KR20190141287A - Hot water generator - Google Patents

Abstract

The present invention relates to a steam type hot water generator. According to the present invention, a small amount of water is supplied to the inside of a main body and steam generated by heating the water with a heater is supplied to a heating pipe of a heat exchanger. Therefore, cold water supplied from a cold water tank inside the heating pipe is converted into hot water to be supplied to a hot water tank, and the steam through the heat exchanger is sent to the hot water tank to heat the water in the hot water tank with the residual heat of the steam. Accordingly, the speed of converting the cold water into the hot water is faster than the hot water generator generated by directly heating a flame with an existing heating means. As a result, energy saving by converting the cold water into the hot water to increase the thermal efficiency compared to the existing hot water generator.

Description

Hot water generator {Hot water generator}

The present invention relates to a steam type hot water generating device, and more particularly, a small amount of water is supplied to the inside of the main body and the steam generated by heating the water with a heater is supplied to the heating pipe of the heat exchanger to the inside of the heating pipe. Cold water from the cold water tank is converted into hot water to be supplied to the hot water tank, and the steam from the heat exchanger is sent to the hot water tank to heat the water in the hot water tank with the residual heat of steam, which is generated by direct heating with the flame by the existing heating means. In comparison with the hot water generator, the steam-type hot water generator generates energy faster and converts cold water into hot water, thereby saving energy by converting cold water into hot water. It is about.

In general, a hot water generator converts electrical energy into heat energy by a heater, which is an electric resistor, and transmits the heat energy to water so that the temperature of the water rises, and the user can use the water.

The conventional hot water generator is to insert a coil of a resistor in a copper pipe or stainless pipe, and to fill the space between the coil and the pipe to insulate the insulation magnesia, the shape of the pipe was to be made to the desired shape. . The coil was built in direct contact with the water, the water was supplied directly from the outside, the hot water heated by the pipe is configured to be discharged through the other transfer pipe.

Therefore, the conventional hot water generator as described above allows the external water to move to the inside of the hot water generator, the water is in direct contact with the pipe, when electricity is supplied to the coil of the pipe, the electrical energy is changed to thermal energy The water in contact with the pipe was heated, and the water heated by the pipe was heated evenly by convection, and the warmed water was supplied to the user through another transfer pipe as described above.

 However, the hot water generator generates hot water by directly contacting the stainless steel pipe having a coil which is a resistance body to the water, thereby supplying electrical energy to the coil installed inside the stainless steel pipe to generate heat generated from the coil through the stainless steel pipe. Since hot water is generated, such a hot water generator requires a lot of electrical energy to generate heat from a resistor in a stainless steel pipe, so it is not an efficient and energy-saving hot water generator, and is generated in a resistor installed inside a stainless steel pipe. There is a problem that the heat energy is transferred to the water through the stainless steel pipe to increase the temperature of the water, there are a lot of restrictions, and there are many problems that takes a lot of time to convert the cold water into hot water.

In order to solve the above problems, the present invention is supplied to the heating pipe of the heat exchanger by supplying a small amount of water to the inside of the body and heating the water with a heater is supplied from the cold water tank inside the heating pipe. It converts cold water into hot water and supplies it to the hot water tank, and sends steam through the heat exchanger to the hot water tank to heat the water in the hot water tank with the residual heat of steam, and prepares for the hot water generating device generated by directly heating the flame with the existing heating means. It provides a new steam type hot water generator that saves energy by converting cold water into hot water quickly, and saves energy by converting cold water into hot water. There is a purpose.

In order to achieve the above object, the present invention is provided with a cold water inlet in which cold water is introduced into one upper portion, a cold water space portion for receiving cold water is formed, and a cold water tank having a cold water outlet through which cold water is discharged. A cold water and hot water tank provided with a hot water inlet through which hot water is introduced, a hot water space part for receiving hot water, and a hot water tank formed with a hot water discharge port through which hot water is discharged; A heat exchanger having a heating pipe bent and zigzag and installed in a space formed therein to receive the cold water discharged from the cold water inlet; A plurality of communication holes formed in the lower part of the heat exchanger, a connection pipe connected to the communication hole, a main body having a heater installed therein, respectively connected to the connection pipes, and cold water into which cold water flows into the other side of the lower part of the main body. A heating unit provided to supply cold water to the inside of the main body through a supply port; Steam generated inside the main body heated by the heater of the heating unit is supplied to the inside of the heat exchanger through the connecting pipes and communication holes to heat the heating pipe installed in the heat exchanger to heat the heating. Cold water supplied to the inside of the pipe is converted to hot water, characterized in that configured to supply hot water to the hot water inlet connected to the heating pipe.

