JP3117155B2 - Cyclone type dust collector - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cyclone type dust collecting apparatus, and more particularly, to a dust gas containing so-called spatter or smoke-like fume of various particle sizes generated during operations such as welding and cutting. A cyclone type suction that sucks into the cyclone cylinder, separates and removes coarse dust from the dust gas by the cyclone effect, and collects and collects fine dust by the dust collection filter installed in the cyclone cylinder. It relates to a dust device.

[0002]

2. Description of the Related Art As shown in FIG.
In some cases, an outlet 30a and a gas inlet 30b are provided at the top center and the upper peripheral portion of the cylinder 0, and a cylindrical dust collection filter 31 is provided concentrically in the cyclone cylinder 30. A discharge hose 32 connected to a suction machine (not shown) on the downstream side is connected to the outlet 30a, while a dust gas suction hose 33 is connected to the gas inlet 30b.
Is attached. When the suction device is activated, the dust collector enters an operating state, and when the inside of the cyclone tube 30 becomes a negative pressure, for example, through the openings 33a and 33b on the tip side of the dust gas suction hose 33 facing the vicinity of the welding work site. The dust gas is sucked and forms a swirling flow along the inner wall of the cyclone cylinder 30. The coarse dust in the dust gas separates and settles due to the cyclone effect due to the centrifugal force acting during turning and gravity, and the dust collection bag 34 attached to the lower part of the dust collector.
Will be collected. On the other hand, fine dust and the like in the dust gas are collected on the surface of the dust filter 31 where the internal space is at a large negative pressure.
It is discharged to the two sides.

[0003]

FIG. 8 is a cross-sectional view of the dust collecting apparatus, wherein the dust gas sucked from the dust gas suction hose 33 flows in a swirling flow as indicated by a white arrow. The light is sequentially transmitted through the dust collection filter 31. As shown by a plurality of arrows 35 having different lengths, the suction flow rate of the dust gas at the time of the permeation is fast at the upper part side of the dust collecting filter 31 and slow at the lower part side. Since the amount of permeation of dust gas is significantly increased on the upper part side, the dust collection filter 31
Since the swirling flow around the upper part side is suppressed, the cyclone effect is reduced and the amount of dust gas permeation in the lower part side is further reduced, so that the amount of dust collected by the dust collection filter 31 is reduced. While it is difficult for uniform and desirable dust collection to be performed, such as being different between the upper part side and the lower part side,
There is a problem that the life of the dust collecting filter 31 is shortened. The present invention has been made in view of the above-described problems, and an object of the present invention is to avoid a tendency that a swirling flow generated in an external space of a dust collection filter is suppressed, so that a cyclone effect is sufficiently exerted. To collect fine dust equally from the dust gas on the entire surface from the upper part side to the lower part side of the dust collecting filter, thereby improving the dust collecting efficiency of the dust collecting filter, It is an object of the present invention to provide a cyclone-type dust collecting apparatus which can extend the life of the dust collecting filter.

[0004]

According to the present invention, a gas inlet connected to a dust gas suction hose is opened facing a tangential direction of a cyclone cylinder, while a gas inlet connected to a discharge hose connected to a suction machine is provided. , An opening at the top of the cyclone cylinder, in which a cylindrical dust filter is concentrically arranged to form an annular space with the inner peripheral surface of the cyclone cylinder. Applied to dust equipment. The feature is that referring to FIGS. 1 and 2, in order to make the suction flow rate of the dust gas sucked into the internal space 11 of the dust collecting filter 9 substantially equal over the entire surface of the dust collecting filter 9, In the internal space 11 or the external space 10 (see FIG. 3) of the dust collecting filter 9, a permeation adjusting cylinder 13 having a plurality of gas flow holes 14 on a side surface 13a is arranged. Further, as shown in FIG.
Defines a plurality of rows N _{1 to} N ₇ which are formed in the circumferential direction of the transmission amount adjusting cylinder 13 and are arranged in the vertical direction, and reduce the sum of the opening areas of the gas flow holes 14 on the upper part side, It is preferable that the sum of the opening areas of the gas flow holes 14 on the lower part side is increased.

