US3183912A - Diathermy machine - Google Patents

Diathermy machine Download PDF

Info

Publication number
US3183912A
US3183912A US198891A US19889162A US3183912A US 3183912 A US3183912 A US 3183912A US 198891 A US198891 A US 198891A US 19889162 A US19889162 A US 19889162A US 3183912 A US3183912 A US 3183912A
Authority
US
United States
Prior art keywords
condenser
frequency
section
plate
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.)
Expired - Lifetime
Application number
US198891A
Inventor
George S Mogilner
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US198891A priority Critical patent/US3183912A/en
Application granted granted Critical
Publication of US3183912A publication Critical patent/US3183912A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N1/00Electrotherapy; Circuits therefor
    • A61N1/40Applying electric fields by inductive or capacitive coupling ; Applying radio-frequency signals
    • A61N1/403Applying electric fields by inductive or capacitive coupling ; Applying radio-frequency signals for thermotherapy, e.g. hyperthermia

Definitions

  • Machines utilizing high-frequency electromagnetic waves have been extensively utilized in electro-therapeutics. Such machines are used to induce heat and spur circulation within the body tissues. Such diathermy units have been greatly improved in design and reduced in size in recent years with the result that they may be reliably operated from house current and may be easily moved about for use where it is most convenient. Thus not only are such machines used extensively in professional medical offices, but also are found in many homes.
  • the present invention provides small size, reliable diathermy device suitable for home application and moreover has a simplified tuning mechanism which is reliable and trouble-free in operation.
  • Another object of the invention is to provide a novel tuning mechanism for use in high-frequency diathermy units.
  • Another object of the invention is to provide a simple tuning mechanism wherein the rotation of a dial alters and adjusts the linear distance between the plates of a tuning condenser.
  • FIGURE 1 is a perspective exterior view of the diathermy unit of the invention
  • FIGURE 2 is a cross-sectional illustration of the invention.
  • FIGURE 3 is a plan view of the invention.
  • the diathermy device 11 comprises a generally rectangular boxlike housing 12 of a suitable material, such as sheet metal.
  • a suitable material such as sheet metal.
  • the front panel 13 of housing 12 has its upper portion 14 inclined at an angle to the rest of the front panel.
  • This inclined portion 14 serves as the control panel for the diathermy device and includes insulated openings 16 and 16 which retain electrode jacks l7 and 17 therein.
  • a power meter 18 is secured to the upper left hand portion of inclined panel 14, while a suitable clock timed switch 19 is aiiixed to the upper right-hand portion of panel 14.
  • a pilot light 21 is set into the lower center portion of panel 14.
  • power dial 22 Centrally positioned on panel 14 is power dial 22, whose operation and function will be more fully explained hereinafter.
  • Section 23 comprises the entire bottom of housing 12 and is separated from sections 24 and 26 by floor 27.
  • Section 24 comprises the entire upper rearward section of housing 12 and is separated from bottom section 23 by a portion of floor 27 and in turn separated from section 26 by wall 28 which extends from one side to the other of housing 12.
  • Front section 26 includes the entire upper front portion of housing 12 and is separated from section 24 by wall 28 and from section 23 by part of floor 27.
  • the interior of inclined panel 14 comprises the entire front wall of section 26. All of sections 23, 24 and 26 are entirely 3,l83,9l2 Patented May 18, 1955 enclosed by portions of the top, bottom, sides, front and back of housing 12.
  • section 23 of the housing 12 will be called the high-frequency power supply section
  • section 24 will be called the high-frequency circuit section
  • section 26 will be called the tuned circuit and output section.
  • High-frequency circuit section 24 there is illustrated sockets 29 and 29' which are fixed into suitable holes in floor 27.
  • High frequency tubes 31 and 31 are set into sockets 29 and 29 respectively.
  • Tubes 31 and 31 are conventional high-frequency power tubes which are commercially available.
  • the output terminals of tubes 31 and 31 are connected by copper straps 32 and 32 t0 capacitor 33 which is held in suitable clips 34 and 34 atiixed to insulators 36 and 36 screwed into wall 28.
  • Capacitor 33 is held in electrical parallel relation to the primary coil 37 of high-frequency power transformer 38. All of the highfrequency circuit components are maintained at suitable distances from the walls of section 24 so as to prevent arcing of high-frequency current to the housing.
  • Lower power supply section 23 contains suitable electrical components (not shown) to lead line current from a line cord (not shown) to high-frequency tubes 31 and 31.
  • the line cord is fitted with a suitableterminal for connecting the diathermy device to a house current socket.
  • a suitable house power transformer is provided in section 23 as well as leads to pilot light 21 and power meter 18.
