JP5824633B2 - Hand dryer - Google Patents

Description

  The present invention relates to a hand drying device that dries a wet hand after washing a hand in a washroom or a toilet.

  Conventionally, as a device for drying wet hands after washing, a fan motor for sending a high-speed jet is used to eject a high-speed air stream from a nozzle to a drying chamber for inserting and drying the hand. There is known a hand-drying device that blows off water droplets adhering to the surface and dries them (see, for example, Patent Document 1).

JP 2009-039270 A

  In such a conventional hand drying apparatus, when the plurality of nozzles are vibrated by self-excitation, a mechanism in the horizontal direction and the vertical direction are required, and there is a problem that the mechanism becomes large.

  The present invention solves such a conventional problem, and an object of the present invention is to provide a hand-drying device that can be made compact without increasing the size of a self-excited vibration even when a plurality of nozzles are self-excited. And

  In order to achieve the above object, the hand drying device of the present invention has a suction port that takes in outside air, a suction air passage that is configured by an air passage that guides air taken in from the suction port to a high-pressure airflow generator, and It has a blowout air passage composed of an air passage that guides the air pressurized by the high-pressure airflow generator to the nozzle, and a plurality of the nozzles are arranged at intervals, and the jet ejected from the nozzle vibrates by self-excitation. In the hand drying apparatus, the nozzle is fixed to a crank arm via a nozzle holding portion configured by three parts, the crank arm is connected to the crank, and the nozzle is rotated by rotating the crank. Self-excited vibration.

  Another means is that the direction of self-excited vibration of the nozzle is jetted in the entire width direction of the inserted hand.

  In another means, the nozzle is made of a soft material.

  Another means is to make the material of the nozzle holding part C, which is one of the nozzle holding parts composed of three parts, a soft material.

  Another means is to use a soft material as a chemical resistant material such as silicon.

  Another means is to make the thickness of the material of the nozzle holding part A, which is one of the nozzle holding parts composed of three parts, so as not to be broken by vibration.

  Further, the other means is configured such that the nozzle holding portion C, which is one of the nozzle holding portions constituted by three parts, is not sandwiched in the vertical direction with respect to the nozzle holding portion A.

  Further, the other means is configured such that the nozzle holding portion C, which is one of the three nozzle holding portions, does not come into contact with the nozzle holding portion A that operates to the left and right.

  Another means is that a nozzle holding part B, which is one of the three parts of the nozzle holding part, is provided with a fixing plate for supporting the nozzle, and the nozzle adjacent to the pitch that is the interval between the nozzles is provided. The dimensions are such that they do not touch.

  Another means is to provide a V-shaped rib on the opposite side of the nozzle insertion hole into which the nozzle is inserted.

  According to the present invention, the suction port for taking in outside air, the suction air passage configured by the air passage for guiding the air taken in from the suction port to the high-pressure air flow generation device, and the air pressurized by the high-pressure air flow generation device A hand drying device comprising a blowout air passage configured with an air passage that guides to a nozzle, a plurality of the nozzles arranged at intervals, and a jet flow ejected from the nozzle vibrates in a self-excited manner, The nozzle is fixed to a crank arm through a nozzle holding part composed of three parts, the crank arm is connected to the crank, and the nozzle self-vibrates by rotating the crank. Even if it is self-excited, it is possible to provide a hand-drying device that can be made compact without increasing the self-excited vibration mechanism.

  Also, it is possible to provide a hand drying device that is capable of reliably blowing off moisture adhering to the hand by jetting the direction of self-excited vibration of the nozzle to the entire width direction of the inserted hand. Can do.

  In addition, by using a soft material for the nozzle, reducing the crank radius reduces the thrust force applied to the rotating shaft (shaft) of the motor, smoothing the movement, and ensuring that moisture attached to the hand is secured. Therefore, it is possible to provide a hand-drying device having an effect that it can be blown away.

  In addition, by making the material of the nozzle holding part C, which is one of the nozzle holding parts composed of three parts, a soft material, it is possible to reduce the start-up operation sound, and to save cost and space. An effective hand drying apparatus can be provided.

  In addition, by making the soft material into a chemical-resistant material such as silicon, a hand-drying device that has the effect of degrading the quality of the material even if the nozzle and nozzle holder are cleaned with chemicals. Can be provided.

  In addition, by reducing the thickness of the material of the nozzle holding part C, which is one of the three parts of the nozzle holding part, to such a level that it cannot be broken by vibration, it is possible to reduce the starting operation sound of the self-excited vibration of the nozzle. It is possible to provide a hand-drying device that is effective in saving cost and space.

  Further, the nozzle holding part C, which is one of the three parts of the nozzle holding part, is configured not to be sandwiched in the vertical direction with respect to the nozzle holding part A, so that the start-up operation sound of the self-excited vibration of the nozzle can be reduced. It is possible to provide a hand-drying device that is effective in reducing, cost, and space saving.

