JPH0889750A - Air cleaner - Google Patents

Abstract

PURPOSE: To efficiently capture the dust and smell components in air and to enhance cleaning efficiency by stepwise providing the above air cleaner with a pipe-like nozzle varying in diameter in the central part of a porous rotating body arranged in mid-way of air passage and providing this nozzle with plural nozzle holes at least in one row. CONSTITUTION: The external air sucked from a suction duct is cleaned at the time of passing the misty water ejected from an atomizing section 17. As for the atomizing section 17, water is ejected from the stationary nozzle disposed at the center of the rotating sponge 18 and is finely segmented by the sponge 18 to the misty form. The stationary nozzle 27 vary in the diameter above and below; the upper side is a small-diameter part 28 and the lower side is a large-diameter part 29. The small-diameter part 28 and the large-diameter part 29 are provided with the plural nozzle holes 28a to 28n, 29a to 29n in at least one row respectively in the longitudinal direction. The nozzle holes 28a to 28n, 29a to 29n are formed to the bores respectively smaller the furtherer from the supply source of water. As a result, water is uniformly ejected and, therefore, the efficiency of capturing the dust and smell components, etc., is enhanced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air cleaning device for cleaning air with water.

[0002]

2. Description of the Related Art A conventional household air cleaning device uses activated carbon or fibers such as polypropylene as a filter, and forcibly sucked air is passed through this filter to remove dust or odor contained in the air. There is a filter type cleaning device that removes such things. In addition to this, there is also an ion-type cleaning device in which dust and odor components in the air are charged to, for example, the + side, which is attracted to the-side electrode and collected by a paper towel.

[0003]

In the filter type cleaning device, the filter is clogged relatively quickly, so that the filter must be replaced frequently, which is not only troublesome but also costly. . In addition, since the filter is filled with activated carbon and fibers with almost no gap, the pressure loss becomes large, and a fan having a large capacity for sucking air must be used, which is also expensive.

In the ion type cleaning device, when the velocity of the air flow is high, dust and the like charged on the + side are not attracted to the − side and are discharged to the outside together with the air.
The air cannot be forcibly sucked and flowed. Therefore, there is a problem that only the air very close to the cleaning device is cleaned, but the air outside it cannot be cleaned.

Therefore, the present invention solves the above-mentioned problems and proposes an air purifying apparatus which is inexpensive and is capable of purifying a wide range of air.

[0006]

In order to solve the above-mentioned problems, in the invention of claim 1, in an air cleaning device for cleaning and discharging the air sucked from the outside, a porous rotation occurs during the passage of the air. A body is arranged, a nozzle for supplying water is arranged at the center of the rotating body, and a plurality of nozzle holes for ejecting water are provided in the nozzle in at least one row along the flow direction of the water. .

According to the second aspect of the invention, in the air cleaning device for cleaning the air sucked from the outside and discharging the air, a porous rotary member is arranged in the middle of the passage of the air, and water is provided at the center of the rotary member. The pipe-shaped nozzles having different diameters are arranged in a stepwise manner along the flow direction, and a plurality of nozzle holes for ejecting water are provided in the nozzle in at least one row along the water flow direction. .

[0008]

As shown in FIG. 1, the external air sucked from the air intake duct 10 of the air purifying apparatus 1 is cleaned when passing the mist-like water ejected from the spray section 17. In the spray unit 17, water is ejected from a fixed nozzle 27 arranged at the center of the rotating sponge 18, and the sponge 18 subdivides this into atomized water. As shown in FIG. 3, the fixed nozzle 27 has different upper and lower diameters, and the nozzle holes 28a to 28n and 29a to 29n provided in the small diameter portion 28 and the large diameter portion 29 have a smaller diameter as the distance from the water supply source increases. ing. As a result, water is jetted out uniformly, so that the efficiency of collecting dust and the like is increased. The cleaned air is discharged to the outside through the exhaust duct 11.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, one embodiment of the air purifying device according to the present invention will be described in detail with reference to the drawings.

FIG. 1 shows the construction of an air cleaning apparatus 1 according to the present invention. In this air purifying apparatus 1, an L-shaped intake duct 10 is arranged in a cylindrical exhaust duct 11, and is placed on a horizontal plate 32 having a hole. An intake port 13 is provided at the tip of the horizontal portion 12 of the intake duct 10, and the intake port 13 is open to the outside from the cylinder wall of the exhaust duct 11. Also,
The vertical portion 14 of the intake duct 10 is arranged substantially at the center of the exhaust duct 11, as shown in FIG. The cross-sectional area of the air passage portion 15 of the exhaust duct 11 is larger than the cross-sectional area of the air passage portion 16 of the vertical portion 14. This is to prevent water for cleaning the air from being discharged to the outside as described later.

