JP2004033648A - Air purifier - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To keep the same level between pressure drops of filters in a time for the replacement as much as possible by making the time for replacing a dust collection filter variable by using the level of a used airflow. <P>SOLUTION: An air purifier determines whether the times for replacement comes for an ultraviolet lamp 12, a photocatalytic filter 13, and the dust collection filter 11 in this order, respectively (S3, S12, S21). If the time for the replacement comes, a corresponding replacement sign 17 flashes (S4, S13, S23), and the device is forced to stop (S29). If one of the items is within a time to display the replacement sign 17 (S5, S20, S22: YES), the air purifier determines whether the time for the replacement of the other items are within an adjustment time (S6, S8, S14, S16, S24, S26). If it is true, the corresponding replacement sign 17 is turned on (S7, S9, S11, S15, S17, S19, S25, S27, S30). A time for replacing the dust collection filter 11 is calculated by converting an operation time in the airflow in use into an operation time in a low airflow (S38). <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air purifier.
[0002]
[Prior art]
As a conventional air purifier, air in the room is taken in from the suction port at the bottom of the device, dust is captured by a dust collection filter, sterilized by an ultraviolet lamp, deodorized by a photocatalytic filter, and deodorized by a fan, and blown out by a fan. There is known a device configured to blow clean air out of the apparatus from outside.
[0003]
A switch panel provided in such an air purifier is provided with an air volume changeover switch for specifying the amount of air to be sucked and blown out by the operator, in addition to the operation ON / OFF. Is determined by a controller inside the apparatus to control the number of revolutions of the fan and the like.
[0004]
HEPA filters, ULPA filters, etc. are used as dust collection filters, but these are consumables. If dust accumulates, the pressure loss increases and the air volume decreases. When the time has passed, the exchange sign on the switch panel is turned on to encourage the exchange. If the dust collector is used for longer than a predetermined use time, the performance of dust collection is reduced.
[0005]
[Problems to be solved by the invention]
However, the life of the dust collection filter greatly depends on the volume of air used and the environment in which it is used, so if the replacement time is determined uniformly by the usage time, the pressure loss that is actually occurring cannot be reflected well. , The performance may not be replaced even though the performance is degraded, or the performance may be replaced even though it is still fully usable.
[0006]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and an object of the present invention is to make the replacement time of a dust collection filter variable according to a used airflow level so that the pressure loss of the filter at the time of replacement is made the same as possible. And
[0007]
[Means for Solving the Problems]
In order to achieve the above object, an air purifier according to claim 1 includes a dust collecting filter, an ultraviolet lamp, a deodorizing filter, and a blowing fan in an air passage connecting a suction port and an air outlet formed in a main body. Provided, an air volume changeover switch for switching an air volume per hour of air sucked in from the suction port and blown out from the air outlet, and a dust collection filter replacement time calculation means for calculating a time when the dust collection filter should be replaced, An air purifier comprising: a dust collection filter replacement notifying unit that notifies the arrival of the replacement time from a predetermined period before the replacement time calculated by the dust collection filter replacement time calculation unit. The replacement time is calculated based on the air volume and the operation time at the air volume.
[0008]
In the air purifier having this configuration, the dust filter replacement time calculation means calculates the time at which the dust filter should be replaced based on the air volume per hour of the air passing through the air cleaner and the operation time at the air volume. Do it. Therefore, it is possible to reflect the number of collected dust of the dust collection filter, which depends on the strength of the air volume, at the time of replacement, and to replace the dust collection filter at an appropriate pressure loss level.
[0009]
The air purifier according to claim 2, in addition to the configuration of the air purifier according to claim 1, a stop control for stopping operation when the replacement time calculated by the dust collection filter replacement time calculation means has been reached. Means, the dust collection filter replacement time calculation means calculates a replacement time based on only the operation time during a period in which the dust collection filter replacement notification means is performing notification of the replacement time. And
[0010]
In the air purifier having this configuration, in addition to the effect of the invention described in claim 1, when the replacement time comes, the operation of the device is stopped because the performance of the air purification is reduced. In addition, during the period in which the replacement time is notified, the replacement time is not calculated based on the air volume, but the replacement time is calculated based only on the operation time. Accordingly, since the replacement time does not vary depending on the air volume during the notification period, the operator can easily predict the replacement time, and can perform maintenance such as filter replacement at an appropriate time.
