JP2013019652A - Air cleaning deodorizing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air cleaning deodorizing device for releasing minute water droplets and negative ions without dew condensation and without causing coldness to be felt thereby.SOLUTION: The air cleaning deodorizing device includes a water storage unit 10 for storing water, a heating means 13 for heating water in the water storage unit 10, water fragmentation means 26, 28, 33 for fragmenting hot water stored in the water storage unit 10 to generate minute water droplets and negative ions, and confining fungi and an odor in air, in the hot water, a blower 8 for supplying the minute water droplets and negative ions generated by the water fragmentation means 26, 28, 33, together with the clean air into a room, and a control means 56 for controlling the heating means 13, wherein the water storage unit 10 is provided with a water temperature detection sensor 47 for detecting water temperature, the temperature of the hot water is maintained to 20 °C to 30 °C by the control means 56, dew condensation in the room is prevented, and coldness of the clean air containing the released minute water droplets and negative ions is not felt.

Description

  This invention crushes the hot water stored in the water storage section to generate fine water droplets and negative ions, and at the time of this crushing, the microbes and odors in the indoor air are taken into the water, so that the fine water droplets and negative ions are brought into the room. The present invention relates to a large-sized air purifying and deodorizing apparatus that is used in a relatively large space such as a plaza of an elderly care facility or a waiting room of a hospital that can release air and clean and deodorize indoor air.

  Conventionally, in this kind of water, spraying water from the spray nozzle onto the rotating body breaks up the water, generates nano mist and negative ions of fine water droplets, and discharges it into the room by blowing indoor air from the blower. In addition, the room is made a refreshing atmosphere with nano mist and negative ions, and further, the indoor air passes through the crushed part of the water, so that dust, germs and odors in the air are mixed and removed in the water, and it is beautiful In combination with nanomist and negative ions, the room was kept in good condition. (See Patent Document 1.)

Japanese Patent No. 3051055

  By the way, in this conventional one, nano mist is discharged into the room using water at room temperature, but if the temperature inside the room is high and there is a temperature difference with the nano mist, condensation tends to occur and water droplets form on the ceiling and walls There is a problem that it adheres, and nano-mist and negative ions at room temperature feel cold when touched by human skin and have a problem that a comfortable atmosphere cannot be obtained.

  In order to solve the above-described problems, the present invention has a configuration in which, in particular, a water storage part for storing water, a heating means for heating water in the water storage part, and hot water stored in the water storage part are crushed to form fine water droplets. A water crushing means for generating negative ions and trapping bacteria and odors in the air in warm water, and a blower for supplying fine water droplets and negative ions generated by the water crushing means together with clean air into the room And a control means for controlling the heating means, wherein the water storage section is provided with a water temperature detection sensor for detecting the temperature of the water, and the hot water temperature is maintained at 20 ° C. to 30 ° C. by the control means. In addition to preventing dew condensation in the room, clean air containing fine water droplets and negative ions is prevented from feeling cold.

  As described above, according to the present invention, by maintaining the hot water temperature at 20 ° C. to 30 ° C., the nano mists and negative ions of the fine water droplets generated from the hot water maintain the room temperature equivalent, and there is no risk of condensation. It can be used with confidence, and since nano mist and negative ions are at room temperature or higher, it does not feel cold even if it touches human skin, and it is comfortable to the skin, disinfected and beautifully deodorized. The air is rich in negative ions and can always create a comfortable space.

BRIEF DESCRIPTION OF THE DRAWINGS The schematic block diagram of the air purifying deodorizing apparatus of one Embodiment of this invention. The cross-sectional view of the air cleaning deodorizing apparatus of the same embodiment. The longitudinal cross-sectional view of the air purifying deodorizing apparatus of the same embodiment. The horizontal sectional view of the air purification deodorizing device of the same embodiment. The block diagram of the principal part electric circuit of the same embodiment.

Next, an embodiment of the air cleaning deodorizing apparatus of the present invention will be described with reference to the drawings.
In FIG. 1, reference numeral 1 denotes an air purifying and deodorizing device housed in a body case 2 attached to a wall of a recreation room or the like of an elderly care facility. A suction port 3 for sucking indoor air is connected via a suction duct 4. A collective frame 6 is provided at the upper front portion of the apparatus to cover the nanomist of fine air and fine water droplets and an outlet 5 for negative ions. The collective frame 6 is provided with a blower through an outlet duct 7. 8 is in communication with a blower outlet 9 for blowing clean air discharged from the discharge port 5, nano mist of fine water droplets, and negative ions into the room.