In FIG. 1, the vertical portion 1 of the intake duct 10 is shown.
4 is provided with a water sprinkling section for spraying water for cleaning the air, and in this example, a spraying section 17 for spraying water in a mist state. As shown in FIG. 3, the spraying section 17 is a porous rotating body, and in this example, a thick cylindrical sponge 18 is a frame section 19.
Is housed inside. In the frame portion 19, a disc-shaped upper plate 20 and a lower plate 21 are arranged above and below the sponge 18, and as shown in FIG. 4, elongated vertical plates 22 are equally spaced between the upper plate 20 and the lower plate 21. Book is provided. A joint 23 is provided on the upper plate 20, and a rotary shaft 25 of a motor 24 is connected to the joint 23. The motor 24 is attached to a support plate 26 having a hole that is bridged in the intake duct 10.

In the space inside the sponge 18, a pipe-shaped fixed nozzle 27 is arranged over substantially the entire length. The diameter of the fixed nozzle 27 is changed substantially at the center of the sponge 18, and the upper side is a small diameter section 28 and the lower side is a large diameter section 29. Further, the small diameter portion 28 and the large diameter portion 29 each have a plurality of nozzle holes 28a to 28n, 29a along the longitudinal direction.
.About.29n are provided in at least one row. Nozzle hole 2
8a to 28n and 29a to 29n have smaller diameters as they are farther from the water supply source.

This is because the static water pressure increases toward the tip of the fixed nozzle 27, and the hydrostatic pressure decreases toward the water supply source, and the hydrostatic pressure decreases.
This is because when the diameter of 9n is the same, the amount of water jetted increases toward the tip. By changing the diameter in this way, all the nozzle holes 28a to 28n, 29a to 29n
The same amount of water comes out of the room. The stationary nozzle 27 is provided with a receiving plate 30 with a slight clearance from the lower plate 21 of the frame portion 19, and a ring-shaped restricting portion 31 for restricting the position of the frame portion 19 is provided upright on the outer peripheral side thereof. There is.

Now, when the motor 24 operates, the sponge 18 rotates as the frame portion 19 rotates. At this time, the nozzle holes 28a to 28n and 29a to 29n of the fixed nozzle 27 are provided.
When water is ejected from the water, the water is subdivided into fine particles by the rotating sponge 18 and is ejected in the form of a mist to the outside by the centrifugal force caused by the rotation. Since this mist-like water is jetted while rotating, the air passage portion 16 in the intake duct 10
(FIG. 2) is entirely covered with water, and the dust and odorous components contained in the air passing therethrough are almost absorbed by the water for cleaning. Here, the purified air passes through a water / water separating portion 36 and an air passage portion 15 of the exhaust duct 11, which will be described later, and is exhausted to the outside from the exhaust port 34 via the sirocco fan 33 on the upper side of the exhaust duct 11. It The sirocco fan 33 is driven by a motor 35.

That is, here, the suction duct 1 is attracted by the suction force of the sirocco fan 33 provided in the exhaust duct 11.
Dirty air is sucked in through the intake port 13 of 0, and is cleaned with water ejected from the spraying unit 17, and then passes through the steam separation unit 36 and the exhaust duct 11, and is exhausted by the exhaust force of the sirocco fan 33. 34 is discharged to the outside. In this example, the sirocco fan 33 is the exhaust duct 11
Since it is disposed on the upper side of the, the turbulent flow is less likely to occur in the intake duct 10 and the exhaust duct 11. Therefore, air resistance is reduced and efficiency is increased. Further, since the purified air passes through the sirocco fan 33, the sirocco fan 33 is less likely to become dirty.

On the other hand, as shown in FIG. 1, below the intake duct 10 and the spraying section 17, the above-mentioned steam / water separating section 36 and the water pool section 37 are provided, and a tank 38 is attached / detached below that. Arranged freely. The air / water separator 36 has an appropriate width for separating the purified air and water.
A part of the steam separation unit 36 is partitioned, a pump 39 is arranged here, and its discharge port is connected to the fixed nozzle 27 via a water supply pipe 40 and a joint 41. The air separated by the steam separator 36 flows toward the exhaust duct 11 side by the suction force of the sirocco fan 33. In addition, the separated water flows into a reservoir 37 provided at the bottom of the steam separator 36. The water accumulated in the reservoir 37 is collected in the tank 38 as described below.