[0011]
An air purifier according to a third aspect is the air purifier according to the first or second aspect, further comprising an ultraviolet lamp replacement time calculating means for calculating a time at which the ultraviolet lamp should be replaced, and an ultraviolet lamp replacement unit. UV lamp replacement notifying means for notifying the arrival of the replacement time from a predetermined period before the replacement time calculated by the time calculation means, deodorizing filter replacement time calculating means for calculating the time when the deodorizing filter should be replaced, and the deodorizing filter A deodorizing filter replacement notifying means for notifying the arrival of the replacement time from a predetermined period before the replacement time calculated by the replacement time calculation means, the replacement time calculated by the dust collection filter replacement time calculation means, and the ultraviolet lamp replacement. The replacement time calculated by the time calculation means or the replacement time calculated by the deodorizing filter replacement time calculation means overlaps within a predetermined period. When it comes, the dust collection filter replacement notifying means and the ultraviolet lamp replacement notifying means or the deodorizing filter replacement notifying means notify the replacement timing in accordance with the earliest replacement timing arriving within the predetermined period. It is characterized by the following.
[0012]
In the air purifier having this configuration, in addition to the operation of the invention described in claim 1 or 2, the ultraviolet lamp and the deodorizing filter are consumables that are scheduled to be periodically replaced, so that the replacement of the dust collection filter that is variable. When another replacement time is near the replacement time, instead of individually notifying the replacement time, the close ones are collectively notified, so that the maintenance labor and cost can be reduced.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a cross-sectional view schematically showing the air purifier 1, FIG. 2 is a block diagram showing a configuration of a control system of the air purifier 1, and FIG. 3 is a dust filter 11, an ultraviolet lamp 12, and a photocatalytic filter 13. 6 is a flowchart of a replacement time calculation / notification process of the first embodiment. As shown in FIG. 1, an air purifier 1 of the present embodiment has an inlet 4 formed below a front panel 3 of a housing 2 and an outlet 5 formed on an upper surface. A switch panel 6 is provided above the housing 2 and connected to a controller 7 inside the housing.
[0014]
An air passage 9 is formed in the housing 2 so that the suction port 4 communicates with the air outlet 5 and a fan 8 disposed on the air outlet side allows air to flow from the air inlet 4 to the air outlet 5. Have been. A pre-filter 10 is mounted on the suction port 4 of the air passage 9. At a substantially center of the air passage, a dust collection filter 11 is fitted across the air passage 9. An ultraviolet lamp 12 is provided above the dust collecting filter 11, and a photocatalytic filter 13 for deodorization is provided further above the ultraviolet lamp.
[0015]
The dust collecting filter 11 is a high-efficiency filter such as a HEPA filter or a ULPA filter, and has a filter medium made of glass fiber formed on pleats. The ultraviolet lamp 12 is disposed orthogonal to the pleating direction of the filter medium of the dust filter 11. The photocatalyst filter 13 is formed of a photocatalyst layer formed by holding titanium oxide excited by the ultraviolet lamp 12 on a base material.
[0016]
As shown in FIG. 2, the switch panel 6 includes an operation switch 14 for activation, an air volume switch 15 for air volume switching, and a high, medium, and weak LED for the current air volume switched by the air volume switch 15. Is turned on, and an air flow sign 16 is shown in three stages, and an LED is turned on when the replacement time of the dust collection filter 11, the ultraviolet lamp 12, and the photocatalyst filter 13 is approaching, and blinks when the replacement time is reached. 17 are provided.