Next, the air cleaning deodorizing apparatus 1 will be described with reference to FIGS.
10 is a water storage section for storing a certain amount of water, 11 is a water supply pipe connected to one side wall of the water storage section 10 for supplying water to the water storage section 10, and 12 is an automatic water supply provided in the middle of the water supply pipe 7 for opening and closing the water supply pipe 11. A valve 13 heats the water stored in the water storage unit 10, and is attached horizontally to the bottom of the water storage unit 10 near the bottom of the water storage unit 10 in a single-phase 200 V, 2 KW M-shape in plan view. Heating means comprising three heaters, 15 is an overflow pipe provided on one side wall of the water storage section 10, 16 is connected to the bottom of the water storage section 10 and heats water stored in the water storage section 10 or the heating means 13 A drain pipe 17 for draining the heated water is an automatic drain valve provided in the middle of the drain pipe 16 for opening and closing the drain pipe 16.

  Reference numeral 18 denotes a partition wall that divides the inside of the water storage unit 10 into two chambers, a treatment chamber 19 and a separation chamber 20, and the lower end is bent at the separation chamber 20 side, and the communication path 21 between the water surface is lowered to the vicinity of the water surface. It also serves as a gas-liquid separator that causes large mist (water droplets) in the air from the chamber 19 to the separation chamber 20 to fall on the water surface.

  The processing chamber 19 is inserted into the insertion hole 23 provided in the lid 22 of the water storage unit 10 by accommodating the lower half of the rotation motor 26 in the recess 25 of the waterproof cover 24. 27, a bowl-shaped rotating body 28 whose diameter is expanded upward by submerging the lower part, hangs down in the U-shaped part 14 farthest from the water supply pipe 7 of the heating means 13. The rotating body 28 is rotated by driving by the rotating motor 26, and the hot water in the water storage unit 10 heated by the heating means 13 by the centrifugal force is sucked along the surface and rather the back surface of the rotating body 28, Are scattered from the plurality of pores 29 formed to the periphery.

  A first baffle plate 30 in which the lower end of the partition wall 18 is inclined and bent toward the lower side of the separation chamber 20 and the side wall opposite to the partition wall 18 are inclined and attached to the separation chamber 20. A meandering path 32 is formed in the center portion from the lower communication passage 21 to the upper discharge port 5 so as to protrude alternately with the second baffle plate 31.

  Reference numeral 33 denotes a cylindrical porous body that is positioned on the outer periphery of the rotating body 28 with a predetermined interval and rotates together with the rotating body 28, and pumps up water in the water storage unit 10 by centrifugal force generated by the rotation of the rotating body 28. The air particles are scattered and the porous part 34 made of a large number of slits, metal mesh, punching metal, etc. formed on the entire peripheral wall of the porous body 33 is passed or collided to crush it, thereby refining the water particles to nanometers. (Nm) size fine water droplets are generated and negative ions are generated by the Leonard effect due to the refinement of the water particles. A rotating motor 26 for rotating the rotating body 28, a rotating body 28, The water crushing means is composed of the porous body 33 that rotates together with the rotating body 28.

  Reference numeral 35 denotes an elliptical air guide tube arranged to cover the porous body 33 at a predetermined interval on the outer periphery of the porous body 33, and a pair of large flow passages 36 between the cylindrical porous body 33. , 36 and a pair of small flow passages 37, 37 are provided on the inner lid 38 that closes the upper side of the processing chamber 19, and the blower 8 communicates with the discharge port 5 at the top of the separation chamber 20. The interior air sucked from the air supply port 39 between the lid 22 and the inner cover 38 through the suction duct 4 is driven, and the air supply port 39 is connected to the suction duct 4 on one side wall. The air guide cylinder 35 is introduced into the air supply chamber 40 formed in the space between the lid 22 and the inner lid 38 from above the rotating body 28 toward the process chamber 19 from the air supply chamber 40 above the process chamber 19. Inflowing into the inside increases the number of times the water particles are crushed and also increases the negative charge of the air. As a result in which the Nanomisuto and negative ions of nanometer size can be mass-produced.

  The air guide tube 35 is provided with a flange portion 41 projecting inwardly on the inner peripheral edge thereof, and the flange portion 41 is configured such that water is pumped up from the water storage portion 10 by centrifugal force due to the rotation of the rotating body 28, and the porous body 33. The water splashed through the air guide cylinder 35 and splashed back into the air guide cylinder 35 scatters in an unintended location, for example, in the vicinity of the connection portion between the rotation motor 26 fixed to the lid 22 and the support shaft 27 or in the air supply chamber 40. In order to prevent this, it is provided at a height position above the upper surface of the rotating body 28.

