JP2006234187A - Filter device for air-conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a filter device for an air-conditioner having high performance air filter cleaning capability and requiring greatly reduced labor for maintenance. <P>SOLUTION: In such a system that a suction nozzle has a driveable belt 503 with a suction hole 504 and a brush 505 for cleaning an air filter with sweeping operation while changing its suction cleaning position, a groove is formed in the face of a belt guide 506 in contact with the belt 503 of the suction nozzle 501 for reducing the contact area to reduce the driving torque of the belt 503. Thus, the suction nozzle (a cleaning nozzle) has high cleaning performance with a combination of brushing and suction under stable operation of the belt 503. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a filter device for an air conditioner that automatically cleans an air filter.

  In the conventional air conditioner filter device, an air filter for preventing dust from entering the inside of the air conditioner main body is provided on the front surface of the heat exchanger. It is configured to be detachable so that it can be cleaned. The filter device with such a configuration not only requires frequent maintenance, but the air filter gradually clogs until maintenance is performed, resulting in a reduction in the amount of air passing through the heat exchanger. As a result, the air conditioning capacity is reduced, leading to an increase in power consumption.

For this reason, for the purpose of reducing the maintenance work of the air filter, a filter device that scrapes off dust attached to the air filter with a brush for cleaning as in Patent Document 1 or an air filter as in Patent Document 2 A filter device has been devised that cleans the generated dust by suction.
JP-A-6-74521 JP 2002-340395 A

  However, in the above prior art, when the brush is scraped off and cleaned, dust is entangled with the brush or the dust collected by scraping must be processed, and the maintenance work is not greatly reduced. was there.

  An object of the present invention is to solve the above-mentioned conventional problems, and to provide a filter device for an air conditioner that has a high-performance air filter cleaning capability and can greatly reduce maintenance work.

  In order to solve the above-described conventional problems, a filter device for an air conditioner according to the present invention is a cleaning nozzle including a drivable belt and a belt guide for moving the belt along the cleaning nozzle, and includes at least the cleaning nozzle and the belt guide. One is provided with a protrusion, a depression, or a groove.

  As a result, the sliding friction of the cleaning nozzle belt can be reduced and the driving torque of the belt can be reduced.Therefore, a method of cleaning by attaching a brush to the belt and driving the brush, or providing a suction hole in the belt. It is possible to perform a cleaning method by sweeping the suction position under a stable belt operation, and a cleaning nozzle that exhibits high cleaning performance can be realized. In addition, since a gap is formed between the belt, the cleaning nozzle, and the belt guide, dust attached to the belt surface can be released in the gap, and the belt can be prevented from being damaged and the reliability of the cleaning nozzle can be improved. .

  The filter device of the air conditioner of the present invention is a cleaning nozzle having a drivable belt and a belt guide for allowing the belt to follow the cleaning nozzle, and a cloth is attached to at least one of the cleaning nozzle and the belt guide. It is.

  As a result, the sliding friction of the cleaning nozzle belt can be further reduced and the driving torque can be reduced.At the same time, even if oil adheres to the belt, the cloth wipes off the oil. It is possible to prevent the sliding resistance from increasing and the operation from becoming unstable. Further, since the cloth also wipes off dust adhering to the belt surface, the belt can be prevented from being damaged and the reliability of the cleaning nozzle can be improved.

  The filter device of the air conditioner of the present invention can perform a stable belt operation by reducing the sliding friction of the belt of the cleaning nozzle and lowering the driving torque of the belt. A cleaning method by driving and a cleaning method by providing a suction hole in the belt and sweeping the suction position to perform cleaning are possible, and a filter cleaning device that cleans dust of various air filters can be realized.

  1st invention is the filter apparatus of the air conditioner which comprised the air filter and the cleaning nozzle which cleans an air filter, The cleaning nozzle is equipped with the belt which can drive a belt, and the belt guide along a cleaning nozzle, By providing a plurality of projections on at least one of the cleaning nozzle and the belt guide, the sliding friction of the cleaning nozzle belt can be reduced and the driving torque of the belt can be reduced. It is possible to perform cleaning by driving the belt, or by cleaning the belt by providing a suction hole in the belt and sweeping the suction position to achieve high cleaning performance. A cleaning nozzle can be realized. Further, since the belt drive may be performed with low torque, the belt drive motor can be reduced in size, and the filter device can be reduced in size and cost. In addition, since there is a gap between the belt and the cleaning nozzle and belt guide, dust adhering to the belt surface can be escaped through the gap, preventing damage to the belt and improving the reliability of the cleaning nozzle. it can.

