JP6670992B2 - Air purification equipment - Google Patents

Description

The present invention relates to an air purification device that removes odor and the like in air by bringing a gas-liquid contact member containing water into contact with air.

  The configuration of this type of conventional air purification device is as follows.

That is, water is electrolyzed to generate electrolyzed water, and this electrolyzed water is supplied to a rotary air cleaning filter section as a gas-liquid contact member, and the air passing through the wet rotary air cleaning filter section and the electrolyzed water are contacted. Thus, the odor in the air is removed (for example, Patent Document 1 below).

JP 2012-052699 A

  In a conventional air purification device, when air to be treated passes through a rotating filter unit having a hole, electrolytic water contained in a wet rotating filter unit removes bacteria and viruses in the air. And removes odorous substances and the like. Since a large amount of water is used for the rotary filter unit, there is a problem that the amount of humidification accompanying the vaporization of water is large and the humidity in the room is too high.

The present invention is intended to solve the conventional problems described above, that a small amount of water and the air to be treated which is held on the front surface of the member contacting the air is in contact, while suppressing the vaporization of water, An object of the present invention is to provide an air purification device that can maintain high air purification performance.

In order to achieve this object, the present invention provides a main body case provided with an inlet and an outlet,
In the main body case, an air passage communicating the suction port and the air outlet,
And blowing means for blowing air to be treated the air air passage toward the outlet from the inlet, the circular cylinder-shaped body rotatable provided in the air air passage,
And a water tank capable of immersing a part of the cylindrical body in water,
The cylindrical body holds water on the surface when exiting the water tank,
A straightening plate provided along the rotation surface of the cylindrical body at a predetermined interval from the cylindrical body ,
Be those flowing air to be treated between the rotating surface surface of the cylindrical shaped body with the rectifying plate, the straightening plate and the cylindrical body spaced such that the air to be treated is brought into contact with the rotating surface It is a thing. The intended purpose is achieved by these means.

As described above, in the present invention, the deodorizing treatment is performed by contact between the water and the air to be treated between the current plate and the rotating surface of the cylindrical body . Although water is retained on the surface of the rotating surface of the cylindrical body but is small, the amount of vaporization due to contact with the air to be treated can be suppressed. This makes it possible to efficiently deodorize while reducing the amount of humidification that accompanies the sterilization and deodorization.

1 is a schematic diagram of an air purification device according to a first embodiment of the present invention. (A) Schematic diagrams of the cylindrical body according to the first embodiment of the present invention, (b) to (d) Enlarged schematic diagrams of the state of holding the water and the projections and dents of the cylindrical body . Schematic diagram of the current plate and the cylindrical body according to the first embodiment of the present invention. Schematic diagram of the current plate and the cylindrical body according to the first embodiment of the present invention. Schematic diagram of an air purification device using electrolytic water according to Embodiment 2 of the present invention

The air purifying apparatus according to claim 1 of the present invention, a main body case provided with a suction port and an air outlet, an air flow path communicating the suction port and the air outlet in the main body case; and blowing means for blowing the processed air towards the inside of the road from the inlet to the outlet, a circular cylindrical shaped body rotatable provided in the air air passage, a portion of the cylindrical body in water A water tank that can be immersed, wherein the cylindrical body retains water on the surface when exiting the water tank , and is provided with a predetermined interval from the cylindrical body to rotate the cylindrical body . A rectifying plate disposed along a surface of the rectifying plate, and for flowing air to be processed between the rectifying plate and the rotating surface of the cylindrical body , wherein the rectifying plate and the cylindrical body are provided with the rectifying plate; The spacing is such that the processing air contacts the rotating surface.