[0005]

When the suction device connected to the outlet hose 8 is operated to operate the cyclone type dust collector, the inside of the cyclone tube 1 is opened through the outlet 6 opened to the top of the cyclone tube 1 and connected to the outlet hose 8. Air is sucked. Dust gas generated at a welding work site or the like is introduced into the cyclone cylinder 1 from a dust gas suction hose 5 connected to the gas inlet 3 which is open in the tangential direction of the cyclone cylinder 1 and concentric with the cyclone cylinder 1. It flows while forming a swirling flow in the annular space 10 formed between the dust collection filter 9 arranged in the shape and the inner peripheral surface 1 d of the cyclone cylinder 1. The dust gas is sucked by the negative pressure in the internal space 11, and the clean gas that has passed through the dust collecting filter 9 is discharged to the internal space 11 while leaving the dust on the surface of the dust collecting filter 9. In the internal space 11 of the dust collecting filter 9, a permeation adjusting cylinder 13 having a plurality of gas circulation holes 14 on the side surface 13 a is attached. Is discharged from the outlet hose 8 to the suction device side through the gas flow hole 14 having a small opening area of the permeation amount adjusting cylinder 13, and the permeated gas sucked at the lower portion side is transmitted through the opening of the permeation amount adjusting cylinder 13. It is led out through the gas flow hole 14 having a large area. Since the opening area of the gas passage hole 14 on the upper part side is smaller than the opening area on the lower part side, the permeation flow rate on the upper part side which is easily transmitted into the dust collecting filter 9 is suppressed, while the lower part which is hardly permeated. The permeation flow rate on the part side increases. That is, the permeation flow velocity on the upper part side becomes substantially equal to the flow velocity on the lower part side, and a uniform permeation action is achieved on the entire surface of the dust collection filter 9, and the collection effect is evenly spread. Dust collection on the entire surface of the dust collecting filter 9 is performed not only when the transmission amount adjusting cylinder 13 is disposed inside the dust collection filter 9 but also as in the case of the transmission amount adjusting cylinder 13 shown in FIG. In addition, the same can be achieved even when it is arranged outside. In any case, the dust gas flows through the gas flow holes 1
After passing through the dust collection filter 9 at a flow rate suitable for dust collection through the filter 4, the gas is led to the internal space 11 as a clean gas. As a result, fine dust is uniformly collected over the entire surface of the dust filter 9.

[0006]

