US3840759A - Piezoelectric motor - Google Patents

Abstract

A piezoelectric motor, in particular a vibrator, for producing essentially straight line movements of a part, in which a plurality of piezoelectrically excitable bending strips are mutually mechanically connected in parallel as a package between the part to be moved and a fixed part. The motor is particularly suited for use in an electric dry shaver and has high mechanical power and efficiency, less noise and less weight than prior piezoelectric motors.

Description

United States Patent 1191 Guntersdorfer et a1.

[ Oct. 8, 1974 PIEZOELECTRIC MOTOR 2,659,829 11/1953 [76] Inventors: Max Guntersdorfer, Thierschstr. 35, Munich; Walter Heywang, 8011 3: 4 :100 7 9 4 Neukeferloh, Schwabener, both of 3,166,683 1/1-965 GOOIhCl'tS 310/86 Germany 3,181,016 4/1965 Rosenman 310/86 X I 3,409,377 11/1968 Rogailo 31018.6 X [22] Flled- 1972 3,445,843 5/1969 Pena 3l0/8.6 x [21] Appl. No.: 276,974

Primary Examiner-J. D. Miller q Apphcanon Data Assistant Examiner-Mark O. Budd [63] Contmuanon-m-part of Ser. No. 226,740, Feb. 16, Attorney Agent, or Fi Hi]] Gross, Si V 1972 317481504" Santen, Steadman, Chiara & Simpson [30] Foreign Application Priority Data Feb. 17, 1971 Germany 2107590 [57]. ABS/TRACT A piezoelectrlc motor, 1n particular a vlbrator, for 521 US. Cl 3l0/8.6, 310/82, 310/83, PwduFing ,essemially ,straighi line 9Y a 310/95 part, 1n which a plurality of plezoelectrically exc1tab1e [51] Int. Cl H04r 17/00 bending Strips a mutually mechanically connected in [58] Field of Search 310/85, 8.6, 9.1-9.4 Parallel as a Package betwee? the P to hemmed and a fixed part. The motor is partlcularly sulted for [56] References Cited use in an electric dry shaver 81nd has high mechanical UNITED STATES PATENTS power and efficlency, less noise and less weight than 2 3 5 2 8 /1943 H t 310/8 6 X prior piezoelectric motors.

1 1 lIl .1 2,368,609 1/1945 Burkhardt 310/86 1 1 Claim, 7 Drawing gu L 4 it I I:- 5

1 r B g PATENTEB 915174 3.840.759

SHE] 28? 2 1 -PIEZOELECTRIC MOTOR This application is a continuation-in-part of the same title, U.S. Ser. No. 226,740, filed Feb. 16, 1972; and now US. Pat. No. 3,748,504.

BACKGROUND OF THE INVENTION 1. Field of. the Invention This invention relates to a piezoelectric motor for producing essentially rectilinear shifting movements of a part to be moved in a reciprocating or vibrating manner.

2. Description of the Prior Art A prior application, Ser. No. 179,449, filed Sept. 10, 197] discloses a piezoelectric motor in which a plurality of piezoelectrically excitable bending strips are mechanically connected in parallel as a package and are further arranged in such parallel relation between a part to be moved and another, preferably fixed, part of the motor. The bending strips essentially comprise supporting carrier strips lined with strips of piezoceramic and are mounted together with the carrier and ceramic strips at mounting points.

SUMMARY or THE INVENTION It is an object of the present invention to provide an improved piezoelectric motor of the type described above which has higher power and greater efficiency, in particular with an equally larger construction, and to provide such a motor which operates with little noise and be of as little weight as possible.

According to the invention the above and attendant objects are realized through the provision of a piezoelectric motor of the same general character as that set forth in the above identified application in that one or more mounting devices are provided along with a spacing member between adjacent bending strips. The spacing members are shaped and inserted in such a way that the bending strips and the spacing members are aligned in a force locking relationship without resulting in a mechanical shunt. It is essential for the present invention that amounting'including the ceramic is obtained which is asfirm and hard as possible and which supports the entire contact surface between strip and spacing member. While it is true that the pressure resistance of the piezoceramic re'presentsan upper limit for the magnitude of the tension pressure, it withstandsextremely high values of homogenously distributed compressive forces. A certain mechanical shunt may, however, result in the embodiment illustrated in the second figure of the aforementioned application with force locking direct contact of the spacing members on a.

portion of their cross-sectional surfaces It is advantageous to-provide the mounting for a piezoelectric motor, in which the bending strips comprise carrier and ceramic strips mounted firm and hard according to the present invention at both ends so that the bending strips have a point of inflection during operation.