The tank 38 collects the water in the collecting part 37, a filter 43 for cleaning the dirty water in the collecting part 42, and a supply for supplying the cleaned water to the fixed nozzle 27. And part 44. A connection part 45 for connecting the tank 38 to the reservoir part 37 and the pump 39 is provided on the upper side of the supply part 44.

As shown in FIG. 5, two upper and lower guide portions 46 and 47 are attached to the connecting portion 45 on the surface facing the reservoir portion 37 by, for example, welding. Guide part 4
6, 47 are provided with a flange 48 on the outer side, and a relatively large chamfer is provided on the inner peripheral side thereof. by this,
The other side can be easily inserted. In addition, an insertion portion 50 for inserting the mating side is provided on the inner peripheral side of the tubular portion 49 of the guide portions 46 and 47. Into the insertion portion 50, the insertion portions 53 of the L-shaped joint portions 51 and 52 are inserted, and the tip end side is fitted with the sealing means, in this example, the O-ring 54.
Thereby, the guide portions 46 and 47 and the joint portions 51 and 52
Water can be prevented from leaking between the pipes 56 and 57. A check valve 55 made of rubber is provided on the inner end surfaces of the insertion portions 53 of the joint portions 51, 52.

On the other hand, a straight discharge pipe 56 for discharging the water in the reservoir 37 is provided on the surface of the reservoir 37 facing the connecting portion 45, and the water in the tank 38 is supplied to the sprayer 17 side. And an L-shaped supply pipe 57 for protruding. The discharge pipe 56 is attached near the bottom of the reservoir 37. Then, when the tank 38 is arranged at a predetermined position, the pipes 56 and 57 pass through the insertion portions 53 from the guide portions 46 and 47, respectively, and the joint portions 51 and 52.
Inserted inside. At this time, the check valve 55 is pushed open by the tips of the pipes 56, 57. With this, the reservoir 37
It becomes possible to collect the water in the tank 38,
The water in 8 can be supplied to the spray unit 17. On the contrary, when the tank 38 is removed, the check valve 55 is elastically closed. Then, when the tank 38 is tilted and the water inside flows into the joint portions 51, 52 side, the check valve 55 is pressed in the closing direction by the pressure of this water, so that it does not leak outside.

An insertion pipe 58 is provided below the joint portion 51 to which the discharge pipe 56 is connected, and a tube 59 inserted therein is connected to the recovery portion 42 (FIG. 1) of the tank 38. The tube 59 is fastened and fixed to the insertion pipe 58 with a fastening band 60. In addition, the supply pipe 57
An insertion pipe 58 is also provided below the joint portion 52 connected to, and the tube 61 inserted therein is connected to the tank 38.
Is connected to the supply unit 44. This tube 61 is also fixed to the insertion pipe 58 by a tightening band 60.
The supply pipe 57 is connected to the suction port of the pump 39 via the joint 62.

A stop valve 63 is attached to the opening of the discharge pipe 56 on the side of the reservoir 37 so as to prevent water in the reservoir 37 from leaking to the outside when the tank 38 is removed. ing. As shown in FIG. 6, the stop valve 63 is provided with a packing 65 larger than the diameter of the discharge pipe 56 at the lower end of an L-shaped rotary lever 64. A pin 66 is provided on the upper side of the rotating lever 64 to form the steam separation unit 3.
It is rotatably attached to the supporting portion 67 of the No. 6 unit. In addition, a vertically elongated hole 68 is provided at the upper end of the rotating lever 64, and a rod 70 of a solenoid 69 attached to the air / water separator 36 is connected to this by a pin 71. The solenoid 69 is a self-holding type, and when energized once, the rod 70 is held on the protruding side or the retracting side.

When the tank 38 is attached, this is detected by the micro switch 72, the solenoid 69 is energized, and the rod 70 is held in a retracted state. This brings the stop valve 63 into the open state. When the tank 38 is removed, this is detected by the micro switch 72, the solenoid 69 is energized, and the rod 70 is held in the pushed state. As a result, the stop valve 63 is closed. Since the pump 39 has a stop valve similar to that described above, the supply pipe 57
There is no stop valve on the side.

Therefore, at the time of use, the mist-like water ejected from the spray section 17 is separated from the air by the steam separation section 36,
This is collected in the collecting part 37 and collected from the discharge pipe 56 through the joint part 51 and the tube 59 to the collecting part 42. Then, for example, when the tank 38 is removed to replace the water in the tank 38, the water in the reservoir 37 will not leak to the outside. Further, since the tank 38 is sealed, when the pump 39 is operated, water is sucked from the tube 61 and the inside of the tank 38 becomes negative pressure. As a result, the water in the reservoir 37 is automatically sucked into the tank 38.

