JP5192709B2 - Hand dryer - Google Patents

Description

  The present invention relates to a hand dryer.

  In recent years, hand dryers installed in washrooms and the like are known that not only dry hands but also allow hand sterilization at the same time. Proposal for sterilization of bacteria attached to the hands by, for example, providing a hand dryer with an ultraviolet irradiation device and irradiating the hand with ultraviolet rays from this ultraviolet irradiation device. (For example, refer to Patent Document 1).

However, in the above example, there is a problem that effective sterilization cannot be performed in a portion that is shaded from the irradiation position of ultraviolet rays, and moisture in the skin is also taken away simultaneously by the drying wind that dries the hand. There was also a problem that the skin became dry with insufficient moisture.
JP 2005-177415 A

  The present invention has been made in view of the above points, and the object of the present invention is that the hand can be dried while the skin is moisturized, and at the same time, sterilization is applied to every corner of the hand. It is an object to provide a hand dryer that can be used.

In order to solve the above problems, in the hand dryer according to claim 1, the hand insertion recess 11 having the hand insertion port 10, the drying air outlet 8 provided in the vicinity of the hand insertion port 10 , a blower 4 for generating a drying air blown from the air outlet 8, Te hand dryer 1 odor with a static atomizing device 2 for generating a mist of mist provided, mist emission port for emitting the atomized mist 13 Is disposed in the depth of the manual insertion recess 11 from the blowout port 8, and the electrostatic atomizer 2 operates during the blowing operation of the drying air to generate atomization mist . According to this, in the hand insertion recess 11 , the hand can be dried by the drying wind, and the sterilization effect, the deodorization effect and the moisturizing effect are applied to the corners of the hand by the atomization mist that reaches the inside of the hand insertion recess 11. Ru can be made to act. Further, the atomized mist discharged from the outlet 8 at the back of the hand insertion recess 11 is blocked by the drying air near the hand insertion port 10 so as not to diffuse out of the hand insertion recess 11. The atomization mist can be kept at a high concentration inside, and various effects of the atomization mist can be effectively imparted into the hand or the hand insertion recess 11. In particular, since the hand is inserted from the hand insertion port 10 into the back of the hand insertion recess 11, the atomized mist can be efficiently infiltrated into the hand after being dried with the drying air near the hand insertion port 10. Therefore, a moisturizing effect can be effectively provided. That is, in addition to being able to sterilize every corner of the hand compared to the conventional case, it is also possible to impart a moisturizing effect by the atomized mist that has penetrated into the skin.

  The hand dryer according to claim 2 is characterized in that, in claim 1, the electrostatic atomizer 2 is disposed in the vicinity of the air outlet 8. According to this, the atomization mist released from the electrostatic atomizer 2 is joined to the drying wind and reaches the hand. At the same time as the drying, the atomization mist disinfects, deodorizes and moisturizes. Can be given to the hand.

The hand dryer according to claim 3 further comprises hand detecting means 12 for detecting that the hand is positioned in the hand insertion recess 11 according to claim 1 or 2 , and the hand detecting means 12 An atomizing device control unit 22 that operates the electrostatic atomizing device 2 for a predetermined time after detection is stopped is provided. According to this, the bactericidal effect and the deodorizing effect by the atomization mist can be provided with respect to the inside of the manual insertion recessed part 11 after use.

Further, in the hand dryer according to claim 4, in any one of claims 1 to 3, the electrostatic atomizer 2 has a Peltier element 17 for obtaining condensed water as atomizing water, and the hand dryer is installed. A peltier control unit 24 is provided that operates the peltier element 17 based on a detection signal from the human body detecting means 25 provided at the place B to generate a predetermined amount of water for atomization. According to this, when the dryer user enters the hand dryer installation place B, the water for atomization can be generated in advance, and the atomization mist can be surely generated simultaneously with the drying of the hand. Various effects of atomization mist can be reliably imparted to the user's hand.

Further, in the hand dryer according to claim 5, in claim 4 , the current value detecting means 28 for detecting the current value flowing when a high voltage is applied to the discharge electrode 15 for generating the atomized mist. The Peltier control unit 24 intermittently applies a high voltage to the discharge electrode 15, and changes the amount of current supplied to the Peltier element 17 based on the current value detected by the current value detection means 28 to cool the Peltier control unit 24. A Peltier energization adjusting unit 29 for changing the strength is provided. According to this, it is possible to generate a predetermined amount of water for atomization by intermittently applying a high voltage to the discharge electrode 15, thereby reducing the power consumption of the electrostatic atomizer 2 and thus the hand dryer 1. Can be achieved.