According to the present invention, the internal space or the external space of the dust collecting filter arranged in the cyclone cylinder has:
A plurality of gas flow holes are penetrated on the surface, a permeation amount adjusting cylinder is provided, and the gas flow holes are formed in a circumferential direction of the permeation amount adjusting cylinder to form a plurality of rows arranged vertically. Since the sum of the opening areas of the gas flow holes on the lower part side is larger than that on the upper part side, the flow velocity of the dust gas permeating over the entire surface of the dust collection filter is almost uniform, suitable for collection, and efficient over the entire surface of the dust collection filter Dust can be equally collected, and the service life of the dust filter can be extended.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the drawings showing the embodiments. FIG. 1 shows a cyclone type dust collecting apparatus 50 in which a dust collecting filter is provided in a cyclone cylinder and a transmission amount adjusting cylinder is installed in an internal space of the dust collecting filter.
FIG. The cyclone cylinder 1 has a cylinder body 1A and a lid 1
B, the upper side of the cylindrical main body 1A is formed in a cylindrical shape, the lower side is formed in an inverted conical shape, and a conical short tube 1C is integrated with a lower end of the inverted conical shape. I have. The conical valve element 2 suspended by the wire 2a is housed in the short pipe 1C, while a valve seat 2b is formed on the inner periphery of the connection between the cylindrical main body 1A and the short pipe 1C, and the wire 2a is formed. When the lever 2c to which the upper end of is attached is operated from the outside,
The valve body 2 can be raised, and the valve seat 2b is closed. By lowering, the passage between the valve seat 2b and the valve body 2 is opened, and the dust accumulated on the valve body 2 can be introduced into the dust collector 16. This cylinder body 1
A gas inlet 3 is opened in the upper peripheral portion of A so as to be tangential to the inner peripheral surface 1d on the upper side of the cyclone cylinder 1, and the gas inlet 3 is connected to a gas suction pipe 4. A dust gas suction hose 5 is connected to the gas suction pipe 4. Then, when a suction device described later is operated and the inside of the cyclone cylinder 1 becomes a negative pressure, dust gas containing so-called spatter or smoke-like fume of various particle sizes generated at the time of work such as welding or cutting is discharged. The hose 5 is sucked through the openings 5 a and 5 b on the distal end side and is sucked into the cyclone cylinder 1. An outlet 6 is opened at the center of the top of the lid 1B, and a suction pipe 7 inserted vertically into the cyclone cylinder 1 is attached to the outlet 6. The lower end is provided with a dust filter 9 described later.
The outlet hose 8 is attached to the upper part of the suction pipe 7 bent in the horizontal direction, while being directed toward the internal space 11 of the suction pipe.
In addition, a suction machine (not shown) is connected to the downstream side of the outlet hose 8. An annular plate-like support member 1a is provided in the vicinity of the uppermost portion of the cylindrical portion of the cylinder main body 1A, and the outer peripheral portion thereof is welded to the inner peripheral surface 1d of the cyclone cylinder 1 so that the lower portion of the support member 1a is required. Reinforcing rib material 1b is attached to each location by welding or the like. On the other hand, a lid member 9A integrated with the dust filter 9 is fixed to the inner peripheral upper surface of the support member 1a, and the outer surface 9a of the cylindrical dust filter 9 and the inner peripheral surface 1d of the cylindrical main body 1A are formed. An annular space 10 is formed therebetween and suspended in the cyclone cylinder 1. Then, the lid member 9A
The lower end of the suction pipe 7 is inserted into an opening 9 b provided in the suction pipe 7, and the inside of the suction pipe 7 and the internal space 11 of the dust collection filter 9 are inserted.
And are communicated. The dust collecting filter 9 is a generally used filter element such as filter paper or sintered metal having fine through-holes, and is formed into a cylindrical body as shown, for example, and its surface 9a extends vertically. It has a large number of folds 9c to increase the dust collection area. The dust collecting filter 9 collects fine dust, oil, and the like from the dust gas, and only the gas permeates into the internal space 11. Further, a plate member 9d serving as a blind lid is attached to a lower end of the dust collecting filter 9, so that a dust gas flowing in a swirling flow is prevented from entering from below. The dust gas sucked into the cyclone cylinder 1 from the dust gas suction hose 5 by the operation of the suction device flows downward in the annular space 10 as a swirling flow as indicated by a white arrow. In the meantime, coarse dust is blown radially by centrifugal force, and then settles along the inner peripheral surface 1d of the cyclone cylinder 1 by gravity, while fine dust is deposited on the outer surface 9a of the dust filter 9. And so on. The clean gas that has passed through the dust collection filter 9 is supplied to the internal space 11.
Through the suction device.

The internal space 11 of the dust filter 9 in the cyclone cylinder 1 in the dust collector 50 of the present embodiment has a plurality of gas flow holes 14, 14 penetrating through the side surface 13a.
Is provided. This is to make the flow velocity when the dust gas sucked from the outer space 10 to the inner space 11 of the dust collecting filter 9 permeate the entire surface of the dust collecting filter 9 substantially uniform. The dust collecting filter 9 is attached so as to come into contact with the lid member 9A and the plate member 9d, and is fixed concentrically with the dust collecting filter 9. If a packing material is provided at the upper end or the lower end of the transmission amount adjusting cylinder 13, it is easy to deal with a manufacturing error in the long axis direction of the transmission amount adjusting cylinder 13. As can be seen from FIG. 4 in which the transmission amount adjusting cylinder 13 shown in FIG. 2 is developed, the gas flow holes 14 form a plurality of upper and lower rows N _{1 to} N ₇ arranged in the circumferential direction of the transmission amount adjusting cylinder 13. And each row N _{1 to} N ₇
Are the same in number of gas flow holes 14. For example, to reduce the opening area sum S ₁ of the gas flow hole 14 in the upper row N _1, when the gas flow pore size of the upper row N ₁ and d,
Gas flow pore size of the column N ₂ of the lower gas flow hole diameter of d + [Delta] d, column N ₃ is set to be d + 2Δd. And
In order to increase the opening area sum S ₇ of the gas flow hole 14 in the lower row N _7, the gas flow pore size contrivance to adopt a d + 6Δd is performed. Further, as shown in FIG. 5, while the same gas flow hole diameter d, the number of pores n columns N ₁
Then, the number of gas flow holes in the lower row N ₂ is n + 1,
₃ of the number of gas flow holes and n + 2, the number of gas flow holes in the lower row N ₇ as n + 6, to reduce the opening area sum S ₁ of the gas flow hole 14 in the upper row N _1, the gas flow hole in the lower row N ₇ and to increase the opening area sum S ₇ 14. Further, in FIG. 6, when the diameter of the circulation holes 14 of the upper row N ₁ d, the number of holes is n, the gas flow hole number in the lower row N ₂ gas flow pore size (n + 1) is d, the column N ₃ gas gas flow pore size by the number of flow holes are n + 1 is d + [Delta] d, gas flow pore size in the gas flow hole number n + 3 in the lower row n ₇ d + 3Δd
Adopt to be. Then, to reduce the opening area sum S ₁ of the gas flow hole 14 in the upper row N _1, lower column N ₇
And to increase the opening area sum S ₇ of the gas flow hole 14 in. Although the three types of arrangement of the gas flow holes 14 are set in the circumferential direction of the transmission amount adjusting cylinder 13, other types of arrangement such as a spiral shape or a staggered shape may be used. During operation of the dust collecting device 50, the valve body 2 at the lower part of the cyclone cylinder 1 is raised as shown by a two-dot chain line. When the suction is stopped, the valve body 2 is lowered to the position shown by the solid line, and A passage for passing coarse dust is formed in the dust collecting device 16 attached to the short pipe 1C.
Can contain dust.

