KR101197371B1 - Portable Device to Supply Warm Water - Google Patents

Abstract

The present invention relates to a portable hot water generation supply device, which consists of a double pipe structure in which the inner and outer pipe portions are formed in the upper and lower portions of the water supply port and the drain hole, respectively, and the heat passage is formed on the inner side, and is sealed between the inner tube portion and the outer portion. And a gas heat supply means for providing a gas heat to the heat passage in which the apparatus body in which the pressure generating space is formed, the backflow preventing means provided on the water supply port side, and a gas nozzle connected to the gas pipe are positioned at the inlet of the heat passage. Is done.
According to the present invention, since it is easy to carry and does not need a power supply, hot water can be easily used as a heat medium not only indoors but also outdoors, and thermal efficiency can be improved as compared with the prior art, and the temperature of the discharged hot water or the intensity of the generated steam pressure There is an effect that can be easily adjusted.

Description

Portable Device to Supply Warm Water

The present invention relates to a hot water generating and supplying device, and more particularly, does not require a power unit such as a pump by supplying and circulating hot water by steam pressure. The present invention relates to a portable hot water generating and supplying device capable of supplying hot water with high efficiency to various products such as floor plates, mats, instantaneous water heaters, coffee makers, as well as indoors.

In general, in order to heat products such as floor coverings and mats, conventionally, heating wires are generated by embedding heating wires in the products and supplying electric power to generate heat by electric resistance. Mat and the like inevitably generate electromagnetic waves have a great side effect on the human body as well as the danger of fire due to overheating and electric leakage by using electricity directly, there was a big problem in safety.

In recent years, through the recognition of the problems with the conventional electrothermal heating, techniques for heating by using hot water instead of using electric heat have been disclosed. Most of these technologies mainly heat the stored water through an electric heater and heat the heated hot water. It is a way to circulate by using a power unit such as a submersible pump, which is not only bulky and complicated in structure, but also requires electricity to drive a power unit that circulates hot water. There is a problem.

In addition, Japanese Patent Laid-Open No. 2005-0037068 discloses a hot water circulation system that does not employ a power unit such as a pump, which includes a boiler room connected to a water tank and installs an electric heater in the boiler to provide hot water. As circulating, this also uses a heating method through an electric heater, there was a problem that can not be used where no power is supplied.

Accordingly, in recognition of the problems of the conventional hot water supply apparatuses, the present applicant has developed a portable hot water supply device that can be conveniently used without restriction of a place while using gas heat, and filed a patent on June 14, 2005. (Patent No. 10-0723262)

By the way, the applicant has identified the problem while using it continuously, the conventional patent technology (Patent No. 10-0723262) has a very convenient advantage that can supply hot water without the constraints of the place, but from the outside of the pressure generating pipe It is known that there is a problem that heat efficiency is not high due to the application of gas heat, that is, the ability to generate and pump hot water is somewhat inferior to the consumption of gas, and that the temperature of the hot water to be supplied is relatively easy to control. It became.

The present invention is to solve the above-mentioned problems, the object of the present invention is easy to carry by using the gas heat to improve the thermal efficiency and to make it easy to use hot water as a heat medium anywhere in the room as well as outdoors It is possible to easily adjust the temperature of the hot water discharged to provide a portable hot water generation supply device that can generate and supply hot water more stably and efficiently.

As a problem solving means of the present invention for achieving the above object,
It consists of a horizontal double pipe structure in which a water supply port is formed on the upper side and a drainage hole is formed on the lower side, and a horizontal inner tube portion in which a heat passage is formed on the inner side, and a horizontal cross section between the inner tube portion and the outer portion. The apparatus body is formed with a closed pressure generating space portion having a, and the reverse flow prevention means provided on the water supply port side, the gas nozzle connected to the gas pipe is located in the heat passage to concentrate the heat of gas in the upper portion of the heat passage Including a gas heat supply means for intensively heating the upper portion of the pressure generating space by providing a, wherein the hot water in the lower portion is discharged through the drain by the steam pressure locally generated in the upper portion of the pressure generating space Disclosed is a portable hot water generating supply device.