As a result, the water and the air to be treated come into contact between the current plate and the rotating surface of the cylindrical body to perform the deodorizing treatment. Although water is retained on the surface of the rotating surface of the cylindrical body but is small in amount, the vaporization due to contact is small, and the amount of water vaporized can be suppressed. This makes it possible to efficiently deodorize while reducing the humidification associated with deodorization. In addition, with the rotation of the air purification filter, the water on the rotating surface of the cylindrical body is replaced with new water, so that fresh water and the air to be treated can always be brought into contact, and Since the absorption rate increases, the deodorizing treatment efficiency increases.

An air purifying apparatus according to a second aspect of the present invention is characterized in that the cylindrical body has a concave portion on the surface of the rotating surface, and the concave portion holds water.

As a result, water can be retained on the surface of the rotating surface of the cylindrical body without any complicated function, so that the efficiency of the deodorizing treatment increases.

An air purifying apparatus according to a third aspect of the present invention is characterized in that a protrusion is provided on the side of the cylindrical body of the current plate facing the rotating surface.

Thereby, turbulence is generated by the air to be processed passing between the straightening plate and the rotating surface of the cylindrical body colliding with the projection, thereby increasing the contact with the air cleaning filter. Therefore, the contact probability can be increased, and the deodorizing treatment efficiency is improved.

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

(Embodiment 1)
As shown in FIG. 1, the air purification device of the present embodiment includes a substantially box-shaped main body case 1. A suction port 2 is provided on a side surface of the main body case 1, an air outlet 3 is provided on a top surface of the main body case 1, and an air passage communicating between the suction port 2 and the air outlet 3 is provided in the main body case 1. 7, a blower means 4, and the cylindrical body 5 as a member contacting the air, and a water tank 6 for dipping a part (lower part of the cylindrical body 5 in this embodiment) of the cylindrical body 5, air air path A partition wall 8 that divides the upstream and downstream sides 7 of the cylindrical body 5 with respect to the cylindrical body 5 ; and a rectifying plate 9 that is disposed in the vicinity of the cylindrical body 5 along the surface of the rotating surface of the cylindrical body 5. I have. The air to be processed sucked into the main body case 1 is configured to pass between the rotating surface 11 of the cylindrical body 5 and the current plate 9. Cylindrical body 5 is rotated Allowed ability.

The cylindrical body 5 is configured to hold a small amount of water on the rotating surface 11 of the cylindrical body 5 when the cylindrical body 5 exits the water tank 6 with the rotation in the direction indicated by the arrow A.

The blowing means 4 is provided above the cylindrical body 5 inside the main body case 1 and is formed as a so-called sirocco fan composed of a motor (not shown), an impeller rotated by the motor, and a case surrounding them. I have.

  The water tank 6 has a box shape with an open top surface and has a structure in which water can be stored. The water tank 6 is disposed at a lower portion of the main body case 1, and is horizontally slidable from the main body case 1 to be detachable. I have.

Thereby, the water and the air to be treated come into contact between the current plate 9 and the surface of the rotating surface of the cylindrical body 5 to perform the deodorizing treatment. Although water is retained on the rotating surface 11 of the cylindrical body 5 but is small in amount, the vaporization due to contact is small and the amount of water vaporized can be suppressed.

  Therefore, deodorization can be performed efficiently while reducing humidification accompanying deodorization.

In addition, as the cylindrical body 5 rotates, the water on the rotating surface of the cylindrical body 5 is replaced with new water, so that fresh water can always be brought into contact with the air to be treated, And the efficiency of deodorizing treatment increases. Further, by providing a predetermined interval between the current plate 9 and the surface of the rotating surface of the air cleaning filter 5, the resistance of the air to be processed passing therethrough can be reduced, and the pressure loss can be reduced.

In the present embodiment, the predetermined distance between the current plate 9 and the surface of the rotating surface of the cylindrical body 5 is 5 mm to 6 mm, and the end of the current plate 9 near the suction port 2 and the cylindrical body 5 And the predetermined distance between the end of the current plate 9 near the outlet 3 and the surface of the rotating surface of the cylindrical body 5 is 7 mm to 8 mm.

