KR200253502Y1 - a heating Apparatus take advantage of hot waste Water - Google Patents

Abstract

The present invention is to install the waste hot water circulation coil plate inside the heat exchange tank in a sealed state to supply and discharge the waste hot water, and install the purified water coil in the coil type between the waste hot water circulation coil plate, waste water The purified water (cold water) is discharged while rotating and circulating in a coil form along the hot water circulation coil plate. Since the waste water hot water circulation coil plate is spirally installed, and the purified water circulation coil pipe is spirally installed between the waste hot water circulation coil plate, it is possible to keep the length of the waste hot water and the purified water moving long, and thus the heat exchange time. Can be maintained for a long time to improve the heat exchange efficiency, and the structure is simple and easy to make the manufacturing cost cheap I can make it.

Description

Heat exchanger using wastewater heat {a heating Apparatus take advantage of hot waste Water}

The present invention relates to a heat exchanger using wastewater heat to preheat the purified water (cold water) using the heat of the waste hot water.

To explain this in more detail, the waste hot water circulation coil plate is installed inside the heat exchange tank in a closed state in which waste hot water can be supplied and discharged, and the purified water circulation coil is installed between the waste hot water circulation coil plates in It is intended to provide a heat exchange device in which purified water (cold water) is circulated in reverse with waste hot water along a purified water circulation coil when hot water is discharged while rotating in a coil form along the waste hot water circulation coil plate.

In general, a heat exchanger using waste hot water is provided with a purified water supply pipe wound in a coil shape inside a heat exchange tank maintained in a closed state, and purified water (cold water) is supplied to a cold water circulation coil while supplying and discharging waste hot water to the heat exchange tank. Supply it, but it is circulated in the reverse direction of the supply direction of the waste hot water is to exchange heat.

However, since the conventional heat exchanger simply supplies waste hot water and supplies purified water to the purified water supply pipe wound in a coil shape, heat exchange is not actively performed, so the thermal efficiency is very low and the heat of wastewater is efficiently There was a problem that can not be utilized.

Proposed in order to solve this problem, Korea Utility Model Publication No. 1992-4906 'Wastewater Heat Exchanger', Public Utility Model Publication No. 1992-4907 'Heat Exchanger Using Wastewater Heat' and Utility Model Registration No. 166881 'Heat Exchanger' is known.

The Korean Utility Model Publication No. 1992-4906, 'Waste Water Heat Exchanger' is fixed and divided repeatedly so that a plurality of dividers are overlapped on both left and right sides inside a tank which is kept in a closed state and is capable of supplying and discharging waste water. Between the plates, water pipes maintained at equal intervals are installed in a zigzag, but both ends of each water pipe exposed to the outside of the upper and lower sides of the tank are connected to each header to communicate with each other. When hot water is zigzagd through the divider and discharged to the lower part, the purified water supplied through the lower header is discharged through the upper header after heat exchange while passing through the purified water pipe installed between the divider. It is to be built.

However, the conventional wastewater heat exchanger constructed and operated as described above is not easy to be installed in a zig-zag while overlapping the partition plates inside the tank, and is not easy to be installed while maintaining the zigzag water purification pipe at equal intervals. There was a problem that the fall, the waste hot water supplied through the batch passes through the heat exchange is not active, the efficiency is lowered.

On the other hand, Korean Utility Model Publication No. 1992-4907 'Heat Exchanger Using Waste Water Heat' and Utility Model Registration No. 166881 'Heat Exchanger' wind the heat exchange plate around the central dividing plate inside the outer cylinder with double hot water. The heat exchanger jacket formed with the jacket and the cold water jacket was stacked, and the diaphragm having the central distribution hole and the diaphragm having the outer distribution hole were repeatedly inserted between the heat exchange jackets.

In the heat exchanger or heat exchanger formed as described above, the waste hot water supplied to the hot water jacket positioned at the outer side of the heat exchanger jacket positioned at the top is moved to the center along the hot water circulation path to exchange heat with the first stage through the central distribution hole. After moving to the jacket, the lower heat exchanger jacket is moved outward along the hot water circulation path and then moved to the lower heat exchanger jacket in the second stage through the outer circulating hole. It is discharged through the hot water discharge pipe of the heat exchange jacket. On the other hand, the purified water supplied to the outer distribution hole of the heat exchanger jacket in which the purified water (cold water) is located at the lowermost side (n stage) is moved inward along the cold water circulation path to the upper (n-1 stage) heat exchange jacket through the central distribution hole. The purified water flowing into the heat exchange jacket on the upper side is moved to the heat exchange jacket of the next upper side (n-2) through the outside distribution hole after moving outward along the cold water circulation path, and the above process is repeatedly performed. It is discharged through the cold water discharge pipe of the heat exchange jacket located on the top (first stage).

