JP2014228228A - Atomized liquid spraying device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To spray atomized liquid by using a simple structure.SOLUTION: An atomized liquid spraying device comprises: a rotating unit including a center member rotatably supported by a base member, a plurality of blade members 37 protruded radially in an outside diameter direction from the center member, pipe bodies 41 arranged along the respective blade members from the center member, and a plurality of spray ports 38 formed along the respective pipe bodies; a driving mechanism for rotating the rotating unit; and atomized liquid generating means for atomizing liquid to generate atomized liquid and supplying it to the pipe bodies.

Description

  The present invention relates to a mist-like liquid spraying apparatus capable of performing humidification simultaneously with air circulation.

2. Description of the Related Art Conventionally, there are many places where a sprinkler is installed in a building, particularly in a building or the like, which automatically detects the heat during a fire and discharges water automatically. When the ambient temperature of the sprinkler head placed on the ceiling rises, the sprinkler head breaks or deforms and the plug that prevents the head from discharging is removed and the pressurized water is discharged from the outlet. It is a structure.
Since such a sprinkler head needs to be installed every certain range, a water supply pipe is stretched around the ceiling.
However, when this sprinkler operates, it is a fire or an unexpected situation, and the probability of occurrence is generally very low. Of course, it is better not to cause these facilities to operate, but for example, the piping equipment in the ceiling is used for heating by injecting hot water mist in the winter, or cooling by injecting cold water mist in the summer. By using it, it is possible to make effective use of it as well as regular equipment inspection.

On the other hand, in Patent Document 1 as a conventional technique related to mist injection, blades are provided integrally with the rotating plate on the upper and lower surfaces of the rotating plate, and air outlets are provided in multiple along the outer peripheral edge of the rotating plate. Two discs are provided at an interval in the vertical direction, the liquid is raised from below the rotating shaft, and the liquid is supplied between the two discs. An atomizing device is disclosed in which mist is sprayed from an air outlet provided at the periphery.
In Patent Document 2, a pair of disks are attached to the upper end of the cylindrical pump, a fan is attached to the upper disk, the pair of disks form a slit between parallel surfaces, and the pump is installed in the water tank. The water is sucked and supplied into the slit, and the slit is filled with water in a film shape and scattered around the disk by centrifugal force generated by the rotation. On the other hand, a partition is installed around the disk, and the splashed water collides with the partition and breaks up into fine water droplets, and is aerodynamically transported to the air flow generated by the fan that rotates integrally with the pump. A humidifier to be delivered is disclosed.

JP 2012-223706 A Japanese Patent Laid-Open No. 7-2331979

However, the prior art disclosed in Patent Document 1 is a configuration in which the liquid spread on the rotating plate is made into particles by rotational force, and the particles are diffused by the air of another blade, and the rotating plate and the blade are individually separated. There is a problem that the structure to rotate becomes complicated.
Further, in the prior art disclosed in Patent Document 2, the disk is rotated and the water on the disk is collided and scattered by the centrifugal force, and the scattered water is sent out of the apparatus together with the air flow by a fan. As in Patent Document 1, there is a problem that the structure for individually rotating the rotating plate and the blades becomes complicated.
Furthermore, Patent Documents 1 and 2 have a problem in that these facilities need to be provided exclusively and the overall cost increases.
The present invention has been made in view of such a problem, and an object thereof is to provide a mist liquid spraying apparatus capable of spraying a mist liquid with a simple configuration.

  In order to solve the above problems, the present invention provides a central member rotatably supported by a base member, a plurality of blade members radially projecting from the central member in an outer radial direction, A rotary unit including pipes piped from the central member along the blade members, and a plurality of spray ports formed along the pipes; a drive mechanism for rotating the rotary unit; and a liquid A mist-like liquid generating means for generating a mist-like liquid obtained by atomizing and supplying the mist-like liquid to the pipe.

  According to the present invention, by rotating and driving the rotary unit, the mist liquid is supplied to the pipe body piped along each blade member, and the mist-like liquid is formed from the plurality of spray ports formed along each pipe body. Can spray liquid.