Further, the hand dryer according to claim 6 includes the temperature detecting means 31 and the humidity detecting means 32 for detecting the temperature and humidity of the hand dryer installation place B according to claim 4 or 5 , and the Peltier control unit 24. Further, based on the dew point temperature determined by the temperature detected by the temperature detecting means 31 and the humidity detected by the humidity detecting means 32, a Peltier energization adjusting unit that changes the energization amount to the Peltier element 17 to change the cooling strength. 29 is provided. According to this, it is possible to generate a predetermined amount of water for atomization without applying a high voltage to the discharge electrode 15, and power saving of the electrostatic atomizer 2, and hence the hand dryer 1 can be achieved. it can.

Further, in the hand dryer according to claim 7, energization stop control for stopping energization of the electrostatic atomizer 2 in the case of any of claims 4 to 6 when there is no detection signal from the human body detection means 25. A feature is that a portion 33 is provided. According to this, when there is no dryer user at the hand dryer installation site B, it is possible to eliminate the energization of the Peltier element 17 and the application of a high voltage to the discharge electrode 15, so that the electrostatic atomizer 2 and eventually Power saving of the hand dryer 1 can be achieved.

  The present invention has the advantage that the hand can be dried while the skin is moisturized, and at the same time, sterilization can be applied to every corner of the hand.

  Hereinafter, the present invention will be described based on embodiments shown in the accompanying drawings.

  1 to 4 show a hand dryer 1 according to an embodiment of the present invention. The hand dryer 1 includes a main body 1a with a drying wind generator 3 for generating drying wind and an electrostatic atomizer 2 for generating atomization mist. The drying wind generator 3 includes a blower 4 that generates wind, a nozzle 5 that is connected to the blower 4 and has a tip serving as a wind outlet 8, and a heater 7 that heats the wind of the blower 4. The nozzle 5 is a wind tunnel 6 having an air passage inside, and the heater 7 is disposed in the wind tunnel 6. The hand dryer 1 of this example is a drying area A in which the lower space of the main body 1a dries the hand, and the air outlet 8 opens toward the drying area A (that is, downward from the main body 1a). The drying air generated by the blower 4 and heated by the heater 7 can be blown out from the blowout port 8 toward the drying region A. Here, the main body 1a is provided with hand detection means 12 for detecting a hand located in the drying area A, and the dryer control unit 20 uses the detection signal from the hand detection means 12 to detect the drying wind generating device 3. Actuation is made.

  As shown in FIG. 4, the electrostatic atomizer 2 includes a discharge electrode 15 formed of a material excellent in thermal conductivity and conductivity (made of metal in this example), and a counter electrode 16 facing the discharge electrode 15. A discharge electrode energization circuit 14 for applying a high voltage between the discharge electrode 15 and the counter electrode 16; a Peltier element 17 for supplying atomizing water to the discharge electrode 15; and a Peltier energization circuit 18 for energizing the Peltier element 17. Is a unit that is integrally provided. Here, the discharge electrode 15 is connected to the cooling side of the Peltier element 17, and the discharge electrode 15 is cooled and moisture in the air is condensed on the surface of the discharge electrode 15 in contact with the air, so that the tip of the discharge electrode 15 is condensed. Atomizing water (condensation water) can be supplied. On the other hand, a heat radiating fin 19 is connected to the heat radiating side of the Peltier element 17 so that heat can be efficiently radiated.

  According to this electrostatic atomizer 2, nanometer-sized atomized mist (charged fine particle mist) can be generated. That is, the atomizing water supplied to the tip of the discharge electrode 15 is charged by the voltage applied between the discharge electrode 15 and the counter electrode 16, and the Coulomb force acts on the charged atomization water. The level of the atomizing water supplied to the tip swells up into a cone with a pointed tip locally (Taylor Cone), and the charge is concentrated and densified at the tip of the Taylor cone. Nanometer-sized mist with active species (substances that can be deodorized and sterilized, such as hydroxy radicals and superoxides) by repeating water splitting and scattering (Rayleigh splitting) due to the repulsive force of charge Generation of chemical mist is performed. The generated atomized mist is in a charged state according to the sign of the voltage applied to the discharge electrode 15, and can be made into, for example, a negative ion mist that easily adheres to dust or the like that tends to be positively charged.

