JP2015190688A - Ventilation device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem in which, in a conventional ventilation device, even when estimated filter replacement timing differs depending on a use environment, as the replacement timing is set by operation time collectively, a filter cannot be used efficiently.SOLUTION: In a ventilation device, a suction port 8 and a discharge port 9 are provided at a housing 2, and a blower 3 for taking in outside air to the indoors is provided. It also includes an air cleaning filter 4 for cleaning outside air on the suction port side, and the air cleaning filter 4 is slide-stored in a rail 5 which is provided facing the inside of the housing. A powder dust sensor 6 is provided on the further discharge port 9 side than the air cleaning filter 4, and the powder dust sensor 6 detects a powder dust amount after the powder dust is removed by the air cleaning filter 4. A control unit 7 is provided for recording and calculating the average of the powder dust amount measured by the powder dust sensor 6 for every arbitrary time. The control unit 7 notifies that the powder dust amount measured by the powder dust sensor 6 has reached a predetermined value.

Description

  The present invention relates to a ventilator having a function of notifying an appropriate replacement time of a filter for cleaning outside air.

  2. Description of the Related Art Conventionally, in an air conditioner having an air cleaning filter, an operating time integrating means for integrating the operating time of the air conditioner and a first judgment for determining whether or not the accumulated time by the operating time integrating means has reached a predetermined time. Step means, writing means for writing data indicating that the predetermined time has elapsed in the nonvolatile memory in response to the determination result of the first determination means indicating that the accumulated time has reached a predetermined time, and the determination result In response to the resetting means for resetting the contents of the operating time accumulating means, second determining means for determining whether or not the contents of the non-volatile memory have reached a predetermined value, and the contents of the non-volatile memory being set to a predetermined value. A filter use limit in an air conditioner, characterized by comprising a notification means for notifying that the filter use limit time has been reached in response to a determination result of the second determination means indicating that the filter has been reached. Time detection device is known.

Japanese Utility Model Publication No. 63-73127

  In such a conventional ventilator, even though the standard of the filter replacement time varies depending on the usage environment, the replacement time is set collectively according to the operation time, so that the filter cannot be used efficiently. Had.

  SUMMARY OF THE INVENTION The present invention solves the above-described conventional problems, and an object thereof is to quantitatively measure filter dirt using a dust sensor and determine an appropriate filter replacement time.

  In order to achieve this object, the present invention provides a ventilator provided with a suction port and a discharge port in a housing, and provided with a blower for taking outdoor air into the room. The air cleaning filter is slidably housed in a rail provided facing the inside of the housing, and includes a dust sensor on the outlet side of the air cleaning filter. A control unit is provided for detecting the amount of dust after removing the dust with the air cleaning filter and recording and averaging the amount of dust measured by the dust sensor at an arbitrary time. This control unit is measured by the dust sensor. This is to notify that the amount of dust has reached a predetermined value, thereby achieving the intended purpose.

According to the present invention, there is provided a ventilation device including a suction port and a discharge port provided in a housing, a suction port and a discharge port provided in the housing, and a blower for taking outdoor air into the room, the suction port An air purification filter that cleans outside air is provided on the side, and this air purification filter is slidably housed in a rail provided facing the inside of the housing, and includes a dust sensor on the discharge port side of the air purification filter. The dust sensor detects the amount of dust after the dust is removed by the air cleaning filter, and provides a control unit that records and averages the amount of dust measured by the dust sensor every arbitrary time. A ventilation device with a function to notify that the dust amount measured in step 1 has reached a predetermined value allows quantitative determination of the filter replacement time, and the filter life varies depending on the usage environment. It is possible to respond to. Further, since the filter replacement time can be recognized in advance depending on the set value, loss such as no stock is reduced during replacement, and intermittent operation is possible.

1 is a schematic plan view showing a ventilation device according to Embodiment 1 of the present invention. Schematic plan view showing a ventilator according to Embodiment 2 of the present invention.

  The ventilator according to claim 1 of the present invention is a ventilator provided with a suction port and a discharge port in a housing and provided with a blower for taking outdoor air into the room, and cleans the outside air to the suction port side. The air cleaning filter is slidably housed in a rail provided facing the inside of the housing, and further includes a dust sensor on the discharge port side of the air cleaning filter. A control unit that detects the amount of dust after removing dust with a clean filter and records and averages the amount of dust measured by the dust sensor every arbitrary time is provided. This control unit measures the amount of dust measured by the dust sensor. Has a function of notifying that a predetermined value has been reached. Accordingly, since it can be recognized that the amount of dust in the air supplied to the room has reached a predetermined value, it is possible to quantitatively determine the replacement time of the filter and flexibly handle different filter lifetimes depending on the use environment. Further, since the filter replacement time can be recognized in advance depending on the set value, loss such as no stock is reduced during replacement, and intermittent operation is possible.

