EP1214986A1 - Ultrasonic atomizer - Google Patents

Abstract

The piezoelectric oscillator (10) is designed as a completely flat surface panel and is connected with a substrate panel (12). The substrate panel has at least one recess (14). The piezoelectric oscillator and/or the substrate panel are designed at least essentially round panels.

Description

The invention relates to an ultrasonic atomizer for production of a liquid spray.

Ultrasonic atomizers are used when the to generating spray mist high demands especially in relation distribution as homogeneous as possible or as possible good meterability. Possible areas of application are e.g. use in painting equipment, air humidification systems, medical devices - where a medical effective aerosol generated in a certain dosage - but also household appliances, such as Iron, in those to generate particularly good work success Ultrasonic atomizers are used to make a to produce water mist that supports the ironing process.

DE 197 35 214 C2 shows an iron which et al has a piezoelectric atomizing device. The piezoelectric element of the piezoelectric atomizer has a number of targeted ones Openings on. The manufacture of such a piezoelectric Elements therefore requires one accordingly complex manufacturing process.

EP 1 005 917 A1 describes an inhaler with an ultrasonic atomizer described. This consists of a first and a second substrate, and a vibration generator.

The two substrates and the vibrator are essentially three-dimensional, specially designed bodies. Especially the first substrate, which is the outlet device for the atomized liquid is very important elaborately designed to the excited main vibration mode optimal support.

The disadvantage here is that the production of such a design Ultrasonic atomizer is expensive because of it especially complicated three-dimensional substrate bodies have to be made, which is a very specific one, exactly geometry must be observed to ensure the atomization success make sure.

An ultrasonic atomizer is described in EP 0 689 879 A1, which is particularly suitable for medical applications is suitable where a relatively small amount of liquid needs to be atomized. This is especially a special designed coupling body provided for good wetting with as little medicinal liquid as possible to be atomized to ensure.

The disadvantage here is that this ultrasonic atomizer is not is suitable for atomizing larger quantities of liquid.

The invention is therefore based on the object of an ultrasonic atomizer indicate which one is easy to manufacture, a favorable radiation behavior with regard to the to be generated Has spray mist and covers a wide range of uses.

According to the invention, the task is performed by an ultrasonic atomizer solved with a piezoelectric transducer, at which the piezoelectric transducer as a whole-surface table is formed and connected to a substrate board.

In contrast to the prior art, the invention is Ultrasonic atomizer easy to manufacture because it is used to manufacture the essential components of which do not require any special manufacturing steps in which one or more components of the atomizer a complicated three-dimensional geometric shape is given.

In particular, the field of application of the invention Ultrasonic atomizer not limited to applications, where a relatively small amount of liquid is atomized shall be.

Under blackboard should in connection with the invention Ultrasound atomizer understood a plate-like structure which are two flat, parallel interfaces having. Furthermore, this plate-like structure is said to be one have a small thickness compared to its length.

A board is called the whole area if on one of the Interfaces two with respect to the center of gravity of the panel the opposite edge points always by a straight line Route can be connected, the routes being completely in of the respective area. Minor irregularities on The edge of the respective interface should not be considered become.

The substrate board advantageously has at least one recess on.

The targeted geometric design of the recess in the substrate board allows to set the vibration modes of the Formed consisting of piezoelectric vibrator and thus connected substrate board.

So it is e.g. possible the working frequency of the ultrasonic atomizer targeted to a frequency range far from the hearing limit away to avoid acoustic impairments to avoid during operation.

The variation in the size and geometric shape of the recess the substrate board also allows targeted influence to take on the size of the atomization process resulting liquid droplets. Compared to the variation the geometry of the piezoelectric transducer represents the Variation of the geometry of the recess of the substrate plate one technically easy to accomplish task.

The recess advantageously extends over the geometric one Center of gravity of the substrate board with elliptical, circular or regular polynomial cross section of the substrate plate so about the center. This will make the adjustment to the desired vibration mode particularly easily.

In a further advantageous embodiment of the invention the piezoelectric vibrator and / or the substrate plate formed as at least essentially round plates.

Because the round shape has multiple symmetries, are the vibrations along the surface of the piezoelectric Schwingers particularly homogeneous. The same applies to the Use a substantially round substrate board. There the substrate board's job is to set certain vibration modes to stimulate or suppress is one in many Advantageous in terms of symmetrical shape of the substrate board, to achieve this effect as homogeneously as possible. Moreover round boards are easy to manufacture.