  Although the electrostatic atomizer 2 of the present example includes the counter electrode 16, the counter electrode 16 is not always necessary, and the atomization mist only has to be applied to the discharge electrode 15 with respect to the ground potential. Can be generated. Further, in the electrostatic atomizer 2 of this example, the discharge electrode 15 is directly connected to the cooling side of the Peltier element 17 to generate dew condensation water on the surface of the discharge electrode 15. A condensed water generating member that generates condensed water may be interposed between the discharge electrode 15 and the condensed water generated by the condensed water generating member. In this case, a water reservoir for collecting the condensed water generated in the condensed water generating member is provided, or the discharge electrode 15 is made of a porous material such as ceramic so that water can be sucked up by a capillary action and conveyed toward the tip. May be.

  As described above, the atomized mist generated from the atomizing water and in a charged state rides on the lines of electric force generated by the voltage applied between the discharge electrode 15 and the counter electrode 16, and is the central opening of the counter electrode 16. It is discharged from the mist discharge port 13 toward the tip of the discharge electrode 15 (arrow a in FIG. 4). Here, the electrostatic atomizer 2 is internally provided in the main body 1a so that the mist discharge port 13 faces the drying region A, and the atomizing mist is discharged toward the drying region A. . Specifically, in this example, the electrostatic atomizer 2 is disposed in the vicinity of the air outlet 8, and the atomization mist discharged from the electrostatic atomizer 2 is merged with the drying air to ensure the drying region. It is supposed to reach A.

  Thus, in addition to the drying wind from the drying wind generator 3, the atomized mist from the electrostatic atomizer 2 is supplied to the drying area A. Atomized mist is an active species that has a high effect on decomposition of malodorous components and suppression of mold generation due to its high reactivity, but has a short life when it exists alone. In other words, it is possible to extend the life of the active species by encapsulating the active species in water molecules, and as described above, the nanometer size is very small, so it can float in the air for a long time and has high diffusivity, so it is dry. The atomized mist can be diffused without any corners in the region A, and the atomized mist can be adhered to the hand located in the dry region A, and the deodorizing effect and the sterilizing effect by the active species can be exerted. In addition, the atomized mist is a nanometer-size mist. When the atomized mist adheres to the surface of the skin of the hand, moisture can penetrate into the skin of the skin, and a moisturizing effect can be provided to the user's hand. That is, in the hand dryer 1 of this example, in addition to being able to sterilize every corner of the hand compared to the conventional case, it is also possible to provide a moisturizing effect by the atomized mist that has penetrated into the skin. ing.

  Here, FIG. 2 shows a schematic control block diagram of the hand dryer 1 of this example. The dryer control unit 20 that controls the operation of the hand dryer 1 includes a drying device control unit 21 that controls the operation of the drying wind generator 3, and an atomizer control unit 22 that controls the operation of the electrostatic atomizer 2. have. The atomizer control unit 22 is connected to the discharge electrode energizing circuit 14 and controls the energization of the discharge electrode 15. The atomizer control unit 22 is connected to the Peltier energization circuit 18 and controls the energization of the Peltier element 17. And a Peltier control unit 24. As shown in FIG. 3, the hand dryer 1 of this example is installed in a washroom or the like, but a hand detection unit 25 for detecting the presence or absence of a person in the place is provided in a hand dryer installation site B such as the washroom. The human body detection means 25 is connected to the dryer control unit 20. In the figure, 26 is a basin, and 27 is an entrance / exit. The dryer control unit 20 is also connected to the hand detection means 12 described above. Note that an infrared sensor or an ultrasonic sensor can be suitably used for the human body detection means 25 and the hand detection means 12.

  When the dryer control unit 20 receives the detection signal from the hand detection means 12 as described above, the drying wind is generated by the drying wind generator 3 via the drying device control unit 21 and the atomizing device control unit 22. An atomizing mist is generated in the electroatomizer 2.

