CN102297517A - Thermo-motive water cycling system - Google Patents

Abstract

The invention relates to a thermo-motive water cycling system and in particular relates to a thermo-motive water-cycling system of electric heating water heating cushions (comprising a mattress, a cushion, a floor mat, a sofa cushion, a foot pad, a bustle, a pillow and the like), water heating bedclothes, heaters and the like and aims at providing a thermo-motive water-cycling system capable of effectively discharging gas which can not be reverted to water without an evaporation pipe. The first scheme adopted by the invention is as follows: a water storage tank is communicated with a heating cylinder through a check valve; the heating cylinder is communicated with a water channel through a water outlet connecting pipe; the water channel is communicated with the water storage tank through a water inlet connecting pipe; and the heating cylinder is provided with a steam discharge pipe which is communicated with the water storage tank. The second scheme adopted by the invention is as follows: a water storage tank is communicated with a heating cylinder through a check valve; the heating cylinder and a steam chamber are communicated with one end of a water outlet connecting pipe; the other end of the water outlet connecting pipe is communicated with a water channel; the water channel is communicated with the water storage tank through a water inlet connecting pipe; and the steam chamber is provided with a steam discharge pipe which is communicated with the water storage tank. Because the structure is adopted, the system is simple in structure and has a better operation effect, and the product provided by the invention is more competitive in markets.

Description

The heat power water circulation system

Technical field:

The present invention relates to a kind of heat power water circulation system, relate in particular to the heat power water circulation system of electric heating water warming pad (comprising mattress, cushion, ground cushion, sofa cushion, foot pad, bustle, bolster etc.), hot-water heating bed clothes and warmer etc.

Background technology:

Existing hydrothermal blanket, pad etc. by the mobile circulation of electrical heating generation water vapour promotion water, decomposite the gas that can not be reduced into water on a small quantity when heating produces water vapour during work, this gas accumulates in the cartridge heater cumulative, make its cisco unity malfunction, must get rid of this gas just can operate as normal, and the patent of head it off: Chinese patent 201020215558.9 discloses a kind of hot water circular cushion for warming.Its technical scheme: cartridge heater is connected with steam pipe one end, the steam pipe other end is connected flexible pipe one end and is connected with water outlet, water outlet connects the flexible pipe other end and is connected with aquaporin one end, the aquaporin other end is connected flexible pipe one end with water inlet and is connected, water inlet connects the flexible pipe other end and 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, the optional position is established and is opened the beginning check valve on the backwater tube connector between expansion tank and the cartridge heater, forms the peripheral passage.

But must adopt steam pipe to hold the gas that can not be reduced into water of water vapour and generation in this technical scheme, and discharge this gas, required steam pipe volume ratio is bigger, the cost height.

Summary of the invention:

The purpose of this invention is to provide a kind of heat power water circulation system that does not need steam pipe just can effectively discharge the gas that can not be reduced into water.

The present invention proposes two kinds of technical schemes:

First kind of technical scheme is: comprising: storage tank, check valve, cartridge heater, electric heater, water outlet tube connector, radiator, aquaporin, water inlet tube connector; Cartridge heater combines with electric heater; Establish aquaporin in the radiator; It is characterized in that: storage tank communicates with cartridge heater by check valve, and cartridge heater communicates with aquaporin by the water outlet tube connector, and aquaporin communicates with storage tank by the water inlet tube connector; Establish gland steam exhauster on cartridge heater, this gland steam exhauster communicates with storage tank.

During work, water in the cartridge heater is heated and produces water vapour and rising, the while closed check valve, the water that water vapour promotes in the cartridge heater under this effect enters the water outlet tube connector, aquaporin, in the water inlet tube connector, and in storage tank, flow, simultaneously the part water vapour in the cartridge heater is carrying the gas that can not be reduced into water and enters gland steam exhauster and flow in storage tank, when the water in the cartridge heater is drained when no longer producing water vapour, cartridge heater, water vapour heat radiation in the gland steam exhauster, condensation, smaller volume produces negative pressure, at water outlet tube connector and aquaporin and water inlet tube connector, under the drag effect of gland steam exhauster, check valve is opened, water in the storage tank is sucked cartridge heater, (gas that can not be reduced into water remains in the gland steam exhauster, and next circulation time is pushed into storage tank and discharges to atmosphere) realizes the circulation diabatic process in the gland steam exhauster.

