KR20140011896A - A induction heating hot water boilers using waste heat from heating equipment - Google Patents

Abstract

The present invention relates to hot water heating equipment which uses waste heat of an induction heater for a boiler and, more specifically, to hot water heating equipment which includes a heat collection pipe which circulates the hot water of a tank by being wound around the outside of an induction heater and being installed to be connected to the tank in both sides and is able to reduce energy consumption by increasing energy efficiency because hot water is generated by maximally using waste heat which is disposed from the induction heater by heating water by the induction heater by supplying water stored in the tank to the induction heater and the heat collection pipe and making the water circulate and, at the same time, heating water which circulates the heat collection pipe by using waste heat discharged to the outside from the induction heater. By the present invention to achieve the forementioned purposes, the heat collection pipe which is connected to the both sides of the tank is wound around the outer circumference surface of the induction heater in the hot water heating equipment which uses the induction heater for a boiler including the induction heater and the tank which stores water.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hot water heating apparatus using a waste heat of an induction heater for a boiler,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot water heating apparatus using waste heat of an induction heater for a boiler and more particularly to a hot water heating apparatus using a waste heat of a tank, Is circulated simultaneously through the induction heater and the heat recovery pipe so that the water is heated by the induction heater and simultaneously the water circulating through the heat recovery pipe is heated using the waste heat discharged from the induction heater to the outside, To a hot water heating apparatus using waste heat of an induction heater for a boiler, which is used to produce hot water by maximizing waste heat to increase energy efficiency and to prevent waste of energy.

Generally, a boiler is a device for heating cold water to high temperature for the purpose of heating indoor space or using hot water directly. Such a boiler is divided into electric boiler, gas boiler, oil boiler, briquet boiler etc. depending on the kind of energy source , They commonly use water as heating water to heat the room by heating water, or to heat water to provide hot water through a hot water pipe.

Referring to FIG. 1, a boiler using a conventional induction heater includes a tank 10 in which water is stored, an induction heater 10 that supplies water stored in the tank 10 to the tank 10, The lower part of the tank 10 and the lower part of the induction heater 20 are connected to each other by a first connection pipe 12 and a circulation pump 14 The upper portion of the tank 10 and the upper portion of the induction heater 20 are connected to each other by a second connection pipe 16.

At this time, the induction heater 20 has one side communicated with the first connection pipe 12 and the other side connected with the second connection pipe 16 so that the heating pipe is connected to the inside of the induction heater 20, .

A heater means for radiating heat or a heating means for radiating heat such as a hot-wire coil are wired to the outside of the heating tube provided inside the induction heater 20.

Therefore, when the water in the tank 10 is supplied to the lower portion of the induction heater 20 through the first connection pipe 12 by the circulation pump 14, water circulates along the heating pipe and flows toward the second connection pipe Moving. The water is heated by the heat radiating from the heating means in the course of the upward movement of the water.

The hot water thus heated is supplied to and stored in the tank 10 through the second connection pipe 16. The hot water stored in the tank 10 is supplied as heating water or hot water for heating the room.

However, when the water circulating inside the induction heater 20 is heated by the heating means as described above, the circulated water is heated and the self-generated heat is directly discharged to the outside.

Accordingly, a part of the heat generated inside the induction heater 20, which heats the water, is discharged to the outside of the induction heater 20, and the heat released to the outside is directly prevented, Not only the thermal efficiency is lowered but also the energy consumption is very large and the heating cost is increased.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a heat recovery pipe wound around an outer circumferential surface of an induction heater, Induction heaters and heat recovery pipes are used for circulation. By using the waste heat emitted to the outside of the induction heater, the water moving through the heat recovery pipe is heated, thereby heating the hot water by using the waste heat, The purpose is to make it possible.

An object of the present invention is to make it possible to heat hot water more easily by using the waste heat discharged from the induction heater by winding the heat recovery pipe in two layers on the outer circumferential surface of the induction heater.

