KR100990492B1 - Injector for bag filter of dust collector - Google Patents

Abstract

PURPOSE: An injector for a bag filter is provided to discharge suctioned gas through an outlet of the injector by increasing the quantity of the suctioned air to an inlet of the injector with the compressed gas of an injection nozzle. CONSTITUTION: An injection nozzle(21) injects compressed gas from one side of the lower side of an injection pipe(20) downwardly. In a ring-shaped chamber unit(30), at least one compressed gas inlet(41) is formed on the upper side of a preliminary chamber(31). A body unit(40) includes an inlet and an outlet. The compressed gas and the inhaled gas are inputted to the inlet of the upper side of the body unit. The compressed gas and the inhaled gas are discharge through the outlet of the lower side of the body unit.

Description

Injector for Bag Filter {Injector for Bag Filter of Dust Collector}

The present invention relates to an injector for a bag filter, which is provided in a dust collector for collecting and filtering dust from dust gas using a bag filter provided inside the housing, and used to remove dust deposited on an outer surface of the bag filter. Specifically, the present invention relates to a bag filter injector, in which a compressed gas is supplied to an injector for a bag filter from an injection pipe provided on an upper side of the bag filter, such that a large amount of suction gas is injected into the bag filter along with the compressed gas to an outlet of the injector. .

Dust collector is one of the air purifiers installed in the workplace where a large amount of dust is discharged and collects pollutants such as floating dust contained in the air and purifies it with clean air and discharges it to the outside.

As such, the dust collector generally filters contaminated air through the bag filter to filter out contaminants and discharge clean air to the outside, while the upper injection nozzle injects compressed gas to the bag filter to remove the pollutants collected in the bag filter. This prevents clogging of the bag filter and increases the efficiency of purification.

As a conventional bag filter injector, Korean Patent Registration Nos. 10-0584101 and 10-0718708 are published and posted, and each of the bag filter injectors is posted in FIGS. 1 and 2. The conventional bag filter injector has a problem that the clogging phenomenon of the bag filter is not solved because the dust extraction force for the bag filter is weak because the injection nozzle is integrally formed in the injection pipe and simply injects the compressed gas into the first stage. 1 and 2, the conventional bag filter injectors 200 and 300 disclosed in FIG. 1 and 2 are spray tubes 210 and 210 'using a Coanda Effect that adsorbs to a surface when a fluid flows through a curved surface. The suction of the surrounding fluid together with the compressed gas flowing in the) to discharge to the bag filter 250, thereby improving the dust removal efficiency of the bag filter 250.

Particularly, in the case of the injector for the bag filter of FIG. 2, the body part 310 and the annular chamber part 360 are formed, and the body part 310 has a hollow structure in which a suction target gas inlet 330 is formed at an upper portion thereof. The injection pipe 210 'is coupled to the side surface, and the upper part of the body portion has an annular prechamber 320 in which a nozzle slot 340 is formed toward the suction target gas inlet, and communicates with the injection pipe at one side of the prechamber. An annular chamber 360 including a compressed gas inlet 350 is formed so that at least one is formed, the lower nozzle side of the injection pipe penetrated by the body portion injection nozzle 220 for injecting the compressed gas downward Is formed.

Looking at the flow path of the injector 300 of the compressed gas and the suction gas, the compressed gas is introduced into the preliminary chamber 320 through the compressed gas inlet 350 from the injection pipe (210 '). When the inside of the preliminary chamber 320 is saturated due to the compressed gas introduced, the compressed gas is injected at a high speed toward the suction target gas inlet 330 through the nozzle slot 340. The injected compressed gas is supplied downward along the front surface of the inner circumferential surface of the body part by the Coanda effect, and a downward airflow is formed in the body part 310, and thus the surrounding air existing in the upper part of the body part 310 is formed in the body part. Is sucked into the interior.

In addition, an injection nozzle 220 is formed in the injection pipe 210 'penetrating to the side of the body portion, and compressed gas is also injected through the injection nozzle 220, and a nozzle along with ambient air is provided at the outlet of the injector for the bag filter. Compressed gas passing through the slot 340 and the compressed gas injected from the injection nozzle 220 are supplied to the inside of the bag filter located at the lower side, and a downdraft is formed on the upper part of the bag filter 250, thereby coanda injector Peripheral air existing between the bag filter 250 and the bag filter 250 is sucked into the bag filter 250. The compressed gas and the ambient air supplied into the bag filter vibrate the bag filter 250 to remove contaminant particles on the outer circumferential surface of the bag filter. Tally off.

