US743603A - Electrical vibratory motor. - Google Patents
Electrical vibratory motor. Download PDFInfo
- Publication number
- US743603A US743603A US14501103A US1903145011A US743603A US 743603 A US743603 A US 743603A US 14501103 A US14501103 A US 14501103A US 1903145011 A US1903145011 A US 1903145011A US 743603 A US743603 A US 743603A
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- United States
- Prior art keywords
- armature
- hood
- frame
- screws
- housing
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K33/00—Motors with reciprocating, oscillating or vibrating magnet, armature or coil system
- H02K33/02—Motors with reciprocating, oscillating or vibrating magnet, armature or coil system with armatures moved one way by energisation of a single coil system and returned by mechanical force, e.g. by springs
- H02K33/04—Motors with reciprocating, oscillating or vibrating magnet, armature or coil system with armatures moved one way by energisation of a single coil system and returned by mechanical force, e.g. by springs wherein the frequency of operation is determined by the frequency of uninterrupted AC energisation
Definitions
- My invention relates to vibratory motors for massage apparatus or similar light apparatus.
- the purpose of my invention is to provide a vibratory motor operative by alternating electrical currents as distinguished from continuous-current motors in use prior to my invention.
- Figure l is a side elevation of the complete apparatus.
- Fig. 2 is a partial vertical longitudinal section,taken on the axis of the handle of the apparatus.
- Fig. 3 is a vertical longitudinal section on the line 3 3 of Fig. I.
- Fig. 4 is a transverse section on the line l 4 of Fig. l, and
- Fig. 5 is a longitudinal axial section through the handle and the shell and shows in elevation a modified form of the apparatus.
- a housing A which may be of any suitable material and of any suitable or convenient form. I prefer, however, to use a brass housing of cylindrical form. At the lower end of the housing is an opening a, adapted to permit free oscillation oi' the armature carrying the rubber. Near the upper end of the housing is a circumferential channel a', receiving screws or equivalent devices by which the hood is connected with the housing.
- the hood I of any suitable material,is preferablydome-shaped as shown, and Iits loosely over and turns on the upper end of the housing, vertical displacement ol' the hood being prevented by a screw orscrews I), the inner end ci' which travels in the channel a.
- a handle consisting of an inner metallic tube D and an outer covering D of insulating material.
- the electromagnet-frame E is of steel in the form of an inverted U and is supported centrally within the hood by screws E.
- Suitably-wound coils E2 are mounted on laminated cores Egon the frame E, parallel to and facing each other, and are in electrical connection with any suitable source or generator of alternating electric current.
- An armature G preferably ol soft iron, is supported on the hood I3 and extends downward and oscillates freely between the electromagn ets.
- I have shown two forms oit the armature, either of which may be used without departing from my invention. I prefer to use the i'orni shown in Fig.
- an armature G mounted to oscillate on a pivot e, as shown in Fig. 3, may be advantageously used.
- the armature I provide a slot g, near the upper end of the armature, adapted to permit slight vertical movement of the armature on the pivotal bolt e, so as to cause shunting of the current when excessive pressure is applied in manipulating the apparatus, as hereinafter explained.
- a socket g At the lower end of the armature is a socket g, adapted to receive the shank 7L ol' the rubber II.
- the shank 7L is screw-threaded for a part of its length, and its upper part is squared to fit in the socket g.
- a nut 7L on the screw secures the rubber on the shank.
- Two laminated permanent magnets M are secured to the hood B by a bolt e and occupy ICC a vertical position parallel to each other and diametrically opposite to the electromagnetframe.
- the south-seeking ends of both of the permanent magnets are contiguous to the poles of the electromagnets, and the armature when at rest occupies an intermediate vertical position with respect to the electromagnets and the permanent magnets.
- the effect of this arrangement ol' the parts is that the permanent magnets induce magnetism in the soft-iron armature, making a north pole of the lower end of the armature, which will be attracted by a south pole o'l the electromagnet.
- the electromagnets change polarity when the exciting alternating current passes through zero and reverses, so there will be two reversals of magnetism, producing one .forward and one backward movement of the armature foreach complete cycle of the alternating current.