[0017]
The controller 7 includes a CPU 18, a power supply circuit 19 connected to the CPU 18, a drive circuit 21 for a fan motor 20 for rotating a fan, and a drive circuit 23 for driving an inverter 22 of the ultraviolet lamp 12. . The operation switch is connected to the CPU 18 via the interface 24, and the air volume sign 16 and the exchange sign 17 are connected via the LED output drive circuit 25.
[0018]
The operation of the air cleaner 1 having the above configuration will be described. When the operation switch 14 is turned on and the air cleaner 1 starts operating, the ultraviolet lamp 12 is turned on, the fan 8 is rotated by the fan motor 20, and air is sucked from the suction port 4. When the operator sets the air volume with the air volume switch 15, the rotation speed of the fan 8 is adjusted according to the air volume, and the amount of air sucked from the suction port 4 is adjusted. The air sucked from the suction port 4 removes large dust by the pre-filter 10, and the fine dust and the bacteria attached to the dust are collected with high efficiency by the dust collecting filter 11. Then, the entirety of the dust collection filter 11 is irradiated with ultraviolet rays from the ultraviolet lamp 12, and the collected bacteria are efficiently sterilized. Further, the odor component is removed by the photocatalyst filter 13. In this way, dust and dust in the air are removed, bacteria are sterilized, and deodorized and purified air is blown out from the outlet 5 to the outside.
[0019]
The ultraviolet lamp 12 is turned off when a preset time elapses after being turned on, and is turned on again after a preset time elapses. During operation of the air purifier 1, the ultraviolet lamp 12 is controlled so as to be turned on intermittently. The lighting time of the ultraviolet lamp 12 is determined based on the illuminance of the ultraviolet lamp 12 and the dose of bacteria necessary to sterilize the collected bacteria. The time for turning off the ultraviolet lamp 12 is arbitrarily set based on the environment in which the air cleaner 1 is used, for example, the amount of bacteria, temperature, humidity, and the like.
[0020]
In this embodiment, in the present embodiment, when the operation is continued with only a small air flow, the replacement time arrives after 10,000 hours, and the replacement sign 17 of the dust collection filter 11 is turned on 200 hours before that, and the replacement is performed. Prompt. If the replacement is not performed even when the replacement time has arrived, the replacement sign 17 of the dust collection filter 11 is blinked, and the operation of the air cleaner 1 is forcibly stopped. The UV lamp 12 reaches the replacement time after 10000 hours irrespective of the air volume, and 200 hours before that, the replacement sign 17 of the UV lamp 12 is turned on to prompt the replacement. If the replacement has not been performed even when the replacement time has arrived, the replacement sign 17 of the ultraviolet lamp 12 is flashed, and the operation of the air purifier 1 is forcibly stopped. The photocatalyst filter 13 reaches the replacement time after 20,000 hours have elapsed irrespective of the air volume, and the replacement sign 17 of the photocatalyst filter 13 is turned on 200 hours before that to urge replacement. If the replacement has not been performed even when the replacement time has arrived, the replacement sign 17 of the photocatalyst filter 13 flashes, and the operation of the air purifier 1 is forcibly stopped.
[0021]
Next, a process for calculating and notifying the replacement time of the dust collection filter 11, the ultraviolet lamp 12, and the photocatalyst filter 13 will be described with reference to FIG. First, it is determined whether the operation switch 14 is turned on and the apparatus is operated (S1). If the operation switch 14 has been turned off (S1: NO), the process ends. When the device is operated (S1: YES), the usage time (Tuvon) of the ultraviolet lamp 12 and the usage time (Tpcon) of the photocatalytic filter 13 are each incremented (S2). Then, it is determined whether or not the usage time (Tuvon) of the ultraviolet lamp 12 has reached the replacement time (Tuv) of the ultraviolet lamp 12 (S3). In the present embodiment, the replacement time (Tuv) of the ultraviolet lamp 12 is set to 10000 hours. If the usage time (Tuvon) of the ultraviolet lamp 12 has reached the replacement time (Tuv) of the ultraviolet lamp 12 (S3: YES), the ultraviolet lamp 12 needs to be replaced immediately, so that the ultraviolet lamp on the switch panel 6 is used. The exchange sign 17 of 12 is blinked (S4).