As shown in FIG. 2 (a), and recesses 10 on the rotating surface surface 11 of the cylindrical body 5 is formed, when the rotating surface surface 11 of the cylindrical body 5 is moved from the water into the air, Water is held in the concave portion 10 of the cylindrical body 5. 2 (b) to 2 (d) show the state of holding water. FIG. 2B shows a state in which water is held in the entire concave portion 10 and a part of the rotating surface surface 11 by a broken line portion. FIG. 2C shows a state in which water is held at the bottom 12 of the dent portion by a broken line portion. FIG. 2D shows a state in which water is held at the boundary 13 between the surface of the rotating surface of the cylindrical body 5 and the recessed portion by a broken line.

When moving away from the water surface, the cylindrical body 5 moves while pulling a part of water from the water surface due to surface tension when leaving the water surface. Some of the water drawn from the water surface, cylindrical body 5 rotating surface surface 11 present in the recess 10, the recess bottom 12 of the rotation surface surface 11 and rotating surface surface a recessed portion of the boundary portion 13 such Water is retained at the location.

Thereby, a small amount of water can be held on the rotating surface 11 of the cylindrical body 5 without providing a complicated function.

The method of forming the dent 10 in the cylindrical body 5 is not limited to the method of the present embodiment, but may be a method of forming a protrusion on a part of the surface of the cylindrical body 5. By forming the protrusion on a part of the surface of the cylindrical body 5, the top of the protrusion is located at the outermost periphery of the cylindrical body 5, so that the outermost periphery of the empty cylindrical body 5 is formed. The portion can be regarded as the rotating surface of the cylindrical body 5. Similarly, since the foot of the projection can be regarded as a depression, an effect of retaining water in the depression or the like can be obtained as in the present embodiment.

The material constituting the cylindrical body 5 includes polyolefin resin (polyethylene resin, polypropylene resin, etc.), PET (polyethylene terephthalate resin), polyamide resin, vinyl chloride resin, and fluorine resin (PTFE, PFA, ETFE). Etc.), a cellulosic material or a ceramic material is used. In this embodiment, the material of the cylindrical body 5, the polyethylene is employed that is easy to hold a small amount of water to the rotation plane surface of the cylindrical body 5.

Since the cylindrical body 5 is immersed in water in the water tank 6, periodic maintenance such as washing and removing scale attached to the cylindrical body 5 is required.

In air purification device of the present embodiment includes a rotary shaft having improved dimensional stability with an emphasis on stable rotation, there is no need to separate members front surface of the cylindrical body 5, subject to maintenance such as cleaning and removing Can be reduced.

In addition, the water film formed at the boundary 13 between the surface of the rotating surface of the cylindrical body 5 and the dent portion due to the surface tension of the water may be partially disappeared because the shape is unstable, and the water may be retained. And the non-retained parts are distributed irregularly. Turbulence occurs in the air to be processed passing between the surface of the rotating surface of the cylindrical body 5 and the rectifying plate 9 in which the portion where water is held and the portion where water is not held are distributed irregularly, and the contact between the water and the air to be processed is caused. Probability increases and deodorization performance improves.

Next, the current plate 9 will be described. As shown in FIG. 3, the current plate 14 of the air inflow side is fixed to one end edge portion of the water tank 6, the surface with a predetermined distance from the cylindrical body 5, the plane of rotation of the cylindrical body 5 The shape is along the surface 11 . The other straightening plate 15 on the air outflow side has one end fixed to the partition wall 8, and the surface thereof has a shape spaced along the rotating surface of the cylindrical body 5 at a predetermined interval from the cylindrical body 5. . An air inlet 16 through which air to be processed flows is open in the air flow-in side rectifying plate 14, and the air to be processed passing through the air flow inlet 16 is supplied to the rectifying plate 9 and the rotating surface of the cylindrical body 5. The air passes between the surfaces, comes into contact with the rotating surface 11 of the cylindrical body 5, and odor substances and the like contained in the air to be treated are absorbed.