  In addition, the nozzle holding part C, which is one of the three parts of the nozzle holding part, is configured so as not to contact the left and right nozzle holding parts A, so that the aging deterioration due to wear of the nozzle holding parts is prevented. It is possible to provide a hand-drying device that has an effect of suppressing and preventing the life of the nozzle mechanism portion from being reduced.

  In addition, the nozzle holding part B, which is one of the three parts of the nozzle holding part, is provided with a fixing plate for supporting the nozzles, and the dimensions are such that adjacent nozzles do not come into contact with the pitch that is the interval between the nozzles. By doing so, it is possible to provide a hand-drying device that has an effect of reducing the start-up operation sound of the self-excited vibration of the nozzle, saving cost, and saving space.

  Also, by providing a V-shaped rib on the opposite side of the nozzle insertion hole into which the nozzle is inserted, the nozzle drop prevention and the V-shaped V have a groove shape, so that the pressure loss (resistance) of the blowing portion is reduced. Therefore, it is possible to provide a hand-drying device having an effect of being able to perform.

The perspective view of the hand-drying apparatus of Embodiment 1 of this invention The perspective view which shows operation | movement of the nozzle of the same hand dryer Top perspective view of the same dryer Front view showing the operation of the nozzle of the hand dryer Detailed view showing the operation of the motor of the hand dryer Side view showing the operation of the nozzle of the hand dryer Enlarged view showing the operation of the nozzle of the hand dryer Enlarged view showing the spacing of multiple nozzles in the same hand dryer The enlarged view which shows the clearance of the nozzle holding part C of the same hand dryer Enlarged view showing the V-shaped rib of the hand dryer The expanded sectional side view which shows the nozzle vicinity of the hand dryer of Embodiment 2 of this invention Enlarged front view showing the vicinity of the nozzle of the hand dryer

The hand dryer according to the present invention is pressurized by a suction port for taking in outside air, a suction air passage composed of an air passage for guiding the air taken in from the suction port to a high-pressure air flow generation device, and the high-pressure air flow generation device. A hand-drying device comprising a blow-out air passage configured by an air passage for guiding the air to the nozzle, wherein a plurality of the nozzles are arranged at intervals, and the jet flow ejected from the nozzle vibrates by itself. there are, fixed to the crank arm through the nozzle holding portion configured the nozzle three-part, connecting the crank arm to the crank, which was to rotate the crank, Roh nozzle is self- It has the effect of vibrating.

  In addition, the direction of self-excited vibration of the nozzle is to be jetted in the entire width direction of the inserted hand, and the jet blown out from the nozzle vibrating in the left-right direction of the hand is the width direction of the manually inserted hand. It has the effect | action of injecting a jet to the whole.

  Also, the material of the nozzle is a soft material, and the force applied to the nozzle drive part and the mass of the nozzle have an acceleration with respect to the center of the nozzle drive, and the nozzle itself is affected by the elastic force of the material. It has the effect of shaking the nozzle at an angle greater than the angle at which it vibrates.

  Also, the material of the nozzle holding part C, which is one of the three parts of the nozzle holding part, is made of a soft material, and the soft elasticity (stretchability) reduces the starting torque load. Has the effect of making it smaller.

  Further, the soft material is a chemical-resistant material such as silicon, and the chemical-resistant material has an action of preventing erosion and deterioration by the chemical.

  In addition, the thickness of the material of the nozzle holding part A which is one of the nozzle holding parts composed of three parts is set to a thickness that does not break due to vibration, and can be more elastic (stretched). This has the effect of reducing the load of the starting torque of the self-excited vibration of the nozzle.

  Further, the nozzle holding part C, which is one of the three parts of the nozzle holding part, is configured not to be sandwiched in the vertical direction with respect to the nozzle holding part A, and is more elastic (stretchable). This has the effect of reducing the load of the starting torque of the self-excited vibration of the nozzle.

  Further, the nozzle holding part C, which is one of the nozzle holding parts composed of three parts, is configured not to come into contact with the nozzle holding part A that operates to the left and right. It has the effect of self-excited vibration without contacting the crank arm.

  In addition, the nozzle holding part B, which is one of the three parts of the nozzle holding part, is provided with a fixing plate for supporting the nozzles, and the dimensions are such that adjacent nozzles do not come into contact with the pitch that is the interval between the nozzles. It can be made more elastic (expandable) and has the effect of reducing the load of the starting torque of the self-excited vibration of the nozzle.