The cyclone-type dust collecting device 50 thus configured operates as follows to efficiently collect and collect dust in dust gas. Dust collector 5
When the suction machine is operated in a state where the cyclone cylinder 0 is installed at a welding site or the like, air in the cyclone cylinder 1 is sucked through the internal space 11 of the dust collection filter 9, the suction pipe 7 and the outlet hose 8, and It becomes negative pressure. Then, the opening 5 on the tip side of the dust gas suction hose 5 facing the welding work site
Dust gas is sucked from a and 5b, and is introduced into the cylinder main body 1A from the gas inlet 3 through the gas suction pipe 4. Since the gas inlet 3 is open in the tangential direction of the inner peripheral surface 1d of the cyclone cylinder 1, the dust gas introduced into the cylinder main body 1A forms a swirling flow in the annular space 10 as shown by a white arrow. . The dust gas contains coarse dust and fine dust generated during welding, fume-like fumes, and also oil depending on the type of dust gas. Centrifugal force acts on the coarse dust due to the cyclone effect, and is deflected to the inner peripheral surface 1d of the cylinder main body 1A, and then sediments by gravity. At this time, since the lever 2c is pulled up as shown by a two-dot chain line, the valve body 2 connected to the wire 2c is connected to the valve seat 2b.
And dust accumulates on it. In addition, a part of the swirling flow flowing through the annular space 10 passes through the surface 9 a of the dust filter 9 and is sucked upward. Gas inside space 1
When transmitted to one side, fine dust in the dust gas is creased 9c.
And clean gas is discharged to the suction device side.

By the way, the permeated gas containing a small amount of fine dust after being discharged flows through the gas flow hole 14 of the permeation adjusting cylinder 13 disposed in the internal space 11 while being decelerated, and is discharged to the suction device side. Is done. Along with this deceleration, the subsequent dust gas is adjusted to a flow velocity suitable for dust collection, and fine dust in the subsequent dust gas is efficiently collected on the surface 9 a of the dust filter 9. That is, since the larger the ratio of the opening area sum of the lower rows N ₇ to the upper row N ₁ in the transmission rate adjustment cylinder 13, passing velocity in the upper side of the dust collecting filter 9 is reliably decelerated. Then, as the transmission position moves to the lower side of the dust collection filter 9, the transmission amount adjusting cylinder 1
Since the sum of the opening areas of the gas flow holes 14 formed in the filter 3 is increased, the permeation flow rate over the upper and lower surfaces 9a of the dust filter 9 is adjusted to be suitable for dust collection, and the folds 9c are formed.
As a result, fine dust can be efficiently and uniformly collected, and the gas can be cleaned and discharged. As a result, the dust collection efficiency of the dust collection filter 9 is improved, and further,
Its life can be extended. The above fold 9c
At the time of dust collection, since the plate material 9d serving as a blind lid is provided, dust gas swirling near the lower end of the dust collection filter 9 is not drawn into the internal space 11, and only the clean gas is led to the suction device side. Can be done.