  The second invention is an air conditioner filter device comprising an air filter and a cleaning nozzle for cleaning the air filter, wherein the cleaning nozzle comprises a drivable belt and a belt guide along the belt along the cleaning nozzle, By providing a plurality of indentations in at least one of the cleaning nozzle and belt guide, the sliding friction of the belt of the cleaning nozzle can be reduced and the belt driving torque can be reduced, while the belt is damaged. In addition, the reliability of the cleaning nozzle can be improved. Further, the cleaning nozzle can be made thinner, and the filter device can be made thinner.

  The third invention is an air conditioner filter device comprising an air filter and a cleaning nozzle for cleaning the air filter, wherein the cleaning nozzle comprises a drivable belt and a belt guide that runs along the cleaning nozzle, By providing a plurality of grooves on at least one of the cleaning nozzle and the belt guide, the sliding friction of the cleaning nozzle belt can be further reduced while the cleaning nozzle is made thin.

  In the fourth aspect of the invention, the sliding friction of the belt of the cleaning nozzle can be further reduced by providing the grooves in the third aspect of the invention obliquely with respect to the belt driving direction. Further, since the dust adhering to the belt surface is carried out while the belt is driven, the belt can be prevented from being damaged by the dust, and the reliability of the belt can be further improved.

5th invention is the filter apparatus of the air conditioner which comprised the air filter and the cleaning nozzle which cleans an air filter, The cleaning nozzle comprises a belt which can be driven, and a belt guide which makes a belt run along a cleaning nozzle, By attaching a cloth to at least one of the cleaning nozzle and the belt guide, the sliding friction of the cleaning nozzle belt can be further reduced, and the driving torque can be reduced. Since the cloth wipes off the oil, it can be prevented that the sliding resistance of the belt increases due to the oil or the like and the operation becomes unstable. Further, since the cloth also wipes off dust adhering to the belt surface, the belt can be prevented from being damaged and the reliability of the cleaning nozzle can be improved.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
FIG. 1 is an overall configuration diagram of a filter device for an air conditioner according to a first embodiment of the present invention. In this figure, an air filter for removing dust from air passing through a heat exchanger is composed of a filter frame 101 and a filter net 102, and a suction nozzle 103 is provided as a cleaning nozzle movable along the surface of the air filter. It is done. The suction nozzle 103 can smoothly move to the left and right while maintaining a certain distance from the air filter by the guide rails 104 installed at the upper and lower ends of the filter frame. A suction duct 105 is connected to the suction nozzle 103, and the suction duct 105 is further connected to a suction device 106. The suction duct 105 is formed of a duct that can be bent so as not to interfere with the movement of the suction nozzle 103. Further, an exhaust duct 107 is connected to the suction device 106 and is routed outside. Dust adhering to the air filter is sucked from the suction nozzle 103 and further discharged to the outside through the suction duct 105, the suction device 106, and the exhaust duct 107. In this configuration, it is necessary to reduce the size and output of the suction device when the filter device is built in a small air conditioner for general household use. Therefore, it is necessary to be able to exert a strong suction force with a small air volume. First, the suction nozzle 103 uses a suction position switching device that cleans the entire surface of the air filter by increasing the suction force by narrowing the suction to a part and switching the position. Therefore, next, details of the suction nozzle 103 (= cleaning nozzle) in the first embodiment including the suction position switching device will be described.

  FIG. 2 shows the structure of the suction nozzle of the filter device of the air conditioner according to the first embodiment of the present invention.