[0022]
Next, if the usage time (Tuvon) of the ultraviolet lamp 12 has not reached the replacement time (Tuv) of the ultraviolet lamp 12 (S3: NO), the usage time (Tuvon) of the ultraviolet lamp 12 is changed to the usage time of the ultraviolet lamp 12. It is determined whether or not the time is obtained by subtracting the exchange sign display time (ts) from the time (Tuvon) (S5). The exchange sign required display time (ts) indicates that the exchange sign 17 is turned on a predetermined time before the calculated exchange time, and the exchange sign 17 is turned on. In the present embodiment, the exchange sign required time (ts) is set to 200 hours. When the usage time (Tuvon) of the ultraviolet lamp 12 has reached the time obtained by subtracting the required sign display time (ts) from the usage time (Tuvon) of the ultraviolet lamp 12 (S5: YES), the use of the photocatalytic filter 13 is performed. It is determined whether the time (Tpcon) has reached the time obtained by subtracting the replacement time adjustment time (ta) from the replacement time (Tpcon) of the photocatalytic filter 13 (S6). Also, after the blinking of the exchange sign 17 of the ultraviolet lamp 12 in S4, the use time (Tpcon) of the photocatalyst filter 13 is similarly obtained by subtracting the exchange time adjustment time (ta) from the exchange time of the photocatalyst filter 13 (Tpcon). It is determined whether the time has been reached (S6).
[0023]
When the replacement time of the dust collection filter 11, the ultraviolet lamp 12, and the photocatalyst filter 13 arrives within a predetermined time, the replacement sign 17 is turned on in accordance with the earliest replacement time. The predetermined time is referred to as a replacement time adjustment time (ta). In the present embodiment, the replacement time adjustment time (ta) is set to 500 hours. For example, when the replacement time of the dust collection filter arrives after 200 hours and the replacement time of the ultraviolet lamp 12 arrives after 300 hours, the replacement sign 17 of the ultraviolet lamp 12 has not reached the required replacement sign display time of 200 hours. Therefore, in order to save maintenance work, both exchange signs 17 are illuminated so that they can be replaced at once.
[0024]
If the usage time (Tpcon) of the photocatalyst filter 13 has reached the time obtained by subtracting the replacement time adjustment time (ta) from the replacement time (Tpc) of the photocatalyst filter 13 (S6: YES), the sign of the replacement of the photocatalyst filter 13 is provided. 17 is turned on (S7). Next, after the exchange sign 17 of the photocatalyst filter 13 is turned on in S7, or the usage time (Tpcon) of the photocatalyst filter 13 is the time obtained by subtracting the exchange time adjustment time (ta) from the exchange time (Tpc) of the photocatalyst filter 13. If not reached (S6: NO), it is determined whether the usage time after correction (TF) of the dust collection filter has reached the time obtained by subtracting the replacement time adjustment time (ta) from the replacement time (TL) of the dust collection filter. Is determined (S8). The usage time (TF) after correction of the dust collection filter is calculated by converting the operation time at the designated air volume into the operation time at the low air volume, and is calculated in S38 described later. Whether or not the dust collection filter 11 needs to be replaced depends on the accumulated number of collected dust. However, since the number of collected dust per time differs depending on the air volume, in the present embodiment, the operation time for each air volume is set to the operation at a low air volume. It is converted to time, and this is used as the usage time after correction. Thereby, the replacement time of the dust collecting filter 11 can be adjusted according to the number of collected dusts, and the influence of performance degradation can be suppressed.