  42 is composed of two float switches 43 and 44 as water level detection means provided at the bottom of the water storage unit 10 and outputting a detection signal when there is water or hot water in the water storage unit 10. The detection means outputs a detection signal when there is water up to a predetermined water level that is not exposed on the surface of the water, and the float switch 44 is water stored in the water storage section 10. When the float switch 43 reaches a predetermined water level that is higher than the water level for detecting the presence of water, a detection signal is output. When the water level drops to a predetermined level that is not exposed to the top, the low water level detection float switch 43 is turned off, the automatic water supply valve 12 is opened to supply water to a certain level, and When the water storage unit 10 reaches a predetermined water level and the high water level detection float switch 44 is turned ON, the automatic water supply valve 12 is closed, and the water storage unit 10 is always within the predetermined water level range during operation of the apparatus. It is to hold.

  45 is a U-shaped protective frame that protects the two float switches 43, 44 so as not to be affected by fluctuations in the water level of the water storage section 10, and has a frame that projects from the front and both sides to the water surface, The two float switches 43 and 44 are surrounded by one side wall of the water storage unit 10, and the two float switches 43 and 44 are suspended and fixed on the upper surface.

  Reference numeral 46 denotes a room temperature detection sensor attached to an air supply port 39 that constitutes an air supply path together with the suction duct 4, and detects the current room temperature from the sucked room air and displays the current room temperature on a remote controller to be described later. .

  Further, the indoor air that has flowed into the air cleaning and deodorizing apparatus 1 from the air supply port 39 passes through fine water droplets and negative ions generated by being crushed by the water crushing means in the processing chamber 19. Dust, bacteria, odors, and the like are taken into the stored water, and the temperature is just high with clean air that has been sterilized and deodorized, and is supplied into the room together with the nanomist and negative ions from the air outlet 9.

  47 is a water temperature detection sensor for detecting the temperature of water stored in the water storage unit 10 provided at a predetermined water level at the lower outer wall of the water storage unit 10 and heated by the heating means 13, and 48 is also provided at a predetermined water level on the lower outer wall of the water storage unit 10. The overheat prevention sensor secures safety by stopping all driving when the water storage section 10 is in an abnormal overheat state.

  Next, as shown in FIG. 1, reference numeral 49 denotes a remote controller for remotely operating the air purification deodorizing apparatus 1, and the remote controller 49 displays a set hot water temperature display for displaying the set water temperature of the water storage unit 10 set by the user himself / herself. Unit 50, the set hot water temperature display unit 50 can be set to change the set water temperature with the setting switch 51, and the setting change switch 52 including an up / down switch for setting the set water temperature and the detection by the room temperature detection sensor 46 A current room temperature display unit 53 for displaying the indoor temperature and an operation switch 54 for turning on / off the air cleaning deodorizing apparatus 1 are provided.

  55 is an analog operation tammer that sets the operation continuation time of the air purifying and deodorizing apparatus 1, and here it is operated continuously for 14 hours from 8:00 am to 10:00 pm to maintain the indoor environment comfortably. is there.

  Next, the block diagram of the main electric circuit shown in FIG. 5 will be described. Reference numeral 56 denotes a control means for controlling the drive of the air purifying deodorizing apparatus 1 having functions such as storage, calculation, and counting. The remote controller 49 and the operation timer 55 are communicably connected via a signal line (not shown). Float switches 43 and 44, a room temperature detection sensor 46, A water temperature detection sensor 47 and an overheat prevention sensor 48 are connected. On the output side, a blower 8, an automatic water supply valve 12, a heating means 13, an automatic drain valve 17, and a rotation motor 26 are provided. It is connected.

Next, the operation of one embodiment of the air cleaning deodorizing apparatus 1 will be described.
When the operation switch 54 of the remote controller 49 is turned on now, the blower 8, the heating means 13, and the rotation motor 26 are started to be driven. 39 is sucked into the air purifying and deodorizing apparatus 1 and flows into the processing chamber 19, and then flows into the processing chamber 19. The water in the water storage unit 10 is pumped up and air is scattered, and the porous part 34 made of a large number of slits, metal nets, punching metal, etc. formed on the entire peripheral wall of the porous body 33 is allowed to pass through or hit and crushed. The water particles are refined to produce nano mist, and negative ions are generated by the Leonard effect of the water particles.