  When the dryer control unit 20 receives the detection signal from the human body detection means 25, the Peltier device 17 is operated via the Peltier control unit 24 of the atomization device control unit 22 to generate a predetermined amount of atomizing water. It is supposed to be. Although it takes some time to generate condensed water due to cooling of the Peltier element 17, as described above, when the dryer user enters the hand dryer installation site B, the water for atomization is generated in advance. Thus, the atomization mist can be surely generated simultaneously with the subsequent drying of the hand, and the effects of the atomization mist can be reliably imparted to the hand of the dryer user.

  Specifically, the electrostatic atomizer 2 of the present example is provided with a current value detection means 28 for detecting a current value that flows when a high voltage is applied to the discharge electrode 15 to generate atomization mist. The current value detection means 28 is connected to the Peltier control unit 24. The generation of the predetermined amount of atomizing water causes the atomizer control unit 22 to intermittently apply a high voltage to the discharge electrode 15 via the discharge control unit 23, and detection by the current value detection means 28 at that time. Based on the current value, the Peltier energization adjustment unit 29 provided in the Peltier control unit 24 changes the energization amount to the Peltier element 17 and changes the cooling strength of the Peltier element 17. That is, the detected current value of the current value detecting means 28 increases or decreases depending on the amount of atomizing water at the discharge electrode 15, and detection by the current value detecting means 28 that indicates that an appropriate amount of atomizing water is present at the discharge electrode 15. By controlling the energization of the Peltier element 17 by the Peltier energization adjusting unit 29 so as to obtain a current value, and increasing or decreasing the generation output of the condensed water, the control based on the amount of water for atomization of the discharge electrode 15 is performed. It is. According to this, it is possible to generate a predetermined amount of water for atomization by intermittently applying a high voltage to the discharge electrode 15, thereby reducing the power consumption of the electrostatic atomizer 2 and thus the hand dryer 1. Is planned.

  Further, when the dryer control unit 20 does not receive the detection signal from the hand detection means 12 by pulling a hand from the drying area A, the drying wind from the drying wind generator 3 is stopped via the drying device control unit 21. However, the atomization mist from the electrostatic atomizer 2 is continuously discharged to the dry region A for a certain period of time after passing through the timer 30 provided in the atomizer controller 22. Has been. That is, it is possible to impart a sterilizing effect and a deodorizing effect by the atomized mist to the dry area A after use.

  Further, when the dryer control unit 20 does not receive the detection signal from the human body detection means 25 due to the dryer user leaving the hand dryer installation site B or the like, the energization stop control unit 33 provided in the dryer control unit 20 is electrostatically atomized. The energization of the device 2 is stopped, and power saving of the electrostatic atomizing device 2 and the hand dryer 1 is achieved.

  Hereinafter, other examples of the embodiment of the present invention will be listed. The same parts as those of the previous example are denoted by the same reference numerals, description thereof will be omitted, and different points will be described.

  The hand dryer 1 of FIG. 5 has a drying area A in the main body 1a. That is, a bottomed concave hand insertion recess 11 having a hand insertion opening 10 that opens upward is formed in the main body 1a, and the inside of the hand insertion recess 11 is a dry region A. The blower outlet 8 is provided in the vicinity of the hand insertion opening 10 of the hand insertion recess 11, and the electrostatic atomizer 2 is disposed behind the hand insertion recess 11 from the blower outlet 8. Since the atomized mist discharged from the outlet 8 on the back side of the hand insertion recess 11 is blocked by the drying air near the hand insertion port 10 and does not diffuse out of the hand insertion recess 11, the drying region The atomized mist can be kept at a high concentration in A, and various effects of the atomized mist can be effectively applied to the hand, the dry region A, and the inner wall surface of the hand insertion concave portion 11 facing this. . In particular, as shown in FIG. 6, the hand is inserted from the hand insertion port 10 into the back of the hand insertion recess 11, and the atomized mist efficiently penetrates into the hand after drying in the vicinity of the hand insertion port 10. Therefore, a moisturizing effect can be effectively imparted. In other words, the skin of the undried hand is covered and covered with water (cross-hatched part in the figure), and the attached and covered water takes in atomized mist, which is a small water molecule. This is a hindrance to the permeation of the atomized mist from the skin surface, but the dried hands that have been able to expose the skin surface by removing the water attached and covered as described above. By making the atomized mist adhere, an effective water retention effect on the skin can be expected. Although not shown, the electrostatic atomizer 2 may be disposed in the back of the manual insertion recess 11, and the above-described effects can be obtained in the same manner.

