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Publication numberUS3814105 A
Publication typeGrant
Publication dateJun 4, 1974
Filing dateMar 1, 1972
Priority dateMar 1, 1972
Publication numberUS 3814105 A, US 3814105A, US-A-3814105, US3814105 A, US3814105A
InventorsHoward J, Seiffert S, Wartes C
Original AssigneePhysio Control Corp
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Portable defibrillators including rotary solenoid relays for energy transfer and dumping
US 3814105 A
Abstract
A portable defibrillator including at least one open-frame relay is disclosed. The relay combines the functions of previously-used transfer, dump, and ECG protection relays required in portable defibrillator-ECG monitor units. The relay includes at least one rotary solenoid for providing reliable operation while yet resisting accidental operation due to physical shock or the like.
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Description  (OCR text may contain errors)

451 June'4, 19-14 3,093,136 6/1963 Lohr 128/419 D 3,389,704 6/1968 Buchowski et al..... 3,527,228 9/1970 McLaughlin 128/419 'D 3,547,108 12/1970 Seifi'ert 128/419 D [75-] Inventors: Jack D. Howard, Seattle; Stanley V.

I 36:35: ggs ggz fi gg wgg Primary Examiner-William E. Kamm y Attorney, Agent, or FirmChristensen, OConnor, [73] Assignee: Physio-Control Corporation, Seattle, Garrison & Havelka Wash.

[22] Filed: Mar. 1,1972 [57] ABSTRACT 2 11- Appl. No; 230,618

4 A portable defibrillator including at least one openframe relay is disclosed The relay combines the func- 128/419 1x63135932 tions of previously used-transfer, dump, and ECG [58] 9 421 tection relays required inportable defibrillator-ECG 0 i fligfg l 14 193 .5 monitorunits. The relay includes at least one rotary solenoid for providing reliable operation while yet re- 56] 'References Cited v siilstiilri accidental operation due to physical shock or e 1 e. UNITED STATES PATENTS 1,877,314 3 /1959 Grear, Jr 335/122 4 Claims, 2 Drawing Figures 214 212 J 1 M /0' '43 l l 7 4; 1 )2 r DfF/BAWZAIW/ 1 l/ 13 -5; 1 E a m. /w if I t 1 Mal/(70,? z'aweaz Z0) 42 J7-=e i :3 U/[I'l/T J- 4. y I 157 i 24 4.; "vii /7 f l 3 14V 4 l--'-- r" 5;" ,3 Z

: 7 I I l. [l 30' i2 I I PORTABLE IDEFIBRILLATORS INCLUDING .aorAn-Y SOLENOID RELAYS .ron ENERGY TRANSFER AND DUMPING' FIELD OF THE INVENTION This invention generally relates to apparatus'for monitoring the electrical activity of the heart of a person and selectively applying an electric impulse to the person to stop heart fibrillation, and, more particularly, toan. improved relay combining the transfer, dump, and ECG protection relay functions normally required in such devices. I

BACKGROUNDOF THE INVENTION By monitoring the heartbeat of a patient, it can be recognized, by ajskilled operator, when the heart is fibrillating and hence is. in immediate need of a defibrillation signal to terminate fibrillatiorIQDevices such as ECG monitors have long been used in the art to visually display to an operator all information regarding the heartbeat that is necessary to recognize fibrillation. Once the need for a defibrillation signal has been established, a high voltage pulse obtained from a defibrillato'r may be applied to the patient via appropriate electrodes to momentarily stop the heart and terminate fibrillation.

to effect the functions of'the transfer and dump, relays.

Although vacuum relays perform satisfactorily'in portableunits, they are bulky and their expense is a significant portion of the total cost of a portable defibrillator.

Accordingly, it-is an object of this invention to provide an improved portable unit including a defibrillator which does not require separate vacuum relays for the transfer anddump functions thereof.

