KR100903068B1 - A heating apparatus take advantage of hot waste water - Google Patents

Abstract

A heat exchanger of a coil method using the heat of waste water is provided to effectively supply the warm water by distributing the hot waste water ejected from a public bathhouse or a sauna facility with a plurality of coil type heat exchangers. A heat exchanger of a coil method using the heat of waste water comprises a plurality of coil type heat exchanging pipes(15), a waste warm water distribution tank(20), a hot waste water collecting tank(25), a distribution tank(30), a collecting tank(35). A plurality of coil type heat exchanging pipes is arranged inside a body(10) forming an inlet(11) and an outlet(12) in order to form a spiral flow path(14). A plurality of coil type heat exchanging pipes comprises a plurality of heat exchangers(100). A plurality of heat exchangers is arranged to the radial direction. The hot wastes water distribution tank receives the hot wastes water in order to supply to each heat exchanging pipes. The hot waste water collecting tank collects the hot waste water after the heat exchange and discharge out. The distribution tank receives the water from the waterworks to supply to a feeding line(31). The hot waste water collecting tank stores the hot water heated after the heat exchange.

Description

Coil-type heat exchanger using wastewater heat {A heating Apparatus take advantage of hot waste Water}

The present invention relates to a heat exchange device for providing hot water by heat exchange using waste hot water discharged in large quantities from a bathroom or a sauna, and more particularly, to apply a coil-type heat exchange technology, which is the applicant's pre-applied technology having excellent heat exchange efficiency. The present invention relates to a coil-type heat exchanger using wastewater heat to efficiently provide hot water by maximizing heat exchange efficiency with waste hot water while distributing and supplying waste hot water from a plurality of heat exchangers provided radially.

In general, when the waste hot water discharged from the bath or sauna facilities and other industrial facilities as it is, it causes various problems due to the temperature rise of the river.

In addition, since the waste hot water is disposed, there is a big problem of energy loss.

In order to improve this problem, the present applicant has disclosed a heat exchange apparatus using wastewater heat in Utility Model Registration No. 206328.

This heat exchange device is installed inclined repeatedly the preheated hot water distribution pipe in which the waste hot water distribution pipes are piped inside between a pair of oppositely spaced waste hot water distribution pipe, and the waste hot water supplied from the upper side moves downward along the waste hot water distribution pipe. And the supply water supplied from the lower side is the mutual heat exchange while moving up along the preheated hot water distribution pipe is to supply hot water.

Such a heat exchanger does not maximize the heat exchange area or heat exchange time between the waste hot water and the feed water, and thus has a disadvantage in that mutual heat exchange efficiency is not effective to provide hot water effectively.

On the other hand, the present applicant has been filed in advance and registered in the patent application No. 2003-28557, a multi-layer coil-type heating heat exchanger, which is from the inlet side of the lower side to the outlet side of the other side inside the cylinder in which the burner is installed at the lower side The plurality of coil-type heat exchanger tubes form a partition wall in contact with each other and are arranged in a coil shape, wherein the plurality of coil-type heat exchanger tubes are arranged from the inner side to the outer side so that the flow rate of the supplied water flows from the lower inlet side to the upper outlet side in the same manner. It is made by forming a larger diameter of the tube sequentially.

The heat exchanger maximizes the heat exchange efficiency in a compact size by a plurality of coil-type heat exchanger tube, in particular, the flame and heat of the burner rises along the spiral space formed by the coil-type heat exchanger tube to lengthen the residence time It will ensure maximum heat exchange efficiency.

In addition, the plurality of coil-type heat exchanger tube provides a constant internal flow rate of the feed water by differently forming the inner and outer tubes, thereby providing a constant heating of the feed water passing through the plurality of coil-type heat exchanger tubes. will be.

Applicant has tried to develop a heat exchanger using waste water heat by applying a pre-application method excellent in heat exchange efficiency as described above.