- Adjusting-screws e' work in female screws E and extend through the sides of the frame E and maybe turned in or out to vary the scope of the oscillation ot' the armature, as occasion may require. Lock-nuts c2 on the screws c prevent accidental displacement of the screws.
- Electrical conductors d, within the handle and connected with any suitable source of alternatin g electric current supply, are in operative relation to a controlling-switch d of any suitable or convenient construction.
- rlhis means consists of a cushioning-spring K in a suitable housing K, centrally situated on top of the hood B. The lower end ot' the spring K bears against the upper end of the armature G.
- a cap K2 screws in the housing K', and by screwing the cap up or down the tension of the spring may be varied, so as to permit the application of a greater or less degree of pressure in operating the device, as occasion may require.
- contact-springs 7e Secured on the upper end of the frame E are insulated contact-springs 7e in such relation to the upper end of the armature G that when the armature is moved upward it will contact with the springs.
- the contact-springs L are connected in parallel with the conducting-wires supplying current to the coils of the electromagnets.
- the apparatus is manipulated by means of the handle and is moved with the rubber II in contact with the person of the patient.
- the hood may be turned,
- the operating parts ol' the apparatus are all eonnectedwth the hood I3.
- the oscillating armature may be caused to operate at any desired angle with respect to the handle.
- the parts may all be removed from the shell by loosening the screws l) and lifting the hood from the shell.
- a motor the combination of a hood, a frame within said hood, screws connecting said frame with said hood, adjusting-screws turning in said connecting-screws, lock-nuts on said adjusting-screws and armature oscillating on said frame and electromagnets on said frame and electrically connected -with a source of alternating-current supply, as set forth.
- ahousing a frame supported within said housing electromagnets on said trame, an armature mounted to oscillate between said electromagnets and movable verticallyon said frame, contact-springs on said frame, connected in parallel with the wires in connection with said eleetromagnets, a spring in contact with the upper end oi' said armature and means for regulating the tension of said spring, as set forth.
- the combination ol ⁇ a cylindrical metallic handle, insulation surrounding said handle, a switch mounted on said handle, conductors in electrical connection with a source ol' alternating-current supply, a housing secured to said handle, a hood mounted to turn on said housing, a frame mounted in said hood, electromagnets mounted on said frame and in electrical connection with the conductors controlled by said switch,
- a motor the combination of a main structure, permanent magnets supported on the main structure, electromagnets supported on the main structure and energized by alternating electric current, a Spring tuned to vibrate in accord with the alternations of the energizing-current and an armature on said spring polarized by said permanent magnets, as set forth.
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Percussion Or Vibration Massage (AREA)
Description
No. 743,603. PATENTED Nov. 10, 190s.
C. s. WHITNEY. ELECTRICAL VIBRATORY MUTOR,
APPLICATION FILED PEB. 25. 1903.
N0 MODEL. 2 SHEETS-SHEET 1.
.....sNH 1 e EXP-v e A. y .n ...i
C. S. WHITNEY.
ELECTRICAL VIBRATORY MOTOR.
APPLICATION FILED FEB. 25. 1903.
2 SHEETS-SHEET 2.
@im i 5T' ma mums c.
UNITED STATES Patented November I0, 1.903.
PATENT OEETCE.
CHARLES S. WHITNEY, OF SPRINGFIELD, ILLINOIS, ASSIGNOR OF ONE-HALF TO FOREST P. LAMOREUX, OF SPRINGFIELD, ILLINOIS.
ELECTRICAL VIBRATO RY MOTOR.
SPECIFICATION forming part of Letters Patent No. 743,603, dated November 10, 1903.
Application filed February 25, 1903. Serial No. 145,011. (No model.)
To a/ZZ whom it may concern:
Be it known that I, CHARLES S. WHITNEY, a citizen of the United States, residing at Springfield,countyof Sangamon, and State of Illinois, have invented certain new and useful Improvements in Electrical /Tibratory Motors, of which the following is such a full, clear, and exact description as will enable others skilled in the art to which it appertains to make and use my said invention.
My invention relates to vibratory motors for massage apparatus or similar light apparatus.
The purpose of my invention is to provide a vibratory motor operative by alternating electrical currents as distinguished from continuous-current motors in use prior to my invention.
lVith this end in view my invention consists in the novel features of construction and combinations of parts shown in the annexed drawings, to which reference is hereby made,` and hereinafter particularly described, and finally recited in the claims.
