CN105757771A - Heat energy water circulating system - Google Patents

Abstract

The invention relates to a heat energy water circulating system which utilizes steam to push water to circularly flow and transfer heat, in particular to a heat energy water circulating system used for hot water blankets, cushions, beddings and the like, and aims at providing a heat energy water circulating system which can automatically discharge air and heat the hot water blankets, cushions, beddings, water circulation thermal therapy clothes and the others which achieve water circulation heat transferring when air exists in a heating container.The heating container is communicated with a water outlet connecting pipe, the water outlet connecting pipe is communicated with a heat dissipating pipe, the heat dissipating pipe is communicated with a water inlet connecting pipe, the water inlet connecting pipe is communicated with a water storage tank, and the water storage tank is communicated with the heating container through a backwater connecting pipe and a backwater one-way valve.The heat energy water circulating system further comprises a water pump which is communicated with a water way of the water storage tank and the heating container.When air exists in the heating container, burning without water is conducted, and the temperature of the heating container is increased to 100 DEG C or above, the water pump starts to work and supplies water to the heating container, the temperature of the heating container is reduced, and the water pump stops working.

Description

Heat energy water circulation system

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 hydrothermal blanket, pad, bedding, case, bag, clothing, shoes and hats, tippet, waist support, rib, elbow support, wrister, legging, knee cap, spats ankle, hydro-thermal treats case, water heat treatment bag, hydro-thermal treat blanket, pad, the heat energy water circulation system such as heater using water heating, Water-heating bed, hydro-thermal a heatable brick bed, hydro-thermal floor heating, 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 and created name: hydrothermal blanket.In this patent use procedure, during water filling, hot-water line (add heat container) in air can remain in hot-water line (adding heat container), artificially it is difficult to discharge it, if the air do not discharged in hot-water line (adding heat container), just cannot start work, cause in-convenience in use.

Summary of the invention

It is an object of the present invention to provide a kind of when heating container leaves a blank gas, air can be automatically drained out, and can heated water re-circulation heat transfer hydrothermal blanket, pad, bedding, case, bag, clothing, shoes and hats, tippet, waist support, rib, elbow support, wrister, legging, knee cap, spats ankle, hydro-thermal treats case, water heat treatment bag, hydro-thermal treat blanket, pad, the heat energy water circulation system such as heater using water heating, Water-heating bed, hydro-thermal a heatable brick bed, hydro-thermal floor heating, 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, water outlet connecting tube, water inlet connecting tube, radiator, radiating tube；Radiator combines with radiating tube；Heating combines with adding heat container, forms 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 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；When heating container is left a blank the anhydrous dry combustion method of gas, and heating vessel temp rises to more than 100 DEG C, starting mode of pump works, and is supplied to by water and adds in heat container, and heating vessel temp declines, and water pump quits work.

nullDuring use，Water is injected in storage tank，Now，Add and in heat container, be full of air，Switch on power，Heating will add heat container heating，When heating vessel temp rises to more than 100 DEG C，Starting mode of pump works，Water in storage tank is supplied to and adds in heat container，Enter and add water in heat container and seethe with excitement rapidly generation water vapor expansion (making backwater closed check valve) after mixing with its interior air，Quickly enter water outlet connecting tube、Radiating tube、Water inlet connecting tube flows in storage tank，Air enters in storage tank，Discharge to air，Add the water vapour heat radiation produced in heat container，Liquefaction，Volume-diminished，Produce resorption power (backwater check valve is opened)，Water in storage tank is sucked and adds in heat container，Heating vessel temp declines，Water pump quits work，Then add heat container to continue heat its interior water producing water vapor and expand，Backwater closed check valve simultaneously，Water vapour promotes the water adding in heat container by water outlet connecting tube、Radiating tube、Water inlet connecting tube flows in storage tank，When the water emptying added in heat container，Water vapour dispels the heat rapidly，Liquefaction，Volume diminishes，Produce resorption power，Due to water outlet connecting tube、Radiating tube、The drag effect of water inlet connecting tube，Backwater check valve is opened，Water in storage tank is sucked and adds in heat container，So enter periodic duty state.

