water supply joint 18, enters and adds heat container 6
Interior water mixes with its interior water vapour, makes water vapour liquefy rapidly, and volume diminishes, and produces bigger resorption power, then will supply water
The gas that in room 16, top retains is in company with current or is formed bubble by water impact and passes through water channel 23 and together suck and add thermal capacitance
In device 6, meanwhile, also being sucked in water supply chamber 16 by the water in storage tank 1, the water in storage tank 1 passes through backwater connecting tube
15, the water channel 23 in backwater check valve 2, water supply chamber 16, water supply joint 18 is inhaled into and adds in heat container 6, sucks heating
Water in container 6 is again heated 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 9, radiating tube 10, water inlet connecting tube 11 enter in storage tank 1, enter the gas that can not be reduced to water in storage tank 1
Discharge to air.So, it is ensured that water supply chamber 16 at any time can be by the water channel 23 in water supply joint 18 to adding heat container 6
Interior directly water supply, thus avoid gas and block up, it is impossible to backwater, causes anhydrous dry combustion method phenomenon.
Shown in Fig. 9, water supply chamber 16 and add and set water supply joint 18 between heat container 6, being provided with water supply in this water supply joint 18 logical
Road 23, this water channel 23 cross-sectional area is less than 26 square millimeters;Will by water supply joint 18 and interior water channel 23 thereof
Water supply chamber 16 is connected with adding heat container 6;Water supply joint 18 is provided with water nozzle 25 and is connected with water channel 23, this water nozzle
25 are located in water supply chamber 16, and are provided with hole 26 at water nozzle 25 sidewall and communicate with water supply chamber 16.So, within adding heat container 6
Water vapour promote water flowing time, the water in water channel 23 under surface tension effects, the water in water supply chamber 16 now (due to time
Between shorter) can not be flowed into by water channel 23 and add in heat container 6, when adding heat container 6 in generation suction, in water supply chamber 16
Water passes through the hole 26 on water nozzle 25 and sidewall thereof again, the water channel 23 in water supply joint 18 is drawn into and adds in heat container 6;When adding
Heat container 6 works a period of time, and when quitting work, the gas that can not be reduced to water produced in adding heat container 6 is logical along supplying water
In road 23, water nozzle 25 slowly enter water supply chamber 16 and remain in top in water supply chamber 16;It is again started up work when adding heat container 6
Time, the water vapour produced in it dispels the heat, liquefaction, and volume diminishes, and produces resorption power, the water that will retain below water supply chamber 16, passes through
Hole 26, water channel 23 suck within adding heat container 6, enter the water added in heat container 6 and mix with its interior water vapour, make water steam
Vapour liquefies rapidly, and volume diminishes, and produces bigger resorption power, the gas then top in water supply chamber 16 retained by water nozzle 25,
Water channel 23 sucks and adds in heat container 6, meanwhile, is also sucked in water supply chamber 16 by the water in storage tank 1, storage tank 1
Interior water is led to by the water supply in backwater connecting tube 15, backwater check valve 2, water supply chamber 16, water nozzle 25, hole 26, water supply joint 18
Road 23 is inhaled into and adds in heat container 6, sucks and adds the heated generation water vapour again of the water in heat container 6, and promotes its interior water
And the interior gas that can not be reduced to water enters in storage tank 1 through water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11, enter
The gas that can not be reduced to water in storage tank 1 is discharged to air.So, it is ensured that water supply chamber 16 can pass through water nozzle at any time
25, the water channel 23 in hole 26, water supply joint 18 directly supplies water within adding heat container 6, thus avoids gas and block up, it is impossible to return
Water, causes anhydrous dry combustion method phenomenon.Water channel 23 cross-sectional area most preferably 8-20 square millimeter.When water channel 23 is circular
Time, preferably 3.5mm-5mm, optimum diameter is 4mm.Water supply joint 18 and water supply chamber 16 can be Split type structures, it is also possible to system
Into a single integrated structure;Water channel 23 in water supply joint 18 can be circular, square, triangle, trapezoidal, polygon etc., when being
Time circular, diameter is less than 6mm;Water supply joint 18 and water nozzle 25 can be formed integrally structure.
