KR20150134649A - Stove combined with boiler - Google Patents

Abstract

The present invention relates to a stove combined with a boiler. The stove combined with the boiler includes: a stove main body; a heating unit installed in the lower part of the inside of the stove main body and providing heat; a water storage tank installed in the upper part of the inside of the stove main body, wherein a supply line and a return line for circulating hot water are individually connected to the water storage tank; a hot water pumping unit installed in the supply line and receiving the heat from the heating unit, wherein the hot water pumping unit pumps the hot water by a generated steam pressure; and a one-way valve installed in the supply line between the hot water pumping unit and the water storage tank and pumping the hot water in one direction by blocking backflow of the hot water to the water storage tank. According to the present invention, the stove combined with the boiler raises an indoor temperature by heating and smoothly supplying and circulating the hot water by the steam pressure generated in a pipe in heating, thereby reducing energy consumption and being conveniently used without inconvenience of use.

Description

{Stove combined with boiler}

The present invention relates to a boiler combined heat source, and more particularly, it relates to a boiler combined heat hearth which heats the room through heating to raise the room temperature and, in particular, without the need for a separate power device such as a circulation pump, The present invention relates to a boiler combined furnace capable of circulating air.

Generally, a fireplace is a heating device installed in a room and heating indoor air by various heat sources to raise the room temperature. In such a fireplace, the room is heated by convection of air due to heat generated when the heat source is burned. There is a problem that the floor is difficult to heat.

Accordingly, even when the stove is installed in the room, the boiler for heating the floor of the room is separately installed and used together with the stove. However, the installation cost and the maintenance cost of the heating device are increased and maintenance is difficult.

In order to solve the above problem, a boiler which can supply hot water together with the heating function of the stove through a prior art public utility model 20-2012-0005983 (public date: August 27, 2012) A boiler-combined-type fireplace serving also as a function has been disclosed.

However, since the conventional boiler-combined furnace according to the preceding literatures generates hot water using heating heat, the power for supplying hot water, which is still the core of the boiler function, is provided from the circulation pump, The operation noise of the circulation pump is generated in the room as it is, which is disadvantageous to the user.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems of the prior art, and an object of the present invention is to provide a method and apparatus for heating hot water, And to provide a boiler combined heat source which can be conveniently used without inconvenience of use while reducing energy consumption while improving thermal efficiency.

In order to achieve the above object, according to the present invention,

A heating water supply unit installed on the inside of the stove main body and connected to a supply pipe and a return pipe for hot water circulation, A hot water pumping unit provided in the hot water pumping unit and pumping hot water by the generated steam pressure to receive heat from the heating heating unit and a hot water pumping unit installed in a supply pipe between the hot water pumping unit and the water storage tank, A boiler combined furnace including a one-way valve for causing hot water to be pumped in one direction is disclosed.

Here, the hot water pumping unit may include: a first branch pipe branched from the supply pipe; a second branch pipe branched from the first branch pipe; and a second branch pipe connected to the first branch pipe and the second branch pipe, And a pressure generating pipe having a relatively smaller diameter than the second branch pipe and generating a steam pressure by the heat of the heating heating unit.

In addition, the pressure-generating pipe may have a zigzag shape and both ends may be connected to the first branch pipe and the second branch pipe, respectively.

Further, an electric heater may be further installed in at least one of the second branch pipe and the supply pipe.

According to the boiler combined heat hearth of the present invention,

The heating efficiency can be improved because the room can be heated by heating and the hot water can be supplied to the floor heating or the like. Thus, there is no need to separately install and manage the stove and the boiler, thereby reducing installation and maintenance costs.

In addition, since the hot water is quickly and smoothly supplied by using the steam pressure generated in the pipe during heating without using a separate power device such as a circulation pump, the energy consumption can be reduced and the operation noise generated in the room can be reduced So that it is possible to minimize the size and convenience of use.

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.

FIG. 1 is a view illustrating an appearance of a boiler combined heat source according to an embodiment of the present invention, and FIG.
2 is a view illustrating an internal configuration of a furnace main body in a boiler combined furnace according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a boiler combined heat source according to the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention to those skilled in the art, It should be noted that the present invention can be reduced or exaggerated for the sake of simplicity.

Furthermore, in describing an embodiment, if a component is described as being "installed", "connected", or "coupled" to another component, it is to be understood that the component But it should be understood that there may be other components in between.

In addition, when describing the embodiments, in the case where it is judged that technical characteristics of the present invention may be unnecessarily blurred as a matter known to those skilled in the art, such as known functions and configurations well known in the art, Description thereof will be omitted.

1 and 2 are views showing a boiler combined heat source according to an embodiment of the present invention. As shown in the drawings, a boiler combined heat source 100 according to an embodiment of the present invention includes a furnace body 10, A heating pipe 20, a water storage tank 30, a supply pipe 40 and a return pipe 50, a hot water pumping unit 60, and a one-way valve 70 .

