JP2009228944A - Humidifying device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a humidifying device suppressing generation of dew condensation by reducing humidification to an indoor space without reducing humidification of the air sucked by a person by breathing. <P>SOLUTION: An aspiration detecting section 15 detects aspiration of an object person P and outputs an aspiration signal, and an atomization device 20 switches atomizing motion or stop motion of the water atomized according to the aspiration signal. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a humidifier that atomizes a liquid and sprays it on a subject.

  2. Description of the Related Art Conventionally, a humidifier that sprays mist-like water onto an object such as a person is known. When spraying mist-like water continuously with this humidifier, condensation may occur when the room temperature is low, and there is a risk of mold forming on indoor furniture and the like, so various countermeasures have been considered.

  For example, Patent Document 1 discloses that a humidifier is provided with a timer device and the spray amount is reduced by stopping spraying after a predetermined time has elapsed. Further, Patent Document 2 discloses that a spray amount is adjusted by providing a humidity setting device that sets a target humidity. Furthermore, Patent Document 3 discloses that the amount of humidification is adjusted by intermittently dropping water droplets on the surface of the hot water pipe to evaporate the falling water droplets efficiently and naturally.

Non-Patent Documents 1 and 2 disclose that a large amount of air around the face is sucked when a person breathes.
JP 2005-274097 A JP 2004-324969 A JP-A-5-223294 Yang Xun Liang, three others, “CFD analysis of human respiratory air quality in a room with forced ventilation”, February 2002, Architectural Institute of Japan Kanto Branch Research Report I, [Searched on December 21, 2007], Internet <URL: http://venus.iis.u-tokyo.ac.jp/doc_happyo/database_pdf/2002/0203c10.pdf> Hiroshi Kasahara, 4 others, “CFD analysis of the microclimate around the human body and the inspiratory region at bedtime”, August 2002, Summary of the Annual Conference of the Architectural Institute of Japan, [Search on December 21, 2007], Internet < URL: http://venus.iis.u-tokyo.ac.jp/doc_happyo/database_pdf/2002/0208a38.pdf>

  However, since the conventional humidifier has a configuration in which the spray amount is simply reduced in order to prevent dew condensation, there is a possibility that air of a humidification amount necessary for humans may not be supplied. That is, if the air flowing into the trachea, which is a humidified part that is particularly important for humans, is dry, the mucous membrane is weakened and the ability to remove foreign substances from the outside is reduced. Therefore, as described in Non-Patent Documents 1 and 2, it is important to sufficiently spray the atomized water around the human face. Therefore, it has been desired to develop a humidifier capable of supplying a humidified amount of air necessary for humans while preventing condensation.

  The present invention has been made in view of the above points, and the object of the present invention is to reduce the amount of humidification into the indoor space without reducing the amount of humidification of the air that a person breathes and inhales, thereby generating condensation. It is providing the humidification apparatus which can be suppressed.

  In order to achieve the above-described object, the present invention detects a person's respiration, outputs a respiration signal, and sprays the liquid atomized intermittently according to the respiration signal.

  Specifically, the present invention is directed to a humidifier that atomizes and sprays a liquid, and has taken the following solutions.

That is, the first invention is a breath detecting means (15) for detecting the breath of the subject (P) and outputting a breath signal,
There is provided spraying means (20) for spraying liquid intermittently in accordance with a breathing signal output from the breathing detection means (15).

According to a second invention, in the first invention,
The spraying means (20) is configured to switch between a liquid spraying operation and a stopping operation in accordance with a breathing signal output from the breathing detection means (15).

According to a third invention, in the first or second invention,
The spray means (20) is provided on the head side of the bed (35) on which the subject (P) lies and is configured to spray liquid around the head of the subject (P). It is a feature.

4th invention is 1st or 2nd invention,
The breath detection means (15) is provided in a work chair (11) on which the subject (P) sits,
The spray means (20) is provided on the work chair (11) and a pair of work desks (12), and is configured to spray liquid around the head of the subject (P). It is what.