However, in the conventional bag filter inject as described above, the injection nozzle of the injection tube is located under the inlet of the gas to be sucked in the bag filter inject, so that the amount of intake of the ambient air due to the compressed gas injected from the injection nozzle is small. The suction effect is reduced by half, and the injection pipe is coupled through the side surface of the injector body 310, there is a problem that the replacement operation during the replacement due to aging due to use, after the installation of the injector is not easy,

In addition, the connection portion with the body portion extending from the lower side of the annular chamber portion is coupled to be bent almost vertically, so that the cross-sectional shape of the body portion is also formed in the same cross-sectional area of the intake air and the compressed gas inlet and outlet into the bag filter There is a problem in that the amount of inflow does not completely eliminate the clogging of the bag filter.

Accordingly, the present invention has been made in order to solve the above problems, by increasing the amount of suction to the injector inlet of the surrounding air due to the compressed gas injected from the injection nozzle of the injection pipe more suction gas through the outlet of the injector To be discharged, to facilitate the replacement of the injector to the injection pipe,

In addition, by increasing the speed of the exhaust gas passing through the outlet of the injector to allow more ambient air to flow into the bag filter with the exhaust gas passing through the outlet of the injector to improve the dust removal effect on the bag filter. do.

In one embodiment of the present invention, a plurality of bag filters 10 for collecting the dust particles introduced therein are provided in the housing, and the injection pipe 20 for injecting the compressed gas supplied from the outside is provided with the bag filter 10. In the dust collector provided to be spaced apart at a predetermined interval on the upper portion, the injection nozzle 21 for injecting compressed gas downward is formed on one side of the lower portion of the injection pipe 20, the injection nozzle 21 of the injection pipe 20 It is provided in the lower portion of the injection pipe 20 so as to be located in the center of the annular, the annular pre-chamber 31 is provided with a nozzle slot 32 along the inner circumferential surface, the injection pipe 20 An annular chamber portion 30 having at least one compressed gas inlet communicating with the preliminary chamber 31; And an inlet 41 extending downwardly of the annular chamber part 30, an inlet 41 through which compressed gas and a suction gas are introduced, and an outlet 42 through which the compressed gas and the suction gas are discharged. The body portion 40 is provided to be formed in a hollow structure; wherein the body portion 40, the gas passage in the body portion 40 is passed through the inlet 41 to the outlet 42 It provides an injector for a bag filter, characterized in that the cross-section is gradually formed to be curved.

In the injector for a bag filter of one embodiment of the present invention, the annular chamber portion 30 may be formed such that a pair of the compressed gas inlets 33a and 33b face each other,

In addition, a pair of coupling bolts 34a and 34b are formed on the lower surface of the annular chamber part 30 so as to face each other, and a guide part through which the coupling bolts 34a and 34b are guided through and coupled to the lower side thereof. 51 and the bolt coupling hole 52 is formed, the middle portion is formed to be bent vertically, the other side is bent vertically positioned in the upper injection pipe coupling hole 53 through which the injection pipe 20 is coupled A pair of fixing plate 50 is formed; may be configured to further include,

The body portion 40, the radius of the outlet 42 is formed to be shorter than the radius of the inlet of the bag filter 10 inlet for the compressed gas and suction gas provided on the upper portion of the bag filter 10 is introduced It may be.

In the injector for a bag filter according to the present invention, the position of the injection nozzle of the injection pipe is placed on the upper side of the inlet through which the gas flows into the injector body part, so that the compressed air injected from the injection nozzle of the injection pipe into the injector inlet port of the surrounding air. By increasing the suction volume, more suction gas can be discharged through the outlet of the injector,

It is easy to replace the injector for the bag filter, so that the repair and maintenance work can be performed conveniently.

In addition, the cross section of the gas passage inside the body leading from the inlet to the outlet is gradually reduced in curvature to increase the speed of the exhaust gas passing through the outlet of the injector so that more ambient air passes through the outlet of the injector. As the gas flows into the bag filter, the dust removal efficiency of the bag filter is improved.

DETAILED DESCRIPTION Hereinafter, embodiments of the present invention in which the above object can be specifically realized are described with reference to the accompanying drawings. In describing the embodiments, the same names and symbols are used for the same components, and additional description thereof will be omitted below.