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 detect switch (TDS) is connected in a power with the heating added on heat container；Described water pump is connected in a power with the heating added on heat container；Described temperature detect switch (TDS) is in parallel with water pump in a power.nullSo，When heating vessel temp rises to more than 100 DEG C，Self circuit is disconnected by temperature detect switch (TDS)，Starting mode of pump works，Water in storage tank is supplied to and adds in heat container，Enter and add water in heat container and seethe with excitement rapidly generation water vapor expansion (making backwater closed check valve) after mixing with its interior air，Quickly enter water outlet connecting tube、Radiating tube、Water inlet connecting tube flows in storage tank，Air enters in storage tank，Discharge to air，Add the water vapour heat radiation produced in heat container，Liquefaction，Volume diminishes，Produce resorption power (backwater check valve is opened)，Water in storage tank is sucked and adds in heat container，Heating vessel temp declines，Self circuit connected by temperature detect switch (TDS)，Water pump quits work，Then add heat container to continue heat its interior water producing water vapor and expand，Backwater closed check valve simultaneously，Water vapour promotes the water adding in heat container by water outlet connecting tube、Radiating tube、Water inlet connecting tube flows in storage tank，When the water emptying added in heat container，Water vapour dispels the heat rapidly，Liquefaction，Volume diminishes，Produce resorption power，Due to water outlet connecting tube、Radiating tube、The drag effect of water inlet connecting tube，Backwater check valve is opened，Water in storage tank is sucked and adds in heat container，So enter periodic duty state.

For improving the present invention further, described in add heat container and be tubulose and obliquely or vertically arrange.So, small volume can be made by adding heat container, contain a small amount of water, it is easy to quickly heating, Quick water exit, make cycle efficieny higher.During work, water vapour promotes the water added in heat container to move diagonally downward or straight down, forms adiabatic face between water vapour and the water surface, and the contact area of water vapour and water is only small, water vapour is difficult in water heat conduction, and the volume of water vapour not easily loses, so, water yield is big, and leaving water temperature is low, and speed is fast, it is more easy to backwater, 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 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, add the gas that can not be reduced to water produced in heat container and enter in water supply chamber and remain in top in water supply chamber；When adding heat container and being again started up work, the water vapour heat radiation produced in it, liquefaction, volume diminishes, produce resorption power, 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, simultaneously, also the water in storage tank is sucked in water supply chamber, suck the water heated generation water vapour again adding in heat container, and promote its interior water and the interior gas that can not be reduced to water thereof through water outlet connecting tube, radiating tube, water inlet connecting tube enters in storage tank, the gas that can not be reduced to water entered in storage tank is discharged to air, so circulation.So, it is ensured that water supply chamber constantly to adding water supply in heat container, can block up thus avoiding gas, it is impossible to backwater, causing anhydrous dry combustion method phenomenon.

For improving the present invention further, set up feed pipe, by this feed pipe, described water supply chamber is connected with adding heat container；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 this section of tube wall in water supply chamber is provided with mean for water hole.So, when heating container work a period of time, when quitting work, add the gas that can not be reduced to water produced in heat container and enter in water supply chamber along feed pipe and remain in top in water supply chamber；When adding heat container and being again started up work, the water vapour heat radiation produced in it, liquefaction, volume diminishes, produce resorption power, the gas retained top in water supply chamber is sucked by feed pipe and adds in heat container, meanwhile, the water retained below water supply chamber, pass through water supply hole, feed pipe is to adding suction in heat container, and also the water in storage tank is sucked in water supply chamber, suck the water heated generation water vapour again adding in heat container, and promote its interior water and the interior gas that can not be reduced to water thereof through water outlet connecting tube, radiating tube, water inlet connecting tube enters in storage tank, the gas that can not be reduced to water entered in storage tank is discharged to air, so circulation.So, it is ensured that water supply chamber can pass through water supply hole, feed pipe constantly to adding water supply in heat container, blocking up thus avoiding gas, it is impossible to backwater, causing anhydrous dry combustion method phenomenon.

