JP2014209046A - Humidification air cleaner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a humidification air cleaner which can save energy and which holds both a humidification function capable of humidifying according to the necessity of humidification and an air cleaning function.SOLUTION: A side surface opening 16 is provided on a side surface facing a hollow cylinder 13 as air amount ratio adjustment means 7, the cylinder 13 is provided between cleaning filters 4, and the cylinder 13 is rotated by 0-90 degrees by cylinder rotation means from a fully opened state of a cleaning air path 11 to a fully closed state. Thereby, the ratio between an air amount of clean air blowing out of an air outlet 2 passing through the cleaning air path 11 without being humidified as the air does not pass through humidification means 5, and an air amount of humidified clean air blowing out of the air outlet 2 being humidified by the humidification means 5 can be adjusted. A humidification air cleaner can be acquired which, according to the necessity of humidification, can increase/decrease a humidification amount, which has a simple configuration, which saves energy and which can humidify according to the necessity of humidification.

Description

  The present invention relates to a humidified air purifier having both a humidifying function for humidifying air and an air purifying function for purifying air.

  Conventionally, this type of humidified air purifier has a clean air passage through which a blower blows clean air from a suction port through a first blow-out port and a clean filter from the suction port through a clean filter. Then, the humidifying air passage is provided which is humidified by the humidifying means and blows out the humidified clean air from the outlet through the second outlet by the second multi-wing portion of the blower.

  When the humidification operation is performed and the humidity becomes appropriate, the rotation of the cylindrical humidification filter as the humidifying means stored in the water tank is stopped. By stopping the rotation of the humidifying filter, water is no longer supplied to the humidifying filter, and the humidifying operation is stopped.

JP 2009-250596 A

  Such a conventional humidified air purifier has a clean air passage and a humidified air passage, and air is constantly blown to the clean air passage and the humidified air passage at a constant rate, and when the humidification is not required, it is supplied to the humidifying filter. The water supply was stopped.

  When humidification is necessary, the ratio of the air flowing through the clean air passage and the humidified air passage is always fixed, and at a fixed rate, some air passes through the clean air passage without being humidified. It is blown out from the outlet.

  Therefore, if the humidification clean air volume is increased in an attempt to increase the humidification amount when humidification is required, the amount of clean air that is not humidified increases accordingly.Therefore, there is a problem that it is not possible to increase only the humidified clean air volume. Was.

  Then, an object of this invention is to provide the humidification air cleaner which can increase only a humidification clean air volume.

  In order to achieve this object, the present invention is provided in a body case having a blowout port, a first suction port, and a second suction port, and the first suction port and the second suction port. The cleaning filter, the humidifying means provided in the main body case, and the blowing means provided between the humidifying means and the outlet, and sucked from the first suction port by the blowing means. A clean air passage through which air is blown to the blowout port through the clean filter, and air sucked from the second suction port by the blower means is blown out through the clean filter and the humidifying unit. And a humid air flow between the clean filter and the air blowing means in the clean air passage, and an air volume between the air humidifying means and the air blowing means in the air humidifying clean air path. Percentage The section means is provided, the air amount ratio adjusting means is obtained by and adjusting the ratio of the air volume of the air flow and the humidifying cleaning air path of the cleaning air duct.

  This achieves the intended purpose.

  As described above, the present invention provides a main body case having a blowout port, a first suction port, and a second suction port, a clean filter provided in the first suction port and the second suction port, It comprises a humidifying means provided in the main body case and a blowing means provided between the humidifying means and the blowout port, and the air sucked from the first suction port by the blowing means is supplied to the clean filter. A clean air passage that is blown to the outlet through the air and a humidifying and purifying air that is sucked from the second suction port by the air blowing means to the air outlet through the cleaning filter and the humidifying means An air path, and between the clean filter and the air blowing means in the clean air path, and providing an air volume ratio adjusting means between the humidifying means and the air blowing means in the humidified clean air path, This wind Ratio adjusting means is obtained by and adjusting the ratio of the air volume of the air flow and the humidifying cleaning air path of the cleaning air duct.