It is a block diagram which shows the structure of the mist-like liquid spraying apparatus which concerns on embodiment of this invention. It is a fragmentary sectional view which shows the detailed structure of the mist fan used for the mist-like liquid spraying apparatus of this invention. (A) is a flowchart explaining operation | movement of the winter driving | operation of the mist liquid spraying apparatus of this invention, (B) is a figure explaining the pattern at the time of winter driving | operation. (A) is a flowchart explaining the operation | movement of the summer driving | operation of the mist liquid spraying apparatus of this invention, (B) is a figure explaining the pattern at the time of a summer driving | operation. (A) is a flowchart explaining the operation | movement of the intermediate period operation | movement of the mist liquid spraying apparatus of this invention, (B) is a figure explaining the pattern at the time of an intermediate period operation | movement.

  Hereinafter, the present invention will be described in detail with reference to embodiments shown in the drawings. However, the components, types, combinations, shapes, relative arrangements, and the like described in this embodiment are merely illustrative examples and not intended to limit the scope of the present invention only unless otherwise specified. .

  FIG. 1 is a block diagram showing a configuration of a mist-like liquid spraying apparatus according to an embodiment of the present invention. A mist liquid spraying apparatus 100 of the present invention includes a water supply pipe 1, a storage tank 2, an electric water heater (heating means) 3, an electric water cooler (cooling means) 4, a mixing tank 5, a mist generator (mist liquid generation). Means) 6, a mist adjusting valve 7, a thermohygrometer 8, a control device 9, an operation unit 10, an output valve A 12, an output valve B 13, an electric hot water valve 14, an electric cold water valve 15, and a mist fan 16. Yes.

  The water supply pipe 1 supplies water from a water source (water pipe). The storage tank 2 stores normal temperature water supplied from the water supply pipe 1 (hereinafter simply referred to as water). The electric water heater (heating means) 3 warms the water supplied from the storage tank 2 to a predetermined temperature. The electric water cooler (cooling means) 4 cools the water supplied from the storage tank 2 to a predetermined temperature. The storage tank 2 and the mixing tank 5 mix the control water having a predetermined temperature supplied from the electric water heater 3 and the electric water cooler 4. The storage tank valve 11 supplies and stops the water stored in the storage tank 2 to the mixing tank 5. The storage tank output valve A12 supplies and stops the water stored in the storage tank 2 to the electric water heater 3. The storage tank output valve B13 supplies and stops the water stored in the storage tank 2 to the electric water cooler 4. The electric hot water valve 14 supplies and stops the hot water stored in the electric water heater 3 to the mixing tank 5.

The electric cold water valve 15 supplies the cold water stored in the electric water cooler 4 to the mixing tank 5 and stops it. The mist generator 6 mists the water mixed by the mixing tank 5 with an ultrasonic vibrator or a spray nozzle. The mist adjusting valve 7 adjusts the amount of mist generated from the mist generator 6. The control device 9 controls the valves provided in each tank and the operation of each part. The mist fan 16 is provided in the room 18 and injects mist of a predetermined temperature into the room 18. The thermohygrometer 8 detects the temperature and humidity in the room 18 and transmits it to the control device 9. The operation unit 10 operates the control device 9 from the outside.
The control device 9 is connected to each valve by a valve control signal 27 for individually controlling the opening and closing of each valve. For example, an electromagnetic valve that opens and closes electromagnetically by an electric signal is used. The mixing tank 5 is connected to a mixing tank temperature signal 19 for outputting the internal temperature as an electric signal. In addition, a motor drive signal 21 for driving a motor that rotates blades (details will be described later) of the mist fan 16 is output. Further, a mist drive signal 28 for driving the mist generator 6 is connected to the mist generator 6. When the mist generator 6 is not activated, the mixed water in the mixing tank 5 flows directly into the pipe 29.

In the present invention, the mist fan 16 is operated in order to make the indoor environment comfortable when the sprinkler 17 is not used by providing the mist fan 16 integrally with the indoor sprinkler 17. That is, the sprinkler 17 is hardly used because it is used only in the event of a fire, and there is a possibility that the equipment provided for it will be wasted.
In the present invention, when the sprinkler 17 is not operating using these facilities, for example, in the cold winter season, the electric water heater 3 is warmed based on the temperature and humidity of the room 18 measured by the thermohygrometer 8. The hot water and the water stored in the storage tank 2 are mixed in the mixing tank 5, and the mist having the optimum temperature is sprayed into the room 18 by the mist fan 16. Thereby, the room 18 can be maintained in an optimum environment.