Further, the surface of the heat recovery pipe contacting the outer circumferential surface of the induction heater is concaved to enlarge the contact surface at which the heat recovery pipe makes contact with the outer circumferential surface of the induction heater, and at the same time, the waste heat is gathered at the concave portion to stagnate, So that hot water for moving the heat recovery pipe can be heated.

On the other hand, the one side surface of the heat recovery pipe contacting the induction heater is formed in a wavy shape, so that the contact surface contacting the induction heater is enlarged and concave grooves capable of collecting heat are formed. So that the hot water can be heated.

According to an aspect of the present invention, there is provided a hot water heating apparatus using waste heat of an induction heater for a boiler including an induction heater and a tank for storing water, wherein a heat recovery pipe connected to both sides of the tank is connected to an induction heater Is wound around the outer circumferential surface.

Here, the heat recovery tube is wound in a single layer on the outer circumferential surface of the induction heater.

The heat recovery tubes are wound on the outer peripheral surface of the induction heater in two layers.

Here, the first connection pipe is provided with a distribution unit for distributing and supplying water to the induction heater and the heat recovery pipe, and a combining unit installed in the second connection pipe for combining the hot water distributed and supplied by the induction heater and the heat recovery pipe .

In this case, the distributor is formed in a shape of a letter "Y " such that one side is connected to the first connection pipe, the connection port formed on the other side is connected to the heating supply port of the induction heater, and the other connection port is connected to one side of the heat recovery pipe And a valve is provided.

The joining portion is formed in a shape of a letter "Y ". One end of the joining portion is connected to the second connecting tube. The joining portion formed on the other side is connected to the heating outlet of the induction heater. Characterized in that a combined valve is fixed.

"자 형상으로 형성되어 일측은 제1연결관에 연결되고, 타측에 형성된 연결구에는 인덕션 가열기의 가열공급구에 연결되며, 또 다른 연결구에는 한 쌍의 열회수관 일측부가 각각 결합 고정되는 분배밸브가 구비된 것을 특징으로 한다.Then,

And a distribution valve is provided in which one side is connected to the first connection pipe, the connection port formed on the other side is connected to the heating supply port of the induction heater, and the other connection port is connected to and fixed to one side of the pair of heat recovery pipes. .

"자 형상으로 형성되어 일측부는 제2연결관에 연결되고, 타측부에 형성된 연결구에는 인덕션 가열기의 가열배출구에 연결되며, 또 다른 연결구에는 한 쌍의 열회수관 타측 끝단부가 결합 고정되는 합체밸브가 구비된 것을 특징으로 한다.Further,

And the other end of the pair of heat recovery pipes is fixedly coupled to the other end of the connection pipe. The other end of the heat recovery pipe is connected to the connection port of the induction heater. .

The connection port through which the heat recovery pipe is coupled to the distribution valve of the distribution unit is further provided with a flow rate control valve.

Meanwhile, the heat recovery tube is characterized in that a concave groove is formed on the contact surface of the outer surface of the induction heater.

In the heat recovery tube, the contact surface contacting the outer circumferential surface of the induction heater is formed in a wavy shape so as to form a plurality of concave grooves.

In the present invention constructed as described above, a heat recovery pipe wound around the outer circumferential surface of the induction heater is provided, and both ends of the heat recovery pipe are connected to a connection pipe connected to the tank so that water in the tank is supplied to the induction heater and the heat recovery pipe By utilizing the waste heat discharged to the outside of the induction heater and heating the water moving through the heat recovery pipe, it is possible to heat the hot water using the waste heat to increase the energy efficiency and reduce the heating cost.

In addition, by winding the heat recovery pipe in two layers on the outer circumferential surface of the induction heater, the waste heat emitted from the induction heater can be more easily used to heat the hot water.

Further, the surface of the heat recovery pipe contacting the outer circumferential surface of the induction heater is concaved to enlarge the contact surface at which the heat recovery pipe makes contact with the outer circumferential surface of the induction heater, and at the same time, the waste heat is gathered at the concave portion to stagnate, So that the hot water for moving the heat recovery pipe can be heated.