In this way, the heat exchange jacket of each layer is heat exchanged while passing the hot water circulation path and the cold water circulation path which are in contact with each other in the opposite direction.

However, the conventional heat exchanger or heat exchanger configured and operated as described above has to form a hot water jacket and a cold water jacket by double winding the heat exchanger plate around the central partition plate in forming each heat exchanger jacket. Has a very difficult and difficult problem, and in order to stack the heat exchange jacket formed in this way, it is cumbersome to have separate diaphragms having different positions of distribution holes inside and outside, and also have a long length when laminating them. Since the bolt rod and the nut to be coupled to use the structure is very complicated and difficult to assemble, the manufacturing cost is not only a lot of use, but there was a problem of low productivity.

The present invention is to provide a heat exchanger using wastewater heat improved to solve the above problems.

The present invention is to install the waste water hot water circulation plate in the coil type inside the heat exchange tank to be closed state, and between the waste hot water circulation plate and the purified water circulation coil in the coil type, the waste hot water is rotated along the waste hot water circulation plate The purpose of the present invention is to provide a heat exchanger using wastewater heat that allows the purified water (cold water) to be circulated along the purified water circulation coil pipe when discharged while being circulated in reverse with the waste hot water.

Another object of the present invention is to provide a heat exchanger using wastewater heat to improve the heat exchange efficiency by maintaining a long heat exchange time between the cold water and the waste water by repeatedly forming the purified water circulation coil and the waste hot water circulation coil plate. To provide.

Still another object of the present invention is to provide a heat exchange device using wastewater heat to improve the heat exchange efficiency by allowing the purified water circulation coil installed in the waste hot water circulation coil plate to be provided in multiple forms.

The above object of the present invention,

Waste hot water supply pipe (3) and waste hot water discharge pipe (4) are formed on the upper and lower sides of the heat exchange tank (2) in a closed state so that the waste hot water can be supplied and discharged, and inside the waste hot water tank (2) In that the supply pipe 11 and the purified water discharge pipe 12 are provided with a purified water circulation coil pipe 10 exposed to the lower side and the upper side of the outside to flow the purified water back to the waste hot water.

In the heat exchange tank (2) is provided with a support tube (17) supported by a support (18) on a center line, and the waste hot water circulation coil plate (15) is formed spirally on the outer circumference of the support tube (17). The waste hot water is discharged after circulating spirally along the hot water circulation coil plate (15),

The waste hot water circulation coil plate 15 is disposed between the waste hot water circulation coil plate 15 in a spiral manner so as to be separated from each other, and the hot water circulation coil plate 15 passes through the waste hot water circulation coil plate 15. It is achieved by the heat exchanger 1 (1-1) characterized by including heat exchange between the purified water passing through (10).

1A and 1B are a plan view and a longitudinal sectional view of a heat exchanger according to the present invention.

2A and 2B are a plan view and a longitudinal sectional view showing another embodiment of the heat exchanger according to the present invention.

Explanation of symbols on the main parts of the drawings

1.1-1. Heat exchanger 2. Heat exchange tank 3. Waste hot water supply pipe

4. Waste hot water discharge pipe 10. Water purification coil pipe 11. Water purification pipe

12. Water discharge pipe 15. Waste hot water circulation coil plate 17. Support pipe

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

1A and 2B are exemplary views showing specific implementation examples of a heat exchanger using waste hot water according to the present invention, and FIGS. 1A and 1B are plan views showing one embodiment of a heat exchanger 1 according to the present invention. And FIG. 2A and FIG. 2B are a plan view and a longitudinal sectional view showing another embodiment of the present invention.

The heat exchanger 1 illustrated in FIGS. 1A and 1B is configured as follows.

Normal waste hot water supply pipe (3) and waste hot water discharge pipe (4) are formed on the upper and lower surfaces of the heat exchange tank (2) maintained in a closed state so that the waste hot water can be supplied and discharged. The support pipe 17 supported by the support 18 on the center line of the inside and the upper and lower sides thereof is disposed in a waste sound direction, and on the outer circumference of the support pipe 17, a wastewater hot water circulation coil plate 15 formed in a spiral shape is installed. In addition, a normal purified water circulation coil pipe 10 is spirally installed between the waste hot water circulating coil plate 15, and the purified water supply pipe 11 and the purified water discharge pipe exposed to the outside of the heat exchange tank 2 on the lower and upper sides thereof. 12) was formed.