  In FIG. 2, the suction nozzle body 201 is provided with a long slit-like opening 202 corresponding to the entire length of the air filter, and further, a suction hole 204 is provided in the belt 203 that can be driven along the opening 202 to thereby open the opening. The suction position switching device is configured by allowing suction from only a part of 202 and changing the place of suction by driving the belt 203. With such a configuration, even with a small amount of air, the air can be narrowed down to a small suction hole, so that the wind speed of the suction hole increases, and a strong suction force can be exhibited even with a small suction device. In order to clean the entire surface of the air filter, as shown in FIG. 3, the belt 302 of the suction nozzle 301 is driven to change the position of the suction hole 303, and the suction nozzle 301 is driven left and right along the air filter 305. The entire surface can be cleaned by sweeping the suction hole 303 as shown by the arrow in the drawing. In FIG. 3, the suction hole 303 has a length that is ¼ of the entire length of the air filter, and the entire surface of the air filter is cleaned by four reciprocating sweep operations as indicated by arrows in the drawing. Returning to FIG. 2, the brush 205 is fixed to the surface of the belt 203 next to the suction hole 204, and the position of the brush can be changed together with the suction hole by driving the belt. The brush drive linked to the device is realized. As a result, the dust strongly adhered to the air filter is scraped off with the brush 205, and high cleaning performance can be exhibited by sucking it with the suction hole 204. Since the belt 203 follows the suction nozzle body 201, the belt 203 is incorporated in the suction nozzle body 201 or is covered with a belt guide 206 that is integrally formed (formed integrally by welding or bonding).

  By the way, in the suction nozzle of this configuration, it is necessary to consider the following two points. The first is how to reduce suction leakage at locations other than the suction holes 204. The suction nozzle body 201 is provided with an opening 202. However, the belt 203 needs to be in close contact with the suction nozzle body 201 to seal the opening 202 except for the position of the suction hole 204. Secondly, since the brush 205 receives a corresponding resistance by rubbing, the belt 203 provided with the brush 205 is not turned up by this resistance force, so that the cleaning operation does not become unstable. Therefore, the belt 203 must be firmly held on the suction nozzle body 201. In order to deal with the above two points, it is indispensable to sandwich the belt 203 between the suction nozzle body 201 and the belt guide 206 with as little clearance as possible. However, since the belt 203 must be driven to change the suction hole position, the sliding friction of the belt 203 increases as the clearance decreases, and the driving of the belt 203 becomes unstable. In addition, since the belt 203 is rubbed with the suction nozzle main body 201 and the belt guide 206, a problem in reliability such as damage to the surface of the belt 203 occurs. In particular, the belt 203 needs to be flexible in order to cope with the 180-degree bending at the tip and root of the suction nozzle. For this reason, the belt 203 needs to be thinned. Can lead to tears. Furthermore, since the sliding friction is increased, a large torque is required for the motor that drives the belt 203, and the size of the filter device becomes larger. Will be invited.

  Therefore, in the first embodiment, a plurality of fine circular protrusions 207 are provided at the contact portion of the belt guide 206 with the belt 203. The protrusions are distributed so as to hold the belt 203 uniformly. With such a configuration, the belt 203 is pressed against the suction nozzle main body 201 at the tip of the protrusion 207 as shown in FIG. Therefore, the sliding resistance when driving the belt 203 can be greatly reduced. On the other hand, since the belt 203 is pressed against the suction nozzle body 201 with a very small clearance, almost no suction leakage occurs except for the suction holes 204, so that the suction holes 204 can exert a strong suction force. Further, since the protrusion 207 holds the belt 203 uniformly, the belt 203 can hold the brush 205 firmly, and the operation of the brush 205 can be stabilized. As a result, a cleaning nozzle (= suction nozzle) having high cleaning performance in which dust removal on the air filter by the brush 205 and strong suction by the suction hole 204 are used together can be configured in a small size and at low cost.

  Although not shown in the first embodiment, if the protrusions are provided not only on the part where the belt guide 206 is provided but also on the whole part of the suction nozzle body 201 and in contact with the belt 203, the belt 203 is more Needless to say, the sliding resistance during driving can be reduced.

(Embodiment 2)
An overall configuration diagram of a filter device for an air conditioner according to the second embodiment of the present invention is the same as that described with reference to FIG.

FIG. 4 shows the structure of the suction nozzle of the filter device of the air conditioner according to the second embodiment of the present invention.
In FIG. 4, the suction nozzle main body 401 is provided with a long slit-like opening 402 corresponding to the entire length of the air filter, and further, a suction hole 404 is provided in the belt 403 that can be driven along the opening 402 to thereby open the opening. The suction position switching device is configured by allowing suction from only a part of 402 and changing the place of suction by driving the belt 403. Further, a brush 405 is fixed to the surface of the belt 403 next to the suction hole 404, and the brush position can be changed together with the suction hole by driving the belt. Drive is realized. Since the belt 403 follows the suction nozzle body 401, the belt 403 is incorporated in the suction nozzle body 401 or is covered with a belt guide 406 formed integrally (formed integrally by welding or adhesion).

