KR810000477Y1 - Waste water heat collector - Google Patents

Abstract

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Description

Wastewater Heat Recovery Device

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

2 is an exploded perspective view of the main components of the present invention.

3 is an assembled cross-sectional view of FIG.

The present invention relates to a wastewater heat recovery apparatus that is used to heat and recover a large amount of waste hot water that is discharged as it is from various industrial facilities, sanitary establishments, hotels and apa art.

Conventionally, the heat exchanger constituting such a wastewater heat recovery device is usually equipped with a plurality of heat transfer tubes inside the heat exchange cylinder with both side plates interposed therebetween, and then into the outside of the heat exchange cylinder both side plates. And it is common to install a large number of baffles in the heat exchanger cylinder to install the outflow chamber, to hinder the flow rate of the wastewater to reduce the flow at the same time, and to increase the heat transfer effect. However, such a heat exchanger is rarely used when one is installed and used, and in many cases, a plurality of heat exchangers are spoken or staggered depending on the conditions of the installation site.

As described above, in order to stagger heat exchanger cylinders in a cascading manner, not only a lot of manufacturing costs are required, such as piping separately the wastewater chambers and the purified water distribution pipes on both sides, but also the management cost increases because one person must be kept for the operation. Was.

The present invention relates to an improvement of a conventional wastewater heat recovery apparatus for cascading several heat exchanger cylinders as described above, wherein the unit of the heat exchanger is formed with a plurality of inclined cylinders having a “V” shape or more therein and at the same time. A plurality of heat transfer pipes mounted on the pipes are also characterized by forming a series of heat transfer devices by eliminating the piping of each distribution pipe, as it is irradiated with the letter “V” to avoid forming the wastewater chamber as much as possible.

The present invention is to mount the curved heat exchanger (3) on both sides of the upper heat exchanger cylinder (1) and one or more lower heat exchanger cylinders (2) (2) ... as shown in the drawings. That is, the upper and lower heat exchangers 1, 2, ... are connected to each other by protruding the ends of the plurality of heat pipes 5a mounted between the two side plates 4 and 4 to the outside of the two plate 4. In the mounting of the curved heat exchanger (3) to the connection of the curved heat transfer pipe (5b)), the fastening plate having a through hole (6a) corresponding to the diameter of the heat exchanger (1) (2) and bent to an inclined surface The wastewater heat recovery apparatus is characterized by depositing a curved cylinder 3a that becomes a curved surface of a semicircular arc through (6).

That is, the upper heat exchanger 1 and the lower heat exchanger 2 have a constant inclination angle opposite to each other so that the shape such that the letter “V” is crossed on either side is maintained. Mounting plate (6) on the fitting plate (4) to the inclined surface with a through hole (6a), and then the connection portion (5) protruding outside the heat exchange cylinder (1) (2) and the fitting plate (4) It is assembled in such a way that the curved heat exchanger tube 5b is mounted on the curved heat exchanger tube 3a, and an inflow chamber 8 having constant heat is installed on one side of the upper heat exchanger cylinder 1, and the wastewater inflow is made. A filter net 9 is installed at the inner middle of the chamber 8 to address the wastewater inlet 10, and the lowermost heat exchanger cylinder 2 is provided with a purified water inlet 12, and at the end thereof, a wastewater outlet 11. Will be to install the discharge chamber 13 with. Reference numeral 14 denotes a purified water outlet, and 15 denotes a purified water distribution pipe.

Referring to the operation state of the wastewater and purified water of the present invention is as follows. That is, the wastewater entering the wastewater inlet chamber 8 through the wastewater inlet 10 passes through the filter network 9 installed on the upper side thereof, and is curved on the other side through the heat transfer pipe 5a installed in the upper heat exchanger cylinder 1. It flows into the curved heat exchanger tube 5b in the heat exchanger 3, flows into the heat exchanger tube 5a in the lower heat exchanger 2, and is discharged | emitted to the discharge port 11 of the discharge chamber 13. When the waste water passes through the upper and lower heat exchanger cylinders (1) (2) ... and the heat transfer tubes (5a) (5b) installed in the curved heat exchanger (3), the outer periphery is formed at the lower end of the lower heat exchanger (2). The purified water is introduced through the purified water inlet 12 and the heat transfer tube 5a of the upper and lower heat exchanger cylinders 1 and 2 is in contact with each other so that the purified water is introduced into the upper heat exchanger cylinder through the purified water distribution tube 15 and is purified. It is discharged to (14).

The present invention is installed by inclining a plurality of heat exchanger cylinders zigzag to “V” or more inclined to the top and bottom heat exchanger cylinders (1) (2). It enhances the effect of heat exchange and eliminates the need for a separate wastewater circulation pipe and installs the curved heat exchanger (3) without installing a wastewater chamber at each end of the upper and lower heat exchanger cylinders. In addition to preventing the loss of wastewater generated when passing through, the distribution piping with each wastewater chamber is omitted, and its operation is simple, thereby providing a practical effect that greatly reduces the management cost.

Claims (1)

The upper and lower heat exchangers 1, 2, ... are connected to each other by the ends of the plurality of heat pipes 5a mounted between the two side plates 4 and 4, protruding to the outside of the two plates 4, respectively. In attaching the curved heat exchanger 3 to the connection of the curved heat exchanger tube 5b, the fastening plate having a through hole 5a corresponding to the diameter of the heat exchanger 1 and 2 and bent to an inclined surface ( 6) A wastewater heat recovery device characterized in that a curved cylindrical body (3a) which becomes a curved surface of a semicircle arc is interposed therebetween.