KR910009005B1 - Cleaning devices for heat-exchanger - Google Patents

Abstract

The cleaning device comprises a heat-exchanger (5) having a vertical pipe (1) in the heat exchanging tank (11), a distributed pipes (2,2') for hot and cold water is formed to the upper and under of the heat exchanger (5), the first heat exchanging pipe (7) having spiral type is connected with an inlet (9) for flowing an cold water, the second heat exchanging pipe (7) having spiral type is connected to the distributed pipe (2') through a connecting pipe (8), a conveyer cover (40) mounted to the end of the tank (11), an inlet (42) for putting an sand is formed to the top of a partitioned plate (41), a tank (60) for removing from dust including a supplying pipe (63) and a drain pipe (64), and vertically partitioned plate (55).

Description

Cleaning and dust removal device of heat exchanger using waste heat

1 is a side view of a partially cut in the state in which the present invention is installed.

2 is a cross-sectional view of a heat exchanger tank of the apparatus of the present invention.

3 is a cross-sectional view showing the combined state of the present invention.

Figure 4 is a perspective view of the coupling state of the first heat exchanger and the installation pipe for explaining in detail the heat exchanger installed in the heat exchanger tank cold portion of the present invention.

5 is a partial cross-sectional view showing a state that is fixed in all directions from the first heat exchanger to the fourth heat exchanger around the installation pipe.

Figure 6 is a perspective view of the cover cut state of the dust removal tank of the present invention.

7 is a partial cross-sectional view showing the operating state of the dust production.

8 is a cross-sectional view showing a rotating part of the lower part of the installation pipe.

9 is an exploded perspective view of FIG.

* Explanation of symbols for main parts of the drawings

1: resin pipe 2: cold water distribution pipe

2 ′: hot water distribution tube 3: distributor

5: heat exchanger 6, 6 ′: secondary heat exchanger tube

7: 1st heat exchanger tube 11: heat exchanger tank

12: outlet 14: fan mounting hole

15: waste gas inlet 38: bucket

39: conveyor chain 40: conveyor cover

41: bulkhead 42: sand inlet

53: distribution hole 55: vertical plate

56: top plate 57: bottom plate

60: water hole 61: dust removal tank

The present invention relates to a heat exchanger using waste heat to recover the waste heat discharged from the exhaust gas of the boiler installed in various industrial facilities or homes, in particular, to remove air (soot) mixed in the exhaust gas to remove air pollution The present invention relates to a heat exchanger cleaning and dust removal device using waste heat, which prevents and prevents rust generated from corrosion and scale on the surface accumulated and accumulated in the heat exchanger for a long time.

Conventionally, these types of heat exchangers have been used, but most of them are simply using waste heat or obtaining a single effect such as a means for removing dust.

In the case of a large heat exchanger, the manager not only had to clean artificially, but also after cleaning, when a situation such as rust of a naturally occurring rust during a long time of use or a scale accumulated on its surface occurs. The condition is less than expected, there was a problem that the life of the heat exchanger is shortened.

Therefore, the present invention is to solve such a conventional problem, the cleaning and dust removal of the heat exchanger is very easy and clean state is maintained and thus the fresh water and dust removal device of the heat exchanger using waste heat to extend the life of the heat exchanger accordingly It is to enhance.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings.

1, a heat exchanger tank 11 having multiple heat exchangers 5 therein, a dust removal tank 61 installed above the heat exchanger tank 11 to collect water to remove dust, and , The conveyor cover 40 is coupled to one side of the heat exchanger tank 11, and the inside of the heat exchanger tank 11 is partitioned from side to side by the diaphragm 41 so that the bucket conveyor 39 having a cleaning function is provided on the right side space. In the resin shaft, a plurality of fans 33 are provided at regular intervals on the fan shaft 32.