In addition, the upper part of the heat exchanger is formed with a steam outlet for discharging the steam generated from the heating unit in the heat exchanger, the steam connection pipe connected to the steam outlet is installed in the received hot water of the hot water tank is installed do.

In addition, the steam connection pipe is characterized in that the air pressure generating device is connected and installed.

In addition, a steam diffusion unit is installed below the steam connection pipe so that steam is smoothly supplied to the inner circumference of the hot water tank.

In addition, the steam diffusion unit is a conical body formed in the shape of a cone, and the steam inlet is formed on the upper portion of the cone body, characterized in that the outer periphery of the cone body and a plurality of steam discharge holes are formed below.

In addition, the cold water drain is installed in the lower portion of the cold water tank, characterized in that the hot water drain is installed in the lower portion of the hot water tank.

In addition, the heater is characterized in that connected to the AC power or DC power.

In addition, a water level sensor is installed in association with the main body to detect the level of the cold water contained in the main body, and to measure the steam pressure inside the main body generated by heating the cold water with the heater provided in the main body. Characterized in that it is provided with a pressure gauge installed in association with the main body.

The present invention is to supply the steam generated by heating the cold water to the heater installed inside the heating unit to the heating pipe of the heat exchanger to convert the cold water supplied from the cold water tank inside the heating pipe to hot water to supply the hot water tank Compared to the hot water generating device which is generated by directly heating the flame with the heating means, the speed of converting the cold water into hot water is generated quickly, and the energy efficiency of converting the cold water into hot water is reduced, thereby improving thermal efficiency compared to the existing hot water generating device. It has the effect of raising energy saving by making it high.

1 is a schematic view according to the present invention;
2 is a schematic view showing a cold water and hot water tank according to the present invention.
3 is a schematic view showing a heat exchanger according to the present invention.
4 is a schematic view showing a heating unit according to the present invention.
5 is a schematic view showing an air pressure generating device and a steam diffusion unit installed in the steam connection pipe according to the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more safely explain the present invention to those skilled in the art.

Therefore, the shape of the elements in the drawings and the like may be exaggerated to emphasize a more clear description. It should be noted that the same members in each drawing are sometimes shown with the same reference numerals.

1 is a schematic diagram according to the present invention, Figure 2 is a schematic diagram showing a cold water and hot water tank according to the present invention, Figure 3 is a schematic diagram showing a heat exchanger according to the present invention, Figure 4 is a schematic diagram showing a heating unit according to the present invention 5 is a schematic view showing an air pressure generator and a steam diffusion unit installed in the steam connection pipe according to the present invention.

Steam-type hot water generating apparatus according to the present invention will be described in detail with reference to those shown in Figures 1 to 5 as follows.

Steam-type hot water generating apparatus according to the present invention is composed of cold water and hot water tank 10, heat exchanger 20, and the heating unit (30).

The cold water and hot water tank 10 is composed of a cold water tank (10a) and a hot water tank (10b).

The cold water tank 10a is formed with a cold water space portion 12a for receiving cold water, and a cold water discharge port 13a for discharging cold water is formed in the lower portion.

The cold water outlet 13a is connected to the heating pipe 22 of the heat exchanger 20 to be described later by a pipe.

And the cold water discharge port (13a) is provided with a pump (p) is configured to be connected to the pipe.

In addition, a cold water drain 14a is formed at the lower portion of the cold water tank 10a so as to discharge cold water contained in the cold water tank 10a to the outside.

The cold water drain 14a is formed at the lower portion of the cold water tank 10a, thereby discharging the internal cold water contained in the cold water tank 10a to the outside through the cold water drain 14a to the outside. It is configured to clean the interior of 14a and again receive fresh cold water into the cold water tank 10a.

The hot water tank 10b is formed with a hot water space portion 12b for receiving hot water, and a hot water discharge port 13b for discharging hot water is formed at a lower portion thereof.

The hot water discharge port 13b is connected to the pipe installed in the place where hot water is required.

The hot water inlet 11b and the heating pipe 22 are provided with an on-off valve b.