Further comprising a straightening vane projections 17 on the side facing the rotating surface surface of the cylindrical body 5 of the air inflow side regulating plate 14, facing the rotating surface surface 11 of the cylindrical body 5 of the rectifier plate 15 of the air outflow side By providing the straightening plate projections 17 on the side to be processed, the air to be treated collides with the straightening plate projections 17 to generate turbulence, and the probability of contact with the rotating surface of the cylindrical body 5 is increased. Processing efficiency can be increased.

  In the present embodiment, as shown in FIG. 3, the protrusions 17 of the current plate are provided at four positions. However, the present invention is not limited to this arrangement, and air to be processed collides with the protrusions 17 of the current plate. The same effect can be obtained if the arrangement and the number of the turbulent flows are promoted.

Further, in this embodiment, the predetermined distance between the rotating surface surface 11 of the rectifier plate 9 and the cylindrical body 5 is not limited to the interval described above, the air to be treated and a rectifying plate 9 cylinder between the rotating surface surface 11 of the shaped body 5, if the intervals as effectively contact the rotating surface surface 11 of the cylindrical body 5 can obtain the same effect.

  When the water tank 6 is attached or detached, the flow straightening plate 14 on the air inflow side moves together with the water tank 6. On the other hand, the straightening plate 15 on the air outflow side remains attached to the partition wall 8.

Further, the shape of the current plate 9 as shown in FIG. 4 may be used. Partition wall 8 is placed on the air outlet side of the cylindrical body 5, facing the cylindrical body 5, the rectifying plate 9 in the form along the cylindrical body 5 is installed. The current plate 9 is fixed to the edge of the water tank 6.

Thereby, turbulence is generated by the air to be treated colliding with the projections 17 of the current plate, the probability of contact with the cylindrical body 5 can be increased, and the deodorizing treatment efficiency is improved.

Next, the rotation direction of the cylindrical body 5 will be described. As shown in FIG. 4, when the cylindrical body 5 rotates in the direction indicated by arrow A, the part immersed in water moves. The portion of the cylindrical body 5 that has been immersed in the water of the water tank 6 comes out of the water tank 6 while holding the water as it rotates.

The air outside the main body case 1 is sucked into the main body case 1 by the operation of the blowing means 4, and is blown from the suction port 2 as air to be processed into the air passage 7 to rotate the cylindrical body 5. The air enters between the surface surface 11 and the current plate 9 through the air inlet 16. Furthermore, the air to be processed flows along the rotating surface 11 of the cylindrical body 5 . The air to be treated comes into contact with the water held in the cylindrical body 5, is absorbed by the water, and is deodorized.

In other words, the cylindrical body 5 repeatedly goes out of the water into the air, removes the bacteria, removes the odor, keeps the fresh water from the air, keeps the fresh water, and goes out into the air again.

Here, the rotation direction of the cylindrical body 5 is preferably a direction in which water enters the water from the upstream side of the air passage 7 and moves to the downstream side of the air passage 7.

If it is the direction of rotation indicated by this way arrow A, will adhere less fresh water odor concentration on the rotation surface 11 of the cylindrical body 5 of the air-air passage downstream, cylindrical body of air wind path upstream side 5 The rotating surface 11 has a state in which the odor concentration is higher than that on the downstream side. On the other hand, the air to be treated flows from the upstream of the air passage in a state where the odor concentration is high, and air having a lower odor concentration flows downstream of the air passage in comparison with the upstream. Therefore, at the downstream point of the air passage, fresh water having a low odor concentration comes into contact with the air to be treated having a low odor concentration, and at the upstream point of the air passage, the water having a high odor concentration comes into contact with the air having a high odor concentration. Become. As a result, the deodorization efficiency can be maintained in the air passage by passing from the upstream of the air passage to the downstream of the air passage while maintaining the concentration difference, thereby exhibiting high deodorization treatment efficiency as an air purification device. .