In the heat exchanger tank 11, as shown in FIG. 2, the vertical pipe 1 is vertically penetrated to block the middle portion, and the cold water distribution pipe part 2 in which the plurality of distribution holes 3 are perforated is upper part, The distribution hole (3) is formed in the hot water distribution pipe portion (2 '), the heat exchanger (5), as shown in the fourth, a plurality of spirals in which the cold water inlet (9) is connected to the cold water distribution pipe (2) Type primary heat exchange tube (7), one end is connected to the other end of the primary heat exchange tube (7) by a connecting pipe (8) and the other end is connected to the hot water distribution pipe part (1 ') by the connecting pipe (10) Two spiral type heat exchange tubes 6 and 6 '.

Here, in connecting the plurality of primary heat exchange tubes 7 and secondary heat exchange tubes 6, 6 'to the cold water distribution tube portion 2 and the hot water distribution tube portion 2', each one of the heat exchange tubes is connected. Install the ends so that they are out of phase with each other.

That is, as shown in the example, when each of the heat exchange tubes 7, 6, 6 'is four, one end of the heat exchange tubes 7, 6, 6' is connected with a phase difference of 90 degrees. .

Outside of the heat exchanger tank 11, the cover 13 having an outlet 12 and the main heat exchanger tube 7 and the secondary heat exchanger tube 6 and 6 'of the heat exchanger 5 on one side of the body. A plurality of fan installation holes 14, waste gas inlet 15, and recess discharge outlet 16 are formed at positions corresponding to the dampers 17, respectively.

The vertical pipe (1) is supported by the respective brackets (19), (20) and bearings (21) at the upper and lower ends of the heat exchanger tank (11) as shown in FIG. When the vertical pipe (1) rotates is configured to be smoothly distributed without leaking cold water and hot water.

That is, as shown in Figs. 8 and 9, a plurality of holes 23 form perforated bushes 24, and the nipples 25 are screwed into the connection holes 26 on one side, and the inner peripheral surface The bush 24 is built in the guide valve 28 having the circular distribution groove 27 formed therein, and the upper and lower parts of the vertical pipe 1 are installed in the guide valve 28, and the pleats 50 and the support bearings 30 and 31 are installed. I support it.

One side of the heat exchanger tank 11 is provided with a plurality of fans 33 on the fan side 32 at regular intervals so as to be located in the fan installation hole 14, the drive cover 40 in the upper and lower drive shaft A sprocket 36 having a support shaft 35 and a support shaft 35 is installed to allow the conveyor chain 39 coupled with the plurality of sand buckets 38 to travel, and the fan 33 and the conveyor chain ( The partition 41 is provided between the 39, and a sand inlet 42 is formed at the upper portion thereof.

Worm 43 is disposed at the lower end of the fan shaft 32, and a pleat 44 is installed at the drive shaft 34, and the worm gear 45 and the pleated 46 are installed at one side thereof. Are coupled to each other by a belt (48).

In addition, the fleece 50 installed at the lower end of the vertical (pipe 1) is interlocked with the fleece 51 and the belt 52 provided on the fan shaft 32.

As shown in FIGS. 5 and 7, the heat exchanger tank 11 has a plurality of oil cylinders 53 and a vertical plate 55 having waterproof pieces 54 formed thereon to form a 45 ° angle. The upper plate 56 and the lower plate 57 formed by bending several times in accordance with the concave groove 58 and the concave portion 59 are welded, and the distribution hole 53 of each vertical plate 55 at this time is a seventh Let the positions intersect with each other, as shown in the diagram.

In addition, in the inclined surface 56 'of the bent portion formed in the upper plate 56, the water hole 60 is formed to be perforated in a state of 90 ° with the inclination angle so that the water of the collecting portion 62 can flow to the vertical plate 55. In this way, the upper plate 56 is welded into the dust removal tank 61 is formed as a collecting portion 62, the water supply pipe 63 is coupled to the dust removal tank 61.

On the bottom surface of the dust removal tank 61, a recovery port 64 is installed, and on one side, a duct connection 65 is formed to internally install a fan 66, and on the other side, a chimney 69 of the boiler 68. It forms an outlet 67 so as to be connected to, and is installed in the upper portion of the heat exchanger tank 11 and connected to the boiler 68 and the chimney 69 is mixed in the exhaust gas discharged from the boiler 68 Impurities (such as soot and sulfurous acid gas) that are present are bound to the vertical plate (55) is combined to be purified by the flowing water.