For improving the present invention further, set up flexible cavity, by this flexibility cavity, described backwater connecting tube, backwater check valve, storage tank is connected with adding heat container.So, in work process, when adding the water vapour heat radiation produced in heat container, liquefaction, volume diminishes, when producing resorption power, under atmospheric pressure, this flexibility cavity produces elastic deformation, this flexibility cavity is made to narrow or attenuate, now, current are within it by being obstructed, backwater is made to slow, at the same time, enter into the part water added in heat container, enter fluidized state, the resorption power adding in heat container is diminished, there is again elastic deformation in this flexibility cavity, this flexibility cavity broadens or thicker or reinstatement, so, current smoothly pass over again flexible cavity and are inhaled into and add in heat container, water it is filled in heat container until adding, complete backwater process.In above-mentioned backwater process, due to the effect of flexible cavity, make slower constantly the entering of water add in heat container, so, can reduce or eliminate and add the impact of current, vibrations in heat container, thus realizing reducing or elimination adds the purpose of noise in heat container.

For improving the present invention further, with adding, the water route communicated between heat container sets the second backwater connecting tube at described water pump, and set the second backwater check valve thereon, by the second backwater connecting tube, the second backwater check valve, described storage tank is connected with adding heat container.As such, it is possible to better the water in storage tank is sucked to adding in heat container by the second backwater connecting tube, and when water pump to add supply water in heat container time, the second backwater closed check valve, it is prevented that water enters in storage tank.

For improving the present invention further, set up vaporium in described adding between heat container and water outlet connecting tube.So, can better hold 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 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, is taken away in entrance storage tank by current, discharge to air during circulation next time.

For improving the present invention further, on the described path adding and being connected to form by water outlet connecting tube, radiating tube, water inlet connecting tube between heat container and storage tank, water one-way valve is set up out in optional position.So, when backwater, water outlet closed check valve, it is to avoid effluent recycling, thus realizing better backwater.

For improving the present invention further, described feed pipe internal diameter is 2mm-6mm, so, water in feed pipe is under surface tension effects, when adding the water vapour promotion water flowing in heat container, water in water supply chamber now will not pass through feed pipe inflow and add in heat container, and when adding generation suction in heat container, the water in water supply chamber sucks again through this feed pipe 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 to enter and add in heat container easily via water supply hole, feed pipe, and not easily be blocked by impurity.

The present invention supplies water to there being adding in heat container of air dry-fire condition because adopting water pump, make to add and produce rapidly water vapor expansion in heat container and mix with its interior air, thus discharging the air that heating container is stayed, do not need 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 and popularize.

Accompanying drawing explanation

Fig. 1-8 is embodiment of the present invention structural representation.

Fig. 7 is the circuit diagram of temperature detect switch (TDS) of the present invention, water pump, electric-heating container.

When Fig. 8 radiator of the present invention is blanket, pad, bedding body, radiating tube one arrangement figure.

In Fig. 1-8, arrow show water movement and check valve direction.

Detailed description of the invention

Shown in Fig. 1-8, storage tank 1 and atmosphere；Radiating tube 10 is located in radiator 8 or surface；Heating 5 is located at and is added on heat container 6, forms electric-heating container；Add 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 communicated with adding heat container 6 by backwater connecting tube 15, backwater check valve 2；Also including water pump 23, this water pump 23 and storage tank 1, the water route adding heat container 6 are connected；When adding the anhydrous dry combustion method of trapped air in heat container 6, adding heat container 6 temperature when rising to more than 100 DEG C, water pump 23 starts work, is supplied to by water and adds in heat container 6, adds heat container 6 temperature and declines, and water pump 23 quits work.

nullDuring use，Water is injected in storage tank 1，Now，Add and in heat container 6, be full of air，Switch on power，Heating 5 will add heat container 6 and heat，Add heat container 6 temperature when rising to more than 100 DEG C，Water pump 23 starts work，Water in storage tank 1 is supplied to and adds in heat container 6，Enter and add water in heat container 6 and seethe with excitement rapidly generation water vapor expansion (backwater check valve 2 is closed) after mixing with its interior air，Quickly enter water outlet connecting tube 9、Radiating tube 10、Water inlet connecting tube 11 flows in storage tank 1，Air enters in storage tank 1，Discharge to air，Add the water vapour heat radiation produced in heat container 6，Liquefaction，Volume-diminished，Produce resorption power (backwater check valve 2 is opened)，Water in storage tank 1 is sucked and adds in heat container 6，Add heat container 6 temperature to decline，Water pump 23 quits work，Then add heat container 6 to continue heat its interior water producing water vapor and expand，Backwater check valve 2 is closed simultaneously，Water vapour promotes the water adding in heat container 6 by water outlet connecting tube 9、Radiating tube 10、Water inlet connecting tube 11 flows in storage tank 1，When the water emptying added in heat container 6，Water vapour dispels the heat rapidly，Liquefaction，Volume diminishes，Produce resorption power，Due to water outlet connecting tube 9、Radiating tube 10、The drag effect of water inlet connecting tube 11，Backwater check valve 2 is opened，By the water in storage tank 1 by backwater connecting tube 15、Backwater check valve 2 sucks and adds in heat container 6，So enter periodic duty state.

