JP3505136B2 - Filter cleaning device and filter cleaning method - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter cleaning device and a filter cleaning method for ultrasonically cleaning a filter for removing dust and the like.

[0002]

2. Description of the Related Art Conventionally, filters have been provided at air inlets of buildings, underground malls, tunnels, etc. to remove dust, oil, fiber dust and the like contained in the outside air. As this kind of filter 31, for example, as shown in FIG. 7, a frame 32, a non-woven fabric of resin fibers with many pleats, glass fibers, etc. are provided and provided in a bent state in the frame. There is a filter material 33 which is present.
These filters 31 are collected and washed at regular intervals, so that dust and the like adhering to the filters are removed and reused. 2. Description of the Related Art As a cleaning device for cleaning a filter, there is a conventional one that emits ultrasonic waves toward the filter (see Japanese Patent Laid-Open No. 11-188322).

As a filter cleaning device using this ultrasonic wave, as shown in FIG. 8, a cleaning tank 34 for accommodating the filter 31 in a state of being immersed in a cleaning liquid, and an ultrasonic filter provided at a position facing the filter 31. The ultrasonic transducer 35 and the filter 31 in a state where ultrasonic waves are emitted from the ultrasonic transducer 35
And a moving device 36 that adjusts the relative distance between the ultrasonic transducer 35 and the ultrasonic transducer 35 in the thickness direction of the filter 31, and thus adjusts the relative distance between the filter 31 and the ultrasonic transducer 35. By doing so, the position where the energy of the ultrasonic wave emitted from the ultrasonic transducer 35 is high, that is, the “belly” part of the ultrasonic wave is adjusted so as to hit the filter 31, and the filter is efficiently cleaned.

[0004]

However, the conventional filter cleaning apparatus using ultrasonic waves determines the appropriate position of the ultrasonic wave by hitting the filter by adjusting the relative distance between the ultrasonic vibrator and the filter. However, in such an apparatus, since the ultrasonic transducer or the filter has to be moved in the thickness direction of the filter, the structure becomes complicated, and the adjustment of the relative distance is not easy.

Therefore, an object of the present invention is to provide a filter cleaning device and a filter cleaning method using ultrasonic waves, which has a simple structure and is easy to operate.

[0006]

In order to achieve the above object, the present invention provides a cleaning tank for accommodating a filter immersed in a cleaning liquid, and a superconducting member provided in a position facing the filter in the cleaning tank. In a filter cleaning apparatus including a sonic oscillator and a decompression unit for decompressing the inside of the cleaning tank, the ultrasonic oscillator is configured to generate ultrasonic waves of different frequencies. It is a thing.

According to the filter cleaning apparatus of the present invention, by generating ultrasonic waves of different frequencies, for example, the frequency of ultrasonic waves is adjusted without adjusting the relative distance between the ultrasonic transducer and the filter. By adjusting the frequency of the ultrasonic waves with the ultrasonic wave adjusting means, it is possible to easily apply the "belly" portion where the ultrasonic wave energy is high to the filter.

Further, by reducing the pressure or the vacuum state in the cleaning tank, it is possible to remove the air adhering to or contained in the surface or inside of the filter when the filter is immersed in the cleaning liquid in the cleaning tank. The filter can be easily impregnated with the cleaning liquid, the cleaning effect can be enhanced and the cleaning time can be shortened.

In the present invention, it is preferable that the depressurizing means is configured to bring the inside of the cleaning tank into a vacuum state, and the depressurizing means is controlled to repeat a depressurized state and a normal pressure state. Is also good. By repeating the depressurization and the normal pressure in this way, dust and the like attached to the filter can be easily removed.

Further, the present invention is a filter cleaning method for cleaning a filter by generating a plurality of ultrasonic waves having different frequencies in the filter in the cleaning tank while reducing the pressure in the cleaning tank.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION Next, an embodiment of a filter cleaning device according to the present invention will be described. FIG. 1A is a plan view showing a state where the filter 1 to be washed by the washing apparatus according to the present embodiment is housed in a washing filter case 2 for fixing the filter, and FIG. It is the front view and (c) is the side view. Filter 1
Is formed in a rectangular parallelepiped shape, and the one shown in FIG. 1 is a filter 1 having a regular size (W610 × D290 × H610). The filter 1 is made of, for example, non-woven polypropylene fiber, and is used in buildings and the like.