  According to the first invention, the respiration of the subject (P) is detected by the respiration detection means (15) and a respiration signal is output, and in accordance with the respiration signal, atomized water, that is, fine water droplets are generated. Since it is sprayed intermittently by the spraying means (20), the humidification amount of the air sucked by the subject (P) can be sufficiently secured while reducing the spray amount of the water droplets and lowering the humidity of the indoor space. That is, it is possible to suppress the occurrence of condensation and prevent mold from occurring in indoor furniture and the like, and to increase the amount of water droplets supplied to the subject (P). Moreover, if a water droplet is sprayed around the head of the subject (P) by the spraying means (20), the subject (P) can actively absorb the water droplet.

  Furthermore, since the amount of water used for humidification can be reduced by reducing the amount of water spray, the subject (P) can absorb the amount of water stored in the humidifier within a certain period of time. The minimum amount can be set and used up quickly, and bacteria can be prevented from breeding in the water stored in the humidifier.

  According to the second aspect of the invention, since the liquid spraying operation or the stop operation is switched according to the respiration signal output from the respiration detection means (15), for example, when the subject (P) inhales If the spraying operation is performed by the spraying means (20), the subject (P) can inhale the humidified air more efficiently.

  According to the third invention, the spray means (20) is provided on the head side of the bed (35) on which the subject (P) lies, and the liquid is sprayed around the head of the subject (P). The humidified air can be efficiently supplied to the sleeping subject (P).

  According to the fourth invention, the breathing detection means (15) is provided on the work chair (11), while the spray means (20) is provided on the work desk (12), and the liquid is placed around the head of the subject (P). Therefore, the humidified air can be efficiently supplied to the subject (P) who is working on the work chair (11) and the work desk (12).

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. It should be noted that the following description of the preferred embodiment is merely illustrative in nature and is not intended to limit the present invention, its application, or its use.

<Embodiment 1>
FIG. 1 is a schematic diagram illustrating configurations of a work chair (11) and a work desk (12) using the humidifier (1) according to Embodiment 1 of the present invention. As shown in FIG. 1, the humidifier (1) includes a respiration detector (15) that detects respiration of a subject (P) and outputs a respiration signal, and a spray device (20 for atomizing and spraying liquid) ).

  The respiration detector (15) detects respiration of the subject (P), and specifically, provided on the backrest portion and the seat portion of the work chair (11) on which the subject (P) sits. It is composed of a piezoelectric element, a pressure sensor, etc., and is configured to detect a pressure change accompanying body movement when the subject (P) breathes and output a breathing signal to the spray device (20). ing. Specifically, the respiration detection unit (15) outputs an on-state respiration signal when the subject (P) inhales, and outputs an off-state respiration signal when exhaled. .

  The spray device (20) sprays atomized water on the subject (P), is placed on the work desk (12), and sprays liquid around the head of the subject (P). Is configured to do. As shown in FIG. 2, the spray device (20) includes a storage tank (21), a spray nozzle (22) connected to the upper front portion of the storage tank (21), and a control unit that controls the spray operation. (23) and an ultrasonic transducer (24).

  The said storage tank (21) is comprised by the hollow container formed in the rectangular parallelepiped shape, and water is stored as the spraying liquid. A base end portion of a spray nozzle (22) communicating with the internal space is attached to the front surface of the storage tank (21). The spray nozzle (22) is formed of a stainless steel cylindrical tube, and is attached so as to protrude in a horizontal direction at a position higher than the liquid level of water stored in the internal space, and only the atomized water is spray nozzle (22 ).

  The ultrasonic transducer (24) is installed on the bottom surface of the storage tank (21) and is connected to an amplifier (25). That is, the ultrasonic transducer (24) is vibrated at the frequency of the ultrasonic band by being supplied with power from the amplifier (25), and gives ultrasonic vibration energy to the liquid in the storage tank (21). By doing so, the liquid in the storage tank (21) becomes fine water droplets and is supplied into the air, that is, sprayed.

  A control unit (23) is connected to the amplifier (25). That is, electric power is supplied from the amplifier (25) to the ultrasonic transducer (24) under the control of the control unit (23), and spraying is performed.

  The control unit (23) switches the operation of the ultrasonic transducer (24) in accordance with the respiration signal output from the respiration detection unit (15). Specifically, when the respiratory signal is on, that is, when the subject (P) is inhaling, the amplifier (25) is turned on to supply power to the ultrasonic transducer (24). Control. On the other hand, when the respiratory signal is off, the amplifier (25) is turned off and control is performed so that power is not supplied to the ultrasonic transducer (24).