FIG. 3 shows another example of a dust collecting device 60 which surrounds the dust collecting filter 9 and in which the transmission amount adjusting cylinder 13 is an annular space in the outer space 10 of the dust collecting filter 9.
It is provided concentrically. The transmission amount adjusting cylinder 13 is the same as the transmission amount adjusting cylinder in the dust collector 50. The dust gas forming the swirling flow is decelerated by the permeation amount adjusting cylinder 13 immediately before passing through the dust collecting filter 9, but the dust collecting device 60 can exert the same effect as the dust collecting device 50. 1 and 3, if the valve body 2 can be opened and closed with respect to the valve seat 2b, the lower part of the cyclone cylinder 1 can be kept confidential except when collecting dust accumulated on the valve body 2. Is advantageous. However, when the dust collector 16 is formed into a fixed shape without deformation, the dust collector 1
6 and the lower part of the cyclone cylinder 1 can be kept secret, so that the valve element 2 can be fixed to the valve seat 2b.

As can be understood from the above description, since the permeation adjusting cylinder having the gas flow holes is provided in the internal space or the external space of the dust collecting filter, the dust gas permeating the upper part of the dust collecting filter is provided. While the flow velocity of
The wind speed of the dust gas passing through the lower part of the dust collecting filter is hardly reduced. Accordingly, the wind speed of the dust gas transmitted from the upper portion side to the lower portion side of the dust collecting filter is made uniform and suitable for dust removal, and fine dust is efficiently formed on the entire surface of the dust collecting filter. Dust is collected uniformly. Since such fine dust is collected smoothly, the dust collection efficiency of the dust collection filter is increased, and the life of the dust collection filter can be extended. In addition, since the flow velocity of the dust gas passing through the upper part of the dust collection filter is suppressed, the turbulence of the swirl flow formed by the dust gas and the reduction of the flow do not occur. Coarse dust is collected without any trouble. As a result, the dust collecting device can sufficiently exhibit the collecting function, realize long-term operation, and reduce maintenance and inspection work.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view of a cyclone type dust collecting apparatus of the present invention in which a transmission amount adjusting cylinder is provided in an internal space of a dust collecting filter.

FIG. 2 is a perspective view of a transmission amount adjusting cylinder having gas flow holes.

FIG. 3 is a longitudinal sectional view of another example in which a transmission amount adjusting cylinder is provided in an external space of a dust collecting filter.

FIG. 4 is a development view showing an example of an arrangement of gas circulation holes.

FIG. 5 is a partially developed view showing a different arrangement of gas circulation holes.

FIG. 6 is a partial development view showing a further different arrangement of gas circulation holes.

FIG. 7 is a partially cutaway perspective view of a conventional dust collector.

FIG. 8 is a longitudinal sectional view of a conventional dust collector.

[Explanation of symbols]

1 ... cyclone cylinder, 1d ... inner peripheral surface, 3 ... gas inlet, 5
... dust removal gas suction hose, 6 ... outlet, 8 ... outlet hose,
9: dust collection filter, 10: annular space (external space),
11: Internal space, 13: Permeation adjusting cylinder, 13a: Side surface, 14: Gas flow hole.

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Iwao Komori 2-1-1, Tagawa, Yodogawa-ku, Osaka, Osaka Daihen Co., Ltd. (72) Inventor Koji Fukuba 2-1-1, Tagawa, Yodogawa-ku, Osaka, Osaka No. 11 Daihen Co., Ltd. (56) References JP-A-52-79369 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) B04C 5/12 B01D 46/24 B01D 50/00 501

Claims (2)

(57) [Claims] 1. A gas introduction port connected to a dust gas suction hose is opened facing a tangential direction of a cyclone cylinder,
An outlet connected to the outlet hose connected to the suction machine is opened at the top of the cyclone tube, and the cyclone tube has
In a dust collector in which a cylindrical dust filter is concentrically arranged to form an annular space with the inner peripheral surface of the cyclone tube, the dust sucked into the inner space of the dust filter is provided. In order to make the gas suction flow rate substantially equal on the entire surface of the dust filter, the internal space or the external space of the dust filter is
A cyclone-type dust collector, wherein a permeation adjusting cylinder having a plurality of gas flow holes on a side surface is arranged. 2. The gas flow holes are formed in a plurality of rows that are formed in the circumferential direction of the permeation amount adjusting cylinder and are vertically aligned, and reduce the sum of the opening areas of the gas flow holes on the upper part side. The cyclone type dust collecting apparatus according to claim 1, wherein the sum of the opening areas of the gas flow holes on the lower part side is large.