CN101579661A

CN101579661A - Mist spray apparatus

Info

Publication number: CN101579661A
Application number: CNA2009101412686A
Authority: CN
Inventors: 松坂建志; 斋藤纯子
Original assignee: Matsushita Electric Works Ltd
Current assignee: Panasonic Electric Works Co Ltd
Priority date: 2008-05-15
Filing date: 2009-05-14
Publication date: 2009-11-18
Also published as: JP2009273721A; KR20090119726A; RU2419408C2; JP4760855B2; RU2009118335A; EP2119422A1

Abstract

The mist spray apparatus has a mist generator configured to generate high-temperature mist, and a nozzle that has an orifice and is configured to spray the mist through the orifice. The nozzle is covered with a nozzle cover. The apparatus further has an intake window. This intake window is configured to pull ambient air in the nozzle cover by negative pressure generated around the orifice when mist is sprayed from the orifice.

Description

Sprayer unit

Technical field

The present invention relates to a kind of sprayer unit, this sprayer unit is configured to mist vapour (mist) is ejected on people's for example the skin to carry out aesthetic nursing (beauty care).

Background technology

For example, be published in the Japan 2007-260058A patent application on October 11st, 2007 and disclosed the steam cosmetic apparatus.This device has device body, and this device body comprises mist vapour generator (heating arrangements), long nozzle etc.This mist vapour generator is configured to produce high temperature mist vapour (steam), and comprises for example heater and boiling-house.This nozzle has the aperture, and this nozzle is constructed to spray mist vapour by this aperture.This nozzle is flap nozzle and engages with flexible conduit (flexible elastic component) in this device body, so that stretch out from this device body.

In this steam cosmetic apparatus, when the long nozzle of high temperature mist steam flow, this high temperature mist vapour can be reduced to suitable temperature.Because this device also has flap nozzle, can be injected in safely and reliably on user's the desired site by the mist vapour that temperature is suitable, for example face etc.

Yet because this device has long nozzle, the storage area that therefore exists this device becomes big problem.If be the contraction in length of head it off with nozzle, then the aperture of nozzle can be near mist vapour generator, and therefore the temperature of the mist vapour that sprays from the aperture can raise.Therefore distance between aperture and user's the desired site is extended, and makes and be difficult to mist vapour is ejected on the desired site safely and reliably.In addition, because mist vapour can be spread before arriving desired site, make mist vapour not to be injected on the desired site.

Summary of the invention

Even the objective of the invention is nozzle is shortened also and the mist vapour that temperature is fit to can be injected on user's the desired site safely and reliably.

Sprayer unit according to the present invention comprises mist vapour generator, nozzle, shell and tubular nozzle casing.Mist vapour generator is configured to produce high temperature mist vapour.Nozzle has the aperture, and this nozzle is constructed to spray mist vapour by this aperture.Shell makes this mist vapour generator and this nozzle be combined into one integral body.Nozzle casing is configured to cover this nozzle, and control is from the injection direction of the mist vapour of aperture ejection.In a scheme of the present invention, this device also comprises inlet port (intake window).This inlet port be configured to when mist vapour when this aperture is ejected, by means of the negative pressure that produces around this aperture outside air is drawn in this nozzle casing.

In the present invention and since when mist vapour when this aperture is ejected, outside air is inhaled in this nozzle casing by means of the negative pressure that produces around this aperture, therefore the temperature from the mist vapour of this nozzle discharge can be reduced to suitable temperature.In addition, the mist vapour that temperature is fit to can be injected on user's the desired site safely and reliably.

In one embodiment, the aperture of this nozzle is extrusion orifice (squeeze orifice), and this aperture is arranged at the upstream of this inlet port.In this embodiment, can around inlet port, produce negative pressure effectively during from the ejection of this aperture when mist vapour.

