CN104887133A - Hand drying device - Google Patents

Abstract

A hand drying device is provided with: An opening, configured under the surface board; hand drying chamber configured from open toward the inside of the chamber; a suction opening for sucking in air; ejection openings for ejecting high-pressure air, which has increased pressure, into the hand drying chamber as jets; a body having a high-pressure air generation section which is provided between the suction opening and the ejection openings and converts the air into high-pressure air; and a flow path for connecting the suction opening and the ejection openings. A fluid element nozzle is provided between jets and high-preesure air generation tunit; the fluid element is provided with an entry, an exit, a main fluid path and a circuilated wind path which is provided between upper surface board of the hand drying chamber and the high pressure air generation unit for suppressing noise from the high pressure air generation unit transmitting to surface board; the nozzle enable the jet to vibrate in a short-edge direction of a rectangle in the main fluid path; high pressure air generatin unit is provided upper of the hand drying chamber.

Description

Drying apparatus for hands

The divisional application that the application is application number is 201080051992.0, the applying date is on November 10th, 2010, denomination of invention is the patent application of drying apparatus for hands.

Technical field

The present invention relates to a kind of drying apparatus for hands.

Background technology

Drying apparatus for hands is in the past known to utilize the jet flow of air by water droplet from peeling off on hand, makes the mode (for example, referring to patent document 1) of hand drying.

Below, limit with reference to Fig. 6 of the stereogram as expression drying apparatus for hands in the past, while be described an example of this drying apparatus for hands.

As shown in Figure 6, drying apparatus for hands 101 has: can extract, insert the hand hothouse 103 of hand, pressure-air generating unit 104 and water-accepting part 105 out from the insert port 102 of externally opening.Here, above hand hothouse 103, below is configured with pressure-air generating unit 104, water-accepting part 105 respectively.

The jet flow generated by pressure-air generating unit 104 is sprayed onto inserts hothouse 103 in one's hands on hand, utilizes the kinetic energy of jet flow to flip the moisture be attached on hand.Further, the ejection angle from top to down of jet flow towards inner side with 5 degree ~ 30 degree sprays to hand hothouse 103.Jet flow is splash user in order to avoid being dispersed by the water flipped to the inner side ejection of hand hothouse 103.

In such drying apparatus for hands 101 in the past, because the ejection angle of jet flow adopts above-mentioned angle, even if so hand is inserted horizontally into hand hothouse 103, jet flow is also difficult to be sprayed onto on hand.

In order to utilize the kinetic energy of jet flow efficiently, preferred hand generally perpendicularly contacts with jet flow.But, in order to make hand generally perpendicularly contact with jet flow, need finger tip upward.

Prior art document

Patent document

Patent document 1: Japanese Unexamined Patent Publication 2004-716 publication

In drying apparatus for hands in the past, if finger tip upward, then water droplet can move to the wrist side of user, the problem that therefore generation bedews clothes, wrist remains water droplet.

Summary of the invention

Therefore, drying apparatus for hands of the present invention possesses: hand hothouse, and it from inserting the hand inserting side of hand towards interior side opening, and has upper surface, lower surface as internal face; Suction inlet, its draw air; Multiple ejiction opening, the pressure-air after the boosting of hand hothouse sprays as jet flow by it; Main body, it has pressure-air generating unit, and this pressure-air generating unit to be arranged between suction inlet and multiple ejiction opening and to make air become pressure-air; Stream, it is communicated with suction inlet and multiple ejiction opening.Further, multiple ejiction opening be arranged in upper surface along with the upper inclined surface tilted downwards towards inner side from hand inserting side, and the emission direction of jet flow is hand inserting side.Further, the mode concentrating on the median plane of the side wall surface of the both sides of main body with the emission direction of jet flow configures multiple ejiction opening.The plurality of ejiction opening is symmetrical and be that fold plane is in the shape of the letter V configuration with median plane relative to median plane.

Consequently, when inserting hand to hand hothouse, even if finger tip downward, hand also can be vertical relative to jet flow.Therefore, the kinetic energy of jet flow can be utilized efficiently.Further, do not have water droplet and move to wrist side and bedew clothes, do not have water droplet yet and remain in wrist.

