KR20140093799A - industry for large capacity ultrafine particles damp diffusion sprinkle device - Google Patents

Abstract

The present invention relates to an industrial large-capacity ultrafine particle humidifying and atomizing apparatus with a nebulizer structure and, more specifically, an industrial large-capacity ultrafine particle humidifying and atomizing apparatus with a nebulizer structure, which comprises: a housing main body having a nozzle at the upper side thereof, and having an installation space therein; a water tank installed in the housing main body; a water storage tank receiving water from the water tank, and internally having a water level sensor sensing the level of the water filling the water storage tank; a supply part supplying the water to the water tank, and having a control valve; a vibration atomizing device receiving the water from the water storage tank, and atomizing the water; a guide part guiding water vapor, which is generated from the vibration atomizing device, to the nozzle; and a control part controlling the operation of the control valve and the vibration atomizing device. According to the present invention, the vibration atomizing device installed in the housing main body has multiple ultrasonic vibration parts, thereby controlling the amount of the water vapor jetted through the nozzle. In addition, the housing main body further includes a shield device to allow the particles of the water vapor to collide with a collision mesh and a rotational collision part, thereby converting the particles of the water vapor into fine aerosols by separating and downsizing the particles of the water vapor, and filtering foreign matters out of the water vapor.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an industrial high-capacity ultrafine particle spraying apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an industrial large-capacity ultra-fine particle humidifying mist sprayer having a nibilizer structure, and more particularly, to a vibration mist sprayer installed in a housing body to provide a plurality of ultrasonic vibrators, And a shielding device is installed to collide the particles of steam with the collision net and the impact portion of the collision. By separating and reducing the size of the water vapor particles, it is possible to fine-aerosize the water vapor particles, The present invention relates to an industrial high-capacity ultra-fine particulate humidifying mist sprayer having a nibilizer structure.

Generally, the indoor air can maintain the proper humidity (55% ~ 60%) to prevent respiratory disorder and disease, and maintain a pleasant indoor atmosphere even in dry season or place. It is the basic principle of the humidifier that particles of clean water are made by electricity and then sprayed into the room.

Dry air has a significant environmental and physical impact on the working environment and machine performance. In particular, computer equipment, electronic control equipment, and semiconductor equipment are critical to the safety and productivity of each industry and require adequate temperature and humidity maintenance. Therefore, in order to maintain the proper temperature and humidity of the air in the design of the building, a humidifier is installed in the air conditioner, and a commercial humidifier is installed for the industrial purpose.

In general, industrial humidifiers use ultrasonic humidification technology, electrode-bar humidification technology, centrifugal atomization humidification technology, and nozzle pressure humidification technology to control the relative humidity in a space where constant relative humidity is required.

In this case, an ultrasonic humidifier of an industrial type generates an electric signal of a certain frequency in an electric circuit and transmits the ultrasonic wave to a vibrating part placed in the water to generate a humidifying particle having a small particle diameter due to cacitation. The electromagnetic type humidifier is a device that generates heat by the resistance of water when current flows between the electrodes in the cylinder and generates steam by using it. Type humidifier is a device that generates fine water molecules by maximizing the surface area of water by using a special vortex induction type water filter, and the centrifugal atomization type humidifier is the most widely used device at present. It uses the centrifugal force by the spray humidifying device and the rotating disk Humidifier. The nozzle pressure injection type is a humidifying method of spraying water into particulate form using compressed air, and sends compressed air to one side of the nozzle, and supplies water to the other side to spray water at a high pressure.

Recently, water has been supplied to the semiconductor industry and the medical industry (such as pharmaceutical manufacturing, microbial fermentation, laboratory, computer room, and hospital air quality control) where harmful factors such as corrosion and decay due to moisture action of the industrial humidifier are present It is required to develop a humidifier having a function of a nibilizer for causing particles of water to be aerosolized and spouted.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide a vibration and mist device provided in a housing main body, in which a plurality of ultrasonic vibration parts are provided, , A shielding device is installed to collide the particles of steam with the collision net and the impact portion of the collision, thereby separating and reducing the size of the water vapor particles so that the water vapor particles can be aerosolized finely and the water vapor can be filtered out An object of the present invention is to provide an industrial large-capacity ultra-fine particle humidifying mist sprayer having a nibbler structure.

