JPH0153567B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an air filter regeneration device that removes soot and dust adhering to a plate-shaped air filter so that it can be reused.

Generally, there are two methods to remove dust adhering to an air filter: blowing air at a high discharge pressure onto the filter surface to blow away the dust, or applying a nozzle of a vacuum suction device to the filter surface to adsorb it.
The reality is that none of these methods can remove the soot and dust that has penetrated deep into the filter, resulting in no effective regeneration.

The present invention has been made to enable effective regeneration of air filters in view of the above-mentioned practicalities, and in order to achieve this purpose, the air filter regeneration device of the present invention has rotatable parts installed at the front and rear ends of the machine base. An endless link chain is stretched between the provided sprockets, and a plate-shaped air filter is placed on the link chain so that it can be transported horizontally, and a guide rail that supports the transport side of the link chain is provided with a coil spring interposed therebetween. A vibrator is provided to support the guide rail so that it can float freely on the machine base, and to vibrate the guide rail. An air intake chamber surrounding the air filter is formed, the hopper is connected to a dust collector, and the air intake chamber is provided with a nozzle that jets air at a high discharge pressure toward the air filter and a rotating brush that slides into contact with the air filter. .

Embodiments of the present invention will be described below with reference to the drawings.
In FIGS. 1 and 2, reference numeral 1 denotes a machine base on which rotating shafts 2 and 3 are horizontally mounted at the front and rear ends.
A pair of sprockets 4, 4 are fixed to the rotary shaft 3, a pair of sprockets 5, 5 are fixed to the rotating shaft 3, and an endless link chain 6, 6 is stretched between each pair of sprockets to constitute a chain conveyor. 7 is a plate-shaped air filter that is carried on the link chains 6, 6, and in order to prevent the air filter 7 from shifting laterally, weir plate pieces 8a are provided on the chain members on both sides of the link chains 6, 6.
are integrally formed. Further, reference numeral 8b is a push claw protruding from the link chains 6, 6 in order to come into contact with the rear end edge of the air filter 7 and prevent it from slipping rearward. Reference numeral 9 denotes a conveyor drive motor installed on the leg of the machine 1, and a conduction chain 11 is wound between a sprocket 10 fixed to the drive shaft of the motor and another sprocket fixed to the rotating shaft 3. When the drive shaft of the motor is rotated, the rotating shaft 3 is rotated in the direction of the arrow through the transmission chain 11, and the link chains 6, 6 are rotated. Reference numerals 12 and 12 denote a pair of left and right guide rails that support the transport side of the link chains 6 and 6, and each guide rail has screw shafts 13, 113, 13 protruding from both ends and the lower surface of the intermediate portion. 13, 13, 13 are the through holes 1 opened in the beam members 14, 14, 14 in the width direction that constitute the machine base 1.
5 and secure the double nut 16 to the end of the screw shaft. A screw shaft 13 is inserted between the upper surface of the beam members 14, 14, 14 and the lower surface of the guide rails 12, 12.
A coil spring 17 passing through the guide rails 13, 13 is interposed in a compressed state, and the elasticity of the coil spring 17 supports the guide rails 12, 12 on the beam members 14, 14, 14 so as to be freely floating. Reference numeral 18 denotes a frame-shaped vibration exciter with a vibrator 19 fixed to its upper surface. Shapes 20, 20 are fixed to the lower edges of the vibration exciter, and the guide rails 12, 12 are fixed to the frames 20, 20. Reference numerals 21 and 21 designate guide rails fixed horizontally to the machine base 1 in order to support the return sides of the link chains 6 and 6. A box-shaped cover body 22 is provided on the machine base 1 to prevent dust from scattering. Further, hoppers 23, 23 are provided on the lower side of the machine base 1, and the cover body 22 and the hoppers 23, 23 form an intake chamber 24 that surrounds the conveyor. The lower ends of the hoppers 23, 23 are connected to merge into a duct 25, and the other end of the duct 25 is connected to an inlet of a dust collector (not shown) such as a bag filter.
A carry-in port 26 for the air filter 7 mounted on the link chains 6, 6 is provided in the front wall of the cover body 22, and a carry-in port 27 for the air filter 7 is provided in the rear wall of the cover body 22. A rotating brush 2 is provided at the center of the cover body 22 and near the outlet 27.
8 and 29 are provided, and the rotating brushes come into sliding contact with the upper surface of the air filter 7 by rotating in the direction of the arrow. Reference numerals 30 and 30 denote cylindrical nozzles that are horizontally suspended at appropriate intervals in the front and back within the cover body 22, and a slit-shaped jet nozzle 3 formed at the lower edge of the nozzle.
1 and 31 face the upper surface of the air filter 7.
A blower (not shown) is connected to the nozzles 30, 30 to supply air, and this air is sent to the blowhole 3.
Dust attached to the upper surface of the air filter 7 is blown away by ejecting air from the air filters 1 and 31 at high discharge pressure. Reference numeral 32 denotes a lid plate for internal inspection, which is detachably placed over the opening in the upper wall of the cover body 22;
7 is a dust box provided at the front end of the machine 1, and 38 is a roller conveyor provided at the rear end of the machine 1.

