JP2011092833A - Sprayer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a spryer capable of easily preventing or reducing the interfering by harmonics generated by oscillation of an oscillator with an action of another electric device. <P>SOLUTION: The sprayer includes: a mist generator that has a plurality of oscillators each oscillating at its specific frequency, converts a liquid fed thereto into mist by causing any of the plurality of oscillators to oscillate; a changer that changes the oscillator from the oscillating one to another of the plurality of oscillators not in motion; and a liquid feeder that feeds the liquid to the mist generator; wherein the specific frequency is made to be different from one oscillator to another. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a spray device that sprays liquid such as electrolyzed water in a mist form.

  2. Description of the Related Art Conventionally, a spray device that sprays water (which can also be regarded as a kind of liquid) in a mist state has been developed. As an example of the spraying device, Patent Document 1 discloses that water stored in a tank is supplied to a mist generating device (also referred to as an ultrasonic vibrator) and is made into a mist by applying vibration. An outline of the configuration and operating principle of the spray device will be briefly described below.

  FIG. 9 is a configuration diagram of the spray device. As shown in the figure, the spray device 50 includes a main body 51 and a tank 52 detachably attached to the lower side of the main body 51. The main body 51 is formed of a water supply rod 53, a water supply rod storage portion 54, a mist generating device 55, and the like.

  The water supply rod 53 is formed in a rod shape using, for example, a felt material obtained by overlapping and contracting fibers. Since the felt material is a laminate of fibers, according to the water supply rod 53, water absorbed from one end side (lower portion) of the rod shape is pushed up to the other end side (upper side) by capillary action.

  The water supply rod storage portion 54 is formed to be fixed to the main body 51 in a state of extending in the vertical direction so that the water supply rod 53 can be stored in a state where the water supply rod 53 is set up in the vertical direction. In addition, the lower side of the water supply rod storage portion 54 is designed to protrude into the tank 52 when the tank 52 is attached to the main body 51. Furthermore, an opening 54a for allowing water stored in the tank 52 to enter inward and a spring member 54b for urging the water supply rod 53 upward (to the mist generating device 55) are provided below the water supply rod storage portion 54. Is provided.

  The mist generating device 55 is a device that makes the water supplied from the tank 12 into a mist (mist). In FIG. 10, the block diagram of the mist production | generation apparatus 55 is shown. In FIG. 10, the upper diagram shows a state in which the mist generating device 55 is viewed obliquely from above, and the lower diagram is a cross-sectional view when the plane including the line segment AA ′ is taken as a cross-section (however, the power source 63 etc. Is excluded). As shown in the figure, the mist generating device 55 has a configuration in which a doughnut-shaped ceramic vibrator 62 is bonded to the upper surface of a thin plate 61.

  The thin plate 61 is a substantially plate-like member made of, for example, stainless steel, and a mesh portion 61a is provided in a fixed region at the center. The mesh portion 61a is formed in a mesh shape provided with a large number of minute holes that are large enough to pass mist. The ceramic vibrator 62 is made of piezoelectric ceramic, and generates a high frequency (ultrasonic) vibration when a predetermined voltage is applied by a power supply 63 provided separately. When the ceramic vibrator 62 vibrates, the vibration is transmitted to the thin plate 61, and the thin plate 61 itself vibrates.

  The ceramic vibrator 62 vibrates at a resonance frequency unique to the ceramic vibrator 62 when a predetermined voltage is applied by the power source 63. At the design stage of the mist generating device 55, when trying to vibrate the thin plate 61 at a certain desired frequency, the shape and the like of the ceramic vibrator 62 are determined so that the resonance frequency substantially matches the desired frequency. The resonance frequency of the ceramic vibrator is determined by its material and shape (size, thickness, etc.), and the same ceramic vibrator cannot be vibrated at different frequencies.

  The tank 52 is supplied with water removed from the main body 51 and then attached to the main body 51. Thereby, the water in the tank 52 passes through the opening 54a and is absorbed by the lower portion of the water supply rod 53 and pushed upward.