Also, in hot summer, the cold water cooled by the electric water cooler 4 and the water stored in the storage tank 2 are mixed in the mixing tank 5 based on the temperature and humidity of the room 18 measured by the thermohygrometer 8. By spraying mist of a suitable temperature into the room 18 by the mist fan 16, the room 18 can be maintained in an optimum environment.
When a fire occurs during the mist operation, the mist operation is naturally interrupted so that water is supplied to the sprinkler 17.
The mist sprayed from the mist generator 6 may be dry mist having particles that are so coarse that they get wet when they touch a human hand, or fine particles that do not get wet when they touch a human hand. . The particle size of the dry mist may be 9 to 16 μm, for example. By spraying the dry mist, the dry mist can take the heat of vaporization from the air, and the room temperature can be lowered by 2 to 3 ° C.

FIG. 2 is a partial cross-sectional view showing a detailed configuration of a mist fan used in the mist-like liquid spraying device of the present invention.
The mist fan 16 of the present invention has a pipe 30 to which the mist 35 from the mist generator 6 is supplied via the mist adjusting valve 7, and the tip of the pipe 30 is closed. Further, a blowout port 36 for blowing out the mist 35 is provided at the tip portion.

Moreover, the piping 30 is fixed to the ceiling board 50, and the tip portion of the piping 30 is configured such that the shaft portion of the blade 37a is rotatable. Further, the blade 37a is configured such that a plurality of holes 38 are formed in the longitudinal direction and the mist 35 is ejected. Accordingly, the mist pipe 41 is opened in the longitudinal direction of the blade 37a.
That is, the rotation unit 37 includes a center member that is rotatably supported by the ceiling plate 50 that is a base member, blades 37a that are a plurality of blade members radially projecting from the center member, and a center. The mist pipe | tube 41 which is a pipe body piped from the member along each blade | wing member, and the hole 38 which is the some spray port formed along each pipe body are provided. Furthermore, a motor 31 and a gear 33 that are driving mechanisms for rotating the rotation unit 37 are provided. A mist generator, which is a mist liquid generating means that generates a mist liquid obtained by atomizing the liquid and supplies the liquid to a pipe, is provided.

In order to supply water to the sprinkler 17 in the event of a fire, a pipe 29 is connected to the sprinkler 17 so as to penetrate the pipe 30 from the middle of the pipe 30. Thereby, when the sprinkler 17 operates, the pressurized water is diffused by the deflector 40 and discharged.
Further, in order to rotate the blade 37a around the pipe 30 as an axis, the bearing 34 is disposed on the upper portion of the pipe 30, and the bearings 34a and 34b are disposed on the side of the pipe 30, so A rotary vane mechanism unit that fixes the gear 32 and meshes with the gear 33 fixed to the shaft of the motor 31 to transmit rotational power is provided. In addition, you may make it transmit rotational power with a belt instead of a gearwheel.

Next, the schematic operation of the mist fan 16 of the present invention will be described.
The amount of the mist 35 generated by the mist generator 6 is adjusted by the mist adjusting valve 7 and supplied to the pipe 30. The mist is supplied to the portion A at the tip of the pipe 30 and is supplied from the outlet 36 to the tip of the blade 37 through the mist pipe 41. Since the mist pipe 41 has a plurality of holes 38, the mist 35 is blown out from each hole 38.
At this time, when the motor 31 rotates, a rotational force is transmitted through the gears 33 and 32, and the blades 37a rotate at a predetermined rotational speed. As a result, the mist 35 is diffused away from the hole 38 by centrifugal force. Further, when a fire or the like occurs, the mist generator 6 switches the path to switch the water in the pipe 23 to the pipe 29 side and discharges the water from the sprinkler 17.

FIG. 3 (A) is a flowchart for explaining the operation of the winter operation of the mist-like liquid spraying apparatus of the present invention. (B) is a figure explaining the pattern at the time of a winter driving | operation.
In this system, the operation part 10 is used to select the conventional sprinkler operation or mist operation. In the case of the sprinkler operation (N in S1), if no fire has occurred (N in S15), the operation is terminated without any action. If this occurs (Y in S23), the sprinkler 17 is activated (S24).