On the other hand, the one side surface of the heat recovery pipe contacting the induction heater is formed in a wavy shape, so that the contact surface contacting the induction heater is enlarged and concave grooves capable of collecting heat are formed. So that the hot water can be heated.

1 is a view showing a conventional hot water heating apparatus for an induction heater for a boiler.
2 is a sectional view showing a hot water heating apparatus using waste heat of an induction heater for a boiler according to the present invention.
3 shows an induction heater of the present invention.
4 shows a dispensing section of the present invention.
5 is a view showing an assembling portion of the present invention.
FIG. 6 is a view showing a working relationship of a hot water heating apparatus using waste heat of an induction heater for a boiler according to the present invention; FIG.
7A to 7C are views showing another embodiment of a hot water heating apparatus using waste heat of an induction heater for a boiler according to the present invention.
8 is a view showing still another embodiment of a hot water heating apparatus using waste heat of an induction heater for a boiler according to the present invention.
9 is a view showing still another embodiment of a hot water heating apparatus using waste heat of an induction heater for a boiler according to the present invention.

Hereinafter, a hot water heating apparatus using waste heat of an induction heater for a boiler according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a sectional view showing a hot water heating apparatus using waste heat of an induction heater for a boiler according to the present invention, FIG. 3 is a view showing an induction heater of the present invention, FIG. 4 is a view showing a distributor unit of the present invention, Is a view showing the joining portion of the present invention.

2 to 5, the hot water heating apparatus 100 using the waste heat of the induction heater for a boiler according to the present invention is provided with a tank 110 for receiving hot water inside.

The tank 110 includes a water inlet 112 to which external water is supplied, a heating water discharge valve 114a for heating 114b, a safety valve 116, a drain valve 118, a thermometer 120 ), A pressure gauge 122, a circulation outlet 124, and a circulation inlet 126, and a detailed description thereof will be omitted herein.

In addition, an induction heater 210 for supplying hot water to the tank 110 and supplying the hot water to the tank 110 is provided in the process of circulating the water through the tank 110.

At this time, the induction heater 210 is provided with a circulation pipe (not shown) inside, a heating supply port 212 for supplying water to the circulation pipe is formed so as to protrude outward from the bottom, and a circulation pipe (Not shown) for heating the circulating water along the circulation pipe is formed inside the heating outlet 214 for discharging the circulated water, and a heating unit The description of which will be omitted.

The tank 110 and the induction heater 210 are connected to each other by the first and second connection pipes 310 and 320.

The first connection pipe 310 is provided with a pump 312 for circulating water so that the water of the tank 110 can be supplied to the induction heater 210 at a predetermined position.

The induction heater 210 is connected to the outer surface of the induction heater 210. The inner surface of the induction heater 210 is heated by circulating water using the waste heat discharged to the outside of the induction heater 210 in the process of circulating water supplied from the tank 110 410 are provided.

At one side of the heat recovery pipe 410 is installed a first connection pipe 310 connecting the tank 110 and the induction heater 210 and discharged through the circulation outlet 124 of the tank 110 And a distributor 510 for distributing and supplying water to the induction heater 210 and the heat recovery pipe 410. The induction heater 210 is installed in a second connection pipe 310 connecting the tank 110 and the induction heater 210 to each other The combining unit 610 which combines the hot water for moving the induction heater 210 and the heat recovery pipe 210 and supplies the hot water to the second connection pipe 126 and the circulation supply hole 126 of the tank 110 Respectively.

Here, the distributor 510 is formed in a shape of a letter "Y " so that one side of the distributor 510 is coupled to the first connector 124 and the other connector 514a and 514b The connection port 514a is coupled to the heat supply port 212 of the induction heater 210 and the connection port 514b is connected to the distribution valve 512 through which one end of the heat recovery pipe 410 is fixedly coupled do.

The water contained in the tank 110 is moved through the first connection pipe 310 coupled to the circulation outlet 124 by the operation of the pump 312 provided in the first connection pipe 124 The water flowing through the first connection pipe 310 is supplied to the inside of the induction heater 210 by the distributor valve 512 and a part of the water is supplied to the heat recovery pipe 410 to be circulated and the induction heater 210 Is heated by the heating means in the process of circulating the inside and a part of the heat of the heating means is discharged to the outside of the induction heater 210. This waste heat causes the heat recovery pipe 410 are heated.