  The mist generating device 55 is installed on the upper side (opened) of the water supply rod storage portion 54 so that the upper end of the water supply rod 53 contacts the lower surface of the thin plate 61 (particularly, the mesh portion 61a). It has become. When the mist generating device 55 vibrates, the vibration propagates through the thin plate 61 to water pushed up by the water supply rod 53 (particularly, water in contact with the thin plate 61). As a result, this water becomes mist (mist form) (that is, mist is generated) and is discharged (sprayed) from the upper part of the main body 51 to the outside via the mesh part 61a.

  The water stored in the tank 52 is converted into electrolyzed water by an electrolysis apparatus (not shown). The electrolysis water produced | generated from the water (for example, tap water) containing a chloride ion is discharge | released outside as mist, and a virus suppression effect etc. are anticipated.

JP 2009-168328 A

  As described above, the spray device can make the water mist by applying vibration to the water using a vibrator. By the way, when the vibrator vibrates, electromagnetic waves (harmonics) may be generated due to the vibration.

  When the spraying device generates such harmonics, the noise associated therewith (hereinafter sometimes referred to as “harmonic noise”) interferes with the operation of other electrical equipment in the vicinity of the spraying device, There is a risk that electrical equipment may malfunction. In this case, it is conceivable to move the spray device away from the electric device, but it is difficult to take such a measure when the installation space is limited, for example, when the device is used in a car.

  In view of the above-described problems, an object of the present invention is to provide a spray device that can easily suppress or reduce interference with the operation of other electrical equipment due to harmonics caused by vibration of a vibrator. .

  In order to solve the above-described problem, the spray device according to the present invention has a plurality of vibrators each vibrating at a unique frequency, and vibrates one of the plurality of vibrators to supply the supplied liquid. A mist generating device for making a mist, a switching unit for performing a switching operation for switching the vibrator to be vibrated to another one of the plurality of vibrators, and a liquid supply unit for supplying a liquid to the mist generating device The spray device is configured to discharge the mist to the outside, and the specific frequency is set to be different for each vibrator.

  According to this configuration, it is possible to change the frequency of vibration for generating mist by switching the vibrator to be vibrated. For this reason, it is possible to easily suppress or reduce the interference with the operation of other electrical devices due to the harmonics caused by the vibration of the vibrator. For example, it is possible to suppress the interference without stopping the use of the spray device or keeping the spray device away from the electrical equipment.

  Moreover, the said structure WHEREIN: The said switching part is good also as a structure which receives the execution instruction | indication of the said switching operation by a user, and performs the said switching operation when this execution instruction | indication is made.

  According to this configuration, when the user knows the occurrence of a malfunction due to harmonics caused by the vibration of the vibrator, it is possible to instruct the execution of the switching operation and avoid the malfunction as much as possible.

  More specifically, as the above configuration, each of the plurality of vibrators may be formed of piezoelectric ceramic, and the unique frequency may be a resonance frequency of the vibrator.

  Further, in the above configuration, the mist generating device is formed in a form in which the plurality of vibrators are bonded to one plate-like body in contact with the supplied liquid, and any vibration in the plurality of vibrators It is good also as a structure which vibrates this board | substrate by vibrating a child | child and makes the said supplied liquid mist.

  According to this configuration, since the plate-like body is used in common regardless of the type of the vibrator, the mist generating device has a simple structure as compared to the case where a separate plate-like body is provided for each vibrator. It becomes possible to do.

  In the above-described configuration, the mist generating device may include a part of the plurality of vibrators bonded to one surface of the plate-like body and the other vibrators bonded to the other surface of the plate-like body. It is good also as the structure currently formed in the aspect which carried out.

  According to this structure, even if it is the vibrator | oscillator of the shape which mutually interferes if it installs in the same surface of a plate-shaped body, these can be installed in a separate surface and it becomes possible to avoid the said interference.

  Moreover, the said structure WHEREIN: The said mist production | generation apparatus is good also as a structure currently formed in the aspect which adhered all the vibrator | oscillators in the said some vibrator | oscillator to the same surface in the said plate-shaped object.

  According to this configuration, since it is only necessary to install the vibrator on only one surface of the plate-like body, the manufacturing process of the mist generating device can be simplified.