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Here, the gas nozzle may be positioned to be inclined upward by a predetermined angle.

In addition, the inlet of the heat passage may be formed with an extension protruding to a predetermined length, the extension may be formed with a plurality of vent holes.

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Portable hot water producing and supplying device according to the present invention,

By using gas heat, it is easy to carry and does not require power supply, so hot water can be easily used as a heat medium not only indoors but also outdoors.

In addition, by supplying gas heat to the heat passage penetrating the inside of the device body to generate a vapor pressure there is an effect that can increase the thermal efficiency compared to the conventional.

In addition, there is an effect that can easily adjust the temperature of the discharged hot water or the strength of the generated steam pressure through the adjustment of the diameter of the inner tube and the exterior of the apparatus body or by adjusting the heating area.

It is to be noted that, in addition to the effect specifically described above, a specific effect that can be easily derived and expected from the characteristic configuration of the present invention can also be included in the effect of the present invention.

1 is an overall configuration diagram of a portable hot water generation supply device according to an embodiment of the present invention,
Figure 2 is a perspective view of the apparatus main body according to an embodiment of the present invention,
3 is a cross-sectional view of the apparatus main body according to an embodiment of the present invention.
Figure 4a / b is an operating state diagram of the heating control means according to an embodiment of the present invention,
Figure 5 is an installation example of a portable hot water generation supply device according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the portable hot water supply device according to the present invention.

This embodiment is provided to more completely explain the present invention to those skilled in the art, and the shape, size, etc. of the elements in the drawings may be exaggerated to emphasize a more clear description. have.

In addition, in describing the embodiments, in the case where it is determined that the technical features of the present invention may be unnecessarily obscured as a matter already known to those skilled in the art, such as known functions or known configurations, the details of the embodiments will be described in detail. The description will be omitted.

Hot water generating and supplying device 1 according to a preferred embodiment of the present invention, as shown in Figure 1, comprising a device body 10, the backflow preventing means 20, gas heat supply means 30 It can be made in a configuration.

And the hot water producing and supplying device 1 according to the present invention is the device body 10 is connected to the water storage unit 2 through the supply pipe 3, as shown in Figure 5, the hot water supply through the discharge pipe (4) It is connected to a variety of hot water products 5 to be used, the hot water product 5 and the water storage unit 2 may be installed to the circulation of hot water by being connected to the recovery pipe (6).

First, the apparatus main body 10 constituting the present invention has a feature of a horizontal double tube structure as shown in the drawings.

That is, the device body 10 has a horizontal outer portion 11 having a constant diameter, and a horizontal inner tube portion 12 inside the outer portion 11 having a smaller diameter than the outer portion 11 It consists of a structure of a horizontal double pipe provided.

The exterior portion 11 is formed with a water supply port 13 for receiving water in the upper and lower sides thereof, and a drain hole 14 for discharging the generated hot water. The water supply port 13 is connected through the water storage unit 2 and the supply pipe (3), the drain 14 is a variety of hot water products (5) and discharge pipe (4) to use the generated hot water The connection is made.

And the inner empty space of the inner tube portion 12 is a heat passage 15, between the outer portion 11 and the inner tube portion 12 has a closed pressure having a ring-shaped cross section as shown in FIG. The generating space portion 16 is formed.

The pressure generating space 16 is filled with water supplied through the water supply port 13, and functions as a space for generating hot water by heating and discharging the hot water generated by the steam pressure.

 Since the pressure generating space 16 is formed between the exterior 11 and the inner tube 12, the size of the pressure generating space 16 is the diameter of the exterior 11 and the inner tube 12 It is determined according to the difference, by adjusting the diameter difference between the outer portion 11 and the inner tube portion 12 it is possible to easily control the temperature of the hot water discharged from the apparatus main body 10.