Shown in Fig. 9, the hole 26 on the sidewall of the water nozzle 25 on water supply joint 18, its aperture is 2.5mm-4mm.So, make
Water is easy to be entered by the hole 26 on water nozzle 25 and sidewall thereof add in heat container 6, and this hole 26 has certain resistance, will
The gas that in water supply chamber 16, top retains is sucked by water nozzle 25 and adds in heat container 6.Hole 26 on the sidewall of water nozzle 25 can set
Two or more.
Fig. 1-4, shown in 6, set up feed pipe 20, by this feed pipe 20, water supply chamber 16 is connected with adding heat container 6;Supply
Water pipe 20 internal diameter is 2mm-6mm;Feed pipe 20 one end is stretched in water supply chamber 16, and the other end is connected with adding heat container 6;Supplying water
This section of tube wall that pipe 20 stretches in water supply chamber 16 is provided with water supply hole 19.So, the water vapour within adding heat container 6 promotes current
Time dynamic, the water in feed pipe 16 is under surface tension effects, and the water in water supply chamber 16 now can not pass through (owing to the time is shorter)
Feed pipe 20 flow into add in heat container 6, when add heat container 6 in produce suction time, the water in water supply chamber 16 again pass through water supply hole 19,
Feed pipe 20 is drawn into and adds in heat container 6;Work a period of time when adding heat container 6, when quitting work, produce in adding heat container 6
The gas that can not be reduced to water slowly enter water supply chamber 16 along feed pipe 20 in and remain in top in water supply chamber 16;When
Adding heat container 6 when being again started up work, water vapour heat radiation of producing in it, liquefaction, volume diminishes, and produces resorption power, will supply water
The water retained below room 16, is sucked within adding heat container 6 by water supply hole 19, feed pipe 20, enter add water in heat container 6 with
Its interior water vapour mixing, makes water vapour liquefy rapidly, and volume diminishes, and produces bigger resorption power, then by interior for water supply chamber 16
The gas that side retains is sucked by feed pipe 20 and adds in heat container 6, meanwhile, also by the water in storage tank 1 to water supply chamber 16
Interior suction, the water in storage tank 1 passes through backwater connecting tube 15, backwater check valve 2, water supply chamber 16, feed pipe 20, water supply hole 19 quilt
Suction adds in heat container 6, sucks and adds the heated water vapour that produces again of the water in heat container 6, and promotes its interior water and interior
The gas that can not be reduced to water enters in storage tank 1 through water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11, enters storage tank
The gas that can not be reduced to water in 1 is discharged to air.So, it is ensured that water supply chamber 16 can pass through water supply hole 19 at any time, supply
Water pipe 20 directly supplies water within adding heat container 6, thus avoids gas and block up, it is impossible to backwater, causes dry combustion method phenomenon.
Fig. 1-4, shown in 6, the water supply hole 19 on feed pipe 20 wall, its aperture is 2.5mm-4mm.So, water is made to be easy to
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. 1-9, add heat container 6 and for tubulose and obliquely or vertically arrange.So, volume can be made by adding heat container 6
Less, contain a small amount of water, it is easy to quickly heating, Quick water exit, make cycle efficieny higher.During work, water vapour promotes and adds thermal capacitance
Water in device 6 moves diagonally downward or straight down, forms adiabatic face between water vapour and the water surface, and the connecing of water vapour and water
Contacting surface is long-pending the least, and water vapour is difficult to heat conduction in water, and the volume of water vapour is difficult to loss, so, water yield is big, leaving water temperature
Low, 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 heat container 6
Interior heated wall can be bright finish, and so, under duty, in adding heat container 6, heated wall is little with the contact surface of water, so, produce
Quantity of steam the least, go out water speed fast, be more easy to backwater.
