KR100770181B1 - Multi-function baffle damping system in bag filter type dust collector - Google Patents

Abstract

A multi-functional baffle damping apparatus is provided to prevent the partial abrasion or the abnormal abrasion of a filter bag and suppress the reattachment of dust in a dust removal state, and to reduce fixing cost by increasing life and exchange period due to manage uniformly the filter bag. A plurality of baffle plates(20) are disposed above a chamber body at a predetermined interval, wherein each of the baffle plates has a plurality of air holes(39) for air moving paths. A shaft(23) is installed in the center portion of the baffle plate in parallel with the baffle plate, wherein the shaft has the hollowness for a moving path of exhaust gas. A damping unit is installed at one end of the shaft. Nozzles(36) are installed at both ends of the shaft such that the nozzles communicate with each other. The exhaust gas is inputted and outputted through the nozzles.

Description

Multifunctional baffle damping device employed in bag filter dust collector {MULTI-FUNCTION BAFFLE DAMPING SYSTEM IN BAG FILTER TYPE DUST COLLECTOR}

1 is a main configuration diagram of a bag filter dust collector to which the present invention is applied.

Figure 2 is a schematic diagram showing the configuration of a multifunctional baffle damping device employed in the bag filter dust collector according to the present invention in FIG.

3 is a view showing that the baffle plate maintains a horizontal composition and generates damping and baffle action when the dust collector is in a normal dust collecting state.

Figure 4 shows that the baffle plate provides a moving space so that the dust collected can be settled smoothly to the bottom when the dust removal action occurs in the dust collector.

<Description of the symbols for the main parts of the drawings>

7. Chamber Body

9. Cylinder

18. Connecting rod

19. Bracket

20. Baffle Plate

23. Shaft

30. Bearing

31,32. Solenoid valve

36. Nozzle

39.Air Hole

40. Moving tool

The present invention relates to a multifunctional baffle damping device employed in a bag filter dust collector, and more particularly, to be mounted in a dusty air room of a bag filter dust collector, to improve the efficiency of the dust collector, and to reduce maintenance costs. The present invention relates to a multifunctional baffle damping device employed in a bag filter dust collector.

Recently, as a method of improving dust collection efficiency and pursuing economics in terms of equipment investment, maintenance and management costs, a filtering technique using ceramic materials has been theoretically established. 0035184 discloses a specific configuration of a filter for a dust collector.

By the way, the conventional baffle apparatus has a configuration in which the drifting phenomenon adjustment action is insufficient, preventing the reattachment of the dust after exhaustion, and the temperature raising action inside the dusty air room.

As a result, uneven and abnormal wear of the dust collector bag occurs, and dust collection and dust removal efficiency due to a caking phenomenon on the surface of the bag is reduced.

That is, in the related art, the flow of the impregnated gas is faster at the inlet duct inlet and slower at the opposite side.

In addition, problems such as dust collection and dedusting efficiency decrease due to a caking phenomenon on the surface of the bag, and clogging of the bag due to dust scattering after dust removal, have made it difficult to maintain and manage the dust collecting equipment.

And during the rainy season, the moisture penetrates through the hood part installed at the place of the oscillation source, or when transporting the wet coke digested by the wet method, the moisture penetrates through the hood part so that the temperature is low and humid. In the case where the dust-containing gas is collected in the dusty air room of the dust collector, dust is caulked on the bag surface by moisture, and thus clogging occurs, and dust collection and dedusting efficiency decreases.

The present invention was created in order to solve the above problems, the re-attachment phenomenon of the floating dust is prevented, and the drift phenomenon is provided by the drift phenomenon adjusting means to prevent the drift phenomenon, to prevent the drift phenomenon, the waste gas Move to enable the temperature increase action inside the dusty airroom, prevent the reattachment phenomenon that the settled dust and the floating dust are attached to the bag again, and the dust collection and dust removal by the caking phenomenon formed on the bag surface It is an object of the present invention to provide a multifunctional baffle damping device employed in a bag filter dust collector to prevent the efficiency from being lowered.