That is, when the size of the pressure generating space portion 16 is large (when the diameter difference between the outer tube portion 11 and the inner tube portion 12 is large), the space filled with water is larger than the heat of the gas delivered, and thus the vapor pressure is generated. The longer the time is, the longer the water stays in the pressure generating space portion 16 and the temperature of the water is discharged after the temperature of the water is sufficiently raised, so that the temperature of the hot water discharged is increased, and conversely, the size of the pressure generating space portion 16 is small. In the case of the case where the diameter difference between the outer part 11 and the inner part 12 is small, the generation time of the vapor pressure is relatively short, and the filled water is discharged quickly without receiving sufficient heat transfer. It will be lowered to, by appropriately designing the diameter of the outer portion 11 and the inner tube portion 12, respectively, it is possible to easily control the temperature of the discharged hot water.

The heat passage 15 is a portion through which the gas heat is supplied from the gas heat supply means 30 and functions as a passage through which the supplied gas heat passes.

An extension portion 17 protruding to a predetermined length may be formed at an inlet side of the heat passage 15, and a plurality of ventilation holes 17a may be formed in the extension portion 17 to facilitate the flow of air. have.

In addition, an exhaust pipe 18 for discharging the heat passing through the heat passage 15 may be connected to the outlet side of the heat passage 15. Here, the exhaust pipe 18 extending from the outlet of the heat passage 15 may be disposed to pass through the interior of the water storage unit 2 for supplying water to the apparatus body 10.

This is to improve the thermal efficiency by increasing the temperature of the water storage unit 2 by using the heat instead of just exhausting the heat exhausted along the exhaust pipe 18 to the atmosphere. Therefore, the portion of the exhaust pipe 18 passing through the inside of the water storage unit 2 preferably has the form of a corrugated pipe to facilitate heat exchange between the heat of the exhaust pipe 18 and the stored water.

In addition, a lattice-shaped insulating wire mesh 19 may be installed in the heat passage 15 to increase the residence time of the gas heat passing therethrough to increase the thermal efficiency.

Next, the backflow preventing means 20 constituting the present invention is provided on the water supply port 13 side of the apparatus body 10 to prevent the water in the pressure generating space 16 from flowing back. .

That is, the backflow preventing means 20 is closed when the water is heated inside the press-generating space part 16 to generate a constant vapor pressure, thereby preventing the generated hot water from flowing back to the drain 14. After the hot water is discharged, it is opened so that water can be supplied to the compressed living space part 16 again. Such a backflow prevention means includes a piston type, a ball type, a swing type, a diaphragm type, and the like. Non-return valves having a variety of structures may be employed, and such a non-return valve is a technique already known in the art, and a description thereof will be omitted.

Here, such a backflow prevention means may be provided on the drain port 14 side as needed.

The reverse flow prevention means provided at the drain port 14 prevents the discharged hot water back to the pressure generating space 16 when the pressure generating space 16 discharges the hot water and is decompressed to negative pressure. It is possible to improve the resupply of water to the pressure generating space 16, the hot water discharge performance, etc., so that the size, length, the length of the discharge pipe (4) connected to the drain port (14) In consideration of the installation height and the like can be installed.

Next, the gas heat supply means 30 constituting the present invention is a part that functions to heat the pressure generating space portion 16 by supplying gas heat to the heat passage 16 of the apparatus main body 10. The gas heat supply means 30 may be configured similarly to the configuration of a conventional portable gas burner that supplies gas, injects the supplied gas, and ignites it.

That is, a gas nozzle 31 for injecting gas, an ignition means 32 for ignition of the injected gas, a gas pipe 33 connected to the gas nozzle 31 to supply gas, and the gas pipe 33 Is connected to the portable gas cylinder (G) can be made of a configuration including a gas cylinder mounting portion 34 that can be mounted, the gas pipe 33 is a control valve or control switch 35 for controlling the supply or ignition of gas Etc. may be provided.

The important thing in the gas heat supply means 30 is that the gas nozzle 31 for injecting gas is located in the heat passage 15 of the apparatus main body 10, thereby providing gas heat to the heat passage 15. will be.

When the gas heat is provided to the heat passage 15 in the gas heat supply means 30, heat is concentrated toward the upper portion of the heat passage 15 due to the heat rising, so that the entire pressure generating space 16 is heated evenly. Only the upper part is heated intensively, so that the upper part of the compaction generating space 16 is locally heated to generate a lot of steam in a relatively short time so that hot water can be efficiently discharged. do.