[0025]
When the usage time (TF) after the dust collection filter correction has reached the time obtained by subtracting the replacement time adjustment time (ta) from the dust collection filter replacement time (TL) (S8: YES), the dust collection filter 11 The exchange sign 17 is turned on (S9). Next, after the replacement sign 17 of the dust collection filter 11 is turned on in S9, or the usage time (TF) after the dust collection filter correction, the replacement time adjustment time (ta) is calculated from the dust collection filter replacement time (TL). If the time has not reached the deducted time (S8: NO), it is determined again whether the usage time (Tuvon) of the ultraviolet lamp 12 has reached the replacement time (Tuv) of the ultraviolet lamp 12 (S10). If the usage time (Tuvon) of the ultraviolet lamp 12 has reached the replacement time (Tuv) of the ultraviolet lamp 12 (S10: YES), the air purifier is replaced immediately to ensure the performance by replacing the ultraviolet lamp 12. 1 is forcibly stopped (S29). If the usage time (Tuvon) of the ultraviolet lamp 12 has not reached the replacement time (Tuv) of the ultraviolet lamp 12 (S10: NO), the replacement sign 17 of the ultraviolet lamp 12 is turned on (S11). At the time of S11, since the replacement time of the ultraviolet lamp 12 has come within 200 hours, the replacement sign 17 is turned on, and the replacement time of the replacement sign 17 of the photocatalytic filter 13 and the dust collecting filter 11 has come within 500 hours. If so, it will be lit.
[0026]
After the exchange sign 17 of the ultraviolet lamp 12 is turned on in S11, or the usage time (Tuvon) of the ultraviolet lamp 12 has reached the time obtained by subtracting the exchange sign display time (ts) from the exchange time (Tuv) of the ultraviolet lamp 12. If not (S5: NO), it is determined whether the usage time (Tpcon) of the photocatalytic filter 13 has reached the replacement time (Tpc) of the photocatalytic filter 13 (S12). When the use time (Tpcon) of the photocatalyst filter 13 has reached the exchange time (Tpc) of the photocatalyst filter 13 (S12: YES), the exchange sign 17 of the photocatalyst filter 13 is blinked (S13). If the usage time (Tpcon) of the photocatalytic filter 13 has not reached the replacement time (Tpc) of the photocatalyst filter 13 (S12: NO), the usage time (Tpcon) of the photocatalyst filter 13 is changed to the replacement time (Tpc) of the photocatalytic filter 13. ) Is determined to have reached the time obtained by subtracting the exchange required sign display time (ts) from () (S20).
[0027]
When the usage time (Tpcon) of the photocatalytic filter 13 has reached the time obtained by subtracting the required sign display time (ts) from the replacement time (Tpc) of the photocatalytic filter 13 (S20: YES), or in S13, After the exchange sign 17 is blinked, it is determined whether or not the usage time (Tuvon) of the ultraviolet lamp 12 has reached the time obtained by subtracting the exchange time adjustment time (ta) from the exchange time (Tuv) of the ultraviolet lamp 12. (S14). If the usage time (Tuvon) of the ultraviolet lamp 12 has reached the time obtained by subtracting the replacement time adjustment time (ta) from the replacement time (Tuv) of the ultraviolet lamp 12 (S14: YES), the replacement sign of the ultraviolet lamp 12 is provided. 17 is turned on (S15).
[0028]
After the exchange sign 17 of the ultraviolet lamp 12 is turned on in S15, or the usage time (Tuvon) of the ultraviolet lamp 12 is changed from the exchange time of the ultraviolet lamp 12 (Tuv) to the exchange time of the ultraviolet lamp 12 (Tuv), the exchange time adjustment time (Tuvon) If the time has not reached ta) (S14: NO), the usage time after correction (TF) of the dust collection filter is obtained by subtracting the replacement time adjustment time (ta) from the replacement time of the dust collection filter (TL). It is determined whether the time has reached (S16). If the usage time (TF) after the dust collection filter correction has reached the time obtained by subtracting the replacement time adjustment time (ta) from the dust collection filter replacement time (TL) (S16: YES), the dust collection filter 11 The exchange sign 17 is turned on (S17).