According to a particular feature of the invention the bending strips are mounted, not only at their ends, but intermediate the ends at one or more locations.

The bending strips have a point of inflection of their bending movement between two adjacent mounting places during operation according to a further feature of the invention and therefore execute multiple stagewise S-shaped bendings.

BRIEF DESCRIPTION OF THE DRAWINGS Other objects, features and advantages of the invention, its organization, construction and operation will be best understood from the following detailed description of preferred embodiments thereof taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a sectional elevational view of a piezoelectric motor constructed in accordance with the principles of the present invention;

FIG. 2 is a sectional view taken line A-A';

FIG. 3 is a graphical illustration of the vibratory mode of operation of a piezoelectric motor according to the present invention;

FIG. 4 is a fragmentary sectional view showing the bending members of FIG. 1 in greater detail;

FIGS. 5 and 6 illustrate a mechanical coupling of two oppositely phased vibrating bending member packages; and

FIG. 7 shows a different mounting device.

I DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to FIG. 1, a piezoelectric motor constructed in accordance with the teachings of the present invention is illustrated as having a housing 1, which is only partially shown. A plurality of mounting devices 2, 4 and 6 are provided to mount a plurality of bending strips 8 firm and hard according to the present invention. The bending strips 8, each a composite of carrier and ceramic strips, are mounted with their ends secured in the mounting devices 2 and 6.

According to a preferred embodiment of the mounting devices, the latter respectively comprise a frame 10, a plurality of spacing members 12 and a further plurality of intermediate members 14, as well as one or more mounting screws 16. Advantageously, the frame 10 of the mounting devices 2 and 6 have respective bottom generally along the ,walls 9 and 11 for additional stiffening preferably connected to form a one piece frame. The bottom wall 11 includes slots for receiving electrical contact lugs 21, 32 therethrough. In order to simplify understanding of the mounting of the bending strips 8, the mounting device 6 has been illustrated in section in FIG. 2 taken generally along the line A-A of FIG. 1. The bending strips A are mounted together firmly according to the invention between the intermediate members 14 by means of tightening the mounting screws 16, in such a way that a pressure will result on the entire mounting surface, which pressure has as even an effect as possible. This type of mounting of the bending strips together, along with a high pressure which can be with stood by the ceramics, accomplishes the force and power increase objective of the invention.

In the place of the mounting screws 16, a recess may, for example, be employed in the frame and fixation with high pressure may be effected by the utilization of wedges.

In the place of a frame as illustrated in FIG. 1, a device with transverse arms mounted together by means of screws may be utilized.

As has been described in the above identified application for patent, the bending strips 8, due to their rigid mounting at both ends and the construction of the bending strips, which will be further explained below, carry out S-shaped bending movements with a point of inflection W (FIG. 3) of the bends. The resonant frequency of such a construction is higher than that of a construction which operates with a simple bend.

According to the above mentioned preferred further development of the invention, an additional mounting of the bending strip 8 by means of the mounting device this results in a further increase of the resonant frequency.

A bending strip 8 has been provided for this motor operation whose principle construction is illustrated in FIG. 4, such illustration being essentially exaggerated with respect to the thickness shown in FIG. 1. A bending strip 8, as preferably utilized for the present invention, comprises a supporting carrier strip 20, a pair of ceramic strips 22 and 24 which are firmly connected with the strips along the entire adjacent surfaces thereof, and electrode coatings 26 which are secured to the outer surfaces of the bending strips. As illustrated in FIG. 4, the carrier strip 20 is electrically conductive and is electrically connected to the contact lug 21 which is preferably an extending portion of the strip. If the carrier strip 20 should consist of relatively poorly conductive material, or an electrically more or less insulating layer like a layer of an adhesive provided between the ceramic strips 22, 24 and the carrier strip 20, electrode coatings 28 will be provided on the inner surfaces of the ceramic strips 22 and 24. The electrode coatings 28 may be extended outwardly for external connection to an electrode, such as the lug 21. As illustrated in FIG. 4, however, the electrode coatings 28 are galvanically connected with the electrically conductive carrier strip 20 and thereby connected to the contact lug 21. r

It should be mentioned that bending strips having other embodiments may also be utilized. For example, bending strips comprising a carrier strip and a single ceramic coating are suited for the invention. Another applicable embodiment of a bending strip provides a pair of ceramic strips, such as strips 22 and 24, without the additional intermediate carrier strip, i.e. a bending strip of pure ceramic elements.