The present invention has been invented to solve the problems of the prior art and the applicant's prior application technology, using the waste hot water discharged in a large number of baths and sauna facilities, etc., the applicant's coil type heat exchange method excellent heat exchange efficiency Its purpose is to maximize the efficiency and reliability of hot water supply.

Heat exchanger using the waste water of the present invention,

In the upper and lower parts of the cylinder forming the inlet and the outlet, the upper and lower parts of the coil-type heat exchanger tube from the inner side to the outer side to form a larger diameter, and the plurality of coil-exposed heat exchangers radially disposed, The waste hot water distribution tank is connected to the inlet side of each heat exchange tube by receiving waste hot water at the upper part, and the waste hot water capture tank connected to the outlet side of the heat exchange tube is connected to the outlet side of the heat exchange tube to collect and discharge the waste hot water which has undergone heat exchange. ,

 The lower inlet of each heat exchanger is achieved by connecting a distribution tank for receiving and supplying supply water from the water supply, and a collecting tank for storing and supplying hot water heated through heat exchange at an upper outlet. .

The present invention provides hot water by heat exchange with waste hot water discharged in a large number of baths or sauna facilities, the heat exchange with the waste hot water is applied to the coil type heat exchange method of the present inventors excellent heat exchange efficiency, Distributing through the heat exchanger has an effect of providing excellent efficiency of hot water supply by effective heat exchange with hot water in each coil type heat exchanger.

Next will be described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

1 to 3, the heat exchanger of the present invention, the upper and lower, the lower side at the inlet side 16 of the upper side in the interior of the cylinder 10 forming the inlet 11 and outlet 12 A plurality of coil-type heat exchanger tube 15 to one side of the outlet side 17 is in close contact with each other to form a horizontal wall to form a spiral flow path 14, but the plurality of coil-type heat exchanger tube 15 is The heat exchanger 100 is used to sequentially form the diameter of the tube in order from the inner side to the outer side so as to flow the flow rate of the feed water supplied into the same.

That is, by disposing a plurality of heat exchangers 100 on the radial, the waste hot water is supplied from the main tank 200 for storing and supplying the waste hot water discharged in a bath or sauna facility in a filtration state in a central upper portion by a filter. A waste hot water distribution tank 20 connected to the inlet side 16 of the heat exchange tube 15 as a supply pipe 21 and supplied to the inlet 16, and an outlet side 17 of the heat exchange tube 15 and a waste hot water collection pipe at the center lower portion thereof. Connected to 22 to connect and configure the waste hot water collection tank 25 for collecting and discharging waste hot water that has undergone heat exchange,

The lower inlet 11 of each heat exchanger receives the supply water from the water supply and distributes the supply to the supply pipe 31, and the upper outlet 12 collects the hot water heated through heat exchange. It is made by connecting the collection tank (35) for collecting and storing and supplying to (32).

In this case, the plurality of heat exchangers 100 is preferably determined according to the discharge capacity of the waste hot water, as shown in the figure, when the five or other water discharged in a radial isometric discharge in terms of space utilization It becomes more efficient.

In addition, the waste hot water collection tank 25 may be configured to discharge or directly discharge the waste hot water that has undergone heat exchange through the main tank 200 again as shown in the drawing.

As an unexplained reference numeral 13 denotes an inner support cylinder formed in the center of the cylinder 10.

Next will be described the operation and action of the present invention configured as described above.

The present invention is characterized in that by using waste hot water, by applying the applicant's pre-application heat exchange method excellent in heat exchange efficiency to provide hot water effectively.

In more detail, the present invention stores and supplies waste hot water discharged from a bath or sauna facility and other industrial facilities in a filtration state by a filter in the main tank 200.

The waste hot water supplied in this way is first supplied to the waste hot water distribution tank 20, and the upper inlet side 16 of the heat exchange tube 15 of the plurality of heat exchangers 100 provided radially through the plurality of supply pipes 21. To each of the distribution supplies.

