JP2011183267A - Dust collector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a dust collector which can discharge dust so that a dust discharge port is not buried by the dust, and can improve the operating ratio without need of frequent cleaning operation. <P>SOLUTION: In a dust collector where air containing dust F is introduced into a housing 3, the dust F is trapped by a dust trapping filter 2 provided in the housing 3, air not containing the dust F is discharged from an air discharge port 8, and the dust F is dropped from the dust discharge port 4 of a hopper 5 provided below the dust trapping filter 2, an air intake port 9 for taking air into the hopper 5 is provided in the side wall 5b of the hopper 5. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a dust collector that introduces air containing dust into a housing and captures the dust with a filter.

  For example, a dust collecting device that filters air containing dust and separates it into air and dust is provided with a filter for capturing the dust (for example, described in Patent Documents 1, 2, and 3). . Air and dust are separated by causing the filter to capture dust.

JP 2000-254426 A JP 2002-2955 A JP 2003-225523 A

  By the way, when dust is captured by the filter, if the amount of dust is fine or separated, the filter is clogged, and the dust sticks around the filter and grows and falls. The lump of dust falling from the filter is discharged to the outside from a dust discharge port of a hopper provided below the filter, but accumulates on the inner wall surface after a long period of use. When a large amount of dust is accumulated on the inner wall surface, the dust may slide down along the inner wall surface and the dust discharge port may be filled up.

  When the dust discharge port is filled with the dust lump, the machine must be stopped and cleaned, and the cleaning work needs to be frequently performed. Therefore, the dust collection work efficiency is deteriorated, and the operation rate of the dust collector is lowered.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a dust collector that can discharge dust so that the dust discharge port is not filled with dust, and can improve the operating rate without frequently performing cleaning work. To do.

  According to the first aspect of the present invention, air containing dust is introduced into the housing, the dust is captured by a filter provided in the housing, and the air not containing the dust is discharged from the air discharge port and the filter. In the dust collector for dropping the dust from the dust discharge port of the hopper provided below, an air intake port for taking air into the hopper is provided on the side wall of the hopper.

  A second aspect of the present invention is the dust collecting apparatus according to the first aspect, characterized in that means for adjusting the opening amount of the air intake port is provided.

  Invention of Claim 3 is a dust collector of Claim 1 or Claim 2, Comprising: The dust discharge fan which discharges the said dust out of a hopper was provided in the said dust discharge port, It is characterized by the above-mentioned. Yes.

  According to the present invention, since the air intake port for taking air into the hopper is provided on the side wall of the hopper, air flows into the hopper from the air intake port, the hopper becomes turbulent, and dust is generated in the hopper. Dust can be discharged from the dust outlet without accumulating.

FIG. 1 is a cross-sectional view of the dust collector showing the dust collector of this embodiment and showing a state before dust is captured by a filter. FIG. 2 is an enlarged cross-sectional view of the main part of the periphery of the air intake port provided in the dust collector of FIG. 1 and shows a state in which the air intake port is opened. FIG. 3 is an enlarged cross-sectional view of the main part of the periphery of the air intake port provided in the dust collector of FIG. 1 and shows a state in which the air intake port is closed. 4 is a cross-sectional view of the dust collector showing how dust is discharged from the dust outlet without clogging in the dust collector shown in FIG. FIG. 5 is a cross-sectional view of the dust collecting device showing a state where the dust discharge port is closed with dust in the dust collecting device in which no air intake port is formed.

  Hereinafter, specific embodiments to which the present invention is applied will be described in detail with reference to the drawings.

  As shown in FIG. 1, the dust collector 1 according to the present embodiment has a housing 3 provided therein with a dust trapping filter 2 that is a filter for trapping dust, and discharges the dust outward from the dust discharge port 4. A hopper 5 and a dust discharge fan 6 that promotes discharge of dust to the dust discharge port 4 are provided.

  The casing 3 is formed with an introduction port 7 into which air containing dust is forcibly sent. From this inlet 7, air containing dust is introduced into the housing 3 as indicated by an arrow A in FIG. 1. For example, air containing dust generated in the process of cutting and recycling used wires, optical fibers, etc., separated into steel wires or fibers and jackets, is recycled from the inlet 7 into the housing 3. be introduced. The introduction port 7 is formed on the side surface 3a of the housing 3 in FIG.