  On the other hand, when the mist operation is performed in step S1 (Y in S1), the control device 9 opens the storage tank valve 11 by the valve control signal 27 (S2), and mixes the water in the storage tank 2 via the pipe 22 with the mixing tank. Supply water to 5. Subsequently, the storage tank output valve A12 is opened (S3), and the water in the storage tank 2 is supplied to the electric water heater 3. Next, the storage tank output valve B13 is closed (S4) so that the water in the storage tank 2 is not supplied to the electric water cooler 4. When water is supplied to the electric water heater 3, the electric water heater 3 is heated to reach a predetermined temperature, and the electric water heater valve 14 is opened (S5). Thereby, hot water is supplied from the electric water heater 3 to the mixing tank 5 via the pipe 22. At that time, the electric water cooler valve 15 is closed (S6) so that the hot water does not flow back to the electric water cooler 4. At this time, the control device 9 receives the mixing tank temperature signal 19 indicating the temperature in the mixing tank 5 and opens the storage tank valve 11 and the electric water heater valve 14 so that the temperature in the mixing tank falls within a predetermined range. Adjust the amount of water by controlling the degree.

Further, the control device 9 measures the temperature and humidity of the room 18 in which the mist fan 16 is installed with the temperature and humidity meter 8 and acquires data as the temperature and humidity signal 20 (S7). Based on the temperature / humidity signal 20, the control device 9 selects a pattern. In the case of pattern 1 in FIG. 2B (S8), the storage tank 5 is set so that the temperature of the mixing tank 5 is lowered (S9). The amount of water is adjusted by controlling the opening degree of the valve 11 and the electric water heater valve 14.
Next, the mist generator 6 is activated to generate mist (S10). Next, the mist adjusting valve 7 is opened (S11), and the mist is sent to the pipe 30. Then, the motor 31 is turned on (S12), and a large amount of low temperature mist is diffused into the room 18.

In the case of pattern 2 in FIG. 3B (S13), the amount of water is controlled by controlling the opening of the storage tank valve 11 and the electric water heater valve 14 so that the temperature of the mixing tank 5 is increased (S14). Adjust.
Next, the mist generator 6 is turned off to stop the mist (S15). Next, the mist adjusting valve 7 is closed (S16), and the motor 31 is turned off (S17), so that a small amount of high temperature mist is diffused into the room 18.

In the case of pattern 3 in FIG. 3B (S18), the amount of water is controlled by controlling the opening of the storage tank valve 11 and the electric water heater valve 14 so that the temperature of the mixing tank 5 becomes high (S19). Adjust.
Next, the mist generator 6 is activated to generate mist (S20). Next, the mist adjusting valve 7 is opened (S21), and the mist is sent to the pipe 30. Then, the motor 31 is turned on (S22), and a large amount of high temperature mist is diffused into the room 18.

FIG. 4 (A) is a flowchart for explaining the summer operation of the mist liquid spraying apparatus of the present invention. (B) is a figure explaining the pattern at the time of a summer driving | operation.
In this system, the operation unit 10 selects a conventional sprinkler operation or a mist operation, and in the case of the sprinkler operation (N in S31), when no fire has occurred (N in S48), the process is terminated without doing anything. If a fire has occurred (Y in S48), the sprinkler 17 is activated (S49).

  On the other hand, when the mist operation is performed in step S31 (Y in S31), the control device 9 opens the storage tank valve 11 by the valve control signal 27 (S32), and the water in the storage tank 2 is mixed with the mixing tank 5 through the pipe 22. Supply water. Subsequently, the storage tank output valve A12 is closed (S33) so that the water in the storage tank 2 is not supplied to the electric water heater 3. Next, the storage tank output valve B13 is opened (S34), and the water in the storage tank 2 is supplied to the electric water cooler 4. At that time, the electric water heater valve 14 is closed (S35) so that the hot water in the electric water heater 3 does not flow into the mixing tank 5. Then, when water is supplied to the electric water cooler 4, the electric water cooler 4 is cooled, and when the temperature reaches a predetermined temperature, the electric water cooler valve 15 is opened (S36). Thereby, cold water is supplied from the electric water cooler 4 to the mixing tank 5 via the pipe 22. At this time, the control device 9 receives the mixing tank temperature signal 19 indicating the temperature in the mixing tank 5 and opens the storage tank valve 11 and the electric water cooler valve 15 so that the temperature in the mixing tank falls within a predetermined range. Adjust the amount of water by controlling the degree.

