CN104207532A - Heat energy water circulation system - Google Patents

Abstract

The invention relates to a heat energy water circulation system that utilizes electrical heating of water to generate steam to drive water flow, and especially relates to the heat energy water circulation system of electrothermal water heating blankets, cushions, water heating beds, water heating bed boards, water heating brick beds, water heating brick bed boards, water heating bedding, radiators, heaters and the like. The invention aims to provide the heat energy water circulation system that has a good water return effect and can well supply water to a heating cylinder. A first scheme involved in the invention is characterized in that: the upper end of a fluid heating pipe is communicated with a steam chamber, and the lower end of the fluid heating pipe is connected to the steam chamber through a delayed water supply device. The communication part of the upper end of the fluid heating pipe and the steam chamber is higher than the connection part of the fluid heating pipe lower end and the steam chamber that are connected through the delayed water supply device. The fluid heating pipe is arranged obliquely. A second scheme involved in the invention is characterized in that: the heating cylinder is communicated with the steam chamber and is also in connection with the steam chamber through the delayed water supply device, and the communication part of the heating cylinder and the steam chamber is higher than the connection part of the heating cylinder and the steam chamber that are connected by the delayed water supply device.

Description

Heat energy water circulation system

Technical field:

The present invention relates to the heat energy water circulation system that a kind of electric-heating water produces Steam Actuation water flow, particularly relate to the heat energy water circulation system of electric heating water heating felt, pad (comprising mattress, cushion, ground cushion, sofa cushion, foot pad, bustle, bolster, thermatology pad etc.), water heating bed, hot-water heating bed board, hot-water heating a heatable brick bed, hot-water heating a heatable brick bed plate, hot-water heating bed clothes, radiator and warmer etc.

Background technology:

Chinese patent 201020215558.9 discloses a kind of hot water circular cushion for warming.Its technical scheme is: cartridge heater is connected with steam pipe one end, the steam pipe other end is connected with water outlet connecting hose one end, the water outlet connecting hose other end is connected with aquaporin one end, the aquaporin other end is connected with water inlet connecting hose one end, the water inlet connecting hose other end is connected with expansion tank, expansion tank is connected with backwater tube connector one end again, the backwater tube connector other end is connected with cartridge heater, on backwater tube connector between expansion tank and cartridge heater, optional position is established and is opened beginning check valve, forms peripheral passage.

But above scheme finds still have weak point through practice, in work, at not powered-down, under continued power loop condition when cartridge heater or vaporium backwater, this water enters at once in cartridge heater and produces water vapor expansion, cause cartridge heater or vaporium maybe can not can only return a small amount of water by backwater completely, cause overall circulating effect to reduce.

Summary of the invention:

The object of this invention is to provide a kind of backwater effective, and the heat energy water circulation system that well can supply water to fluid heating pipe or cartridge heater.

The present invention is realized by two kinds of technical schemes:

The first technical scheme of the present invention, comprising: storage tank, check valve, fluid heating pipe, heating, vaporium, radiator; Fluid heating pipe combines with heating; Aquaporin is provided with in radiator; Fluid heating pipe communicates with vaporium, and storage tank is communicated with vaporium by check valve, and vaporium is connected with aquaporin one end in radiator, and in radiator, the aquaporin other end communicates with storage tank, forms peripheral passage; It is characterized in that: fluid heating pipe upper end communicates with vaporium, this fluid heating pipe lower end is connected with vaporium by time delay water supply installation, and described fluid heating pipe upper end communicates place higher than described fluid heating pipe lower end by time delay water supply installation and vaporium connecting place with vaporium; Described fluid heating pipe is obliquely installed.