In addition, it is also possible to adjust the temperature of the hot water discharged by adjusting the position of the gas nozzle 31, the shape of the flame, and the like in the heat passage 15 to change the heating area of the pressure generating space 16.

In other words, even if the same amount of gas is consumed, if the flame size is relatively small and the gas heat is strongly concentrated in a small area, the vapor pressure is generated locally even though the water is not warmed up, thereby discharging lower temperature hot water. On the contrary, when the size of the flame is increased and the large area is heated, the generation time of the vapor pressure becomes longer, and it is possible to discharge relatively hot water.

Accordingly, the gas nozzle 31 may be positioned at various angles within the heat passage 15 according to the temperature of the hot water to be discharged, so that the gas heat can be more concentrated above the heat passage 15. The gas nozzle 31 may be more preferably positioned at an angle upwards.

On the other hand, the portable hot water production supply device 1 according to the present invention is a safety device for preventing overheating, heating control means for automatically adjusting the gas supply of the gas heat supply means 30 in accordance with the temperature of the apparatus main body 10 ( 40) may be further included.

The heating control means 40 may be composed of a case 41, the elastic member 42, the body 43, the heat conduction 44 as shown in Figure 4a / b.

The case 41 is installed in the gas pipe 33 of the gas heat supply means 30, and the heat conduction tube 44 is fixedly installed on the outer circumferential surface of the exterior portion 11 of the apparatus body 10.

The case 41 has a gas inlet (41a) and the gas outlet (41b) is formed is connected to the gas pipe 33, respectively, the inside is made of a hollow hollow body.

The heat conduction tube 44 receives heat from the exterior portion 11 of the fixed device body 10 in a hollow cylindrical shape having one side open.

The body 43 is slidably accommodated in the case 41 and both ends of the elastic member 42 are coupled to the other side of the body 43 and the heat conduction 44, respectively.

The body 43 may be formed in a conical shape so as to sequentially open and close the gas inlet 41a of the case 41 while moving forward and backward finely, and the gas leaks when the body 43 moves. In order to prevent the O-ring 43a is preferably inserted into the side.

The stretching member 42 is preferably made of a material having a large linear thermal expansion rate such as aluminum to allow expansion and contraction by heat. The thermoelectric member 42 is close to the inner wall surface of the heat conduction tube 44 so that heat can be easily conducted. One end of the conduction 44 is fixedly coupled with a bolt B or the like.

The heating control means 40 configured as described above opens the gas inlet 41a as shown in FIG. 4A to supply gas, and is heated by the heat transmitted from the exterior part 11 as shown in FIG. 4B. As the expansion and contraction member 42 is thermally expanded, the body 43 automatically closes the gas inlet 41a so as to block the gas supply, thereby automatically adjusting the amount of gas supplied to prevent abnormal overheating of the apparatus main body 10. You can prevent it.

Referring to the operation of the portable hot water generating device 1 according to the preferred embodiment of the present invention having the configuration as described above are as follows.

5 shows an example in which the portable hot water generation supply device 1 according to an embodiment of the present invention is installed. As shown, the portable hot water production supply device 1 according to the present invention is an apparatus body 10. The water supply port 13 is connected to the water storage unit (2) through the supply pipe (3), the drain hole 14 is a hot water supply target, such as hot water mat, hot plate, instant water heater, coffee maker through the discharge pipe (4) Is connected to the various hot water products (5), the hot water products (5) and the water tank (2) can be installed to make the circulation system of hot water by being connected to the recovery pipe (6).

When the hot water producing and supplying device 1 according to the present invention is installed in connection with the water storage unit 2 and the hot water using product 5, water is injected into the water storage unit 2. ) Is supplied to the pressure generating space portion 16 of the apparatus body 10 through the supply pipe 3 and is supplied to the hot water use product 5 through the discharge pipe 4 to be filled in all pipes. (At this time, the backflow prevention means 20 provided on the water supply port 13 side is in an open state.)

