KR20160026160A - Waste heat recovery boiler - Google Patents

Abstract

The present invention relates to a boiler for supplying hot water to users, which comprises: a boiler body; a hot water supply distributor which disperses and supplies hot water produced in the boiler to multiple hot water usage places; a cold water supply pipe which supplies outside cold water to the boiler; a heat exchanger which collects the heat of waste water discharged after being used in the hot water usage places by arranging the cold water supply pipe in the center; a linkage valve which controls the supply quantity of cold water for the boiler by controlling an open degree in correspondence with the supply amount of hot water for the multiple hot water usage places in the hot water supply distributor; and a water supply distributor which joins the cold water supplied through the linkage valve and supplies the joined cold water to the boiler. The linkage valve of the waste heat recovery boiler includes: a valve main body which provides a space inside and has a first supply pipe connected to hot water piping, a second supply pipe connected to the heat exchanger, and a third supply pipe connected to the water supply distributor which are formed on the outer circumference; and a valve mobile body which is arranged inside the valve main body in order to be movable in correspondence with the hot water supply pressure of the supply pipes and controls an open degree for the third supply pipe in the second supply pipe while moving in correspondence with the hot water supply pressure of the hot water piping applied through the first supply pipe. The present invention is able to save energy necessary for producing hot water supplied to users by increasing temperature of cold water supplied from the outside to the boiler by collecting and using the heat of hot water discharged after use.

Description

{WASTE HEAT RECOVERY BOILER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste heat recovery boiler, and more particularly, to a waste heat recovery boiler for recovering heat of hot water discarded after use and raising the temperature of the cold water supplied from the outside to the boiler.

A boiler is a device for supplying hot water to a heat source by burning fuel such as petroleum or coal.

In the case of indoor heating, the hot water generated from the boiler is transferred through the supply pipe, heat exchanged with the indoor air in the hot water usage place installed in the room, and then circulated to the recovery tank through the recovery pipe.

Also, when supplied to bathrooms or kitchens, they are supplied by water or shower, and then used by the user. Thereafter, the water is drained through the sewer.

As described above, since the hot water is circulated to the collection tank after the hot water is used, only a part of the heat can be replenished and reused. However, the hot water used in the bathroom or kitchen is discharged directly to the sewer.

Therefore, although the hot water discharged to the sewer has a large amount of heat, it can not be recycled, and the cold water supplied from the outside needs to be heated every time hot water is needed, which consumes a lot of energy.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to recover the heat of hot water discharged after use and to increase the temperature of the cold water supplied to the boiler from the outside to reduce energy required for producing hot water supplied to the user And to provide a waste heat recovery boiler capable of recovering waste heat.

In order to achieve the above object, the present invention provides a boiler for supplying hot water to a user, comprising: a boiler body; A hot water distributor for dispersing and supplying hot water produced by the boiler to a plurality of hot water usage destinations; A cold water supply pipe for supplying external cold water to the boiler; A heat exchanger for collecting the heat of the wastewater which is disposed in the cold water supply pipe and discharged after being used in the hot water usage place; An interlock valve which adjusts an opening degree of the hot water distributor in accordance with a supply amount of the hot water to a plurality of hot water use destinations to adjust the cold water supply amount to the boiler; And a water supply distributor for supplying the cold water supplied through the interlock valve to the boiler, wherein the interlock valve is provided with a space inside, a first supply pipe connected to the hot water pipe, And a third supply pipe connected to the water dispenser is formed on the outer circumference of the valve body, and a valve body disposed movably in the valve body in correspondence with the hot water supply pressure of the supply pipe, And a valve moving body which moves in correspondence with a hot water supply pressure of the hot water pipe to be applied and regulates an opening degree from the second supply pipe to the third supply pipe.

The hot water dispenser includes a hot water dispenser main body, a hot water supply pipe arranged in the hot water dispenser main body so as to supply hot water to a plurality of hot water use places, a check valve disposed in each of the hot water pipes, . ≪ / RTI >

The interlock valve may be disposed in each of the plurality of hot water supply pipes.

The heat exchanger may be provided with a heat insulating material on its surface.

The cold water supply pipe inside the heat exchanger may be in the form of a spiral.

The water dispenser may include a water dispenser main body and a plurality of inflow pipes disposed on the water dispenser main body and connected to a third end of the interlock valve.

The valve moving body may be in the form of a slot having diameters at both ends larger than the diameter of the intermediate portion.