  That is, since the air volume ratio adjusting means can adjust the ratio of the air volume of the clean air path and the air volume of the humidified air path, it is possible to reduce the air volume of the clean air path and increase the humidified air volume. be able to.

The perspective view which shows the external shape of the humidification air cleaner of Embodiment 1 of this invention Sectional view when the clean air passage is fully closed as seen from the front of the humidified air purifier Perspective view of air volume ratio adjusting means of the humidified air cleaner Vertical sectional view when the clean air passage is fully open as seen from the side of the humidified air purifier Horizontal sectional view of the humidified air cleaner viewed from above with the clean air passage fully open Vertical sectional view when the clean air passage is fully closed as seen from the side of the humidified air purifier Horizontal sectional view when the clean air passage is fully closed as seen from above. Vertical sectional view of air volume ratio adjusting means of the humidified air cleaner Perspective view of cylindrical rotating means of the humidified air cleaner Vertical sectional view of the upper part of the air volume ratio adjusting means of the humidified air cleaner Vertical sectional view of the lower part of the air volume ratio adjusting means of the humidified air cleaner

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

(Embodiment 1)
As shown in FIGS. 1 to 3, the humidified air cleaner of the present embodiment includes a main body case 1 having a blowout port 2 and a suction port 3, a clean filter 4, a humidifying means 5 in the main body case 1. , Air blowing means 6 and air volume ratio adjusting means 7 are provided.

  The main body case 1 has a vertically long box shape, and is provided with a blowout port 2 on the top surface and a suction port 3 at the lower part of both the left and right side surfaces. The suction port 3 has a vertically long rectangular shape, and is partitioned vertically by a partition plate 10 and divided into a first suction port 8 and a second suction port 9. The first suction port 8 is provided above the second suction port 9. The opening area of the first suction port 8 is larger than the opening area of the second suction port 9. The second suction port 9 may be provided in the lower part of the side surface of at least one side of the main body case 1, and the first suction port 8 may be provided above the second suction port 9.

  The clean filter 4 is provided in the suction port 3, that is, the first suction port 8 and the second suction port 9. Specifically, one sheet is provided outside the suction port 3. The clean filter 4 only needs to be able to remove dust in the air, and examples thereof include a high performance filter, a medium performance filter, and an electrostatic filter.

  The humidifying means 5 is provided between the second suction ports 9. The humidification means 5 includes a bowl-shaped water storage container 20 and a cylindrical humidification filter 21 in which an opening at the lower end is immersed in the water of the water storage container 20. The humidification filter 21 may be a suction type that can suck up the water in the water storage container 20.

  The air blowing means 6 is provided between the humidifying means 5 and the outlet 2 above the first suction port 8. Examples of the air blowing means 6 include a turbo fan and an axial blower.

  The air passages blown by the blowing means 6 include a clean air passage 11 and a humidified air passage 12.

  The clean air passage 11 is an air passage through which air sucked from the first suction port 8 by the air blowing means 6 is blown to the blowout port 2 through the clean filter 4. The humidified clean air passage 12 is an air passage through which air sucked from the second suction port 9 by the blower 6 is blown to the outlet through the clean filter 4 and the humidifier 5. That is, the blower 6 blows air from both the clean air path 11 and the humidified clean air path 12.

  The air volume ratio adjusting means 7 is provided between the clean filter 4 and the air blowing means 6 in the clean air path 11 and between the humidifying means 5 and the air blowing means 6 in the humidified clean air path 12. The air volume ratio adjusting means 7 can adjust the ratio between the air volume of the clean air path 11 and the air volume of the humidified clean air path 12.

  Thereby, since the air volume ratio adjusting means 7 can adjust the ratio between the air volume of the clean air path 11 and the air volume of the humidified air path 12, it is possible to increase only the humidified air volume. As a result, the humidification efficiency is improved.

  Specifically, the air volume ratio adjusting means 7 includes a cylinder 13 rotatably provided in the main body case 1, a shielding portion 14 in contact with a side peripheral surface of the cylinder 13, and a cylinder rotating means for rotating the cylinder. It consists of.