This air purifying apparatus 1 is for removing dirt and odor components in the air by passing dirty air through mist-like water and removing the water in the air passage portion. Since the particles are evenly dispersed, the air resistance becomes smaller than that of the conventional filter-type air cleaning device, and the efficiency of collecting dust and the like improves and the cleaning efficiency improves. Further, since the ambient air is sucked in by the fan and is cleaned and discharged, a wider range of air can be cleaned than the ion type air cleaning device. Furthermore, the nozzle hole 2 of the fixed nozzle 27
Since 8a to 28n and 29a to 29n become smaller as the distance from the water supply source increases, that is, as the dynamic pressure increases, the amount of water discharged from each nozzle hole 28a to 28n, 29a to 29n becomes substantially the same, and the spray part Since the water ejected from 17 becomes uniform in the vertical direction, the efficiency of collecting dust and the like increases.

Further, since the intake duct 10 is housed in the exhaust duct 11, the overall size is small and the installation space is small. Here, the cross-sectional area of the air passage portion 15 of the exhaust duct 11 is equal to that of the air passage portion 16 of the intake duct 10.
Since it is larger than the cross-sectional area of, the flow velocity of the air in the exhaust duct 11 becomes slow, and it becomes impossible to raise the water. This can prevent water from being discharged to the outside through the exhaust duct 11. Further, since the tank 38 is hermetically sealed, when the pump 39 sucks up the water in the supply section 44, the inside of the tank 38 becomes a negative pressure, and the water in the reservoir section 37 connected here is automatically transferred to the recovery section 42. Will be collected. Therefore, the structure of the tank 38 and its surroundings can be simplified. Further, the tank 38 can be easily connected simply by inserting the pipes 56 and 57 into the connecting portion 45 of the tank 38. When the tank 38 is removed, the water in the reservoir 37 is stopped by the stop valve 63. Can be prevented from leaking to the outside.

[0026]

As described above, according to the first aspect of the invention, in the air cleaning device for cleaning the air sucked from the outside and discharging the air, the porous rotary member is arranged in the middle of the passage of the air, and the rotary member is provided. Arrange a nozzle to supply water to the center of
It is characterized in that a plurality of nozzle holes for ejecting water to the nozzles are provided in at least one row along the water flow direction.

Further, in the invention of claim 2, in the air cleaning device for cleaning the air sucked from the outside and discharging the air, a porous rotor is arranged in the middle of the passage of the air, and water is provided at the center of the rotor. The present invention is characterized in that pipe-shaped nozzles having different diameters are arranged in stages along the flow direction, and a plurality of nozzle holes for ejecting water are provided in the nozzles in at least one row along the flow direction of water.

Therefore, according to the present invention, since water is uniformly ejected from the plurality of nozzle holes of the nozzle to form a mist, the dust and odor components in the air are efficiently collected,
It has the effect of increasing the cleaning efficiency.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an embodiment of an air cleaning device according to the present invention.

FIG. 2 is a sectional view taken along line AA of FIG.

FIG. 3 is a configuration diagram of a spray unit 17.

FIG. 4 is a sectional view taken along line BB of FIG.

5 is a detailed view showing a portion C of FIG. 1. FIG.

6 is a view on arrow D in FIG.

[Explanation of symbols]

 1 Air Purifying Device 10 Intake Duct 11 Exhaust Duct 15 Air Passage of Exhaust Duct 16 Air Passage of Intake Duct 10 17 Spraying Part 18 Sponge 27 Fixed Nozzle 28a-28n, 29a-29n Nozzle Hole 33 Sirocco Fan 37 Reservoir 38 Tank 39 Pump 42 Collection part 43 Filter 44 Supply part 45 Connection part 54 O-ring 55 Check valve 63 Stop valve

Claims (3)

[Claims] 1. An air purifying device for purifying and discharging air sucked from the outside, wherein a porous rotating body is arranged in the middle of passage of the air, and a nozzle for supplying water is arranged at the center of the rotating body. In addition, the air cleaning apparatus is characterized in that a plurality of nozzle holes for ejecting water to the nozzle are provided in at least one row along the flow direction of water. 2. An air purifying device for purifying and exhausting air sucked from the outside, wherein a porous rotating body is arranged in the middle of passage of the air, and a central portion of the rotating body is provided along a flow direction of water. An air purifying device, wherein pipe-shaped nozzles having different diameters are arranged in stages, and a plurality of nozzle holes for ejecting water are provided in the nozzles in at least one row along the flow direction of the water. 3. The air cleaning apparatus according to claim 1, wherein the diameter of the nozzle hole becomes smaller as the distance from the water supply source increases.