CN104433489A - High-efficiency circulating water-heating blanket and cushion - Google Patents

Abstract

The invention relates to a water-heating blanket and cushion for using electricity to heat water to generate steam so as to push hot water to flow and transfer heat and particularly relates to an electric-heating water heating blanket and cushion. The electric-heating water heating blanket and cushion is characterized in that a blanket and cushion body is internally provided with a water channel; a heating container is combined with an electric heating device; a water storage tank is communicated with the heating container by a starting one-way valve; and the heating container is communicated with one end of the water channel in the blanket and the cushion body by a water-discharging connecting pipe, and the other end of the water channel is communicated with the water storage tank by a water-feeding connecting pipe so as to form a circulating path. The water-heating blanket and cushion also comprises a temperature-control device with a temperature sensing probe, wherein the temperature sensing probe is arranged in water in the heating container; the temperature change of the water is sensed by the temperature sensing probe; the temperature-control device is used for controlling a circuit of the electric heating device to be powered on and powered off, so that circulating heat transferring of hot water is realized.

Description

Efficient circulation hydrothermal blanket, pad

Technical field:

The present invention relates to hydrothermal blanket, pad that a kind of electric-heating water produces Steam Actuation hot water flowing heat transfer, particularly relate to electric heating water heating felt, pad.

Background technology:

The technology that the present invention relates to is Chinese patent: 201020215558.9, sense temperature on the housing that " hot water circular cushion for warming " this patent temperature sensing device is located at heating container or on heater, control electric current switching, realize circulating heat transfer, that is: electrified regulation (intensification)-generation steam-power-off-backwater (cooling)-electrified regulation again, realizes circulating heat transfer.In this cyclic process, when backwater, first heating container or heater temperature will decline by cold water, and temperature sensing device just can sense temperature decline, then switches on power, and such conduction time is delayed, and cycle efficieny reduces.In addition, in cyclic process, start electrified regulation and produce steam to be difficult to grasp to temperature during power-off, because the temperature neither one steady state value of heating container housing or heater and generation water vapour, tight ness rating installed by this and power, heat conduction velocity, temperature-sensing element, heating container material, capacity have very big relation, so, be difficult to determine, control power-off temperature, bring very burden to this product of enforcement.

Summary of the invention:

Object of the present invention will improve above-mentioned patent exactly further, provides a kind of being easy to grasp, control power-off temperature and hydrothermal blanket, the pad of energy efficient circulation.

Technical solution of the present invention, comprising: storage tank, open beginning check valve, heating container, electric calorifie installation, water outlet tube connector, water inlet tube connector, blanket, pad; Aquaporin is established in described blanket, pad; Described heating container combines with described electric calorifie installation; Open beginning check valve described in described storage tank passes through to communicate with described heating container, described heating container is communicated with aquaporin one end described in described blanket, pad by described water outlet tube connector, the described aquaporin other end is communicated with described storage tank by described water inlet tube connector, forms peripheral passage; It is characterized in that: also comprise the attemperating unit with temperature-sensing probe, establish described temperature-sensing probe in the water in described heating container, by the variations in temperature of this temperature-sensing probe perception water, described attemperating unit controls described electric calorifie installation power on circuitry, power-off.

Connect electric calorifie installation power supply, heating container is heated, water in it heats up, then boiling produces steam (100 DEG C, 1 normal atmosphere pressure, there is steady state value in water temperature, at this moment temperature-sensing probe very easily records this temperature, temperature as power-off) and promote water and enter water outlet tube connector, aquaporin, water inlet tube connector flows in storage tank, now attemperating unit cuts off electric calorifie installation power circuit, then, heating container cooling, water vapour in it becomes water, due to water outlet tube connector, aquaporin, water in storage tank sucks in heating container (i.e. backwater) by opening beginning check valve by the drag effect of water inlet tube connector, at this moment cold water directly acts on temperature-sensing probe, realize quick temperature-sensitive, attemperating unit switches on power in advance, enter periodic duty next time.In addition, temperature sensing device setting power-off temperature is passable, and with 100 DEG C for benchmark, setting is lower than 100 DEG C downwards, thermal inertia can be leaned on to produce steam and promote water circulation heat transfer.

For improving the present invention further, set up backwater tube connector, described storage tank and described heating container are connected by this backwater tube connector and the described beginning check valve that opens.Like this, be easier to install.

For improving the present invention further, between described heating container and described water outlet tube connector, set up steam pipe, this steam pipe one end and described heating container are connected, and the other end and described water outlet tube connector are connected.Like this, better can hold water vapour, make steam not enter or enter aquaporin less, make aquaporin and blanket, pad can not be overheated.