For improving the present invention, gland steam exhauster communicates with storage tank by water outlet tube connector, aquaporin, water inlet tube connector.Like this, the vapour, the water that enter in the gland steam exhauster enter in the storage tank by water outlet tube connector, aquaporin, water inlet tube connector again, can realize better heat radiation.

For improving the present invention, the resistance of gland steam exhauster 12 is greater than the resistance of water outlet tube connector 8, aquaporin 10, water inlet tube connector 11.Like this, during work, the water vapour in the cartridge heater 4 is entered in the gland steam exhauster 12 on a small quantity, realize discharging the gas that can not be reduced into water.

For improving the present invention, the position that gland steam exhauster communicates with cartridge heater is higher than the position that the water outlet tube connector communicates with cartridge heater.Like this, can guarantee that water vapour always is introduced into gland steam exhauster, and water vapour does not enter or enter the water outlet tube connector less, makes its more effective discharge can not be reduced into the gas of water.

For improving the present invention, establish the control electric installation, this control electric installation links to each other with the electric heater circuit.Like this, during work, this control electric installation can be by the different condition requirement, and the circuit of control electric heater disconnects, connects, and realizes better periodic duty.

Second kind of technical scheme is: comprising: storage tank, check valve, cartridge heater, vaporium, electric heater, water outlet tube connector, radiator, aquaporin, water inlet tube connector; Cartridge heater combines with electric heater; Establish aquaporin in the radiator; It is characterized in that: storage tank communicates with cartridge heater by check valve, and cartridge heater, vaporium and water outlet tube connector one end communicate, and the water outlet tube connector other end communicates with aquaporin, and aquaporin communicates with storage tank by the water inlet tube connector; Establish gland steam exhauster on vaporium, this gland steam exhauster communicates with storage tank.

During work, water in the cartridge heater is heated and produces water vapour and rising, the while closed check valve, the water that water vapour promotes in the cartridge heater enters vaporium together with water vapour, water in the vaporium enters the water outlet tube connector, aquaporin, the water inlet tube connector, and in storage tank, flow, simultaneously steam indoor section water vapour is carrying the gas that can not be reduced into water and enters in the gland steam exhauster and in storage tank and flow, when the water in the cartridge heater is drained when no longer producing water vapour, cartridge heater, vaporium, water vapour heat radiation in the gland steam exhauster, condensation, smaller volume, produce negative pressure, at water outlet tube connector and aquaporin and water inlet tube connector, under the drag effect of gland steam exhauster, check valve is opened, and the water in the storage tank is sucked cartridge heater, vaporium, (gas that can not be reduced into water remains in the gland steam exhauster in the gland steam exhauster, next circulation time is pushed into storage tank and discharges to atmosphere), realize the circulation diabatic process.

For improving the present invention, gland steam exhauster communicates with storage tank by water outlet tube connector, aquaporin, water inlet tube connector.Like this, the vapour, the water that enter in the gland steam exhauster enter in the storage tank by water outlet tube connector, aquaporin, water inlet tube connector again, can realize better heat radiation.

For improving the present invention, the resistance of gland steam exhauster 12 is greater than the resistance of water outlet tube connector 8, aquaporin 10, water inlet tube connector 11.Like this, during work, the water vapour in the vaporium 7 is entered in the gland steam exhauster 12 on a small quantity, realize discharging the gas that can not be reduced into water.

For improving the present invention, the position that gland steam exhauster communicates with vaporium is higher than the position that the water outlet tube connector communicates with vaporium.Like this, can guarantee that water vapour always is introduced into gland steam exhauster, and water vapour does not enter or enter the water outlet tube connector less, makes its more effective discharge can not be reduced into the gas of water.

For improving the present invention, establish the control electric installation, this control electric installation links to each other with the electric heater circuit.Like this, during work, this control electric installation can be by the different condition requirement, and the circuit of control electric heater disconnects, connects, and realizes better periodic duty.

The present invention is because of adopting said structure, and only need establish gland steam exhauster can effectively discharge the gas that can not be reduced into water, simple in structure, and the work better effects if makes this invention product have more the market competitiveness.

Description of drawings:

Fig. 1-3 is the structural representation of first kind of scheme of the present invention, and provides different embodiments.

Fig. 4-7 is the structural representation of second kind of scheme of the present invention, and provides different embodiments.

Fig. 8 provides radiator of the present invention and a kind of structure chart of interior aquaporin thereof, parallel way.