The drying apparatus for hands of a scheme of the present invention possesses: opening, and it is configured in the bottom of surface panel; Hand hothouse, it is arranged from described opening towards inner side; Suction inlet, its draw air; Multiple ejiction opening, the pressure-air after described hand hothouse boosting sprays as jet flow by it; Main body, it has pressure-air generating unit, and this pressure-air generating unit to be arranged between described suction inlet and described multiple ejiction opening and to make described air become described pressure-air; Stream, it is communicated with described suction inlet and described multiple ejiction opening, wherein, is provided with flow element nozzle between multiple ejiction opening and pressure-air generating unit, and described flow element nozzle possesses: inflow entrance, and it draws described pressure-air; Flow export, the section on its direction vertical relative to described pressure-air stream is rectangle and expands towards the outside; Primary flow path, it is communicated with described flow export and section shape is rectangle from described inflow entrance; Circulation wind path portion, it is from the first surface branch of a long side of described primary flow path, be communicated with second of another long side of described primary flow path, described flow element nozzle makes described jet flow vibrate on the described rectangular short side direction of described primary flow path, pressure-air generating unit is configured in the top of hand hothouse, described circulation wind path portion is configured between the surface panel of the top of described hand hothouse and described pressure-air generating unit, suppresses the noise produced from described pressure-air generating unit to be transmitted to described surface panel.

Drying apparatus for hands of the present invention can also be configured to, described hand hothouse has upper surface and lower surface as internal face, described upper surface has to be made from hand inserting side towards a part for the inner side of hand hothouse along with the upper inclined surface tilted downwards towards inner side, described multiple ejiction opening is arranged on the inner side of described upper inclined surface, the emission direction of described jet flow is made to be described hand inserting side in the mode making jet flow contact with the hand being inserted into described hand hothouse, the mode of the median plane of the side wall surface of the both sides of described main body is concentrated on the emission direction of described jet flow, described upper surface with described median plane for the face of turning back is in the shape of the letter V shape and by described multiple ejiction opening balanced configuration, by described multiple ejiction opening one draining in the direction substantially vertical with hand direction of insertion dripped to blow and fly.

Accompanying drawing explanation

Fig. 1 is the stereogram of the drying apparatus for hands of embodiments of the present invention 1.

Fig. 2 is the sectional view of the structure representing this drying apparatus for hands.

Fig. 3 is the stereogram of the flow element nozzle of this drying apparatus for hands.

Fig. 4 is the sectional block diagram of the drying apparatus for hands of embodiments of the present invention 2.

Fig. 5 is the amplification stereogram of the movable nozzle of this drying apparatus for hands.

Fig. 6 is the stereogram of the drying apparatus for hands represented in the past.

Detailed description of the invention

Below, accompanying drawing is used to be described embodiments of the present invention.

(embodiment 1)

Fig. 1 is the stereogram of the drying apparatus for hands of embodiments of the present invention 1, and Fig. 2 is the sectional view of the structure representing this drying apparatus for hands.As shown in Figure 1 and Figure 2, drying apparatus for hands 11 possesses: hand hothouse 12, multiple ejiction opening 15, upper inclined surface 31, suction inlet 16, stream 17, the main body 65 with pressure-air generating unit 18 and flow element nozzle 20.

Here, hand hothouse 12 has the opening 32 that can insert hand.Further, hand hothouse 12 is 61 spaces widened to the inside, hand inserting side 60 from inserting hand, has upper surface 63, lower surface 64 as internal face.Upper inclined surface 31 is parts of upper surface 63, tilts downwards along with from hand inserting side 60 towards the inner side 61 of hand hothouse 12.

Stream 17 is communicated with the suction inlet 16 being arranged at upper surface 63 and the multiple ejiction openings 15 being arranged at upper inclined surface 31.Pressure-air generating unit 18 is arranged between suction inlet 16 and multiple ejiction opening 15, makes the air drawn from suction inlet 16 boost and become pressure-air.Flow element nozzle 20 is configured between multiple ejiction opening 15 and pressure-air generating unit 18, makes jet flow 13 on the jet flow direction of vibration 19 substantially vertical relative to hand direction of insertion 14, vibrates under vibration frequency 100Hz.

Then, the pressure-air after boosting, as jet flow 13, towards the hand inserting hothouse 12 in one's hands, sprays to hand inserting side 60 from top to down.

Multiple ejiction opening 15 roughly concentrates on the median plane 23 of the side wall surface 22 of the both sides of drying apparatus for hands 11 mode with the emission direction of jet flow 13 configures.It should be noted that, show but the side wall surface 22 of side in FIG.That is, multiple ejiction opening 15 is with median plane 23 for the face of turning back, relative to median plane 23 be in the shape of the letter V symmetrically configuration.In addition, on the position opposed with multiple ejiction opening 15, be generally perpendicularly provided with water-accepting part 21 relative to the emission direction of the jet flow 13 sprayed from multiple ejiction opening 15.