  Further, in the above configuration, the tank includes a tank that stores water containing chlorine, and an electrolytic treatment device that electrolyzes the water stored in the tank to generate electrolyzed water, and the liquid supply unit includes the electrolyzer. Water is supplied to the mist generating device, and the mist generating device may be configured to use the supplied electrolyzed water as a mist.

  According to this configuration, it is possible to generate and release active oxygen (hypochlorous acid and OH radicals), and exert effects such as virus suppression.

  As described above, according to the spray device according to the present invention, it is possible to change the frequency of vibration for generating mist by switching the vibrator to be vibrated. For this reason, it is possible to easily suppress or reduce the interference with the operation of other electrical devices due to the harmonics caused by the vibration of the vibrator. For example, it is possible to suppress the interference without stopping the use of the spray device or keeping the spray device away from the electrical equipment.

It is a block diagram of the spraying apparatus which concerns on embodiment of this invention. It is a block diagram of the mist production | generation apparatus which concerns on embodiment of this invention. It is an external view of the said mist production | generation apparatus. It is explanatory drawing showing the installation state of the said mist production | generation apparatus. It is explanatory drawing regarding the water supply to the said spraying apparatus. It is explanatory drawing showing the state immediately after water supply of the said spraying apparatus. It is explanatory drawing regarding supply of the water to a mist production | generation apparatus. It is a block diagram of the mist production | generation apparatus which is another aspect which concerns on embodiment of this invention. It is a block diagram about an example of the conventional spraying apparatus. It is a block diagram about an example of the conventional mist generating apparatus.

  An embodiment of the present invention will be described below with an example of a spraying device. FIG. 1 is a configuration diagram of the spray device 1 (a state where the tank 12 is attached to the main body 11). The spray device 1 has a generally cylindrical shape as a whole, and FIG. 1 (essentially the same for other drawings unless otherwise specified) has a cross section including a plane including the axis of this cylinder. It is drawn as a cross-sectional view. Moreover, as shown in FIG. 1, the spraying apparatus 1 is used in a state where it is placed on a stand or the like so that the tank 12 is on the lower side.

  As shown in FIG. 1, the spray device 1 includes a main body 11 and a tank 12 that is detachably attached to a lower portion of the main body 11. The main body 11 is formed of a water supply rod 13, a water supply rod storage portion 14, a mist generating device 15, and the like. Each part of the spraying device 1 is formed, for example, as a plastic molded product unless otherwise specified.

  The water supply rod 13 is formed into a rod shape using, for example, a felt material that is formed by overlapping and shrinking fibers. Since the felt material is a fiber laminate, according to the water supply rod 13, water absorbed from one end side (lower portion) of the rod shape is pushed up to the other end side (upper side) by capillary action.

  The water supply rod storage portion 14 is formed to be fixed to the main body 11 in a state of extending in the vertical direction so that the water supply rod 13 can be stored in a vertical state. In addition, the lower side of the water supply bar storage portion 14 is designed to protrude into the tank 12 when the tank 12 is attached to the main body 11. Further, below the water supply rod storage portion 14, there are an opening portion 14 a for allowing water stored in the tank 12 to enter inward, and a spring member 14 b for urging the water supply rod 13 upward (to the mist generating device 15). Is provided. In addition, as a shape of the water supply rod accommodating part 14, although a substantially tubular shape is suitable as shown in FIG. 1, as long as the water supply rod can be appropriately accommodated, various shapes can be adopted.

  The mist generating device 15 (also referred to as an ultrasonic transducer) is a device that makes the water supplied from the tank 12 into a mist (mist). In FIG. 2, the block diagram of the mist production | generation apparatus 15 is shown. FIG. 3 is an external view of the mist generating device 15 (the state is seen from obliquely above, and the display of the power supply 24 and the like is omitted). In FIG. 2, the upper diagram is a diagram of the mist generating device 15 as viewed from above, and the middle diagram is a diagram of the diagram as viewed from the side (when the segment is cut along line AA ′ except for the power supply 24 and the like). ), And the lower figure shows the figure viewed from below.

