JP2014238236A - Nanomist and negative ion generator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a nanomist and negative ion generator provided with a breakwater body that can prevent rotation of stored water and that does not obstruct heating of the stored water.SOLUTION: A nanomist and negative ion generator comprises: a heater 22 heating water stored in a water storage chamber 8 and provided on an outer peripheral wall of the water storage chamber 8; a cylindrical rotational body 17 having a lower end submerged in the stored water of this water storage chamber 8; a cylindrical porous body 20 located on an outer circumference of an upper portion of this rotational body 17 and driven to rotate together with the rotational body 17 by a drive motor 13, pumped water being scattered and struck against the cylindrical porous body 20 by a centrifugal force generated by this rotation; and a blower 4 emitting nanomist and negative ions generated by fragmenting the water by this porous body 20 into a room from a diffuser 31. A breakwater body 24 including a water rotation prevention plate 27 preventing a fall in a water level at a rotation center generated by rotation of the rotational body 17 is provided in the water storage chamber 8, and a notch portion 29 that does not obstructs transfer of heat to the water from the heater 22 is formed in a peripheral wall of this breakwater body 24 facing the heater 22.

Description

  The present invention relates to a nano mist that generates negative ions together with nano mist and a negative ion generator.

  Conventionally, in this type of water, a wave barrier is provided around the rotating body in the water storage chamber, and water is removed from the rotating body due to a water level drop or a gap generated by rotating the stored water by the rotation of the rotating body. It was to prevent it from being scattered.

JP 2009-264641 A

  By the way, in this conventional type, since the water at normal temperature is made into a mist, the wave preventing body extends to the height of the full water level on the outer periphery of the rotating body, but in order to supply warm nano mist by heating the water stored in the water storage chamber, It is necessary to heat the water storage by providing a heater on the outer peripheral wall of the water storage chamber, and if the wave breaker extends to the full water level at this time, it will interfere with heating and heat the water storage uniformly. It had a problem to say.

  In order to solve the above-described problems, the present invention has, in particular, a configuration in which a water storage chamber for storing water from a water supply tank at a constant water level, a heater provided on a water storage chamber outer peripheral wall for heating the water storage in the water storage chamber, A cylindrical rotating body whose lower end is submerged in the water storage of the water storage chamber, and located on the outer periphery of the upper part of the rotating body, is rotated by the drive motor driven together with the rotating body, and the water pumped up by the centrifugal force generated by this rotation What is provided with a cylindrical porous body to be scattered and hit, a nano mist generated by crushing water in the porous body, and a blower for discharging negative ions into the room from the outlet The room is provided with a wave breaker provided with a water rotation prevention plate for preventing the water level at the rotation center from being lowered due to the rotation of the rotation body, and a water wall of the heater is disposed on the peripheral wall of the wave breaker facing the heater. Notch that does not hinder heat transfer to It is obtained by forming.

  As described above, according to the present invention, even when the rotating body rotates, underwater is divided into a plurality of radial shapes by the anti-rotation plate of the wave preventing body, so that the water storage is prevented from rotating, and the rotating body rotates. The water is surely pumped up and scattered to generate a sufficient amount of nano mist and negative ions, and a notch is formed in the peripheral wall facing the wavebreaker heater. Therefore, the heat of the heater is uniformly transferred to the entire water storage, the water can be efficiently heated, and a good indoor environment can be obtained with warm nanomist and negative ions.

The schematic block diagram which shows the nanomist and negative ion generator of one Embodiment of this invention. The perspective view of the wave breaker.

Next, a nano mist and negative ion generator according to an embodiment of the present invention will be described with reference to the drawings.
Reference numeral 1 denotes a main body of a nano mist and negative ion generator that cleans and humidifies indoors and directly applies nano mist and negative ions to a human face. The room is fixed to the lid 2 at the center and sucked from the suction port 3. A cylindrical guide tube 5 that guides air to a blower 4 made of a sirocco fan that rotates at the center is provided. The guide tube 5 has a blower tube 6 that hangs down below the blower 4 so as to cover the blower 4. Is provided.

  Reference numeral 7 denotes a processing chamber covering the guide tube 5. A water storage chamber 8 made of aluminum die cast is provided in the lower portion of the processing chamber 7. A water supply tank 9 as a water supply means is provided in the water storage chamber 8. The constant water level chamber 10 in which is set is communicated via the water passage 11, and the water supply tank 9 is configured to keep the water storage chamber 8 at a constant water level by supplying the water supply by a drop method. . A float sensor 12 is provided in the constant water level chamber 10 and outputs a water level detection signal for detecting the presence of a water level when the water storage chamber 8 and the constant water level chamber 10 store water at a certain level or higher. is there.

  Reference numeral 13 denotes a drive motor as a drive means for supporting the water storage chamber 8 below the water storage chamber 8, which is fixed to a substrate 15 that is covered with a cover body 14 and forms the bottom of the apparatus body 1. A bowl-shaped running water groove 16 that protrudes outward is formed around the outer peripheral wall.