During work, water in fluid heating pipe is heated generation water vapour, water vapour tilts upward to move along fluid heating inside pipe wall and is heated continuously, and enter (now closed check valve) in vaporium by fluid heating pipe upper end with the vaporium place of communicating, and Preheated steam room and interior water thereof, simultaneously the water vapour water promoted in vaporium and fluid heating pipe enters aquaporin and flows in storage tank.When the water in fluid heating pipe is emptying and when dryouting, vaporium can not get thermal source support in it water vapour heat radiation condensation, smaller volume produces negative pressure (now because the drag effect of aquaporin makes check valve open), water in storage tank is sucked in vaporium by check valve, because described fluid heating pipe upper end communicates place higher than described fluid heating pipe lower end by time delay water supply installation and vaporium connecting place with vaporium, make to be drawn into water in vaporium to postpone a period of time by time delay water supply installation and flow in fluid heating pipe, like this, when extending backwater, chien shih vaporium can suck enough water gagings, and continue to supply water in fluid heating pipe, steam simultaneously in fluid heating pipe enters in vaporium by fluid heating pipe upper end with the vaporium place of communicating is supplementary, the water entered in fluid heating pipe is again produced water vapour by heating and repeats said process, realize circulating heat transfer.

Improve the present invention, more convenient for using, also comprise water outlet tube connector, water inlet tube connector, by this water outlet tube connector, described vaporium is connected with described aquaporin one end, by this water inlet tube connector, the described aquaporin other end is connected with described storage tank.

For improving the present invention, also comprise backwater tube connector, described storage tank is connected with described vaporium with described check valve by this backwater tube connector.Like this, making and installation is easier to.

For improving the present invention, described time delay water supply installation is pipeline, and this pipeline one end communicates with described vaporium, and the other end communicates with described fluid heating pipe lower end.Like this, the sustainable a period of time backwater of vaporium, water level in vaporium is risen to after namely certain altitude has certain water yield and produce certain pressure reduction, overcome this resistance of ducting, current just flow to fluid heating pipe by this pipeline, and need a period of time by the water of this Flows to during fluid heating pipe, realize time delay with this and supply water.

For improving the present invention, described pipeline is obliquely installed.Like this, this pipeline is made to form the gradient, when the water level in vaporium is lower than this pipeline, water in this pipeline is because of in Action of Gravity Field inflow vaporium, next time is when supplying water in vaporium backwater co-current flow body heating tube, current enter in fluid heating pipe through this pipeline needs a period of time, realizes time delay supply water with this.

For improving the present invention, also comprise water recovery apparatus, this water recovery apparatus is that metal material is made, and be provided with can the cavity of water, and this water recovery apparatus is connected with described vaporium, and this water recovery apparatus is communicated with described storage tank by described check valve.Like this, be easier to heat radiation and can heat exchange, make it be easier to backwater.

For improving the present invention, also comprise gland steam exhauster, this gland steam exhauster one end communicates with described vaporium, and the other end and described water outlet tube connector or described aquaporin or described water inlet tube connector or described storage tank are connected.Like this, the gas displacement fluids heating tube that produces during heating water and vaporium can be made.

The second technical scheme of the present invention: comprise, storage tank, check valve, cartridge heater, heating, vaporium, radiator; Cartridge heater combines with heating; Aquaporin is provided with in radiator; Cartridge heater communicates with vaporium, and storage tank is communicated with vaporium by check valve, and cartridge heater is connected with aquaporin one end in radiator, and in radiator, the aquaporin other end communicates with storage tank, forms peripheral passage; It is characterized in that: cartridge heater communicates with vaporium, cartridge heater is also connected with vaporium by time delay water supply installation, and described cartridge heater communicates place higher than described cartridge heater by time delay water supply installation and vaporium connecting place with vaporium.

During work, the water in cartridge heater is entered aquaporin by the water heated in generation water vapour promotion cartridge heater and vaporium and flow (now closed check valve) in storage tank.When the water in cartridge heater is emptying and when dryouting, cartridge heater and vaporium can not get thermal source support, water vapour heat radiation condensation in it, smaller volume produces negative pressure (now because the drag effect of aquaporin makes check valve open), water in storage tank is sucked in vaporium by check valve, because cartridge heater communicates place higher than described cartridge heater by time delay water supply installation and vaporium connecting place with vaporium, make to be drawn into water in vaporium to postpone a period of time by time delay water supply installation and flow in cartridge heater, like this, the sustainable a period of time backwater of vaporium, vaporium is enable to suck enough water gagings, and continue to supply water in cartridge heater, the water entered in cartridge heater is again produced water vapour by heating and repeats said process, realize circulating heat transfer.