1 is a main view showing a dust extraction structure of a bag filter using a bag filter injector according to a first embodiment of the prior art, and FIG. 2 is a bag filter using a bag filter injector according to a second embodiment of the prior art. This is a main part of the exhaust structure of

In addition, Figure 3 is a perspective view of the bag filter injector according to the present invention, Figure 4 is a main view showing the dust extraction structure of the bag filter using the bag filter injector of Figure 3, Figure 5 is a bag filter for Figure 3 It is a perspective view which shows the fixing plate 50 among injectors.

As shown in Figure 3, the injection pipe 20 for injecting the compressed gas supplied from the outside is installed at a predetermined interval on the upper portion of the bag filter 10 installed in the plurality of housings inside the dust collector, the minute The injection nozzle 21 of the yarn 20 is positioned at the upper center portion of the body inlet 41 so that the injector for the bag filter of the present invention is fixed to the injection tube 20.

The injector for the bag filter according to the present invention is largely connected to the annular chamber portion 30 connected in communication with the injection pipe 20 through the compressed gas inlets 33a and 33b and to the lower side of the annular chamber portion 30. It consists of a hollow body portion 40 is formed to extend, the inject is installed so that the injection nozzle 21 of the injection pipe 20 is located in the upper center of the body portion inlet (41).

The annular chamber portion 30 is located on the lower surface of the injection tube 20, is installed so that the injection nozzle 21 of the injection tube 20 is located in the center of the annular, and extends on the upper portion of the body portion 40 On the upper surface of the annular prechamber 31, a pair of compressed gas inlets 33a and 33b are formed to be opposed to each other so as to communicate with the injection tube 20 at the lower portion of the injection tube 20.

The preliminary chamber 31 is formed with a nozzle slot 32 to be inclined toward the inner side of the annular, the lower surface of the annular prechamber 31 is formed with a pair of coupling bolts (34a, 34b) facing each other, Coupled with a pair of fixed plates 50, the inject is installed in the lower portion of the injection pipe (20).

That is, the lower portion of the fixing plate 50 is formed with a guide portion 51 and the bolt coupling portion, the middle portion is formed to be bent vertically, the middle portion is bent vertically to the other side is located in the upper injection pipe 20 The injection pipe coupling hole 53 through which the coupling is formed is formed. In order to mount the injector to the injection pipe 20, the injection pipe 20 is first coupled through the injection pipe coupling hole 53, and coupling bolts 34a and 34b formed on the lower surface of the preliminary chamber 31. ) Is seated in the bolt coupling hole 52 while being guided by the guide 51, and then is coupled to the fixing plate 50 by coupling the nut to the coupling bolts 34a and 34b, and opposite coupling bolts 34a and 34b. By coupling the fixing plate 50 to the injection pipe 20 in the same manner as described above, the injector 100 can be firmly mounted to the injection pipe 20 through the pair of fixing plates 50. In addition, during the replacement operation of the injector 100 can be detached in the reverse order of the mounting it is possible to easily perform maintenance work.

In addition, an inlet 41 through which the compressed gas and the suction gas is introduced is provided at an upper portion of the body portion 40 extending to the lower portion of the annular chamber portion 30, and the compressed gas and the suction gas are discharged at the lower portion thereof. The outlet 42 is provided in a hollow structure, the gas passage section inside the body portion 40 which is penetrated from the inlet 41 to the outlet 42 is gradually reduced so that the body portion 40 The longitudinal section of the inner passage is formed to form a pair of symmetrical curves.

A process in which the compressed gas injected from the injection pipe 20 is discharged to the bag filter 10 through the injector 100 is described. When the compressed gas is supplied through the injection pipe 20, the compression gas formed in the prechamber 31 is compressed. Compressed gases flow into the gas inlets 33a and 33b, respectively. When the interior of the preliminary chamber 31 becomes saturated due to the inflow of the compressed gas, the compressed gas is injected into the inlet 41 formed in the upper portion of the body portion 40 through the nozzle slot 32 while the body portion is formed by the Coanda effect. (40) Compressed gas is supplied downward along the curve of the inner circumferential surface, and compressed gas is also injected downward at a high speed even in the injection nozzle 21 formed in the lower portion of the penetrating injection tube 20.

At this time, through the injection nozzle 21 of the injection pipe 20 located in the upper portion of the body inlet 41 with the nozzle slot 32, compressed gas is injected into the inlet 41 of the body at the same time at a high speed, thereby a strong drop Air flow is formed in the inlet 41 of the body portion is to be sucked into the large body portion 40 under the influence of the strong air flow to the ambient air existing on the upper side of the body portion 40.