  The cylinder 13 includes at least one side opening 16 on the side circumferential surface with the vertical direction being the axial direction.

  The clean air passage 11 communicates from the side opening 16 of the cylinder 13 to the upper surface opening 17 on the upper surface. The humidified clean air passage 12 communicates from the lower surface opening 18 on the lower surface of the cylinder 13 to the upper surface opening 17. Here, when the cylinder 13 is rotated by the cylinder rotating means, the opening area of the side opening 16 is changed by the shielding portion 14.

  In the main body case 1, the shielding portion 14 has a shape in which the front side and the rear side of the main body case 1 protrude inward, and the tip is along the side peripheral surface of the outer periphery of the cylinder 13.

  The cylindrical rotating means includes an annular gear 22 provided on the upper end side surface of the cylinder 13, a stepping motor 23 provided in the main body case 1, and a gear (not shown) rotated by the stepping motor 23. . The stepping motor 23 rotates the gear, and the gear 22 meshing with the gear rotates, whereby the cylinder 13 rotates.

  With the above configuration, as shown in FIGS. 4 to 7, when the cylinder 13 rotates and the side opening 16 and the shielding part 14 overlap, the side opening 16 becomes smaller only in the overlapping part. Thereby, the air volume ratio adjusting means 7 can rotate the cylinder 13 and change the side opening 16 from fully open to fully closed by the shielding part 14. That is, since the side opening 16 can be fully closed from fully open, the clean air path 11 is shielded, and only the humidified air path 12 is provided, and only the humidified air volume can be increased.

  Moreover, the distance from the 1st suction inlet 8 in the clean air path 11 to the ventilation means 6 is shorter than the distance from the 2nd suction inlet 9 in the humidification clean air path to the ventilation means 6.

  That is, since the clean air passage 11 does not have the humidifying means 5 serving as air blowing resistance, the air blowing resistance in the clean air passage 11 is smaller than the air blowing resistance in the humid air cleaning air passage 12, but in addition to that, the clean air flow Since the distance from the first suction port 8 to the blowing means 6 in the path 11 is shorter than the distance from the second suction port 9 to the blowing means 6 in the humidified clean air path, the first suction port in the clean air path 11 The blowing resistance from 8 to the blowing means 6 is smaller than the blowing resistance from the second suction port 9 to the blowing means 6 in the humidified clean air passage 12.

  Thereby, the air volume of the clean air path 11 becomes larger than the air volume of the humidified air path 12 when the side opening 16 is fully opened. As a result, the air volume of the humidified clean air path 12 can be further reduced without blocking the humidified clean air path 12.

  Further, the opening area of the side opening 16 is larger than the opening area of the lower surface opening 18 of the cylinder 13.

  That is, the blowing resistance from the first suction port 8 to the blowing means 6 in the clean air passage 11 is further smaller than the blowing resistance from the second suction port 9 to the blowing means 6 in the humidified clean air passage 12. Thereby, when the side surface opening 16 is fully opened, the air volume of the clean air path 11 becomes larger than the air volume of the humidified air path 12. As a result, the air volume of the humidified clean air path 12 can be further reduced without blocking the humidified clean air path 12.

  When humidification is unnecessary, the hollow cylinder 13 as the air volume ratio adjusting means 7 is rotated by the cylinder rotating means. When the cylinder 13 rotates and the side opening 16 of the cylinder 13 faces the cleaning filter 4, the inside of the cylinder 13 and the cleaning filters 4 on both sides communicate with each other.

  In other words, the clean filter 4 and the air blowing means 6 communicate with each other without the humidifying means 5 to form the clean air path 11.

  The air sucked from the first suction ports 8 on both sides of the main body case 1 is purified by the clean filter 4 and enters the cylinder 13, is pressurized by the turbo fan, and is purified without being humidified from the outlet port 2 above the main body case 1. Air is blown out.