In addition, the lower portion of the hot water tank (10b) is configured to form a hot water drain port (14b) to discharge the hot water contained in the inside of the hot water tank (10b) to the outside.

The hot water drain 14b is formed at the lower portion of the hot water tank 10b, and discharges the internal warm water contained in the hot water tank 10b to the outside through the hot water drain 14b to the outside. It is configured to clean the interior of 14b and to receive fresh hot water back into the hot water tank 10b.

It is formed in the space 21 in the heat exchanger 20, the heating pipe 22 is installed in the space 21 is configured.

The heating pipe 22 is formed to be bent in a zigzag shape in the space portion 21.

The heating pipe 22 is bent in a zigzag shape as described above is installed in the space portion 21 of the heat exchanger 20, the plurality of communication holes formed in the lower portion of the space 21 ( 23 through the connecting pipe 24 connected to the steam of the heating unit 30 to be described later bent in a zigzag shape of the outer surface of the heating pipe 22 and the steam to increase the effective area of the steam The heat is transferred to the heating pipe 22 to quickly convert the water passing through the heating pipe 22 to hot water.

The heating pipe 22 is preferably formed of a metal material having excellent heat transfer, and may be formed of copper pipe or the like, but the material is not limited thereto.

The heating unit 30 is composed of a communication hole 23 formed of a plurality of the heat exchanger 20, and a connecting tube 24 connected to the communication hole (23).

The communication hole 23 is preferably formed in three to vary depending on the size of the heat exchanger and the heating unit, in order to more efficiently supply the steam of the heating unit 30 to the heat exchanger (20) the communication hole ( The number of 23) is not limited.

It is composed of a main body (30a) which is connected to each of the connection pipes 24 and provided with a heater 31 therein.

In addition, the heater 21 may be used as various heat sources such as a gas electric oil boiler, and when the electricity is used, the heater 21 is connected to an AC power source or a DC power source.

The heater 21 is connected to a DC power source to easily move the hot water generator of the present invention having the heater 21 so as to be installed and used anywhere.

Cold water supply port 32 through which the cold water flows is installed at the other lower side of the main body 30a.

The main body 30a has a size smaller than that of the hot water tank 10a, and supplies a small amount of water to the main body with a small heat source, and heats a small amount of water with the heater 31 to change the water into steam so that the heat exchanger ( It is possible to improve the heating efficiency by supplying high heat steam to 20).

Cold water is supplied to the inside of the main body 30a through the cold water supply port 32 as described above.

The cold water supply port 32 is provided with a pump (p) is configured to be connected to the pipe.

The steam outlet 30b of the main body 30a is formed.

The steam outlet 30b is connected to the connection pipe 24 and configured to supply steam supplied from the steam outlet 30b to the inside of the heat exchanger 20 through the connection pipe 24.

The cold water supply port 32 supplies cold water to the inside of the main body 30a and is heated by the heater 31 so that steam, which is steam generated inside the main body 30a, is supplied to the connection pipe 24. It is composed.

Therefore, steam generated inside the main body 30a by the heater 31 of the heating unit 30 passes through the connecting pipes 24 and the communication holes 23 through the heat exchanger 20. It is configured to be supplied inside.

The hot water inlet 11b connected to the heating pipe 21 is converted into hot water by heating the heating pipe 22 installed in the heat exchanger 20 and converting the cold water supplied into the heating pipe 22 into hot water. It is configured to supply hot water to the hot water space portion (12b) of the hot water tank (10b) through.

In addition, the upper portion of the heat exchanger 20 is formed in the heat exchanger 20 is formed with a steam outlet 25 for discharging the steam generated by the heating unit 30.

The steam connection pipe 26 connected to the steam outlet 25 is installed and installed in the received hot water of the hot water tank 10b.

And the steam connection pipe 26 is configured to be installed on and off valve (b).

As described above, the steam connection pipe 26 connected to the steam outlet 25 receiving the steam supplied into the heat exchanger 20 is stored in hot water in the hot water tank 10b. When accommodating hot water supplied from the pipe 22 into the hot water tank 10b, the steam connection pipe 26 is further supplied with steam to supply the hot water supplied to the heating pipe 22 to the steam connection pipe 26. Heat to the residual heat of steam in the) to increase the temperature of the received hot water of the hot water tank (10b) more efficiently, when the hot water supplied from the heating pipe 22 is received in the hot water tank (10b), the temperature of the hot water This is to maintain a constant temperature of the hot water in the hot water tank 10b so as not to fall off, or to increase the temperature of the hot water further.

