Fluid sprinkling – spraying – and diffusing – With means to vibrate or jiggle discharge – By electric transducer
Reexamination Certificate
2002-09-03
2004-04-20
Ganey, Steven J. (Department: 3752)
Fluid sprinkling, spraying, and diffusing
With means to vibrate or jiggle discharge
By electric transducer
C239S552000, C239S596000, C239S601000, C239SDIG001
Reexamination Certificate
active
06722582
ABSTRACT:
The present invention relates to a liquid droplet spray device suitable for atomising a liquid substance such as a drug, a fragrance or other atomised liquids. Such a device may be used, e.g., for perfume dispensers or for administrating an atomised or nebulised drug to a patient by means of his or her respiratory system. Such a device, in its simplest form, is commonly called an atomizer. The device delivers the liquid substance as a dispersion of atomised droplets. More specifically, the present invention concerns an improved liquid droplet spray device that efficiently creates and expels a controllable liquid droplet spray.
Various liquid droplet spray devices are known for atomising a liquid. For instance, the document EP 0 516 565 describes an ultrasonic wave nebuliser which atomises water. This apparatus is used as a room humidifier. Vibration is transmitted through the water to the water surface from which the spray is produced. A perforate body is provided to retain the water in absence of oscillation.
Typically, inhaler devices use the same principle to atomise the liquid substance into droplets, see for example the document WO 95/15822.
As is known, the droplet size depends on the size of the outlet orifices of the perforate membrane, and also depends on the vibration frequency. In order to obtain a small droplet, a very high frequency should be used, typically over 1 MHz for droplets of about 10 &mgr;m in diameter. Generally, the higher the frequency, the smaller the droplet diameter may be. This leads to increased power consumption due to the high frequency so that such a device is not suitable for a small battery operated device.
Another liquid droplet spray device is known from the document EP-A-0 923 957 in the name of the present Applicant. The described liquid droplet spray device consists of a housing formed of a superposition of a first substrate and a second substrate in-between which a chamber or a space is formed for containing a liquid substance and thus providing a compression chamber. Outlet means are provided in a thinner body section of the first substrate. The outlet means consists of a cavity, which partly constitutes the chamber, outlet nozzles and output channels connecting these nozzles to the chamber. The liquid substance enters the chamber or space of spray device by way of, e.g., a very low pressure, e.g., around a few millibars, or capillary action. The spray device further comprises a vibrating element, e.g. a piezoelectric element to cause vibration of the liquid substance in the space. By vibrating the liquid substance, the liquid enters the outlet means and a droplet spray is generated as the liquid is expelled from the device.
This prior art document further describes techniques allowing for such output channels with a straight, non-tapered profile. This provides for a precisely defined pressure drop, droplet size and flow behaviour across the output channel for aqueous solutions and suspensions whereas the relatively smooth surface is suited for medications carrying small solid particles, e.g. from less than 1 to approx 2 &mgr;m, in suspensions. The same effect can be obtained proportionally with larger dimensions, e.g. with nozzles of 10 &mgr;m or larger for example for perfume dispensing applications.
The diameter of an expelled droplet depends on the nozzle hole size “d” for a given frequency of the vibration of the liquid substance and the inlet pressure. In this prior art device where a frequency of around 243 kHz is used, the mean droplet diameter has been found to be around 5 &mgr;m, the diameter of the hole of the outlet nozzle is around 7 &mgr;m and the inlet pressure is a few millibars. One such a droplet thus contains a quantity of around 67 femtoliters (10
−15
l) so that as such the number of nozzles may be determined as a function of the amount to be ejected.
Indeed, the fabrication tolerance &Dgr;d of the outlet nozzles is an essential factor in controlling and determining the amount, i.e. the volume “V” of an expelled droplet. In fact, this volume V depends on d
3
(V=⅙*Πd
3
), d being the diameter of the outlet nozzle.
For example, if d=5 &mgr;m, and &Dgr;d=±0.5 &mgr;m, the droplet volume V may vary from 47.5 (d=4.5) to 87 (d=5.5) which is a variation of 83%.
Furthermore, it is known that the pressure drop across the output channel depends on d
4
, so it may be understood that the outlet diameter, the channel diameter, its cross-section, as well as any combination of varying micro-machined cross-sections of the outlet channel and nozzle are an important factor in the structure of the liquid droplet spray device.
It is also known that the droplet diameter varies with certain physico-chemical properties of the liquid such as surface tension and viscosity. It is therefore important as shown in the cited prior art to be able to adapt the physical and electrical device parameters (frequency and amplitude) according to the liquid to be expelled and the desired droplet characteristics.
In fact, as can be understood from above, the outlet means need to be manufactured with a very high precision and very low tolerance. This leads to a relatively expensive device.
The applicant has now found that although the prior art device generally functions satisfactorily, the construction of this device has limits if it needs to be manufactured in a cheap manner thereby still ensuring sufficient rigidity and precision when manufacturing the outlet means.
It is, therefore, an object of the present invention to provide a liquid droplet spray device which overcomes the above-mentioned inconveniences.
It is another object of the present invention to provide such a device that is simple, reliable and inexpensive to manufacture, small in size and low in energy consumption and cost.
Thus, the present invention concerns a liquid droplet spray device as defined in the appended claims.
Thanks to the construction of the spray device according to the present invention an efficient device may be obtained in a relatively simple and inexpensive manner.
REFERENCES:
patent: 5152456 (1992-10-01), Ross et al.
patent: 5261601 (1993-11-01), Ross et al.
patent: 5823428 (1998-10-01), Humberstone et al.
patent: 6036105 (2000-03-01), Sanada et al.
patent: 6405934 (2002-06-01), Hess et al.
patent: 0 516 565 (1992-12-01), None
patent: 0 923 957 (1999-06-01), None
patent: 1 005 917 (2000-06-01), None
patent: WO 95/15822 (1995-06-01), None
Flick Jean-Marc
Hess Joseph
Hu Bo
Luginbühl Philippe
Ganey Steven J.
Griffin & Szipl PC
Microflow Engineering SA
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