KR200304108Y1 - waste water heat withdrawal device - Google Patents

Abstract

The present invention relates to a wastewater heat recovery device, having a water purification outlet (12) on the upper side and a water purification inlet (11) on the lower side of the tank 10 and a constant space is formed to continuously receive the purified water therein, and the tank (10) The center bar 20 is formed in the inner center, and the screw-shaped diaphragm 30 is formed while being inclined downwardly on the outer circumferential surface of the center bar 20, and is inserted between the diaphragm 30 and the waste import port 41 and the waste export outlet ( It consists of a screw-type wastewater pipe 40 having a 42), and installs a screw-type wastewater pipe through which wastewater flows between the screw-shaped diaphragms formed inside the tank, and the purified water rotates the outer surface of the wastewater pipe for a long time to exchange heat. It is possible to heat recovery more efficiently, can be installed in a small place, and the total weight is very light, so it is very easy to carry and install.

Description

Waste water heat withdrawal device

The present invention relates to a wastewater heat recovery device, and more particularly, by installing a screw-type wastewater pipe in which wastewater flows between screw-shaped diaphragms formed inside the tank, and purified water is heat-exchanged while rotating the outer surface of the wastewater pipe for a long time. It can be maximized.

Conventionally, a wastewater passage through which wastewater passes is formed in a cylindrical shape, and a plurality of purified water pipes are disposed between the wastewater passages so that the wastewater retains heat from the purified water pipe while the wastewater passes through the purified water pipe and flows through the pipe. Recover the wastewater heat by raising the temperature to the proper temperature with the heat absorbed during the passage of the wastewater.

In this case, the cylindrical purified water pipes do not recover the wastewater heat efficiently because the area where the wastewater touches is small. Therefore, in order to absorb more wastewater heat, the number of cylindrical pipes has to be increased so that the entire volume is enlarged. The work was very cumbersome and inconvenient because it had to be welded inside the boiler.

In addition, since the purified water pipe is provided between the wastewater passages, the direction in which the wastewater passes between the purified water pipes is formed in a linear direction. Thus, the wastewater passage time is short and the contact time with the pipe is short. There was a lowering of the lungs.

The present invention has been made in consideration of the various problems as described above, and an object thereof is to install a screw-type wastewater pipe through which wastewater flows between screw-shaped diaphragms formed inside the tank, while the purified water rotates the outer surface of the wastewater pipe for a long time. By more efficient heat recovery, and to provide a waste water heat recovery machine to maximize the heat exchange capacity.

Another object of the present invention is to be installed in a small place, the total weight is very light to provide a very easy and convenient wastewater heat recovery device for transport and installation.

In order to achieve the above object, the present invention has a water purification outlet on the upper side and a water purification inlet on the lower side, and has a constant space formed therein so that the water is continuously supplied to the inside, and forms a center bar at the center of the tank, Screw-type diaphragm formed while being rotated obliquely, and screw-type wastewater pipe is inserted between the diaphragm having a waste inlet and a waste outlet.

1A to 1B are perspective views showing the overall configuration of the present invention.

2 is an exemplary view showing a use state of the present invention.

♣ Explanation of symbols for the main parts of the drawing

10: tank 11: water inlet

12: water purification outlet

20: center bar 30: diaphragm

40: wastewater pipe 41: wastewater inlet

42: waste outlet

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

1A to 1B are perspective views showing the overall configuration of the present invention, in which reference numeral 100 denotes a heat recovery device of the present invention.

The heat recoverer 100 includes a tank 10 having a purified water inlet 11 and an outlet 12, a diaphragm 20 provided on an outer circumferential surface of a center bar 20 formed at an inner center of the tank 10, and The waste water pipe 30 is coupled between the diaphragm 20.

The outer shape of the tank 10 is formed in a cylindrical shape, and has a predetermined space so that the purified water is filled therein.

A purified water outlet 12 through which purified water is discharged is formed above the tank 10, and a purified water inlet 11 through which purified water flows is formed below.

A center bar 20 is formed at the inner center of the tank 10, and a screw 30 is formed integrally on the outer circumferential surface of the center bar 20 to be inclined downward.

Coupling the waste water pipe 40 formed integrally with the waste inlet 41 and the waste outlet 42 so as to rotate in the same manner along the diaphragm 30 formed on the outer peripheral surface of the center bar 20 in the tank 10 as described above. .

In addition, the wastewater pipe 40 can be installed using a corrugated pipe, a spiral pipe, or a screw pipe.

Then, a plurality of waste water pipes 40 can be installed and used.

The waste inlet 31 is formed above the tank 10, and the waste outlet 42 is formed below the tank 10.

The wastewater pipe 40 is formed in a screw shape having the same shape as the diaphragm 30 to lengthen the passage time of the wastewater flowing therein, and to widen the contact area, thereby making it possible to efficiently exchange heat.

Referring to the effects of the present invention as described above in detail.

As shown in FIG. 2, a purified water of about 5 ° C. is introduced into the purified water inlet 11 formed at the lower side of the tank 10.

Then, the wastewater of about 34 ° C. to 35 ° C. having a small drop of free water flowing into the sewage flows into the waste inlet 41 formed on one side of the upper side of the tank 10.

The waste water flows down while rotating downward along the waste water pipe 40.

At this time, the waste water pipe 40 is formed in a screw type to extend the passage time for the waste water to go out.

The purified water inlet 11 flows upward while rotating along the diaphragm 30 of the screw type.

At this time, the warm water recovered from the waste water pipe 40 is raised to the upper side.

The purified water flows in a screw form along the diaphragm 30 and the diaphragm 30 to recover the heat of the waste water pipe 30.

The temperature of the purified water discharged to the purified water outlet 12 while rotating along the diaphragm 30 is about 30 ° C ~ 31 ° C to recover waste water heat of about 90% or more.

In addition, the wastewater that has passed through the wastewater pipe 40 is discharged to the wastewater outlet 42 at about 3 ° C to 4 ° C.

In this way, the waste water and the purified water are rotated in the same screw-type and exit in the reverse direction, and the purified water is extended to the contact surface with the waste water and the passage time is extended, so that the heat retained by the waste water can be recovered as much as possible.

As described above, the present invention provides a screw-type wastewater pipe through which waste water flows between the screw-shaped diaphragms formed inside the tank, so that the purified water can be heat-exchanged while rotating the outer surface of the wastewater pipe for a long time, so that heat recovery can be performed more efficiently. The heat recovery ability is more than 90% effective, it can be installed in small places, and the total weight is very light, so it is very easy to carry and install.

Claims (1)

A tank (10) having a purified water outlet (12) on the upper side and a purified water inlet (11) on the lower side, and having a predetermined space to continuously receive purified water therein; A screw-shaped diaphragm 30 formed by forming a center bar 20 in the center of the tank 10 and rotating obliquely downward on an outer circumferential surface of the center bar 20; And a screw-type wastewater pipe (40) inserted between the diaphragms (30) and having a waste inlet (41) and a waste outlet (42).