Electric-heating container in Fig. 7 by heating 5 with add heat container 6 and combine and formed.In conjunction with Fig. 3,5,7, including temperature detect switch (TDS) 26, this temperature detect switch (TDS) 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 is in parallel with water pump 23 in a power.nullSo，Add heat container 6 temperature when rising to more than 100 DEG C，Self circuit is disconnected by temperature detect switch (TDS) 26，Water pump 23 starts work，Water in storage tank 1 is supplied to and adds in heat container 6，Enter and add water in heat container 6 and seethe with excitement rapidly generation water vapor expansion (backwater check valve 2 is closed) after mixing with its interior air，Quickly enter water outlet connecting tube 9、Radiating tube 10、Water inlet connecting tube 11 flows in storage tank 1，Air enters in storage tank 1，Discharge to air，Add the water vapour heat radiation produced in heat container 6，Liquefaction，Volume diminishes，Produce resorption power (backwater check valve 2 is opened)，Water in storage tank 1 is sucked and adds in heat container 6，Add heat container 6 temperature to decline，Self circuit connected by temperature detect switch (TDS) 26，Water pump 23 quits work，Then add heat container 6 to continue heat its interior water producing water vapor and expand，Backwater check valve 2 is closed simultaneously，Water vapour promotes the water adding in heat container 6 by water outlet connecting tube 9、Radiating tube 10、Water inlet connecting tube 11 flows in storage tank 1，When the water emptying added in heat container 6，Water vapour dispels the heat rapidly，Liquefaction，Volume diminishes，Produce resorption power，Due to water outlet connecting tube 9、Radiating tube 10、The drag effect of water inlet connecting tube 11，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 24、Second backwater check valve 25 sucks and adds in heat container 6，So enter periodic duty state.

Shown in Fig. 1-6, add heat container 6 and for tubulose and obliquely or vertically arrange.So, small volume can be made by adding heat container 6, contain a small amount of water, it is easy to quickly heating, Quick water exit, make cycle efficieny higher.During work, water vapour promotes the water added in heat container 6 to move diagonally downward or straight down, forms adiabatic face between water vapour and the water surface, and the contact area of water vapour and water is only small, water vapour is difficult in water heat conduction, and the volume of water vapour not easily loses, so, water yield is big, and leaving water temperature is low, and speed is fast, it is more easy to backwater, backwater amount is also big, the circulation of rapid, high volume so that it is work efficiency improves further；Adding the heated wall in heat container 6 can be bright finish, so, under duty, adds heated wall in heat container 6 little with the contact surface of water, so, the quantity of steam of generation is just little, goes out water speed fast, is more easy to backwater.

Shown in Fig. 1-6, set up water supply chamber 16, by this water supply chamber 16, backwater connecting tube 15, backwater check valve 2, water pump 23, storage tank 1 is connected with adding heat container 6.So, work a period of time when adding heat container 6, when quitting work, add the gas that can not be reduced to water produced in heat container 6 and enter in water supply chamber 16 and remain in top in water supply chamber 16；When adding heat container 6 and being again started up work, the water vapour heat radiation produced in it, liquefaction, volume diminishes, produce resorption power, the gas retained top in water supply chamber 16 is in company with current or is formed bubble by water impact and together sucks and add in heat container 6, simultaneously, also the water in storage tank 1 is sucked in water supply chamber 16, suck the water heated generation water vapour again adding in heat container 6, and promote its interior water and the interior gas that can not be reduced to water thereof through water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11 enters in storage tank 1, the gas that can not be reduced to water entered in storage tank 1 is discharged to air, so circulation.So, it is ensured that water supply chamber 16 constantly to adding water supply in heat container 6, can block up thus avoiding gas, it is impossible to backwater, causing anhydrous dry combustion method phenomenon.