  As shown in FIG. 2 and FIG. 3, the mist generating device 15 has a doughnut-shaped (substantially rectangular cross-section) ceramic vibrator bonded (installed) to each side surface of the thin plate 21 having a circular outer edge. It becomes the composition. More specifically, the first ceramic vibrator 22 is provided on the upper surface (surface directed upward) of the thin plate 21, and the second ceramic vibrator 23 is provided on the lower surface (surface directed downward) of the thin plate 21. , Each is glued.

  The thin plate 21 is a substantially plate-like member formed of, for example, stainless steel, and a mesh portion 21a is provided in a fixed region at the center (a part of a region surrounded by each ceramic vibrator (22, 23)). It has been. The mesh portion 21a is formed in a mesh shape provided with a large number of minute holes large enough to allow mist to pass through.

  Each ceramic vibrator (22, 23) is made of piezoelectric ceramic, and an electrode film is formed on its own surface (the surface opposite to the adhesive surface with the thin plate 21). Further, a power source 24 (for example, a battery) that supplies a predetermined operating voltage to the ceramic vibrators (22, 23) is provided in the main body 11. One electrode of the power supply 24 is electrically connected to the thin plate 21, and the other electrode is electrically connected to the electrode film formed on each ceramic vibrator (22, 23) via the switch 25. ing.

  The switch 25 connects the power supply 24 to the electrode film of any ceramic vibrator (22, 23) in a switchable manner. Note that ON / OFF of the power supply 24 (whether or not power is supplied) and switching of the switch 25 can be freely performed by the user through an operation of a user interface (not shown) provided in the main body 11 (for example, pressing a button switch). It is possible.

  Each ceramic vibrator (22, 23) generates high-frequency (ultrasonic) vibration when an operating voltage is applied from the power supply 24. Note that the frequency of the vibration is a resonance frequency unique to each of the ceramic vibrators (22, 23). Here, the first ceramic vibrator 22 and the second ceramic vibrator 23 have different resonance frequencies. In addition, each ceramic vibrator (22, 23) is different from each other in at least one of the material, shape (size, thickness, etc.), and the resonance frequency is set to be different. . For example, among the ceramic vibrators (22, 23), one resonance frequency is set to 160 kHz, and the other resonance frequency is set to 200 kHz.

  When one ceramic vibrator (22, 23) generates vibration, the vibration is transmitted to the thin plate 21, and the thin plate 21 itself vibrates at the same frequency as the vibration frequency of the ceramic vibrator.

  As is clear from the above description, the spraying device 1 accepts a user's instruction to execute a switching operation for switching a ceramic vibrator to be vibrated (a ceramic vibrator for applying an operating voltage) to another one. And the spraying apparatus 1 performs the said switching operation, when this execution instruction | indication is made. When three or more ceramic vibrators are provided, the user may be able to specify which ceramic vibrator to be switched to, as well as an instruction to execute the switching operation.

  FIG. 4 is a diagram illustrating an installation state of the mist generating device 15. As shown in the figure, the mist generating device 15 is arranged such that a region from the center of the lower surface of the thin plate 21 (particularly the mesh portion 21 a) faces the upper end of the water supply rod 13. As described above, since the water supply rod 13 is biased upward by the spring member 14 b, the upper end of the water supply rod 13 is in close contact with the lower surface of the thin plate 21.

  Further, the mist generating device 15 is fixed so that the region from the outer edge of the thin plate 21 is sandwiched between the water supply rod storage portion 14 and the fixing member 31. Thereby, it is possible to vibrate the region from the center of the thin plate 21 while fixing the position of the mist generating device 15.

  The mist generating device 15 has the above-described configuration and arrangement, and performs an operation (vibrating operation) that vibrates the thin plate 21 while an operating voltage is applied from the power supply 24. When the thin plate 21 vibrates, the water in contact with the lower surface of the thin plate 21 (water pushed up from the tank 12 by the water supply rod 13) is atomized, and the mist that has come out to the upper surface side of the thin plate 21 through the mesh portion 21a. Is released to the outside.