According to the present invention as described above, the heat of the hot water discharged after use can be recovered and the temperature of the cold water supplied from the outside to the boiler can be increased by using the heat, so that the energy required for producing the hot water supplied to the user can be reduced.

1 is a view showing an example of the construction of a waste heat recovery boiler according to an embodiment of the present invention.
2 is a view showing an example of the connection state of the hot water distributor and the interlock valve used in the present invention.
3 is a view showing an example of the structure of a heat exchanger used in the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing an example of the construction of a waste heat recovery boiler according to an embodiment of the present invention.

1, a waste heat recovery boiler 100 according to an embodiment of the present invention includes a boiler body 110, a hot water distributor 120, a cold water supply pipe 130, a heat exchanger 140, an interlock valve 150, And a water dispenser (160).

The boiler body 110 burns fuel such as oil or gas to produce hot water and supplies it to a predetermined hot water use place. The combustion of the fuel in the boiler and the production and supply of the hot water correspond to well-known technologies, and therefore, a detailed description thereof will be omitted.

The hot water distributor 120 can distribute the hot water produced in the boiler body 110 and supply it to a plurality of hot water usage destinations.

2 is a view showing an example of the connection state of the hot water distributor and the interlock valve used in the present invention.

2, the hot water dispenser 120 includes a hot water dispenser main body 122, a hot water supply pipe 124, and a check valve 126.

The hot water distributor body 122 may be manufactured to a predetermined size to provide a space therein. The main body 122 of the hot water distributor can be variously manufactured in a necessary form such as a cylindrical shape or a rectangular parallelepiped. Further, any material may be used as long as hot water in the hot water distributor dispenser body 122 is not leaked and the hot water can be insulated.

One side of the hot water distributor main body 122 is connected to the body 110 through a hot water supply pipe, and a plurality of hot water supply pipes 124 are disposed on the other side.

The hot water supply pipe 124 connects hot water dispenser main body 122 and each of a plurality of hot water usage destinations (including bathrooms, kitchens, etc.) 1 to supply hot water supplied to hot water distributor main body 122 to a plurality of hot water usage destinations 1). It is preferable that the number of the hot water supply pipes 124 corresponds to the number of hot water use places. In FIG. 2, the number of the hot water supply pipes 124 is shown as a single number, but in order to facilitate the understanding of the configuration, the illustration of the drawings is simplified. Actually, the hot water supply pipe 124 can correspond to each of a plurality of hot water usage destinations It should be understood that a plurality of such devices are arranged.

Each of the plurality of hot water supply pipes (124) is provided with a check valve (126) for preventing reverse flow of hot water supplied thereto.

The cold water supply pipe 130 supplies hot water to the boiler supplied from the outside, thereby enabling continuous production of hot water. Here, the cold water supply pipe 130 is connected to the boiler body 110 through a heat exchanger 140 described later.

The heat exchanger 140 recovers the heat of the discharged wastewater used in the hot water use destination 1 and causes the temperature of the cold water supplied to the boiler to rise through the cold water supply pipe 130.

3 is a view showing an example of the structure of a heat exchanger used in the present invention.

Referring to FIG. 3, the heat exchanger 140 is formed in a tubular shape providing a space therein, and a cold water supply pipe 130 is disposed at the center thereof. As the internal space of the heat exchanger 140, wastewater discharged after use in the hot water use place 1 can be temporarily stored. The heat exchanger 140 may store the used wastewater and may be made in another form as long as the cold water supply pipe 130 can be disposed therein.

In the heat exchanger 140, the wastewater discharged after use may be introduced into the one end of the hot water source, and the heat-exchanged wastewater may be discharged to the other end thereof.

The cold water passing through the cold water supply pipe 130 from the inside of the heat exchanger 140 can be supplied to the boiler body 110 after the temperature of the heat exchange with the waste water is raised. Here, in order to increase the heat exchange area between the wastewater and the cold water, the cold water supply pipe 130 passing through the inside of the heat exchanger 140 may be in the form of a spiral. It may also be another form capable of increasing the heat exchange area.

A heat insulating material is disposed on the surface of the heat exchanger 140 to prevent the heat from being discharged. In the figure, the heat insulating material 144 is disposed only on the straight portion of the heat exchanger 140, but it is actually determined that the heat insulating material 144 is disposed over the entire surface of the heat exchanger 140.

The interlock valve 150 may adjust the amount of cold water supplied to the boiler body 110 in accordance with the amount of hot water supplied to the hot water use place 1. The interlock valve 150 is disposed in each of the pipes connected to the hot water user 1 from the hot water distributor 120.