The filter case 2 for cleaning the filter 1 is
It is composed of a metal frame body which covers the filter 1 from the bottom surface and has an upper opening. A pair of arms 3 and 3 project from both sides of the cleaning filter case 2,
The reference numeral 3 is formed in the shape of an inverted triangular triangular prism. The filter 1 is conveyed to the cleaning device while being housed in the cleaning filter case 2, but the filter 1 is moved into the cleaning device while the pair of arms 3 and 3 are supported by the transfer device (not shown). It is carried out by lifting 1 together with the cleaning filter case 2 and moving it forward, backward, leftward and rightward.
In this embodiment, the arms 3 and 3 are provided as the supported members on both side surfaces of the filter case 2, but the present invention is not limited to this. For example, the supported members may be provided on the upper portion of the filter case 2. In this case, it is preferable that the supported member is formed in a shape in which the filter case 2 can be suspended by the transport device.

Further, in the opening above the cleaning filter case 2, metal fixing bands 4 and 4 for fixing the filter 1 from the upper surface when the filter 1 is housed in the cleaning filter case 2 are detachable. A pair of fixing bands 4 and 4 are provided, and when the filter 1 is immersed in the cleaning liquid of the cleaning device in the state where the filter 1 is housed in the cleaning filter case 2, the filter 1 floats up from the cleaning filter case 2. It has a function to prevent it from coming off.

Next, the cleaning apparatus according to this embodiment will be described with reference to FIG. FIG. 2 is a schematic view of the cleaning device 5 according to this embodiment. The cleaning device 5 includes a cleaning tank 6 that accommodates the filter 1 immersed in a cleaning liquid, and an ultrasonic transducer 7 provided at a position facing the filter 1 in the cleaning tank 6.
a, 7b, a water treatment device 8 provided outside the cleaning tank 6 for removing dirt of the cleaning liquid in the cleaning tank 6, and transport pipes 9a, 9b, 9c for connecting the cleaning tank 6 and the water treatment device 8 to each other. ,
A pump 10 that circulates a cleaning liquid in a circulation path formed by the transfer pipe 9a, the cleaning tank 6, the transfer pipe 9b, and the water treatment device 8, and a control device 11 that controls the ultrasonic vibrator 7, the pump 10, and the like. , Are provided.

The cleaning tank 6 is formed in a substantially rectangular parallelepiped shape with an open top, and a step 12 protruding outward is formed above the side surface on the downstream side (right side in FIG. 2) of the cleaning tank 6. ing. On the upstream side (on the left side in FIG. 2) of the cleaning tank 6, a supply pipe 13 for supplying the cleaning liquid into the cleaning tank 6 is provided over almost the entire longitudinal direction of the cleaning tank 6, and the supply pipe 1
The lower end 13a of the No. 3 protrudes from the bottom surface of the cleaning tank 6 and is connected to the transfer pipe 9a connected to the pump 10. As shown in FIG. 3, the supply pipe 13 is formed with laterally branched branch pipes 14, 15, and 16, and the branch pipes 14, 15, and 16 have supply ports 14a, 15a, and
16a are formed respectively. Step 12 of cleaning tank 6
A first outlet 17 is formed at the bottom surface of the first outlet 17, and the first outlet 17 is connected to a transport pipe 9b connected to the water treatment device 8. Also, the water treatment device 8 and the pump 1
0s are connected by a transport pipe 9c. Therefore, by operating the pump 10, the pump 10 →
The cleaning liquid can be circulated through the transfer pipe 9a → the cleaning tank 6 → the transfer pipe 9b → the water treatment device 8 → the transfer pipe 9c → the pump 10. At this time, the supply pipe 13 in the cleaning tank 6 to the first discharge port 17 A heading water stream can be generated. Further, since the water treatment device 8 is interposed in this circulation path, the cleaning liquid from which dirt and the like have been removed can always be supplied into the cleaning tank 6. Further, a second discharge port 18 for discharging the cleaning liquid in the cleaning tank 6 is provided on the bottom surface on the downstream side of the cleaning tank 6, and the second discharge port 18 is provided with a bulk (not shown). There is. When the cleaning liquid in the cleaning tank 6 is discharged, this bulk is opened. In the present embodiment, the pump 10 is configured so that the flow velocity of the water flow in the cleaning tank 6 can be changed, and the flow velocity is controlled by the control device 11.