A first flow control valve 516 is provided at one end of the distribution valve 512, that is, at a connection port 514b of the distribution valve 512 to which the heat recovery pipe 410 is coupled.

At this time, the first flow rate control valve 516 may be configured to allow the user to adjust the supply amount of water supplied to the heat recovery pipe 410 by manual operation, or may be configured to automatically operate the first flow rate control valve 516 So that the amount of water supplied to the heat recovery pipe 410 can be automatically adjusted.

The coupling portion 610 is formed in a shape of a letter "Y", one side of which is fixedly coupled to the second coupling tube 320, and one of the pair of coupling holes 614a and 614b provided on the other side The connection port 614a is coupled to the heating outlet 214 of the induction heater 210 and the other connection port 614b is provided with a combination valve 612 to which the other end of the heat recovery pipe 410 is fixedly coupled .

The hot water heated by the waste heat of the induction heater 210 circulates through the heat recovery pipe 410 and is discharged through the heating discharge port 214. The hot water heated by the waste heat of the induction heater 210 circulates through the heat recovery pipe 410, (612) and supplied to the tank (110) through the second connection pipe (320).

The operation of the hot water heating apparatus using the waste heat of the induction heater for boiler according to the present invention will be described as follows.

FIG. 6 is a graph showing the operation of a hot water heating apparatus using waste heat of an induction heater for a boiler according to the present invention.

As shown in the figure, the hot water heating apparatus 100 using the waste heat of the induction heater for boiler according to the present invention receives water stored in the tank 110 from the induction heater 210 and circulates the inside of the induction heater 210 The hot water is supplied to the tank 110. The hot water stored in the tank 110 supplies hot water or hot water to the user, The description of the working relationship in which the water of the tank 110 is supplied to the induction heater 210 and heated is omitted.

Part of the heat circulating on the outer circumferential surface of the induction heater 210 when the water circulating on the inside of the induction heater 210 is heated by the heating means is discharged to the outside of the induction heater 210, The water circulating inside the heat recovery pipe 410 wound around the outer peripheral surface of the induction heater 210 is heated by the waste heat.

That is, the water provided inside the tank 110 flows through the first connection pipe 310 by the pump 312 provided in the first heat pipe 310, And supplied to the induction heater 210 and the heat recovery pipe 410.

At this time, the amount of water supplied to the heat recovery pipe 410 is controlled by the first flow rate control valve 516 provided in the connection port 514b of the distribution valve 512 connected to one side of the heat recovery pipe 410 do.

The water distributed and supplied to the induction heater 210 and the heat recovery pipe 410 by the distribution valve 512 is heated by the heating means in the process of circulating the inner portion of the induction heater 210, The hot water is discharged to the heating outlet 214.

The water supplied to the heat recovery pipe 410 is heated by the waste heat emitted from the heating means of the induction heater 210 to the outside during the circulation of the heat recovery pipe 410.

The hot water produced in the process of circulating the heated hot water and the heat recovery pipe 410 in the process of circulating to the inside of the induction heater 210 is supplied to the second connection pipe 320 through the merging valve 612 And the hot water flowing to the second connection pipe 320 is supplied to the inside of the tank 110 through the circulation supply port 126.

The water stored in the tank 110 is circulated through the induction heater 210 and the heat recovery pipe 410 and then circulated through the induction heater 210 by the heating means provided at the inner side of the induction heater 210 And the water circulating through the heat recovery pipe 410 is heated by using the waste heat discharged to the outside of the induction heater 210 to thereby generate hot water to reduce the heating cost by increasing the energy efficiency .

7A to 7C are views showing another embodiment of a hot water heating apparatus using waste heat of an induction heater for a boiler according to the present invention.

As shown in the drawing, a pair of heat recovery tubes 410 and 410a wound in two layers on the outer circumferential surface of the induction heater 210 are wound.