The compressed gas and the suction gas introduced together into the inlet 41 of the body part are different from those in which the gas passage cross section of the body part 40 has the same cross-sectional area of the inlet 41 and the outlet 42 of the body part in the related art. The shape of the gas passage of the body portion 40 of the bag filter injector according to the present invention is provided so that the cross section of the gas passage in the body portion 40 which is penetrated from the inlet 41 to the outlet 42 is gradually reduced. To form a pair of curves in which the longitudinal section of the inner passage of the body portion 40 is symmetrical so that the compressed gas and the suction gas flow into the inlet 41 and gradually decrease in the cross section until the outlet 42 passes through the outlet 42. This causes the speed to increase rapidly and is discharged. In this way, the rapidly increased compressed gas and the suction gas is discharged through the outlet 42 of the body portion, and at the same time to form a stronger air flow than the conventional injector, by re-absorbing the ambient air of the bag filter 10 again the bag filter together (10) will be introduced into the interior.

Compressed gas and suction gas introduced into the bag filter 10 generate a strong shock wave inside the bag filter 10 to vibrate the inside of the bag filter 10, and the vibration of the outer circumferential surface of the bag filter 10 by such vibration. It is possible to desorb contaminant particles.

In this way, the bag filter injector according to the present invention by forming a strong air flow than the conventional bag filter injector, it is possible to suck a large amount of ambient air into the bag filter 10 inside the bag filter 10 The dust removal efficiency is increased, the life of the bag filter 10 can be extended, and maintenance costs can be reduced.

Although some embodiments have been described above by way of example, it will be apparent to those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope thereof.

Accordingly, the above-described embodiments should be considered as illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are included within the scope of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a main view showing a dust removal structure of a bag filter using an injector for a bag filter according to a first embodiment of the prior art;

2 is a main view showing a dust removal structure of a bag filter using an injector for a bag filter according to a second embodiment of the prior art;

3 is a perspective view of an injector for a bag filter according to the present invention;

4 is a main view showing a dust removal structure of the bag filter using the injector for the bag filter of FIG. And

FIG. 5 is a perspective view of the fixing plate 50 of the bag filter injector of FIG. 3.

Explanation of symbols on the main parts of the drawings

10: bag filter 20: injection pipe

21: injection nozzle

30: annular chamber portion 31: preliminary chamber

32: nozzle slot 33a, 33b: compressed gas inlet

34a, 34b: combined bolt

40: body portion 41: inlet

42 outlet

50: fixed plate 51: guide

52: bolt coupling hole 53: injection pipe coupling hole

100: Injector for Bag Filter

Claims (4)

A plurality of bag filters 10 are installed in the housing to collect the dust particles introduced therein, and the injection pipes 20 for injecting the compressed gas supplied from the outside are spaced apart from each other by a predetermined interval on the top of the bag filter 10. In the dust collector, An injection nozzle 21 for injecting compressed gas downward is formed at one lower side of the injection tube 20, An annular prechamber provided at a lower portion of the injection tube 20 so that the injection nozzle 21 of the injection tube 20 is located at the center of the annular shape, and the nozzle slot 32 is provided along the inner circumferential surface thereof. 31 is formed, the annular chamber portion 30 is formed in the upper portion of the pre-chamber 31 at least one or more compressed gas inlet communicating with the injection pipe 20; On the lower surface of the annular chamber portion 30, a pair of coupling bolts 34a and 34b are formed to face each other, A guide portion 51 and a bolt coupling hole 52 through which the coupling bolts 34a and 34b are guided and penetrated are formed on one side of the lower side, and an intermediate portion is formed to be bent vertically, and is vertically bent and positioned at the top. A pair of fixed plates 50 on which the injection pipe 20 is formed, the injection pipe coupling hole 53 through which the injection pipe 20 is coupled; And It is formed extending to the lower side of the annular chamber 30, the inlet 41 is provided with a compressed gas and suction gas in the upper portion, the outlet 42 is provided in the lower portion is discharged the compressed gas and the suction gas Body portion 40 formed of a hollow structure; configured to include, The body portion 40, Injector for a bag filter, characterized in that the inlet 41 is formed in a curved surface to gradually reduce the cross section of the gas passage in the body portion 40 is passed through the outlet (42). The method of claim 1, The annular chamber portion 30, Injector for a bag filter, characterized in that the pair of compressed gas inlet (33a, 33b) is formed to face each other. The method of claim 1, The body portion 40, Bag outlet injector, characterized in that the radius of the outlet 42 is formed shorter than the radius of the inlet opening of the bag filter 10, the compressed gas and the suction gas is provided on the upper portion of the bag filter 10 . delete

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