  • the associated capacitors, inductances, and ground connections for the aforesaid light, switch, and meter are also compartmented in section 23.
  • all such components and circuitry are conventional and well-known in the art and will therefore not be further explained herein.
  • a high-frequency transformer secondary loop 39 extends from Wall 28 and is interleaved with the turns of primary coil 37. Secondary loop 39 is supported on wall 23 by spaced leads 41 and 42. Lead 41 is electrically grounded to wall 28 while lead 42 passes thru wall 28 and is electrically insulated therefrom. Both leads 41 and 42 extend thru wall 28 and emerge into tuned circuit section 26.
  • leads 41 and 42 are connected to the ends of loop 43 which forms the primary coil of highfrequency stepping transformer 44.
  • Primary loop 43 is passed about the turns of secondary coil 46 of transformer 44.
  • Secondary coil 46 extends horizontally from side to side within section 26 and is maintained in fixed spaced relation away from wall 23 by leads 47 and 48 which extend from either end of coil 46.
  • Leads 47 and 47' are in turn connected to pins 48 and 43' mounted on upright insulating support members 49 and 49, respectively.
  • Both ends of insulating support members 49 and 49 are spaced apart from wall 28 by suitable spacing extensions 51, and a cooperating extension (not shown), 52 and 52'. Both upright supports 49 and 49' are spaced from wall 2% a sufficient distance to permit room for mounting condenser plates 53 and 53' therebetween.
  • Condenser plates 53 and 53 are mounted upon insulating supports 49 and 49' respectively. They are mounted in the same vertical plane and are laterally spaced from one another. However condenser plate 53 is electrically connected to lead 47 of secondary coil 46 thru pin 48, while condenser plate 53 is electrically connected .members 57 and 57.
  • Electrical leads 54 and 54 extend from pins 43 and .48, respectively, and are connected to pins 56 and 56' which are secured to and pass thru upright insulating support members 57 and 57' respectively.
  • Insulating members 57 and 57' extend from floor 27 of the housing, vertically within section 26 to the top of housing 12. The members are secured to the floor and top of the housing by suitable angle means, whereby said members are held in a rigid vertical position.
  • Tuning condenser plates 53 and 58' are attached to the ends of pins 56 and 56', respectively, opposite from leads 54 and 54.
  • Condenser plates 58 and 58' are essentially rectangular in shape and are held fixed in the vertical position and are spaced apart from one another and upright supports 57 and 57 by standoffs surrounding pins 56 and 56 and by spacers 59 and 59 attached to the lower positions of the condenser plates and to upright
  • condenser plates 58 and 58' are electrically insulated from the chassis, but are connected electrically in parallel to condenser plates 53 and 33' and to secondary coil 46.
  • Large rectangular plate 61 forms the grounded portion of the tuning condenser.
  • Plate 61 is held in condenser relationship to condenser plates 58 and 58' by an angled spring bronze support 62.
  • Spring bronze sup port 62 is attached to the bottom edge of condenser plate 61 by suitable means, e.g., spot welds, and in turn is fixedly connected to floor 27 by a suitable hold-down strip and screw means.
  • spring bronze support 62 is free to operate upon condenser plate 61 and to spring bias it in a direction away from condenser plates 3 and 58 as shown by the dotted position of plate 61.
  • Shaft .66 is positioned in panel 14 by a suitable Due to the described construction of condenser 63 the entire device llll is constructed with minimum front-to-back depth. In addition, since the sole mounting point of condenser plate 61 is floor 27 no other means are necessary to hold plate 61 in relation to plates 53 and 58'. Since no other elements are introduced between the condenser plates, the condenser 63 produces a low minimum capacit thus giving the biggest change in capacity from minimum to maximum plate spacing, which is essential for tuning.
  • shaft 66 extends into the tuned circuit and output section 26 of housing 12.
  • Shaft 66 terminates in a right angled arm 68.
  • Arm 68 terminates in a right angledextension 69.
  • Extension 69 comprises a short length of hollow tubing into which insulating finger 7 f is tightly fitted.
  • Finger 71 bears against condenser plate 61.
  • Finger '71 is preferably made from a high dielectric plastic material, e.g., fluorocarbon plastics such as Teflon. Such material has very low friction combined with high electrical insulating properties.
  • Arm 68 is fixed on the end of shaft 66 such that it is positioned in the vertically downward position when handle-pointer 64 is rotated 180 to its upper limit on dial 7 It should be especially noted that since panel 14 is inclined from the vertical, shaft 66 is inclined downwardly as it passes thru panel 14 into section 26. Thus the tip of finger 71 which is rigidly fixed to extension 69, upon movement of pointer 64, describes an arc in space which is in a plane parallel to panel portion Since panel portion 14 is inclined from the vertical, the effect is to produce a front-to-back throw in finger 71 as it describes the are.