  Moreover, the ventilator according to claim 2 of the present invention is a ventilator provided with a suction port and a discharge port in a housing and provided with a blower for taking outdoor air into the room, and has an outside air on the suction port side. The air cleaning filter is slidably housed in a rail provided facing the inside of the housing, and includes a suction side dust sensor between the suction port and the air cleaning filter, The discharge port side is provided with a discharge port side dust sensor that detects the amount of dust after the dust is removed by the air purifying filter, and each dust measured by the suction port side dust sensor and the discharge port side dust sensor. A control unit is provided for recording and averaging the amount every arbitrary time, and the control unit confirms that the difference between the dust amounts measured by the suction side dust sensor and the discharge side dust sensor has reached a predetermined value. It has a function of knowledge. This makes it possible to recognize that the difference between the amount of dust in the outdoor air and the air supplied to the room has reached a predetermined value. High accuracy can be handled. Further, since the filter replacement time can be recognized in advance depending on the set value, loss such as no stock is reduced during replacement, and intermittent operation is possible.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1)
As shown in FIG. 1, the ventilator 1 according to the embodiment is provided with a suction port 8 and a discharge port 9 on the side surface of the housing 2. Further, a control unit 7 is provided so as to be attached to the housing 2. An air blower 3 is provided inside the housing, and an air cleaning filter 4 and a rail 5 for slidingly storing it are provided on the suction port 8 side. On the side surface of the housing 2 and on the extension of the rail 5, a maintenance port 10 for taking in and out the air cleaning filter 4 is provided. Further, a dust sensor 6 is provided on the discharge port 9 side of the housing 2.

The blower 3 takes outdoor air from the suction port 8 into the housing 2 and supplies air from the discharge port 9 to the room. The air purification filter 4 is installed by sliding on the rail 5 from the maintenance port 10 of the housing 2, and removes dust in the air taken into the housing by the blower 3. The dust sensor 6 detects the amount of dust in the air after the dust is removed by the air cleaning filter 4.

  As described above, the air purification filter 4 is structured to be slid and accommodated by the rail 5. That is, there is a slight gap between the air cleaning filter 4 and the rail 5 that is “play”.

  In such a structure, when dust accumulates on the air purification filter 4 and clogging occurs, the pressure loss of the air purification filter 4 increases. When the pressure loss of the air purification filter 4 increases, the air containing dust becomes difficult to pass through the air purification filter 4, and the air flows into the gap between the air purification filter 4 and the rail 5. Therefore, the dust sensor 6 catches the dust that has leaked and passed, and the measured dust amount shows a high value.

  On the other hand, the replacement threshold indicating the replacement time of the air cleaning filter 4, that is, the value of “the amount of dust leaking from the surroundings of the air cleaning filter 4” is obtained by measuring in advance in a test and stored in the control unit 7.

  Next, the operation of the control unit 7 will be described.

  The control unit 7 inputs the amount of dust measured by the dust sensor 6 and averages it at arbitrary times in order to suppress an instantaneous variation in the measured value of the amount of dust. In averaging the measured values during an arbitrary time, the arbitrary time is set to a time that accurately reflects the amount of dust in the atmosphere to some extent. Then, the obtained dust amount average value is compared with the stored replacement threshold value, and when the dust amount average value reaches this replacement threshold value or exceeds the replacement threshold value, it is notified.

  As described above, the control unit 7 compares the dust amount measured by the dust sensor 6 with the stored replacement threshold value and notifies that the replacement time has been reached, and accordingly appropriately determines the replacement time of the air cleaning filter 4. can do. Further, if the replacement threshold is set to be small, the replacement time of the air cleaning filter 4 can be recognized in advance, so that loss such as no stock is reduced at the time of replacement, and intermittent operation can be performed.

(Embodiment 2)
As shown in FIG. 2, the ventilation device 1 according to the embodiment is provided with a suction port 8 and a discharge port 9 on the side surface of the housing 2. Further, a control unit 7 is provided so as to be attached to the housing 2. Inside the housing 2, a blower 3 is provided, and an air purifying filter 4 and a rail 5 for slidingly storing it are provided on the suction port 8 side. On the side surface of the housing 2 and on the extension of the rail 5, a maintenance port 10 for taking in and out the air cleaning filter 4 is provided. Further, a suction port side dust sensor 11 is further provided on the suction port 8 side than the air cleaning filter 4, and a discharge port side dust sensor 12 is also provided on the discharge port 9 side of the housing 2.