Multifunctional baffle damping device employed in the bag filter dust collector of the present invention for achieving the above object, the chamber body to be provided with the inlet duct on one side so that the dust air is collected, and the upper end of the chamber body A dusty air room having a clean air room and an outlet duct respectively disposed thereon, a plurality of filter bags installed at regular intervals in the dusty air room, and the chamber body or the dusty air room. In the multi-function baffle damping device employed in the bag filter dust collector equipped with a PSI provided to control the installed accessory, a plurality of the baffle damping device is installed at a predetermined interval on the upper side of the chamber body, each air hole for the impingement air movement passage A plurality of baffle plates formed; A shaft installed in parallel with the baffle plate at a central portion of the baffle plate and formed to be hollow so as to form a movement passage of waste heat gas; A damping device installed at one end of the shaft to cause a damping action; And nozzles installed in communication with both ends of the shaft to allow waste heat gas to be introduced and discharged.

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

FIG. 1 illustrates a main configuration of a bag filter dust collector according to the present invention, and FIG. 2 schematically illustrates a configuration of a multifunctional baffle damping device employed in FIG. 1.

Referring to each of the drawings, first, the bag filter dust collector has a chamber body 7 provided with an inlet duct 10 on one side so that dust air is introduced, and the dust 34 is collected, and the chamber body 7 It is installed at the upper end, and the dusty air room 2 and the dusty air room 2, each of which is provided with a clean air room 3 and an outlet duct 12 to discharge the clean air thereon, and the dusty air room 2 at regular intervals. A computer (29) for controlling a dog-mounted filter bag (4) and accessories such as a solenoid valve (16) and an outlet damper cylinder (11) installed in the chamber body (7) or dusty air room (2). Is connected to and provided with a PLC (27).

Multifunctional baffle damping device employed in the bag filter dust collector configured as described above, as shown in Figure 2, the chamber body 7 is provided with a plurality of predetermined intervals on one side, each of the rectangular air moving passage for A baffle plate 20 having a plurality of air holes 39 and a shaft 23 formed in parallel with the baffle plate 20 at a central portion of the baffle plate 20 and formed in a hollow so as to form a moving passageway of waste heat gas. ), A damping device installed at one end of the shaft 23 to cause a damping action, and a nozzle 36 installed in communication with both ends of the shaft 23 to install and discharge waste heat gas. It is configured by.

The damping device includes a cylinder (9), one end of which is connected to a cylinder rod (37) of the cylinder (9) and a connecting table (18) installed across one side of the baffle plate (20), and the connecting table (18) is shafted. It is configured to include a bracket (19) installed to be connected to each of (23).

And bearings 30 are installed at both ends of the shaft 23. In addition, the nozzles 36 are provided with solenoid valves 31 and 32 for controlling waste heat gas. In addition, at the edge of the baffle plate 20 is provided with a moving port 40 to move the waste heat gas.

In addition, the 'impact-containing air moving hole' (air hole 39) of the baffle plate 20 is provided with a constant cross-sectional area and is sequentially installed, and specifically, the cross-sectional area is increased by 3%.

More specifically, as shown in FIG. 1, seven baffle plates 20 are arranged at regular intervals, and a cross-sectional area of the air holes 39 of the baffle plate 20 is formed in the inlet duct 10. From the first adjacent baffle plate 20a to 60%, 63%, 66%, 69%, 72%, 75%, 78% of the cross-sectional area of the baffle plate 20, respectively.

In addition, as shown in Figure 1, one side of the dusty air room (2) by installing an accessory, a thermometer 21 to enable the detection of the internal temperature, the thermometer 21 is in the PIL 27 Connected.

As described above, using the bearing 30 installed at both ends of the shaft 23, the chamber body 7 is fixedly installed in a horizontal manner, and one side of the shaft 23 equipped with such a structure has a bracket 19 and a connecting table. By using the 18 to connect with the cylinder rod 37, the damping action is generated by the expansion and contraction action of the cylinder (9).

In addition, the inlet side solenoid valve 31 and the outlet side solenoid valve 32 are respectively installed in the nozzle 36 so that the waste heat gas enters the inside of the baffle plate 20 by an electrical signal and is heated up.

In addition, the seven baffle plates 20 are sized to cover the dusty airroom 2 in a horizontal composition, and the cylinder 9 for operating the baffle plate 20 is one set for each chamber body 7. From the outside, the shaft 23 is integrated by the connecting table 18 and the bracket 19.

