JP4729347B2 - Centrifugal humidifier - Google Patents

Description

  The present invention relates to a centrifugal humidifier used for factories, agricultural, and livestock.

  A conventional centrifugal humidifier has a configuration in which mist (fine mist) sprayed from a spray nozzle diffuses fine mist using air blown by a fan. Therefore, it is effective as a simple humidifier. However, it is not necessarily sufficient for further mist formation (fine atomization), temperature / humidity management by this mist formation, or securing of a growth and / or breeding environment. As an example for solving this conventional problem, there is a “humidifying device” (referred to as document (1)) of Japanese Patent Laid-Open No. 2001-141268. In the present invention, a housing having a suction port and a blower port is provided with a housing so as to form a passage space for air and mist distribution, and an illuminator (impact plate) and water are diffused and ejected in the housing. A plurality of fixed plates and a rotating body are provided, a motor and a water supply water pipe are opened in the housing, and a fan is provided on the suction side of the casing. The feature is that an air circulation device that circulates cold air or warm air in a cultivation house for cultivating agricultural products in order to provide a suitable environment for growing the agricultural products, and keeps the temperature of the air in the cultivation building constant. And a humidifier capable of maintaining appropriate humidity.

JP 2001-141268 A

  The document (1) is characterized in that it can be miniaturized by adopting a single structure for the air and mist circulation passage intervals. However, before the mist is diffused or sprayed as fine particles (a mist having a large particle diameter: a particle mist), there is a possibility that the mist is ejected from the outlet (discharge port) of the casing together with air. Therefore, it is not always considered sufficient for an air circulation device that maintains the temperature of air in a cultivation house or factory at a constant level, a humidifying device that can maintain appropriate humidity, or dust calming.

  In view of the above, the present invention divides at least the passage for air and mist, forms the first and second intervals, and prevents the mist from being injected and / or atomized. It is intended that the generation of particle mist is eliminated at the second interval, and even if a small amount of particle mist is generated, it is not ejected out of the apparatus through the narrowing of the air outlet of the wind tunnel. In the present invention, a rectifying plate is provided at least at a first (second) interval in which air (mist) flows, and the air and mist are smoothly sprayed far away while ensuring a smooth flow and a flow in a predetermined direction. It is intended to do.

  The invention of claim 1 divides at least the passage for air and mist, forms the first and second intervals, and prevents the mist from being injected and / or atomized. It is intended that the generation of particle mist is eliminated at the second interval, and even if a small amount of particle mist is generated, it is not ejected out of the apparatus through the narrowing of the air outlet of the wind tunnel. Further, the invention of claim 1 is provided with a rectifying plate at least at a first (second) interval through which air (mist) flows, while ensuring a smooth flow of this air (mist) and a flow in a predetermined direction, Intended to spray reliably to distant places. Furthermore, the invention of claim 1 is intended to reliably and smoothly recover the fluid generated by the assembly of particle mist and to effectively use the fluid. In addition, it is intended to achieve an air circulation effect that can maintain the air temperature in the cultivation house or factory at a substantially constant level, a humidifying effect that can maintain an appropriate humidity level at a substantially constant level, or the calming of dust and dust. To do.

The first aspect of the present invention provides a wind tunnel provided with an impeller that is movably provided in the tank and that is open at both sides thereof, and both of the wind tunnel provided at a first interval in the wind tunnel are open and have a small-diameter suction. An opening, a cylinder having a large-diameter outlet, a housing provided at a second interval inside the cylinder, a diffusion portion provided in the housing, and one of the openings in the housing. And a fluid supply hose that communicates with the pump provided in the tank, the rotating plate provided in the housing, a motor provided in the housing that rotates the rotating plate, and the wind tunnel. A centrifugal humidifier comprising a fluid recovery hose provided between the tank and the tank,
The diffusion unit includes an opening provided in the housing, an illuminator provided in the opening, a rotating plate provided at an appropriate interval in the illuminator, a motor provided in the housing that rotates the rotating plate, A centrifugal humidifier characterized by comprising:

  The invention of claim 2 is intended to achieve the object of claim 1, to provide a structure of a wind tunnel, a cylindrical body and a housing that are optimal for achieving the object.

Claim 2 is the centrifugal humidifier according to claim 1,
The flow direction of the wind of the first interval and / or the second gap, a centrifugal humidifier apparatus configured to provide a current plate.

The invention of claim 1, provided movably in the tank, a wind tunnel that both with the impeller opening, both provided at a first interval open to Kazedonai, and small-diameter suction An opening, a cylinder provided with a large-diameter outlet, a housing provided with a second interval inside the cylinder, a diffusion part provided in the housing, one of the housings opening, and A fluid supply hose that communicates with the pump provided in the tank, the other communicating with the pump, a rotating plate provided in the housing, a motor provided in the housing that rotates the rotating plate , and a fluid provided between the wind tunnel and the tank A centrifugal humidifier configured with a hose for recovery,
The diffusing unit is composed of an open part provided in the housing, an illuminator provided in the open part, a rotating plate provided at an appropriate interval in the illuminator, and a motor provided in the housing that rotates the rotating plate. This is a centrifugal humidifier.