In this way, the waste hot water supplied to the heat exchange tubes 15 of each heat exchanger moves helically along the plurality of coil-type heat exchange tubes 15, and the plurality of heat exchange tubes 15 is the diameter of the tube from the inner side to the outer side. Since it is formed large in sequence, the flow rate of the waste hot water flows the same as a whole to be supplied constantly.

Along with the lower inlet 11 of each heat exchanger 100, the supply water connected to the water supply and the like is supplied through the supply pipe 31 from the distribution tank 30 to form a wall in the cylinder 10, and coiled. It is to move helically along the spiral flow path 14 formed by the heat exchanger tube 15 to be discharged.

In this process, the supply water is heated by heat exchange with waste hot water that is supplied and moved into the plurality of coil-type heat exchange tubes 15.

In particular, since the supply water moves through the helical flow passage 14 to provide a long heat exchange time, and to form a large heat exchange area with the plurality of coil-type heat exchange tubes 15, the waste water and the waste water inside the heat exchange tube 15 Sufficient heat exchange will be achieved.

In addition, since the plurality of coil-type heat exchange tubes 15 form the diameters of the tubes sequentially from the inner side to the outer side, the plurality of coil-type heat exchange tubes 15 pass through the spiral flow passage 14 while allowing the flow rate of the internal waste hot water to flow the same. The water is heated uniformly throughout.

As described above, the supply water which has completed the heat exchange through the spiral flow passage 14 of the heat exchanger 100 is discharged through the upper outlet 12 of the tubular body 10 in a hot water state, and is collected through the collecting pipe 32. It is collected by (35) and used as needed.

Then, the waste hot water which has completed heat exchange through the coil-type heat exchange tube 15 of the heat exchanger 100 is discharged through the outlet side 17 of the heat exchange tube 15 and is collected through the collection pipe 22 to collect the waste hot water collection tank ( 25).

At this time, the waste hot water that has undergone heat exchange collected by the waste hot water collection tank 25 is discharged through the main tank 200 again or directly discharged.

As described above, the heat exchange device of the present invention uses waste hot water, but by applying the spiral heat exchange technology previously filed by the applicant, the heat exchange efficiency of the feed water supplied to the waste hot water and the water is maximized, thereby effectively providing hot water. Will be.

1 is a block diagram showing the overall configuration of the present invention.

2 is an enlarged view of main parts of the present invention.

3 is a plan view of FIG. 2.

** Description of the symbols for the main parts of the drawings **

10: cylinder 11: inlet

12: outlet 15: heat exchanger tube

20: waste hot water distribution tank 25: waste hot water collection tank

30: distribution tank 35: collection tank

100: heat exchanger 200: main tank

Claims (2)

In the heat exchanger using waste hot water discharged in a large number of baths and sauna facilities, A plurality of coil type heat exchange tubes 15 from the inlet side 16 on the upper side to the outlet side 17 on the lower side in the inside of the cylinder 10 forming the inlet 11 and the outlet 12 up and down. The coils are arranged in close contact with each other to form a horizontal wall and form a spiral flow path 14, but the plurality of coil-type heat exchange tubes 15 pass from the inside to the outside so as to flow the flow rate of the supplied water to the inside. More and more heat exchangers 100 are formed in a radial manner to gradually increase the diameter of the pipes gradually, and waste hot water is supplied to the upper center to supply pipes 21 to the inlet side 16 of each heat exchange tube 15. Waste hot water distribution tank 20 is connected to supply and the waste hot water collection to collect and discharge the waste hot water through heat exchange is connected to the heat exchange pipe 15, the outlet 17 and the waste hot water collection pipe 22 in the lower center Connect and configure the tank 25, The lower inlet 11 of each heat exchanger receives the supply water from the water supply and distributes the supply to the supply pipe 31, and the upper outlet 12 collects the hot water heated through heat exchange. Coil-type heat exchanger using wastewater heat, characterized in that made by connecting the collection tank (35) to collect and store and supply to the (32). The method of claim 1, Coil-type heat exchanger using wastewater heat, characterized in that the heat exchanger 100 is arranged in a plurality of radially arranged in a conformal position.

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