Meanwhile, FIG. 3 shows that the baffle plate 20 maintains a horizontal composition and generates damping and baffle action when the dust collector is in a normal dust collecting state, and FIG. 4 shows that the baffle plate 20 is in the dust collector. It has been shown to provide a moving space so that the dust dust is settled smoothly to the bottom when the dust removal action occurs.

Referring to the operation of the multifunctional baffle damping device employed in the bag filter dust collector according to the present invention having the configuration as described above are as follows.

Referring back to the drawings, the multifunctional baffle damping device employed in the bag filter dust collector according to the present invention, when the dust collector is a normal dust collecting operation, as shown in Figure 1, the baffle plate 20 covers the dusty air room 2 in a horizontal composition Thus, the impregnated air is passed through the airbag 39 through the filter bag 4 in the dusty air room 2, and then moved to the clean air room 3.

At this time, the cross-sectional area of the air hole 39 of the baffle plate 20 is the first baffle plate 20a adjacent to the inlet duct 10 in order to prevent the impregnated air from causing a drift phenomenon near the inlet duct 10. 60%, 63%, 66%, 69%, 72%, 75%, and 78% of the cross-sectional area of the baffle plate 20, respectively, to maintain the equilibrium across the entire baffle plate 20 without drifting. This prevents the filter bag 4 from abrasion or abnormal wear due to the drift.

When the dust collection action is sequentially generated during the dust collection operation, first, as shown in FIG. 1, an electric control command is applied from the cylinder 27 to the cylinder 9 to contract the cylinder rod 37. 18) the bracket 19 is converted to a diagonal composition.

Accordingly, the space between the baffle plate 20 is formed by converting the baffle plate 20 into a vertical composition as a whole, and the settling of the collecting dust 34 exhausted into the space is possible.

After the space forming action between the baffle plates 20 is completed, the PIC 27 recognizes this and commands the outlet damper cylinder 11 to control the extension action according to the sequence control sequence. The plate 22 is closed. As a result, the impregnated air is trapped in the dust air room 2.

When the control action is completed, the solenoid valve 16 is opened by the electrical excitation action as the open action is sequentially applied to the solenoid valve 16 at the PEL 27 again. (6) is stored in the high pressure air via the air supply pipe (8) and the diaphragm valve (15), and then through the air injection nozzle (25) in the blow tube (5), venturi Through 24, the filter bag 4 is introduced into the filter bag 4 so that a dust removal action is generated.

When it is recognized that the dust removal action is completed in the PIL 27, the inlet duct 10 side of the dust collector is operated in an online manner to maintain the open state even when the dust removal action occurs.

Therefore, the dust collected in the sedimentation state and the dust in the suspended dust state are reattached to the filter bag 4 at the same time due to the dust removal action at the initial conversion to the dust collection mode. To this end, an extension action is generated in the cylinder 9 to close the baffle plate 20, and the outlet damper cylinder 11 is opened by causing a contraction action to be prevented from reattaching the dust in the exhausted state. .

When the weather changes from the normal dust collection state to the rainy condition or the wet coke is extinguished and transported to the wet coke state, moisture is collected through the dust collection hood mounted on the oscillation source of the transport belt conveyor. The containing impregnated air is introduced into the dust collector.

Then, the atmosphere is switched to a state in which dew point is formed by the atmosphere of the low temperature and high humidity in the dust air room 2, whereby dust is clogged by the surface of the filter bag 4 due to the caking effect. By causing to generate a problem that the efficiency of the dust removal and dust collection action is sharply lowered.

Conventionally, in order to prevent such a phenomenon, the problem has been solved by reducing the damper opening ratio of the fan to minimize the effect. At this time, the secondary problem, that is, the wetness due to the failure to improve the dew point formation atmosphere fundamentally The collection dust 34 in the dust state is fixed inside the dusty air room 2, so that it is impossible to discharge to the outside through the rotary valve 17.

In order to solve the problem as described above, the present invention provides a nozzle 36 at the side end of the baffle plate shaft 23 provided with the cylinder 9, as shown in FIG. One set of the inlet solenoid valve 31 was provided so that inflow of waste heat gas could be performed by an electrical signal, and the discharge side solenoid valve 32 was provided on the opposite side.