In order to obtain the shape of bending of the strips as indicated in FIG. 3 with as much effect for the motor as possible, it is also provided that the polarization and excitation of the ceramic strips are adapted to each other in a particular manner,

FIG. 4 illustrates a particularly preferred selection of the polarization of the ceramic strips 22 and 24 which allows excitation of the bending strips in a particularly simple manner. The polarization direction which is selected along the ceramic strips 22, 24 is represented by the arrows 30. As can be readily seen in FIG. 4, the direction of polarization changes between two adjacent mounting places, i.e. in this case with center mounting, between one end mounting place and the mounting place located at substantially one half the length of a strip, and particularly parallel to the thickness of the strip in opposite directions. A corresponding situation exists with the other half of each strip along its length. If an electrical direct voltage is applied between the carrier strip 20, or between the electrode coatings 28, respectively, and the parallel-connected electrodes 26, a double S-shaped deflection will result as is indicated in FIG. 3. In the case of the presence of an electrical alternating voltage, periodic bending movements will result, corresponding to the frequency of the voltage. The right hand illustration in FIG. 3 shows the deflection of this strip which is phase-shifted with respect to the left hand illustration by For example, the contact lugs 32 are provided for supplying the electrical voltage to the electrodes 26, which contact lugs 32, together with the spacing members 12, are held in the mounting device 2. (A similar connection is provided with the electrodes 26 and the spacing members 12 in the mounting devices 4 and 6.) The contact lugs may also be portions of the spacing members. Spacing members 12 are electrically conductive, in particular with the above selection of polarization and excitation, so that the electrodes 26 of two adjacent strips are electrically connected by means of one contact lug 32, respectively. The contact lugs 21 for connecting the carrier strips extend out of the mounting device 2, for instance downwardly.

The dimensioning of the thickness of the ceramic strips 22 or 24, respectively, is selected in such a way that an operation of the motor at l 10 volts can be effected. Therefore, the ceramic strips 22 and 24 of each bending strip (8, 9) are connected electrically in parallel. With 220 volts net voltage it is preferred that two sets of bending elements with an equal number of bending strips are connected in line with each other. Therefore, a corresponding electrical insulation of these two sets of'elements with respect to each other is provided.

With a length of 40-80 mm, preferably 66mm for an individual strip, a thickness of the carrier strip of 0.08-0.15mm, preferably 0.1mm, and of the ceramic strips of 0. l 5-0.25mm, preferably 0.22mm, has proven to be particularly advantageous.

With the bending strips as provided, a bending in the transverse direction will also occur, which transverse bending is connected with the longitudinally directed bending. This transverse bending advantageously increases the mounting power during operation.

Small insulator plates 34 are inserted laterally and against the bottom into the frame 10 for the electrical insulation of the bending strips 8 with respect to the frame 10 and for the sake of an electrically nonconductive frame.

A piezoelectric motor, as it is illustrated partially and schematically in FIG. 1 with the six bending strips 8 is suited, for example, for driving the shaving head of an electric dry shaver. Such a shaving head 36, schematically illustrated, is attached at the upper end of the bending strips 8 in FIG. 1 at the mounting device 6 or, as illustrated by means of a further part 38, for example, a spring, which is connected to the mounting device 6.

In FIG. 1, an additional embodiment of the invention has been illustrated in which two packages of comounted bending strips are provided, which are essentially equal with respect to construction and number.

Only one bending strip 9 and the mounting devices 5 and 7, the latter illustrated in a broken manner, can be seen of this second package. The mounting devices 5 and 7 essentially correspond to the above described mounting devices 4 and 6. The bending strips 9 correspond to the bending strips 8 and are operated in an opposite-phase manner with respect to each other in order to obtain the mass balance required for an operation of the motor with little vibration. FIG. 3 schematically illustrates at 17 and 19 the opposite phase deflection of the bending strips 8 and 9. The packages with the bending strips 8 and 9 of which only one bending strip 9 is illustrated in FIG. 1, are preferably rigidly connected with each other by means of the (lower) mounting device 2. These two packages form a single unit in this manner with respect to mechanical vibrations.

As has been mentioned above, two packages with an equal number of bending strips are connected electrically in series for operation at 220 volts. This can be effected with this particular embodiment in a simple manner whereby preferably electrically nonconductive material is provided for the spacing member 13.

The second package having the bending strips 9, drive a second shaving head (not illustrated) corresponding to the shaving head 36.