For improving the present invention further, described heating container adopts tubulose heating container.Because tubulose heating container capacity relative is less, can obtain by thermal inertia the good working state that deenergization produces water vapour again.

For improving the present invention further, the power-off temperature of attemperating unit setting is 70 DEG C-100 DEG C.Like this, with 100 DEG C for a reference value, be easy to downwards determine power-off temperature, general 70 DEG C of-100 DEG C of power-off, produce Steam Actuation water circulation by thermal inertia, better circulating effect can be obtained.

For improving the present invention further, described tubulose heating container is obliquely installed, and water outlet one end down.Like this, first hot water released by steam-energy, better circulating heat transfer.

For improving the present invention further, being connected on the path that formed by described water outlet tube connector, aquaporin, water inlet tube connector between described heating container and described storage tank and establishing end check valve.Like this, can better backwater, make its cycle efficieny higher.

By above scheme, temperature-sensing probe is located in water, the most responsive, the quickest, the most direct sense temperature, records coolant-temperature gage change, the in good time power-off of attemperating unit.Like this, cut down the number of intermediate links, reduce variable, temperature when making it be easy to determine power-off.In addition, temperature-sensing probe the most direct very first time induction cold water temperature during backwater, attemperating unit quick-make power supply, improves operating efficiency.And temperature-sensing probe is immersed in water, itself and temperature-sensitive object (water) combine together, and high efficiency heat by conduction is a kind of best mounting means, which further increases operating efficiency.

Accompanying drawing explanation

Fig. 1 is a kind of structural representation of the present invention.

Fig. 2 is the another kind of structural representation of the present invention.

Fig. 3 is the another kind of structural representation of the present invention.

Fig. 4 is blanket of the present invention, pad body structure schematic diagram.

In Fig. 1-4, arrow is depicted as water movement direction and path.

Detailed description of the invention

Composition graphs 1,4, heating container 4 combines with electric calorifie installation 5; Aquaporin 10 is established in blanket, pad 8; Storage tank 1 by backwater tube connector 2, open beginning check valve 3 and be connected with heating container 4, heating container 4 is communicated with aquaporin 10 one end in blanket, pad 8 by water outlet tube connector 7, aquaporin 10 other end is communicated with storage tank 1 by water inlet tube connector 9, forms peripheral passage; Also comprise the attemperating unit 13 with temperature-sensing probe 6, establish temperature-sensing probe 6 in the water in heating container 4, by the variations in temperature of this temperature-sensing probe 6 perception water, attemperating unit 13 controls electric calorifie installation 5 power on circuitry, power-off, realizes hot water circuit heat transfer.

Connect electric calorifie installation 5 power supply, heating container 4 is heated, water in it heats up, then boiling produces steam (100 DEG C, 1 normal atmosphere pressure, there is steady state value in water temperature, at this moment temperature-sensing probe 6 very easily records this temperature, temperature as power-off) and promote water and enter water outlet tube connector 7, aquaporin 10, water inlet tube connector 9 flows in storage tank 1, now attemperating unit 13 cuts off electric calorifie installation 5 circuit, then, heating container 4 cooling, water vapour in it becomes water, due to water outlet tube connector 7, aquaporin 10, the resistance of water inlet tube connector 9 is far longer than backwater tube connector 2 and opens beginning check valve 3, under this effect by the water in storage tank 1 by backwater tube connector 2 with open beginning check valve 3 and suck (i.e. backwater) in heating container 4, at this moment cold water directly acts on temperature-sensing probe 6, realize quick temperature-sensitive, attemperating unit 13 switches on power in advance, enter periodic duty next time.In addition, the power-off temperature that attemperating unit 13 sets, also passable, with 100 DEG C for benchmark, be located at downwards lower than 100 DEG C, be generally 70 DEG C of-100 DEG C of power-off, thermal inertia can be leaned on to produce Steam Actuation water circulation.

See Fig. 2,3, set up steam pipe 11 between heating container 4 and water outlet tube connector 7, this steam pipe 11 one end and heating container 4 are connected, and the other end and water outlet tube connector 7 are connected.Like this, better can hold water vapour, steam is not entered or enters aquaporin 10 less, make aquaporin 10 and blanket, pad 8 can not be overheated.

See Fig. 3, heating container 4 adopts tubulose heating container.Because tubulose heating container 4 capacity relative is less, can obtain by thermal inertia the good working state that deenergization produces water vapour again.That is: when the water in tubulose heating container 4 being heated to 70 DEG C-100 DEG C, attemperating unit 13 disconnects electric calorifie installation 5 circuit, enables water produce the flowing of Steam Actuation water circulation by thermal inertia.