  • spring bronze support 62 is biased to force condenser plate 61 away from plates 58 and 5'", i.e., towards front panel 14.
  • spring bronze support 62 also forces plate 61 into constant contact with insulating finger '71. It can be seen,.then, that by suitably rotating handle-pointer 64, finger 71 will slideably-rotate against condenser plate 61 and force it into any desired angled position with respect to condenser plates 53 and 58'.
  • the angle of panel 14 and the lengths of shaft 66, arm 67 and extension 69 is selected such that when handle-pointer 64 isdialed full scale, and arm 67 is thereby in the vertically upward position, finger 71 forces condenser plate 61 into parallel relationship to condenser plates 58 and 58. In this position, then, tuning condenser 63 has its highest capacity.
  • tuning condenser 63 has its lowest capacity.
  • the entire tuned circuit of diathermy unit 11 can be suitably adjusted and the power output therefrom can be regulated.
  • Pins 56 and 56 are connected to one end of output coils 72. and 72 by leads 73 and 73'. The other ends of output coils 7'2 and '72 are connected to electrode jacks f7 and 17' respectively.
  • Output coils '72 and 72 are supported by suitable insulating means secured to panel portion 14. Electrode jacks 17 and 17' are similarly supported by suitable insulating means. Boxlike shields 7d and 7d surround output coils 72 and 72, but are suitably insulated therefrom and from housing 12. Shields 74 and 74 further effect a small capacity with output coils 72. and 72, respectively. This small capacity filters out all harmonics of the fundamental frequency which the fundamental frequency produces in the output radio-frequency circuit.
  • Electrode jacks 1'7 and 17 are conventional jacks and furnish connection to electrode leads and electrodes (not shown) which are common in the diathermy art.
  • the user can adjust the power output of the diathermy unit by means of dial-handle 64 and select the duration of treatment by adjusting clock timed switch It).
  • the diathermy unit is plugged into a house current outlet by means of a power cord (not shown).
  • a diathermy unit for producing electro-therapeutic high frequency waves comprising a generally box-like housing, said housing interiorly compartmented into a hi h-frequency power supply section, a high-frequency circuit section and a tuned circuit output section; power supply means positioned in said power supply section; high-frequency generating means positioned in said highfreouency circuit section electrically connected to said power supply means, a high-frequency tuned circuit comprising a high-frequency transformer, a condenser, and a tuning condenser all electrically connected and positioned in said tuned circuit output section and electrically connected to said high frequency generating means; said tuning condenser comprising at least one condenser plate fixed in a vertical transverse position in said output secareaara tion in said housing and a moveable condenser plate held in face to face relationship with said fixed plate, a resilient spring member supporting said moveable condenser plate at one of its edges whereby said plate is inoveable in swinging relationship to said fixed plate; an inclined control panel forming the
  • a diathermy unit for producing electro-therapeutic high-frequency waves comprising a box-like housing including an inclined front control panel with a manually operated power selector dial positioned centrally thereon; a rotatable shaft attached to said dial and extending interiorly of said housing, said shaft at right angles to the plane of said inclined front panel; an extension aflixed to the interior end of the shaft and extending at an angle to the axis thereof; a co-centric contact finger rigidly supported at a distance from the shaft by said extension; a spring member mounted in said housing; a swingable tuning condenser plate supported by spring member to hold said condenser plate in spring-biased relationship against said contact finger; two condenser plates rigidly supported in side-to-side position within said housing and in condenser relationship with said swinga ble condenser plate; output jacks electrically connected to said rigid condenser plates; a high-frequency transformer and condenser connected in electrical parallel with said rigid tuning condenser plates; at least one high-
  • a condenser for tuning a high frequency electrotherapeutic device comprising a housing including a slanted panel thereon, a first condenser plate rigidly aliixed within said housing, a second movable condenser plate held in face-to-face relationship with said first condenser plate, a resilient spring member supporting said second condenser plate at one edge thereof whereby said second plate is movable in swinging relationship to said rst plate, a manually controlled rotatable shaft rigidly supported on and normally to said slanted panel and extending in a plane transverse to a plane in which said second condenser plate lies and wherein the axis of said shaft is at an angle with reespect to said second c0ndenser plate, an angled contacting arm rigidly aflixed to one end of said shaft proximate to said second condenser plate, and an electrically insulated tip on said arm and contacting the second condenser plate in rotatable-sliding relationship