Improve the present invention, more convenient for using, also comprise water outlet tube connector, water inlet tube connector, by this water outlet tube connector, described cartridge heater is connected with described aquaporin one end, by this water inlet tube connector, the described aquaporin other end is connected with described storage tank.

For improving the present invention, also comprise backwater tube connector, described storage tank is connected with described vaporium with described check valve by this backwater tube connector.Like this, making and installation is easier to.

The present invention is because adopting such scheme, fluid heating pipe lower end is connected with vaporium by time delay water supply installation or cartridge heater is connected with vaporium by time delay water supply installation, the water got back in vaporium is made to postpone a period of time water supply to fluid heating pipe or cartridge heater, like this, realize the lasting backwater of a period of time, so vaporium can well backwater co-current flow body heating tube or cartridge heater continue to supply water; Because the first technical scheme adopts fluid heating pipe, like this, can hold a small amount of water, Fast Heating improves out water speed, accelerates water circulation, makes its operating efficiency higher.Again because this fluid heating pipe is obliquely installed, like this, 1. water vapour remains heated condition in fluid heating inside pipe wall moves upward process, avoids water vapour to dispel the heat in uphill process and liquefies and become water and blown by steam and produce noise.2. be obliquely installed by fluid heating pipe, fluid heating pipe two ends can be made to pull open certain altitude difference with the vaporium place of communicating respectively, in the course of work, when fluid heating tube supplies water, there is enough pressure differentials after vaporium backwater, make it better supply water.

Accompanying drawing illustrates:

Fig. 1-6 is the first technical scheme structural representation of the present invention, and provides different embodiment.

Fig. 7,8 is the second technical scheme structural representation of the present invention, and provides different embodiment.

Fig. 9 provides radiator and a kind of structure chart of interior aquaporin thereof of the first technical scheme of the present invention and the second technical scheme, parallel way.

In Fig. 1-9, arrow is depicted as current or vapor flow direction and path.

In Fig. 1-9, parts token name claims consistent is same parts, and its function is identical.

Fig. 2 adds the emptying tracheae 23, water recovery apparatus 29 and the backwater tube connector 20 that are provided with air-discharging pipe close 22 on Fig. 1 basis.

Fig. 3 adds emptying tracheae 23, backwater tube connector 20 and the gland steam exhauster 12 and end check valve 21 that are provided with air-discharging pipe close 22 on Fig. 1 basis.

Fig. 4 is on Fig. 1 basis, and time delay water supply installation 6 is pipeline and is obliquely installed.

Fig. 5 adds the emptying tracheae 23, water recovery apparatus 29 and the backwater tube connector 20 that are provided with air-discharging pipe close 22 and is obliquely installed by time delay water supply installation 6 on Fig. 1 basis.

Fig. 6 adds emptying tracheae 23, backwater tube connector 20 and the gland steam exhauster 12 and check-valves 25 that are provided with air-discharging pipe close 22 on Fig. 1 basis.

Fig. 8 adds backwater tube connector 20 on Fig. 7 basis, and time delay water supply installation 6 is siphon pipe.

Detailed description of the invention:

The first technical scheme of the present invention:

With reference to Fig. 1,9, it comprises: storage tank 1, fluid heating pipe 2, check valve 4, heating 5, time delay water supply installation 6, pipe fitting 7, vaporium 28, water outlet tube connector 8, water inlet tube connector 11, radiator 9, aquaporin 10; Water filling port 14, lid 17; Establish aquaporin 10 in radiator 9, heating 5 combines with fluid heating pipe 2; Storage tank 1 is provided with water filling port 14, and this water filling port 14 establishes lid 17; Fluid heating pipe 2 upper end is connected by pipe fitting 7 with vaporium 28, and this fluid heating pipe 2 lower end is also connected with vaporium 28 by time delay water supply installation 6, and this time delay water supply installation 6 is pipeline, and position is lower than pipe fitting 7; Vaporium 28 is communicated with storage tank 1 by check valve 4, vaporium 28 communicates with water outlet tube connector 8 one end, water outlet tube connector 8 other end communicates with aquaporin 10 one end, and aquaporin 10 other end communicates with water inlet tube connector 11 one end again, and water inlet tube connector 11 other end communicates with storage tank 1.

