CN102665512A - Hand drying device - Google Patents

Abstract

The present invention provides a hand drying device, which includes: a hand drying chamber, which is opened inwardly from the hand insertion side where the hand is inserted, and has an upper surface and a lower surface as inner wall surfaces; a suction port for sucking air; and a plurality of discharge ports. , which sprays the high-pressure air boosted in the hand drying chamber as a jet stream; the main body, which has a high-pressure air generating part, which is arranged between the suction port and a plurality of discharge ports and makes the air into high-pressure air ; flow path, which communicates with the suction port and a plurality of ejection ports, and the plurality of ejection ports are arranged on the upper inclined surface inclined downwards from the hand insertion side towards the inside in the upper surface, and the ejection direction of the jet flow is hand insertion side.

Description

Drying apparatus for hands

Technical field

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

Background technology

Drying apparatus for hands in the past is known have utilize air jet flow with water droplet from peeling off on hand, make the dry mode (for example, with reference to patent documentation 1) of hand.

Below, the limit is with reference to the Fig. 6 as the stereogram of representing drying apparatus for hands in the past, and the limit describes an example of this drying apparatus for hands.

As shown in Figure 6, drying apparatus for hands 101 has: can be from extract, insert hand hothouse 103, pressure-air generation portion 104 and the water-accepting part 105 of hand out to the insertion mouth 102 of outside opening.Here, above the hand hothouse 103, below dispose pressure-air generation portion 104, water-accepting part 105 respectively.

The jet flow that is generated by pressure-air generation portion 104 is sprayed onto inserts hothouse 103 in one's hands on hand, utilizes the kinetic energy of jet flow to flip attached on hand moisture.And jet flow sprays to hand hothouse 103 towards the inboard with the ejection angle from top to down of 5 degree～30 degree.Jet flow is to disperse and splash the user for fear of the water that is flipped to the ejection of the inboard of hand hothouse 103.

In such drying apparatus for hands in the past 101, because the ejection angle of jet flow adopts above-mentioned angle, so even if hand is inserted horizontally into hand hothouse 103, jet flow also is 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, generally perpendicularly contact in order to make hand with jet flow, need finger tip towards the top.And if finger tip is towards the top, then water droplet can move to user's wrist side, therefore produces adhesional wetting clothes, the residual problem that water droplet is arranged of wrist.

The prior art document

Patent documentation

Patent documentation 1: TOHKEMY 2004-716 communique

Summary of the invention

Drying apparatus for hands of the present invention possesses: the hand hothouse, and it towards inside, and has upper surface, lower surface as internal face from the hand inserting side of inserting hand; Suction inlet, its absorbing air; A plurality of ejiction openings, it will spray as jet flow at the pressure-air after the hand hothouse boosts; Main body, it has pressure-air generation portion, and this pressure-air generation portion is arranged between suction inlet and a plurality of ejiction opening and makes air become pressure-air; Stream, it is communicated with suction inlet and a plurality of ejiction opening.And, a plurality of ejiction openings be arranged in the upper surface along with from the hand inserting side towards inboard and upper inclined surface that tilt downwards, and the emission direction of jet flow is the hand inserting side.

Consequently, when the hand hothouse inserts hand, even finger tip towards the below, hand also can be vertical with respect to jet flow.Therefore, can utilize the kinetic energy of jet flow efficiently.And, do not have water droplet and move to the wrist side and bedew clothes, do not have water droplet yet and remain in wrist.

Description of drawings

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

Fig. 2 is the cutaway view of the structure of this drying apparatus for hands of expression.

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 embodiment 2 of the present invention.

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

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

The specific embodiment

Below, use accompanying drawing that embodiment of the present invention is described.

(embodiment 1)

Fig. 1 is the stereogram of the drying apparatus for hands of embodiment 1 of the present invention, and Fig. 2 is the cutaway view of the structure of this drying apparatus for hands of expression.Like Fig. 1, shown in Figure 2, drying apparatus for hands 11 possesses: hand hothouse 12, a plurality of ejiction opening 15, upper inclined surface 31, suction inlet 16, stream 17, the main body 65 with pressure-air generation portion 18 and flow element nozzle 20.