In one embodiment, this nozzle casing comprises inner separator or inner annular flange, and this inside separator or this inner annular flange comprise that one leads to the hole in the aperture of this nozzle.This inlet port comprises a slit or a plurality of slit or hole, and described slit or hole are around the edge setting in the hole of this inside separator or this inner annular flange.In this embodiment, can prevent the turbulent flow that produces owing to mist vapour from aperture ejection.In addition, can also improve the linearization(-sation) characteristic (straighteningproperty) of the mist vapour that sprays from the aperture.

This shell also can comprise air vent, and this air vent leads to this inlet port via the inner space of this shell.And this shell also can comprise draft tube liner and air vent, and this air vent leads to this inlet port via this draft tube liner.In these cases, the zone of air vent is increased, thereby a large amount of outside airs can be inhaled in the nozzle casing.

In one embodiment, this inlet port is formed on this nozzle casing.In this embodiment, can outside air be drawn in this nozzle casing by simple structure.

Description of drawings

To illustrate in greater detail each preferred embodiment of the present invention now.Other feature and advantage of the present invention will become more thoroughly understandable by following detailed description and accompanying drawing, in the accompanying drawings:

Fig. 1 is the longitudinal sectional view according to the sprayer unit of first embodiment of the invention;

Fig. 2 is the front view of this sprayer unit;

Fig. 3 is the longitudinal sectional view of the basic element of character of this sprayer unit;

Fig. 4 shows the basic element of character of an embodiment;

Fig. 5 is the schematic diagram according to the sprayer unit of second embodiment of the invention; And

Fig. 6 A is the schematic diagram according to the sprayer unit of third embodiment of the invention, and Fig. 6 B shows the example of the variation of this sprayer unit.

The specific embodiment

First embodiment

Fig. 1 and Fig. 2 show the sprayer unit according to first embodiment of the invention.This device for example is to be configured to mist vapour is ejected on people's the skin carrying out the cosmetic apparatus of aesthetic nursing, and this device has device body 1 and liquid reserve tank 9.This liquid reserve tank 9 for example is the water tank that is used for water storage, and removably is connected in device body 1, and for example the part of position is gone up in the back.

Device body 1 comprises: water supply mechanism 2, mist vapour generator 3, mist vapour discharging mechanism 4, high pressure generator (high voltage generator) 5, nozzle 6 and tubular nozzle casing 7, and have the shell 8 that holds these members.This shell 8 is formed by a plurality of parts combinations.

Water supply mechanism 2 is configured to the liquid (for example water) in the liquid reserve tank 9 is supplied to mist vapour generator 3.For example, water supply mechanism 2 comprises: release pin 21, reservoir (reservoir) 22, first feed path 23, second feed path 24, continuous passage (continuous channel) 25 and preheating channel 26.Release pin 21 is used for upwards pushing away the discharge outlet 90 of opening the liquid reserve tank 9 of being closed by this lock-up cock 91 by the lock-up cock of the liquid reserve tank 9 that will be connected in device body 1 (stop cock) 91 (and a pin).Reservoir 22 be arranged on the liquid reserve tank 9 that is connected in device body 1 below.For example, reservoir 22 comprises a groove, is stored in earlier in this groove before being used by mist vapour generator 3 from the liquid of liquid reserve tank 9.

First feed path 23 joins the bottom of reservoir 22 to, and this first feed path 23 is arranged on the preceding bottom in the shell 8, so that the head end of this first feed path 23 (tip) 231 is arranged in the preceding bottom of shell 8.Second feed path 24 is engaged in the head end 231 of first feed path 23, and vertically is provided with, so that the head end 241 of this second feed path 24 is positioned at the top of the tail end (root) 240 of this second feed path 24.

Continuous passage 25 is formed between the tail end 240 and mist vapour generator 3 (boiling-house 31 described below) of second feed path 24.Preheating channel 26 is bonded between the tail end 230 and head end 231 of first feed path 23, and vertically is provided with, so that the head end 261 of preheating channel 26 is positioned at tail end 260 tops of preheating channel 26.The head end 261 of preheating channel 26 also leads to the outlet (mist vapour generating unit) of mist vapour generator 3.