  In addition, when the subject (P) is away from the work chair (11), the control unit (23) is configured to spray intermittently according to the breathing of the subject (P). ) Is controlled, and spraying is performed continuously. In this way, for example, even when the subject (P) is away from the work chair (11) and is in another place in the room, the humidity of the entire room can be adjusted appropriately, which is preferable.

-Driving action-
The operation of the humidifier (1) will be described. First, the respiration detection unit (15) detects the respiration of the subject (P). The breath detection unit (15) outputs an on-state breath signal when the subject (P) inhales, and outputs an off-state breath signal when exhaled.

  The respiration signal output from the respiration detection unit (15) is transmitted to the control unit (23) of the spray device (20). In the control unit (23), the operation of the ultrasonic transducer (24) is switched according to the on state or the off state of the respiratory signal. First, when the respiratory signal is on, the control unit (23) turns on the amplifier (25) and supplies power to the ultrasonic transducer (24). The water in the storage tank (21) is supplied into the air as fine water droplets by the vibration of the ultrasonic transducer (24). Here, since the spray device (20) orients the spray nozzle (22) to spray around the head of the subject (P), water droplets sprayed from the spray nozzle (22) In addition to being released, it is actively supplied around the head of the subject (P).

  On the other hand, when the respiratory signal is off, the control unit (23) turns off the amplifier (25) so that power is not supplied to the ultrasonic transducer (24). That is, control is performed so that water droplets are not sprayed from the spray nozzle (22).

  As described above, according to the humidifier (1) according to the first embodiment, the respiration of the subject (P) is detected by the respiration detection unit (15), and a respiration signal is output. Since atomized water, that is, fine water droplets, is intermittently sprayed by the spray device (20), the air that the subject (P) inhales while reducing the amount of water droplets sprayed and reducing the humidity of the indoor space A sufficient amount of humidification can be secured. That is, it is possible to suppress the occurrence of condensation and prevent mold from occurring in indoor furniture and the like, and to increase the amount of water droplets supplied to the subject (P). Moreover, if a water droplet is sprayed around the head of the subject (P) with the spray device (20), the subject (P) can be actively absorbed by the subject.

  In the first embodiment, the respiration detection unit (15) is configured with a piezoelectric element, a pressure sensor, or the like, and the respiration of the subject (P) is caused by a pressure change associated with body movement during the respiration of the subject (P). However, the present invention is not limited to this mode. For example, the breathing sound of the subject (P) is collected by a sound collecting microphone or the like, and the subject (P) exhales based on the breathing sound. You may make it detect the respiratory state whether it is in inhaling or inhaling.

<Embodiment 2>
FIG. 3 is a schematic diagram showing a configuration of a humidifier (2) according to Embodiment 2 of the present invention. The difference from the first embodiment is that the water in the storage tank (21) is atomized using a heater (31) instead of the ultrasonic vibrator (24). The same parts as those in the first embodiment are denoted by the same reference numerals, and only differences will be described.

  As shown in FIG. 3, the spraying device (20) of the humidifier (2) includes a storage tank (21), a spray nozzle (22) connected to the upper front of the storage tank (21), and a spraying operation. The control part (23) to control, a heater (31), and the on-off valve (32) attached to the front-end | tip of the spray nozzle (22) so that opening and closing is possible are provided.

  The heater (31) is disposed in the storage tank (21) and raises the temperature of the water in the storage tank (21) by being supplied with electric power from the outside. The water in the storage tank (21) is evaporated by the heater (31), and the storage tank (21) is filled with water vapor.

  The on-off valve (32) is attached to the tip of the spray nozzle (22) so as to be freely opened and closed. And the control part (23) is connected to the on-off valve (32). That is, the open / close state of the open / close valve (32) is controlled by the control of the control unit (23), and the spray of water vapor in the storage tank (21) is performed.

-Driving action-
The operation of the humidifier (2) will be described. First, electric power is supplied to the heater (31) to raise the temperature, and water vapor is generated in the storage tank (21). In the initial operation state, the on-off valve (32) is closed so that water vapor does not leak from the spray nozzle (22). Next, the respiration of the subject person (P) is detected by the respiration detector (15). The breath detection unit (15) outputs an on-state breath signal when the subject (P) inhales, and outputs an off-state breath signal when exhaled.