Switch on power, enter duty, water in fluid heating pipe 2 is heated generation water vapour, water vapour tilts upward to move along fluid heating pipe 2 inwall and is heated continuously, and enter in vaporium 28 (now check valve 4 is closed) by pipe fitting 7, and Preheated steam room 28 and interior water thereof, the water simultaneously in water vapour propelling fluid heating tube 2 and vaporium 28 enters water outlet tube connector 8, aquaporin 10, water inlet tube connector 11 flow in storage tank 1.When the water in fluid heating pipe 2 is emptying and when dryouting, vaporium 28 can not get thermal source support in it water vapour heat radiation condensation, smaller volume produces negative pressure (now due to water outlet tube connector 8, aquaporin 10, the drag effect of water inlet tube connector 11 makes check valve 4 open), water in storage tank 1 is sucked in vaporium 28 by check valve 4, because fluid heating pipe 2 upper end is connected by pipe fitting 7 with vaporium 28, lower end is connected with vaporium 28 by time delay water supply installation 6 (this time delay water supply installation 6 is pipeline), make the water in vaporium 28 by time delay water supply installation 6 (because this time delay water supply installation 6 is pipeline, current need overcome this resistance of ducting and just flow to fluid heating pipe 2 by this pipeline, and need a period of time by the water of this Flows to during fluid heating pipe 2) postpone a period of time and flow in fluid heating pipe 2, like this, realize vaporium 28 and continue for some time backwater, make vaporium 28 can suck enough water gagings.Water vapour simultaneously in fluid heating pipe 2 is supplemented by pipe fitting 7 and enters in vaporium 28, and the water flow in fluid heating pipe 2 is again produced water vapour by heating and repeats said process, realizes circulating heat transfer.

See Fig. 2,3,5,6, be provided with the emptying tracheae 23 of air-discharging pipe close 22, emptying tracheae 23 is located on vaporium 28; By water filling port 14 to water filling in storage tank 1, the water in storage tank 1 enters in vaporium 28, fluid heating pipe 2 by check valve 4, and the air in it is derived by emptying tracheae 23.

See Fig. 4,5, time delay water supply installation 6 is pipeline and is obliquely installed.Like this, this pipeline is made to form the gradient, when the water level in vaporium 28 is lower than this pipeline, water in this pipeline is because of in Action of Gravity Field inflow vaporium 28, during vaporium 28 backwater co-current flow body heating tube 2 interior water supply next time, current enter in fluid heating pipe 2 through this pipeline needs a period of time, realizes better time delay supply water with this.

See Fig. 2,5, water recovery apparatus 29 be provided with can water cavity 3 and make for metal material.This water recovery apparatus 29 is connected with described vaporium 28, and this water recovery apparatus 29 also communicates with described storage tank 1 by described backwater tube connector 20 and described check valve 4 by described check valve 4.Like this, be easier to heat radiation and can heat exchange, make it be easier to backwater.

See Fig. 1,2,4,5, duty, the water promoted in vaporium 28 at water vapour passes through water outlet tube connector 8, aquaporin 10, water inlet tube connector 11 in flow process in storage tank 1, last water vapour can enter in water outlet tube connector 8, the gas that this water vapour produces when carry heating is also brought in water outlet tube connector 8, the gas that next circulation time water jet propulsion can not become water is entered in storage tank 1 through water outlet tube connector 8, aquaporin 10, water inlet tube connector 11, then is discharged to air by the pore 18 in storage tank 1.

See Fig. 3, end check valve 21 is established with storage tank 1 place of communicating at water outlet tube connector 8 and aquaporin 10 connectivity part or water outlet tube connector 8, aquaporin 10, intake tube connector 11 optional position or tube connector 11 of intaking, like this, producing negative pressure during backwater makes this end check valve 21 close, thus realizes better backwater.

In Fig. 3,6, vaporium 28 is directly communicated with water outlet tube connector 8 by gland steam exhauster 12, vaporium 28 is also connected by gland steam exhauster 12 and aquaporin 10 or intake tube connector 11 or storage tank 1, check-valves 25 (shown in Fig. 6) also can be established on gland steam exhauster 12, during work, the gas that water vapour produces when carry heating directly enters gland steam exhauster 12, water outlet tube connector 8 entered in storage tank 1 by aquaporin 10, water inlet tube connector 11, then discharged to air by the pore 18 in storage tank 1.Check-valves 25 can prevent air water from flowing backwards.