Through actual measurement:

1. the power-off when attemperating unit 13 is set as 70 DEG C, heating container 4 adopts aluminium matter tubulose heating container, this aluminium matter tubulose heating container length 130mm, internal diameter 13mm, electric calorifie installation 5 adopts PTC heating plate, power 800W-1000W, can produce the quantity of steam of heating container 4 internal volume 50%-80%, and enter in steam pipe 11, water outlet tube connector 7 the water circulation flowing promoted in it, better circulating effect can be obtained.

2. the power-off when attemperating unit 13 is set as 80 DEG C, heating container 4 adopts aluminium matter tubulose heating container, this aluminium matter tubulose heating container length 130mm, internal diameter 13mm, electric calorifie installation 5 adopts PTC heating plate, power 800W-1000W, can produce the quantity of steam of heating container 4 internal volume 100%-150%, and enter in steam pipe 11, water outlet tube connector 7 the water circulation flowing promoted in it, also can obtain better circulating effect.

3. the power-off when attemperating unit 13 is set as 85 DEG C, heating container 4 adopts aluminium matter tubulose heating container, this aluminium matter tubulose heating container length 130mm, internal diameter 13mm, electric calorifie installation 5 adopts PTC heating plate, power 800W-1000W, can produce the quantity of steam of heating container 4 internal volume 150%-200%, and enter in steam pipe 11, water outlet tube connector 7 the water circulation flowing promoted in it, also can obtain better circulating effect.

See Fig. 2,3, between steam pipe 11 and water outlet tube connector 7, establish end check valve 12.When backwater, end check valve 12 is closed, like this, can better backwater, make its cycle efficieny higher.

See Fig. 3,4, tubulose heating container 4 is obliquely installed, and water outlet one end down.When tubulose heating container 4 is by heating produces steam, first hot water released by steam-energy, then enters into steam pipe 11 and flow in storage tank 1 through water outlet tube connector 7, aquaporin 10, water inlet tube connector 9, realize better circulating heat transfer.

Fig. 4 gives aquaporin 10 arrangement schematic diagram in blanket, pad 8, and this arrangement is parallel way, but is not limited to this, and series system also can be adopted to arrange.

Claims (7)

1. efficient circulation hydrothermal blanket, a pad, comprising: storage tank (1), open beginning check valve (3), heating container (4), electric calorifie installation (5), water outlet tube connector (7), water inlet tube connector (9), blanket, pad (8); Aquaporin (10) is established in described blanket, pad (8); Described heating container (4) combines with described electric calorifie installation (5); Open beginning check valve (3) described in described storage tank (1) passes through to communicate with described heating container (4), described heating container (4) is communicated with described aquaporin (10) one end in described blanket, pad (8) by described water outlet tube connector (7), described aquaporin (10) other end is communicated with described storage tank (1) by described water inlet tube connector (9), forms peripheral passage; It is characterized in that: also comprise the attemperating unit (13) with temperature-sensing probe (6), described temperature-sensing probe (6) is established in water in described heating container (4), by the variations in temperature of this temperature-sensing probe (6) perception water, described attemperating unit (13) controls described electric calorifie installation (5) power on circuitry, power-off.

2. efficient circulation hydrothermal blanket according to claim 1, pad, it is characterized in that: set up backwater tube connector (2), described storage tank (1) and described heating container (4) are connected with the described beginning check valve (3) that opens by this backwater tube connector (2).

3. efficient circulation hydrothermal blanket according to claim 1 and 2, pad, it is characterized in that: between described heating container (4) and described water outlet tube connector (7), set up steam pipe (11), this steam pipe (11) one end and described heating container (4) are connected, and the other end and described water outlet tube connector (7) are connected.

4. efficient circulation hydrothermal blanket according to claim 1 and 2, pad, is characterized in that: described heating container (4) adopts tubulose heating container.

5. efficient circulation hydrothermal blanket according to claim 4, pad, is characterized in that: the power-off temperature that attemperating unit (13) sets is 70 DEG C-100 DEG C.

6. efficient circulation hydrothermal blanket according to claim 4, pad, is characterized in that: described tubulose heating container (4) is obliquely installed, and water outlet one end down.

7. efficient circulation hydrothermal blanket according to claim 1 and 2, pad, is characterized in that: be connected on the path that formed by described water outlet tube connector (7), aquaporin (10), tube connector (9) of intaking between described heating container (4) and described storage tank (1) and establish end check valve (12).