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

Stream 17 is communicated with suction inlet 16 that is arranged at upper surface 63 and a plurality of ejiction openings 15 that are arranged at upper inclined surface 31.Pressure-air generation portion 18 is arranged between suction inlet 16 and a plurality of ejiction opening 15, the air of drawing from suction inlet 16 is boosted and becomes pressure-air.Flow element nozzle 20 is configured between a plurality of ejiction openings 15 and the pressure-air generation portion 18, makes jet flow 13 on the jet flow direction of vibration 19 with respect to hand direction of insertion 14 approximate vertical, vibration under vibration frequency 100Hz.

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

A plurality of ejiction openings 15 roughly concentrate on the side walls face 22 of drying apparatus for hands 11 with the emission direction of jet flow 13 the mode of median plane 23 disposes.Need to prove, in Fig. 1, only expressed the side wall surface 22 of a side.That is, a plurality of ejiction openings 15 are to be the face of turning back with median plane 23, with respect to median plane 23 be in the shape of the letter V symmetrically the configuration.In addition, with a plurality of ejiction opening 15 opposed position on, generally perpendicularly be provided with water-accepting part 21 with respect to emission direction from the jet flow 13 of a plurality of ejiction openings 15 ejections.

Fig. 3 is the stereogram of flow element nozzle of the drying apparatus for hands of embodiment 1 of the present invention.Flow element nozzle 20 possesses: inflow entrance 24, flow export 25, primary flow path 26 and circulation wind path portion 29.Introduce pressure-air from inflow entrance 24 here.The section of the direction that flow export 25 is vertical with respect to high pressure air flow 68 roughly is rectangle, and enlarges to the outside.Primary flow path 26 is communicated with flow export 25 from inflow entrance 24, and the section shape of primary flow path 26 roughly is rectangle.Circulation wind path portion 29 is from first 27 branch of a long side of the rectangle section of primary flow path 26, is communicated with second 28 of another long side of primary flow path 26.

Utilize the pressure-air of first 27, second 28 pressure differential driving circulation wind path portion 29 inside, thus the counter-rotating of first 27, second 28 pressure differential.Then, to make from the jet flow 13 of flow export 25 ejection be 19 vibrations of jet flow direction of vibration at the short side direction of the rectangle section of primary flow path 26 through driving pressure-air once more.

In addition, as shown in Figure 2, the circulation wind path portion 29 of flow element nozzle 20 is configured between the surface panel 30 and pressure-air generation portion 18 of main body 65 of drying apparatus for hands 11.In embodiments of the present invention, so-called pressure-air is the air that expression has the above pressure of atmospheric pressure, for example about 3kPa～12kPa.Pressure-air generation portion 18 as producing pressure-air can enumerate air blast etc.

In addition, as jet flow 13, preferred wind speed is the high speed winds about 50m/s～130m/s.Here, as an example, the vibration frequency that makes jet flow 13 is 100Hz; But if the words of not enough 20Hz; Then the vibration because of jet flow 13 is enough fast unlike the speed of extracting hand out, touches hand integral body surely so jet flow differs, so can not obtain the effect of jet flow vibration fully; If surpass 1000Hz, then the formation in the constant speed district of jet flow becomes insufficient, and before jet flow was run into hand, the wind speed decay becomes big, blows the power that flies water droplet and dies down, and was therefore not preferred.So, if the vibration frequency of jet flow 13 below the above 1000Hz of 20Hz, then can obtain the effect of jet flow vibration fully.