See in Fig. 1-6, set up attemperating unit 13, this attemperating unit 13 is located on fluid heating pipe 2 or heating 5, and is connected with the circuit of heating 5.Work as cisco unity malfunction, when fluid heating pipe 2 temperature is too high, this attemperating unit 13 disconnects the power supply of heating 5, and when fluid heating pipe 2 temperature is reduced to safe temperature, this attemperating unit 13 connects the power supply of heating 5, makes its trouble free service more.

The second technical scheme of the present invention:

Referring to Fig. 7,9, it comprises: storage tank 1, check valve 4, cartridge heater 2, heating 5, vaporium 28, water outlet tube connector 8, water inlet tube connector 11, radiator 9; Cartridge heater 2 combines with heating 5; Aquaporin 10 is provided with in radiator 9; Cartridge heater 2 communicates with vaporium 28, storage tank 1 is communicated with vaporium 28 by check valve 4, cartridge heater 2 is connected with aquaporin 10 one end in radiator 9 by water outlet tube connector 8, aquaporin 10 other end is connected with water inlet tube connector 11 one end, water inlet tube connector 11 other end communicates with storage tank 1, forms peripheral passage; Cartridge heater 2 communicates with vaporium 28, cartridge heater 2 is also connected with vaporium 28 by time delay water supply installation 6, described cartridge heater 2 communicates place higher than described cartridge heater 2 by time delay water supply installation 6 and vaporium 28 connecting place with vaporium 28, this time delay water supply installation 6 can be pipeline.

During work, water in cartridge heater 2 is heated to be produced water vapour and promotes water in cartridge heater 2 and vaporium 28 by water outlet tube connector 8, aquaporin 10, water inlet tube connector 11 flows (now check valve 4 is closed) in storage tank 1, when the water in cartridge heater 2 is emptying and when dryouting, water vapour heat radiation condensation in cartridge heater 2 and vaporium 28, smaller volume produces negative pressure (now due to water outlet tube connector 8, aquaporin 10, the drag effect of water inlet tube connector 11 makes check valve 4 open), water in storage tank 1 is sucked in vaporium 28 by check valve 4, because cartridge heater 2 is connected with vaporium 28 by time delay water supply installation 6, and this time delay water supply installation 6 is pipeline, the water level be drawn in vaporium 28 is made to rise to certain altitude, overcome this resistance of ducting, and need a period of time to flow in cartridge heater 2 again by this pipeline, like this, realize vaporium and continue for some time backwater, make vaporium 28 can suck enough water gagings, and continue to supply water in cartridge heater 2, the water entered in cartridge heater 2 is again produced water vapour by heating and repeats said process, realize circulating heat transfer.

In Fig. 7, time delay water supply installation 6 is pipeline, and this pipeline can be arranged in parallel, also can bend setting up and down, preferably be obliquely installed, and forms the gradient.During work, water in cartridge heater 2 is heated generation water vapour and the water promoted in cartridge heater 2 and vaporium 28 enters water outlet tube connector 8, aquaporin 10, tube connector 11 of intaking flows in storage tank 1, when the water level in cartridge heater 2 is lower than this pipeline, water in this pipeline is because of in Action of Gravity Field inflow cartridge heater 2, next time vaporium 28 backwater when supplying water in cartridge heater 2, current enter in cartridge heater 2 through this pipeline needs a period of time, realizes time delay supply water with this.

See Fig. 8, time delay water supply installation 6 is siphon passage, when in vaporium 28 during backwater, when water level rises to siphon passage highest order, produces siphon, and current just continue to supply water by siphon passage in cartridge heater 2, realize time delay supply water with this.

In conjunction with the present invention the first and the second technical scheme:

See Fig. 2,3,5,6,8, set up backwater tube connector 20, duty, during backwater, the water in storage tank 1 is sucked in vaporium 28 by check valve 4 and backwater tube connector 20.

