Search Images Maps Play YouTube News Gmail Drive More »
Sign in
Screen reader users: click this link for accessible mode. Accessible mode has the same essential features but works better with your reader.

Patents

  1. Advanced Patent Search
Publication numberUS3663841 A
Publication typeGrant
Publication dateMay 16, 1972
Filing dateApr 22, 1970
Priority dateApr 22, 1970
Publication numberUS 3663841 A, US 3663841A, US-A-3663841, US3663841 A, US3663841A
InventorsParker Joseph Donald
Original AssigneeElectro Mechanical Design Ltd
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Ultrasonic transducers
US 3663841 A
Abstract
An ultrasonic transducer which includes a piezo-electric element of annular form having electrodes provided upon its inner and outer curved surfaces to permit the crystal to be vibrated in the circumferential mode, wherein a radiating member in the form of a cup or tube closed at one end is fitted to the annulus, support means being attached to the bottom of the cup or tube.
Images(2)
Previous page
Next page
Description  (OCR text may contain errors)

UnlIeG Stat X 5 1 JFK Parker ULTRASONIC TRANSDUCERS Joseph Donald Parker, London, England Electro-Mechanieal Design Limited, London, England Filed: Apr. 22, 1970 Appl. No.: 30,702

Inventor:

Assignee:

US. Cl. ..3l0/8.2, 179/110 A, 310/83, 310/94, 31 /96 Int. Cl. ..H01v7/00 Field ofSearch ..3 l0/8.8, 8.7, 8.4, 8.3, 8.2, 310/81, 9.6, 9.1, 9.5; 340/10; 179/110 References Cited UNITED STATES PATENTS Ballantine... ens/110A Harris ...310/8.4 X Nicolson ..179/1 10 [is] 3,663,841 1 May 16,1972

2,561,084 7/1951 Wickham et al I 79/1 10 2,005,741 6/1935 Hayes ....179/l10 3,302,163 l/1967 Andrews ..340/1O FOREIGN PATENTS OR APPLICATIONS 1,175,947 1/1970 Great Britain Primary Examiner-J. D. Miller Assistant Examiner-B. A. Reynolds Attorneylrving M. Weiner [57] ABSTRACT An ultrasonic transducer which includes a piezo-electric element of annular form having electrodes provided upon its inner and outer curved surfaces to permit the crystal to be vibrated in the circumferential mode, wherein a radiating member in the form of a cup or tube closed at one end is fitted to the annulus, support means being attached to the bottom of the cup or tube.

5 Claims, 3 Drawing Figures aten ted May 16, 1912 2 Sheets-Sheet 2 INVENTOR JosaPH DON/1L0 PHRKER ATTORNEY FIG. 3.

ULTRASONIC TRANSDUCERS This invention relates to ultrasonic transducers, and more particularly to such transducers capable of radiating ultrasonic power at a relatively high level (above watts r.m.s) for use, for example, for rodent repelling purposes.

It is an essential feature of certain rodent repelling devices that the ultrasonic signal should be radiated at a frequency which does not affect human beings and other animals it is not desired to disturb. Further, the frequency of the radiated signal must fall within the critical range of maximum sensitivity of the animal to be repelled. The transducer should be capable of being designed to operate in explosion hazard areas and have a very low failure rate. In addition it is desirable that the transducer should radiate the ultrasonic signals in as broad a field as possible and with the maximum power.

I-lom type dynamic loud speakers (Tweeters) have been employed to convert the electrical signals generated for pest control into ultrasonic waves. These devices have a number of limitations and problems associated with their use for this purpose. Primarily a tweeter is designed to operate from about 5 kc/s up to a maximum of 20 kc/s. Because the critical sensitivity of the rodent to be repelled lies between 20 and 50 kc/s the tweeter is operated beyond its upper limit with a consequent large reduction in power. Dynamic speakers of whatever type have a resonant frequency much below that of the desired ultrasonic frequency and therefore considerable power is required to drive the diaphragm and this introduces unacceptable losses. Because of the small diaphragm diameter and associated horn, at high frequencies the angle of radiation is narrow and sharply directional necessitating a number of speakers to cover a given area. Dynamic speakers used for this purpose are inherently unreliable when operated above 20 kc/s and the presence of a current carrying voice coil which dissipates heat can make the speaker unsuitable in certain explosion hazard areas.