In addition, the steam connection pipe 26 is configured to be connected to the air pressure generating device 27 is installed.

As described above, the steam connecting pipe 26 is connected to the air pressure generating device 27 is installed is configured that the high-pressure air generated in the air pressure generating device 27 to the steam connecting pipe 26 By supplying the steam supplied to the inside of the steam connection pipe 26 to the hot water contained in the hot water supply unit 12b of the hot water tank 10b more quickly to the steam supplied from the steam connection pipe 26. This is to increase the temperature of the hot water contained in the hot water tank 10b efficiently or to maintain the temperature of the hot water efficiently and efficiently.

In addition, a steam diffusion unit 28 is installed below the steam connection pipe 26 so that steam is smoothly supplied to the inner circumference of the hot water tank 10b.

And the steam diffusion unit 28 is composed of a conical body 28a formed in the shape of a cone.

The conical body (28a) is formed, the steam is lowered more smoothly from the upper portion to the lower portion of the conical body (28b) to facilitate the diffusion of steam from the upper portion to the lower portion when the lower portion from the upper portion to lower the steam This is to more easily and efficiently supply the inside of the hot water space portion 12b of the hot water tank 10b to the steam discharge holes 27c formed in plural on the outer circumference and lower portion of the conical body 28b.

The steam inlet 28b is formed on the upper portion of the conical body 28a.

The outer periphery and the lower portion of the conical body (28a) is formed by forming a plurality of steam discharge holes (28c).

As described above, installing the steam diffusion unit 28 provided as the conical body 28a, the steam inlet 28b, and the steam discharge hole 28c in the lower portion of the steam connection pipe 26,

The steam supplied from the steam connection pipe 26 is uniformly supplied to the hot water received in the hot water space portion 12b formed in the hot water tank 10b through the steam discharge holes 28c of the steam diffusion unit 28. By supplying the hot water temperature of the hot water tank (10b) to quickly rise, or by adjusting the on-off valve (b) connected to the steam connection pipe 26 to the steam supplied from the steam diffusion unit 28 to adjust the steam This is to easily control the hot water temperature of the hot water tank 10b by controlling the supply of the hot water tank 10b to the steam supplied through the diffusion part 26.

In addition, the water level sensor 33 is installed in association with the main body 30a so as to detect the level of cold water contained in the main body 30a.

This is to easily recognize the water level of the cold water accommodated inside the main body 30b by the water level sensor 33.

And a pressure gauge 34 installed in association with the main body 30a to measure steam pressure inside the main body 30a generated by heating cold water with the heater 21 provided in the main body 30a. It is configured by.

The cold water contained in the main body 30b by the pressure gauge 34 is heated through the heater 31 to be converted into steam, which is a gas, so that the pressure value of steam can be more easily recognized.

The present invention described above requires a lot of energy to increase the temperature of the water in the hot water tank by inserting the cold water into the body of the heater 31 installed in the heating unit 30 less than the hot water tank. However, since a small amount of water is supplied to the main body and heated by the heater 31, the water contained in the main body is converted into steam by using small energy to convert steam generated in the main body 30a into the steam of the heat exchanger 20. It is supplied to the heating pipe 22 to convert the cold water supplied from the cold water tank (10b) into the hot water inside the heating pipe 22 to be supplied to the hot water tank (10b) to directly flame the existing heating means In contrast to the hot water generating device generated by heating the water, the speed of converting the cold water into hot water is generated quickly, thereby reducing the energy of converting the cold water into hot water. This is to save energy by improving thermal efficiency compared to hot water generator.

That is, the existing hot water generator is configured to supply a large amount of water to the heated hot water tank (10b) to increase the overall water supply of the hot water tank, but the present invention supplies a small amount of water to the size of the main body (30a) By heating a small amount of water with a small heat source in the state in the heater 31 to change the water to steam to supply high heat steam to the heat exchanger 20 can improve the heating efficiency.