According to such structure, when using drying apparatus for hands 11,, hand is easy to down when inserting hand hothouse 12 finger tip.Therefore, except that the kinetic energy of jet flow 13, also utilize gravity that water droplet is fallen, can realize efficiently that hand is dry.Even when for the kinetic energy that effectively utilizes jet flow 13 hand generally perpendicularly being contacted with jet flow 13, water droplet can not move to user's wrist side yet, can prevent to bedew clothes, water droplet remains on the wrist.

In addition, because suction inlet 16 is arranged on the internal face of hand hothouse 12, so the jet flow 13 that can reduce by a plurality of ejiction opening 15 ejections flows out to hand hothouse 12 outsides.Therefore, reduced the water that disperses to hand hothouse 12 outsides, can prevent that sealing splashes the user.

In addition, with a plurality of ejiction opening 15 opposed position on, generally perpendicularly be provided with water-accepting part 21 with respect to emission direction from the jet flow 13 of a plurality of ejiction openings 15 ejections.Therefore, utilize by the jet flow 13 of a plurality of ejiction opening 15 ejections and caught by water-accepting part 21, can prevent that water droplet from dispersing to hand hothouse 12 outsides from blowing the water droplet that flies on hand.Here, if the smooth surface of water-accepting part 21, the noise that produces in the time of then can reducing jet flow 13 and impact water-accepting part 21.

In addition, a plurality of ejiction openings 15 symmetrically are configured to V-shape for the face of turning back with respect to median plane 23 with median plane 23, so that roughly concentrate on the median plane 23 of two side wall surface 22 of drying apparatus for hands 11 from the jet flow 13 of a plurality of ejiction openings 15 ejections.Therefore, because the emission direction of a plurality of jet flows 13 roughly concentrates on the median plane 23 of two side wall surface 22 of drying apparatus for hands 11, so also concentrated near the median plane 23 from blowing the water droplet that flies on hand by jet flow 13.Consequently, can prevent that water droplet from dispersing to hand hothouse 12 outsides.In addition, when the user carries out the hand drying, rubbing near the median plane 23 under the situation of hand, rubbing on hand because of jet flow 13 concentrates on, so can carry out the hand drying efficiently.

In addition, through vibrating, can see jet flow 13 off from the jet flow 13 of a plurality of ejiction opening 15 ejections wide region.Therefore, can reduce the quantity of a plurality of ejiction openings 15, reduce air quantity keeping under the situation of wind speed, reduce consumes electric power.

In addition, because jet flow direction of vibration 19 is approximate vertical with respect to hand direction of insertion 14, so on the optional position of hand, the draining that can both blow on the direction that flies with hand direction of insertion 14 approximate vertical is dripped.Consequently, when extracting hand out, water droplet to the finger tip direction, can not have uneven drying and hand is dry efficiently from the wrist sidesway.

In addition, because the vibration frequency of jet flow 13 is 20Hz below the above 1000Hz,, can carry out hand drying efficiently so can make jet flow 13 contacts integral body in one's hands.

In addition, owing to used flow element nozzle 20, thereby vibrate from the jet flow 13 of a plurality of ejiction opening 15 ejections, can see jet flow 13 off wide region.Therefore, can reduce the number of a plurality of ejiction openings 15, reduce air quantity keeping under the situation of wind speed, reduce consumes electric power.

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

In addition, the circulation wind path portion 29 of flow element nozzle 20 is configured between the surface panel 30 and pressure-air generation portion 18 of drying apparatus for hands 11.Consequently, circulation wind path portion 29 becomes the noise that is produced by pressure-air generation portion 18 and passes the barrier to surface panel 30, thereby has suppressed noise, so noise is lowered.In addition, owing to circulation wind path portion 29 is configured in the main body 65 of drying apparatus for hands 11, so can prevent because of wind path portion 29 damages that cause circulating such as impact from the outside.Therefore, can realize jet flow vibration steady in a long-term.

(embodiment 2)

Fig. 4 is the sectional block diagram of the drying apparatus for hands of embodiment 2 of the present invention.Drying apparatus for hands 41 possesses: hand hothouse 42, a plurality of ejiction opening 45, lower bevel 55, suction inlet 46, stream 47 and have the main body 65 of pressure-air generation portion 48 are provided with movable nozzle 50 between a plurality of ejiction openings 45 and pressure-air generation portion 48.