Shown in Fig. 1-9, set up backwater connecting tube 15, by this backwater connecting tube 15, backwater check valve 2, water supply chamber 16, supply
Storage tank 1 is connected by water swivel 18, feed pipe 20 with adding heat container 6.So, it is more easy to install, manufacture.
Shown in Fig. 1-5, set up flexible cavity 3, by this flexibility cavity 3, backwater connecting tube 15, backwater check valve 2, supply water
Storage tank 1 is connected by room 16, feed pipe 20 with adding heat container 6.So, under duty, the water produced within adding heat container 6
Steam dispels the heat, liquefaction, and volume diminishes, and when producing resorption power, under atmospheric pressure, this flexibility cavity 3 produces elastic deformation,
Making this flexibility cavity 3 narrow or attenuate, now, current within it by being obstructed, make backwater slow, and at the same time, enter
To the part water added in heat container 6, enter fluidized state so that the resorption power added in heat container 6 diminishes, and this flexibility cavity 3 is again
Occur elastic deformation, this flexibility cavity 3 broaden thicker or restore to the original state, so, current smoothly pass over again flexibility cavity 3,
Backwater connecting tube 15, backwater check valve 2, water supply chamber 16, feed pipe 20, water supply hole 19, water supply joint 18 are inhaled into and add thermal capacitance
In device 6, until being filled water in adding heat container 6, complete backwater process.During above-mentioned backwater, due to the effect of flexible cavity 3,
Make slower constantly the entering of water add in heat container 6, so, can be reduced or eliminated and add the impact of current, vibrations in heat container 6,
Thus realize reducing or eliminating adding the purpose of noise in heat container 6.
Shown in Fig. 1,2,5,6, set up vaporium 7 between heat container 6 and water outlet connecting tube 9 adding.So, can more preferably accommodate
Water vapour, and more easy heat radiation, backwater.Vaporium 7 can be made up of (generally pyrite or aluminum, aluminium alloy) metal tube.So,
Can preferably accommodate water vapour so that it is more easy heat radiation, backwater.Vaporium 7 can be in charge of part by 2-6 and make.
Shown in Fig. 3,4,7,8, 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.
Fig. 4, shown in 8, can be connected by water out adapter 22 between heat container 6 with steam pipe 14 adding.So, it is more easy to peace
Dress, manufacture.
Shown in Fig. 1,5,8, add between heat container 6 and storage tank 1 by vaporium 7, steam pipe 14, water outlet connecting tube 9, dissipate
On the path that heat pipe 10, water inlet connecting tube 11 are 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 is closed, it is to avoid effluent recycling, thus realizes more preferable backwater.
Shown in Fig. 1-9, set attemperating unit 13 on heat container 6 adding.So, heat container 6 temperature is added when what a variety of causes caused
When spending high, this attemperating unit 13 can deenergization, temperature decline time switch on power again.Attemperating unit 13 power-off temperature can set
Between 100 DEG C-150 DEG C, specifically can be set to 100 DEG C, 105 DEG C, 110 DEG C, 115 DEG C, 120 DEG C, 125 DEG C, 130 DEG C, 135 DEG C,
140 DEG C, 145 DEG C, 150 DEG C, be optimal with 115 DEG C-135 DEG C, concretely 115 DEG C, 120 DEG C, 125 DEG C, 130 DEG C.Additionally should
Attemperating unit 13 also can realize another function, heats water producing water vapor when adding heat container 6, when promoting water flowing or flowing stops
Time only, this attemperating unit 13 deenergization, treat that water vapour dispels the heat, liquefies, produces resorption power, during backwater or after backwater, this temperature control
Device 13 switches on power again, makes water so go round and begin again circulating heat transfer, i.e. control electricity circulation pattern.