In the device configured in this manner, the inside of the intake chamber 24 is maintained at negative pressure by operating the dust collector connected to the duct 25 to take in air. Then, the conveyor is driven by the motor 9, and the air filter 7 placed on the link chains 6, 6 is carried into the intake chamber 24 through the carry-in port 26. Vibrator 1 with fixed vibrator 19
8 is a guide rail 12,
12, so the guide rails 12, 12
The link chains 6, 6 supported above are vibrated. Therefore, the air filter 7 carried into the intake chamber 24 on the link chains 6, 6 vibrates, and the soot and dust that has penetrated not only the surface of the air filter 7 but also the deep layer thereof is separated from the filter fibers. On the other hand, the air ejected from the nozzles 30, 30 at a high discharge pressure is blown onto the air filter 7, which is vibrating violently as described above, to repel soot and dust. Further, as the air filter 7 is conveyed within the intake chamber 24, the surface thereof is wiped by the rotating brushes 28 and 29, and the soot and dust are dissipated within the intake chamber 24. The dust scattered in the intake chamber 24 is collected from the hopper 23 into the duct 25 and absorbed by the dust collector. The air filter 7 from which soot and dust has been removed in this way is carried out of the intake chamber 24 through the carrying-out port 27. Therefore, the air filter can be continuously regenerated.

The air filter regeneration device shown in FIGS. 3 and 4 is another embodiment of the present invention, and the only difference from the above embodiment is the configuration of the vibrator, and the other configurations are exactly the same as the above embodiment. , the same constituent parts are given the same reference numerals and the explanation thereof will be omitted. That is, in the vibrator of this embodiment, guide rails 12', 12' that support the conveyance side of the link chains 6, 6 are fixed to the machine base 1, and part of the horizontal part of the guide rails 12', 12' is fixed to the machine base 1. Cutting portions 33, 33 are formed at intervals in the section, and cam shafts 34, 34 are supported by bearings 36, 36 fixed to the machine base 1 under the guide rails 12', 12', thereby forming a suction chamber 24. The camshafts 34, 34 have one end connected to a motor (not shown), and the camshaft 3
A pair of rounded triangular cams 3 are fixed to each of 4 and 34.
5, 35... are made to face the cut-out parts 33, 33, and when the cams 35, 35... come into contact with the outer peripheral edges of the cams 35, 35..., the link chains 6, 6 are swung up and down. to vibrate the air filter 7. Therefore, even in this embodiment, the soot and dust in the air filter 7 can be easily removed due to the vibration, so that the soot and dust can be removed effectively. In this manner, the present invention can achieve desired effects without being limited to the configuration of the vibrator.

As described above with respect to the embodiments, the air filter regenerating device of the present invention is provided with a link chain that can horizontally transport a plate-shaped air filter, and a guide rail supporting the link chain can be freely floated above the machine base using a coil spring. By providing a vibrator that vibrates the guide rail, the air filter carried into the intake chamber vibrates via the link chain on the guide rail. For this reason, the air filter in the intake chamber is subjected to vibrations and at the same time air is blown at high discharge pressure, and the synergistic effect of the addition of wiping by the rotating brush makes it possible to remove the soot and dust that has penetrated deep into the air filter. Since the plate-shaped air filters can be continuously regenerated one after another, the processing capacity is extremely high.

[Brief explanation of drawings]

Fig. 1 is a side view of an air filter regeneration device showing one embodiment of the present invention, Fig. 2 is a cross-sectional view thereof, and Fig. 3 is a main part of an air filter regeneration device showing another embodiment of the invention. The side view and FIG. 4 are its cross-sectional views. 1...Machine base, 6,6...Link chain, 12,1
2, 12', 12'... Guide rail, 18... Exciter, 19... Vibrator, 24... Intake chamber, 30,
30...nozzle, 35...cam.

Claims (1)

[Claims] 1. An endless link chain is stretched between sprockets rotatably provided at the front and rear ends of the machine base, and a plate-shaped air filter is placed on the link chain so that it can be transported horizontally. A box-shaped cover is provided on which a guide rail supporting the conveyance side of the chain is supported so as to be freely floating on the machine base with a coil spring interposed, and an exciter is provided to vibrate the guide rail. A suction chamber surrounding the air filter on the link chain is formed by the body and a hopper installed under the machine base, and the hopper is connected to a dust collector, and a nozzle is installed in the suction chamber to jet air at high discharge pressure to the air filter. and an air filter regenerating device, characterized in that it is provided with a rotating brush that comes into sliding contact with the air filter.