The cleaning tank 6 is constructed so that the filter 1 is carried into the cleaning tank 6 substantially at the center thereof with the direction of the water flow in the cleaning tank 6 and the thickness direction of the filter 1 being parallel to each other. Between the filter 1 and the supply pipe 13 installed in the cleaning tank 6, four ultrasonic transducers 7a are provided in a state where two ultrasonic transducers 7a are arranged side by side with a slight gap left, right, top, and bottom. Also on the downstream side of the filter 1, four ultrasonic transducers 7b are provided in a state where two ultrasonic transducers 7b are arranged side by side with some gaps vertically and horizontally. The ultrasonic transducers 7a and 7b are supported by the support frames 19a and 19b in a state of facing each other over substantially the entire front surface 1A or back surface 1B of the filter 1 installed in the cleaning tank 6. The upper branch pipe 14 of the supply pipe 13 is
The branch pipe 15 in the middle stage is located at a position higher than the ultrasonic transducers 7a and 7b, and is located at the same height as the vertical gap between the ultrasonic transducers 7a and 7b, and the branch pipe 16 in the lower stage is ,
Since the ultrasonic transducers 7a and 7b are arranged at a position lower than the ultrasonic transducers 7a and 7b, a water flow of the cleaning liquid can be smoothly generated in the cleaning tank 6 through the supply ports 14a, 15a and 16a.

In this embodiment, the ultrasonic transducers 7a, 7a
b is configured so as to be able to generate three types of ultrasonic waves (28 kHz, 45 kHz, 100 kHz) having different frequencies and a composite wave that combines these three types of ultrasonic waves, as shown in FIG. 11, a composite wave is constantly generated, ultrasonic waves of three different frequencies are alternately generated at predetermined time intervals, for example, every 10 seconds, or ultrasonic waves of any one frequency are selected and generated. Is controlled.

When a composite wave is constantly generated, as shown in FIG. 4, the "antinode" where the ultrasonic energy is high can be maintained for a long time, so that the ultrasonic energy is distributed over almost the entire area in the thickness direction of the filter. The high “belly” can be applied, and dust and the like can be efficiently removed from the filter. When the ultrasonic waves of three different frequencies are alternately generated every predetermined time, the position of the "belly" where the ultrasonic energy is high changes the position where it hits the filter in the thickness direction of the filter, so the ultrasonic energy is high. "Belly"
It is possible to apply the above-mentioned portion over the entire area of the filter, and efficient cleaning can be performed. Further, when an ultrasonic wave of any one of the frequencies is selected and generated, the ultrasonic wave having a high "energy" part corresponds to the most dirty part of the filter.

The ultrasonic transducers 7a and 7b are controlled by the control device 11 to simultaneously generate ultrasonic waves or to alternately generate ultrasonic waves at predetermined time intervals, for example, every 5 seconds. When the ultrasonic waves are alternately generated every predetermined time, the ultrasonic waves that hit the filter can be changed, so that the filter can be stimulated and efficient cleaning can be performed.

Further, in the cleaning apparatus according to this embodiment, a shutter 21 capable of sealing the inside of the cleaning tank 6 is provided in the opening 6a on the upper surface of the cleaning tank 6 so as to be openable and closable, and the side surface of the step 12 is cleaned. Suction pump 2 for sucking the air in the tank 6
An intake port 23 connected to 2 is provided. The shutter 21 and the suction pump 22 are connected to the control device 11 and controlled by the control device 11.

In the filter cleaning apparatus according to this embodiment, after the filter 1 is housed in the cleaning tank 6, the shutter 21 is closed to make the cleaning tank 6 airtight, and the suction pump 22 is operated to operate the suction port 23. The inside of the cleaning tank 6 is depressurized or vacuumed by sucking the air in the cleaning tank 6, and the ultrasonic cleaning is performed in this state. By cleaning the inside of the cleaning tank 6 under reduced pressure or vacuum in this way, when the filter 1 is immersed in the cleaning liquid in the cleaning tank 6, the air adhering to or contained in the surface or inside of the filter 1 is removed. Therefore, the cleaning liquid can be easily impregnated into the filter 1, and the dust and the like inside and outside the filter can be efficiently removed. Further, at this time, the depressurization or vacuum state and the normal pressure state in the cleaning tank 6 may be repeatedly performed, whereby the dust and the like can be easily removed.

FIGS. 5 (a), 5 (b) and 5 (c) are views showing a state in which a half size filter (W350 × D290 × H610) is housed in the cleaning filter case 2. Two half-size filters are washed while being arranged side by side in the width direction. The cleaning apparatus according to the present embodiment can apply a portion of the "belly" where the energy of ultrasonic waves is high over almost the entire area in the thickness direction of the filter, and the ultrasonic waves can be applied over almost the entire area of the front and back surfaces of the filter. Since it is configured to apply a filter, such different size filters can be cleaned.