  The housing 3 is formed with an air discharge port 8 for exhausting air that does not contain the dust by capturing the dust with the dust trapping filter 2 provided in the housing 3. The air discharge port 8 is formed in the top surface 3b of the housing 3 and exhausts air that does not contain dust to the outside of the housing as indicated by an arrow B in FIG.

  The dust trapping filter 2 captures dust contained in the air introduced into the inside through the introduction port 7 and separates air and dust. A plurality of dust trapping filters 2 are detachably provided in the housing 3 so that they can be replaced with new filters when the filter function for trapping dust is lost. For the dust trapping filter 2, a commonly used material is used.

  The hopper 5 is provided below the dust trapping filter 2. The hopper 5 is formed as a so-called mortar-shaped container in which the inner space gradually narrows as it goes to the dust discharge port 4. The side walls 5 a and 5 b of the hopper 5 are inclined so that the dust easily slides down toward the dust discharge port 4.

  The dust discharge fan 6 is a mechanism that rotates an impeller with a motor, and is provided in the dust discharge port 4. The dust discharge fan 6 forcibly discharges the dust separated from the dust trapping filter 2 and the dust falling in the housing 3 and dropping into the hopper 5 from the dust discharge port 4 to the outside.

  And especially in the dust collector 1 of this embodiment, the air intake port 9 which takes in air in this hopper 5 is formed in the side wall 5b of the hopper 5. As shown in FIG. As shown in FIGS. 2 and 3, the air intake port 9 can be adjusted in opening amount by a shutter member 10 that is slidable on the side wall 5 b of the hopper 5 (slidable in the direction of arrow X in FIG. 2). It is said that. FIG. 2 shows a state where the air intake 9 is opened by shifting the position of the shutter member 10. FIG. 3 shows a state in which the air intake port 9 is covered with the shutter member 10 to close the air intake port 9. The shutter member 10 functions as a means for making the opening amount of the air intake port 9 adjustable.

  In the dust collector 1 configured as described above, when air containing dust F is introduced into the housing 3 from the introduction port 7 formed in the housing 3, the air passes through the dust trapping filter 2. Then, the air is exhausted from the air outlet 8 to the outside of the housing 3. The dust F contained in the air is trapped by the dust trapping filter 2 as shown in FIG. Examples of the dust F include paper waste, Kevlar fiber, resin (fine scrap, wire coating, fiber coating, etc.), optical fiber, and the like.

  As shown in FIG. 4, the dust F gradually accumulates on the dust trapping filter 2. As shown by an arrow C in FIG. 4, air flows into the hopper 5 from the air intake port 9 into the hopper 5. This is because air containing dust forcedly fed into the housing 3 from the introduction port 7 passes through the dust trapping filter 2 and flows out of the air discharge port 8 through the air intake port 9. It is considered that air enters the hopper 5. The dust F in the hopper 5 is prevented from jumping out from the air intake port 9. This is considered to be due to a difference in atmospheric pressure inside and outside the hopper 5.

  The air flowing into the hopper 5 from the air intake port 9 becomes turbulent in the hopper 5 and is dropped before the dust F collected by the dust trapping filter 2 becomes large. The dust F that has fallen as a lump falls into contact with the inclined side walls 5a and 5b of the hopper 5 and falls apart, and is discharged from the dust discharge port 4 to the outside of the hopper 5. For example, even if the dust F adheres to the side walls 5a and 5b of the hopper 5, the dust F is pushed away from the side surfaces 5a and 5b by being pushed by the flow of air flowing into the hopper 5 from the air intake port 9. .

  Further, by sliding the shutter member 10 and adjusting the opening amount of the air intake port 9, it is possible to discharge from the dust discharge port 4 without clogging other types of dust F having different sizes and shapes. In the case of dust F that does not fall under its own weight, the shutter member 10 is slid in the opening direction to increase the opening amount of the air intake port 9. In the case of dust F falling by its own weight, the shutter member 10 is slid in the closing direction to reduce the opening amount of the air intake port 9. The dust F floating in the hopper 5 is collected to the lower end portion of the hopper 5 by the dust discharge fan 6 provided in the dust discharge port 4 and discharged to the outside from the dust discharge port 4.