The present invention relates to a washing machine comprising a housing body having an injection nozzle at an upper portion thereof and having an installation space therein, a water tank disposed inside the housing body, a water level sensor for receiving water from the water tank, And a water supply unit for supplying water to the water tank tank and supplying water to the water tank tank and a control valve, a vibration and mist system for supplying water from the water tank to the water tank, And a control unit for controlling the driving of the control valve and the vibrating and deflecting device.

Further, the vibrating and fogging apparatus is provided with at least one or more ultrasonic vibrating units for vibrating the water by vibrations, and the ultrasonic vibrating units are respectively controlled by the control unit.

In addition, the housing body may further include a shielding device having a dispensing portion at an upper portion thereof so as to guide water vapor moving from the vibrating and fogging device to the injection nozzle, wherein the shielding device has a case body having an inlet at a bottom surface, A lower partition wall having a plurality of lower through holes and a plurality of upper through holes formed in the upper portion of the case so as to divide the inner space of the case body into a lower space, A plurality of impact collision portions formed in a screw shape disposed in the intermediate space and a plurality of collision portions arranged in the upper space, And a plurality of linear accelerators.

The rotating impingement portion may include a plurality of connecting bars connecting the rotating bars to form a passage between the rotating bars of the spiral and the rotating bars.

The guide unit may include a humidifying tower having the humidified water vapor introduced therein and a drain port formed at the bottom thereof, and a connecting hose connecting the humidifying tower to the spray nozzle, .

The industrial large-capacity ultra-fine particulate humidifying spraying apparatus having the nibilizer structure according to the present invention is capable of adjusting the amount of water vapor sprayed through the spray nozzle by providing a plurality of ultrasonic vibrating units in the vibrating and atomizing apparatus installed in the housing main body, It is possible to separate the water vapor particles and reduce the size of the water vapor particles so that the water vapor particles can be aerosolized finely and the foreign substances in the water vapor can be filtered out.

1 is a perspective view showing an industrial large-capacity ultra-fine particle humidifying mist spraying apparatus having a nibilizer structure according to the present invention.
FIG. 2 is a front view showing an industrial large-capacity ultra-fine particle humidifying spray apparatus having a nibilizer structure according to the present invention.
3 is a cross-sectional view of an industrial high-capacity ultra-fine particle humidifying spray apparatus having a nibilizer structure according to the present invention.
FIG. 4 is a view showing another embodiment of an industrial large-capacity ultra-fine particle humidifying spray apparatus having a nibilizer structure according to the present invention.
FIG. 5 is a view showing a shielding device in another embodiment of an industrial high-capacity ultra-fine particulate humidifying spraying device having a nibilizer structure according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, preferred embodiments of an industrial high-capacity ultra-fine particulate humidifying mist sprayer having a nibilizer structure according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions in the present invention, and this may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

In addition, the following embodiments are not intended to limit the scope of the present invention, but merely as an example, and various embodiments may be implemented through the present invention.

FIG. 1 is a perspective view showing an industrial high-capacity ultra-fine particle humidifying mist spraying apparatus having a nibilizer structure according to the present invention, FIG. 2 is a front view showing an industrial high-capacity ultra-fine particle humidifying mist spraying apparatus having a nibilizer structure according to the present invention, Sectional view showing an industrial large-capacity ultra-fine particle humidifying spray apparatus having a nibilizer structure according to the present invention.

As shown in the drawings, the industrial high-capacity super-fine-particle humidifying mist sprayer 10 having a nibilizer structure (hereinafter referred to as an humidifying mist sprayer for convenience's sake) discharges vaporized water to raise humidity, The humidifying mist spraying apparatus 10 includes a housing main body 20, a water tank 30, a water reservoir 40, a supply unit 50, a vibration and mist unit 60, a guide unit 70, and a control unit 80 .

The housing main body 20 is formed of a case structure made of metal or synthetic resin. An injection nozzle 21 is formed in an upper portion of the housing main body 20 so as to communicate with the inside to spray water vapor formed by the vibration / An installation space is provided. It is preferable that the housing main body 20 is provided with a plurality of support legs on the bottom surface thereof, and it is also possible to install the casters to facilitate movement.