  At this time, the air sucked from the second suction port 9 passes through the clean filter 4 below the cylinder 13 facing the humidifying means 5, passes through the humidifying filter 21 as the humidifying means 5, and the cylinder 13. Get inside.

  However, since the air resistance and pressure loss of the humidifying filter 21 which is the humidifying means 5 are large, the air is sucked from the second suction port 9 and purified by the clean filter 4, passes through the humidifying filter 21 having high air resistance, The pressure is increased by the means 6 and blown out from the outlet 2. The air passing through the humidifying filter 21 having a large air resistance is extremely small.

  Most of the air passes through the clean air passage 11, enters the cylinder 13 directly from the clean filter 4 via the side opening 16 of the cylinder 13, and is pressurized by the air blowing means 6.

  That is, when humidification is unnecessary, most of the clean air purified by the clean filter 4 can be blown out without going through the humidification filter 21 having a large pressure loss, thereby saving energy and blowing out a large amount of clean air. Can be cleaned quickly.

  On the other hand, when rapid humidification is necessary, the hollow cylinder 13 as the air volume ratio adjusting means 7 is rotated 90 degrees from the fully open state of the clean air passage 11 by the cylinder rotating means. By rotating 90 degrees, the non-opening surface of the cylinder 13 and the clean filter 4 are opposed to each other, and when the side opening 16 is closed by the shielding portion 14, the inside of the cylinder 13 and the first suction port 8 are not in communication with each other. The air is ventilated and the clean air passage 11 is fully closed.

  The air sucked from the second suction port 9 is purified by the blowing means 6 through the clean filter 4, and the purified clean air is supplied to the humidifying filter 21 as the humidifying means 5. Humidified and purified air that has been humidified and pressurized by the air blowing means 6 such as a turbofan and humidified and purified from the blowout port 2 is blown out.

  As a result, when the humidification is necessary, the clean air passage 11 can be fully closed and substantially fully closed, the total air volume of the humidified air purifier and the substantially total air volume can be humidified, and the air volume of the humidified air purifier can be increased with a simple configuration. Therefore, it is possible to provide a humidified air purifier that can save energy and can rapidly humidify by increasing the amount of humidification.

  When humidification is required, the hollow cylinder 13 serving as the air volume ratio adjusting means 7 is rotated from 0 to 90 degrees by the cylinder rotating means from the fully open state to the fully closed state of the clean air passage 11 so that the clean air passage 11 is fully opened. The opening can be adjusted until it is fully closed.

  By adjusting the opening degree of the clean air passage 11, the air is not humidified without passing through the humidifying means 5, and the amount of clean air blown from the air outlet 2 through the clean air passage 11 is humidified by the humidifying means 5 and blown from the air outlet 2. The ratio of the air volume of humidified clean air to be output can be adjusted.

  Depending on the need for humidification, the ratio of the amount of air supplied to the humidifying means 5 can be increased or decreased, that is, the amount of humidification can be increased or decreased, and energy saving is required without increasing the total air volume of the humidified air purifier. It will be possible to humidify according to the nature.

  According to the present embodiment, according to the necessity of humidification, it is possible to adjust the increase / decrease of the humidification amount with a simple slim configuration, saving energy. Moreover, the increase / decrease of the air volume of the clean air which is not humidified can be adjusted. Further, by fully opening the clean air passage 11, the amount of clean air that is not humidified due to a decrease in pressure loss can be increased.

  The cylinder 13 is molded with resin. As shown in FIGS. 8 and 9, the cylindrical rotating means is rotated by the motor unit which is the stepping motor 23 provided in the main body case 1, the gear 24 fixed to the motor shaft of the motor unit, and the gear 24. It consists of a first annular portion 25 having an annular shape. The first annular portion 25 is molded from resin and is fixed to the upper end of the cylinder 13 of the air volume ratio adjusting means. The first annular portion 25 has a cylindrical shape whose axial direction is the vertical direction, and has a funnel shape in which the diameter of the upper opening is larger than the diameter of the lower opening. A tooth portion which is a gear 22 protruding outward from the outer peripheral surface of the first annular portion 25 is provided. This tooth portion meshes with the gear 24 fixed to the motor shaft.

