KR200215784Y1 - Heating system for Boiler - Google Patents

Abstract

The present invention divides the inside of a sealed metal tube-shaped housing into a heat exchange chamber and a hot water chamber by a partition plate, and the partition plate is equipped with a plurality of heat exchange pipes at equal intervals so as to be located in the heat exchange chamber and the hot water chamber, and is discharged to the hot water chamber The heat of the hot water is to heat the heat exchange pipe, and the new cold water supplied to the heat exchange chamber is heat exchanged with the heat exchange pipe is heated to be discharged through the hot water discharge pipe after heating the hot water chamber (13) In order to purify and supply waste hot water, it is possible not to install a separate heat generating device and to reduce operating costs while utilizing waste resources, and to heat-exchange the heat exchange pipe 9 supported by the partition plate 5. By installing high up to the upper side of the chamber 3, the cold water supplied can be heated to a higher temperature. The heat exchange pipe (9) is installed around the cold water injection pipe (6), so that the space between each other is not too far apart to increase the heat exchange area to increase the thermal efficiency, the heat chamber (4) heat transfer chamber By installing (13) to be heated by the waste hot water supplied to be maintained in a high temperature state to increase the temperature of the hot water bath (4) and to allow the heat of higher temperature to be transferred to the heat exchange pipe to improve the thermal efficiency. Will be.

Description

Heat exchanger for boiler using waste hot water {Heating system for Boiler}

The present invention relates to a heat exchanger for a boiler using waste hot water to enable the discharge of hot water by heating new cold water using waste hot water.

In more detail, the inside of the sealed metal tube-shaped housing is divided into a heat exchange chamber and a hot water chamber by a partition plate, and the partition plate is equipped with a plurality of heat exchange pipes at equal intervals so as to be located in the heat exchange chamber and the hot water chamber. To heat the heat exchange pipe to heat the heat exchange pipe, and to exchange heat with the heat exchange pipe where the new cold water supplied to the heat exchange chamber is heated to be discharged through the hot water discharge pipe. will be.

Conventional heat exchangers that use hot water to heat new cold water are equipped with coiled or straight pipes inside a closed container to allow the waste hot water to pass through the pipe and supply new cold water to the container for waste. It is widely known that heat is exchanged with a pipe heated by hot water to be discharged after being heated or discharged by supplying waste hot water to an airtight container and supplying new cold water to the pipe.

However, since the conventional heat exchanger using waste hot water performs heat exchange using only a pipe installed inside the vessel, the thermal efficiency (heat utilization rate) decreases and the temperature of the warmed hot water is lowered, and the pipe increases the thermal conductivity. In order to use copper pipe mainly for the manufacturing cost was a problem.

In addition, the conventional heat exchanger using the heat pipe of the Utility Model Registration No. 1997-1740 is to generate heat as the fluid embedded in the heat pipe is evaporated by the external heat, and the heat of the heat pipe is newly introduced inside the open container. The heat exchange with the cold water is to be supplied, but since the heat pipe is to be heated by the external heat, a heat generating medium is required separately, and heat exchange is performed in the open container, which causes a problem of low thermal efficiency.

As to be able to solve the problem somewhat as described above, as shown in FIG. 3, Korean Patent Publication No. 1999-81225, 'Special fluid type heat exchanger 20 in which heat exchange is performed in a sealed container' Known.

This is provided with a heat exchange plate 28 to be sealed in the middle of the inside of the sealed container 21 to form a heat exchange chamber 24 and a special fluid chamber 22 on the upper and lower sides thereof, the cold water in the heat exchange chamber 24 The supply pipe 26 and the hot water discharge pipe 25 are provided, and the special fluid chamber 22 is partially filled with the special fluid 27, and the heat generating heater 23 is provided on the outer bottom of the special fluid chamber 22. As such, the heat generating plate 23 is operated so that heat is generated, and the heat exchange plate 28 is heated while the special fluid 27 is heated and vaporized by the heat generated from the heat generating heat unit 23. Cold water supplied to the heat exchange chamber 24 through the cold water supply pipe 26 heats the heat exchange plate 28 and is discharged to the hot water discharge pipe 25 after being heated.

The conventional heat exchanger 20 constructed and operated as described above is pointed out to have the following disadvantages.

First, in order to heat the special fluid 27 embedded in the special fluid chamber 22, a problem of having to purchase and attach a separate exothermic heating unit 23, and operation of operating the exothermic heating unit 23 in operation. There was a problem that the cost is generated, because the special fluid 27 evaporated by the exothermic heating unit 23 is cooled when the heat exchange is carried out in the heat exchange plate 28 to move (convection) to the lower side repeatedly In order to continuously heat (vaporize) the special fluid to be cooled, the exothermic heating part 23 needs to be operated more intensely, which leads to a problem in that operating costs are largely consumed. The heat exchange is performed only by the heat exchange and the cold water filled in the heat exchange chamber 24 is a heat exchange is made in the lower portion, since the heat is not directly transmitted to the cold water in the upper portion there is a problem that the thermal efficiency is significantly reduced. It was.