"자 형상으로 형성되어 일측부는 제1연결관(310)에 결합 고정되고, 타측부에 구비된 다수개의 연결구(514a)(514b)(514c) 중 어느 하나의 연결구(514a)는 인덕션 가열기(210)의 가열공급구(212)에 결합 고정되고, 다른 연결구(514b)(514c)에는 한 쌍의 열회수관(410)(410a) 일측 끝단부가 각각 결합 고정되는 제2분배밸브(512a)가 구비된다.The distribution unit 510 provided in the first connection pipe 310 is connected to the "

One of the connecting ports 514a, 514b and 514c provided on the other side is connected to the induction heater 210 And the other connection ports 514b and 514c are provided with a second distribution valve 512a to which one ends of the pair of heat recovery pipes 410 and 410a are coupled and fixed respectively .

The connection ports 514b and 514c formed at one side of the second distribution valve 512a are connected to the connection ports 514b and 514c to which the pair of the heat recovery pipes 410 and 410a are coupled, 2 flow control valve 516a.

"자 형상으로 형성되어 일측부는 제2연결관(320)에 결합 고정되고, 타측부에 구비된 다수개의 연결구(614a)(614b)(614c) 중 어느 하나의 연결구(614a)는 인덕션 가열기(210)의 가열배출구(214)에 결합 고정되고, 다른 연결구(614b)(614c)에는 한 쌍의 열회수관(410)(410a)의 타측 끝단부가 각각 결합 고정되는 합체밸브(612a)가 구비된다.In addition, the merging unit 610 provided in the second connection pipe 320 may be a "

One of the connecting ports 614a, 614b and 614c provided on the other side is connected to the induction heater 210 And the other connecting ports 614b and 614c are provided with a merging valve 612a to which the other ends of the pair of the heat recovery pipes 410 and 410a are respectively connected and fixed.

The heat recovery pipes 410 and 410a may be wound on the outer circumferential surface of the induction heater 210 in two or more layers. When two or more layers are wound on the outer circumferential surface of the induction heater 210, And the merging valve 612 are formed to correspond to the connection holes through which the heat recovery pipe 410 is coupled and fixed according to the heat recovery pipe 410.

The working relationship of the hot water heating apparatus using the waste heat of the induction heater for boiler according to the present invention constructed as above is performed by the same method as in the former, and the description of the working relationship is omitted here.

A pair of heat recovery pipes 410 and 410a wound in two layers on the outer circumferential surface of the induction heater 210 are provided and water is circulated through the pair of heat recovery pipes 410 and 410a The heat recovery tubes 410 and 410a are heated by the waste heat discharged from the induction heater 210 in the state where the waste heat is consumed.

8 is a view showing still another embodiment of a hot water heating apparatus using waste heat of an induction heater for a boiler according to the present invention.

As shown in the figure, a depressed concave groove 412 is formed in the contact surface of the heat recovery pipe 410 contacting the outer circumferential surface of the induction heater 210.

The working relationship of the hot water heating apparatus using the waste heat of the induction heater for boiler according to the present invention constructed as above is performed by the same method as in the former, and the description of the working relationship is omitted here.

A recessed groove 412 is formed in one side of the heat recovery pipe 410 contacting the induction heater 210 so that the waste heat discharged to the outside of the induction heater 210 flows into the recessed groove 412 of the heat recovery pipe 410 So that the water circulating through the heat recovery pipe 410 can be heated more efficiently by the waste heat, so that the thermal efficiency can be maximized.

9 is a view showing still another embodiment of a hot water heating apparatus using waste heat of an induction heater for a boiler according to the present invention.

As shown in the figure, one side of the heat recovery pipe 410 contacting the outer circumferential surface of the induction heater 210 is formed in a wavy shape to form a plurality of concave grooves 412.

The working relationship of the hot water heating apparatus using the waste heat of the induction heater for boiler according to the present invention constructed as above is performed by the same method as in the former, and the description of the working relationship is omitted here.