Fig. 9 provides radiator of the present invention and the another kind of structure chart of interior aquaporin thereof, series system.

The specific embodiment:

First kind of technical scheme of the present invention:

In conjunction with Fig. 1,2,3,8,9, comprising: storage tank 1, backwater tube connector 2, check valve 3, cartridge heater 4, electric heater 5, water outlet tube connector 8, radiator 9, aquaporin 10, water inlet tube connector 11; Establish pore 18, water filling port 14 on the storage tank 1, on water filling port 14, establish and cover 17; Cartridge heater 4 combines with electric heater 5; Establish aquaporin 10 in the radiator 9; Storage tank 1 communicates with cartridge heater 4 by backwater tube connector 2, check valve 3, and cartridge heater 4 communicates with aquaporin 10 by water outlet tube connector 8, and aquaporin 10 communicates with storage tank 1 by water inlet tube connector 11; Establish gland steam exhauster 12 on cartridge heater 4, this gland steam exhauster 12 communicates with storage tank 1.

During work, water in the cartridge heater 4 is heated and produces water vapour and rising, check valve 3 is closed simultaneously, the water that water vapour promotes in the cartridge heater 4 enters water outlet tube connector 8, aquaporin 10, water inlet tube connector 11, and in storage tank 1, flow, there is the part water vapour carrying the gas that can not be reduced into water in the cartridge heater 4 simultaneously and enters gland steam exhauster 12, when the water in the cartridge heater 4 is drained when no longer producing water vapour, cartridge heater 4, water vapour heat radiation in the gland steam exhauster 12, condensation, smaller volume, produce negative pressure, at water outlet tube connector 8 and aquaporin 10 and water inlet tube connector 11, check valve 3 is opened under the drag effect of gland steam exhauster 12, water in the storage tank 1 is passed through check valve 3, (gas that can not be reduced into water remains in the gland steam exhauster 12 in backwater tube connector 2 suction cartridge heaters 4 and the gland steam exhauster 12, next time, circulation time was directly pushed storage tank 1 or through water outlet tube connector 8, aquaporin 10, water inlet tube connector 11 enters storage tank 1 and discharges to atmosphere by pore 18), realize the circulation diabatic process.

Among Fig. 1,2,3, the position that gland steam exhauster 12 communicates with cartridge heater 4 is higher than the position that water outlet tube connector 8 communicates with cartridge heater 4.Like this, can guarantee that water vapour always is introduced into gland steam exhauster 12, and water vapour does not enter or enter water outlet tube connector 8 less, makes its more effective discharge can not be reduced into the gas of water.

Among Fig. 1,2,3, control electric installation 13 is a temperature control mode.When the water in the cartridge heater 4 dryouied the temperature rising, control electric installation 13 disconnected the circuit of electric heaters 5, heat radiation, and backwater when cartridge heater 4 temperature reduce, is controlled the circuit that electric installation 13 is connected electric heaters 5, realizes cyclic process.

Among Fig. 1,2,3, storage tank 1 is provided with pore 18, water filling port 14, establishes vertical tube 15 at water filling port 14 places and extension in storage tank 1, forms cavity 19, establishes on the water filling port 14 and covers 17.During work, cavity 19 can hold the expanding volume of water.The gas that produces is discharged to atmosphere by pore 18.

Second kind of technical scheme of the present invention:

In Fig. 4,5,6,7,8,9, comprising: storage tank 1, backwater tube connector 2, check valve 3, cartridge heater 4, vaporium 7, electric heater 5, water outlet tube connector 8, radiator 9, aquaporin 10, water inlet tube connector 11; Establish pore 18, water filling port 14 on the storage tank 1, on water filling port 14, establish and cover 17; Cartridge heater 4 combines with electric heater 5; Establish aquaporin 10 in the radiator 9; Storage tank 1 communicates with cartridge heater 4 by check valve 3, backwater tube connector 2, and cartridge heater 4, vaporium 7 communicate with water outlet tube connector 8 one ends, and water outlet tube connector 8 other ends communicate with aquaporin 10, and aquaporin 10 communicates with storage tank 1 by water inlet tube connector 11; Establish gland steam exhauster 12 on vaporium 7, this gland steam exhauster 12 communicates with storage tank 1.