  The respiration signal output from the respiration detection unit (15) is transmitted to the control unit (23) of the spray device (20). The controller (23) switches the opening / closing operation of the opening / closing valve (32) according to the on / off state of the breathing signal. First, when the breathing signal is on, the controller (23) opens the on-off valve (32), and the water vapor in the storage tank (21) is supplied from the spray nozzle (22) into the air. Here, since the spray device (20) orients the spray nozzle (22) to spray around the head of the subject (P), water droplets sprayed from the spray nozzle (22) In addition to being released, it is actively supplied around the head of the subject (P).

  On the other hand, when the breathing signal is off, the controller (23) closes the on-off valve (32) so that water vapor in the storage tank (21) does not leak from the spray nozzle (22). To do.

<Embodiment 3>
FIG. 4 is a schematic diagram showing a configuration of a humidifier (3) according to Embodiment 3 of the present invention. Since the difference from the first embodiment is that the humidifier (3) is applied to the bed (35), the same parts as those in the first embodiment are denoted by the same reference numerals, and only the differences will be described.

  As shown in FIG. 4, the respiration detection unit (15) of the humidifier (3) is disposed on a bed body (36) such as a mattress on which the subject (P) lies, and the bed body (36) It is configured to detect a change in pressure associated with body movement when the subject (P) lying on the side breathes and to output a breathing signal to the spray device (20). The spray device (20) is attached to a headboard (37) provided on the head side of the bed body (36), and sprays atomized water around the head of the subject (P). It is configured.

  In addition, about the driving | running operation | movement of the humidification apparatus (3) comprised in this way, since it is the same as that of the said Embodiment 1, description is abbreviate | omitted.

  The control unit (23) of the spraying device (20) detects that the subject (P) is not lying on the bed (35) when the breathing detection unit (15) detects that the spraying device (20 ) Spraying operation is stopped. That is, when the target person (P) gets up and is no longer in the room, it is not necessary to adjust the humidity in the room, so the spraying operation is stopped so that the room is not humidified unnecessarily.

  In the third embodiment, the structure of the bed (35) to which the humidifier (3) is applied is not particularly limited. For example, the present invention can be applied to a bed with an air conditioner that is provided with an air conditioner in the headboard (37) and configured to air-condition the partitioned air conditioning target space.

  As described above, the present invention can provide a humidifier that can reduce the amount of humidification into an indoor space and suppress the occurrence of condensation without reducing the amount of humidification of air that a person breathes and inhales. Since it is possible to obtain highly effective effects, it is extremely useful and has high industrial applicability.

It is the schematic which shows the structure of the work chair using the humidification apparatus which concerns on Embodiment 1 of this invention, and a work desk. It is the schematic which shows the structure of a humidifier. It is the schematic which shows the structure of the humidification apparatus which concerns on this Embodiment 2. FIG. It is the schematic which shows the structure of the bed using the humidifier which concerns on this Embodiment 3. FIG.

Explanation of symbols

P Target audience
1 Humidifier
11 Work chair
12 Working desk
15 Respiration detector
20 Spraying device (spraying means)
35 beds

Claims (4)

A humidifying device for atomizing and spraying a liquid,
Breath detection means (15) for detecting the breath of the subject (P) and outputting a breath signal;
A humidifying device comprising: a spraying means (20) that sprays liquid intermittently in accordance with a breathing signal output from the breathing detection means (15). In claim 1,
The humidifying apparatus, wherein the spraying means (20) is configured to switch between a liquid spraying operation and a stopping operation in accordance with a breathing signal output from the breathing detection means (15). In claim 1 or 2,
The spray means (20) is provided on the head side of the bed (35) on which the subject (P) lies and is configured to spray liquid around the head of the subject (P). Humidifying device characterized. In claim 1 or 2,
The breath detection means (15) is provided in a work chair (11) on which the subject (P) sits,
The spray means (20) is provided on the work chair (11) and a pair of work desks (12), and is configured to spray liquid around the head of the subject (P). Humidifying device.

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