The water tank tank 30 is disposed in the housing main body 20 and supplies water to the water reservoir. A discharge unit 31 having a valve unit 311 is protruded on the bottom surface of the water tank tank 30 by elasticity of a spring .

The water tank 40 is formed in a rectangular case structure and is made of metal or synthetic resin and is welded or screwed to the inner surface of the housing body 20 and the water tank tank 30 is fixed to the inner surface of the water tank 40 Respectively.

In this case, the water tank 40 receives water from the water tank, and a water level sensor 41 for sensing the level of the water filled in the water tank and for transmitting the signal to the control unit is built in. An inlet 42 is formed to allow the outlet 31 to be inserted therein and an opening and closing cylinder 42 for opening or closing the outlet 31 by pressing the valve unit 311 of the outlet 31 is provided, The opening / closing cylinder 42 is driven by the control unit 80.

That is, when the water storage tank 40 is short of water, the water level sensor 41 senses the water level and transmits a signal to the controller 80. The controller 80 operates the opening / The valve unit 311 is pressed upward to compress the spring, and water is supplied to the discharge port of the opened discharge unit 31. When a certain amount of water is supplied to the water storage tank, the water level sensor 41 detects Closing cylinder 42 is returned and the valve unit 311 is moved downward due to the elasticity of the compressed elastic spring so that the valve unit 311 is moved to the head of the valve unit 311 Thereby closing the outlet.

The supply unit 50 supplies water from the outside to the water tank tank 30. The supply unit 50 includes a conduit and operates by a control signal of the control unit 80 to shut off water supply A control valve 51 is provided. At this time, a sensor is also installed in the water tank tank 30 to lower the water level, and when water supply is required, a signal is sent to the control unit 80 to send a signal to the control valve 51 to open the supply unit It is preferable that water is supplied to the water tank (30).

The vibrating and fogging device 60 receives water from the water tank 40 and emits smoke. The inside of the vibrating and fogging device 60 is provided with an ultrasonic vibration part 61 for spraying water by vibration. And the ultrasonic vibration unit 61 is configured to be controlled by the controller 80, At this time, the ultrasonic vibrator 61 is provided with an ultrasonic vibrator to generate water vapor by the vibration of the ultrasonic vibrator.

That is, the user operates the operation button provided on the housing main body 20 to control the number of driving the ultrasonic vibration part 61 through the control part, so that the amount of steam to be ejected can be controlled.

The guide portion 70 guides the water vapor generated in the vibration edge device 60 to the injection nozzle 21 by being welded or screwed to communicate with the upper portion of the vibration and mist device 60, (70) comprises a humidifying tower (71) through which the aerated water vapor generated in the vibrating and fuming apparatus flows and a connecting hose (72) connecting the humidifying tower (71) to the spraying nozzle, and the humidifying tower 71 is further provided with a viewing window 711. At this time, it is preferable that the connection hose 72 is formed of a synthetic resin material and has a Zaraba structure so that the length thereof is elongated. The connection hose 72 is welded or welded to be communicated with the humidifying tower 71 and the injection nozzle 21.

At this time, a water drainage hole 712 is formed in the humidifying tower 71 to discharge the water falling on the wall surface of the connection hose 72 due to the movement of water vapor, and the inside of the housing main body 20 An effluent tank is installed to store the water discharged from the drain.

The control unit 80 is disposed inside the housing main body 20 and includes a control unit for controlling the control valve 51 and the driving of the ultrasonic vibration unit 61 of the vibration and mist unit 60.

FIG. 4 is a view showing another embodiment of an industrial large-capacity ultra-fine particle humidifying mist spraying apparatus having a nibilizer structure according to the present invention, and FIG. 5 is a view showing another embodiment of an industrial large-capacity humidifying mist spraying apparatus having a nibilizer structure according to the present invention Fig. 3 is a view showing a shielding device. Fig.

The housing body 20 is further provided with a shielding device 90 having a delivery part 91 at an upper portion thereof so as to guide water vapor moving from the vibration and mist device 60 to the spray nozzle 21 The shielding device 90 includes a case body 92 having an opening at the bottom and having a plurality of outlets at an upper surface thereof, and an inner space of the case body 92 divided into a lower space, A lower partition wall 931 having a plurality of lower through holes 931a and an upper partition wall 932 having a plurality of upper through holes 932a formed in the upper portion of the inner side, A plurality of collision nets (94) stacked on the lower space at predetermined intervals, a plurality of rotary impact parts (95) formed in a screw shape disposed in the intermediate space, A plurality of linear accelerators 96 disposed in the upper space Eojinda.