  Reference numeral 17 denotes a cylindrical rotating body that is supported by a drive shaft 18 that submerges the lower part of the water storage chamber 8 and rotates the blower 4 through the water storage chamber 8. The rotating body 17 has a hollow inverted conical shape. The diameter gradually expands upward, and by rotating the rotating body 17, the water stored in the water storage chamber 8 is pumped up by the centrifugal force of this rotation and pushed up along the outer and inner walls of the rotating body 17. The stored water pumped up along the outer wall of the rotating body 17 is scattered to the surroundings, and the stored water pumped up along the inner wall of the rotating body 17 is scattered from the plurality of spray ports 19 formed at the upper end of the rotating body 17 to the surroundings. It is something to be made.

  Reference numeral 20 denotes a cylindrical porous body which is positioned on the outer periphery of the rotating body 17 at a predetermined interval and rotates together with the rotating body 17. The porous body 20 includes a large number of slits, a metal mesh, punching metal, etc. on its entire peripheral wall. The porous portion 21 is formed, and the water pumped up by the centrifugal force generated by the rotation of the rotating body 17 is allowed to pass through the porous portion 21 together with the air, or is crushed by crushing, thereby refining water particles to a nanometer ( nm) size mist is generated and negative ions are generated by the Leonard effect due to the refinement of the water particles, and the water particles that have passed through the porous portion 21 are further blown around the outer periphery of the porous body 20. 6 which collides with the inner wall and is crushed and refined, the blowing cylinder 6, the drive motor 13 that rotates the rotating body 17, the rotating body 17, and the porous body 20 that rotates together with the rotating body 17 Et water crushing means in which is formed.

  Reference numeral 22 denotes a heater provided as a heating means for winding water around the water storage chamber 8 and heats the water stored in the water storage chamber 8. Reference numeral 23 denotes a water temperature sensor as water temperature detection means including a thermistor for detecting the temperature of the water stored in the water storage chamber 8. It is.

  Reference numeral 24 denotes a synthetic resin-made saddle-shaped wave breaker that is submerged in the bottom of the hot water storage chamber 8. An insertion hole 26 through which a protective cylinder 25 that protects the drive shaft 18 passes is provided at the center. An anti-rotation plate 27 for water that extends up to approximately the height of the center of the water in four radial positions from the insertion hole 26 toward the peripheral wall, partitions the water, and blocks the water flow that is rotated by the rotation of the rotating body 17. The two opposing portions of the peripheral wall are extended upward and are provided with locking portions 28 that are locked to the upper portion of the water storage chamber 8. Further, two rotation preventions opposite to the locking portions 28 are provided. Cutouts 29 are formed in the peripheral wall at two locations between the plates 27 so that the heat of the heater 22 wound around the peripheral wall of the water storage chamber 8 is favorably transferred to the water storage.

  Reference numeral 30 denotes a flow passage for discharging nanomist and negative ions generated by the rotation of the rotating body 17 and the porous body 20 from the blower outlet 31 at the top of the processing chamber 7 by driving the blower 4. From the clearance between the upper part of the water storage chamber 8, the processing chamber 7, the guide cylinder 5, and the blower cylinder 6 are lifted to form a flow path toward the outlet 31.

  A drain valve 32 is provided in the water passage 11 communicating with the water storage chamber 8 and is always pressed toward the valve closing side. When the water supply tank 9 is set (stored) in the constant water level chamber 10, a compression spring ( When the lot 33 that is constantly pushed up is pushed down by the not shown), the lower end of the lot 33 locks the locking fitting 34 and the drain valve 32 is closed, and the water supply tank 9 is set. The drainage of the residual water in the water storage chamber 8 is surely prevented. When the water supply tank 9 is removed, the lot 33 is pushed upward by the compression spring, the lock of the locking bracket 34 is released, and the drainage The valve 32 is in a state where it can be opened.

  35 is a drainage tray with an open top surface for receiving the drainage of the remaining water in the water storage chamber 8, and is provided so as to be freely inserted into and removed from the apparatus main body 1. A handle portion 36 is formed on the front surface. The size is sufficient to accommodate the remaining water. The drain tray 35 is formed with a projecting wall 37 on the inner rear side. When the drain lever 38 is lowered, the locking bracket 34 presses the drain valve 32 to open the valve, and at that time, the lower end of the drain lever 38 projects. It is located below and outside the wall 37 and prevents the drain tray 35 from being pulled out during drainage by engaging the projecting wall 37 and the drain lever 38, and draining ends and the drain lever 38 is lifted. Then, the pressing of the locking metal fitting 34 is released, the drain valve 32 is closed, the drain tray 35 can be easily pulled out, and the waste water stored therein can be discarded into a kitchen or the like.

  39 is an umbrella-shaped shielding plate provided in the middle of the drive shaft 18 between the water storage chamber 8 through which the drive shaft 18 penetrates and the cover body 14, and the water leaked from the water storage chamber 8 is transmitted through the drive shaft 18 portion and driven. Intrusion into the motor 13 is prevented.