  In the second embodiment, a plurality of fine circular indentations 407 (such as golf ball dimples) are formed on both the contact portion of the belt guide 406 with the belt 403 and the contact portion of the suction nozzle body 401 with the belt 403. There is a hollow. With such a configuration, the contact area between the belt 403 and the belt guide 406 can be reduced by the depression 407, as shown in FIG. The sliding resistance when driving can be greatly reduced. On the other hand, since the belt 403 is pressed against the suction nozzle body 401 with a very small clearance, almost no suction leakage occurs except for the suction holes 404, so that the suction holes 404 can exert a strong suction force. Since the belt guide 406 holds the belt 403 uniformly, the belt 403 can hold the brush 405 firmly, and a stable operation of the brush 405 is possible. Furthermore, the protrusion described in the first embodiment of the present invention is difficult to cause a suction leak because it causes the belt 403 to float when it is provided on the suction nozzle main body 401. Since 403 can be brought into close contact with the suction nozzle main body 401, there is no fear of causing suction leakage, so that it is easy to provide, and the sliding resistance when the belt 403 is driven can be greatly reduced. In addition, since the force concentrates at one point on the tip of the protrusion, the belt 403 was easily damaged. However, if it is a depression, the force is received on the dispersed surface (= a place other than the depression), so the belt is not damaged. Therefore, the reliability of the suction nozzle can be improved. Accordingly, a cleaning nozzle (= suction nozzle) having a high cleaning performance using a combination of peeling off dust on the air filter by the brush 405 and powerful suction by the suction hole 404 can be configured in a small size and at low cost.

  Furthermore, since it can be provided within the thickness of the casing of the belt guide 406 or the suction nozzle body 401 if it is a depression, the suction nozzle can be configured to be thin.

  Further, although not shown in the second embodiment, the belt 403 can be further removed by providing a recess not only in the portion where the belt guide 406 is provided but also in the portion that contacts the belt 403 over the entire circumference of the suction nozzle body 401. Needless to say, the sliding resistance during driving can be reduced.

(Embodiment 3)
An overall configuration diagram of a filter device for an air conditioner according to the third embodiment of the present invention is the same as that described with reference to FIG.

FIG. 5 shows the structure of the suction nozzle of the filter device of the air conditioner according to the third embodiment of the present invention.
In FIG. 5, the suction nozzle body 501 is provided with a long slit-like opening 502 corresponding to the entire length of the air filter, and further, a suction hole 504 is provided in a belt 503 that can be driven along the opening 502 to thereby open the opening. The suction position switching device is configured by allowing suction from only a part of 502 and changing the place of suction by driving the belt 503. Further, a brush 505 is fixed to the surface of the belt 503 next to the suction hole 504, and the brush position can be changed together with the suction hole by driving the belt, so that the brush linked to the suction position switching device can be changed. Drive is realized. Further, since the belt 503 follows the suction nozzle body 501, the belt 503 is incorporated in the suction nozzle body 501 or covered with a belt guide 506 formed integrally (formed integrally by welding or adhesion).

  In the third embodiment, both the contact portion of the belt guide 506 with the belt 503 and the contact portion of the suction nozzle body 501 with the belt 503 have a plurality of fine details at an angle of 45 degrees with respect to the driving direction of the belt 503. A groove 507 is provided. With this configuration, the contact area between the belt 503 and the belt guide 506 and the contact area between the belt 503 and the suction nozzle body 501 are the groove 507 as shown in FIG. Therefore, the sliding resistance when driving the belt 503 can be greatly reduced. On the other hand, since the belt 503 is pressed against the suction nozzle main body 501 with a very small clearance, almost no suction leakage occurs except for the suction holes 504, so that the suction holes 504 can exert a strong suction force. Since the belt guide 506 holds the belt 503 uniformly, the belt 503 can hold the brush 505 firmly, and a stable operation of the brush 505 is possible. Further, even if the groove 507 is received, the force received by the belt 503 is received by the dispersed surface (= the portion other than the groove), so that the belt is not damaged and the reliability of the suction nozzle can be improved. Accordingly, a cleaning nozzle (= suction nozzle) having a high cleaning performance that uses both the dust peeling on the air filter by the brush 505 and the powerful suction by the suction hole 504 can be configured in a small size and at low cost. Furthermore, since the groove can be provided within the thickness of the casing of the belt guide 506 or the suction nozzle body 501, the suction nozzle can be configured to be thin.

