KR0154659B1 - A concentrator - Google Patents

Abstract

The present invention relates to a concentrator for concentrating wastewater generated in a photographic laboratory,

The heat exchanger installed inside the main body of the concentrator forms a heat passage portion and a heat return portion at both sides, connects a plurality of transfer pipes and a recovery tube therebetween, and installs a flange in the heat passage portion. In addition, an opening is formed in the lower front side of the main body, and a pedestal is installed at both sides of the lower side of the main body so that the heat exchanger having a flange can be extracted and inserted in the horizontal direction through the opening, thereby repairing, cleaning and replacing the heat exchanger. It is easy and convenient, and it is a concentrator with high thermal efficiency.

Description

Thickener

1 is a partially exploded perspective view of the present invention.

2 is a longitudinal cross-sectional view of the present invention.

3 is a cross-sectional view from the top of the present invention.

4 is a plan view of a heat exchanger according to the present invention.

5 is a cross-sectional view taken along the line A-A of FIG.

6 is a cross-sectional view taken along the line B-B in FIG.

(b) is sectional drawing along the C-C line | wire of FIG.

7 is a process chart showing the concentration of wastewater according to the present invention.

* Explanation of symbols for main parts of the drawings

1: body 2: heat exchanger

3, 3a: pedestal 4: opening

5: fastener 6: flange

7: insertion hole 8: tightening bolt

9: heat passage portion 10: heat flow portion

11: classification plate 12: transfer pipe

13: recovery pipe 14: inlet

14a: outlet 15: main leg

16: wastewater outlet 17: solids extraction port

20: rider separation 22: wastewater inlet pipe

25 gas outlet

The present invention relates to a concentrator, and more particularly, to repair, clean, and exchange a heat exchanger installed in a concentrator configured to separate gas and liquid by heat treatment after chemically pretreating wastewater generated in a photographic laboratory. It relates to a concentrator which facilitates and increases the thermal efficiency.

Conventional concentrators were configured to separate and dismantle the lower part of the body during repair, cleaning and replacement of the heat exchanger installed in the concentrator, thereby replacing the heat exchanger.

Therefore, there were difficulties and inconveniences of dismantling work and it took a lot of time for replacement work. In addition, the heat exchanger installed in the main body had a low heat transfer area, resulting in low thermal efficiency, thereby increasing fuel costs.

Therefore, the object of the present invention is invented to solve the above conventional problems, the first object of the present invention to facilitate the extraction and insertion installation work during repair, cleaning and replacement of the heat exchanger installed in the concentrator body. The second object is to widen the heat exchange area of the heat exchanger installed in the concentrator body to increase the thermal efficiency.

Hereinafter, illustrated in detail with reference to the accompanying drawings as follows.

First, a description will be given with reference to FIGS. 1 and 2.

1 is a partially exploded perspective view of the present invention, and FIG. 2 is a longitudinal sectional view of the present invention.

The heat exchanger 2 is installed and installed in the lower part of the main body 1, and the extraction and insertion of the heat exchanger 2 are facilitated by replacement means.

Referring to the replacement means of the heat exchanger (2) is as follows.

That is, the pedestals 3 and 3a are fixedly installed on both sides of the lower side of the main body 1, and an opening 4 is formed in the front of the main body 1, and through the opening 4, the heat exchanger ( 2) Insert and install on the pedestal (3) (3a).

A plurality of fastening holes 5 are formed at the periphery of the opening 4.

In the front of the heat exchanger 2, a frame 6 is formed, and an insertion hole 7 is formed at the periphery of the frame 6 so as to coincide with the fastening hole 5 described above.

The insertion hole 7 and the fastening hole 5 are fastened and fixed by a fastening bolt 8.

The configuration of the replacement means has been described as described above.

Next, a detailed configuration of the heat exchanger 2 of the present invention will be described with reference to FIGS. 4 to 6 (a) and (b).

FIG. 4 is a plan view of the heat exchanger 2, FIG. 5 is a sectional view taken along the line A-A of FIG. 4, (a) is a sectional view taken along the line B-B of FIG. 4, and (b) is a sectional view taken along the line C-C of FIG.

As shown, a heat passage portion 9 and a heat flow portion 10 having flanges 6 are formed at both sides of the heat exchanger 2, and a splitter plate 11 is provided at the heat passage portion 9. Formed into compartments (see FIG. 5).

The plurality of transfer pipes 12 and the return pipe 13 are installed between the heat passage part 9 and the heat return part 10. In addition, the flange 6 is provided with an inlet 14 and an outlet 14a.

The structure of the heat exchanger 2 was demonstrated as mentioned above.

Next, other configurations of the concentrator of the present invention will be described with reference to FIGS. 1 and 2.

The main leg 15 is installed at the lower outer periphery of the main body 1, and a concentrated wastewater outlet 16 is installed at the center of the lower bottom, and a solids extraction port 17 is installed at one side thereof.

The repair cover 18 is provided above the opening 4, and a water meter is provided in the outer longitudinal direction of the main body 1.

The upper side of the main body (1) is installed by the support 21 to the separation separator 20, the waste water inlet pipe 22 is installed on the upper side of the separation separator 20, the waste water inlet pipe 22 The wastewater injection port 23 on one side and the waste opening inlet 24 is formed on the other side. And the gas outlet 25 is formed in the upper end of the main body (1).

Referring to the effects of the present invention configured as described above are as follows.