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

Stream 47 is communicated with suction inlet 46 that is arranged at upper surface 66 and a plurality of ejiction openings 45 that are arranged at lower bevel 55.Pressure-air generation portion 48 is arranged between suction inlet 46 and a plurality of ejiction opening 45, will boost from the air that suction inlet 46 is drawn and as pressure-air.Movable nozzle 50 makes jet flow 43 on the jet flow direction of vibration 49 with respect to hand direction of insertion 44 approximate vertical, under vibration frequency 20Hz, vibrates.

In addition, drying apparatus for hands 41 is provided with water-accepting part 51 with a plurality of ejiction opening 45 opposed position.And the pressure-air after boosting sprays above lower direction inboard 61 towards the hand that inserts hothouse 42 in one's hands as jet flow 43.

Fig. 5 is the amplification stereogram of movable nozzle of the drying apparatus for hands of embodiment 2 of the present invention.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 that are used to make oscillating nozzle 52 vibrations.Crank 54 will convert the straight reciprocating motion of oscillating nozzle 52 into by motor 53 rotatablely moving of generation.Through using such movable nozzle 50, can control the vibration frequency of jet flow 43 at an easy rate by drive division.

The example of the wind speed of pressure-air generation portion 48, jet flow 43 and the vibration frequency of jet flow 43 is identical with embodiment 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 can be to the finger tip side shifting owing to gravity attached to water droplet on hand.Therefore, the kinetic energy of the jet flow 43 that is sprayed acts on water droplet efficiently, peels off the water droplet attached on hand efficiently, and energy still less capable of using carries out the hand drying.In addition, though for the kinetic energy that effectively utilizes jet flow 43 with hand generally perpendicularly with when jet flow 43 contacts, water droplet is because the gravity relation can be shifted to the finger tip side.Therefore, water droplet can not move to user's wrist side, can not bedew clothes, and wrist can residually not have water droplet yet.

In addition, through vibrating from the jet flow 43 of a plurality of ejiction openings 45 ejections, but wide region see jet flow 43 off.Therefore, can reduce the quantity of a plurality of ejiction openings 45, reduce air quantity keeping under the situation of wind speed, reduce consumes electric power.In addition, can control the vibration frequency of jet flow 43 at an easy rate by drive division.

In addition, because the direction of vibration of jet flow 43 is approximate vertical with respect to hand direction of insertion 44, so on the optional position of hand, the draining that can blow on the direction that flies with hand direction of insertion 44 approximate vertical is dripped.Consequently, when extracting hand out, water droplet to the finger tip direction, can not have uneven drying and hand is dry efficiently from the wrist sidesway.

In addition, because the vibration frequency of jet flow 43 is 20Hz below the above 1000Hz,, carry out hand drying efficiently so can make jet flow 43 contacts integral body in one's hands.

In addition, suction inlet 46 is arranged on internal face upper surface 66 just.Therefore, can reduce from the jet flow 43 of a plurality of ejiction opening 45 ejections and flow out, reduce the water that disperses to hand hothouse 42 outsides, can prevent that sealing splashes the user to hand hothouse 42 outsides.

In addition and a plurality of ejiction opening 45 opposed position be provided with water-accepting part 51.Therefore, caught by water-accepting part 51 from blowing the water droplet that flies on hand, can prevent that water droplet from dispersing to hand hothouse 42 outsides through jet flow 43.

Utilizability on the industry

Drying apparatus for hands of the present invention is because can be with dry efficiently under the situation that does not bedew clothes attached to moisture 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 by this purposes of article of liquid adhesional wetting.