Shown in Fig. 1,3,4,6,8, set up defecator 17, unidirectional by this defecator 17, backwater connecting tube 15, backwater
Storage tank 1 is connected by valve 2, flexible cavity 3, water supply chamber 16, feed pipe 20, water supply joint 18 with adding heat container 6.So, may be used
Prevent impurity from entering in check valve so that it is malfunctioning.Defecator 17 may be alternatively provided at outside storage tank 1 in may be provided in storage tank 1.
Shown in Fig. 1-9, adding heat container 6 and be made up of aluminum or aluminum alloy material, heating 5 uses PTC heating to heat.
So, being rapidly heated, flash heat transfer, make its more preferable circulating heat transfer, work efficiency is higher.Add heat container 6 can be circular tube shaped also
Can be square tube type, typically it be inner circle foreign side, the general 6mm-30mm of its internal diameter, length 10mm-300mm;When power is at 600W
Time following, internal diameter optimum 10mm-16mm is best, and length is at 30mm-150mm preferably.
In the present invention, backwater connecting tube 15 internal diameter is 2mm-6mm, most preferably 3.5mm, 3.8mm, 4mm, 4.5mm, 5mm.Enter
Water 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, 3mm-5mm are optimal.
In the present invention, backwater: refer to enter into the water added in heat container 6, vaporium 7, steam pipe 14, water outlet connecting tube 9
Steam dispel the heat, liquefaction, volume diminishes, produce resorption power, by the water in storage tank 1 by defecator 17, backwater connecting tube 15,
Water channel 23 in backwater check valve 2, flexible cavity 3, water supply chamber 16, water nozzle 25, hole 26, water supply joint 18, feed pipe 20,
Water supply hole 19, sucks and adds the process in heat container 6, vaporium 7, steam pipe 14, water outlet connecting tube 9.
In accompanying drawing 10 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, radiating tube 10 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
The products such as blanket, pad, bedding, shoulder protector, heat-treatment clothes, 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.
The present invention is for the products such as water warming blanket, pad, bedding, a heatable brick bed plate, hydrothermal blanket, pad, bedding, thermatology pad, clothes, duty
Under, adding heat container 6 operating temperature when 100 DEG C (under the water fluidized state adding in heat container 6), power is 100W-600W, most preferably
Power is 250W-600W, can be 250W, 300W, 350W, 400W.
In the present invention, in Fig. 1-3,5-9, radiator 8 is blanket, pad, bedding body;In Fig. 4, radiator 8 circulates thermotherapy for water
Clothes.
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 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.
In the present invention, flexible cavity 3 can be located at storage tank 1 inside or storage tank 1 is outside.Flexible cavity 3 can be cryptomere,
Can also be tubulose, can be specifically that thin-walled silica gel tube is made, wall thickness at about 0.5mm, internal diameter at 3mm-8mm, optimal internal diameter
For 5mm-6mm.
In the present invention, feed pipe 20, water nozzle 25 can be made up of plastics or metal material;Water supply chamber 16 can be made up of pipe fitting,
Specifically can be in charge of part by 2-4 to make.
In the present invention, storage tank 1 and the position relationship adding heat container 6 do not limit, and storage tank 1 can be located at and add heat container 6
Top, it is possible to be located at and add heat container 6 lateral location, all in the present invention protects.
Claims (10)
1. a heat energy water circulation system, including: storage tank (1), adds heat container (6), heating (5), backwater check valve
(2), water outlet connecting tube (9), water inlet connecting tube (11), radiator (8), radiating tube (10);Radiator (8) and radiating tube (10) phase
In conjunction with;Heating (5) combines with adding heat container (6);Add heat container (6) to communicate with water outlet connecting tube (9), water outlet connecting tube
(9) communicate with radiating tube (10) again, radiating tube (10) again with water inlet connecting tube (11) communicate, water inlet connecting tube (11) again with water storage
Case (1) communicates, and storage tank (1) is communicated with adding heat container (6) by backwater check valve (2);It is characterized in that: at described storage tank
And add and be additionally provided with water supply chamber (16) between heat container (6), by this water supply chamber (16), described backwater check valve (2) by water storage (1)
Case (1) is connected with adding heat container (6).