Mist vapour generator 3 is configured to produce high temperature mist vapour.For example, mist vapour generator 3 comprises boiling-house 31 and heater 32.Yet the present invention is not limited to this, and mist vapour generator of the present invention can be configured to liquid is converted into mist vapour and heat this mist vapour by ultrasonic wave, perhaps can be configured to by injection stream (nozzlejet) liquid is converted into mist vapour and heat this mist vapour.

Boiling-house 31 is engaged in the head end 251 of continuous passage 25, and vertically is provided with, so that the top 311 of boiling-house 31 is positioned at the top of the bottom 310 of the boiling-house 31 that connects with head end 251.The top 311 of boiling-house 31 is the outlet of mist vapour generator 3 (being mist vapour generating unit), and the head end 241 of second feed path 24 is led on this top 311 via at least one U-shaped passage 312.Heater 32 has the area of heating surface 321 and heat-delivery surface (radiating surface) 322, and heater 32 is arranged between boiling-house 31 and the preheating channel 26, so that the area of heating surface 321 forms a side of boiling-house 31, and heat-delivery surface 322 forms a side of preheating channel 26.In other words, boiling-house 31 and preheating channel 26 are flat (flat) shape.In mist vapour generator 3, heater 32 makes water boil in the boiling-house 31 by being used to heat from the area of heating surface 321, and by being used to heat from heat-delivery surface 322 with the water preheat in the preheating channel 26.Thus, be preheated in preheating channel 26 from the water of reservoir 22, and in boiling-house 31, boiled, thereby, the water from liquid reservoir 22 can be boiled effectively.

The high temperature mist vapour that mist vapour discharging mechanism 4 is configured to be produced by mist vapour generator 3 is directed to the opening 80 of the front upper part that is formed on shell 8.For example, mist vapour discharging mechanism 4 comprises mist vapour conduit 41 and flexible conduit 42.Mist vapour conduit 41 is engaged in the head end 241 of second feed path 24, and is arranged so that the head end 411 of mist vapour conduit 41 is positioned at the top of the tail end 410 of mist vapour conduit 41.Flexible conduit 42 is engaged in the head end 411 of mist vapour conduit 41, and is arranged so that the head end 421 of flexible conduit 42 is positioned at opening 80.

The mist vapour that high pressure generator 5 is configured in mist vapour discharging mechanism 4 applies electrostatic charge to produce static mist vapour.For example, high pressure generator 5 is arranged in the mist vapour conduit 41, so that the mist vapour in the mist vapour discharging mechanism 4 is applied high voltage.

Nozzle 6 is engaged in the head end 421 of flexible conduit 42.Nozzle 6 has aperture 61, and is configured to the mist vapour (static mist vapour) from mist vapour generator 3 is sprayed via aperture 61.For example, nozzle 6 is button (button type) nozzle, and its thickness is significantly shorter than the length of the nozzle of aforementioned steam cosmetic apparatus.This thickness is set to but for example is not limited in the 2cm.In addition, aperture 61 is shorter than the extrusion orifice of the inside dimensions of flexible conduit 42 for side dimension.