Further, the control device 9 measures the temperature and humidity of the room 18 in which the mist fan 16 is installed with the temperature and humidity meter 8 and acquires data as the temperature and humidity signal 20 (S37). Based on the temperature / humidity signal 20, the control device 9 selects a pattern. In the case of pattern 1 in FIG. 4B (S38), the storage tank 5 is set so that the temperature of the mixing tank 5 is lowered (S39). The amount of water is adjusted by controlling the opening degree of the valve 11 and the water cooler valve 15.
Next, the mist generator 6 is activated to generate mist (S40). Next, the mist adjusting valve 7 is opened (S41), and the mist is sent to the pipe 30. Then, the motor 31 is turned on (S42), and a large amount of low temperature mist is diffused into the room 18.

4B (S43), the amount of water is controlled by controlling the opening of the storage tank valve 11 and the electric water cooler valve 15 so that the temperature of the mixing tank 5 is increased (S44). Adjust.
Next, the mist generator 6 is turned off to stop the mist (S45). Next, the mist adjusting valve 7 is closed (S46), and the motor 31 is turned off (S47), so that a small amount of high temperature mist is diffused into the room 18.

FIG. 5 (A) is a flowchart for explaining the operation of the intermediate period operation of the mist liquid spraying apparatus of the present invention. (B) is a figure explaining the pattern at the time of an intermediate period driving | operation.
In this system, the operation unit 10 selects a conventional sprinkler operation or mist operation. In the case of a sprinkler operation (N in S51), if there is no fire (N in S62), the process ends without doing anything. On the other hand, if a fire occurs (Y in S62), the sprinkler 17 is started ( S63).

On the other hand, when the mist operation is performed in step S51 (Y in S51), the control device 9 opens the storage tank valve 11 by the valve control signal 27 (S52), and mixes the water in the storage tank 2 via the pipe 22 with the mixing tank. Supply water to 5. Subsequently, the storage tank output valve A12 is closed (S53) so that the water in the storage tank 2 is not supplied to the electric water heater 3. Next, the storage tank output valve B13 is opened and closed (S54) so that the water in the storage tank 2 is not supplied to the electric water cooler 4. At that time, the electric water heater valve 14 is closed (S55) so that the hot water of the electric water heater 3 does not flow into the mixing tank 5. Further, the electric water cooler valve 15 is closed (S56). Thereby, the normal temperature water in the storage tank 2 is supplied to the mixing tank 5 in the pipe 22.
In this state, the control device 9 measures the temperature and humidity of the room 18 in which the mist fan 16 is installed with the temperature and humidity meter 8 and acquires data as the temperature and humidity signal 20 (S57). Based on the temperature / humidity signal 20, it is confirmed that the temperature of the mixing tank 5 is normal (S58), and the mist generator 6 is activated to generate mist (S59). Next, the mist adjusting valve 7 is opened (S60), and the mist is sent to the pipe 30. Then, the motor 31 is turned on (S61), and a large amount of mist having a low temperature is diffused into the room 18.

  As described above, the central member that is rotatably supported by the base member (ceiling), the plurality of blade members that project radially from the central member in the outer diameter direction, and each blade member from the central member. A rotating unit having a piped tube body and a plurality of spray ports formed along each tube body, a drive mechanism for rotationally driving the rotating unit, and generating a mist-like liquid in which the liquid is atomized And a mist-like liquid generating means for supplying to the pipe. Thereby, by rotating the rotation unit, the mist liquid is supplied to the pipe body piped along each blade member, and the mist liquid is sprayed from a plurality of spray ports formed along each pipe body. can do.

In addition, warm water supply means for supplying normal temperature water, warming means for warming normal temperature water supplied from the normal temperature water supply means, normal temperature water supplied from the normal temperature water supply means, and heating by the heating means And mixing means for mixing the produced water. Thereby, the heated liquid can be atomized and sprayed from a plurality of spray ports.
In addition, normal temperature water supply means for supplying normal temperature water, cooling means for cooling normal temperature water supplied from the normal temperature water supply means, normal temperature water supplied from the normal temperature water supply means, and water cooled by the cooling means, And mixing means for mixing. Thereby, the cooled liquid can be atomized and sprayed from a plurality of spray ports.