The dispensing unit 91 is installed to communicate with the connection hose 72 and guides the water vapor discharged from the plurality of outlets to the connection hose 72.

The linear accelerator 96 is welded or fused at its both ends to the upper through hole 932a and the outlet, and the collision net 94 is formed of synthetic resin or synthetic fiber and fused and fixed to the inner surface of the case body. do.

That is, as water vapor passes through the shielding device 90, water vapor particles collide with the impact collision network 94 and the rotary impact portion 95. In other words, the water vapor particles are reduced in size due to the collision or are separated from the water vapor particles formed by the ultrasonic vibrator, and are discharged through the injection nozzle 21. In addition, the steam collides with the impact network 94 and the rotary impact portion 91 to remove foreign substances contained in the steam. The linear accelerator 96 is provided with a throat portion so that steam can be moved to the injection nozzle 21 while being accelerated by bottleneck phenomenon.

The rotary impact portion 95 includes a plurality of connection bars 952 which are welded and fixed to each other to connect the rotary bars 951 with each other so that a passage is formed between the rotary bar 951 of the spiral and the rotary bars 951, And both end portions of the rotary impact portion 95 are welded or fused to the upper through-hole 931a and the lower through-hole 932a.

10: humidifying spray device 20: housing body
30: water tank 40: water tank
50: supply part 60: vibration and mist device
70: guide unit 80:
90: shielding device 21: injection nozzle
31: discharge part 311: valve unit
41: water level sensor 42: opening / closing cylinder
51: Control valve 61: Ultrasonic vibration section
71: Humidification tower 711:
712: Drain 72: Connection hose
91: feeder 92: case body
93: partition wall portion 931: lower partition wall
931a: lower through hole 932:
932a: upper through hole 94: collision net
95: rotation collision part 951: rotation bar
952: Connection bar 96: Linear accelerator

Claims (5)

A housing main body having an injection nozzle at an upper portion thereof and having an installation space therein;
A tank tank installed inside the housing body;
A water tank receiving water from the water tank and having a water level sensor for sensing a water level of the water filled therein;
A supply part supplying water to the water tank and having a control valve;
A vibrating and atomizing device that receives water from the water storage tank and fires the water;
A guide part for guiding water vapor generated in the vibration and mist device to the spray nozzle; And
And a control unit for controlling driving of the control valve and the vibration and mist unit.
The method according to claim 1,
Wherein the vibrating and atomizing device is provided with at least one or more ultrasonic vibrating parts for vibrating water by vibration, and the ultrasonic vibrating parts are respectively controlled by the control part.
The method according to claim 1,
Wherein the housing body further includes a shielding device having a dispensing portion at an upper portion thereof for guiding water vapor moving from the vibration and mist device to the spray nozzle,
The shielding device includes a case body having an inlet on a bottom surface and an outlet on an upper surface,
A lower partition wall partitioned into a lower space, an intermediate space, and an upper space and disposed at an inner lower portion of the case body so as to be divided, the lower partition having a plurality of lower through holes and the upper partition having a plurality of upper through- Barrier ribs formed of barrier ribs,
A plurality of collision nets installed in a stacked manner in the lower space at regular intervals,
A plurality of rotary impact portions formed in a screw shape disposed in the intermediate space,
And a plurality of linear accelerators arranged in the upper space, wherein the linear accelerators are arranged in the upper space.
The method of claim 3,
Wherein the rotating impingement part comprises a plurality of connecting bars connecting the rotating bars to form a passage between the rotating bar of the spiral and the rotating bars.
The method according to claim 1,
The guide unit may include a humidifying tower having a humidified water vapor introduced from the vibrating and fogging apparatus and having a drain port formed therein, and a connecting hose connecting the humidifying tower to the spray nozzle, wherein the humidifying tower further includes a see- Characterized in that the super-fine humidified atomizing spray apparatus for industrial use has a nibilizer structure.

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