The present invention is to provide a heat exchanger of the boiler using waste hot water improved to solve the above problems.

The present invention is provided with a partition plate inside the sealed housing to form a heat exchange chamber and a hot water chamber on the upper and lower sides thereof. The hot water is supplied to the hot water chamber and the cold water supplied through the cold water supply pipe to the heat exchange chamber. In the heated and discharged to the hot water discharge pipe, the cold water injection pipe connected to the cold water supply pipe (7) is installed on the center line of the heat exchange chamber, the lower end thereof is installed close to the partition plate, and the partition plate is filled with a heat medium. Normal heat exchange pipes are installed at equal intervals so as to be located at the upper side of the heat exchange chamber and the lower side of the boiling chamber, and are installed around the cold water spray pipe.The hot water chamber supplies and discharges the waste hot water. The inner circumferential surface of the thread forms a heat medium chamber, while the heat medium chamber fills the heat medium (non-condensable gas) To provide a heat exchanger for the boiler yonghan it is an object.

Another object of the present invention is to supply waste hot water to the boiling room so that the installation cost and operating cost can be reduced without the need for a separate heating device.

The heat exchanger for the boiler using waste hot water, which allows heat of the waste hot water to be transferred to the heat exchange pipe, but forms a heat exchange pipe to the upper side of the heat exchange chamber to increase the heat exchange area, thereby improving thermal efficiency and heating the cold water more quickly. To provide.

Another object of the present invention is to close the bottom (outlet) of the cold water spray pipe to the partition plate to improve the thermal efficiency by performing the heat exchange with the heat exchange pipes while performing the first heat exchange with the partition plate and gradually rising It is to provide a heat exchanger for a boiler using waste hot water that can be heated to a high temperature in a short time.

Another object of the present invention is to form a heat medium filled with a heat medium in the inner circumferential surfaces of the boiling water chamber and the heat exchange chamber so that the inside of the heat exchanger is always kept warm and the outside air is blocked to improve thermal efficiency. The present invention provides a heat exchanger for a boiler using waste hot water.

The above and other purposes of the present invention,

A partition plate 5 made of a metal material is provided to the inside and the bottom of the sealed housing 2 to form a heat exchange chamber 3 and a hot water bath 4 at upper and lower sides thereof.

In the hot water chamber 4, the hot water is supplied, and in the heat exchange chamber 3, the cold water supplied through the cold water supply pipe 7 is heated and then discharged to the hot water discharge pipe 8. The cold water supply pipe (7) connected to the cold water supply pipe (7) is installed on the center line, and the lower end is installed to be close to the partition plate (5),

In the partition plate 5, the heat exchange pipes 9 filled with the heat medium are maintained at equal intervals, and the upper and lower ends thereof are positioned at the upper part of the heat exchange chamber 3 and the lower part of the hot water chamber 4, respectively. The thing installed around the cold water injection pipe 6,

The hot water chamber (4) includes a waste hot water supply pipe (11) and a waste hot water discharge pipe (12) at the upper and lower sides to supply and discharge the waste hot water. Is achieved.

1 is a front sectional view showing a heat exchanger using waste hot water according to the present invention.

2a and 2b is an exemplary view showing a state in which a heat medium chamber is formed in a boiling water chamber in a heat exchanger using waste hot water according to the present invention.

Figure 3 is a cross-sectional view showing a conventional heat exchanger.

※ Explanation of symbols for main parts of drawing

1 heat exchanger 2 housing 3 heat exchange chamber

4: hot water bath 5: partition plate 6: cold water spray pipe

7: cold water supply pipe 8: hot water discharge pipe 9: heat exchange pipe

10 condenser 11 hot water supply pipe 12 hot water discharge pipe

13: heat medium

The above and other objects and features of the present invention will be more clearly understood by the following detailed description based on the accompanying drawings.

1 to 2b show a specific embodiment of the heat exchanger 1 according to the present invention, in which FIG. 1 is a front sectional view and FIGS. 2a and 2b show an embodiment of a hot water bath 4.