Shown in Fig. 1-6, 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；Stretch at feed pipe 20 and this section of tube wall in water supply chamber 16 is provided with mean for water hole 19.So, work a period of time when adding heat container 6, when quitting work, add the gas that can not be reduced to water produced in heat container 6 and enter in water supply chamber 16 along feed pipe 20 and remain in top in water supply chamber 16；When adding heat container 6 and being again started up work, the water vapour heat radiation produced in it, liquefaction, volume diminishes, produce resorption power, the gas retained top in water supply chamber 16 is sucked by feed pipe 20 and adds in heat container 6, meanwhile, the water retained below water supply chamber 16, by water supply hole 19, feed pipe 20 is to adding suction in heat container 6, and also the water in storage tank 1 is sucked in water supply chamber 16, suck the water heated generation water vapour again adding in heat container 6, and promote its interior water and the interior gas that can not be reduced to water thereof through water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11 enters in storage tank 1, the gas that can not be reduced to water entered in storage tank 1 is discharged to air, so circulation.So, it is ensured that water supply chamber 16 can pass through water supply hole 19, feed pipe 20 constantly to adding water supply in heat container 6, blocking up thus avoiding gas, it is impossible to backwater, causing anhydrous dry combustion method phenomenon.

Shown in Fig. 1-6, feed pipe 20 internal diameter is 2mm-6mm.So, water in feed pipe 16 is under surface tension effects, when adding the water vapour promotion water flowing in heat container 6, water in water supply chamber 16 now will not pass through feed pipe 20 inflow and add in heat container 6, when adding generation suction in heat container 6, the water in water supply chamber 16 sucks again through this feed pipe 20 and adds in heat container 6.

Shown in Fig. 1-6, the water supply hole 19 on feed pipe 20 wall, its aperture is 2.5mm-4mm.So, water is made to enter and add in heat container 6 easily via water supply hole 19, feed pipe 20, and not easily be blocked by impurity.Water supply hole 19 can set two or more.

Shown in Fig. 1-6, feed pipe 20 stretches into this section in water supply chamber 16, its length 10mm-50mm.Add in heat container 6 in this way it is easier to the gas retained top in water supply chamber 16 is sucked by feed pipe 20.

Shown in Fig. 1-6, set up flexible cavity 3, by this flexibility cavity 3, backwater connecting tube 15, backwater check valve 2, water pump 23, storage tank 1 is connected with adding heat container 6.So, under duty, when adding the water vapour heat radiation produced in heat container 6, liquefaction, volume diminishes, when producing resorption power, under atmospheric pressure, this flexibility cavity 3 produces elastic deformation, this flexibility cavity 3 is made to narrow or attenuate, now, current are within it by being obstructed, backwater is made to slow, at the same time, enter into the part water added in heat container 6, enter fluidized state, the resorption power adding in heat container 6 is diminished, there is again elastic deformation in this flexibility cavity 3, this flexibility cavity 3 broadens or thicker or reinstatement, so, current smoothly pass over again flexible cavity 3 and are inhaled into and add in heat container 6, it is filled water until adding in heat container 6, complete backwater process.In above-mentioned backwater process, due to the effect of flexible cavity 3, make slower constantly the entering of water add in heat container 6, so, can reduce or eliminate and add the impact of current, vibrations in heat container 6, thus realizing reducing or elimination adds the purpose of noise in heat container 6.

Fig. 5, shown in 6, with adding, the water route communicated between heat container 6 sets the second backwater connecting tube 24 at water pump 23, and set the second backwater check valve 25 thereon, by second backwater connecting tube the 24, second backwater check valve 25, storage tank 1 is connected with adding heat container 6.As such, it is possible to better the water in storage tank 1 is sucked to adding in heat container 6 by the second backwater connecting tube 24, and when water pump 23 to add supply water in heat container 6 time, the second backwater check valve 25 is closed, it is prevented that water enters in storage tank 1.

Shown in Fig. 1,2,6, set up vaporium 7 between heat container 6 and water outlet connecting tube 9 adding.So, can better hold water vapour, and more easy heat radiation, backwater.Vaporium 7 can be made up of (being generally pyrite or aluminum, aluminium alloy) metal tube.Vaporium 7 can be in charge of part by 2-6 and make.