Fig. 3 is the stereogram of the flow element nozzle of the drying apparatus for hands of embodiments of the present invention 1.Flow element nozzle 20 possesses: inflow entrance 24, flow export 25, primary flow path 26 and circulation wind path portion 29.Here, pressure-air is introduced from inflow entrance 24.The section in the direction that flow export 25 is vertical relative to pressure-air stream 68 is roughly rectangle, and externally expands.Primary flow path 26 is communicated with flow export 25 from inflow entrance 24, and the section shape of primary flow path 26 is roughly rectangle.Circulation wind path portion 29, from first surface 27 branch of a long side of the rectangular cross section of primary flow path 26, is communicated with the second face 28 of another long side of primary flow path 26.

The pressure differential in first surface 27, second face 28 is utilized to drive the pressure-air of inside, circulation wind path portion 29, thus the reversion of the pressure differential in first surface 27, second face 28.Then, the jet flow 13 sprayed from flow export 25 is made to vibrate at the short side direction of the rectangular cross section of primary flow path 26 and jet flow direction of vibration 19 by again driving pressure-air.

In addition, as shown in Figure 2, between the circulation wind path portion 29 of flow element nozzle 20 surface panel 30 that is configured in the main body 65 of drying apparatus for hands 11 and pressure-air generating unit 18.In embodiments of the present invention, so-called pressure-air is the air representing the pressure with more than atmospheric pressure, such as about 3kPa ~ 12kPa.As the pressure-air generating unit 18 producing pressure-air, air blast etc. can be enumerated.

In addition, as jet flow 13, preferred wind speed is the high speed winds of about 50m/s ~ 130m/s.Here, as an example, the vibration frequency of jet flow 13 is made to be 100Hz, if but less than the words of 20Hz, vibration then because of jet flow 13 is enough fast unlike the speed of extracting hand out, so jet flow differs touch hand entirety surely, therefore can not obtain the effect of jet flow vibration fully; If more than 1000Hz, then the formation in the constant speed district of jet flow becomes insufficient, and before jet flow encounters hand, sea land distribution becomes large, blows the power flying water droplet and dies down, therefore not preferred.So, if the vibration frequency of jet flow 13 is at more than 20Hz below 1000Hz, then can obtain the effect of jet flow vibration fully.

According to such structure, when using drying apparatus for hands 11, be easy to by finger tip down when hand inserts hand hothouse 12.Therefore, except the kinetic energy of jet flow 13, also utilize gravity that water droplet is fallen, hand drying can be realized efficiently.Even if when generally perpendicularly being contacted with jet flow 13 by hand at the kinetic energy in order to effectively utilize jet flow 13, water droplet also can not move to the wrist side of user, can prevent adhesional wetting clothes, water droplet from remaining in wrist.

In addition, because suction inlet 16 is arranged on the internal face of hand hothouse 12, therefore the jet flow 13 that sprayed by multiple ejiction opening 15 can be reduced flow out to hand hothouse 12 outside.Therefore, decrease the water dispersed to hand hothouse 12 outside, user can be splashed by anti-sealing.

In addition, on the position opposed with multiple ejiction opening 15, be generally perpendicularly provided with water-accepting part 21 relative to the emission direction of the jet flow 13 sprayed from multiple ejiction opening 15.Therefore, utilizing the jet flow 13 sprayed by multiple ejiction opening 15 to be caught by water-accepting part 21 from blowing the water droplet flown on hand, can prevent water droplet from dispersing to hand hothouse 12 outside.Here, if the smooth surface of water-accepting part 21, then can reduce the noise produced when jet flow 13 impacts water-accepting part 21.

In addition, multiple ejiction opening 15 with median plane 23 for the face of turning back is configured to V-shape symmetrically relative to median plane 23, with the median plane 23 making the jet flow 13 sprayed from multiple ejiction opening 15 roughly concentrate on the side wall surface 22 of two of drying apparatus for hands 11.Therefore, the emission direction due to multiple jet flow 13 roughly concentrates on the median plane 23 of the side wall surface 22 of two of drying apparatus for hands 11, therefore is also concentrated near median plane 23 from blowing the water droplet flown on hand by jet flow 13.Consequently, can prevent water droplet from dispersing to hand hothouse 12 outside.In addition, when user carries out hand drying, when rubbing hand near median plane 23, carry out rubbing on hand because jet flow 13 concentrates on, therefore hand drying can be carried out efficiently.

In addition, vibrated by the jet flow 13 sprayed from multiple ejiction opening 15, jet flow 13 can be sent in a wide range.Therefore, the quantity of multiple ejiction opening 15 can being reduced, reducing air quantity when maintaining wind speed, reduce power consumption.