  Accordingly, the first aspect of the present invention can divide at least the passage for air and mist, form the first and second spaces, and can prevent the mist from being injected and / or atomized. There is a feature that the generation of the particle mist is eliminated at two intervals, and even if a small amount of the particle mist is generated, the blowout to the outside of the apparatus can be avoided through the narrowing of the air outlet of the wind tunnel. Further, according to the first aspect of the present invention, a rectifying plate is provided at least in the first (second) interval through which air (mist) flows, and the air (mist) flows smoothly in a predetermined direction and far away. There are benefits such as spraying reliably. Further, the first aspect is characterized in that the fluid generated by the assembly of the particle mist can be reliably and smoothly recovered and the fluid can be effectively used. Desirably, an air circulation effect capable of maintaining the temperature of air in the cultivation house or factory substantially constant, a humidifying effect capable of maintaining an appropriate humidity substantially constant, or calming of dust / dust can be achieved. There is a real advantage to provide a humidifier.

The invention of claim 2 is the centrifugal humidifier according to claim 1,
The centrifugal humidifier is configured to provide a rectifying plate in the flow direction of the wind at the first interval and / or the second interval.

  Accordingly, the second aspect has the characteristics that the object of the first aspect can be achieved, and the structure of the wind tunnel, the cylindrical body and the housing which are optimal for achieving the object can be provided.

An example of the present invention will be described.
1 is an overall perspective view, FIG. 2 is a cross-sectional view, FIG. 3 is a front view, FIG. 4 is a rear view, and FIG. 5 is a schematic diagram for explaining an example of use in a factory.

  In FIG. 1, reference numeral 1 denotes a substantially cylindrical wind tunnel provided with a suction port 100 and an air outlet 101. The wind tunnel 1 has a bent piece 100 a that forms a converging portion at the suction port 100, and the air outlet 101. The shape of the narrowing-down 101a. This bent piece 100a is intended to maintain the strength of the wind tunnel 1, and this narrowing 101a is intended to avoid a slight particle mist from being blown out of the wind tunnel 1 to the outside of the apparatus. This wind tunnel 1 has a configuration in which a tilt angle is freely provided in a tank 3 having casters 2. This inclination angle uses a combination of the fastener 103 attached to the attachment piece 102 provided in the wind tunnel 1 and the long hole 301 of the support piece 300 provided in the tank 3. That is, the wind tunnel 1 is moved by the loosening of the fastening tool 103, and thereafter, the fastening of the fastening tool 103 is used to fix the wind tunnel 1 to this movable position. By adopting such a configuration, the long hole 301 becomes a guide groove of the fastening tool 103 and / or the mounting piece 102.

  In the figure, reference numeral 5 denotes a cylinder provided in the wind tunnel 1 with a first interval 6 (air passage), and a current plate 500 is provided on the outer peripheral surface 5a of the cylinder 5 at appropriate (equal) intervals. Several sheets are provided in the flow direction. The cylindrical body 5 is provided with a small diameter inlet 501 and a large diameter outlet 502. The small-diameter suction port 501 has a suction area smaller than that of the first interval 6 and sucks a small amount of air. That is, it is configured to blow much of the air generated by the impeller, which will be described later, at the first interval 6 so that the mist is blown out reliably and smoothly.

  The cylindrical body 5 is provided with a diffusion portion 7 provided with a second interval 10 and a housing 8. The diffusing portion 7 will be described in detail. An illuminator 700 provided in the open portion 800 of the housing 8, a rotating plate 701 provided inside the illuminator 700 at several appropriate intervals, and the rotating plate 701 are fixed. The output shaft 704 of the motor 702 is stopped. The rotating plate 701 is provided with a plurality of protrusions 701a in the radial direction. The plurality of rotating plates 701 are configured to rotate integrally with a plurality of fasteners 703. The operation of the illuminator 700 and the rotating plate 701 and / or the protrusion 701a will be described. Fluid supplied to the rotating plate 701 via a diffusion hose (described later) flows out toward the rotating rotating plate 701. Alternatively, when jetted, this fluid moves in the outer circumferential direction of the rotating plate 701 so as to be guided by the ridge 701a, and jumps out tangentially from this end. The ejected particles strike the plate material 700a of the illuminator 700, become fine particles, diffuse through the holes 700b, and are discharged as atomized mist at the second interval 10. The discharged mist moves toward the closed front end 801 of the housing 8 by the wind flowing through the second interval 10. And it is possible to provide a rectifying means for assisting this movement. After that, this mist is attracted and / or entrained by a large amount of wind flowing through the air outlet 101 of the wind tunnel 1 from the air outlet 502 of the cylinder 5 and a high flow velocity, and is finely mist / mixed (ultrafine particle mist). Then, it is injected out of the device. In the cross-sectional view of FIG. 2, the flow of wind (arrow A) and the flow of mist (arrow B) are shown by arrows. Further, the base end side 802 of the housing 8 is formed in a convergent shape so as to reduce the ingress of air by an impeller described later. The flow of the wind (arrow a) and the flow of mist (arrow b) mixed and / or merged (arrow c) are indicated by arrows. The mixed ultrafine particle mist is jetted out of the apparatus.