  As shown in FIG. 10, the cylinder 13 includes a cylindrical upper end fixing portion 32 that extends upward from the upper end of the cylinder 13 and whose axial direction is the vertical direction. The first annular portion 25 includes a cylindrical first annular outer surface side fixing portion 33 that extends downward from the lower end of the first annular portion 25 and has an axial direction that is the vertical direction. A first inner surface side fixing portion 34, which is a plurality of claws, extends downward from the lower end of the first annular portion 25 inside the first annular outer surface side fixing portion 33. The upper end fixing portion 32 of the cylinder 13 is fitted between the inner surface of the first annular outer surface side fixing portion 33 and the outer surface of the first inner surface side fixing portion 34, and the first annular portion 25 is attached to the cylinder 13. It can be fitted and fixed.

  The cylinder 13 has a cylindrical shape whose axial direction is the vertical direction, and has a side opening 16 on the side peripheral surface. The side openings 16 have a plurality of crosspieces 26 in a lattice shape and are reinforced. Since it is such a shape, when it is made by molding resin, the speed at which the resin hardens on the side peripheral surface is difficult to be constant, and as a result, it is difficult to become a perfect circle. On the other hand, the first annular portion 25 has a tooth portion which is the gear 22 and has an annular shape. Therefore, compared to the cylinder 13, the first annular portion 25 tends to be a perfect circle. Therefore, the roundness of the cylinder 13 can be improved by fixing the first annular portion having a higher roundness than the cylinder 13 to the upper end of the cylinder 13. Moreover, since the 1st ring part is provided with the tooth | gear part which is the gear 22, as an example of the material of resin, a polyacetal is preferable. Since the cylinder 13 does not include a tooth portion, it is not necessary to be an expensive polyacetal, and as an example, polystyrene is preferable.

  That is, rather than resin molding of the cylinder 13 and the first annular portion 25 integrally, the first annular portion 25 is made of a resin that is harder and less deformable than the resin of the cylinder 13, and the cylinder 13 and the first annular ring. By separately resin-molding the parts and fixing the first annular part, which is a separate part, to the upper end of the cylinder 13 later, the dimensional accuracy can be improved and the material cost can be suppressed.

  The first annular portion 25 includes an annular protrusion 27 that protrudes outward from the outer periphery. The lower surface of the projecting portion 27 is rotatably supported by a first rotation support portion 28 extending from the main body case 1.

  The strength of the first annular portion 25 is improved by the annular protrusion 27, and as a result, the roundness of the cylinder 13 can be further improved.

  In addition, an annular second annular portion 29 formed of resin is fixed to the lower end of the cylinder 13. A part of the lower surface of the second annular portion 29 comes into contact with the second rotation support portion 30 extending from the main body case when the cylinder rotates.

  As shown in FIG. 11, the cylinder 13 includes a cylindrical lower end fixing portion 31 that extends downward from the lower end of the cylinder 13 and whose axial direction is the vertical direction. The second annular portion 29 has an annular shape in which the axial direction is the vertical direction, and has a vertical cross-sectional shape that covers the inner surface, outer surface, and lower surface of the lower end fixing portion 31, and has a U-shape that opens upward. The lower end fixing portion 31 enters the U shape, and the second annular portion 29 can be fitted and fixed to the cylinder 13.

  Since the second annular portion 29 is in contact with the second rotation support portion 30 while rotating, the resin material is preferably polyacetal as an example. Since the second annular portion 29 has an annular shape, it is more likely to be a perfect circle than the cylinder 13. Therefore, by fixing the second annular portion 29 having a higher roundness than the cylinder 13 to the lower end of the cylinder 13, the roundness of the cylinder 13 can be improved.

  That is, the second annular portion 29 is made of a resin harder than the resin of the cylindrical portion 13 and hard to be deformed, rather than integrally molding the cylindrical portion 13 and the second annular portion, and the cylindrical portion 13 and the first annular portion. 25 is separately resin-molded, and the second annular portion 29, which is a separate part, is later fixed to the lower end of the cylinder 13, thereby improving the dimensional accuracy and further suppressing the material cost. .