Description

y 18, 1965 G. s. MOGILNER 3,183,912
DIATHERMY MACHINE Filed May 31, 1962 2 Sheets-Sheet l g POWER CIRCUIT May 18, 1965 G. s. MOGILNER DIATHERMY MACHINE 2 Sheets-Sheet 2 Filed May 31, 1962 INVENTOR. GEORGE 5. MOGILNER AGENT United States Patent 3,183,912 DIATHERMY MACHINE George S. Mogiiner, 2758 Whittier Blvd, Los Angeles, Calif. Filed May 31, 1962, Ser. No. 198,891 4 Claims. (Cl. 128--421) This invention relates to high-frequency dielectric apparatus, and more particularly to an improved tuning circuit for use in high-frequency diathermy machines.
Machines utilizing high-frequency electromagnetic waves have been extensively utilized in electro-therapeutics. Such machines are used to induce heat and spur circulation within the body tissues. Such diathermy units have been greatly improved in design and reduced in size in recent years with the result that they may be reliably operated from house current and may be easily moved about for use where it is most convenient. Thus not only are such machines used extensively in professional medical offices, but also are found in many homes.
The present invention provides small size, reliable diathermy device suitable for home application and moreover has a simplified tuning mechanism which is reliable and trouble-free in operation.
It is therefore an object of the invention to provide a small size diathermy unit.
Another object of the invention is to provide a novel tuning mechanism for use in high-frequency diathermy units.
Another object of the invention is to provide a simple tuning mechanism wherein the rotation of a dial alters and adjusts the linear distance between the plates of a tuning condenser.
Further objects and details of the invention will be set forth in the following specification as well as in the accompanying drawing in which:
FIGURE 1 is a perspective exterior view of the diathermy unit of the invention;
FIGURE 2 is a cross-sectional illustration of the invention; and
FIGURE 3 is a plan view of the invention.
With reference to the figures of the drawing, which serve to illustrate the features of the invention, the diathermy device 11 comprises a generally rectangular boxlike housing 12 of a suitable material, such as sheet metal. Very importantly, however, it should be noted, with reference to FIGURE 1, that the front panel 13 of housing 12 has its upper portion 14 inclined at an angle to the rest of the front panel. This inclined portion 14 serves as the control panel for the diathermy device and includes insulated openings 16 and 16 which retain electrode jacks l7 and 17 therein. Similarly a power meter 18 is secured to the upper left hand portion of inclined panel 14, while a suitable clock timed switch 19 is aiiixed to the upper right-hand portion of panel 14. A pilot light 21 is set into the lower center portion of panel 14. Centrally positioned on panel 14 is power dial 22, whose operation and function will be more fully explained hereinafter.
The interior of housing 12 is compartmented into three major sections 23, 24 and 26. Section 23 comprises the entire bottom of housing 12 and is separated from sections 24 and 26 by floor 27. Section 24 comprises the entire upper rearward section of housing 12 and is separated from bottom section 23 by a portion of floor 27 and in turn separated from section 26 by wall 28 which extends from one side to the other of housing 12. Front section 26 includes the entire upper front portion of housing 12 and is separated from section 24 by wall 28 and from section 23 by part of floor 27. In addition, the interior of inclined panel 14 comprises the entire front wall of section 26. All of sections 23, 24 and 26 are entirely 3,l83,9l2 Patented May 18, 1955 enclosed by portions of the top, bottom, sides, front and back of housing 12.
For convenience of reference, section 23 of the housing 12 will be called the high-frequency power supply section, section 24 will be called the high-frequency circuit section, and section 26 will be called the tuned circuit and output section.
Referring to high-frequency circuit section 24, there is illustrated sockets 29 and 29' which are fixed into suitable holes in floor 27. High frequency tubes 31 and 31 are set into sockets 29 and 29 respectively. Tubes 31 and 31 are conventional high-frequency power tubes which are commercially available. The output terminals of tubes 31 and 31 are connected by copper straps 32 and 32 t0 capacitor 33 which is held in suitable clips 34 and 34 atiixed to insulators 36 and 36 screwed into wall 28. Capacitor 33 is held in electrical parallel relation to the primary coil 37 of high-frequency power transformer 38. All of the highfrequency circuit components are maintained at suitable distances from the walls of section 24 so as to prevent arcing of high-frequency current to the housing.
Lower power supply section 23 contains suitable electrical components (not shown) to lead line current from a line cord (not shown) to high-frequency tubes 31 and 31. The line cord is fitted with a suitableterminal for connecting the diathermy device to a house current socket. Also included in power section 23 are the necessary leads and electrical components to respond to the signal from timer-switch 19, so that the unit will be operated in response to the desires of the person using the diathermy device. In addition a suitable house power transformer is provided in section 23 as well as leads to pilot light 21 and power meter 18. The associated capacitors, inductances, and ground connections for the aforesaid light, switch, and meter are also compartmented in section 23. However all such components and circuitry are conventional and well-known in the art and will therefore not be further explained herein.
Referring one again to high-frequency power section 24, a high-frequency transformer secondary loop 39 extends from Wall 28 and is interleaved with the turns of primary coil 37. Secondary loop 39 is supported on wall 23 by spaced leads 41 and 42. Lead 41 is electrically grounded to wall 28 while lead 42 passes thru wall 28 and is electrically insulated therefrom. Both leads 41 and 42 extend thru wall 28 and emerge into tuned circuit section 26.