Both the piezoelectric vibrator is advantageous as well as the substrate board as a round board, the substrate panel having a central hole.

In this embodiment of the invention, the symmetry properties come of the components involved are particularly good and complementary to unfolding. In addition, there is a middle one Hole can be easily made as a recess in the substrate board.

In a further advantageous embodiment of the invention the steel substrate board.

Steel is a material that can be easily procured or manufactured is. Furthermore, a large number of simple ones and easy processing options for steel.

The piezoelectric vibrator on the substrate board is advantageous glued on, especially the transducer and substrate board largely glued together.

An adhesive connection is easy to produce and offers at Ultrasonic atomizer according to the invention the advantage that the most homogeneous possible distribution of the adhesive layer in comparison the vibrations of the piezoelectric vibrator connected to the substrate panel be little affected.

In a further advantageous embodiment of the invention the substrate board has at least one hole and this is closed by at least one aid.

The aid has a thickness which is clear is below the thickness of the substrate board.

Closing the hole in the substrate board with a tool offers the advantage that the especially in operation without Liquid heat generated by the piezoelectric vibrator can be dissipated more easily because the heat on the with aids in contact with the piezoelectric vibrator passes over and is distributed over its surface. If the surface of the aid is at least somewhat larger than the cross section of the hole, the heat input is improved, because the surface of the aid is directly related to the environment communicates. In operation with liquid offers the aid also has the advantage of corrosion protection of the piezoelectric transducer when the feed the liquid to be atomized from that facing away from the transducer Side of the substrate board. Then she kicks no longer in direct contact with the surface of the piezoelectric Oscillator.

The aid is advantageously a plastic film and / or a paint and / or a metal foil.

The aids mentioned above allow a special one easy closing of the hole without much effort.

The ultrasonic atomizer in an iron is advantageous used to generate a spray.

FIG 1

eine Draufsicht eines piezoelektrischen Schwingers, der mit einer Substrat-Tafel verbunden ist,

FIG 2

eine Seitenansicht des in FIG 1 dargestellten, mit einer Substrat-Tafel verbundenen piezoelektrischen Schwingers,

FIG 3

einen Längsschnitt durch einen Ultraschallzerstäuber und

FIG 4

eine Explosions-Zeichnung eines elektrischen Bügeleisens mit einem Ultraschallzerstäuber.

The following drawings illustrate four exemplary embodiments of the invention. Show it:

FIG. 1

a plan view of a piezoelectric vibrator, which is connected to a substrate board,

FIG 2

2 shows a side view of the piezoelectric vibrator shown in FIG. 1 connected to a substrate board,

FIG 3

a longitudinal section through an ultrasonic atomizer and

FIG 4

an exploded view of an electric iron with an ultrasonic atomizer.

1 shows a whole-area piezoelectric oscillator 10 shown, which is connected to a substrate board 12 is. The substrate board 12 has a recess 14 center hole. Both the piezoelectric vibrator 10 as well as the substrate board 12 are in this embodiment designed as round plates. The piezoelectric vibrator 10 and the substrate panel 12 form a sandwich arrangement and are preferably glued together flat. The one to be atomized This sandwich arrangement is on a liquid Not shown in FIG 1 way can be supplied. Advantageous the substrate board 12 has through openings 16, through which, when operating the ultrasonic atomizer, the one to be atomized or pass through already atomized liquid can.

The recess 14 of the substrate board 12 can be of geometrical sizes such as. Target length, width, area or diameter be designed so that the one is not closer shown excitation device consisting of excited unit with piezoelectric vibrator 10 and substrate board 12 with a desired working frequency swings.

2 shows a side view of FIG. 2 along the section II-II. The passage openings 16 are of a perforated film 18, which is perforated in the present exemplary embodiment Ring disc is covered. The not shown Holes in the perforated film 18 preferably have a diameter of approx. 50 µm. The purpose of these holes is that no liquid can pass through it if the ultrasonic atomizer is not actuated, i.e. the piezoelectric Vibrator is not excited. The perforated film 18 is preferably glued flat to the substrate board 12.