FIGS. 6A, 6B and 6C are views showing a thin filter (W300 × D25 × 610) housed in a cleaning filter case. Figure 6
As shown in (a), when the thin filter 1 is housed in the cleaning tank 6 of the filter cleaning device according to the present invention, it forms a V-shape opening toward the upstream side and is soiled. Four sets are arranged in parallel so that the surface faces the downstream side. Since they are arranged in a V-shape in parallel, the dust attached to the filter can be easily removed by the water flow. Also,
When the thin filter 1 is housed in a V-shaped cleaning filter case, a fixing plate 26 is provided between the fixing band 4 and the filter 1, and the fixing plate 26 stabilizes the thin filter 1 in the V shape. Can be paralleled.

The cleaning apparatus according to the present invention can easily clean filters of sizes other than these by housing them in the cleaning filter case according to the present invention.

[0025]

As described above, according to the present invention, by depressurizing or vacuuming the inside of the cleaning tank, when the filter is immersed in the cleaning liquid in the cleaning tank, it is attached or contained on the surface or inside of the filter. The air that is being removed can be removed, and this allows the filter to easily permeate the cleaning liquid, improving the cleaning effect and shortening the cleaning time.
It is possible to provide a filter cleaning device and a filter cleaning method using ultrasonic waves that have a simple structure and are easy to operate.

[Brief description of drawings]

FIG. 1A is a plan view of a cleaning filter case for a regular-sized filter, FIG. 1B is a front view thereof, and FIG. 1C is a side view thereof.

FIG. 2 is a schematic view of an embodiment of a filter cleaning device according to the present invention.

FIG. 3 is a front view of a supply pipe used in the filter cleaning apparatus according to the present embodiment.

FIG. 4 is a diagram showing wavelengths of ultrasonic waves used in the filter cleaning apparatus according to the present embodiment.

5A is a plan view of a cleaning filter case for a half size filter, FIG. 5B is a front view thereof, and FIG. 5C is a side view thereof.

6A is a plan view of a cleaning filter case for a thin filter, FIG. 6B is a front view thereof, and FIG. 6C is a side view thereof.

FIG. 7 is a perspective view of a conventional filter.

FIG. 8 is a perspective view of a conventional filter cleaning device.

[Explanation of symbols]

1 filter 2 Cleaning filter case 3 arms (instructed member) 4 Fixed band (floating prevention member) 6 cleaning tank 7a, 7b Ultrasonic transducer 8 water treatment equipment 22 Suction pump 23 Inlet

─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Shigeki Naobayashi 1580 Tabata, Samukawa-cho, Takaza-gun, Kanagawa Yushiro Chemical Industry Co., Ltd. (72) Hideki Negoro 1580 Tabata, Sakawa-cho, Takaza-gun, Kanagawa Yushiro Chemical Industry Co., Ltd. (56) References JP-A-7-185484 (JP, A) JP-A-11-102881 (JP, A) Actual development Sho 57-35815 (JP, U) (58) Fields investigated (Int.Cl. ⁷⁾ , DB name) B01D 41/00-41/04 B08B 3/12

Claims (5)

(57) [Claims] 1. A cleaning tank (6) for containing the filter (1) in a state of being immersed in a cleaning liquid, and an ultrasonic transducer (6) provided at a position facing the filter (1) in the cleaning tank (6). 7
a, 7b) and a decompression means (22, 23) for decompressing the inside of the cleaning tank (6), wherein the ultrasonic transducer (7a, 7b) is at least 2
One of by generating ultrasonic waves of different frequencies, the washing
A filter cleaning device, which is configured to generate a composite wave in a cleaning tank (6) . 2. The ultrasonic transducers (7a, 7b) are
Also configured to sequentially generate ultrasonic waves of different frequencies
And the generation of the composite wave in the cleaning tank (6)
It is possible to selectively execute the sequential generation of the ultrasonic waves.
The filter according to claim 1, characterized in that
Ruta cleaning device . 3. The ultrasonic transducers (7a, 7b) are
Generates only a single wave selected from ultrasonic waves of different frequencies
The cleaning tank (6) is also configured to
The generation of the composite wave, the sequential generation of the ultrasonic waves, and the single wave.
Configured to selectively generate and generate a single wave
The filter cleaning device according to claim 2, wherein
Place Wherein said pressure reducing means (22, 23), the washing of the filter according to any one of claims 1 to 3, characterized in that it is configured so as to be evacuated the cleaning tank apparatus. 5. In the state where the inside of the cleaning tank is set to the above, at least two ultrasonic waves having different frequencies are generated in the filter in the cleaning tank, and a composite wave is generated in the cleaning tank (6) to filter the filter. How to clean the filter.