KR800001928Y1 - Waste heat exchanger - Google Patents

Abstract

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Description

Wastewater Heat Exchanger

1 is a cross-sectional view of the present invention.

2 is an overall perspective view of a part of the present invention.

Figure 3 is an enlarged illustration of the perspective portion of the water pipe of the present invention.

The invention devises a plurality of thin water pipes in a flat shape so as to be bent in a corrugated manner to the exchanger's internal water where the passages are shifted up and down by several diaphragms, so that the wastewater heat can be efficiently transferred by the large surface area of the water pipe without disturbing the heat exchange action by the sludge. The conventional wastewater heat exchanger, in particular, the wastewater heat exchanger of a bathhouse, has a coiled water pipe inside a wastewater tank, which is formed high up and down, and recovers wastewater heat by a difference in water temperature between the water pipe and the wastewater. In the lower part of the waste water tank, there is not much difference in water temperature with the water pipe, so the heat exchange action is insignificant, and the sludge is accumulated on the surface of the water pipe coil and the water pipe is buried in the bottom of the waste water tank, which impedes the heat exchange action. The recovery rate of wastewater heat is not high and the wastewater tank is deep up and down While the coil pipes is complicated head had the inconvenient cleaning defects such as slag misty support therebetween.

The present invention provides a wastewater heat exchanger with a filter formed at a side of the well-known wastewater filter equipped with a filter in the middle of the filtration chamber so as to rectify the above-mentioned drawbacks. The wastewater sludge filtered below the filter of the filter is precipitated downward and the wastewater that is filtered out of the filter is discharged to the upper part of the exchanger by disposing a plurality of thin water pipes in parallel in a corrugated manner. During the flow along the passage from one side compartment to the other side of the chamber, the wastewater heat is recovered smoothly by the large surface area of the whole water pipe.There is little sludge settling in the water pipe, so there is almost no heat exchange failure, Easy to remove the settling sludge in the compartment And when the water tube easily by using more convenient as replacement, repair or cleaning will be described in detail by the accompanying drawings it contemplated that allow the recovery of economically nophil pyesuyeol than opening the top cover plate of the heat exchange chamber as follows.

The filter 2 was mounted in the middle of the filtration chamber 1 'of the wastewater filter 1, and the wastewater introduced into the lower inlet 3 of the filter 1 was filtered and discharged to the upper outlet 3'. In the well-known method in which the slag is discharged to the filter 1 below the discharge port 3 ″, several passages 4 and 4 'are provided on the side of the filter 1 so as to have a plurality of passages 4 " The wastewater heat exchanger cylinder 6 partitioned side by side is formed to be connected to the outlet 3 'of the filter 1 so that the water supply chamber 7 and the water collecting chamber 7 7 ') are formed, and a plurality of thin water pipes 8 groups are arranged in left and right parallel to bend in a wave form between the diaphragms 4 and 4' of each compartment 5 of the wastewater heat exchanger cylinder 6, respectively. 8) Both ends of the group (8 ') (8 ") are brought into contact with the water supply chamber (7) and the collection chamber (7') by the normal connection screw (9), and each compartment (5) of the exchange container (6) On the lower side, each for slab removal Is a hayeoseo gwanjeop the chulgwan (5 ').

In the drawings, reference numeral "6 '" is an upper cover plate, "10" is a wastewater inlet pipe, "10'" is a wastewater outlet pipe, "11" is a purified water inlet, and "11 '" is a hot water outlet.

In this way, when the high temperature wastewater of a bathroom or an industrial factory is introduced into the inlet port 3 of the filter 1, the sludge filtered by the filter 2 is precipitated under the filter room 1 'and then discharged from time to time. ") Is opened and removed, and the wastewater filtered by the filter (2) flows into the one side compartment (5) through the wastewater inflow pipe (10) of the wastewater heat exchanger (6) through the upper outlet (3 '), and then into each partition. (4) The water in the water supply chamber 7 flows into the water collection chamber 7 'through the various water pipes 8 during the outflow to the wastewater outflow pipe 10' through the upper and lower passages 4 "of (4 '). The water flowing in the water pipe 8 group is heated by the wastewater heat of the compartment 5 during distribution, which forms a wastewater heat exchanger in which several compartments are formed, with passages arranged up and down by several diaphragms on the side of the wastewater filter. Since a large number of thin water pipe groups 8 are arranged in left and right parallel to bend in a corrugated tube, The wastewater flows in contact with the large surface area of the water pipe group 8, so that the recovery rate of the waste water heat is higher, and there is almost no sludge in the waste water in the water pipe 8, so that there is no obstacle of heat exchange action by the sludge, The precipitated slag can be easily cleaned by opening the discharge pipe (5 '), and the structure is simple. When the upper cover plate is opened, the water pipe can be easily repaired or the inside of the compartment can be cleaned more conveniently than the conventional one. In addition, by preheating the preheated hot water to the boiler by the recovery of waste water heat, it has the effect of saving more fuel consumption.

Claims (1)

As shown in the figure, in the well-known one in which the filter 2 is mounted in the middle of the filtration chamber 1 'of the wastewater filter 1, a plurality of diaphragms 4 and 4' are provided on the side of the filter 1. A wastewater heat exchanger cylinder 6 is formed in which several compartments 5 are partitioned with up and down passages 4 "so that a plurality of groups of thin water pipes 8 are bent in a wave form in parallel to the left and right in parallel. Exhaust wastewater heat exchanger.