For the purpose of clearly illustrating my invention I have in the drawings shown my improved motor as applied to a massage apparatus. Obviously it may be applied to any other apparatus in which a light oscillative motor would be effective.
Referring to the drawings, Figure l is a side elevation of the complete apparatus. Fig. 2 is a partial vertical longitudinal section,taken on the axis of the handle of the apparatus. Fig. 3 is a vertical longitudinal section on the line 3 3 of Fig. I. Fig. 4 is a transverse section on the line l 4 of Fig. l, and Fig. 5 is a longitudinal axial section through the handle and the shell and shows in elevation a modified form of the apparatus.
Similar reference -letters designate like parts in all of the views.
rIhe operating parts of the mechanism are contained within a housing A, which may be of any suitable material and of any suitable or convenient form. I prefer, however, to use a brass housing of cylindrical form. At the lower end of the housing is an opening a, adapted to permit free oscillation oi' the armature carrying the rubber. Near the upper end of the housing is a circumferential channel a', receiving screws or equivalent devices by which the hood is connected with the housing. The hood I, of any suitable material,is preferablydome-shaped as shown, and Iits loosely over and turns on the upper end of the housing, vertical displacement ol' the hood being prevented by a screw orscrews I), the inner end ci' which travels in the channel a. Secured to the housing is a handle consisting of an inner metallic tube D and an outer covering D of insulating material.
The electromagnet-frame E is of steel in the form of an inverted U and is supported centrally within the hood by screws E. Suitably-wound coils E2 are mounted on laminated cores Egon the frame E, parallel to and facing each other, and are in electrical connection with any suitable source or generator of alternating electric current. An armature G, preferably ol soft iron, is supported on the hood I3 and extends downward and oscillates freely between the electromagn ets. In the drawings I have shown two forms oit the armature, either of which may be used without departing from my invention. I prefer to use the i'orni shown in Fig. -viz., an armature-plate G, ot' soft iron, secured to the lower end oi' a spring G', the upper end oi' the spring being secured to the electromagnet-frame E and the spring being tuned to vibrate in accord with the alternations of the operating-current.
lVhere alternating current of very low i'rcquency is employed, an armature G,mounted to oscillate on a pivot e, as shown in Fig. 3, may be advantageously used. In that form of the armature I provide a slot g, near the upper end of the armature, adapted to permit slight vertical movement of the armature on the pivotal bolt e, so as to cause shunting of the current when excessive pressure is applied in manipulating the apparatus, as hereinafter explained. At the lower end of the armature is a socket g, adapted to receive the shank 7L ol' the rubber II. The shank 7L is screw-threaded for a part of its length, and its upper part is squared to fit in the socket g. A nut 7L on the screw secures the rubber on the shank.
Two laminated permanent magnets M are secured to the hood B by a bolt e and occupy ICC a vertical position parallel to each other and diametrically opposite to the electromagnetframe. The south-seeking ends of both of the permanent magnets are contiguous to the poles of the electromagnets, and the armature when at rest occupies an intermediate vertical position with respect to the electromagnets and the permanent magnets. The effect of this arrangement ol' the parts is that the permanent magnets induce magnetism in the soft-iron armature, making a north pole of the lower end of the armature, which will be attracted by a south pole o'l the electromagnet. The electromagnets change polarity when the exciting alternating current passes through zero and reverses, so there will be two reversals of magnetism, producing one .forward and one backward movement of the armature foreach complete cycle of the alternating current.
It is obvious that a permanently magnetic armature may be used in this apparatus. I prefer, however, to use a polarized soft-iron armature, for the reason that it is not subject to impairment by the impact of its operation.
Adjusting-screws e' work in female screws E and extend through the sides of the frame E and maybe turned in or out to vary the scope of the oscillation ot' the armature, as occasion may require. Lock-nuts c2 on the screws c prevent accidental displacement of the screws.
Electrical conductors d, within the handle and connected with any suitable source of alternatin g electric current supply, are in operative relation to a controlling-switch d of any suitable or convenient construction.