The present invention consists in an ultrasonic transducer which includes a piezo-electric element of annular form having electrodes provided upon its inner and outer curved surfaces to permit the crystal to be vibrated in the circumferential mode, wherein a radiating member in the form of a cup or tube closed at one end is fitted to the annulus, support means being attached to the bottom of the cup or tube.

IN THE ACCOMPANYING DRAWINGS FIG. 1 is a longitudinal section through an ultrasonic transducer according to the present invention, and

FIGS. 2 and 3 show two modifications to FIG. 1.

In carrying the invention into effect according to one convenient mode by way of example, FIG. 1 shows an ultrasonic transducer arranged to convert electrical signals into radiated ultrasonic energy in the region of one fixed frequency for the purpose of repelling rodents.

The transducer includes a piezo-electric ceramic ring 1 formed from Barium Titanate, Lead Zirconate or other polarized polycrystalline material having silvered surfaces 2 and which can be caused, when energized by a suitable electrical generator via leads 3, to vibrate in the circumferential mode.

Within the ring 1 there is fitted a radiating member in the fonn of a tapered cup or tube 4 closed at one end and dimensioned to resonate at a common frequency with the ring 1, which frequency is made to coincide with the sharply critical threshold of the rodents sensitivity. The whole assembly is impedance matched into air and eliminates the need for a conventional diaphragm.

To facilitate mounting the device without damping and to increase the acoustic coupling, the cup 4 is mounted on a bracket 5 with the aid of a bolt 6 and resilient washer 7 at or adjacent to the geometrical center of the base of the cup 4, the best position preferably being ascertained by finding the node with the aid of a powder.

In this way, the ring 1 is in direct contact with the cup 4 for the radiation of ultrasonic energy with the greatest efficiency, the whole assembly being supported in such a manner as to allow maximum vibration in the desired mode. The cup behaves as a resonant element and is dimensioned so as to amplify the vibrations of the ring and increase the area of radiation. Since the mode of vibration is circumferential, the transducer exhibits the multi-path radiation characteristics required for general radiation coverage of an area.

The cup 4 is preferably made an interference fit within the ring 1. It is composed of a therrnosetting plastics material, and the density of the material, the thickness of the walls and the overall length of the cup are chosen to provide resonance at the desired frequency, the final tuning being effected by grinding the periphery at the open end of the cup 4 to achieve maximum displacement, i.e., an antinode.

Allowance is made for the efiect of the mass of air acting upon the cup by dimensioning the ring to resonate, by itself, at a frequency say 5 percent higher than the final desired frequency. In a particular example, a Barium Titanate ring of outside diameter 2.8 inches, inside diameter 2.3 inches and length 1 inch resonated at 23 kc/s. Attached to a cup, the overall effective frequency fell to 21.98 kc/s.

If desired two cups may be secured together coaxially on a common support to face in opposite directions, two rings being provided to fonn a twin unit.

In an alternative arrangement shown in FIG. 2 a plastic plate 8 is provided to bear upon ring 1 rear face, pressure being exerted by bolt 6 and associated washer through cup 4 base. Mechanical coupling of ring 1 to cup 4 is then progressive via the resilient washer 7 which is mounted between bracket 5 and end plate 8. By effectively restricting vibration of ring 1 in the longitudinal mode, the amplitude of vibration in the unrestricted mode, i.e., circumferential direction is increased. Moreover thering l and cup 4 are positively located with respect to each other. 1

In a further. alternative arrangement shown in FIG. 3, the acoustic efficiency is increased by fitting the ring 1 into a further tapered cup 9 positioned co-axially with the cup 4, thereby adding to the total vibrating area since the ring 1 is in contact with both cups 4 and 9.