With reference to tuned circuit and output section 26, leads 41 and 42 are connected to the ends of loop 43 which forms the primary coil of highfrequency stepping transformer 44. Primary loop 43 is passed about the turns of secondary coil 46 of transformer 44. Secondary coil 46 extends horizontally from side to side within section 26 and is maintained in fixed spaced relation away from wall 23 by leads 47 and 48 which extend from either end of coil 46. Leads 47 and 47' are in turn connected to pins 48 and 43' mounted on upright insulating support members 49 and 49, respectively.
Both ends of insulating support members 49 and 49 are spaced apart from wall 28 by suitable spacing extensions 51, and a cooperating extension (not shown), 52 and 52'. Both upright supports 49 and 49' are spaced from wall 2% a sufficient distance to permit room for mounting condenser plates 53 and 53' therebetween. Condenser plates 53 and 53 are mounted upon insulating supports 49 and 49' respectively. They are mounted in the same vertical plane and are laterally spaced from one another. However condenser plate 53 is electrically connected to lead 47 of secondary coil 46 thru pin 48, while condenser plate 53 is electrically connected . members 57 and 57.
to lead 47 of coil 46 through pin 48. Since both plates 53 and 53 are in fixed parallel relation to wall 28, wall 28 serves as the grounded member in completing the condenser circuits. The condensers are thus in parallel electrical connection with secondary coil 46.
Electrical leads 54 and 54 extend from pins 43 and .48, respectively, and are connected to pins 56 and 56' which are secured to and pass thru upright insulating support members 57 and 57' respectively. Insulating members 57 and 57' extend from floor 27 of the housing, vertically within section 26 to the top of housing 12. The members are secured to the floor and top of the housing by suitable angle means, whereby said members are held in a rigid vertical position.
Tuning condenser plates 53 and 58' are attached to the ends of pins 56 and 56', respectively, opposite from leads 54 and 54. Condenser plates 58 and 58' are essentially rectangular in shape and are held fixed in the vertical position and are spaced apart from one another and upright supports 57 and 57 by standoffs surrounding pins 56 and 56 and by spacers 59 and 59 attached to the lower positions of the condenser plates and to upright Thus condenser plates 58 and 58' are electrically insulated from the chassis, but are connected electrically in parallel to condenser plates 53 and 33' and to secondary coil 46.
Large rectangular plate 61 forms the grounded portion of the tuning condenser. Plate 61 is held in condenser relationship to condenser plates 58 and 58' by an angled spring bronze support 62. Spring bronze sup port 62 is attached to the bottom edge of condenser plate 61 by suitable means, e.g., spot welds, and in turn is fixedly connected to floor 27 by a suitable hold-down strip and screw means. However spring bronze support 62 is free to operate upon condenser plate 61 and to spring bias it in a direction away from condenser plates 3 and 58 as shown by the dotted position of plate 61.
.Spring bronze support 62 also serves to ground plate 61 to the chassis of the diathermy unit. Additionally,
retained on the end of a shaft extending through panel 14. hearing 67 and is equipped with stops whereby shaft 66 is permitted to rotate thiuan angle of 180.
Shaft .66 is positioned in panel 14 by a suitable Due to the described construction of condenser 63 the entire device llll is constructed with minimum front-to-back depth. In addition, since the sole mounting point of condenser plate 61 is floor 27 no other means are necessary to hold plate 61 in relation to plates 53 and 58'. Since no other elements are introduced between the condenser plates, the condenser 63 produces a low minimum capacit thus giving the biggest change in capacity from minimum to maximum plate spacing, which is essential for tuning.
- On the opposite side of panel 14 from handle-pointer 6 5, shaft 66 extends into the tuned circuit and output section 26 of housing 12. Shaft 66 terminates in a right angled arm 68. Arm 68, in turn, terminates in a right angledextension 69. Extension 69 comprises a short length of hollow tubing into which insulating finger 7 f is tightly fitted. Finger 71, in turn, bears against condenser plate 61. Finger '71 is preferably made from a high dielectric plastic material, e.g., fluorocarbon plastics such as Teflon. Such material has very low friction combined with high electrical insulating properties.
Arm 68 is fixed on the end of shaft 66 such that it is positioned in the vertically downward position when handle-pointer 64 is rotated 180 to its upper limit on dial 7 It should be especially noted that since panel 14 is inclined from the vertical, shaft 66 is inclined downwardly as it passes thru panel 14 into section 26. Thus the tip of finger 71 which is rigidly fixed to extension 69, upon movement of pointer 64, describes an arc in space which is in a plane parallel to panel portion Since panel portion 14 is inclined from the vertical, the effect is to produce a front-to-back throw in finger 71 as it describes the are.
As noted previously, spring bronze support 62 is biased to force condenser plate 61 away from plates 58 and 5'", i.e., towards front panel 14. Thus, spring bronze support 62 also forces plate 61 into constant contact with insulating finger '71. It can be seen,.then, that by suitably rotating handle-pointer 64, finger 71 will slideably-rotate against condenser plate 61 and force it into any desired angled position with respect to condenser plates 53 and 58'. V
The angle of panel 14 and the lengths of shaft 66, arm 67 and extension 69 is selected such that when handle-pointer 64 isdialed full scale, and arm 67 is thereby in the vertically upward position, finger 71 forces condenser plate 61 into parallel relationship to condenser plates 58 and 58. In this position, then, tuning condenser 63 has its highest capacity.
Similarly, when handle pointer 64 is rotated to the zero position, arm 67 is in the vertically downward position, and spring support 62 will force plate 61 into an angled position farthest away from plates 58 and 58. At this point, tuning condenser 63 has its lowest capacity.