In order to avoid the possibility of injury to the person being' operated upon by reason of undue pressure in manipulating the apparatus, I provide means whereby the electric current will be automatically shunted and the action of the rubber instantly stopped whenever undue pressure is applied. rlhis means consists of a cushioning-spring K in a suitable housing K, centrally situated on top of the hood B. The lower end ot' the spring K bears against the upper end of the armature G. A cap K2 screws in the housing K', and by screwing the cap up or down the tension of the spring may be varied, so as to permit the application of a greater or less degree of pressure in operating the device, as occasion may require. Secured on the upper end of the frame E are insulated contact-springs 7e in such relation to the upper end of the armature G that when the armature is moved upward it will contact with the springs. The contact-springs L are connected in parallel with the conducting-wires supplying current to the coils of the electromagnets.
In practical use the apparatus is manipulated by means of the handle and is moved with the rubber II in contact with the person of the patient. In eases in which the rubber when set at one angle operates to the discomfort of the patient the hood may be turned,
turning the frame and rubber with it until the rubber assumes any desired position. To bring the rubber into action, it is only necessary to press down the switch d', so as to close the electric circuit. The alternating current passing through the coils of thc electromagnets will alternately change the polarity ot,
the elcctromagnets, causing the armature to vibrate in step with the alternations of the exciting current and producing coincident oscillations ol the rubber.
I am aware that direct currenthas hitherto been employed in apparatus of this kind to energize electromagnets, so as to produce make-and-break contact of a spring-actuated armature; but apparatus so constructed is feeble and uncertain in operation.
By employing a motor adapted for use with alternating electric currents I am enabled to oscillate the oscillating armature at a much greater speed and more effectively than is possible in any apparatus depending upon a battery and make-and-break contact for energizing the magnets. In. my apparatus the oscillations of the armature coincide with the altcrnations of the alternating currents operating the apparatus.
The operating parts ol' the apparatus are all eonnectedwth the hood I3. By turning the hood the oscillating armature may be caused to operate at any desired angle with respect to the handle. The parts may all be removed from the shell by loosening the screws l) and lifting the hood from the shell.
I'Iaving fully described my invention, what I claim as new, and desire to secure by Letters Patent, is-
l. In a motor, the combination of a hood, a frame within said hood, screws connecting said frame with said hood, adjusting-screws turning in said connecting-screws, lock-nuts on said adjusting-screws and armature oscillating on said frame and electromagnets on said frame and electrically connected -with a source of alternating-current supply, as set forth.
2. In a motor, the combination of ahousing a frame supported within said housing, electromagnets on said trame, an armature mounted to oscillate between said electromagnets and movable verticallyon said frame, contact-springs on said frame, connected in parallel with the wires in connection with said eleetromagnets, a spring in contact with the upper end oi' said armature and means for regulating the tension of said spring, as set forth.
In a motor, the combination ol` a cylindrical metallic handle, insulation surrounding said handle, a switch mounted on said handle, conductors in electrical connection with a source ol' alternating-current supply, a housing secured to said handle, a hood mounted to turn on said housing, a frame mounted in said hood, electromagnets mounted on said frame and in electrical connection with the conductors controlled by said switch,
IOO
IIO
6. In a motor, the combination of a main structure, permanent magnets supported on the main structure, electromagnets supported on the main structure and energized by alternating electric current, a Spring tuned to vibrate in accord with the alternations of the energizing-current and an armature on said spring polarized by said permanent magnets, as set forth.
In Witness whereof I have hereunto signed my name, at Springeld, Illinois, this 17th day of February, A. D. 1903.
CHARLES S. VHITNEY.
Witnesses:
CHARLES R. Rosn, R. J. BECK.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US14501103A US743603A (en) | 1903-02-25 | 1903-02-25 | Electrical vibratory motor. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US14501103A US743603A (en) | 1903-02-25 | 1903-02-25 | Electrical vibratory motor. |
Publications (1)
Publication Number | Publication Date |
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US743603A true US743603A (en) | 1903-11-10 |
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US14501103A Expired - Lifetime US743603A (en) | 1903-02-25 | 1903-02-25 | Electrical vibratory motor. |
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1903
- 1903-02-25 US US14501103A patent/US743603A/en not_active Expired - Lifetime
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