  The blower 3 takes outdoor air from the suction port 8 into the housing 2 and supplies air from the discharge port 9 to the room. The suction port side dust sensor 11 detects the amount of dust in the air taken into the housing 2 by the blower 3. The air cleaning filter 4 is installed by sliding on the rail 5 from the maintenance port 10 of the housing 2 and removes dust in the air after passing through the suction port side dust sensor 11. The discharge side dust sensor 12 detects the amount of dust in the air after the dust is removed by the air cleaning filter 4.

Similar to the first embodiment, the air purification filter 4 is structured to be slid and stored by the rail 5. That is, there is a slight gap between the air cleaning filter 4 and the rail 5 that is “play”. In such a structure, when dust accumulates on the air purification filter 4 and clogging occurs, the pressure loss of the air purification filter 4 increases. When the pressure loss of the air purification filter 4 increases, the air containing dust becomes difficult to pass through the air purification filter 4, and the air flows into the gap between the air purification filter 4 and the rail 5. Accordingly, since the discharge port side dust sensor 12 catches the dust that has passed through the leak, the measured dust amount is (as the dust accumulates on the air cleaning filter 4 and causes clogging), and the suction port side dust sensor 11. It shows a value close to the amount of dust measured at.

  Next, the operation of the control unit 7 will be described.

  The control unit 7 inputs the dust amounts measured by the suction port side dust sensor 11 and the discharge port side dust sensor 12, and averages them at arbitrary times in order to suppress instantaneous variations in the respective measured dust amount values. To do. In averaging the measured values during an arbitrary time, the arbitrary time is set to a time that accurately reflects the amount of dust in the atmosphere to some extent. And the difference of each dust amount average value measured with the suction port side dust sensor 11 and the discharge port side dust sensor 12 which were obtained is calculated, and it is notified when the value reaches zero or almost zero.

  As described above, the control unit 7 compares the dust amounts measured by the suction port side dust sensor 11 and the discharge port side dust sensor 12 to notify that the replacement time has been reached. Judgment can be made appropriately. In addition, by measuring the value indicating the filter replacement time in advance in the test, the filter replacement time can be recognized in advance by the set value, so there is less loss such as no stock at the time of replacement, and intermittent I can drive.

  In the present embodiment, the air purifying filter 4 is notified when dust is hardly collected but almost passes, but other forms may be used. For example, a configuration in which a value obtained by dividing the measurement value in the discharge port side dust sensor 12 by the measurement value in the suction port side dust sensor 11, that is, a passage rate exceeds a predetermined value may be notified.

  The present invention is applicable to any ventilation device that takes in outdoor air.

DESCRIPTION OF SYMBOLS 1 Ventilator 2 Case 3 Blower 4 Air purifying filter 5 Rail 6 Dust sensor 7 Control part 8 Suction port 9 Discharge port 10 Maintenance port 11 Suction port side dust sensor 12 Discharge port side dust sensor

Claims (2)

Provide a suction port and discharge port in the housing,
A ventilator equipped with a blower for taking outdoor air indoors,
Provided with an air purifying filter that cleans the outside air on the inlet side,
This air purifying filter is slidably housed in a rail provided facing the inside of the housing,
Provided with a dust sensor on the outlet side of the air purification filter,
This dust sensor detects the amount of dust after removing dust with the air cleaning filter,
A control unit is provided for recording and averaging the amount of dust measured by the dust sensor every arbitrary time,
This control unit is a ventilator that notifies that the amount of dust measured by the dust sensor has reached a predetermined value. Provide a suction port and discharge port in the housing,
A ventilator equipped with a blower for taking outdoor air indoors,
Provided with an air purifying filter that cleans the outside air on the inlet side,
This air purification filter is slidably accommodated in a rail provided facing the inside of the housing, and includes a suction port side dust sensor between the suction port and the air purification filter,
The discharge port side is provided with a discharge port side dust sensor that detects the amount of dust after the dust is removed by the air cleaning filter,
Recording and averaging each dust amount measured by the suction port side dust sensor and the discharge port side dust sensor every arbitrary time, a control unit is provided,
The said control part is a ventilation apparatus which notifies that the difference of the dust amount measured with the said suction inlet side dust sensor and the said discharge outlet side dust sensor reached | attained predetermined value.

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