A plurality of concave grooves 412 are formed on one side of the heat recovery pipe 410 contacting the induction heater 210 so that the waste heat discharged to the outside of the induction heater 210 is supplied to the plurality of concave grooves 412 So that the waste heat is more effectively used to heat the water circulating through the heat recovery pipe 410, thereby more effectively maximizing the thermal efficiency.

Although the preferred embodiments of the hot water heating apparatus using the waste heat of the induction heater for boiler according to the present invention have been described above, the present invention is not limited thereto, and the scope of claims, It is also within the scope of the present invention.

100: hot water heating device 110: tank
112: inlet 114a, 114b: heating water discharge valve
116: Safety valve 118: Drain valve
120: thermometer 122: pressure gauge
124: Circulation outlet 126: Circulation outlet
210: induction heater 212: heating supply port
214: heating outlet 310, 320: first and second connecting pipes
312: pump 410: heat recovery pipe
412: concave groove 510: distribution portion
512, 512a: distribution valves 514a, 514b, 514c:
516, 516a: first and second flow rate control valves 610:
612, 612a: Merging valves 614a, 614, 614c:

Claims (11)

In the hot water heater using the waste heat of the induction heater for boilers comprising an induction heater and a tank for storing water,
Hot water heating apparatus using the waste heat of the induction heater for the boiler, characterized in that the heat recovery pipe connected to both sides of the tank is wound on the outer peripheral surface of the induction heater. The method of claim 1,
The heat recovery pipe is a hot water heating device using the waste heat of the induction heater for the boiler, characterized in that wound in one layer on the outer peripheral surface of the induction heater. The method of claim 1,
The heat recovery tube is a hot water heating device using the waste heat of the induction heater for the boiler, characterized in that the pair is provided on the outer circumferential surface of the induction heater in two layers. The method according to claim 2 or 3,
A distribution unit installed on the first connection pipe for distributing and supplying water to the induction heater and the heat recovery pipe,
The hot water heating apparatus using the waste heat of the induction heater for the boiler, characterized in that the coalescing unit is installed in the second connection pipe and combines the hot water distributed and supplied to the induction heater and the heat recovery pipe. 5. The method of claim 4,
The distribution part is formed in a “Y” shape, one side of which is connected to the first connection pipe, the other end is connected to the heating supply port of the induction heater, the other end of the distribution valve is connected to one side of the heat recovery pipe Hot water heating device using the waste heat of the induction heater for boilers, characterized in that provided. 5. The method of claim 4,
The coalescing portion is formed in a “Y” shape so that one side portion is connected to the second connection tube, and the other end portion is connected to the heating outlet of the induction heater, and the other end portion is coupled to and fixed to the other end of the heat recovery tube. Hot water heater using the waste heat of the induction heater for the boiler, characterized in that the coalescing valve is provided. 5. The method of claim 4,
The distributing unit includes:

"Formed in the shape of one side is connected to the first connection pipe, the other end is connected to the heating supply port of the induction heater, the other end is provided with a distribution valve that is coupled to each one of the pair of heat recovery pipe Hot water heating device using the waste heat of the induction heater for boilers. 5. The method of claim 4,
The merging unit includes:

And the other end of the pair of heat recovery pipes is fixedly coupled to the other end of the connection pipe. The other end of the heat recovery pipe is connected to the connection port of the induction heater. Wherein the heating water is heated by the heating water of the induction heater for boiler. 5. The method of claim 4,
Hot water heating apparatus using the waste heat of the induction heater for the boiler, characterized in that the flow rate control valve is further provided in the connector that the heat recovery pipe is coupled to the distribution valve of the distribution unit. The method of claim 1,
The heat recovery tube is a hot water heating device using the waste heat of the induction heater for the boiler, characterized in that a recessed groove is formed on the contact surface of the outer surface of the induction heater. The method of claim 1,
The heat recovery tube is a hot water heater using the waste heat of the induction heater for the boiler, characterized in that the contact surface in contact with the outer peripheral surface of the induction heater is formed in a wave shape so that a plurality of concave grooves are formed.

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