  On the other hand, assuming that the rotation direction is the opposite direction to the rotation direction indicated by arrow A, water having a higher odor concentration at the downstream point of the air passage is higher than that of the upstream, and the odor concentration is lower than the upstream. The air comes into contact with water at the upstream point of the air passage, where water having a lower odor concentration than the downstream and air having a higher odor concentration as compared to the downstream come into contact. As a result, the concentration difference is high and easily absorbed on the upstream side, but the concentration difference disappears every time it goes downstream, the deodorization rate deteriorates, the deodorization efficiency cannot be maintained, and the high deodorization efficiency as an air purification device It becomes difficult to obtain.

Thus, while the cylindrical body 5 is rotated once, in order to maintain the deodorizing effect of water of the rotating surface 11 of the cylindrical body 5 can always be maintained at a high odor concentration difference of the process air and water The rotation direction ( direction of arrow A) of the cylindrical body 5 is desirable.

As described above, according to the present embodiment, since the air to be treated does not pass through the cylindrical body 5, it is possible to provide an air purification device that can maintain high air purification performance while suppressing water vaporization. Can be.

  In this embodiment, tap water is used as a deodorizing medium. However, by using electrolyzed water or the like containing active oxygen species, it is possible to enhance the sterilization effect in addition to the deodorization effect. FIG. 5 shows an air purification device in this case. The water tank 6 includes an electrolysis unit 18 in addition to the air purification device having the same basic configuration as the air purification device described in the first embodiment. In such an air purification device, a sodium chloride tablet 19 is put into the water tank 6. When the sodium chloride tablet 19 is dissolved and water containing chloride ions is energized by the electrolytic unit 18 having electrodes, the water containing chloride ions is electrolyzed, and the electrolytic water containing active oxygen species is electrolyzed. Generate

  Here, the reactive oxygen species are oxygen molecules having higher oxidizing activity than ordinary oxygen and related substances, and in a narrow sense such as superoxide anion, singlet oxygen, hydroxy radical, or hydrogen peroxide. Active oxygen contains so-called active oxygen in a broad sense such as ozone and hypochlorous acid (hypohalous acid), and is known to exhibit a high sterilization effect.

As described above, by holding the electrolyzed water on the surface of the rotating surface of the cylindrical body 5, the sterilization effect can be enhanced in addition to the deodorization effect.

  It is expected to be used as an air purification device for removing odors and the like in homes, offices, and public spaces.

1 main body case 2 inlet 3 outlet 4 blowing means 5 cylindrical body 6 aquarium 7 air-air passage 8 bulkhead 9 rectifying plate 10 recess 11 rotating surface surface 12 recessed portion of the bottom portion 13 once the boundary portion between the recessed portion rolling surface surface 14 Rectifying plate on air inflow side 15 Rectifying plate on air outflow side 16 Air inflow port 17 Protrusion of rectifier plate 18 Electrolysis unit 19 Sodium chloride tablet

Claims (3)

A main body case provided with an inlet and an outlet,
In the main body case, an air passage communicating the suction port and the air outlet,
And blowing means for blowing air to be treated the air air passage toward the outlet from the inlet, the circular cylinder-shaped body rotatable provided in the air air passage,
And a water tank capable of immersing a part of the cylindrical body in water,
The tubular body retains water on the surface when exiting the water tank,
A straightening plate provided along the rotation surface of the cylindrical body at a predetermined interval with the cylindrical body ,
The air to be processed flows between the straightening plate and the rotating surface of the cylindrical body , and the straightening plate and the cylindrical body are spaced from each other so that the air to be processed contacts the rotating surface. air purification apparatus. The cylindrical body has a dent on the surface of the rotating surface,
The air purifying apparatus according to claim 1, wherein water is held in the recess. The air purification device according to claim 1 or 2, wherein a protrusion is provided on a side of the straightening plate facing a rotation surface of the cylindrical body .