In addition, because jet flow direction of vibration 19 is substantially vertical relative to hand direction of insertion 14, so on the optional position of hand, the draining flown on the direction substantially vertical with hand direction of insertion 14 can be blown and drip.Consequently, when extracting hand out, water droplet, from wrist sidesway to finger tip direction, can carry out without uneven drying and hand drying efficiently.

In addition, because the vibration frequency of jet flow 13 is more than 20Hz below 1000Hz, so jet flow 13 can be made to contact entirety in one's hands, the drying of efficient hand can be carried out.

In addition, owing to employing flow element nozzle 20, the jet flow 13 thus sprayed from multiple ejiction opening 15 is vibrated, and can send jet flow 13 in a wide range.Therefore, the number of multiple ejiction opening 15 can being reduced, reducing air quantity when maintaining wind speed, reduce power consumption.

In addition, because flow element nozzle 20 does not have movable part, so there is not the deterioration of movable part, jet flow vibration steady in a long-term can be realized.In addition, because flow element nozzle 20 does not need drive division, so drying apparatus for hands 11 can realize miniaturization.

In addition, the circulation wind path portion 29 of flow element nozzle 20 is configured between the surface panel 30 of drying apparatus for hands 11 and pressure-air generating unit 18.Consequently, circulation wind path portion 29 becomes the barrier that the noise produced by pressure-air generating unit 18 is transmitted to surface panel 30, thus inhibits noise, therefore noise is lowered.In addition, because circulation wind path portion 29 is configured in the main body 65 of drying apparatus for hands 11, so can prevent because causing circulation wind path portion 29 to be damaged from the impact etc. of outside.Therefore, jet flow vibration steady in a long-term can be realized.

(embodiment 2)

Fig. 4 is the sectional block diagram of the drying apparatus for hands of embodiments of the present invention 2.Drying apparatus for hands 41 possesses: hand hothouse 42, multiple ejiction opening 45, lower bevel 55, suction inlet 46, stream 47 and have the main body 65 of pressure-air generating unit 48, between multiple ejiction opening 45 and pressure-air generating unit 48, arrange movable nozzle 50.

Here, hand hothouse 42 has the opening 56 that can insert hand.Further, hand hothouse 42 is 61 spaces widened to the inside, hand inserting side 60 from inserting hand, has upper surface 66, lower surface 67 as internal face.Lower bevel 55 is parts of lower surface 67, tilts downwards along with from hand inserting side 60 towards the inner side 61 of hand hothouse 42.

Stream 47 is communicated with the suction inlet 46 being arranged at upper surface 66 and the multiple ejiction openings 45 being arranged at lower bevel 55.Pressure-air generating unit 48 is arranged between suction inlet 46 and multiple ejiction opening 45, using draw from suction inlet 46 air boosting and as pressure-air.Movable nozzle 50 makes jet flow 43 on the jet flow direction of vibration 49 substantially vertical relative to hand direction of insertion 44, vibrates under vibration frequency 20Hz.

In addition, drying apparatus for hands 41 is provided with water-accepting part 51 on the position opposed with multiple ejiction opening 45.Further, the pressure-air after boosting, as jet flow 43, sprays towards the hand inserting hothouse 42 in one's hands from below upward in inner side 61.

Fig. 5 is the amplification stereogram of the movable nozzle of the drying apparatus for hands of embodiments of the present invention 2.As shown in Figure 5, movable nozzle 50 is made up of oscillating nozzle 52, motor 53 and crank 54.Here, oscillating nozzle 52 is made up of movable link.Motor 53 is the drive divisions for making oscillating nozzle 52 vibrate.The rotary motion produced by motor 53 is converted to the straight reciprocating motion of oscillating nozzle 52 by crank 54.By using such movable nozzle 50, the vibration frequency of jet flow 43 can be controlled easily by drive division.

The example of the wind speed of pressure-air generating unit 48, jet flow 43 and the vibration frequency of jet flow 43 is identical with embodiments of the present invention 1.

According to such structure, when using drying apparatus for hands 41, jet flow 43 generally perpendicularly contacts with hand, and is attached to water droplet on hand due to gravity and can moves to finger tip side.Therefore, the kinetic energy of the jet flow 43 sprayed acts on water droplet efficiently, peels off the water droplet be attached on hand efficiently, less energy can be utilized to carry out hand drying.In addition, even if at the kinetic energy in order to effectively utilize jet flow 43 when generally perpendicularly being contacted with jet flow 43 by hand, water droplet can shift to finger tip side due to gravity relation.Therefore, water droplet can not move to the wrist side of user, can not bedew clothes, and wrist also can not remain water droplet.