During work, water in the cartridge heater 4 is heated and produces water vapour and rising, check valve 3 is closed simultaneously, the water that water vapour promotes in the cartridge heater 4 enters in the vaporium 7 together with water vapour, water in the vaporium 7 enters water outlet tube connector 8, aquaporin 10, in the water inlet tube connector 11, and in storage tank 1, flow, there is the part water vapour carrying the gas that can not be reduced into water in the vaporium 7 simultaneously and enters gland steam exhauster 12, and in storage tank 1, flow, when the water in the cartridge heater 4 is drained when no longer producing water vapour, cartridge heater 4, vaporium 7, water vapour heat radiation in the gland steam exhauster 12, condensation, smaller volume, produce negative pressure, at water outlet tube connector 8 and aquaporin 10, water inlet tube connector 11, check valve 3 is opened under the drag effect of gland steam exhauster 12, water in the storage tank 1 is passed through backwater tube connector 2, check valve 3 sucks vaporium 7, cartridge heater 4, (gas that can not be reduced into water remains in the gland steam exhauster 12 in the gland steam exhauster 12, next time, circulation time was directly pushed storage tank 1 or through water outlet tube connector 8, aquaporin 10, water inlet tube connector 11 enters storage tank 1 and discharges to atmosphere by pore 18), realize the circulation diabatic process.

Among Fig. 4, storage tank 1 is provided with pore 18, water filling port 14, establishes vertical tube 15 at water filling port 14 places and extension in storage tank 1, forms cavity 19, establishes on the water filling port 14 and covers 17.During work, cavity 19 can hold the expanding volume of water, and the gas of generation is discharged to atmosphere through pore 18.

Among Fig. 5,6,7, storage tank 1 is provided with water filling port 14, establishes vertical tube 15 at water filling port 14 places and extension in storage tank 1, forms cavity 19, establishes steam vent 16 near storage tank 1 upper wall place on vertical tube 15, establishes on the water filling port 14 and covers 17, establishes pore 18 on lid 17.Like this, the gas that produces when work is discharged to atmosphere through pore 18 through steam vent 16 again.Cavity 19 can hold the expanding volume of water.

Among Fig. 4,5,6,7, the position that gland steam exhauster 12 communicates with cartridge heater 4 is higher than the position that water outlet tube connector 8 communicates with cartridge heater 4.Like this, can guarantee that water vapour always is introduced into gland steam exhauster 12, and water vapour does not enter or enter water outlet tube connector 8 less, makes its more effective discharge can not be reduced into the gas of water.

Among Fig. 4,5, control electric installation 13 is a temperature control mode.When the water in the cartridge heater 4 dryouied the temperature rising, control electric installation 13 disconnected the circuit of electric heaters 5, the heat radiation backwater, and cartridge heater 4 temperature reduce, and control the circuit that electric installation 13 is connected electric heaters 5, realize cyclic process.

Among Fig. 6,7, control electric installation 13 is the liquid level control mode, is located in the vaporium 7.When the water level in the vaporium 7 reduces, disconnect the circuit of electric heater 5, heat radiation, backwater, when the water level in the vaporium 7 raise, control electric installation 13 was connected the circuit of electric heater 5.

In the above two kinds of technical schemes of the present invention:

One. control electric installation 13 is: control modes such as liquid level, time, pressure, temperature, current, flow.As: adopt temperature control mode, control electric installation 13 can be arranged on cartridge heater 4, electric heater 5, gland steam exhauster 12, the vaporium 7; As: adopt the liquid level control mode, control electric installation 13 can be arranged in cartridge heater 4, the vaporium 7, disconnects the circuit of electric heater 5 when water level raises, and connects the circuit of electric heater 5 when water level reduces.

Two. electric heater 5 is meant: all known mode of heatings now comprise heated by electrodes etc. in electrothermal tube heating, electric hot tray heating, PTC heating, the water.

Three. cartridge heater 4 is meant: heating container.Not being subjected to shape, size restriction, can be circular, square, also tubular, tubulose, case shape etc.Conveniently also can establish seal cover 20 thereon for water filling, draining, sealing lid 20 also can be located on the vaporium 7, plays same purpose.

Four. storage tank 1 is meant: container.Not being subjected to shape, size restriction, can be circular, square, and also tubular, tubulose, case shape etc. which is provided with pore 18, for water filling, convenient also can the establishing of draining cover 17 in the above.Pore 18 also can be located at and cover on 17, plays same purpose.