  Although not shown in the third embodiment, if a groove is provided not only in the portion where the belt guide 506 is provided but also in the portion that contacts the belt 503 over the entire circumference of the suction nozzle body 501, the belt 503 can be further provided. Needless to say, the sliding resistance during driving can be reduced.

  By the way, when the cleaning using the brush and the suction is performed for a long time by the above-described method, the dust gradually adheres to the surface of the belt 503. This includes not only fibers but also fine dust and the like. If the driving of the belt 503 is repeated in order to switch the suction cleaning position in this state, the dust damages the surface of the belt 503, tears, etc. There is a possibility of reaching to. Therefore, in the third embodiment, the groove 507 is provided at an oblique angle of 45 degrees with respect to the driving direction of the belt 503. As a result, as the belt 503 is driven, a force for rubbing the belt 503 and the groove 507 acts laterally with respect to the dust (relative to the belt driving direction). It will be carried out of 503. Therefore, the clearance between the belt 503 and the belt guide 506 and the clearance between the belt 503 and the suction nozzle main body 501 can always be kept clean, and the belt 503 can be prevented from being damaged by dust.

(Embodiment 4)
An overall configuration diagram of a filter device for an air conditioner according to a fourth embodiment of the present invention is the same as that described with reference to FIG.

FIG. 6 shows the structure of the suction nozzle of the filter device of the air conditioner according to the fourth embodiment of the present invention.
In FIG. 6, the suction nozzle body 601 is provided with a long slit-shaped opening 602 corresponding to the entire length of the air filter, and further, a suction hole 604 is provided in the belt 603 that can be driven along the opening 602 to thereby open the opening. The suction position switching device is configured by allowing suction from only a part of the portion 602 and changing the place of suction by driving the belt 603. Further, a brush 605 is fixed to the surface of the belt 603 next to the suction hole 604, and the brush position can be changed together with the suction hole by driving the belt, so that the brush linked to the suction position switching device can be changed. Drive is realized. Further, since the belt 603 follows the suction nozzle body 601, the belt 603 is incorporated in the suction nozzle body 601 or covered with a belt guide 606 formed integrally (formed integrally by welding or adhesion).

  In the fourth embodiment, the thin nonwoven fabric 607 is attached to both the contact portion of the belt guide 606 with the belt 603 and the contact portion of the suction nozzle body 601 with the belt 603. With such a configuration, the belt 603 is in close contact with the non-woven fabric 607 as shown in FIG. Since the nonwoven fabric 607 is made of fine fibers, especially when a resin film made of PEN or PET is used for the belt 603, the sliding resistance of the belt 603 can be greatly reduced. Further, because of the low sliding resistance, the belt 603 can be sandwiched between the nonwoven fabric stuck to the suction nozzle body 501 and the nonwoven fabric stuck to the belt guide 606 without any clearance, and thus the suction leakage is greatly suppressed and strong. The belt guide 606 can uniformly hold the belt 603 over the entire belt guide, so that the belt 603 can hold the brush 605 firmly and a stable operation of the brush 605 is possible. Further, since the nonwoven fabric 607 is soft and elastic, it has the effect of stroking the surface of the belt 603, and the belt 603 can be prevented from being damaged, and the reliability of the suction nozzle can be improved. Accordingly, a cleaning nozzle (= suction nozzle) having high cleaning performance that uses both the dust peeling on the air filter by the brush 605 and the powerful suction by the suction hole 604 can be configured in a small size and at low cost.

  Further, although not shown in the fourth embodiment, if a groove is provided not only in the portion where the belt guide 606 is provided but also in the portion contacting the belt 603 over the entire circumference of the suction nozzle main body 601, the belt 603 can be further provided. Needless to say, the sliding resistance during driving can be reduced.