Accordingly, when it is detected that the atmosphere is switched to a state where the dew point is formed by the low temperature and humid atmosphere inside the dusty air room 2 through the thermometer 21 in the PIL 27, the waste heat gas is baffle plate. Through the moving port 40 of the waste heat gas installed in (20).

Thus, by raising the atmosphere inside the dust air room 2 to prevent the dew point generation phenomenon, the problem is fundamentally eliminated.

The baffle plate of the ceramic material as described above can be formed to form a finely stacked plate in a honeycomb structure by using the characteristics of the material in addition to forming the air hole 39, it is possible to form a variety of air flow paths, It is possible to precisely adjust the ratio of the flow path in the total area of the baffle plate 20.

This results in an action that makes it possible to ideally improve the drift.

As described above, the multifunctional baffle damping device employed in the bag filter dust collector according to the present invention has the following effects.

It is possible to prevent the filter bag from being abrasion or abnormal wear due to the drift, to prevent reattachment of the dust in the exhausted state, dust is caused by clogging due to the caulking of the dust on the surface layer of the filter bag dust exhaustion And the problem that the efficiency of dust collection operation falls rapidly can be solved.

Accordingly, it is easy to maintain and manage the dust collector, and it is possible to improve the efficiency of the dust collector by automatically making it possible to reduce the efficiency of the dust collector due to the facility management by visual observation of the operator, and to uniformly manage the filter bag. As a result, the service life is reduced and the replacement cycle is also extended, thereby reducing maintenance costs.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments are possible. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

Claims (11)

Inlet duct is provided on one side so that dust air is introduced, and a dust chamber is installed at the upper end of the chamber body, and a clean air room and an outlet duct are respectively provided on the upper portion of the chamber body to discharge dust. Multifunctional baffle damping device employed in the bag filter dust collector having an air room, a plurality of filter bags installed in the dusty air room at regular intervals, and a PSI provided to control the chamber body or an accessory device installed in the dusty air room. To A plurality of baffle plates installed on one side of the chamber body at predetermined intervals, each of which includes a plurality of air holes for the air moving passages included therein; A shaft installed in parallel with the baffle plate at a central portion of the baffle plate and formed to be hollow so as to form a movement passage of waste heat gas; A damping device installed at one end of the shaft to cause a damping action; Multi-function baffle damping device employed in the bag filter dust collector, characterized in that it comprises a nozzle installed in communication with both ends of the shaft inlet and discharge waste heat gas. The method of claim 1, The baffle plate is a multifunctional baffle damping device employed in the bag filter dust collector, characterized in that consisting of a square. The method of claim 1, The damping device, A cylinder; A connecting rod having one end connected to the cylinder rod of the cylinder and installed across one side of the baffle plate; Multifunctional baffle damping device employed in the bag filter dust collector, characterized in that it comprises a bracket installed to connect the connecting rod to the shaft, respectively. The method of claim 1, Multifunctional baffle damping device employed in the bag filter dust collector, characterized in that the bearing is installed at both ends of the shaft. The method of claim 1, Multifunctional baffle damping device employed in the bag filter dust collector, characterized in that the nozzle is provided with a solenoid valve for controlling the waste heat gas. The method of claim 1, Multifunctional baffle damping device employed in the bag filter dust collector, characterized in that the moving hole for moving the waste heat gas is installed on the edge of the baffle plate. The method of claim 1, Multi-function baffle damping device employed in the bag filter dust collector, characterized in that the air hole of the baffle plate has a constant cross-sectional area and the baffle plate is sequentially installed. The method of claim 7, wherein Multifunctional baffle damping device employed in the bag filter dust collector, characterized in that the cross-sectional area is increased by 3%. The method of claim 8, The baffle plate is arranged seven times at regular intervals, of which the air hole of the first baffle plate adjacent to the inlet duct is provided to be 60% of the cross-sectional area of the baffle plate dust collector employed in the multi-function bag filter Baffle Damping Device. The method of claim 1, Multi-function baffle damping device employed in the bag filter dust collector, characterized in that the one side of the dusty air room by installing a thermometer as the accessory to detect the internal temperature, the thermometer is connected to the PI. The method of claim 1, The baffle plate is a multifunctional baffle damping device employed in the bag filter dust collector, characterized in that made of ceramic.

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