Five. backwater is meant: the water vapour heat radiation in cartridge heater 4, vaporium 7, the gland steam exhauster 12, liquefaction, smaller volume produces negative pressure, sucks the process of water.

Six. be provided with aquaporin 10 in the pad 9 and be meant: in pad 9, establish the water stream channel that is provided with sealing in flexible pipe or the pad 9.

Seven. the resistance of gland steam exhauster 12 makes the flow of gland steam exhauster 12 less greater than the resistance of water outlet tube connector 8, aquaporin 10, water inlet tube connector 11.Like this, during work, the water vapour in cartridge heater 4, the vaporium 7 is entered in the gland steam exhauster 12 on a small quantity, realize discharging the gas that can not be reduced into water.Generally, dwindle gland steam exhauster 12 internal diameter, the lengthening gland steam exhauster 12 length, or on gland steam exhauster 12, establish flow control valve realize gland steam exhauster 12 than low discharge.

Among Fig. 1-8, direction shown in the arrow is water (flow) direction and path.

Among Fig. 8,9, aquaporin 10 also can positive and negative direction be connected with water outlet tube connector 8, water inlet tube connector 11 and circulates.

Preferably be provided with backwater tube connector 2 and cooperate with check valve 3, storage tank 1 is connected with cartridge heater 4 by backwater tube connector 2, check valve 3, like this, and easier installation manufacturing.

Claims (10)

1. a heat power water circulation system comprises: storage tank (1), check valve (3), cartridge heater (4), electric heater (5), water outlet tube connector (8), radiator (9), aquaporin (10), water inlet tube connector (11); Cartridge heater (4) combines with electric heater (5); Establish aquaporin (10) in the radiator (9);

It is characterized in that: storage tank (1) communicates with cartridge heater (4) by check valve (3), and cartridge heater (4) communicates with aquaporin (10) by water outlet tube connector (8), and aquaporin (10) communicates with storage tank (1) by water inlet tube connector (11); Establish gland steam exhauster (12) on cartridge heater (4), this gland steam exhauster (12) communicates with storage tank (1).

2. heat power water circulation system according to claim 1 is characterized in that: gland steam exhauster (12) communicates with storage tank (1) by water outlet tube connector (8), aquaporin (10), water inlet tube connector (11).

3. heat power water circulation system according to claim 1 is characterized in that: the resistance of gland steam exhauster 12 is greater than the resistance of water outlet tube connector 8, aquaporin 10, water inlet tube connector 11.

4. according to claim 1 or 2 or 3 described heat power water circulation systems, it is characterized in that: the position that gland steam exhauster (12) communicates with cartridge heater (4) is higher than the position that water outlet tube connector (8) communicates with cartridge heater (4).

5. according to claim 1 or 2 or 3 described heat power water circulation systems, it is characterized in that: establish control electric installation (13), this control electric installation (13) links to each other with electric heater (5) circuit.

6. a heat power water circulation system comprises: storage tank (1), check valve (3), cartridge heater (4), vaporium (7), electric heater (5), water outlet tube connector (8), radiator (9), aquaporin (10), water inlet tube connector (11); Cartridge heater (4) combines with electric heater (5); Establish aquaporin (10) in the radiator (9); It is characterized in that: storage tank (1) communicates with cartridge heater (4) by check valve (3), cartridge heater (4), vaporium (7) communicate with water outlet tube connector (8) one ends, water outlet tube connector (8) other end communicates with aquaporin (10), and aquaporin (10) communicates with storage tank (1) by water inlet tube connector (11); Establish gland steam exhauster (12) on vaporium (7), this gland steam exhauster (12) communicates with storage tank (1).

7. heat power water circulation system according to claim 6 is characterized in that: gland steam exhauster (12) communicates with storage tank (1) by water outlet tube connector (8), aquaporin (10), water inlet tube connector (11).

8. heat power water circulation system according to claim 6 is characterized in that: the resistance of gland steam exhauster 12 is greater than the resistance of water outlet tube connector 8, aquaporin 10, water inlet tube connector 11.

9. according to claim 6 or 7 or 8 described heat power water circulation systems, it is characterized in that: the position that gland steam exhauster (12) communicates with vaporium (7) is higher than the position that water outlet tube connector (8) communicates with vaporium (7).

10. according to claim 6 or 7 or 8 described heat power water circulation systems, it is characterized in that: establish control electric installation (13), this control electric installation (13) links to each other with electric heater (5) circuit.

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