The stove main body 10 may be a case of the boiler combined stove 100 according to the present invention in which the remaining components such as the heating heater 20 and the water storage tank 30 are installed therein.

A glass door 11 can be provided on the front surface of the hearth body 10 so that the user can see the inside of the hearth body 10 and can be opened and closed. A heat sink 12 may be provided so as to achieve heat exchange more efficiently.

In addition, an exhaust communication pipe 13 for exhausting gas or the like burned in the heating heating unit 20 may be installed on the rear surface of the hearth main body 10.

The heating heating unit 20 is installed in the lower part of the inside of the hearth body 10 to heat the surrounding space of the hearth main body 10 by providing heat according to the combustion and the hot water pumping unit 60 to be described later And a heating function.

Various heat sources can be used for the heating part 20 without restriction. For example, the heating part 20 may be configured to provide heat by burning a solid fuel or petroleum such as wood or lignite, or to burn the gas like a gas burner to provide heat You may.

The water storage tank (30) is installed inside the stove main body (10), and water for hot water supply is accommodated.

On the upper side of the water storage tank 30, a water injection portion 31 is formed so that water can be injected from the outside into the water storage tank 30.

The supply pipe 40 and the return pipe 50 are pipes through which water is circulated so that the water in the reservoir tank 30 is supplied to an external heating object such as an indoor floor through the supply pipe 40, The water is recovered to the storage tank 30 through the pipe 50 and circulated.

The supply pipe 40 is connected to the bottom surface of the water storage tank 30 so that the water in the water storage tank 30 can be supplied to the supply pipe 40 by gravity and the return pipe 50 is connected to the bottom of the water storage tank 30 Can be connected to the side.

The hot water pumping unit 60 is provided in the supply pipe 40. The hot water pumping unit 60 generates a vapor pressure by the heat supplied from the heating unit 20, .

The hot water pumping unit 60 may include a first branch pipe 61, a second branch pipe 62, and a pressure generating pipe 63, as illustrated in FIG.

The first branch pipe (61) branches from the supply pipe (40), and the second branch pipe (62) branches from the first branch pipe (61) Can be connected between the one-minute engine (61) and the second branch pipe (62), whereby the hot water pumping part (60) can be constituted by a pipe of a closed circuit.

Here, the pressure-generating pipe 63 is a pipe for generating a vapor pressure by the heat provided from the lower heating unit 20, and the pressure-generating pipe 63 is a pipe for efficiently generating the vapor pressure by the provided heat. Can be formed to have a relatively smaller diameter than the first branch pipe (61) and the second branch pipe (62).

In addition, the pressure-generating pipe 63 is formed in a staggered shape as shown in FIG. 2 so that the steam pressure is more efficiently generated by increasing the contact time with the heat supplied from the heating part 20, May be formed to be connected to the engine (61) and the second branch pipe (62).

In the hot water pumping unit 60 having such a configuration, water is supplied from the water storage tank 30 through the supply pipe 40, and the pressure generating pipe 63 is heated from the heating heating unit 20 The vaporization is performed as the water inside the pressure generating pipe 63 is heated.

The water vapor is phase-changed to water vapor as the water vaporizes, and a vapor pressure due to the volume expansion is generated in the pressure-generating pipe 63. The vapor pressure generated in the pressure-generating pipe 63 is transferred to the hot- (60) through the first branch pipe (61) of the pipe (60).

The one-way valve 70 is installed in the supply pipe 40 between the hot water pumping unit 60 and the water storage tank 30 (that is, the front end side of the hot water pumping unit 60) And functions to enable the hot water to be pumped only in one direction by blocking the hot water reverse flow.

That is, since the vapor pressure generated in the hot water pumping unit 60 is applied to the supply pipe 40 as described above, the hot water in the supply pipe 40 receives the transfer pressure in both directions of the supply pipe 40 by the vapor pressure. The one-way valve 70 blocks the reverse flow of the hot water conveyed to the water storage tank 30, whereby the hot water of the supply pipe 40 is transferred only in one direction, that is, toward the external heating object to be supplied, .

The one-way valve 70 is closed by the pressure when a vapor pressure is applied to the inside of the rear-end supply pipe 40, and is opened by the gravity of the supplied water. And a detailed description thereof will be omitted.

2, in addition to the one-way valve 70 provided in the upstream side supply pipe 40 of the hot water pumping unit 60, the supplied hot water flows back to the hot water pumping unit 60 Way valve 70a may be additionally installed in the rear-end supply pipe 40 of the hot water pumping unit 60 so that the unidirectional hot water supply is more efficiently performed.

According to an embodiment of the present invention having the above-described configuration, the present invention may further include an electrothermal heater (80).

The electric heating heater 80 may supply heat to the supply pipe 40 separately from the heating of the heating heating unit 20 so that hot water at a higher temperature can be supplied, The heat transfer heater 80 is installed in the second branch pipe 62 of the hot water pumping unit 60 or is connected to the supply pipe 40 of the hot water pumping unit 60 And may be installed in both the second branch pipe 62 and the supply pipe 40 as illustrated in FIG.