  The humidified air purifier according to the present invention can adjust the amount of humidification with a simple slim configuration, energy saving, and the amount of clean air that is not humidified according to need. It is useful as an air conditioner such as a humidified air cleaner used in an air conditioner having a composite function such as humidification, air purification, temperature control and the like.

DESCRIPTION OF SYMBOLS 1 Main body case 2 Air outlet 3 Air inlet 4 Clean filter 5 Humidifying means 6 Air blowing means 7 Air volume ratio adjusting means 8 1st air inlet 9 2nd air inlet 10 Partition plate 11 Clean air path 12 Humidification clean air path 13 Cylinder 14 Shielding portion 16 Side opening 17 Upper surface opening 18 Lower surface opening 20 Water storage container 21 Humidification filter 22 Gear 23 Stepping motor 24 Gear 25 First annular portion 26 Crosspiece 27 Projection portion 28 First rotation support portion 29 Second annular portion 30 Second rotation support portion 31 Lower end fixing portion 32 Upper end fixing portion 33 First annular outer surface side fixing portion 34 First inner surface side fixing portion

Claims (7)

A main body case having a blowout port, a first suction port, and a second suction port, a cleaning filter provided in the first suction port and the second suction port, and a humidifying means provided in the main body case And air blowing means provided between the humidifying means and the outlet, and the air sucked from the first inlet is blown to the outlet through the clean filter by the fan. And a humidified clean air path in which air sucked from the second suction port by the air blowing means is blown to the air outlet through the clean filter and the humidifying means, and The air volume ratio adjusting means is provided between the clean filter and the air blowing means in the clean air passage and between the humidifying means and the air blowing means in the humidified air passage, Humidified air purifier and adjusting air volume of Kiyoshikazero and the ratio of the air volume of the humidified clean air duct. The main body case is provided with the second suction port at a lower portion of the side surface on at least one side, the first suction port is provided above the second suction port, and the blower means is provided above the first suction port. The air volume ratio adjusting means includes a cylinder rotatably provided in the main body case, a shielding part in contact with a side peripheral surface of the cylinder, and a cylinder rotating means for rotating the cylinder. The cylinder has an axial direction in the vertical direction, and at least one side surface opening is provided on a side circumferential surface. The clean air passage communicates from the side surface opening of the cylinder to an upper surface opening on the upper surface, and the humidified air passage is The opening area of the side opening is changed by the shielding portion when the cylinder is rotated by the cylinder rotating means from the lower surface opening of the lower surface of the cylinder to the upper surface opening of the upper surface. 1 humidified air cleaner Machine. The distance from the said 1st suction inlet in the said clean air path to the said ventilation means is shorter than the distance from the said 2nd suction inlet in the said humidification clean air path to the said ventilation means, The said 2nd aspect is characterized by the above-mentioned. Humidified air purifier. The humidified air cleaner according to claim 3, wherein an opening area of the side opening is larger than an opening area of a lower surface opening of the cylinder. The cylinder is molded of resin, and the cylinder rotating means includes a motor portion provided in the main body case, a gear fixed to the motor shaft of the motor portion, and an annular first rotating by the gear. The first annular portion is molded from resin and fixed to the upper end of the cylinder of the air volume ratio adjusting means, and is outward from the outer periphery of the first annular portion. The humidified air cleaner according to claim 2, further comprising a tooth portion protruding toward the surface. The first annular portion includes an annular protrusion protruding outward from the outer periphery, and a lower surface of the protrusion is rotatably supported by a first rotation support portion extending from the main body case. The humidified air cleaner according to claim 5, wherein An annular second annular portion molded of resin is fixed to the lower end of the cylinder, and a part of the lower surface of the second annular portion is formed by the main body when the cylinder rotates. The humidified air cleaner according to claim 6, wherein the humidified air cleaner is in contact with a second rotation support portion extending from the case.

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