Reference numeral 40 denotes a water supply port cap of the water supply tank 9, and water is supplied from the water supply tank 9 to the constant water level chamber 10 by being pushed up by a fixed support (not shown) of an internal valve mechanism (not shown). is there.
41 is a tank lid that opens and closes when the water supply tank 9 is taken in and out, 42 is a handle for attaching and detaching the lid 2, 43 is a wind direction plate that is provided in the outlet 31 and changes the blowing direction of nanomist and negative ions, 44 Is an operation unit having various switches and displays provided on the front surface of the apparatus main body 1.

Next, in the nano mist and negative ion generator 1 of one embodiment shown in the drawings, an operation when used as a facial device will be described.
When an operation switch (not shown) of the operation unit 44 is turned on and the air volume is set weakly or slightly, the heater 22 is turned on and the water stored in the water storage chamber 8 is controlled to be heated, and the drive motor 13 is turned on. The mist operation which drives, generates nano mist and a negative ion, and discharges it from the blower outlet 31 is performed.

  During the mist operation, the blower 4 and the rotating body 17 that are coaxially fixed to the drive shaft 18 are driven to rotate by the drive motor 13, and in the rotation of the blower 4, the indoor air sucked from the suction port 3 is guided to the guide tube 5. After being guided and sucked, it is discharged below the processing chamber 7.

  On the other hand, in the rotation of the rotating body 17, the water stored in the heated water storage chamber 8 is pumped up by the rotation of the lower end of the rotating body 17, and is pushed up by the centrifugal force along the outer wall and the inner wall of the rotating body 17. The stored water pushed up along the outer wall of the body 17 is splashed outward, and the pushed-up water stored along the inner wall of the rotating body 17 is discharged outward from a plurality of splashing ports 19 formed at the upper end of the rotating body 17. The water stored in and scattered around is located on the outer periphery of the upper part of the rotating body 17 at a predetermined interval and collides with the porous part 21 of the porous body 20 that rotates together with the rotating body 17 and is crushed. What has passed through the porous portion 21 collides with the inner wall of the blower cylinder 6 on the outer periphery and is refined.

  At this time, the water stored in the water storage chamber 8 that is circular and has no resistance due to the rotation of the rotating body 17 tries to form a water flow that rotates in the same direction as the rotating body 17. 27 becomes a resistance in the water and the formation of a rotating water flow is prevented, so that the centrifugal force acts sufficiently and the water is pushed up on the peripheral wall of the rotating body 17 and is well crushed as described above. is there.

  Further, since the notches 29 are formed at two locations on the peripheral wall of the wave preventing body 24, the heat of the heater 22 is cut off and the heat is uniformly transferred to the entire water storage without interfering with the heating. The room environment can be obtained with a warm nanomist and negative ions and a good face.

  Further, nano mist is generated by crushing and refining the heated storage water, negative ions are generated by the Leonard effect, and the generated nano mist and negative ions are blown downward to the processing chamber 7 of the blower 4 to store the water storage chamber 8. After hitting the upper part and dropping and removing a large and heavy mist into the water storage chamber 8, only the fine nanomist and negative ions are discharged from the upper outlet 31 through the flow passage 30 and set in the blowing direction set by the wind direction plate 43. To be released.

  Next, in an operation in which air containing nano mist and negative ions is distributed throughout the room, such as a humidifier or an air purifier, the air volume changeover switch of the operation unit 44 is operated, and the blower 4 is operated with a high air volume. For example, nanomist and negative ions are blown out from the air outlet 31 as in the case of using a facial device, and can be distributed throughout the room to perform better humidification and air cleaning.

  In addition, when used as a facial device, the nano mist released from the air outlet 31 enters the face skin from the countless small pores on the face, enhances the water retention capacity of the skin and removes impurities in the skin. Ion removes the waste on the skin surface and makes it possible to regain beautiful and shiny skin, and it can be repeated every day while being relaxed and enjoyed mentally.

DESCRIPTION OF SYMBOLS 4 Blower 8 Reservoir 9 Water tank 13 Drive motor 17 Rotating body 20 Porous body 22 Heater 24 Wave breaker 27 Rotation prevention plate 29 Notch 31 Outlet

Claims (1)

  A water storage chamber for storing water from the water supply tank at a constant water level, a heater provided on the outer peripheral wall of the water storage chamber for heating the water storage in the water storage chamber, and a cylindrical rotating body whose lower end is submerged in the water storage in the water storage chamber; A cylindrical porous body located on the upper outer periphery of the rotating body, rotated by a drive motor together with the rotating body, and spattered by the centrifugal force generated by the rotation, In a device equipped with a nano mist generated when water is crushed and a blower that discharges negative ions into the room from the outlet, the water level in the reservoir is reduced by the rotation of the rotating body. A wave breaker equipped with a water anti-rotation plate for preventing water is provided, and a notch that does not hinder heat transfer to the water of the heater is formed on the peripheral wall of the wave breaker facing the heater. Nanomist and negative ion generation Location.

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