Shown in Fig. 5,7,8, storage tank 1 is provided with water filling port 14, and water filling port 14 is located at lower than storage tank 1 upper wall position, makes storage tank 1 top form cavity 19.Like this, operationally can hold the water body that the expansion of water and water become water vapour and increases, and prevent the water in storage tank 1 from overflowing.

Shown in Fig. 1,2,3,4,6, storage tank 1 is provided with water filling port 14, establishes vertical tube 15 and extend in storage tank 1 at water filling port 14 place, makes storage tank 1 top form cavity 19.Like this, operationally can hold the water body that the expansion of water and water become water vapour and increases, and prevent the water in storage tank 1 from overflowing.

Shown in Fig. 1-8, storage tank 1 upper cavity 19 is established pore 18 directly communicate with air.Like this, operationally by pore 18 directly to air Exhaust Gas, simultaneously the pressure in storage tank 1 can be made identical with external atmospheric pressure, thus not affect by storage tank 1 internal pressure.

The water supply installation of time delay described in the present invention refers to: cartridge heater or fluid heating pipe lower end are connected with vaporium, makes vaporium can realize postponing the device that supplies water in fluid heating pipe or cartridge heater again of a period of time after backwater.

The effect of the water supply installation of time delay described in the present invention:

Duty, vaporium backwater in each cyclic process also postpones a period of time water supply by time delay water supply installation in fluid heating pipe or cartridge heater, vaporium is made to continue backwater within this period, make in vaporium, to reach certain height of water level, between vaporium and fluid heating pipe or cartridge heater, form enough liquid level difference and pressure differential, realize vaporium with this and continue to supply water to fluid heating pipe or cartridge heater.

The water supply installation of time delay described in the present invention can be realized by following structure:

1. time delay water supply installation can be pipeline.Current need certain hour by this pipeline, realize time delay supply water with this.

2. time delay water supply installation can be siphon passage.When in vaporium during backwater, when water level rises to siphon passage highest order, produce siphon, current just continue to supply water by siphon passage in fluid heating pipe or cartridge heater, with this, realize time delay and supply water.

3. time delay water supply installation can be Based Intelligent Control magnetic valve.Operationally, when the water in fluid heating pipe or cartridge heater emptying and when dryouting Based Intelligent Control magnetic valve close, when vaporium backwater to a certain amount of time, water level rises to enough height, Based Intelligent Control magnetic valve is opened and is supplied water in fluid heating pipe or cartridge heater, with this, realizes time delay and supplies water.

Above structure is also non exhaustive, and all can realize the structure of above-mentioned time delay water supply all among scope.

Backwater of the present invention refers to: the water vapour heat radiation condensation in vaporium or fluid heating pipe or cartridge heater, smaller volume produces the process that the water in storage tank is sucked vaporium by negative pressure.

Time delay of the present invention is supplied water and is referred to: be drawn into water in vaporium and postpone a period of time by time delay water supply installation and supply water in fluid heating pipe or cartridge heater.

The gas produced during heating of the present invention refers to: during work, the gas that can not become water produced in liquefaction process again after fluid heating pipe or cartridge heater heating water producing water vapor.

Storage tank of the present invention refers to: container, and it does not limit by shape, size, can be circular, square, may also be tubular, tubulose, box like etc.Storage tank of the present invention can be located at above fluid heating pipe or cartridge heater or vaporium, and also can be located at its side, particular location is not limit.

Fluid heating pipe of the present invention refers to: tubulose heating container combines with heating.

Cartridge heater of the present invention refers to: heating container, and it does not limit by shape, size, can be circular, square, may also be tubular, tubulose, box like etc.

Heating of the present invention refers to: present all known Electric heating, comprising: electrothermal tube heating, electric hot tray heating, PTC heating, eddy heating for heating etc.

Radiator of the present invention refers to: water blanket, pad (mattress, cushion, ground cushion, sofa cushion, foot pad, bustle, bolster, thermatology pad etc.), water heating bed, hot-water heating bed board, hot-water heating a heatable brick bed, hot-water heating a heatable brick bed plate, hot-water heating bed clothes, radiator and warmer etc.

Be provided with aquaporin in radiator of the present invention to refer to: in radiator, establish radiating tube or in radiator, establish Packed water circulation channel.Aquaporin can be that series connection may also be parallel way in radiator.