  Furthermore, the indoor air that has flowed into the processing chamber 19 passes through the fine water droplets and negative ions that are generated by being crushed by the above-described water crushing means in the processing chamber 19, thereby causing dust, bacteria, odors, etc. in the air. Is taken into the storage water to produce clean air that is sterilized and deodorized, and nanomist and negative ions pass through the meandering passage of the separation chamber 20 together with this clean air, so that relatively large particles The water drops are naturally dropped and removed here, gathered in the collecting frame 6 from the discharge port 5, and discharged from the blowout duct 7 through the blower 8 into the room wider than the blowout port 9, so that the room is beautiful. Air, nano mist and negative ions are supplied to create an exhilarating atmosphere, and the indoor air flows into the processing chamber 19 in sequence, so that dust, bacteria, odors, etc. in the air gradually. It is removed, and finally in which entire room sterilization, with filled with deodorized clean air, good room which holds the Nanomisuto and negative ions is maintained.

  In addition, the water stored in the water storage unit 10 that generates nano mist and negative ions is energized through the control unit 56 when the operation switch 54 is turned on and the heating unit 13 submerged in the water of the water storage unit 10 is energized to heat the water storage. The hot water temperature is maintained at a temperature of 20 ° C. to 30 ° C. Here, the set temperature is set to 25 ° C., and the detected temperature of the water temperature detection sensor 47 provided in the water storage unit 10 is less than 25 ° C., the control means 56 The heating means 13 is turned on via the control means and energized. When the detected temperature is 25 ° C. or higher, the heating means 13 is turned off via the control means 56 and the energization is stopped, and the water storage temperature is maintained at the set temperature of 25 ° C. Unlike the conventional room temperature release, even if nano mist and negative ions released into the room come into contact with humans, the room is always air-conditioned. Even when a constant room temperature is set around 28 ° C, the temperature difference between the nanomist and room temperature is eliminated to prevent the formation of condensation and to prevent water droplets from adhering to walls, ceilings and windows. It also has the effect of maintaining a comfortable atmosphere. If the hot water temperature is less than 20 ° C, the temperature will be too low and you will feel cold. Conversely, if the hot water temperature exceeds 30 ° C, it will be too hot. Thickness is felt, and the warm water temperature is in the range of 20 ° C to 30 ° C.

  On the other hand, when the 14-hour air cleaning and deodorizing operation by the operation timer 55 is completed, the cleaning mode is started. In this cleaning mode, the automatic drain valve 17 that opens and closes the drain pipe 16 that drains hot water in the water storage unit 10 is opened, and the automatic water supply valve 12 that opens and closes the water pipe 10 that feeds water into the water storage unit 10 is opened. In other words, water is supplied into the water storage unit 10, and dust, dust, bacteria, etc. remaining on the bottom of the water storage unit 10 are washed and drained.

  When the cleaning mode is completed, the mode is changed to the sterilization mode. In this sterilization mode, the automatic water supply valve 12 is opened to supply a predetermined amount of water, and then disposed near the bottom of the water storage unit 10. The heating means 13 provided is energized to heat the water in the water storage unit 10 to a sterilizable temperature of 70 ° C., and the rotation motor 26 for rotating the rotating body 28 is driven to be stored in the water storage unit 10. The rotator 28 that sterilizes water and pumps up hot water heated from the water storage unit 10, the porous body 33 that is arranged on the outer periphery of the rotary body 28 and rotates together with the rotator 28, and the porous body 33 are disposed. Dust, dust, bacteria, etc. adhering to the air guide cylinder 35 are washed away to make it clean, and the rotating body 28, the porous body 33 and the air guide cylinder 35 are automatically sterilized and sterilized.

  In addition, the negative ions have fatigue recovery effect, mental stability effect, blood purification effect, resistance enhancement effect, autonomic nerve adjustment effect, etc. Furthermore, the fine water droplets of nano mist spread to every corner in the air. It suppresses air and bacteria and decomposes odors even now. It has deodorizing effect, dust removing effect, disinfecting effect, and of course humidifying effect. This humidification is smooth and moist air with no stickiness. It has the effect of keeping the skin and hair moisturized.

DESCRIPTION OF SYMBOLS 1 Air clean deodorizing device 8 Blower 10 Water storage part 13 Heating means 26 Motor for rotation (Water crushing means)
28 Rotating body (water crushing means)
33 Porous body (water crushing means)
47 Water temperature detection sensor 56 Control means

Claims (1)

  A water storage section for storing water, heating means for heating the water in the water storage section, and crushing the hot water stored in the water storage section to generate fine water droplets and negative ions, and A water crushing means confined inside, a blower for supplying fine water droplets and negative ions generated by the water crushing means together with clean air into the room, and a control means for controlling the heating means. The water storage section is provided with a water temperature detection sensor for detecting the temperature of the water, and the hot water temperature is maintained at 20 ° C. to 30 ° C. by the control means to prevent dew condensation in the room, and the discharged fine water droplets and minus An air purifying deodorizing device characterized by preventing the clean air containing ions from feeling cold.

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