Heat energy water circulation system the most according to claim 1, it is characterised in that: described water supply chamber (16) is located at higher than heating
Container (6) position.
Heat energy water circulation system the most according to claim 1 and 2, it is characterised in that: described water supply chamber (16) with add thermal capacitance
Set water supply joint (18) between device (6), in this water supply joint (18), be provided with water channel (23), this water channel (23) cross section
Amass is less than 26 square millimeters;By described water supply joint (18) and interior water channel (23) thereof by described water supply chamber (16) with
Add heat container (6) to be connected.
Heat energy water circulation system the most according to claim 3, it is characterised in that: on described water supply joint (18), it is provided with water
Nozzle (25) is also connected with described water channel (23), and this water nozzle (25) is located in described water supply chamber (16), and at this water nozzle
(25) sidewall is provided with hole (26) and communicates with water supply chamber (16).
Heat energy water circulation system the most according to claim 1 and 2, it is characterised in that: set up feed pipe (20), by this confession
Described water supply chamber (16) is connected by water pipe (20) with adding heat container (6);Described feed pipe (20) internal diameter is 2mm-6mm;Described
Feed pipe (20) one end is stretched in water supply chamber (16), and the other end is connected with adding heat container (6);Stretch at described feed pipe (20)
This section of tube wall in water supply chamber (16) is provided with water supply hole (19).
Heat energy water circulation system the most according to claim 1 and 2, it is characterised in that add described in: heat container (6) be tubulose also
Obliquely or vertically arrange.
Heat energy water circulation system the most according to claim 1 and 2, it is characterised in that: set up backwater connecting tube (15), pass through
Storage tank (1) is connected by this backwater connecting tube (15), described backwater check valve (2), water supply chamber (16) with adding heat container (6).
Heat energy water circulation system the most according to claim 1 and 2, it is characterised in that: add heat container (6) and water outlet described
Vaporium (7) is set up between connecting tube (9).
Heat energy water circulation system the most according to claim 1 and 2, it is characterised in that: add heat container (6) and water outlet described
Steam pipe (14) is set up between connecting tube (9).
Heat energy water circulation system the most according to claim 1 and 2, it is characterised in that: add heat container (6) and storage described
Optional position on the path being connected to form by water outlet connecting tube (9), radiating tube (10), water inlet connecting tube (11) between water tank (1)
Set up out water one-way valve (12).
Applications Claiming Priority (2)
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CN201610092011 | 2016-02-11 | ||
CN2016100920116 | 2016-02-11 |
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CN201610542493.0A Withdrawn CN106196566A (en) | 2016-02-11 | 2016-07-03 | heat energy water circulation system |
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CN106839064A (en) * | 2017-03-25 | 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 |
CN107062368A (en) * | 2017-05-22 | 2017-08-18 | 王彤宇 | heat energy water circulation system |
CN109520006A (en) * | 2018-10-25 | 2019-03-26 | 王彤宇 | Mute High-efficient Water circulation heating blanket, mattress system |
CN109764386A (en) * | 2018-12-19 | 2019-05-17 | 王彤宇 | Hot water circuit heat transfer heating system |
CN109780616A (en) * | 2019-01-14 | 2019-05-21 | 王彤宇 | Hot-water circulation heating system |
CN109780617A (en) * | 2019-01-14 | 2019-05-21 | 王彤宇 | Hot-water circulation heating system |
CN109945286A (en) * | 2019-02-11 | 2019-06-28 | 王彤宇 | Mute efficient water-heating circulating heating system |
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CN106839064A (en) * | 2017-03-25 | 2017-06-13 | 王彤宇 | Heat energy water circulation system |
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CN109764386A (en) * | 2018-12-19 | 2019-05-17 | 王彤宇 | Hot water circuit heat transfer heating system |
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CN109945286A (en) * | 2019-02-11 | 2019-06-28 | 王彤宇 | Mute efficient water-heating circulating heating system |
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