Referring again to FIG. 2, the interlock valve 150 includes a valve body 152 and a valve moving body 156.

The valve body 152 provides a space through which hot water flows, and first to third supply pipes 154a, 154b, and 154c protrude from the outer circumference. At this time, the first supply pipe 154a and the third supply pipe 154c may be formed in opposite directions so that their central axes may coincide with each other, and the second supply pipe 154b may be connected to the first supply pipe 154a and the third supply pipe 154c, And the central axis may be orthogonal to the central axis of the first supply pipe 154a.

The first supply pipe 154a is connected to the piping supplied to the hot water use place 1, and the supply pressure of the hot water can be applied.

The second supply pipe 154b is connected to the heat exchanger 140 and the third supply pipe 154c is connected to the water dispenser 160 to supply hot water supplied through the heat exchanger 140 to the water dispenser 160. [ .

A valve moving body 156 is disposed inside the valve body 152. The valve moving body 156 can have an opening shape larger than the diameter of the middle portion of the diameters of both ends and can adjust the opening degree from the second supply pipe 154b to the third supply pipe 154c.

The operation of the valve moving body 156 will be described.

One end of the valve moving body 156 is in close contact with the first supply pipe 154a while the hot water is not supplied through the first supply pipe 154a and the other end is disposed at the inlet portion of the second supply pipe 154b, And is open from the second supply pipe 154b to the third supply pipe 154c.

The hot water supply pressure is applied to one end of the valve moving body 156 when hot water supplied through the first supply pipe 154a is supplied. The valve moving member 156 is moved to the third supply pipe 154c side by the hot water supply pressure so that the other end is positioned on the path from the second supply pipe 154b to the third supply pipe 154c, So that the cold water of the heat exchanger 140 can regulate the amount of hot water supplied to the water distributor 160, which will be described later.

The water dispenser 160 collects the cold water discharged from the hot water use place after the hot water is used, and supplies the collected cold water to the boiler body 110 to be reheated.

The present invention has the effect of recovering the heat of the hot water discharged after use and increasing the temperature of the cold water supplied from the outside to the boiler by using the heat, thereby reducing the energy required for producing the hot water supplied to the user.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Waste heat recovery boiler
110: boiler body
120: Hot water dispenser
130: cold water supply pipe
140: heat exchanger
150: Interlocking valve
160: Water distributor

Claims (7)

As a boiler for supplying hot water to a user,
Boiler body;
A hot water distributor for dispersing and supplying hot water produced by the boiler to a plurality of hot water usage destinations;
A cold water supply pipe for supplying external cold water to the boiler;
A heat exchanger for collecting the heat of the wastewater which is disposed in the cold water supply pipe and discharged after being used in the hot water usage place;
An interlock valve which adjusts an opening degree of the hot water distributor in accordance with a supply amount of the hot water to a plurality of hot water use destinations to adjust the cold water supply amount to the boiler;
And a water dispenser for supplying the cold water supplied through the interlock valve to the boiler,
Wherein the interlock valve comprises:
A valve body provided on the outer periphery of the first supply pipe, the second supply pipe connected to the heat exchanger, and the third supply pipe connected to the water distributor;
And a second supply pipe connected to the third supply pipe and being movable in correspondence to a hot water supply pressure of the supply pipe inside the valve body and moving in correspondence with a hot water supply pressure of the hot water pipe applied through the first supply pipe, And a valve moving body for regulating the opening degree of the valve. The method according to claim 1,
The hot water dispenser includes:
A hot water distributor body,
A plurality of hot water supply pipes arranged in the main body of the hot water distributor so as to supply hot water to a plurality of hot water use destinations;
And a check valve disposed in each of the hot water supply pipes to prevent the hot water from flowing backward. 3. The method of claim 2,
And the interlock valve is disposed in each of the plurality of hot water supply pipes. The method according to claim 1,
The heat exchanger
Waste heat recovery boiler where insulation is placed on the surface. The method according to claim 1,
Wherein the cold water supply pipe in the heat exchanger is a spiral type heat recovery boiler. The method according to claim 1,
The water distributor comprises:
A water distributor main body,
And a plurality of inflow pipes disposed on the main body of the water distributor and connected to a third end of the interlock valve. The method according to claim 1,
The valve moving body includes:
A waste heat recovery boiler having a shape of a long hole at both ends larger than the diameter of the middle part.

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