The operation of the present invention is explained below.

As shown in FIG. 1, the heat exchanger tank 11 and the dust removal tank 61 are installed in the chimney 69 installed in the boiler 68 so that the damper 70 installed in the chimney 69 is horizontal. When the exhaust gas and waste heat discharged from the boiler 68 are not discharged to the chimney 69, the exhaust gas and the waste heat are discharged to the chimney 69 through the heat exchanger tank 11 and the dust removal tank 61. .

At this time, the fan 66 installed on one side of the dust removal tank 61 is moved as a means to help the smooth circulation of waste heat, and the waste heat circulating inside the heat exchanger tank 11 heats the heat exchanger 5 in such a state. It is discharged while making.

In the circulating process, the cold water enters through a water supply pipe (not shown) connected to the nipple 25, and the primary heat exchange tube 7 and the secondary heat exchanger 5 of the heat exchanger 5, which are installed in the cold water distribution tube unit 2, in multiple stages. The heat exchange tubes 6 and 6 'are circulated, and as the temperature is circulated upward, the temperature is increased to warm up to the maximum temperature according to the internal temperature, so that the user can use warm water.

It is possible to have the maximum effect such that the cold water in the primary heat exchange tube 7 and the secondary heat exchange tube 6 and 6 'of the multi-stage heat exchanger 5 heated by the waste heat is 1 The primary heat exchanger tube (7) is circulated upwardly through the connecting tube (8), and the secondary heat exchanger tube (6) (6 ') is sequentially circulated in order to change the temperature of the water to a higher temperature. Because.

In addition, the exhaust gas and the waste heat circulated through the heat exchanger tank 11 are discharged through the dust removal tank 61 through the duct connecting portion 65. The waste heat introduced into the dust removal tank 61 is transferred to the vertical plate 55. When passing through or through the distribution hole 53 and passes through the distribution hole 53 of the first vertical plate 55, and then passes through the distribution hole 53 perforated in the vertical plate 55, the distribution hole 53 Since the installation positions of the mutually cross each other, the waste heat passing through the first distribution hole (53) eventually passes through the second distribution hole (54). 53).

Therefore, when passing through the distribution hole of the second vertical plate 55, the distribution hole 53 of the next vertical diaphragm is discharged to the chimney 69 as described above, but waste heat is removed as described above. When passing through the water collecting unit 62, the sedimented water 71 is already supplied from the water supply pipe 63, so the collected sedimented water 71 is drilled into the inclined surface 72 of the upper plate 56. Is returned to the vertical plate 55 as indicated by the arrow in FIG.

Here, the water flowing in the vertical plate 55 does not flow directly into the distribution hole 53 by the waterproof piece 54 formed at the upper portion of the distribution hole 53.

However, the spray phenomenon is generated by being scattered by the wind of the fan 56 and accordingly the waste heat circulating through the distribution hole 53 while passing through the dust removal tank 61 hits the vertical plate 55. The impurities including soot mixed in the waste gas while passing through the distribution hole 53 are mixed in the sedimented water 71 by the water flowing in the vertical plate 55 and the water of spray sprayed by the wind. Since it sits down, the waste gas discharged through the dust removal tank 61 is purified and discharged through the chimney 69.

In order to clean the heat exchanger 5 in order to prevent the formation of soot, carbon, scale, or rust in a corrosive state on the surface of the heat exchanger 5 according to the above-described action, by spraying sand using power The surface of the heat exchanger (5) is cleaned. In this cleaning, when power is supplied to the motor (M), the motor (M) rotates and the vertical pipe (1), the fan shaft (32), and the drive shaft ( 34).

However, the rotation speed is different and the fan shaft 32 rotates the fastest, and the vertical tube 1 and the drive shaft 34 on which the heat exchanger 5 is fixed are rotated slowly, and at the same time, the fan shaft 32 is fixed to the vertical tube 1. The sand bucket 38 connected to the heat exchanger 5 and the conveyor chain 39 of the drive shaft 34 and the plurality of built-in fans 33 rotate simultaneously.