Nozzle casing 7 is configured to hide nozzle 6 and controls the direction of the mist vapour that sprays from the aperture 61 of nozzle 6.In the embodiment in figure 1, nozzle casing 7 is made of a plurality of parts, and has inner separator 70.Nozzle casing 7 is divided into front portion (anterior part) 71 and rear portion (posterior part) 72 by inner separator 70.Anterior 71 flares, and rear portion 72 is parabola shaped.Inner separator 70 has: inner surface, and this inner surface broadens forward gradually from the edge of the centre bore 700 of himself; And keeper 701, be used for engagement nozzle 6 and nozzle casing 7.Keeper 701 has hole 702, and the aperture 61 of nozzle 6 is led in this hole 702, and keeper 701 is fixed in the inboard of nozzle casing 7 by fastener (not shown), to form inlet port 10 between the outward flange of the edge in hole 700 and keeper 701.In brief, inlet port 10 is formed by the slit at the edge of wound hole 700, and these slits are engaged part and separate.The width in each slit is set to 1mm at least.Nozzle 6 is fixed on the rear portion of keeper 701 by a plurality of screw S, simultaneously nozzle casing 7 insert in the opening 80 of shells 8 so that the outer peripheral face at rear portion 72 from the inboard sealing opening 80 of shell 8.Thus, the aperture 61 of nozzle 6 can move backward to the rear portion of keeper 701.The part of nozzle casing 7 (part at rear portion 72 and anterior 71) also reaches outside the opening 80 of shell 8.

Shell 8 also has a plurality of air vents (not shown), and this air vent leads to inlet port 10 via the inner space 81 of shell 8.In the present embodiment, air vent is the gap that constitutes between each parts of shell 8.Thus, formed inlet port 10, and be provided with after the hole 702 of aperture 61 next-door neighbour's keepers 701, and the upstream at next-door neighbour's inlet port 10 centers is provided with.Thus, when mist vapour from the aperture 61 whens ejection, outside air can be inhaled in the nozzle casing 7 by the negative pressure that produces around aperture 61.In brief, mist vapour injection apparatus has inlet port 10, this inlet port 10 be used for when mist vapour from the aperture 61 whens ejection by 61 negative pressure that produce and outside air is drawn into nozzle casing 7 around the aperture.Nozzle casing 7 also has the rear portion 72 that is parabolic shape, therefore, is moved if be fixed in the nozzle casing 7 of nozzle 6, and the opening 80 of shell 8 also can be sealed by the outer peripheral face at rear portion 72.In one example, a plurality of air vents can be near the through hole the opening 80 that is formed on shell 8.

The following describes the operation of present embodiment.If the water in the liquid reserve tank 9 is fed into by water supply mechanism 2 in the boiling-house 31 of mist vapour generator 3, then the water in the boiling-house 31 can be boiled by heater 32, subsequently in the outlet (mist vapour generating unit) of mist vapour generator 3, be that 311 places, top produce high temperature mist vapour.The high voltage that produces by high pressure generator 5 makes this mist vapour have electrostatic charge, arrives nozzles 6 until it through mist vapour discharging mechanism 4, and subsequently from aperture 61 ejections of nozzle 6.

Particularly, when mist vapour shown in the arrow among Fig. 3 " A " from the aperture 61 whens ejection, outside air passes inner space 81 and inlet port 10 is inhaled into the nozzle casing 7 by Venturi effect (Venturi effect) from the air vent of shell 8 shown in the arrow " B " of Fig. 3.Subsequently, be subjected to all being sent to the outside in nozzle casing 7 controls in himself direction from the mist vapour of aperture 61 ejection and the air that is drawn into the nozzle casing 7.In the case, the temperature of the mist vapour of 61 ejections is lowered by the air of inlet nozzle cover 7 from the aperture, therefore, the temperature of the mist vapour of discharging from the opening 711 of nozzle casing 7 can be lowered to suitable temperature (for example in 36 ℃ to 46 ℃ scope, but be not limited thereto).Owing to outside air also is inhaled in the nozzle casing 7 so that therefore the mist vapour of encirclement 61 injections from the aperture can prevent the turbulent flow that is produced owing to the 61 mist vapour that spray from the aperture.Therefore, even nozzle 6 is shorter, also the mist vapour that temperature is fit to can be ejected on user's the desired site safely and reliably.The linearization(-sation) characteristic of the 61 mist vapour that spray can also be improved in addition, and the pulsating motion (pulsatory motion) and the fluctuation (fluctuation) of mist vapour can be prevented from the aperture.Owing to be provided with after the hole 702 of aperture 61 next-door neighbour's keepers 701, and be close to the upstream setting at inlet port 10 centers especially, therefore can near inlet port 10, produce negative pressure effectively.