  By the way, when cleaning using a brush and suction in combination with the above method is performed for a long time, depending on the use environment, not only dust but also adhesive components such as oil and tobacco dust are gradually formed on the surface of the belt 603. May adhere. This adhesive component greatly increases the sliding resistance when the belt 603 is driven. However, when the non-woven fabric 607 is provided in the configuration of the fourth embodiment, the non-woven fabric 607 wipes off the adhesive component adhering to the surface of the belt 603 at the same time as the belt 603 is driven. As a result, it becomes possible to continue to use a cleaning nozzle (= suction nozzle) having high cleaning performance without maintenance for a long period of time even in an environment with a lot of oil or tobacco dust.

  Of course, it is needless to say that not only a nonwoven fabric but also a raised cloth or an ordinary cloth may be used.

  As described above, the filter device of the air conditioner according to the present invention can reduce the driving torque of the belt of the cleaning nozzle and also improve the adhesion of the belt to the cleaning nozzle. It is possible to perform cleaning by driving the brush and cleaning by sweeping the suction position by providing a suction hole in the belt, thus realizing a filter cleaning device that cleans various air filter dust It can be applied to filter devices that automatically clean not only air filters for air conditioners but also devices with cooling fans (for example, air filters for stabilized power supplies), and other than air filters such as windows It can also be applied to cleaning devices that automatically clean things.

The perspective view which shows the whole structure of the filter apparatus of the air conditioner in Embodiment 1 of this invention. The perspective view and sectional drawing which show the structure of the suction nozzle of the filter apparatus of the air conditioner in Embodiment 1 of this invention The schematic diagram which shows the operation | movement of the cleaning in the suction nozzle of the filter apparatus of the air conditioner in Embodiment 1 of this invention. The perspective view and sectional drawing which show the structure of the suction nozzle of the filter apparatus of the air conditioner in Embodiment 2 of this invention The perspective view and sectional drawing which show the structure of the suction nozzle of the filter apparatus of the air conditioner in Embodiment 3 of this invention The perspective view and sectional drawing which show the structure of the suction nozzle of the filter apparatus of the air conditioner in Embodiment 4 of this invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 101 Filter frame 102 Filter network 103 Suction nozzle 104 Guide rail 105 Suction duct 106 Suction device 107 Exhaust duct 201 Suction nozzle body 202 Opening 203 Belt 204 Suction hole 205 Brush 206 Belt guide 207 Projection 301 Suction nozzle 302 Belt 303 Suction hole 304 Brush 305 Air filter 401 Suction nozzle main body 402 Opening portion 403 Belt 404 Suction hole 405 Brush 406 Belt guide 407 Recess 501 Suction nozzle main body 502 Opening portion 503 Belt 504 Suction hole 505 Brush 506 Belt guide 507 Groove 601 Suction nozzle main body 602 Opening portion 603 604 Suction hole 605 Brush 606 Belt guide 607 Non-woven fabric

Claims (5)

An air filter and a cleaning nozzle for cleaning the air filter are provided. The cleaning nozzle includes a driveable belt and a belt guide for moving the belt along the cleaning nozzle. A plurality of protrusions are provided on at least one of the cleaning nozzle and the belt guide. An air conditioner filter device characterized by comprising: An air filter and a cleaning nozzle for cleaning the air filter are provided. The cleaning nozzle includes a driveable belt and a belt guide for moving the belt along the cleaning nozzle. A plurality of indentations are provided in at least one of the cleaning nozzle and the belt guide. An air conditioner filter device characterized by comprising: An air filter and a cleaning nozzle for cleaning the air filter are provided. The cleaning nozzle includes a driveable belt and a belt guide for moving the belt along the cleaning nozzle. A plurality of grooves are provided in at least one of the cleaning nozzle and the belt guide. An air conditioner filter device characterized by comprising: 4. The filter device for an air conditioner according to claim 3, wherein the groove of the belt guide is provided obliquely with respect to the driving direction of the belt. An air filter and a cleaning nozzle for cleaning the air filter are provided. The cleaning nozzle includes a driveable belt and a belt guide for moving the belt along the cleaning nozzle. A cloth is attached to at least one of the cleaning nozzle and the belt guide. An air conditioner filter device characterized by the above.

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