Water outlet tube connector of the present invention refers to: vaporium or cartridge heater or with the tube connector be connected between aquaporin.

Water inlet tube connector of the present invention refers to: the tube connector be connected between storage tank with aquaporin.

Claims (10)

1. a heat energy water circulation system, comprising: storage tank (1), check valve (4), fluid heating pipe (2), heating (5), vaporium (28), radiator (9); Fluid heating pipe (2) combines with heating (5); Aquaporin (10) is provided with in radiator (9); Fluid heating pipe (2) communicates with vaporium (28), storage tank (1) is communicated with vaporium (28) by check valve (4), vaporium (28) is connected with radiator (9) interior aquaporin (10) one end, radiator (9) interior aquaporin (10) other end communicates with storage tank (1), forms peripheral passage; It is characterized in that: fluid heating pipe (2) upper end communicates with vaporium (28), this fluid heating pipe (2) lower end is connected with vaporium (28) by time delay water supply installation (6), and described fluid heating pipe (2) upper end communicates place higher than described fluid heating pipe (2) lower end by time delay water supply installation (6) and vaporium (28) connecting place with vaporium (28); Described fluid heating pipe (2) is obliquely installed.

2. heat energy water circulation system according to claim 1, it is characterized in that: also comprise water outlet tube connector (8), water inlet tube connector (11), by this water outlet tube connector (8), described vaporium (28) is connected with described aquaporin (10) one end, by this water inlet tube connector (11), described aquaporin (10) other end is connected with described storage tank (1).

3. heat energy water circulation system according to claim 1, it is characterized in that: also comprise backwater tube connector (20), described storage tank (1) is connected with described vaporium (28) with described check valve (4) by this backwater tube connector (20).

4. heat energy water circulation system according to claim 1 or 2 or 3, it is characterized in that: described time delay water supply installation (6) is pipeline, this pipeline one end communicates with described vaporium (28), and the other end communicates with described fluid heating pipe (2) lower end.

5. heat energy water circulation system according to claim 4, is characterized in that: described pipeline is obliquely installed.

6. heat energy water circulation system according to claim 1 or 2 or 3, it is characterized in that: also comprise water recovery apparatus (29), this water recovery apparatus (29) is made for metal material, and being provided with can the cavity (3) of water, this water recovery apparatus (29) is connected with described vaporium (28), and this water recovery apparatus (29) is communicated with described storage tank (1) by described check valve (4).

7. heat energy water circulation system according to claim 1 or 2 or 3, it is characterized in that: also comprise gland steam exhauster (12), this gland steam exhauster (12) one end communicates with described vaporium (28), and the other end and described water outlet tube connector (8) or described aquaporin (10) or described water inlet tube connector (11) or described storage tank (1) are connected.

8. a heat energy water circulation system, comprising: storage tank (1), check valve (4), cartridge heater (2), heating (5), vaporium (28), radiator (9); Cartridge heater (2) combines with heating (5); Aquaporin (10) is provided with in radiator (9); Cartridge heater (2) communicates with vaporium (28), storage tank (1) is communicated with vaporium (28) by check valve (4), cartridge heater (2) is connected with radiator (9) interior aquaporin (10) one end, radiator (9) interior aquaporin (10) other end communicates with storage tank (1), forms peripheral passage; It is characterized in that: cartridge heater (2) communicates with vaporium (28), cartridge heater (2) is also connected with vaporium (28) by time delay water supply installation (6), and described cartridge heater (2) communicates place higher than described cartridge heater (2) by time delay water supply installation (6) and vaporium (28) connecting place with vaporium (28).

9. heat energy water circulation system according to claim 8, it is characterized in that: also comprise water outlet tube connector (8), water inlet tube connector (11), by this water outlet tube connector (8), described cartridge heater (2) is connected with described aquaporin (10) one end, by this water inlet tube connector (11), described aquaporin (10) other end is connected with described storage tank (1).

10. heat energy water circulation system according to claim 8 or claim 9, it is characterized in that: also comprise backwater tube connector (20), described storage tank (1) is connected with described vaporium (28) with described check valve (4) by this backwater tube connector (20).