[0029]
After the exchange sign 17 of the dust collection filter 11 is turned on in S17, or the usage time (TF) after correction of the dust collection filter has reached the time obtained by subtracting the replacement time adjustment time (ta) from the dust collection filter replacement time (TL). If not (S16: NO), it is determined again whether the usage time (Tpcon) of the photocatalytic filter 13 has reached the replacement time (Tpc) of the photocatalytic filter 13 (S18). If the usage time (Tpcon) of the photocatalyst filter 13 has reached the replacement time (Tpc) of the photocatalyst filter 13 (S18: YES), the air purifier is used to immediately replace the photocatalyst filter 13 and secure the performance. 1 is forcibly stopped (S29). If the usage time (Tpcon) of the photocatalyst filter 13 has not reached the replacement time (Tpc) of the photocatalyst filter 13 (S18: NO), the replacement sign 17 of the photocatalyst filter 13 is turned on (S19). At the time of S19, since the replacement time of the photocatalyst filter 13 has come within 200 hours, the replacement sign 17 is turned on, and the replacement time of the replacement sign 17 of the ultraviolet lamp 12 and the dust collecting filter 11 has come within 500 hours. If so, it will be lit.
[0030]
After the exchange sign 17 of the photocatalyst filter 13 is turned on in S19, or the usage time (Tpcon) of the photocatalyst filter 13 has reached the time obtained by subtracting the exchange sign display time (ts) from the exchange time (Tpc) of the photocatalyst filter 13. If not (S20: NO), it is determined whether the post-correction filter use time (TF) has reached the dust collection filter replacement time (TL) (S21).
[0031]
If the usage time after correction (TF) has not reached the replacement time (TL) of the dust collection filter (S21: NO), the usage time (TF) after correction of the dust collection filter is equal to the replacement time (TL) of the collection filter. ) Is determined to have reached the time obtained by subtracting the exchange required sign display time (ts) from () (S22). When the usage time (TF) after the dust collection filter has reached the dust collection filter replacement time (TL) (S21: YES), the replacement sign 17 of the dust collection filter 11 is blinked (S23).
[0032]
After blinking the exchange sign 17 of the dust collection filter 11 in S23, or the usage time after correction (TF) of the dust collection filter, the required sign display time (ts) is subtracted from the dust collection filter exchange time (TL). If the time has elapsed (S22: YES), it is determined whether or not the usage time (Tuvon) of the ultraviolet lamp 12 has reached the time obtained by subtracting the replacement time adjustment time (ta) from the replacement time (Tuv) of the ultraviolet lamp 12. (S24). If the usage time (Tuvon) of the ultraviolet lamp 12 has reached the time obtained by subtracting the replacement time adjustment time (ta) from the replacement time (Tuv) of the ultraviolet lamp 12 (S24: YES), the replacement sign of the ultraviolet lamp 12 is provided. 17 is turned on (S25).
[0033]
After the exchange sign 17 of the ultraviolet lamp 12 is turned on in S25, or the usage time (Tuvon) of the ultraviolet lamp 12 has not reached the time obtained by subtracting the exchange time adjustment time (ta) from the exchange time (Tuv) of the ultraviolet lamp 12. In this case (S24: NO), it is determined whether or not the usage time (Tpcon) of the photocatalyst filter 13 has reached the time obtained by subtracting the replacement time adjustment time (ta) from the replacement time (Tpc) of the photocatalyst filter 13 (S26). ). If the usage time (Tpcon) of the photocatalyst filter 13 has reached the time obtained by subtracting the replacement time adjustment time (ta) from the replacement time (Tpc) of the photocatalyst filter 13 (S26: YES), the replacement sign of the photocatalyst filter 13 is provided. 17 is turned on (S27).