In this manner, after the gas cylinder is mounted on the gas cylinder mounting portion 34 in a state where water is filled in the pressure generating space portion 16 and the discharge pipe 5 of the apparatus body 10 (of course, it may be installed first), gas heat supply The control switch 35 of the means 30 is operated so that the heat of gas is supplied to the heat passage 15 of the apparatus main body 10.

When the gas heat is supplied to the heat passage 15, the upper part of the pressure generating space 16 is heated intensively due to its heat, and the water of the part rapidly rises in temperature to vaporize gradually. The lower portion of the space 16 is relatively slowly rise in temperature.

 When the upper part of the pressure generating space portion 16 is locally heated and vapor pressure is generated, the backflow preventing means 20 of the supply pipe 3 is closed by the pressure and the pressure generating space portion 16 is lowered. The hot water of the part starts to be discharged through the discharge pipe (5).

After the predetermined amount of hot water is discharged as described above, the empty space is instantaneously formed inside the pressing-generating space 16 as much as the space occupied by the discharged hot water, and depressurized to negative pressure, thereby again backflowing the supply pipe 3. As the prevention means 20 is opened and cold water is supplied from the water storage unit 2 to the pressure generating space 16 of the apparatus main body 10 again, the process of generating the vapor pressure as described above is repeated. It will be provided to the hot water using product (5) to be produced and discharged to supply hot water.

The hot water generating and supplying device 1 according to the present invention, which operates as described above, appropriately designs the size of the pressure generating space 16 (that is, the diameter difference between the inner tube portion 11 and the outer portion 12). It can be seen that it is possible to easily control the pumping strength and the temperature of the hot water discharged by.

In other words, when the diameter difference between the outer portion 11 and the inner tube portion 12 is increased to increase the pressure generating space 16, the space filled with water is large, and thus the time for generating the vapor pressure is increased accordingly. Since the water in the space portion 16 is discharged in a state where the temperature is sufficiently high, the temperature of the hot water discharged is increased, and conversely, the pressure generating space portion 16 is made smaller by reducing the diameter difference between the outer portion 11 and the inner tube portion 12. If it is small, since the generation time of the steam pressure is relatively short, the filled water is discharged more quickly, so that the temperature of the hot water discharged is reduced.

In addition, as described above, the temperature of the hot water discharged by adjusting the heating area of the compaction generating space 16 heated by the gas heat (that is, localized heating of a small area and heating of a large area) can be easily adjusted. It can be seen that.

While the present invention has been described above, the technical scope of the present invention is not limited to the contents described in the above-described embodiments and drawings, and equivalent configurations modified or changed by those skilled in the art are It will be said that without departing from the scope of the technical idea of the present invention.

Referring to the symbols for the main parts of the accompanying drawings as follows.
10: device body 11: exterior
12: inner tube 13: water inlet
14: drain 15: heat passage
16: pressure generation space 20: backflow prevention means
30: gas heat supply means 31: gas nozzle
32: ignition means 33: gas pipe
34: gas cylinder mounting portion 40: heating control means
41: case 42: elastic member
43: body 44: heat conduction

Claims (5)

It consists of a horizontal double pipe structure in which a water supply port is formed on the upper side and a drain hole is formed on the lower side, and a horizontal inner tube portion in which a heat passage is formed on the inner side thereof, and a ring-shaped cross section is formed between the inner tube portion and the outer portion. An apparatus body in which a closed compaction generating space portion is formed;
A backflow prevention means provided at the water supply port side;
Gas heat supply means for intensively heating the upper portion of the pressure generating space by the gas nozzle connected to the gas pipe is located in the heat passage to provide a concentrated heat of gas to the upper portion of the heat passage;
Portable hot water generation supply device, characterized in that the hot water in the lower portion is discharged through the drain port by the locally generated steam pressure in the upper portion of the pressure generating space. The method of claim 1,
The gas nozzle is a portable hot water production supply, characterized in that positioned upwardly inclined at a predetermined angle. The method of claim 1,
Portable hot water generation supply device, characterized in that the inlet of the heat passage is formed with an extension protruding to a predetermined length, the extension portion is formed with a plurality of vent holes. delete delete

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