By such simple means, the entire tuned circuit of diathermy unit 11 can be suitably adjusted and the power output therefrom can be regulated.
Pins 56 and 56 are connected to one end of output coils 72. and 72 by leads 73 and 73'. The other ends of output coils 7'2 and '72 are connected to electrode jacks f7 and 17' respectively. Output coils '72 and 72 are supported by suitable insulating means secured to panel portion 14. Electrode jacks 17 and 17' are similarly supported by suitable insulating means. Boxlike shields 7d and 7d surround output coils 72 and 72, but are suitably insulated therefrom and from housing 12. Shields 74 and 74 further effect a small capacity with output coils 72. and 72, respectively. This small capacity filters out all harmonics of the fundamental frequency which the fundamental frequency produces in the output radio-frequency circuit.
Electrode jacks 1'7 and 17 are conventional jacks and furnish connection to electrode leads and electrodes (not shown) which are common in the diathermy art.
Thus the user can adjust the power output of the diathermy unit by means of dial-handle 64 and select the duration of treatment by adjusting clock timed switch It). The diathermy unit is plugged into a house current outlet by means of a power cord (not shown).
What is claimed is:
l. A diathermy unit for producing electro-therapeutic high frequency waves comprising a generally box-like housing, said housing interiorly compartmented into a hi h-frequency power supply section, a high-frequency circuit section and a tuned circuit output section; power supply means positioned in said power supply section; high-frequency generating means positioned in said highfreouency circuit section electrically connected to said power supply means, a high-frequency tuned circuit comprising a high-frequency transformer, a condenser, and a tuning condenser all electrically connected and positioned in said tuned circuit output section and electrically connected to said high frequency generating means; said tuning condenser comprising at least one condenser plate fixed in a vertical transverse position in said output secareaara tion in said housing and a moveable condenser plate held in face to face relationship with said fixed plate, a resilient spring member supporting said moveable condenser plate at one of its edges whereby said plate is inoveable in swinging relationship to said fixed plate; an inclined control panel forming the front portion of said housing; a manually controlled rotatable shaft retained at one of its ends in said front panel and extending into said output section at an angle normal to said panel; a control knob aflixed to the end of said shaft exterior to said panel; a right-angled contacting arm rigidly aflixed to the other end of said shaft and contacting said moveable condenser plate in rotatable-sliding relationship, and output terminals connected to said high frequency tuned circuit whereby high frequency waves are applied exteriorly of said diathermy unit.
2. The diathermy unit of claim 1 wherein said rightangled arm has an insulated tip in sliding contact with said moveable condenser plate.
3. A diathermy unit for producing electro-therapeutic high-frequency waves comprising a box-like housing including an inclined front control panel with a manually operated power selector dial positioned centrally thereon; a rotatable shaft attached to said dial and extending interiorly of said housing, said shaft at right angles to the plane of said inclined front panel; an extension aflixed to the interior end of the shaft and extending at an angle to the axis thereof; a co-centric contact finger rigidly supported at a distance from the shaft by said extension; a spring member mounted in said housing; a swingable tuning condenser plate supported by spring member to hold said condenser plate in spring-biased relationship against said contact finger; two condenser plates rigidly supported in side-to-side position within said housing and in condenser relationship with said swinga ble condenser plate; output jacks electrically connected to said rigid condenser plates; a high-frequency transformer and condenser connected in electrical parallel with said rigid tuning condenser plates; at least one high-frequency power tube connected to the primary coil of said transformer; and power means connected to said high-frequency power tube.
4. A condenser for tuning a high frequency electrotherapeutic device comprising a housing including a slanted panel thereon, a first condenser plate rigidly aliixed within said housing, a second movable condenser plate held in face-to-face relationship with said first condenser plate, a resilient spring member supporting said second condenser plate at one edge thereof whereby said second plate is movable in swinging relationship to said rst plate, a manually controlled rotatable shaft rigidly supported on and normally to said slanted panel and extending in a plane transverse to a plane in which said second condenser plate lies and wherein the axis of said shaft is at an angle with reespect to said second c0ndenser plate, an angled contacting arm rigidly aflixed to one end of said shaft proximate to said second condenser plate, and an electrically insulated tip on said arm and contacting the second condenser plate in rotatable-sliding relationship.
References Cited by the Examiner UNITED STATES PATENTS 1,962,796 6/34 Wappler 128-422 X 2,589,351 3/52 Ehrlich 317249 3,043,310 7/ 6'2 Milinowski 132-422 RICHARD A. GAUDET, Primary Examiner.
UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3,183,912 May 18, 1965 George S. Mogi1ner It is hereby certified that error appears in the above numbered patent reqliring correction and that the said Letters Patent should read as correctedbelow.
Column 2, line 40, for "one" read once line 56, for "48 read 47 column 5, line 31, after "by insert said column 6, line 21, for "reespect" read respect Signed and sealed this 23rd day of November 1965.
(SEAL) Attest:
EDWARD J BRENNER Commissioner of Patents ERNEST W. SWIDER Atlosting Officer