  Further, a V-shaped rib is provided on the opposite side of the nozzle insertion hole into which the nozzle is inserted, and has an effect of contacting the V-shaped rib when the nozzle is pushed in.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1)
As shown in FIGS. 1 to 10, a suction air passage 4 composed of a suction port 1 for taking in outside air, a wind passage for guiding air 2 taken in from the suction port 1 to a high-pressure air flow generation device 3, and generation of a high-pressure air flow A blowout air passage 6 composed of an air passage for guiding the air pressurized by the apparatus 3 to the nozzle 5 is provided, a plurality of nozzles 5 are arranged at intervals 7, and the jet flow ejected from the nozzle 5 is self-excited. A hand drying apparatus configured to fix the nozzle 5 to the crank arm 11 through three nozzle holding parts A8, a nozzle holding part B9, and a nozzle holding part C10 as a nozzle holding part composed of three parts, By connecting the crank arm 11 to the crank 12, connecting the crank 12 to the motor 13, and rotating the crank 12, the nozzle 5 self-excitedly vibrates.

  With the above configuration, the nozzle 5 rotates the crank connected to the crank 12 with the crank arm fixed to the crank arm 11 via the nozzle holding portion, and the nozzle 5 vibrates by itself.

  Thus, even if a plurality of nozzles are self-excited, they can be made compact without increasing the self-excited vibration mechanism.

  In addition, the self-excited vibration direction of the nozzle 5 is configured to be jetted 17 over the entire width direction 16 of the inserted hand 15.

  With the above configuration, the jet 17 blown from the nozzle 5 that vibrates in the left-right direction 18 of the hand injects the jet 17 across the entire width direction 16 of the hand 15 that has been manually inserted.

  Thus, according to the hand drying apparatus of Embodiment 2 of this invention, the water | moisture content adhering to a hand can be blown off reliably.

  Further, the nozzle 5 is made of a soft material.

  With the above-described configuration, the force applied to the drive portion 19 of the nozzle 5 and the mass of the nozzle 5 have acceleration with respect to the nozzle drive center portion 20, and the nozzle 5 is at an angle greater than the angle at which the nozzle 5 self-vibrates due to the elastic force of the material. Shake.

  As described above, according to the hand drying device of the third embodiment of the present invention, the reduction of the crank radius 21 reduces the torque 23 applied to the rotating shaft (shaft) 22 of the motor 13 and smoothes the movement. The attached water can be surely blown off.

  Further, the nozzle holding part C10 is made of a soft material.

  With the above configuration, the soft elasticity (stretchability) reduces the load of the starting torque.

  In this way, it is possible to reduce the start-up operation sound, save costs, and save space.

  Further, the soft material is made of a chemical resistant material such as silicon.

  With the above configuration, the chemical resistant material prevents erosion and deterioration by the chemical.

  Thus, the quality of the material can be deteriorated even if the nozzle and the nozzle holding part are washed with chemicals.

  Further, the thickness 24 of the material of the nozzle holding portion A8, which is one of the nozzle holding portions constituted by three portions, is set to a thickness that does not break due to vibration.

  With the above configuration, it can be more elastic (expandable), and the load of the starting torque of the self-excited vibration of the nozzle 5 can be reduced.

  In this way, it is possible to reduce the start-up operation sound of the self-excited vibration of the nozzle, reduce costs, and save space.

Further, the nozzle holding part C10 is configured not to be sandwiched in the vertical direction with respect to the nozzle holding part A8, that is, the nozzle holding part C10 does not contact the nozzle holding part A8 in the vertical direction , that is, provided with a clearance 28.

With the above configuration, the nozzle holding portion C10 can be more elastic (expandable), and the load of the starting torque of the self-excited vibration of the nozzle 5 can be reduced.

  In this way, it is possible to reduce the start-up operation sound of the self-excited vibration of the nozzle, reduce costs, and save space.

Further, the nozzle holding unit C10 is configured not to contact the nozzle holding unit A8 operating in the left and right directions in the vertical direction .

With the above configuration, the nozzle holding unit C10 does not contact the nozzle holding unit A8 in the vertical direction and vibrates by itself.

In this way, it is possible to suppress deterioration over time due to wear of the nozzle holding part C10 and to prevent the life of the nozzle mechanism part from being reduced.

  In addition, the nozzle holding part B9 as the nozzle holding part is provided with a fixing plate 29 that supports the nozzle 5, and the dimensions such that the adjacent nozzles 5 do not contact the pitch 30 that is the interval between the nozzles 5, that is, the nozzle 5 Is configured such that the distance between the nozzle holding portions B9 is 25 so as not to contact the nozzle holding portion B9.

  With the above configuration, it can be more elastic (expandable), and the load of the starting torque of the self-excited vibration of the nozzle 5 can be reduced.

  As described above, according to the hand drying apparatus of the ninth embodiment of the present invention, it is possible to reduce the starting operation sound of the self-excited vibration of the nozzle, and to save the cost and space.