A partition plate 5 was provided to be sealed under the inside of the sealed and cylindrical housing 2 to divide the inside of the housing 2 into a heat exchange chamber 3 and a hot water bath 4. The cold water injection pipe 6 connected to the cold water supply pipe 7 is vertically installed on the inner center line of the heat exchange chamber 3, but the lower end is positioned directly above the partition plate 5, and the upper surface of the housing 2 is provided. One side of the hot water discharge pipe (8) was connected in communication. The diameter R ₂ of the hot water discharge pipe 8 is slightly smaller than the diameter R ₁ of the cold water supply pipe 7 so that the hot water discharged through the hot water discharge pipe 8 is lower than the cold water supplied through the cold water supply pipe 7. A little less amount to be discharged, but hot water heated to a higher temperature can be discharged.

The compartment 5 is installed by maintaining a long heat exchanger pipe 9 having a long length in which a heat medium is filled therein at equal intervals, the upper end of which is located at the upper side of the heat exchange chamber 3 and the lower end of the hot water compartment. It was set in the lower part of (4).

In particular, when the diameter of the heat exchange pipe 9 is 15 to 16 mm and the diameter of the housing 2 is 50 to 60 cm, it is preferable to install about 150 so that it can be heated instantly.

In addition, the hot water supply chamber 4 has waste hot water supply pipes 11 and waste hot water discharge pipes 12 formed at upper and lower sides thereof, and is connected to a waste hot water supply device such as a condenser 10 of a boiler to circulate and supply waste hot water. As shown in FIGS. 2A and 2B, a plurality of heat medium chambers 13 were hermetically formed on the inner circumferential surface, and a non-condensable heat medium was filled therein.

The heat exchanger 1 according to the present invention configured as described above supplies waste hot water supplied through a waste hot water supply device such as a condenser 10 to the hot water chamber 4 through a waste hot water supply pipe 11 and waste hot water discharge pipe ( 12) to be discharged, and through the cold water supply pipe (7) to supply clean cold water. When the waste hot water is supplied to and filled with the hot water supply chamber 11 through the waste hot water supply pipe 11, the heat of the waste hot water is transferred to the partition plate 5 and the heat exchange pipe 9 made of metal, and the heat exchange pipe 9 ) Is also heated to a state of high temperature in all the parts located in the heat exchange chamber (3) by the heat of heat transfer. When cold water is supplied through the cold water supply pipe 7 in such a state, the cold water moves downward along the cold water injection pipe 6 to be discharged to the partition plate 5 directly above the partition plate 5 and the partition plate. Cold water hitting (5) is primarily heat exchanged with the partition plate (5), and gradually rises to be heated while continuously exchanging heat with the heat exchange pipes (9), and the heated hot water is heated water discharge pipe ( Through 8).

As described above, the heat exchanger 1 according to the present invention,

The hot water chamber (13) purifies and supplies waste hot water so that a separate heat generating device is not installed, and the operating cost can be reduced while utilizing waste resources, and a heat exchange pipe supported by the partition plate 5 ( 9) is installed up to the upper side of the heat exchange chamber (3), it is possible to heat the cold water supplied to a higher temperature, the heat exchange pipe (9) is installed around the cold water injection pipe (6), but the space between each other It is installed so as not to be spaced apart so as to increase the heat exchange area to increase the thermal efficiency, and the heat chamber (4) is installed by the heat medium chamber (13) to be heated by the waste hot water supplied to be maintained at a high temperature state By increasing the temperature of the hot water bath (4) and the heat of higher temperature is transferred to the heat exchange pipe can be improved thermal efficiency.

Claims (3)

In the inner and lower sides of the sealed housing 2, a partition plate 5 made of metal is hermetically sealed to form a heat exchange chamber 3 and a hot water bath 4 at the upper and lower sides thereof. The hot water is supplied and the cold water supplied through the cold water supply pipe 7 is heated in the heat exchange chamber 3 and then discharged to the hot water discharge pipe 8. The cold water supply pipe 7 is disposed on the inner center line of the heat exchange chamber 3. ) Is installed so that the cold water injection pipe (7) connected to the lower end portion is close to the partition plate (5), and the heat exchange pipe (9) filled with the heat medium in the partition plate (5) at equal intervals The upper and lower ends are located at the upper part of the heat exchange chamber 3 and the lower part of the boiling water chamber 4, and are installed around the cold water injection pipe 6, and the hot water chamber 4 has waste hot water. The supply pipe 11 and the waste hot water discharge pipe 12 are provided at the upper and lower sides to supply and discharge the waste hot water. Boiler heat exchanger using waste water, characterized in that it comprises a lock. 2. The boiler heat exchanger according to claim 1, wherein a heat medium chamber (13) is hermetically formed on the inner circumferential surface of the boiling water chamber (4) and a normal heat medium is filled therein. The boiler heat exchanger using waste hot water according to claim 1, wherein the diameter (R ₂ ) of the hot water discharge pipe (8) is smaller than the diameter (R ₁ ) of the cold water supply pipe (7).