When the electric power is applied, the heat-generating heater 80 is heated and operates to heat the water filled in the second branch pipe 62 or the supply pipe 40. Thus, the heating water is heated by the heating heater 20, The hot water heated by the heating unit 20 can be pumped to be supplied through the supply pipe 40 and heat is not supplied from the heating unit 20 The steam can be generated by heating only the electrothermal heater 80 to supply hot water.

Although not shown in the drawings, the present invention may include a temperature sensor for sensing the temperature of the hot water supplied through the supply pipe 40, and a temperature sensor for detecting the temperature of the electrically heated heater 80 And a heater control unit for automatically controlling the heating operation of the heating unit.

As described above, the construction of the boiler-combined fireplace 100 according to the embodiment of the present invention has been described, and the operation thereof will be briefly described as follows.

First, when water is injected into the water storage tank 30, water in the water storage tank 30 is supplied to the hot water pumping unit 60 provided in the supply pipe 40 and the supply pipe 40 by gravity. At this time, the one-way valve 70 provided in the supply pipe 40 maintains the open state.

When the water is supplied and the heating pipe 20 is burnt to heat the room while the supply pipe 40 and the hot water pumping unit 60 are filled with water, The temperature of the air is increased while the water filled in the pressure generating pipe 63 of the hot water pumping unit 60 is also heated.

Here, since the pressure-generating pipe 63 has a diameter that is relatively smaller than the diameter of the other pipes (first and second branch pipes) of the hot water pumping portion 60, the water filled in the pressure- As the temperature rises and the heating is continued, the water inside the pressure generating pipe 63 gradually vaporizes and quickly changes to the steam.

When the water is changed to water vapor in the pressure generating pipe 60, a vapor pressure is generated in accordance with the expansion of the volume. As the vapor pressure is applied to the supply pipe 40, the transfer pressure is applied to the hot water whose temperature has been increased .

At this time, the one-way valve 70, which is opened, is closed by the vapor pressure applied thereto, so that the hot water in the supply pipe 40 is prevented from flowing back toward the storage tank 30 by the vapor pressure. One-way supply is made only to the object.

After the predetermined amount of hot water has been supplied, an empty space is instantaneously formed as much as the space occupied by the supplied hot water, so that the inside of the supply pipe 40 and the hot water pumping unit 60 are reduced in pressure to a negative pressure, The water is supplied from the water storage tank 30 to the supply pipe 40 and the hot water pumping unit 60 and the hot water supply process is repeated by the vapor pressure as described above.

The hot water supplied continuously is heat-exchanged through the heating object such as the floor of the room, and is then stored in the water storage tank 30 through the return pipe 50, so that the hot water circulation cycle is performed.

On the other hand, when hot water supply at a higher temperature is required, the temperature of the hot water supplied can be increased by operating the electrothermal heater 80. In the case where only the boiler function of supplying hot water is required, The hot water may be supplied by operating only the electrothermal heater 80.

As described above, the boiler combined furnace according to the present invention can efficiently heat the room by using the boiler function together with the function of the stove, and in particular, the steam pressure generated by the heating without the separate power device for supplying hot water It can be used conveniently in the room because the energy consumption is reduced and the generation of operating noise is minimized.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the technical scope of the invention is not limited to the disclosed exemplary embodiments and drawings, It will be understood that the modified equivalent structure is not limited to the scope of the present invention.

The main parts of the accompanying drawings are as follows.
10: stove main body 20: heating heating part
30: Reservoir tank 40: Supply pipe
50: return pipe 60: hot water pumping part
61: 1 st Branch 62: 2 st Branch
63: pressure generating tube 70: one-way valve
80: Electric heater

Claims (4)

A stove main body 10;
A heating unit 20 installed inside the furnace body 10 to provide heat;
A water storage tank 30 installed inside the stove main body 10 and connected to a supply pipe 40 and a return pipe 50 for hot water circulation;
A hot water pumping unit 60 provided in the supply pipe 40 to receive heat from the heating unit 20 and to pump hot water by a generated steam pressure; And
And a one-way valve (70) provided in a supply pipe (40) between the hot water pumping unit (60) and the water storage tank (30) to make hot water pumping in one direction by blocking hot water back flow toward the water storage tank Combined boiler. The method according to claim 1,
The hot water pumping unit (60)
A first branch pipe 61 branched from the supply pipe 40; a second branch pipe 62 branched from the first branch pipe 61; and a second branch pipe 62 branched from the first branch pipe 61, (63) having a diameter smaller than that of the first branch pipe (61) and the second branch pipe (62) while being connected between the second branch pipe (62) and generating a steam pressure by the heat of the heating heating section (20) And a heat exchanger for heating the boiler. 3. The method of claim 2,
Wherein the pressure-generating pipe (63) has a zigzag shape and both ends are connected to the first branch pipe (61) and the second branch pipe (62), respectively. The method according to claim 2 or 3,
Wherein an electric heater (80) is further installed in at least one of the second branch pipe (62) and the supply pipe (40).

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