  In addition, a V-shaped rib 27 is provided on the opposite side of the nozzle insertion hole 26 into which the nozzle 5 is inserted.

  With the above configuration, when the nozzle 5 is pushed in, it contacts the V-shaped rib 27.

  Thus, since the nozzle drop prevention and the V-shaped V have the groove shape, the pressure loss (resistance) of the jetting portion, that is, the jet flow ejected from the nozzle can be reduced.

(Embodiment 2)
The same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  The difference from the first embodiment is that, as shown in FIGS. 11 and 12, the nozzle holding portion C10 is pushed into the nozzle holding portion A8, that is, the nozzle holding portion C10 caused by, for example, pushing the nozzle 5 is prevented. The push-in prevention rib 31 is provided, and the push-in prevention rib 31 is provided in the vicinity of the nozzle 5.

  With such a configuration, even when the nozzle holding portion C10 is pushed in, the nozzle holding portion C10 is dammed by the push-in preventing rib 31 provided in the nozzle holding portion A8 so as to ride on the push-in preventing rib 31. Further, it is possible to prevent the pushing-in prevention rib 31 from being pushed in, prevent the self-excited vibration of the nozzle 5 from being hindered, and further, the pushing-in preventing rib 31 is provided in the vicinity of the nozzle 5 so that the pushing-in due to the deformation of the nozzle holding portion C is further suppressed. This can prevent the self-excited vibration of the nozzle 5 from being hindered.

  Therefore, the inhibition of the self-excited vibration of the nozzle due to the pushing of the nozzle holding part C can be prevented by the above two means, and as a result, it is possible to prevent the mechanism for self-excited vibration from being enlarged.

  The hand dryer of the present invention is installed in a washroom or a toilet such as a restaurant or a hotel, and is also applied in a hospital, an operating room, or a kitchen.

DESCRIPTION OF SYMBOLS 1 Suction port 2 Air 3 High pressure airflow generator 4 Suction air path 5 Nozzle 6 Blowing air path 7 Interval 8 Nozzle holding part A
9 Nozzle holder B
10 Nozzle holder C
DESCRIPTION OF SYMBOLS 11 Crank arm 12 Crank 13 Motor 14 Rotation 15 Hand 16 Width direction 17 Jet 18 Left-right direction 19 Drive part 20 Nozzle drive center part 21 Crank radius 22 Rotating shaft (shaft)
23 Torque 24 Thickness 25 Interval 26 Nozzle insertion hole 27 Rib 28 Clearance 29 Fixed plate 30 Pitch 31 Push-in prevention rib

Claims (10)

A suction air passage composed of an air intake port for taking in outside air, an air passage for guiding the air taken in from the air intake port to the high-pressure air flow generator, and an air passage for guiding the air pressurized by the high-pressure air flow generator to the nozzle A hand drying device comprising a blow-out air passage configured as described above, wherein a plurality of the nozzles are arranged at intervals and the jet flow ejected from the nozzles vibrates by itself, the nozzle comprising three parts The nozzle is fixed to a crank arm via a nozzle holding part, the crank arm is connected to the crank, and the nozzle is self-excited by rotating the crank,
The nozzle holding part composed of the three parts consists of a nozzle holding part A, a nozzle holding part B and a nozzle holding part C,
The nozzle holding part A is connected to the crank arm,
The nozzle holding part C is located between the nozzle holding part A and the nozzle holding part B,
The nozzle holding part C is fixed to the nozzle holding part A by the nozzle holding part B,
The nozzle holding part C is connected to the nozzle,
The hand-drying device, wherein the nozzle holding part C is configured not to contact the nozzle holding part A operating in the left-right direction in the vertical direction. The hand dryer according to claim 1, wherein the direction of self-excited vibration of the nozzle is jetted in the entire width direction of the inserted hand. The hand dryer according to claim 1 or 2, wherein the nozzle is made of a soft material. The hand-drying device according to claim 1, wherein the nozzle holding part C is made of a soft material. The hand dryer according to claim 3 or 4, wherein the soft material is a chemical-resistant material such as silicon. The hand-drying apparatus according to claim 1 or 4, wherein the thickness of the material of the nozzle holding part A is set so as not to be broken by vibration. The hand-drying device according to claim 1, wherein the nozzle holding unit C is configured not to be sandwiched in the vertical direction with respect to the nozzle holding unit A. Hand according to any of claims 1, 4, 6, 7, characterized in that the dimensions of the degree that the nozzle holding portion B, and a nozzle adjacent the pitch is the spacing of the previous SL nozzle does not contact Drying equipment. The hand-drying device according to any one of claims 1, 4, and 6 to 8, wherein the nozzle holding portion A is provided with a push-in preventing rib that prevents the nozzle holding portion C from being pushed in. The hand dryer according to claim 9, wherein the push-in preventing rib is provided in the vicinity of the nozzle.

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