As shown in Figure 4, in one embodiment, mist vapour injection apparatus has the inlet port 10 that is formed by an annulus.In this embodiment, keeper 701 is fixed in the nozzle casing 7 by a plurality of fasteners (not shown), and described a plurality of fasteners are arranged on the position that can not separate this inlet port 10.Yet the present invention is not as limit, and inlet port of the present invention can be formed by a plurality of holes at the edge that centers on hole 700.In one example, nozzle casing 7 can have the inner annular flange.Similar to inner separator 70, this inner annular flange has hole 700, but does not have keeper 701.This inner annular flange is fixed in nozzle casing 7 or flexible conduit 42 by a plurality of fasteners, thereby forms inlet port 10 between the outward flange of the edge of this inner annular flange and nozzle 6.

Second embodiment

Fig. 5 shows the sprayer unit according to second embodiment of the invention.The generation type of this device is identical with first embodiment, and comprises draft tube liner 811.In the example of Fig. 5, each draft tube liner 811 is arranged between inlet port 10 and the air vent 82, and the opening of air vent 82 from the end of corresponding draft tube liner 811 to this air vent self broadens gradually.Compare with the air vent (gaps between each parts) of first embodiment, in this second embodiment, can a large amount of outside airs be drawn into the nozzle casing 7 effectively from inlet port 10.

The 3rd embodiment

Fig. 6 A shows the sprayer unit according to third embodiment of the invention.Except inlet port 10, the generation type of this device is identical with first embodiment, and this device is characterised in that this inlet port 10 is formed on the nozzle casing 7.In the example of Fig. 6 A, inlet port 10 is formed by a plurality of holes or the slit at the peripheral side rear portion that is arranged on nozzle casing 7.Preferably, constitute the position of upstream that the hole of inlet port 10 or slit are set to be centered around the aperture 61 of next-door neighbour's nozzle 6.Inlet port 10 is set in the scope of 0.5mm to 2mm at least along the axial width of tubular nozzle casing 7.In the 3rd embodiment, can outside air be drawn in the nozzle casing 7 by simple structure.

In the example shown in Fig. 6 B, inlet port 10 can be included in the hole that forms from front to back on the peripheral side of nozzle casing 7.

Though abovely described the present invention with reference to some preferred embodiments, those skilled in the art can make multiple modification and modification under the situation that does not break away from the spirit and scope of the present invention.

Claims

1. sprayer unit comprises:

Mist vapour generator, it is configured to produce high temperature mist vapour;

Nozzle, it has the aperture, and this nozzle is constructed to spray mist vapour by this aperture;

Shell, it makes this mist vapour generator and this nozzle be combined into one integral body; And

The tubular nozzle casing, it is configured to hide this nozzle and controls from the direction of the mist vapour of this aperture ejection;

Wherein, this device also comprises inlet port, and this inlet port is configured to by means of the negative pressure that produces around this aperture outside air is drawn into this nozzle casing when this aperture is ejected when described mist vapour.

2. sprayer unit as claimed in claim 1, wherein the aperture of this nozzle is an extrusion orifice, and this aperture is arranged at the upstream of this inlet port.

3. sprayer unit as claimed in claim 2,

Wherein this nozzle casing comprises inner separator or inner annular flange,

This inside separator or this inner annular flange comprise that one leads to the hole in the aperture of this nozzle,

Wherein this inlet port comprises a slit that is provided with around the edge in this hole, or a plurality of slit or hole.

4. sprayer unit as claimed in claim 3, wherein this shell also comprises air vent, this air vent leads to this inlet port via the inner space of this shell.

5. sprayer unit as claimed in claim 3, wherein this shell also comprises draft tube liner and air vent, this air vent leads to this inlet port via this draft tube liner.

6. sprayer unit as claimed in claim 2, wherein this inlet port is formed on this nozzle casing.