Claims (1)

1. A DIATHERMY UNIT FOR PRODUCING ELECTRO-THERAPEUTIC HIGH FREQUENCY WAVES COMPRISING A GENERALLY BOX-LIKE HOUSING, SAID HOUSING INTERIORLY COMPARTMENTED INTO A HIGH-FREQUENCY POWER SUPPLY SECTION, A HIGH-FREQUENCY CIRCUIT SECTION AND A TUNED CIRCUIT OUTPUT SECTION; POWER SUPPLY MEANS POSITIONED IN SAID POWER SUPPLY SECTION; HIGH-FREQUENCY GENERATING MEANS POSITIONED IN SAID HIGHFREQUENCY CIRCUIT SECTION ELECTRICALLY CONNECTED TO SAID POWER SUPPLY MEANS, A HIGH-FREQUENCY TUNED CIRCUIT COMPRISING A HIGH-FREQUENCY TRANSFORMER, A CONDENSER, AND A TUNING CONDENSER ALL ELECTRICALLY CONNECTED AND POSITIONED IN SAID TUNED CIRCUIT OUTPUT SECTION AND ELECTRICALLY CONNECTED TO SAID HIGH FREQUENCY GENERATING MEANS; SAID TUNING CONDENSER COMPRISING AT LEAST ONE CONDENSER PLATE FIXED IN A VERTICAL TRANSVERSE POSITION IN SAID OUTPUT SECTION IN SAID HOUSING AND A MOVEABLE CONDENSER PLATE, HELD IN FACE TO FACE RELATIONSHIP WITH SAID FIXED PLATE, A RESILIENT SPRING MEMBER SUPPORTING SAID MOVEABLE CONDENSER PLATE AT ONE OF ITS EDGES WHEREBY SAID PLATE IS MOVEABLE IN SWINGING RELATIONSHIP TO SAID FIXED PLATE; AN INCLINED CONTROL PANEL FORMING THE FRONT PORTION OF SAID HOUSING; A MANUALLY CONTROLLED ROTATABLE SHAFT RETAINED AT ONE OF ITS ENDS IN SAID FRONT PANEL AND EXTENDING INTO SAID OUTPUT SECTION AT AN ANGLE NORMAL TO SAID PANEL; A CONTROL KNOB AFFIXED TO THE END OF SAID SHAFT EXTERIOR TO SAID PANEL; A RIGHT-ANGLED CONTACTING ARM RIGIDLY AFFIXED TO THE OTHER END OF SAID SHAFT AND CONTACTING SAID MOVABLE CONDENSER PLATE IN ROTATABLE-SLIDING RELATIONSHIP, AND OUTPUT TERMINALS CONNECTED TO SAID HIGH FREQUENCY TUNED CIRCUIT WHEREBY HIGH FREQUENCY WAVES ARE APPLIED EXTERIORLY OF SAID DIATHERMY UNIT.
US198891A 1962-05-31 1962-05-31 Diathermy machine Expired - Lifetime US3183912A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US198891A US3183912A (en) 1962-05-31 1962-05-31 Diathermy machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US198891A US3183912A (en) 1962-05-31 1962-05-31 Diathermy machine