First, it demonstrates with FIG.

The wastewater generated in the photo lab is redoxed and coagulated at the same time as chemical treatment, and then separated by sludge (solid) and filtrate by filter press.

The separated filtrate (liquid) is pre-treated and transferred to the first water collecting tank 26 and collected and pumped by the first pump 27 to the wastewater inlet pipe 22 of the main body 1.

The conveyed wastewater is sprayed to the wastewater inlet 23 through the wastewater inlet 24 of the wastewater inlet 22.

The injected waste water flows down along the separation separator 20 in all directions.

The drained waste water is heat-exchanged by the heat exchanger (2), whereby the concentrated waste water is discharged through the discharge port (16), and the discharged waste water is discharged through the second pump (28) to the second water collecting tank (29). Is sent to.

Thereafter, as described above, the wastewater of the second collection tank 29 is redoxed and then coagulated at the same time as chemical treatment, and then separated by sludge and filtrate by filter press, and the separated filtrate is pretreated to be the first collection tank 26. Is sent to.

After that, it is continuously and repeatedly performed according to the above-described process.

The waste water injected in the main body 1 is heat-exchanged in the heat exchanger 2 by heat transferred from the boiler 30 to the heat exchanger 2, and is separated into waste water and gas concentrated by the heat applied thereto. At this time, the concentrated wastewater is discharged to the wastewater outlet 16 as described above, and the gas rises and is discharged through the gas outlet 25, and the discharged gas is incinerator 31 and a heat recovery device (not shown), a cooling device, and a dust collector. It is released to the atmosphere via.

In the wastewater concentration process as described above, the effect of the present invention is to replace heat exchanger 2 and heat exchange.

Therefore, the specific action and effect thereof will be described below.

First, the means for replacing the heat exchanger 2 from the main body 1 will be described with reference to FIGS. 1 to 3.

In the heat exchanger 2 for concentrating wastewater by heat exchange, when sludge or the like accumulates on the surface of the heat exchanger 2 with use for a long time, the flange 6 of the heat exchanger 2 is fastened to the main body 1. Loosen the bolt (8).

Subsequently, when the heat exchanger 2 is pulled out in the horizontal direction, extraction is easily and conveniently performed while being separated from the pedestals 3 and 3a.

The extracted heat exchanger 2 is cleaned or repaired, replaced with a new one if necessary, and then inserted into the horizontal direction through the opening 4 again.

The inserted heat exchanger (2) is supported by the pedestal (3) (3a) in the main body 1 and is fastened and fixed through the insertion hole (7) and the fastening hole (5) again with the fastening bolt (8).

As described above, the extraction and insertion of the heat exchanger 2 can be easily and conveniently installed.

Next, the effects of the heat exchanger 2 of the present invention will be described with reference to FIGS. 4 to 7.

When the hot water generated from the boiler 30 is introduced through the inlet 14, the hot water is transferred to the transfer pipe 12 via the heat passage part 9 and transferred to the heat return unit 10 via the transfer pipe 12. The transferred hot water flows back to the discharge port 14a through the recovery pipe 13 and flows into the boiler 30 again.

While the hot water introduced as described above passes through the heat passage part 9, the transfer pipe 12, the heat return part 10, and the recovery pipe 13, the waste water is heat-exchanged and thus the waste water is concentrated.

The dividing plate 11 formed in the heat passage part 9 is allowed to enter the recovery pipe 13 of the hot water heat introduced through the inlet 14 so that the heat exchange is performed, and the cooled hot water is circulated smoothly to discharge the outlet 14a. To be discharged.

In the heat exchanger 2 of the present invention as described above, heat is transferred to and flows back into the heat passage part 9, the transfer pipe 12, the heat return part 10, and the recovery pipe 13, Since the heat exchange with the waste water is carried out, the thermal surface area is increased, which leads to efficient concentration with high thermal efficiency.

And the solids extraction port 17 installed on the lower surface of the main body 1 is for extracting the solids accumulated in the lower portion of the inside of the main body 1 through this, the repair cover 18 is the operator through the main body ( 1) It is for cleaning and repairing the inside of the main body 1 inside.

The present invention as described above is easy and convenient extraction and insertion installation during repair, cleaning and replacement of the heat exchanger installed in the concentrator body, it is characterized in that the heat exchange area of the heat exchanger is installed in the concentrator body to maximize the thermal efficiency.

Claims (2)

Wastewater inlet pipe 22 and gas outlet 25 are installed in the upper and inner sides of the main body, and the wastewater introduced through the wastewater inlet pipe 22 is provided to the heat exchanger 2 by the boiler 30 at the lower side. The vapor to be heated by the gas outlet 25, the concentrated wastewater is discharged to the wastewater outlet 16, the heat exchanger 2 is located on the lower side of the main body so as to be separated from the concentrator. And a heat passage part 9 and a heat return part 10 for guiding heat from the boiler 30 to flow in and out, and between the plurality of transfer pipes to increase the contact area with the waste water. 12) is installed to be connected to each other and the return pipe (13), the condenser characterized in that the inside of the heat passage (9) partition plate (11) for partitioning the inflow and outflow of heat is installed. 2. A flange (6) according to claim 1, wherein a flange (6) having the same curvature as that of the concentrator body and an interview is provided at the front end of the heat passage (9), and the flange (6) separates and couples the heat exchanger (2). Thickener, characterized in that consisting of bolted structure for.