In addition, the temperature of the steam sent to the heating pipe 22 of the heat exchange part by closing the on-off valve (b) provided in the steam connection pipe 26 to make the steam generated in the main body 30a to a predetermined pressure or more to 100 ℃ or more. After increasing the opening and closing valve (b) of the steam connection pipe (26) and the steam temperature of the main body is raised to more than 100 ℃ to send the heat exchanger 20 to heat the temperature of the heating pipe 22 more quickly. It is possible to increase the thermal efficiency.

The embodiments according to the present invention described above are merely exemplary, and those skilled in the art will appreciate that various modifications and equivalent other embodiments are possible therefrom. . Therefore, it will be understood that the present invention is not limited to the forms mentioned in the above detailed description.

Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims.

10: cold water and hot water tank 10a: cold water tank
10b: hot water tank 11a: cold water inlet
11b: hot water inlet 12a: cold water space
12b: hot water space portion 13a: cold water outlet
13b: hot water outlet 14a: cold water drain
14b: hot water drain 20: heat exchanger
21: space part 22: heating pipe
23: communication hole 24: connector
25: steam outlet 26: steam connector
27: air pressure generating device 28: steam diffusion unit
28a: conical body 28b: steam inlet
28c: steam discharge hole 30: heating
30a: main body 31: heater
32: cold water supply 33: water level sensor
34: pressure gauge

Claims (8)

Cold water inlet (11a) is the cold water inlet (11a) is installed in the upper one side, the cold water space portion (12a) is formed to accommodate the cold water, cold water tank (10a) having a cold water outlet (13a) for discharging cold water in the lower portion and To the hot water tank 10b having a hot water inlet 11b through which hot water is introduced, an hot water space portion 12b for receiving hot water, and a hot water discharge port 13b for discharging hot water on the lower side of the hot water inlet 11b. Cold water and hot water tank 10 provided;
A heat exchanger (20) having a heating pipe (22) zigzag bent in a space portion (21) formed therein to receive the cold water discharged from the cold water inlet (11a);
A plurality of communication holes 23 formed in the lower portion of the heat exchanger 20, a connection pipe 24 connected to the communication hole 23, and are connected to the connection pipes 24, respectively, installed inside the heater ( 31 is provided with a main body 30a and a heating unit 30 provided to supply cold water to the inside of the main body 30a through a cold water supply port 32 through which cold water flows into the lower side of the main body 30a. )Wow;
Steam generated inside the main body 30a, which is heated by the heater 31 of the heating unit 30, is connected to the heat exchanger 20 through the connection tubes 24 and the communication holes 23. The heating pipe 22 is supplied to the inside of the heat exchanger 20 is heated to the cold water supplied to the inside of the heating pipe 22 is converted into hot water is connected to the heating pipe 21 Steam-type hot water generator, characterized in that configured to supply hot water to the hot water inlet (11b). The method of claim 1,
A steam outlet 25 for discharging steam generated by the heating part 30 is formed in the heat exchanger 20, and a steam connection pipe connected to the steam outlet 25 is formed on the heat exchanger 20. 26) is a steam-type hot water generator, characterized in that installed in the received hot water of the hot water tank (10b). The method of claim 2,
Steam-type hot water generator, characterized in that the air pressure generating device 27 is connected to the steam connection pipe 26 is installed. The method of claim 2,
Steam-type hot water generator, characterized in that the steam diffusion unit 28 is installed in the lower portion of the steam connection pipe 26 so that steam is smoothly supplied to the inner circumference of the hot water tank (10b). The method of claim 4, wherein
The steam diffusion unit 28 has a conical body 28a formed in the shape of a cone, and a steam inlet 28b is formed at an upper portion of the conical body 28a, and the outer circumference of the conical body 28a and its lower portion. Steam-type hot water generator, characterized in that formed in the plurality of steam discharge holes (28c). The method of claim 1,
The cold water drainage device (14a) is provided in the lower portion of the cold water tank (10a), the hot water drainage device (14b) characterized in that the hot water drainage port (14b) is installed in the lower portion of the hot water tank (10b). The method of claim 1,
The heater 21 is steam-type hot water generator, characterized in that connected to the AC power or DC power. The method of claim 1,
The water level sensor 33 is installed in association with the main body 30a so as to sense the level of the cold water accommodated in the main body 30a, and the cold water is heated by the heater 21 provided in the main body 30a. Steam-type hot water generator, characterized in that provided with a pressure gauge (34) installed in association with the main body (30a) to measure the steam pressure inside the main body (30a) generated by.

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