  The tank 12 is a container that is used to store water. As shown in FIG. 5, the tank 12 is attached to the main body 11 after water is manually supplied while being removed from the main body 11. In addition, about the shape of the tank 12, etc., various things other than what is represented to drawing can be employ | adopted. In the description of the present embodiment, water (especially, tap water is assumed) is taken as an example of the liquid stored in the tank 12, but other types of liquid may be used.

  The tank 12 is detachably attached to the lower portion of the main body 11 by, for example, screwing using a screw shape or locking using a hook-shaped member. A rubber packing is disposed at the joint between the main body 11 and the tank 12. When the tank 12 is attached to the main body 11, the inside of the tank 12 is sealed from the outside of the spraying device 1. It has become.

  FIG. 6 shows the state of the spray device 1 immediately after water supply. In this way, the water is supplied to the tank 12 such that the water level is sufficiently higher than the position of the opening 14 a so that the water is absorbed by the lower side of the water supply rod 13. As a result, as shown in FIG. 7, the water in the tank 12 is pushed up by the water supply rod 13 and comes into contact with the lower surface of the thin plate 21. In this way, the water in the tank 12 is supplied to the mist generating device 15.

  As described above, the spray device 1 is provided with the tank 12 where water is stored and becomes heavier as much as possible, so that the center of gravity of the entire device is lowered and the posture is stable even if it is configured compactly (for example, Even if it is shaken a little, it will not fall down). In addition, since the mist generating device 15 that generates and discharges mist is provided as much as possible, the spray device 1 can easily discharge the mist from the upper part as much as possible and make it widely spread in the external space. ing.

[About the operation of the sprayer]
As shown in FIG. 7, the spray device 1 in a state where water is supplied to the mist generating device 15 can perform an operation of generating mist and releasing it to the outside. Next, the operation | movement content and usage method of the spraying apparatus 1 are demonstrated.

  When the user turns on the power, the operating voltage is supplied to one of the ceramic vibrators (22, 23) (one connected to the power supply 24 via the switch 25). Thereby, the mist production | generation apparatus 15 starts a vibration operation | movement. Thereafter, the vibration operation is continued until the power is turned off. Further, when the switch 25 is switched by the user, the ceramic vibrators (22, 23) that perform the vibration operation are changed.

  The water that has reached the lower surface of the thin plate 21 by the action of the water supply rod 13 becomes mist-like by the vibration operation of the mist generating device 15, and is discharged to the outside through the mesh portion 21a as described above. This achieves the main purpose of the spraying device to generate mist and discharge it to the outside. Since the water is continuously supplied from the tank 12 to the mist generating device 15 by the action of the water supply rod, the mist generation is continuously performed.

  By the way, while using the spray device 1, electromagnetic waves (harmonics) due to vibration of the mist generating device 15 may be generated. Therefore, when other electrical equipment exists in the vicinity of the spraying device 1, the generated electromagnetic waves may interfere with the operation of the electrical equipment as harmonic noise and cause a problem. For example, the reception quality of a television receiver, radio, or the like deteriorates, or a keyless entry device such as a car malfunctions. Such inconvenience is mainly due to the fact that the frequency characteristics of harmonics emitted by the spray device 1 (particularly the frequency at which the amplitude peaks) match or approximate the frequency characteristics of radio waves used in other electrical devices. Is caused.

  However, when such a problem occurs (when the user knows that a problem has occurred), the user can take a measure of switching the switch 25. As described above, when the switch 25 is switched, the supply destination of the operating voltage is switched, and the ceramic vibrators (22, 23) that generate vibration are changed.

  For example, when the switch 25 is switched in a state where the first ceramic vibrator 22 is generating vibration, the first ceramic vibrator 22 stops vibrating and the second ceramic vibrator 23 newly generates vibration. Will come to let you. As a result, the frequency of the harmonics emitted from the spray device 1 is changed while the vibration of the thin plate 21 is continued (that is, without using the spray device 1).

