KR950010096Y1 - Dust treating apparatus - Google Patents

Abstract

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Description

Dust Feed Processing Equipment

1 is an external perspective view of an eccentric injection hole mounted in the dust pumping apparatus according to the present invention.

2 is a block diagram of a dust pumping apparatus according to the present invention.

3 is a block diagram of a dust pumping apparatus according to the prior art.

4 is a detailed view showing the injection hole provided in the dust conveying apparatus according to the prior art.

* Explanation of symbols for main parts of the drawings

10a: External circumference 20: Eccentric ejector

21: injection hole 23: hole

30: first air passage 35: second air passage

40: compressed air flow path 110: dust collection tank

115: Cyclone 117: Bag Filter

119: air pressure pump 121: dust storage tank

The present invention relates to a device for transporting dust located in the lower part of the dust collector of the coke plant to the upper portion of the dust collector, more specifically, the pressure of air without clogging the dust discharged from the dust storage tank located in the lower part of the dust collection tank The present invention relates to a dust conveyance processing apparatus equipped with an eccentric injection port to improve dust collection efficiency by being transported to an upper part of a dust collector.

In general, the dust collector 100 of the coke plant has a structure as shown in FIG. The dust collector 100 includes a cyclone 115, a bag filter 117, a vacuum pump 119, and the like on an upper portion of the dust collecting tank 110. The dust storage tank 121 is located at the bottom. When the dust is discharged under the dust storage tank 121, the dust collector 100, the vacuum pump 118 sucks it into the cyclone 115 and the bag filter 117, and the cyclone 115 and The dust passing through the bag filter 117 is separated from the clean air (not shown) and dropped into the dust collecting tank 110 to be collected. In this process, the dust transporting tank from the dust storage tank 121 to the cyclone 115 and the bag filter 117 is made of a vacuum pump 118, so the inside of the bag filter (117)- Negative pressure of 2,200㎜Aq is formed to damage the interior and excessively generate noise more than 98DB.

The conventional technique devised to solve this problem is shown in FIG. In the conventional dust collector, an air pressure pump 119 is mounted in front of the dust storage tank 121, and a cyclone 115 and a bag filter 117 are mounted on the dust collection tank 110. The high-pressure air supplied from the pressure pump 119 is supplied through the injection port 130 fixed to the lower portion of the dust storage tank 121, and the injection air transports the dust falling down the dust storage tank 121 It was supplied to the cyclone 115 and the bag filter 117. By this system, the problems of the conventional bag filter 117 breakage problem and noise have been improved, but this has caused another problem.

The injection hole 130 used in the dust collector 100 has a centrifugal structure, and an outer circumferential surface 130a is formed integrally with the air supply pipe 119a, and the injection hole 130b of the tip portion is a dust storage tank ( It extended to the junction part 121c of the outflow pipe 121a of the 121 and the dust conveyance pipe 121b. However, the injection hole 130 is discharged into the space (P) between the outer surface (132b) of the injection hole (130b) and the inner surface (132c) of the dust transport pipe (121b) of the injection hole (130b) Dust (S) was deposited on the outer surface (132b) to reduce the space (P), positive (+) pressure generated in the injection hole (130b) to the outlet pipe 121a of the dust storage tank 121 It was influenced until the smooth dust conveying action through the space (P) is inhibited, thus reducing the dust collection efficiency.

The present invention has been devised to solve such a problem, to minimize dust deposition on the outer surface of the injection hole to secure the maximum dust discharge space, and by striking the dust to improve the dust collection efficiency due to the smooth discharge of dust. It is an object of the present invention to provide a dust pumping apparatus for improving.

In order to achieve the above object, the present invention is arranged such that an outer circumferential surface forms a predetermined interval with respect to the inner surface of the air supply pipe to form a first air flow path, and the injection hole is formed to be biased downward, and a plurality of holes are formed on the upper side surface By forming a second air flow path to prevent the accumulation of dust accumulated on the outer surface of the injection hole, and to provide a dust pumping treatment apparatus to achieve a smooth discharge operation of the dust.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

Dust pumping apparatus 1 of the present invention is equipped with an air pressure pump 119 in front of the dust storage tank 121, the air supply pipe 119a connected to the outlet pipe 121a of the dust storage tank 121 An eccentric injection port 20 in which both sides are mounted with a pair of brackets 15a and 15b is positioned so that the outer circumferential surface 10a forms a predetermined interval with respect to the inner surface 119a '. As shown in FIG. 1, the eccentric injection port 20 is formed with the injection hole 21 biased downward and a plurality of holes 23 formed in the longitudinal direction on the upper side. Therefore, when the injection hole 20 is mounted in the air supply pipe 119a, a first air flow path 30 is formed between the outer circumferential surface 10a and the inner side surface 119 ', and is formed through the hole 23. The two air flow paths 35 are formed, and the compressed air flow paths 40 are formed through the injection holes 21. In addition, the cyclone 115 and the bag filter 117 is located on the upper part of the dust collecting tank 110 as in the prior art.

According to the present invention configured as described above, when the dust is dropped from the outlet pipe 121a of the dust storage tank 121 and the air is supplied through the air pressure pump 119, the first air flow path 30 and the second air The small amount of air flowing through the flow path 35 causes the dust located above the injection hole 20 to float, and the air supplied through the pressure-feeding air flow path 40 of the injection hole 21 is The dust falling into the space P is transferred to the cyclone 115 and the bag filter 117. Therefore, the dust flow operation is smoothly performed by the flow of air through the first air passage 30 and the second air passage 35 prevents the deposition of dust.

In addition, the eccentric injection port 20 is because the injection hole 21 is located in the lower portion relative to the central axis, the outer surface 21a of the injection hole 21 and the inner surface 132c of the dust feed pipe 121b. The space (P) between the two is relatively large, the dust discharge operation is made more smoothly.

According to the present invention as described above, since the dust is easily discharged from the outlet pipe 121a of the dust storage tank 121 without being deposited, the dust transportation efficiency per hour is increased, and as a result, the dust collecting performance and efficiency have a practical effect. You get

Claims (1)

An air pressure pump 119 is mounted in front of the dust storage tank 121, and a cyclone 115 and a bag filter 117 are mounted on an upper portion of the dust collection tank 110 to discharge the dust storage tank 121. In the dust pumping apparatus for transferring the dust falling to the lower tube 121a to the cyclone 115 and the bag filter 117, the air supply pipe 119a connected to the outlet pipe 121a of the dust storage tank 121 Inside the outer circumferential surface (10a) forms a predetermined interval with the inner surface (119a ') to form a first air flow path 30, the injection hole 21 is formed to be biased to the lower side, a plurality of And an eccentric injection hole (20) for forming a hole (23) to form a second air passage (35).