In addition, vibrated by the jet flow 43 sprayed from multiple ejiction opening 45, jet flow 43 can be sent in a wide range.Therefore, the quantity of multiple ejiction opening 45 can being reduced, reducing air quantity when maintaining wind speed, reduce power consumption.In addition, the vibration frequency of jet flow 43 can be controlled easily by drive division.

In addition, because the direction of vibration of jet flow 43 is substantially vertical relative to hand direction of insertion 44, so on the optional position of hand, the draining flown on the direction substantially vertical with hand direction of insertion 44 can be blown and drip.Consequently, when extracting hand out, water droplet, from wrist sidesway to finger tip direction, can carry out without uneven drying and hand drying efficiently.

In addition, because the vibration frequency of jet flow 43 is more than 20Hz below 1000Hz, so jet flow 43 can be made to contact entirety in one's hands, carry out the drying of efficient hand.

In addition, suction inlet 46 is arranged on internal face i.e. upper surface 66.Flow out to hand hothouse 42 outside therefore, it is possible to reduce the jet flow 43 sprayed from multiple ejiction opening 45, reduce the water dispersed to hand hothouse 42 outside, user can be splashed by anti-sealing.

In addition, the position opposed with multiple ejiction opening 45 is provided with water-accepting part 51.Therefore, being caught by water-accepting part 51 from blowing the water droplet flown on hand by jet flow 43, can prevent water droplet from dispersing to hand hothouse 42 outside.

Utilizability in industry

Drying apparatus for hands of the present invention because can be dry efficiently when not bedewing clothes by the moisture be attached on hand, so can be used for lavatory or toilet etc.In addition, drying apparatus for hands of the present invention can be used for dry this purposes of article bedewed by liquid.

Symbol description

11,41 drying apparatus for hands

12,42 hand hothouses

13,43 jet flows

14,44 hand direction of insertion

15,45 ejiction openings

16,46 suction inlets

17,47 streams

18,48 pressure-air generating units

19,49 jet flow direction of vibration

20 flow element nozzles

21,51 water-accepting parts

22 side wall surfaces

23 median planes

24 inflow entrances

25 flow exports

26 primary flow path

27 first surfaces

28 second

29 circulation wind path portions

30 surface panels

31 upper inclined surface

32,56 openings

50 movable nozzle

52 oscillating nozzles

53 motor

54 cranks

55 lower bevel

60 hand inserting sides

Inside 61

63,66 upper surfaces

64,67 lower surfaces

65 main bodys

68 pressure-air streams

Claims (2)

1. a drying apparatus for hands, it possesses:

Opening, it is configured in the bottom of surface panel;

Hand hothouse, it is arranged from described opening towards inner side;

Suction inlet, its draw air;

Multiple ejiction opening, the pressure-air after described hand hothouse boosting sprays as jet flow by it;

Main body, it has pressure-air generating unit, and this pressure-air generating unit to be arranged between described suction inlet and described multiple ejiction opening and to make described air become described pressure-air;

Stream, it is communicated with described suction inlet and described multiple ejiction opening,

The feature of described drying apparatus for hands is,

Flow element nozzle is provided with between described multiple ejiction opening and pressure-air generating unit,

Described flow element nozzle possesses: inflow entrance, and it draws described pressure-air; Flow export, the section on its direction vertical relative to described pressure-air stream is rectangle and expands towards the outside; Primary flow path, it is communicated with described flow export and section shape is rectangle from described inflow entrance; Circulation wind path portion, it is from the first surface branch of a long side of described primary flow path, is communicated with second of another long side of described primary flow path,

Described flow element nozzle makes described jet flow vibrate on the described rectangular short side direction of described primary flow path,

Pressure-air generating unit is configured in the top of hand hothouse, described circulation wind path portion is configured between the surface panel of the top of described hand hothouse and described pressure-air generating unit, suppresses the noise produced from described pressure-air generating unit to be transmitted to described surface panel.

2. drying apparatus for hands according to claim 1, is characterized in that,

Described hand hothouse has upper surface and lower surface as internal face,

Described multiple ejiction opening is arranged on the upper surface,

The emission direction of described jet flow is made to be described hand inserting side in the mode making jet flow contact with the hand being inserted into described hand hothouse,

In the mode making the emission direction of described jet flow concentrate on the median plane of the side wall surface of the both sides of described main body, make described upper surface with described median plane for the face of turning back is in the shape of the letter V shape and by described multiple ejiction opening balanced configuration,

By described multiple ejiction opening one draining in the direction substantially vertical with hand direction of insertion dripped to blow and fly.