  Therefore, according to the spraying device 1, the difference between the frequency characteristics of the harmonics emitted from the spraying device 1 and the frequency characteristics of the radio waves used in other electric devices is made larger than before the change (in other words, This makes it possible to reduce the degree of approximation of both. As a result, it is possible to prevent electromagnetic waves generated by using the spray device 1 from interfering with the operation of other electric devices as much as possible, and to suppress the above-described problems.

  Note that the harmonic frequency is usually an integral multiple of the fundamental frequency. Therefore, for example, even if the frequency of vibration in the mist generating device 15 is switched between 100 kHz and 200 kHz (one is an integral multiple of the other), the fluctuation of the harmonic frequency characteristics is relatively small, and other electrical The effect of reducing the interference with the operation of the device is considered to be small. Therefore, it is desirable that the frequency (resonance frequency) related to each vibrator provided in the mist generating device 15 is appropriately set so as not to be an integral multiple of the frequency related to other vibrators.

[Number of ceramic vibrators and installation mode]
In the spraying device 1, the vibration frequency of the mist generating device 15 can be adjusted by providing a plurality of ceramic vibrators. In this embodiment, two ceramic vibrators are provided, but three or more ceramic vibrators may be provided in order to adjust the frequency in more stages. Further, the material and shape of each ceramic vibrator are not limited to those shown in FIG. In this embodiment, a ceramic vibrator is used as a vibrator that vibrates at a specific frequency. However, other kinds of vibrators may be used.

  When attention is paid to the installation mode of the ceramic vibrators (22, 23) on the thin plate 21 (mainly determined matters at the design stage), the first ceramic vibrator 22 is arranged on the upper surface of the thin plate 21, as shown in FIG. The second ceramic vibrator 23 is installed on the lower surface of the thin plate 21. That is, they are installed on different surfaces of the thin plate 21 from each other.

  Therefore, the first ceramic vibrator 22 and the second ceramic vibrator 23 do not interfere with each other and are balanced on the thin plate 21 (the axes of the ceramic vibrators (22, 23) and the thin plate 21 that are substantially rotating bodies). However, it is possible to install it so that it almost matches. As shown in FIG. 2, since the outer diameter of the first ceramic vibrator 22 is larger than the inner diameter of the second ceramic vibrator, even if both ceramic vibrators (22, 23) are installed on the same surface, It can be said that such installation was difficult because they interfered with each other. Thus, in the specification design of the mist generating device 15, if both surfaces of the thin plate 21 are used as the ceramic vibrator installation surface, the degree of freedom in installing the ceramic vibrator is increased.

  However, when the ceramic vibrators (22, 23) can be installed so as not to interfere with each other, as shown in FIG. 8 (corresponding to the modification of FIG. 2), both ceramic vibrators (22, 23) Alternatively, it may be installed on the same surface of the thin plate 21. In this way, since the ceramic vibrator is not disposed on one surface of the thin plate 21 but only on the other surface, the manufacturing process of the mist generating device 15 is simplified (for example, the thin plate 21 is Omission of the process of turning over) is facilitated. Even when three or more ceramic vibrators are installed, it is possible to receive the same advantages by setting all these ceramic vibrators on the same surface of the thin plate. is there.

  In any case, each ceramic vibrator is installed on a thin plate 21 which is a single plate-like body, and the thin plate 21 is vibrated to generate mist. Since the mist generating device 15 has such a configuration, the mist generating device 15 has a simple configuration as compared with a case where a plate-like body for generating mist is provided separately for each vibrator.

[Others]
Moreover, in the spraying apparatus 1, it is desirable to provide the electrolytic treatment apparatus for electrolyzing the water in the tank 12 into electrolyzed water. The electrolytic treatment apparatus has a pair of electrodes (a positive electrode and a negative electrode) installed so as to be in contact with the water in the tank 12. The water in the tank 12 is electrolyzed.

  When the electrolytic treatment apparatus is provided, when water containing chlorine (chloride ions) is used as water supplied to the tank 12 such as tap water, the spray apparatus 1 is activated oxygen by electrolysis of water. (Hypochlorous acid and OH radicals) are generated, and these substances are released to the outside as the mist is released. As a result, the spray device 1 exhibits effects such as virus suppression. Since such effects are well known as being posted on the website (http://jp.sanyo.com/vw/concept/index.html), for example, detailed explanation is omitted here. To do.