  The hand dryer 1 of FIG. 7 has a temperature detection means 31 and a humidity detection means 32 for detecting the temperature and humidity of the hand dryer installation place B, and using these means, the human body of the human body detection means 25 by the Peltier control unit 24 is used. A predetermined amount of atomizing water at the time of detection is generated. Specifically, as shown in FIG. 8, the temperature detection means 31 and the humidity detection means 32 are connected to the Peltier control section 24, and the Peltier control section is based on the temperature detected by the temperature detection means 31 and the humidity detected by the humidity detection means 32. The dew point temperature is calculated by the dew point calculation unit provided in 24, and the energization amount to the Peltier element 17 is changed by the Peltier power supply adjustment unit 29 provided in the Peltier control unit 24 based on the calculated dew point temperature. The predetermined amount of atomizing water is generated by changing the cooling strength. That is, by determining the dew point at which the dew condensation water is generated, it is possible to appropriately control the energization to the Peltier element 17 according to the hand dryer installation site B, and it is possible to generate an appropriate amount of dew condensation water. . According to this, it is possible to generate a predetermined amount of water for atomization without applying a high voltage to the discharge electrode 15 as in the previous example, and the power saving of the electrostatic atomizer 2 and thus the hand dryer 1 can be achieved. It is planned.

It is side sectional drawing of the hand dryer of the example of embodiment of this invention. It is a general | schematic control block diagram of a hand dryer same as the above. It is a top view of the hand dryer installation place which installed the hand dryer same as the above. It is a sectional side view of an electrostatic atomizer same as the above. It is side sectional drawing of the hand dryer of the other example of embodiment of this invention. It is explanatory drawing explaining the use condition of a hand dryer same as the above. It is side sectional drawing of the hand dryer of the further another example of embodiment of this invention. It is a general | schematic control block diagram of a hand dryer same as the above.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Hand dryer 2 Electrostatic atomizer 3 Drying wind generator 4 Blower 5 Nozzle 6 Wind tunnel 7 Heater 8 Air outlet 10 Hand insertion port 11 Hand insertion recessed part 12 Hand detection means 17 Peltier element 20 Dryer control part 22 Atomization device control Unit 24 Peltier control unit 25 Human body detection means 28 Current value detection means 29 Peltier energization adjustment part 31 Temperature detection means 32 Humidity detection means A Drying area B Hand dryer installation place

Claims (7)

Hand insertion recess having a hand insertion opening, Te hand dryer odor with a drying air outlet provided in the vicinity, a blower for generating the drying air blown from the air outlet, a hand insertion opening, atomization An electrostatic atomizer that generates mist is provided, and a mist discharge port that discharges the atomized mist is disposed at the back of the manual insertion recess from the air outlet, and the electrostatic atomizer is configured to blow air for drying. A hand dryer that operates during operation to generate atomized mist . The hand dryer according to claim 1, wherein an electrostatic atomizer is disposed in the vicinity of the air outlet. It has hand detection means for detecting that the hand is located in the hand insertion recess, and has an atomizing device control unit that operates the electrostatic atomizing device for a predetermined time after the hand is not detected by the hand detection means. The hand dryer according to claim 1 or 2, wherein The electrostatic atomizer has a Peltier element that obtains dew condensation water as atomizing water, and activates the Peltier element based on the detection signal from the human body detecting means provided at the hand dryer installation place to generate a predetermined amount of atomizing water. hand dryer according to any one of claims 1 to 3, further comprising a Peltier controller to generate. It has a current value detection means for detecting a current value that flows when a high voltage is applied to the discharge electrode to generate atomized mist, and the Peltier control unit intermittently applies a high voltage to the discharge electrode. 5. The hand dryer according to claim 4, further comprising a Peltier energization adjustment unit that changes the amount of energization to the Peltier element to change the cooling strength based on the current value detected by the current value detecting means. Based on the dew point temperature determined by the temperature detected by the temperature detecting means and the detected humidity by the humidity detecting means in the Peltier control unit. The hand dryer according to claim 4, further comprising a Peltier energization adjustment unit that varies the energization amount to the Peltier element to change the cooling strength. The hand dryer according to any one of claims 4 to 6, further comprising an energization stop control unit that stops energization of the electrostatic atomizer when there is no detection signal from the human body detection means.

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