3 shows an ultrasonic atomizer 19. This is connected with a tank housing 29, which consists of two by one Partition 31 separate rooms (30, 32) there. In both There is clearing during the operation of the ultrasonic atomizer 16 liquid 34. The liquid in the working space 32 is the one which the next time you press a button, not shown Actuator of the ultrasonic atomizer 16 is used for atomization. A particularly good atomization result is obtained if one is possible in the work area 32 even distribution of pressure in the liquid prevails. To ensure such a pressure distribution, can with the help of the conveyor 33, which is preferred is designed as a pump, liquid from the storage room 30 are specifically transported to the work area 32 in order to be there occurring during the operation of the ultrasonic atomizer 16 Compensate for pressure fluctuations in the liquid.

The ultrasonic atomizer 19 further comprises an entire surface piezoelectric vibrator 20, which is on a substrate board 22, which in the present embodiment is designed as a disc, is glued on. The substrate board 22 has a central hole, which with a Aid 35, for example closed with a varnish is. The thickness of the aid 35 should be compared to the thickness the substrate board 22 may be small. The substrate panel 22 also has passage openings 26, which with a annular perforated film 28 or a porous washer are.

If the ultrasonic atomizer 19 is now operated by a Actuating device, not shown, is operated, so the piezoelectric vibrator 20 also experiences Excitation device, not shown, an electrical Excitation which is the unit which is made of piezoelectric Vibrator and substrate panel 22 is made to vibrate. With this excitation, the liquid is atomized into Liquid droplets that are small enough to pass through the Holes of the perforated film 28 to reach and through the passage openings 26 to be ejected in the R direction.

The tool 35, with which the central hole of the substrate board is closed, then especially improves the Heat dissipation of the piezoelectric vibrator 20 when there is no liquid 34 in the tank housing 29 and the ultrasonic atomizer 19 is operated anyway. Furthermore offers closing the central hole of the substrate board by means of the aid 35 the advantage that the forces which is on the border between piezoelectric vibrator and Substrate board occur, are reduced and so the sensitivity to breakage is reduced.

4 shows an electric iron 40, which has a Connection line 41 is supplied with electrical energy. The iron 40 includes an ultrasonic atomizer, which is fed with liquid from a tank housing 46 and a perforated film 54, a substrate board 52 and a piezoelectric Contains transducer 48. The piezoelectric Vibrator 48 is connected via a connecting line 50 from one Excitation device, not shown, controlled and closed Vibrations stimulated. The ultrasonic atomizer or at least whose excitation device is also not one Actuator shown actuates what to swing of the piezoelectric vibrator 48 leads. Through this Vibrations form in the tank housing 46 near the piezoelectric vibrator 48 or the substrate board 52 Water droplets that are small enough to not pass through holes of the perforated film 54 to pass through. The water droplets can then pass through the openings of the substrate board 52 and are passed through the openings 44 of the soleplate 42 in the direction of the ironing Ejected good things.

Claims (10)

Ultrasonic atomizer (16) with a piezoelectric oscillator (10),
characterized in that
the piezoelectric vibrator (10) is designed as a full-surface panel and is connected to a substrate panel (12). Ultrasonic atomizer according to claim 1,
characterized in that
the substrate board (12) has at least one recess (14). Ultrasonic atomizer according to one of claims 1 or 2,
characterized in that
the piezoelectric vibrator (10) and / or the substrate plate (12) are designed as at least substantially round plates (12). Ultrasonic atomizer according to claim 3,
characterized in that
the piezoelectric vibrator (10) and the substrate plate (12) are each designed as a round plate and the substrate plate (12) has a central hole. Ultrasonic atomizer according to one of claims 1 to 4,
characterized in that
the substrate board (12) consists of steel. Ultrasonic atomizer according to one of claims 1 to 5,
characterized in that
the piezoelectric vibrator (10) is glued to the substrate board (12). Ultrasonic atomizer according to one of claims 2 to 6,
characterized in that
the substrate board (12) has at least one hole and this is closed by at least one auxiliary means (35). Ultrasonic atomizer according to claim 7,
characterized in that
the aid (35) is a plastic film and / or a lacquer and / or a metal film. Use of an ultrasonic atomizer according to one of the Claims 1 to 8 in an iron (40) for production of a spray. Iron (40) with an ultrasonic atomizer after one of claims 1 to 8.

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