Shown in Fig. 3-5, 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, carries and remain in steam pipe 14 by the gas that can not be reduced to water produced when adding hot water, is taken away in entrance storage tank 1 by current, discharge to air during circulation next time.Steam pipe 14 material is red copper.So, more easy heat radiation, backwater.And play aerofluxus, sound deadening.

Shown in Fig. 1, set up out water one-way valve 12 adding optional position on the path being connected to form between heat container 6 and storage tank 1 by vaporium 7, water outlet connecting tube 9, radiating tube 10, water inlet connecting tube 11.So, when backwater, go out water one-way valve 12 and close, it is to avoid effluent recycling, thus realizing better backwater.

Fig. 4, shown in 5, can be connected by water out adapter 22 between heat container 6 with steam pipe 14 adding.So, it is more easy to installation, manufactures.

Shown in Fig. 1,2,4,6, adding, heat container 6 sets attemperating unit 13.So, when a variety of causes cause add heat container 6 temperature too high time, this attemperating unit 13 can deenergization, temperature decline time switch on power again.Attemperating unit 13 power-off temperature can be 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, with 115 DEG C-135 DEG C for best, concretely 115 DEG C, 120 DEG C, 125 DEG C, 130 DEG C.Additionally this attemperating unit 13 also can realize another function, water producing water vapor is heated when adding heat container 6, when promoting water to flow or when flowing stops, this attemperating unit 13 deenergization, treats water vapour heat radiation, liquefaction, produces resorption power, during backwater or after backwater, this attemperating unit 13 switches on power again, water is made so to go round and begin again circulating heat transfer, i.e. control electricity circulation pattern.

Shown in Fig. 1,3-5, set up defecator 17, by this defecator 17, backwater connecting tube 15, backwater check valve 2, water pump 23, flexible cavity 3, water supply chamber 16, feed pipe 20, storage tank 1 is connected with adding heat container 6.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 and may be alternatively provided at outside storage tank 1.

Shown in Fig. 1-6, adding heat container 6 and be made up of aluminum or aluminum alloy material, heating 5 adopts PTC heating to heat.So, being rapidly heated, flash heat transfer, make its better circulating heat transfer, work efficiency is higher.Adding heat container 6 can be circular tube shaped can also be square tube type, and generally it is inner circle foreign side, its internal diameter general 6mm-30mm, length 10mm-300mm；When power is when below 600W, internal diameter optimum 10mm-16mm is best, and length is at 30mm-150mm as well.

In the present invention, backwater connecting tube the 15, second backwater connecting tube 24 internal diameter is 2mm-6mm, and the best is 3.5mm, 3.8mm, 4mm, 4.5mm, 5mm.Water inlet connecting tube 11, water outlet connecting tube 9 internal diameter are 3mm-8mm, and the best is 4mm, 4.5mm, 5mm.

In the present invention, backwater: refer to the water vapour added in heat container 6, vaporium 7, steam pipe 14, water outlet connecting tube 9, heat radiation, condensation, liquefaction, volume diminishes, produce resorption power (negative pressure), by the water in storage tank 1 by the parts such as defecator 17, backwater connecting tube 15, backwater check valve the 2, second backwater connecting tube the 24, second backwater check valve 25, water pump 23, flexible cavity 3, water supply chamber 16, feed pipe 20, water supply hole 19, suck the process adding in heat container 6, vaporium 7, steam pipe 14, water outlet connecting tube 9.

In accompanying drawing 8 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, it is possible to be the arrangement of any mode in parallel or series.

In the present invention, radiating tube 10 may be provided in radiator 8 or surface.Concrete radiating tube 10 is silica gel tube.Manufacturing hydrothermal blanket, pad, bedding, shoulder protector, heat-treatment clothes etc., radiating tube 10 internal diameter is 3mm-8mm, and best internal diameter is 3.5mm, 3.8mm, 4mm, 4.5mm, 5mm.Concretely internal diameter 4mm* external diameter 6mm.

The present invention is used for water warming blanket, pad, bedding, hydrothermal blanket, pad, bedding, shoulder protector, heat-treatment clothes etc., under duty, add heat container 6 operating temperature when 100 DEG C (under the water fluidized state adding in heat container 6), power is 200W-600W, best power is 250W-400W, it is possible to for 250W, 300W, 350W, 400W.