In addition, the heat exchanger 1-1 illustrated in FIGS. 2A and 2B is provided with double purified water circulation coil pipes 10 and 10-1 provided between the waste hot water circulation coil plate 15. The end portions of the purified water circulation coil pipes 10 and 10-1 exposed to the outside of the heat exchange tank 2 are purified water supply pipes 11 and purified water discharge pipes 12 through a distribution frame 13 and a collection frame 14. And the rest were formed in the same manner as the heat exchanger 1 illustrated in FIGS. 1A and 1B.

In particular, the purified water circulation coil pipes 10 and 10-1 installed between the waste hot water circulation coil plates 15 as described above may be installed in parallel with each other, although not specifically illustrated. The induction plate 16 may be formed at the lower side of the waste hot water supply pipe 3 through which hot water is supplied in order to more easily guide the waste hot water supplied to the cold water circulation coil pipe 2 side.

The operation relationship will be described below.

Waste hot water supplied through the waste hot water supply pipe (3) is directly supplied to the purified water circulation coil pipe (10) by the induction plate (16), or when the induction plate (16) is not formed, some waste hot water is purified Directly falls to the circulation supply pipe (10) and the other part is dropped to the waste hot water circulation coil plate 15 located on the top side, the waste hot water introduced in this way along the waste hot water circulation coil plate 15 is installed After circulation in a spiral is discharged to the outside through the waste hot water discharge pipe (4).

Thus, when the waste hot water is circulated along the waste hot water circulation coil plate 15, purified water (cold water) is supplied through the purified water supply pipe 11, and the purified water supplied is supplied directly to the purified water circulation coil pipe 10 or It is supplied to the purified water circulation coil pipe 10 through the battle 13, the cold water supplied is discharged directly to the purified water discharge pipe 12 after moving to the rise along the purified water circulation coil pipe 10 or the collection frame 14 It is discharged to the purified water discharge pipe 12 via.

Thus, the waste hot water moves while circulating downward along the waste hot water circulation coil plate 15, and the purified water circulates along the purified water circulation coil pipe 10 installed between the waste hot water circulation pipe 15 to the upper side. When moving, waste hot and cold water undergoes heat exchange. The purified water that has been exchanged is maintained in a preheated state at a predetermined temperature when discharged through the purified water discharge pipe 12, and the wastewater discharged to the waste hot water discharge pipe 4 is discharged in a relatively low temperature state. Lose.

In particular, when the waste hot water is circulated along the waste hot water circulation coil plate 15 formed in a spiral as described above, and the purified water is circulated along the purified water circulation coil pipe 10 installed between the waste hot water circulation coil plates 15. The heat exchange between the two is continuously performed from the supply to the discharge, and thus the heat exchange efficiency is greatly improved, so that the purified water is kept at a high temperature.

As described above, in the heat exchange apparatus according to the present invention, since the waste hot water circulation coil plate is spirally installed inside the heat exchange tank and the purified water circulation coil pipe is spirally installed between the waste hot water circulation coil plates, the waste hot water and the purified water are It is possible to keep the length of the moving long, and thus it is possible to maintain the heat exchange time for a long time, thereby improving the heat exchange efficiency, and the structure is simple, making the manufacturing cost low and easy to manufacture.

Claims (2)

Waste hot water supply pipe (3) and waste hot water discharge pipe (4) are formed on the upper and lower sides of the heat exchange tank (2) in a closed state so that the waste hot water can be supplied and discharged, and inside the waste hot water tank (2) In that the supply pipe 11 and the purified water discharge pipe 12 are provided with a purified water circulation coil pipe 10 exposed to the lower side and the upper side of the outside to flow the purified water back to the waste hot water. The support pipe 17 is supported by the support 18 on the inner center line of the heat exchange tank 2, and the waste hot water circulation coil plate 15 is spirally supplied on the outer periphery of the support pipe 17, The waste hot water is discharged after circulating spirally along the hot water circulation coil plate (15), The waste hot water circulation coil plate 15 is disposed between the waste hot water circulation coil plate 15 in a spiral manner so as to be separated from each other, and the hot water circulation coil plate 15 passes through the waste hot water circulation coil plate 15. Heat exchanger using wastewater heat, characterized in that the heat exchange is made between the purified water passing through (10). The heat exchange apparatus using wastewater heat according to claim 1, wherein a plurality of purified water circulation coil pipes (10) provided between the waste hot water circulation coil plates (15) are provided side by side.