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 generation portions

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

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

61 inboards

63,66 upper surfaces

64,67 lower surfaces

65 main bodys

68 high pressure air flow

Claims (15)

1. drying apparatus for hands, it possesses:

The hand hothouse, it towards inside, and has upper surface, lower surface as internal face from the hand inserting side of inserting hand;

Suction inlet, its absorbing air;

A plurality of ejiction openings, it will spray as jet flow at the pressure-air after said hand hothouse boosts;

Main body, it has pressure-air generation portion, and this pressure-air generation portion is arranged between said suction inlet and the said a plurality of ejiction opening and makes said air become said pressure-air;

Stream, it is communicated with said suction inlet and said a plurality of ejiction opening,

Said drying apparatus for hands is characterised in that,

Said a plurality of ejiction opening be arranged in the said upper surface along with on the upper inclined surface that tilts towards said inboard and downwards from said hand inserting side, and the emission direction of said jet flow is said hand inserting side.

2. drying apparatus for hands, it possesses:

The hand hothouse, it towards inside, and has upper surface, lower surface as internal face from the hand inserting side of inserting hand;

Suction inlet, its absorbing air;

A plurality of ejiction openings, it will spray as jet flow at the pressure-air after said hand hothouse boosts;

Main body, it has pressure-air generation portion, and this pressure-air generation portion is arranged between said suction inlet and the said a plurality of ejiction opening and makes said air become said pressure-air;

Stream, it is communicated with said suction inlet and said a plurality of ejiction opening,

Said drying apparatus for hands is characterised in that,

Said a plurality of ejiction opening be arranged in the said lower surface along with on the lower bevel that tilts towards said inboard and downwards from said hand inserting side, and the emission direction of said jet flow is said inboard.

3. according to claim 1 or 2 described drying apparatus for hands, it is characterized in that,

Said suction inlet is arranged on said internal face.

4. according to claim 1 or 2 described drying apparatus for hands, it is characterized in that,

Be provided with water-accepting part with said a plurality of ejiction opening opposed position.

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

With said a plurality of ejiction opening opposed position on, vertically be provided with water-accepting part with respect to the emission direction of said jet flow.

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

The mode of median plane that concentrates on the side walls face of said main body with the emission direction of said jet flow disposes said a plurality of ejiction opening.

7. drying apparatus for hands according to claim 6 is characterized in that,

Said a plurality of ejiction opening is with respect to said median plane balanced configuration.

8. drying apparatus for hands according to claim 7 is characterized in that,

Said a plurality of ejiction opening is be in the shape of the letter V shape configuration of the face of turning back with said median plane.

9. according to claim 1 or 2 described drying apparatus for hands, it is characterized in that,

Said jet flow is vibrated.

10. drying apparatus for hands according to claim 9 is characterized in that,

The direction of vibration of said jet flow is with respect to vertical towards the hand direction of insertion of said hand hothouse.

11. drying apparatus for hands according to claim 9 is characterized in that,

The vibration frequency of said jet flow is more than the 20Hz and below the 1000Hz.

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

Between said a plurality of ejiction openings and said pressure-air generation portion, be provided with movable nozzle, said movable nozzle comprises nozzle that is made up of movable link and the drive division that is used to make said nozzle vibration.

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

Between said a plurality of ejiction openings and said pressure-air generation portion, be provided with the flow element nozzle,

Said flow element nozzle possesses: inflow entrance, and it draws said pressure-air; Flow export, it is rectangle with respect to the section on the vertical direction of said high pressure air flow and enlarges towards the outside; Primary flow path, it is communicated with said flow export and section shape is a rectangle from said inflow entrance; Circulation wind path portion, it is from first branch of a long side of said primary flow path, is communicated with second of another long side of said primary flow path,

Said flow element nozzle vibrates said jet flow on the said rectangular short side direction of said primary flow path.

14. drying apparatus for hands according to claim 13 is characterized in that,

Said circulation wind path portion is configured in the said main body.

15. drying apparatus for hands according to claim 14 is characterized in that,

Said circulation wind path portion is configured between the surface panel and said pressure-air generation portion of said main body.

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