In the present invention, Fig. 1-3, shown in 6, radiator 8 is blanket, pad, bedding body.Fig. 4, shown in 5, radiator 8 is water circulation heat-treatment clothes.

In the present invention, radiator 8 refers to radiator portion, can be specifically blanket, pad, bedding, case, bag, clothing, shoes and hats, tippet, waist support, rib, elbow support, wrister, legging, knee cap, spats ankle, radiator, bed, a heatable brick bed, floor, ground, wall etc..

In the present invention, backwater check valve 2 can be located at storage tank 1 inside or storage tank 1 is outside；Also can be located at and add in heat container 6；Also can be located in backwater connecting tube 15；Second backwater check valve 25 can be located at storage tank 1 inside or storage tank 1 is outside.

In the present invention, water pump 23 can be located at storage tank 1 inside or storage tank 1 is outside；When water pump 23 starts work, add the circuit of heating 5 on heat container 6 and can be powered off state, it is also possible to be switched on state.

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, it is also possible to is tubulose, can be specifically that thin-walled silica gel tube is made, and wall thickness is at about 0.5mm, and internal diameter is at 3mm-8mm, and best internal diameter is 5mm-6mm.

In the present invention, feed pipe 20 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 and make.So, it is more easy to installation, manufactures.

In the present invention, storage tank 1 and the position relationship adding heat container 6 are not limit, and storage tank 1 can be located at the top adding heat container 6, 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 connecting tube (15), backwater check valve (2), water outlet connecting tube (9), water inlet connecting tube (11), radiator (8), radiating tube (10)；Radiator (8) combines with radiating tube (10)；Heating (5) combines with adding heat container (6), forms electric-heating container；Add 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, water inlet connecting tube (11) communicates with storage tank (1) again, and storage tank (1) is communicated with adding heat container (6) by backwater connecting tube (15), backwater check 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) are connected；When adding the anhydrous dry combustion method of trapped air in heat container (6), add heat container (6) temperature when rising to more than 100 DEG C, water pump (23) starts work, water is supplied to and adds in heat container (6), adding heat container (6) temperature to decline, water pump (23) quits work.

2. heat energy water circulation system according to claim 1, it is characterised in that: include temperature detect switch (TDS) (26), this temperature detect switch (TDS) (26) be located at described in add on heat container (6)；Described temperature detect switch (TDS) (26) is connected in a power with the heating (5) added on heat container (6)；Described water pump (23) is connected in a power with the heating (5) added on heat container (6)；Described temperature detect switch (TDS) (26) is in parallel in a power with water pump (23).

3. heat energy water circulation system according to claim 1, it is characterised in that: described in add heat container (6) and for tubulose and obliquely or vertically arrange.

4. heat energy water circulation system according to claim 1, it is characterized in that: set up water supply chamber (16), by this water supply chamber (16), described backwater connecting tube (15), backwater check valve (2), storage tank (1) is connected with adding heat container (6).

5. heat energy water circulation system according to claim 4, it is characterised in that: set up feed pipe (20), by this feed pipe (20), described water supply chamber (16) is connected with adding heat container (6)；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) and this section of tube wall in water supply chamber (16) is provided with mean for water hole (19).

6. heat energy water circulation system according to claim 1, it is characterized in that: set up flexible cavity (3), by this flexibility cavity (3), described backwater connecting tube (15), backwater check valve (2), storage tank (1) is connected with adding heat container (6).

7. heat energy water circulation system according to claim 1, it is characterized in that: with adding, the water route communicated between heat container (6) sets the second backwater connecting tube (24) at described water pump (23), and set the second backwater check valve (25) thereon, by the second backwater connecting tube (24), the second backwater check valve (25), described storage tank (1) is connected with adding heat container (6).

8. heat energy water circulation system according to claim 1, it is characterised in that: set up vaporium (7) between heat container (6) and water outlet connecting tube (9) in described adding.

9. heat energy water circulation system according to claim 1, it is characterised in that: set up steam pipe (14) between heat container (6) and water outlet connecting tube (9) in described adding.

10. the heat energy water circulation system according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 8 or 9, it is characterised in that: on the described path adding and being connected to form by water outlet connecting tube (9), radiating tube (10), water inlet connecting tube (11) between heat container (6) and storage tank (1), water one-way valve (12) is set up out in optional position.