In the figure, reference numeral 20 denotes an impeller provided at the suction port 100 of the wind tunnel 1, and the impeller 20 is driven by a motor 21. Reference numeral 22 denotes a guard for the impeller 20.
Further, 30 is a pump provided in the tank 3, 31 is a suction hose connected to the pump 30, and 32 is an introduction hose. The suction hose 31 reaches the proximal end 802 of the housing 8 and is connected to the introduction hose 32. The introduction hose 32 has a plurality of air outlets (not shown). A fluid collecting hose (not shown) is provided between the tank 3 and the wind tunnel 1 to return the fluid accumulated in the wind tunnel 1 to the tank 3 for effective use and to prevent wetting. It is desirable.

The flow of the wind (arrow A) and the flow of the mist (arrow B) will be described based on FIG. 2. The wind flow is the air inlet 100 of the wind tunnel 1 → the first interval 6 → the wind tunnel 1. There is a basic route of the air outlet 101 and a secondary route of the air inlet 100 of the wind tunnel 1 → the air inlet 501 of the cylinder 5 → the second interval 10 → the air outlet 502 of the cylinder 5. The mist flows from the illuminator 700 to the second interval 10 to the air outlet 502 of the cylinder 5. The fine particles scattered in the radial direction from the rotating plate 701 are air sucked slightly from the base end side 802 of the housing 8 and are sent to the illuminator 700 and guided to the wind flowing through the second interval 10. Is done. Further, mixing with the wind at the second interval 10 promotes the formation of fine mist particles. Thereafter, as described above, the micronized mist is a large amount flowing through the air outlet 101 of the wind tunnel 1 and the ultrafine particle mist that is attracted and / or caught by the wind having a high flow velocity and finely mist / mixed. Injected outside the device. In FIG. 2, arrow i ′ indicates that the wind of arrow i flows from the opening portion 800 of the housing 8 toward the illuminator 700, and this wind flow (arrow i ′) This configuration is desirable because it can contribute to the induction of mist discharged from the illuminator 700.
In the figure, reference numeral 40 denotes a handle provided on the wind tunnel 1.
In the figure, 50 indicates a factory and 51 indicates a machine.

FIG. 1 is an overall perspective view. 2 is a cross-sectional view 3 is a front view. 4 is a rear view. FIG. 5 is a schematic diagram for explaining an example of a usage state in a factory.

DESCRIPTION OF SYMBOLS 1 Wind tunnel 100 Intake port 100a Bending piece 101 Outlet 101a Narrowing 102 Attachment piece 103 Fastening tool 2 Caster 3 Tank 300 Support piece 301 Long hole 5 Cylindrical body 5a Outer surface 500 Current plate 501 Intake port 502 Outlet 6 First Interval 7 Diffusion portion 700 Illuminator 700a Plate material 700b Hole 701 Rotating plate 701a Projection 702 Motor 703 Fastening tool 704 Output shaft 8 Housing 800 Opening portion 801 Closed tip 802 Base end side 10 Second interval 20 Impeller 21 Motor 22 Guard 30 Pump 31 Hose 32 Hose 40 Handle 50 Factory 51 Machine

Claims (2)

A wind tunnel provided with an impeller that is movably provided in the tank, both of which are open, a first opening in the wind tunnel that is open at a first interval , a small-diameter suction port, and a large-diameter A cylindrical body provided with a blowout opening, a housing provided at a second interval inside the cylindrical body, a diffusion portion provided in the housing, one of the housings being open to the housing, and a pump provided in the tank, between the hose for fluid supply other it is communicated, a rotating plate provided in said housing, a motor provided in the housing for rotating the rotary plate, and the wind cylinder and the tank A centrifugal humidifier configured with a fluid recovery hose provided in
The diffusion unit includes an opening provided in the housing, an illuminator provided in the opening, a rotating plate provided at an appropriate interval in the illuminator, a motor provided in the housing that rotates the rotating plate, A centrifugal humidifier characterized by comprising: The centrifugal humidifier according to claim 1,
Wherein the air flow direction of the first interval and / or the second interval, centrifugal humidifier apparatus configured to provide a current plate.

Images