Furthermore, the mist liquid produced | generated by the mist liquid production | generation means is a dry mist, Therefore The dry mist which does not condense from several spraying openings can be spread | dispersed.
Further, a temperature / humidity detecting means for detecting the temperature / humidity of the space to which the mist-like liquid is supplied, a heating means valve for adjusting the amount of warm water supplied from the heating means to the mist-like liquid generating means, and a cooling means Based on the cooling means valve for adjusting the amount of cooling water supplied to the mist-like liquid generation means and the temperature and humidity detected by the temperature and humidity detection means, the temperature and humidity of the space are controlled to be a predetermined temperature and humidity. Control means, and the control means sets the temperature of water supplied to the mist-like liquid generating means by arbitrarily controlling the opening degree of each valve, so that the mist-like liquid set to an appropriate temperature is set. Can be sprayed.

DESCRIPTION OF SYMBOLS 1 ... Water supply pipe, 2 ... Storage tank, 3 ... Electric water heater, 4 ... Electric water heater, 5 ... Mixing tank, 6 ... Mist generator, 7 ... Mist adjustment valve, 8 ... Temperature-humidity meter, 9 ... Control apparatus, DESCRIPTION OF SYMBOLS 10 ... Operation part, 11 ... Storage tank valve, 12 ... Storage tank output valve A, 13 ... Storage tank output valve B, 14 ... Electric hot water valve, 15 ... Electric cold water valve, 16 ... Mist fan, 17 ... Sprinkler, 18 ... Indoor, 19 ... Mixing tank temperature signal, 20 ... Temperature / humidity signal, 21 ... Motor drive signal, 22-26 ... Piping, 27 ... Valve control signal, 28 ... Mist generation signal, 29, 30 ... Piping, 31 ... Motor, 32 , 33 ... gear, 34 ... bearing, 35 ... mist, 36 ... outlet, 37 ... vane, 38 ... hole, 40 ... deflector, 41 ... mist pipe, 50 ... ceiling plate

In order to solve the above problems, the present invention provides a center member rotatably supported by a ceiling , a plurality of blade members radially projecting from the center member in an outer radial direction, and the center. a tube body that is a pipe along the interior of each blade member from member, a plurality of spray ports formed along each tube, and a rotating unit which projects into the room from the ceiling, in the ceiling And a drive mechanism that rotationally drives the rotary unit,
A mist-like liquid generating means that is contained in the ceiling and generates a mist-like liquid obtained by atomizing the liquid and supplies the mist-like liquid to the pipe body .

Claims (5)

A central member rotatably supported by the base member, a plurality of blade members radially projecting from the central member in an outer diameter direction, and a pipe body piped from the central member along each blade member; A plurality of spray ports formed along each tube, and a rotation unit comprising:
A drive mechanism for rotationally driving the rotary unit;
A mist liquid generating means for generating a mist liquid obtained by atomizing a liquid and supplying the mist liquid to the pipe;
A mist-like liquid spraying device comprising: Room temperature water supply means for supplying room temperature water;
Heating means for heating normal temperature water supplied from the normal temperature water supply means;
The mist-like liquid spraying device according to claim 1, further comprising: a mixing unit that mixes the normal temperature water supplied from the normal temperature water supply unit and the water heated by the heating unit. Room temperature water supply means for supplying room temperature water;
A cooling means for cooling the normal temperature water supplied from the normal temperature water supply means;
The mist-like liquid spraying device according to claim 1, further comprising a mixing unit that mixes the normal temperature water supplied from the normal temperature water supply unit and the water cooled by the cooling unit.   The mist liquid spraying device according to claim 1, wherein the mist liquid generated by the mist liquid generation means is dry mist. Temperature and humidity detection means for detecting the temperature and humidity of the space to which the mist liquid is supplied;
A heating means valve for adjusting the amount of hot water supplied from the heating means to the mist-like liquid generating means;
A cooling means valve for adjusting the amount of cooling water supplied from the cooling means to the mist-like liquid generating means;
Control means for controlling the temperature and humidity of the space to be a predetermined temperature and humidity based on the temperature and humidity detected by the temperature and humidity detection means,
The said control means sets the temperature of the water supplied to the said mist-like liquid production | generation means by controlling the opening degree of each said valve arbitrarily, The mist-like liquid spraying apparatus of Claim 3 characterized by the above-mentioned. .

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