[0034]
Next, after the exchange sign 17 of the photocatalyst filter 13 is turned on in S27, or the usage time (Tpcon) of the photocatalyst filter 13 is the time obtained by subtracting the exchange time adjustment time (ta) from the exchange time (Tpc) of the photocatalyst filter 13. If it has not reached (S26: NO), it is determined again whether the usage time after correction (TF) of the dust collection filter has reached the replacement time (TL) of the dust collection filter (S28). When the usage time (TF) after the dust collection filter correction has reached the dust collection filter replacement time (TL) (S21: YES), the air cleaner is used to immediately replace the dust collection filter 11 and secure the performance. 1 is forcibly stopped (S29).
[0035]
When the usage time (TF) after the dust collection filter correction has not reached the dust collection filter replacement time (TL) (S21: NO), the replacement sign 17 of the dust collection filter 11 is turned on (S30). Then, the use time (TF) after the dust collection filter correction is incremented (S31), and the process is terminated. Here, since the exchange sign 17 of the dust collection filter 11 is lit, the usage time of the dust collection filter 11 is calculated based on the operation time without calculating the corrected usage time as normally performed in S38. Like that. Therefore, since the replacement time does not vary according to the air volume, the operator can easily predict the replacement time. At this time, since the replacement time of the dust collection filter 11 has come within 200 hours, the replacement sign 17 is turned on, and the replacement time of the replacement sign 17 of the ultraviolet lamp 12 and the photocatalytic filter 13 has come within 500 hours. In that case, it will be lit.
[0036]
If the usage time (TF) after the dust collection filter correction has not reached the time obtained by subtracting the required sign display time (ts) from the dust collection filter replacement time (TL) (S22: NO), the current air volume is weak. It is determined whether or not (S32). If the air volume is low (S32: YES), the operation time (tL) at the low air volume (FL) is incremented (S33), and the corrected usage time (TF) is calculated (S38). If the air volume is not low (S32: NO), it is determined whether the current air volume is medium (S34). If the air volume is medium (S34: YES), the operation time (tM) during the air volume (FM) is incremented (S35), and the corrected usage time (TF) is calculated (S38). If the air volume is not medium (S34: NO), it is determined whether the current air volume is strong (S36). If the air volume is high (S36: YES), the operation time (tH) at the high air volume (FH) is incremented (S37), and the corrected usage time (TF) is calculated (S38).
[0037]
The use time after correction (TF) is calculated by converting the operation time at each of the strong, medium, and low airflows into the operation time at the low airflow (FL). TF = (FH / FL) * tH + (FM / FL) * tM + (FL / FL) * tL. For example, in this embodiment, the air volume at the low air volume (FL) is set at 2 cubic meters per minute, the air volume at the medium air volume (FM) is set at 3 cubic meters per minute, and the air volume at the high air volume (FH) is set at 4 cubic meters per minute. I have. Since the replacement time of the dust collection filter 11 is set when the operation time at the low air flow (FL) reaches 10,000 hours, if the operation is continuously performed at the high air flow (FH), the replacement time is 5000 hours. The time has come.
[0038]
As described above, the replacement time of the dust collection filter 11 is calculated by converting the operation time at each of the strong, medium, and low airflows into the operation time at the low airflow in order to reflect the number of collected dusts. Therefore, even if the operation time is short, when the air volume is strong, the replacement time can be advanced to ensure the performance of the dust collection filter 11. Further, when the exchange sign 17 of the dust collection filter 11 is lit, the usage time after correction is not calculated, and the usage time of the dust collection filter 11 is calculated based on the operation time. Since the replacement time is not variable according to the air volume, the operator can easily predict the replacement time. When the replacement time of the dust filter 11, the ultraviolet lamp 12, and the photocatalyst filter 13 is approaching to some extent, the replacement sign 17 is turned on even if the replacement sign display time is less than the required time, thereby saving labor for maintenance. Can be planned.