At this time, one side of the conveyor cover 40 by installing a separate loading box for supplying sand (not shown) to install a sand supply unit (not shown) so that the sand of the loading box on the bottom side of the conveyor cover 40 sand It is supplied to the conveyor cover 40.

Accordingly, the rotating sand bucket 38 raises and transports the injected sand, and the transported sand partitions the sand contained while the sand bucket 38 is turned upside down when the sand bucket 38 rotates about the support shaft 35. It is poured into the sand inlet 42 of the upper end of the (41).

Accordingly, the sand to be poured is placed on the fan 66 which rotates at a high speed, or the heat of the heat exchanger 5 which is slowly rotating through the fan installation hole 14 of the heat exchanger tank 11 by the blades of the fan 66. It is strongly sprayed on the primary heat exchanger tube 7 and the secondary heat exchanger tube 6 and 6 ', causing friction, and cleaning is performed by decomposing carbon and soot accumulated in the heat exchanger 5. Dust such as carbon or soot, which is decomposed with sand and mixed with the frictional force that is scattered with sand, is discharged to the outside through a waste discharge port 16 formed at one side of the lower end of the heat exchanger tank 11.

As described above, according to the apparatus of the present invention, even though the heat exchanger tank 11 rotates, the cold water connection pipe (not shown) and the hot water supply pipe (not shown) fixed to the nipple 25 have the action of the bush 24 rotating therein. As the guide valve 28 is in a stopped state, the water flowing into the circular flow groove 27 and the hole 23 through the nipple 25 continues to flow through the flow hole 3 of the vertical pipe 1. Since it does not interfere with the rotation during the cleaning operation, it is possible not only to save fuel by using waste heat, but also to clean the polluted exhaust gas and clean nature.

Claims (2)

In the heat exchanger tank (11), a waste gas inlet (15) and a discharge outlet (12) are provided in the lower portion and a heat exchanger (5) is provided in the upper portion of the heat exchanger tank (11). The vertical (pipe 1) penetrates up and down to block the middle part, so that a plurality of distribution holes (3) are perforated in the cold water distribution tube (2), and the upper part of the hot water distribution tube (2) with holes for distribution (3). And a plurality of spiral primary heat exchange tubes (7) having a cold water inlet (9) connected to the cold water inlet tube (2), and one end connected to the other end of the primary heat exchange tube (7). ) And the other end is composed of a plurality of spiral secondary heat exchange tubes (6) (6 ') connected to the hot water distribution tube (2') by a connecting pipe (10), one side of the heat exchanger tank (11) Conveyor cover 40 which is connected in communication through fan installation hole 14 is installed and partitioned into diaphragm 41, and sand inlet 42 is formed in the upper part. The plurality of fans 33 and the conveyor chain 39 is fixed to a plurality of buckets (38) are installed to run up and down, and the water supply pipe 63 and the recovery port 64 in the upper portion of the heat exchanger tank (11) ), A dust maker 61 having a plurality of water pipes 60 and a vertical plate 55 having a plurality of waterproof pieces 54 and a pipe outlet 53 is formed between the upper plate 56 and the lower plate 57 having the water holes 60. Cleaning and dust removal device of the heat exchanger using the waste heat, characterized in that. According to claim 1, wherein the vertical pipe (1), the upper and lower ends of the heat exchanger tank (11) is supported by the brackets 19, 20 and the bearings (21) 22, and a plurality of holes ( The bush 24 is formed with a perforated bush 24, and the nipple 25 is screwed into the connection hole 26 on one side, and the bush 24 is provided in the guide valve 28 having a circular flow groove 27 formed on the inner circumferential surface thereof. Installed and built up on the top (bottom 1), the bottom of the installation, and cleaning and dust removal device of the heat exchanger using waste heat that is supported by the fleece (50) and the support bearing (30) (31).

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