The outer cup 9 is dimensioned so that at resonance it is complementary to the inner cup 4 (i.e., no standing waves are formed) and both cups are molded from a polystyrene plastic material chosen to suit the operating parameter imposed. The spacing between the two cups 4 and 9 is such as to avoid acoustic interaction.

A vibration absorber 8 having threaded studs 8a and 8b has a natural frequency of 1,500 c/s and is secured to nodal points on the cups 4 and 9 thereby presenting a negligible load. The absorber 8 serves to couple the bottoms of both cups 4 and 9, with the ring 1 trapped between the two cups 4 and 9, and to couple all these components to the brackets 5. As a nut 10 is tightened on stud 8a, it progressively increases the mechanical coupling between ring 1 and the two cups 4 and 9 so that a certain degree of amplitude tuning adjustment can be obtained in this way.

In certain circumstances, it may be desirable to eliminate the inner cup 4, suitable means being provided for bracing the ring 1 against the absorber 8.

What we claim is:

l. A transducer for radiating ultrasonic power when energized by an electrical signal of ultrasonic frequency, comprising, in combination:

a piezoelectric element having an annular shape;

electrodes provided upon the inner and the outer curved surfaces of said piezoelectric element to permit said element to be vibrated in a circumferential mode when said electrical signal is applied to said electrodes;

a radiating member having the shape of a truncated cone with a continuous conical portion closed at one end thereof by a flat 'portion unitary and integral with said conical portion and open at the other end thereof with a free unsupported periphery;

said annular piezoelectric element being in direct contact with said continuous conical portion of said radiating member between said unitary integral flat portion and said free unsupported periphery in an annular line of contact whereby said radiating member may be caused to resonate at said ultrasonic frequency with said unsupported periphery positioned at an antinode;

said annular line of contact being disposed in a plane substantially parallel to a plane containing said unitary integral flat portion of said radiating member; and

support means attached to said closed end of said radiating member at a node on said unitary integral flat portion of said radiating member.

2. A transducer for radiating ultrasonic power in accordance with claim 1, wherein said radiating member is in an interference fit in said piezoelectric element.

3. A transducer for radiating ultrasonic power in accordance with claim 1, wherein, said radiating member is fitted in said piezoelectric element, and said piezoelectric element is fitted into a second radiating member having the shape of a truncated cone with a continuous conical portion closed at one end thereof by a flat portion unitary and integral with said conical portion and open at the other end thereof with a

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1688744 *May 25, 1927Oct 23, 1928Wired Radio IncMultiple acoustic device
US2005741 *Dec 15, 1932Jun 25, 1935Hayes Harvey CMagneto-strictive sound generator
US2102668 *Jun 14, 1933Dec 21, 1937Rca CorpPiezoelectric loudspeaker
US2561084 *May 1, 1946Jul 17, 1951Borg George W CorpPiezoelectric microphone
US2947823 *Jan 31, 1958Aug 2, 1960Harris Transducer CorpElectromechanical transducer
US3302163 *Aug 31, 1965Jan 31, 1967Andrews Jr Daniel EBroad band acoustic transducer
GB1175947A * Title not available
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3860838 *Jun 21, 1973Jan 14, 1975Sumitomo Electric IndustriesPiezoelectric buzzer assembly
US3986669 *Mar 23, 1976Oct 19, 1976Martner John GUltrasonic tubular emulsifier and atomizer apparatus and method
WO2001093344A1 *May 23, 2001Dec 6, 2001Us Gov Sec NavyPiezoelectric acoustic actuator
Classifications
U.S. Classification310/322, 310/326, 381/173
International ClassificationB06B1/06
Cooperative ClassificationB06B1/0655
European ClassificationB06B1/06E4
Legal Events
DateCodeEventDescription
Nov 4, 1982AS02Assignment of assignor's interest
Owner name: RADER, HILDA
Owner name: TAI PAN CORPORATION INC. THE PMB 9, THE FORTRESS G
Effective date: 19821101
Nov 4, 1982ASAssignment
Owner name: TAI PAN CORPORATION INC. THE PMB 9, THE FORTRESS G
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:RADER, HILDA;REEL/FRAME:004060/0366
Effective date: 19821101