  Further, in the spray device 1, the water supply rod 13 is used as a means for supplying the water in the tank 12 to the mist generating device 15, but other means may be used. For example, the flow path of water from the tank 12 to the mist generating device 15 is formed by a tubular member or the like, and water is pushed up by the mist generating device 15 by pressurizing the water in the tank 12. May be. The water in the tank 12 is pressurized by keeping the air layer in the tank 12 hermetically sealed and sending air from the outside of the tank 12 (increasing air pressure) using a blower such as a fan. Can be realized.

  As described above, the spray device 1 of the present embodiment includes a plurality of ceramic vibrators (22, 23) that vibrate at a specific frequency (resonance frequency), and a plurality of ceramic vibrators (22, 23). ) Is oscillated, and a mist generating device 15 for misting the supplied water (liquid) is provided.

  Further, the spraying device 1 corresponds to a functional unit (user interface, switch 25, or the like) that switches the vibrator to be vibrated to another one of the plurality of ceramic vibrators (22, 23) in accordance with an execution instruction from the user. ) And a liquid supply unit that supplies water to the mist generating device 15, and discharges the mist to the outside. Further, the specific frequency is set to be different between the first ceramic vibrator 22 and the second ceramic vibrator 23.

  Therefore, according to the spray device 1, it is possible to change the frequency of vibration for generating mist by switching the vibrator to be vibrated. Thereby, it is possible to easily suppress or reduce the interference with the operation of other electric devices due to the harmonics caused by the vibration of the vibrator. For example, the interference can be suppressed without stopping the use of the spraying device or keeping the spraying device away from the electrical equipment.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to this content. The embodiments of the present invention can be variously modified without departing from the gist of the present invention.

  INDUSTRIAL APPLICATION This invention can be utilized for the spraying apparatus which discharges | emits a liquid in the shape of a mist.

DESCRIPTION OF SYMBOLS 1 Spraying device 11 Main body 12 Tank 13 Water supply rod 14 Water supply rod storage part 14a Opening part 14b Spring member 15 Mist production | generation apparatus (ultrasonic transducer)
21 Thin plate (plate-shaped body)
21a Mesh part 22 1st ceramic vibrator 23 2nd ceramic vibrator 24 Power supply 25 Switch (switching part)
31 Fixing member

Claims (7)

A mist generating device that has a plurality of vibrators each oscillating at a unique frequency, and vibrates any of the plurality of vibrators to mist the supplied liquid;
A switching unit that performs a switching operation to switch the vibrator to be vibrated to another one of the plurality of vibrators;
A liquid supply unit for supplying a liquid to the mist generating device,
A spraying device for discharging the mist to the outside,
The unique frequency is set so as to be different for each vibrator. The switching unit is
Receiving an instruction to execute the switching operation by the user;
The spray device according to claim 1, wherein the switching operation is executed when the execution instruction is given. Each of the plurality of vibrators is made of piezoelectric ceramic,
The spray device according to claim 2, wherein the specific frequency is a resonance frequency of the vibrator. The mist generating device
A plurality of vibrators are bonded to a single plate-like body in contact with the supplied liquid;
4. The spraying device according to claim 3, wherein any of the plurality of vibrators is vibrated to vibrate the plate-like body so that the supplied liquid is mist. The mist generating device
A part of the plurality of vibrators is bonded to one surface of the plate-like body, and the other vibrator is formed to be bonded to the other surface of the plate-like body. The spraying device according to claim 4. The mist generating device
The spraying device according to claim 4, wherein all the vibrators in the plurality of vibrators are formed so as to adhere to the same surface of the plate-like body. A tank in which water containing chlorine is stored;
An electrolysis apparatus for electrolyzing water stored in the tank to generate electrolyzed water;
With
The liquid supply unit supplies the electrolyzed water to the mist generating device,
The said mist production | generation apparatus makes the supplied electrolyzed water mist, The spraying apparatus in any one of Claims 1-6 characterized by the above-mentioned.

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