Publications (1)

Publication Number Publication Date
US3183912A true US3183912A (en) 1965-05-18

Family

ID=22735303

Family Applications (1)

Application Number Title Priority Date Filing Date
US198891A Expired - Lifetime US3183912A (en) 1962-05-31 1962-05-31 Diathermy machine

Country Status (1)

Country Link
US (1) US3183912A (en)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3329148A (en) * 1965-09-21 1967-07-04 Dynapower Systems Corp Of Cali Control of electrotherapeutic apparatus
US3368565A (en) * 1965-04-02 1968-02-13 Dynapower Systems Corp Of Cali Electrotherapeutic treatment head with tuning means
US3435347A (en) * 1966-10-06 1969-03-25 Collins Radio Co Cam mounted series resonant trap for tunable rf power amplifier to antenna coupling circuit
US3671822A (en) * 1970-12-17 1972-06-20 Teletype Corp Variable capacitive apparatus
US4251849A (en) * 1977-09-27 1981-02-17 Alps Electric Co., Ltd. Trimmer capacitor
US4352144A (en) * 1981-01-21 1982-09-28 Illinois Tool Works Inc. Capacitive keyswitch with overtravel plunger mechanism

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1962796A (en) * 1931-12-18 1934-06-12 Wappler Frederick Charles High frequency apparatus
US2589351A (en) * 1947-02-27 1952-03-18 Charles N Ehrlich Variable condenser
US3043310A (en) * 1959-04-24 1962-07-10 Diapulse Mfg Corp Of America Treatment head for athermapeutic apparatus

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1962796A (en) * 1931-12-18 1934-06-12 Wappler Frederick Charles High frequency apparatus
US2589351A (en) * 1947-02-27 1952-03-18 Charles N Ehrlich Variable condenser
US3043310A (en) * 1959-04-24 1962-07-10 Diapulse Mfg Corp Of America Treatment head for athermapeutic apparatus

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3368565A (en) * 1965-04-02 1968-02-13 Dynapower Systems Corp Of Cali Electrotherapeutic treatment head with tuning means
US3329148A (en) * 1965-09-21 1967-07-04 Dynapower Systems Corp Of Cali Control of electrotherapeutic apparatus
US3435347A (en) * 1966-10-06 1969-03-25 Collins Radio Co Cam mounted series resonant trap for tunable rf power amplifier to antenna coupling circuit
US3671822A (en) * 1970-12-17 1972-06-20 Teletype Corp Variable capacitive apparatus
US4251849A (en) * 1977-09-27 1981-02-17 Alps Electric Co., Ltd. Trimmer capacitor
US4352144A (en) * 1981-01-21 1982-09-28 Illinois Tool Works Inc. Capacitive keyswitch with overtravel plunger mechanism

Similar Documents

Publication Publication Date Title
US4121592A (en) Apparatus for heating tissue
US3329148A (en) Control of electrotherapeutic apparatus
US2532788A (en) Artificial respiration by electronic stimulation
US4285346A (en) Electrode system
US3183912A (en) Diathermy machine
US5301659A (en) Extracorporeal shockwave lithotripter
EP0357647A1 (en) Electrostimulating device.
US2103440A (en) Electrotherapeutic apparatus
US3320947A (en) Device for the excitation of nerve networks
US2239069A (en) Ultra high frequency generator
GB1105021A (en) Heating apparatus
US2414280A (en) Variometer
US3299892A (en) Therapeutic pulse generation, control and transmission circuit
US2477084A (en) Therapeutic and diagnostic machine
CA1077573A (en) Apparatus for heating tissue
US3054855A (en) Audiometer
US2510017A (en) Radio-frequency oscillator for ultraviolet ray generators
US3638657A (en) Short wave diathermy circuit
US3368565A (en) Electrotherapeutic treatment head with tuning means
US1962796A (en) High frequency apparatus
GB1278352A (en) Improvements in treatment electrodes and apparatus for short-wave therapy, incorporating such electrodes
US1978920A (en) Combination clock and radioreceiver
US2498529A (en) High-frequency oscillator
US4558208A (en) Heating structure for an oven
US2429968A (en) Neuro-vaso detector