With a motor constructed according to the principles of the present invention and the particular features thereof, a particularly high power or working capacity, respectively, can be obtained when the resonant frequency of the basic oscillation of the motor, together with the part or parts which are to be moved by the motor, is higher than the frequency of the exciting electrical voltage, by a factor of 1.2-1.6. With a supply frequency of 50 or 60 Hz, respectively, it may be necessary to lower the resonant frequency of the motor. This can be done by means of applying correspondingly large masses to the freely moving end of the bending strips; however, in order to avoid an excess weight for the device, it is advantageous to mechanically couple one or several correspondingly smaller masses with a transmission to the freely moving end of the motor. It is of particular advantage to couple this mass or these masses together with a mutual mechanical coupling of the free ends of two opposite. phase oscillating packages of a motor constructed according to the invention, which coupling may be provided in any suitable manner.

Such an embodiment is shown in the schematic illustration of FIGS. 5 and 6. The other individual features of a construction of the motor according to these figures corresponds to the preceeding description.

In FIGS. 5 and 6 the two mounting devices 6 and 7, together with a mass 52, are connected by way of two arm lever 54. The joint or pivot 56 is secured to the housing 1, in a manner not illustrated in the drawing. Outwardly extending arms 62 and 64 are provided for the respective mounting- devices 6 and 7. Respective pivotal connections 58 and 60 for the arms 62 and 64 represent a mechanically movable connection between the freely oscillating ends of the two packages of the motor by way of the two arm lever 54. The amount of mass 52, in relation to the square of the length of the lever arms can be kept small. I

In order to obtain a favorable balance, the mass 52 can be provided and attached on both sides of the motor with respect to the oscillation plane of the pack ages. Preferably, an opposite phase movement can be provided for these masses, particularly for the extensive compensation of the inertial forces of the masses.

This translation of the mass forces, according to this invention, can also be utilized with a piezoelectric motor having mounting devices which are different than those described above.

In a further embodiment of the invention, the bending strips and the spacing members are mounted together with the help of ascrew, with a mounting device wherein the screw is extended through bores or slot in the bending strips and spacing members. FIG. 7 illustrates such an embodiment in a sectional view.

FIG. 7 illustration and embodiment for a hard and fixed mounting, according to the present invention, whereby the bending strips and the spacing members are clamped together with the help of a screw 118 and a nut 114. The screw 118 extends through corresponding bores of the bending strips 81 and the spacing members 112. Only the lower end of a bending strip 81 is illustrated in FIG. 7. The construction of the bending strips 81, which are to be arranged side by side, corresponds, for example, to the bending strips 8 as illustrated in FIGS. 1, 2 and 4, with the exception of the additional bores.

Although we have described our invention by reference to specific illustrative embodiments thereof, many changes and modifications of our invention may become readily apparent to those skilled in the art without departing from the spirit and scope of our invention. We therefore intend to cover within the patent warranted hereon all such changes and modifications as may reasonably and properly be included within the scope of our contribution to the art.

We claim:

1. A piezoelectric motor for producing reciprocating motion of a movable part, comprising: a housing; a plurality of aligned parallel piezoelectrically excitable elongate bending elements disposed in said housing and each having first and second ends; a first mounting device connected to said housing; a plurality of first spacing members disposed between and contacting said bending elements at said first ends, said first mounting device securing said first spacing members and said first ends; a second mounting device carrying the movable part; a plurality of second spacing members disposed between and contacting said bending elements at said second ends, said second mounting device securing said second spacing members and said second ends, a third mounting device; and a plurality of third spacing members disposed between and contacting adjacent ones of said bending elements at approximately one half the distance between said ends, said third mounting device securing said bending elements and said third spacing members, said spacing members shaped and disposed between and contacting said bending elements in such a way that said bending elements and said spacing members are aligned in a firm and hard force locking relationship without resulting in a mechanical shunt.

Claims (1)

1. A piezoelectric motor for producing reciprocating motion of a movable part, comprising: a houSing; a plurality of aligned parallel piezoelectrically excitable elongate bending elements disposed in said housing and each having first and second ends; a first mounting device connected to said housing; a plurality of first spacing members disposed between and contacting said bending elements at said first ends, said first mounting device securing said first spacing members and said first ends; a second mounting device carrying the movable part; a plurality of second spacing members disposed between and contacting said bending elements at said second ends, said second mounting device securing said second spacing members and said second ends, a third mounting device; and a plurality of third spacing members disposed between and contacting adjacent ones of said bending elements at approximately one half the distance between said ends, said third mounting device securing said bending elements and said third spacing members, said spacing members shaped and disposed between and contacting said bending elements in such a way that said bending elements and said spacing members are aligned in a firm and hard force locking relationship without resulting in a mechanical shunt.

Images