[0039]
【The invention's effect】
As is apparent from the above description, according to the air purifier of the first aspect, the dust filter replacement time calculating means calculates the time at which the dust filter should be replaced by the air purifying air passing through the air cleaner. This is performed based on the air volume per hour and the operation time at the air volume. Therefore, it is possible to reflect the number of collected dust of the dust collection filter, which depends on the strength of the air volume, at the time of replacement, and to replace the dust collection filter at an appropriate pressure loss level.
[0040]
According to the air purifier described in claim 2, in addition to the effect of the invention described in claim 1, when the replacement time comes, the operation of the device is stopped because the air cleaning performance is reduced. In addition, during the period in which the replacement time is notified, the replacement time is not calculated based on the air volume, but the replacement time is calculated based only on the operation time. Accordingly, since the replacement time does not vary depending on the air volume during the notification period, the operator can easily predict the replacement time, and can perform maintenance such as filter replacement at an appropriate time.
[0041]
According to the air purifier of the third aspect, in addition to the effects of the invention of the first or second aspect, since the ultraviolet lamp and the deodorizing filter are consumables that are scheduled to be regularly replaced, they are variable. When another replacement time is near to the replacement time of the dust collecting filter, the maintenance time and cost can be suppressed by notifying the replacement time individually but notifying the nearby ones collectively.
[Brief description of the drawings]
FIG. 1 is a sectional view schematically showing an air purifier.
FIG. 2 is a block diagram showing a configuration of a control system of the air purifier.
FIG. 3
It is a flow chart of exchange time calculation and information processing of a dust collection filter, an ultraviolet lamp, and a photocatalyst filter.
[Explanation of symbols]
1 air purifier
2 Case
3 Front panel
4 Suction port
5 outlet
6 Switch panel
7 Controller
8 fans
9 air passage
10 Pre-filter
11 Dust collection filter
12 UV lamp
13. Photocatalytic filter (deodorizing filter)
14 Operation switch
15 Air volume changeover switch
16 Airflow sign
17 Exchange sign
18 CPU
19 Power supply circuit
20 fan motor
21 Drive circuit
22 Inverter
23 Drive circuit
24 Interface
25 LED output drive circuit

Claims (3)

A dust collecting filter, an ultraviolet lamp, a deodorizing filter, and a blower fan are provided in an air passage connecting the suction port and the air outlet formed in the main body, and the time of air sucked in from the air inlet and blown out from the air outlet is provided. An air volume changeover switch for switching a per-unit air volume, a dust collection filter replacement time calculation means for calculating a time when the dust collection filter should be replaced, and a predetermined period before the replacement time calculated by the dust collection filter replacement time calculation means. An air purifier having a dust collection filter replacement notifying means for notifying that the replacement time has come,
The air purifier, wherein the dust collection filter replacement time calculating means calculates a replacement time based on the air volume and an operation time at the air volume. Stop control means for stopping operation when the replacement time calculated by the dust collection filter replacement time calculation means has been reached,
The dust collection filter replacement time calculation means calculates the replacement time based on only the operation time during a period in which the dust collection filter replacement notification means notifies the replacement time has come. 2. The air purifier according to 1. Ultraviolet lamp replacement time calculation means for calculating the time to replace the ultraviolet lamp, and ultraviolet lamp replacement notification means for notifying the arrival of the replacement time from a predetermined period before the replacement time calculated by the ultraviolet lamp replacement time calculation means. A deodorizing filter replacement time calculating means for calculating a time when the deodorizing filter should be replaced, and a deodorizing filter replacement notifying means for notifying the arrival of the replacement time from a predetermined period before the replacement time calculated by the deodorizing filter replacement time calculating means. With
The replacement time calculated by the dust collection filter replacement time calculation means and the replacement time calculated by the ultraviolet lamp replacement time calculation means or the replacement time calculated by the deodorization filter replacement time calculation means arrive within a predetermined period. In this case, the dust filter replacement notification unit and the ultraviolet lamp replacement notification unit or the deodorization filter replacement notification unit may notify that the replacement time has come in accordance with the earliest replacement time that comes within the predetermined period. The air purifier according to claim 1 or 2, wherein:

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