  When the air inlet 9 is not formed in the hopper 5, as shown in FIG. 5, the lump of dust F trapped and collected by the dust trapping filter 2 falls on the side walls 5a and 5b of the hopper 5, and remains as it is. Adhere to the side walls 5a, 5b. When the dust F adhered to the side walls 5a and 5b of the hopper 5 further increases and reaches a certain amount, it slides down to the dust discharge port 4 along the slopes of the side walls 5a and 5b, and the dust discharge port 4 Block it. The dust F covering the dust discharge port 4 is scraped only in a portion where the impeller of the dust discharge fan 6 reaches, and remains so as to close the dust discharge port 4 like a lid. When this happens, the dust F can no longer be discharged from the dust outlet 4. In particular, when the density is high and the fibrous objects are intertwined, it is difficult to discharge the dust F.

"Experimental example"
Using the dust collector 1 shown in FIG. 4 of the present embodiment and the dust collector of the conventional structure shown in FIG. 5, an experiment was conducted to separate the dust F and air, and the two were compared. The results are shown in Table 1.

  In the conventional apparatus, it is necessary to clean the dust discharge port 4 once every two hours because the dust discharge port 4 is clogged. However, in the present embodiment apparatus, the dust discharge port 4 is not clogged. Therefore, in the conventional apparatus, the input amount to the apparatus is 500 kg / day, whereas in the apparatus of the present embodiment, it is tripled to 1500 kg / day. Further, in the conventional apparatus, cleaning inspection is required 2 to 3 times / daily, but in the apparatus of this embodiment, the cleaning inspection is performed once / month. Further, in the conventional apparatus, the types of dust F that can be processed are limited, but in the present embodiment apparatus, glass wool can be separated from paper.

"Effect of the embodiment"
According to the dust collector 1 of the present embodiment configured as described above, since the air intake port 9 for taking air into the hopper 5 is provided on the side wall 5b of the hopper 5, the hopper 5 The air flows into the hopper 5 and the hopper 5 becomes turbulent, so that the dust F can be discharged from the dust discharge port 4 without accumulating the dust F in the hopper 5.

  Therefore, according to the dust collector 1 of this embodiment, the dust F can be discharged out of the apparatus without clogging the dust discharge port 4. As a result, since the dust F is not clogged, the amount that can be thrown into the dust collector 1 can be increased. Moreover, according to the dust collector 1 of this embodiment, since the dust F is no longer clogged, the frequency | count of cleaning inspection can reduce and the operating rate of an apparatus can be raised.

  Moreover, according to the dust collector 1 of this embodiment, since the shutter member 10 which is a means for adjusting the opening amount of the air intake port 9 is provided, the air intake port can be operated by sliding the shutter member 10. By adjusting the size of 9, the flow of air introduced into the hopper 5 can be varied. If the opening amount of the air intake port 9 is increased, the light dust F that does not fall by its own weight can be discharged from the dust discharge port 4. On the other hand, if the opening amount of the air intake port 9 is reduced, dust F having a weight enough to fall by its own weight can be discharged from the dust discharge port 4. Thereby, it becomes possible to separate the dust F and the air with respect to a wide variety of dust F by the dust collector 1 of the present embodiment.

  Further, according to the dust collector 1 of the present embodiment, the dust discharge fan 6 that discharges the dust F to the outside of the hopper 5 is provided at the dust discharge port 4, so that the dust F that flies in the hopper 5 is removed from the dust discharge fan 6. And can be discharged from the dust discharge port 4 to the outside.

  INDUSTRIAL APPLICABILITY The present invention can be used in a dust collector that introduces dust-containing air into a housing and captures the dust with a filter.

DESCRIPTION OF SYMBOLS 1 ... Dust collector 2 ... Dust capture filter 3 ... Housing 4 ... Dust discharge port 5 ... Hopper 5a, 5b ... Side wall of hopper 6 ... Dust discharge fan 7 ... Inlet port 8 ... Air discharge port 9 ... Air intake port 10 ... Shutter member (means to adjust the opening of the air intake)

Claims (3)

Air containing dust is introduced into the housing, dust is captured by a filter provided in the housing, and air not containing the dust is discharged from the air discharge port, and the dust discharge port of the hopper provided under the filter In a dust collector for dropping the dust from
An air intake port for taking in air into the hopper is provided on a side wall of the hopper. It is a dust collector of Claim 1, Comprising:
Means for adjusting the opening amount of the air intake port is provided. The dust collector according to claim 1 or 2,
A dust collector, wherein a dust discharge fan for discharging the dust out of the hopper is provided at the dust discharge port.

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