Itis another object of this invention to provide, in a portable unit including a combination defibrillator and ECG monitor with a single set of electrodes, a combination relay for transferring a charge stored in a capacitor to a patient through a set of electrodes upon receipt of a'defibrillation signal, for protecting the input an ECG monitor using that set of electrodes when the de- ECG monitors and defibrillators are now used custom-arily in intensive care sections of most hospitals and generally comprise stationary units for which considerations of cost, .sizeand .weight are. not critical- However, portable defibrillators have been used with increasing frequency in ambulances and coronary care vehicles. Considerations of cost, size, and ruggedness and reliability under adverse environmental conditions are very importantin the construction of portable v units. One type of portable unit is that combining a defibrillator and an ECG monitor with a single set of paddle electrodes which are used for both heart monitoring and for the application of a defibrillation pulse, as more completely described and claimed in 'U.S. Pat. No.

3,547,108, by Stanley V. Seiffert, Dec. 15, 1970, which is also assigned to the assignee of the present invention. Portable combination defibrillator and ECG monitors have typically included two relays for controlling the transfer of a defibrillation pulse to the patient. The first of these relays is commonly known as the transfer relay and operates to transfer a charge from a storage capacitor in the defibrillator to a set of electrodes connected to the patient upon the actuation of a switch by the operator. The second of these relays is commonly known as the dump relay and operates to discharge the defibrillator's storage capacitor whenever the defibrillator is turned off or whenever power supply voltage is lost. In cases where the unit is of the type described and claimed in the aforementioned patent, a third relay is also provided, known as the protection relay, for pro tecting the ECG monitorfrom the defibrillation pulse which is applied via the same set of electrodes that are fibrillation pulse is being applied, and for discharging the capacitor when the defibrillator unit is turned off or when power is removed in any fashion from the portable unit.

It is yet another object of this invention to provide, in a portable unit including a defibrillator, such a combination relay which is inexpensive, simple in construction, and yet resistant to actuation by external shocks and other vibrations.

, SUMMARY OF THE INvENTIoN These objects and others are achieved, briefly,by

using at least one rotary solenoidto actuate a plurality of contacts providing the transfer,'dump and ECG protection functions previouslyrequiring separate relays and relay coils in the. prior art. In a. preferred embodiment-,a first rotary solenoid is normally deenergized and actuates the transfer and ECG protection contacts upon actuation of an appropriate first switch, and a second rotary solenoid is normally energized andactuates the dump contacts to discharge the defibrillators storage capacitor when power to the unit is'lost or when the first switch is actuated.

BRIEF E CRIPTI N OF THE, DRAWINGS The invention can perhaps best be understood by reference to the following portion of the specification, taken inconjunction with the accompanying drawings, in which: 1

FIG. 1 is a combined block/schematic diagram of a portable unit including a defibrillator and the. combination relay of this invention; and

FIG. 2 is a pictorial diagram illustrating a preferred embodiment of the combination relay.

DESCRIPTION OF A PREFERRED EMBODIMENT While the invention will be hereinafter described with reference to its' use in combination with a portable defibrillator and ECG monitoring unit using a single set of paddle electrodes, it is to be clearly understood that the invention has broad applicability to practically any portable unit including a defibrillator.

Now turning to the drawing, a defibrillator DC supply and control circuit 10 is energized from a DC battery 12 when both an on-off switch 14 for the portable unit and an on-off switch 16 for the defibrillator have been closed. The DC signal supplied on line 17 is converted Second stationary contacts 23b, 24b of transfer relay 22 have connected thereto leads 27 and 28 which are connected to a set of paddle electrode's30, 32 and to movable Contact arm's-25, 26 of transfer relay 22. Stationary contacts 250, 26a associated with movable contacts 25, 26 have connected theretoleads 50, 51 which are coupled to the input of an amplifier 52 whose single output 53 drives an ECG monitor scope 54.

As will be described hereinafter, relay 22 is normally de-energized and accordingly movable contacts 23, 24, 25 and 26 thereof appear in the positions illustrated in the drawing. As such, if the paddle electrodes 30, 32 have been placed in appropriate positions on the patients chest, the ECG monitor space 54 is normally connected thereto and displays information regarding the patients heartbeat.

During this time, the high voltage appearing on output leads 18 and 20 from circuit l-is coupled through contacts 23a, 23 and 24a, 24 across the series connec-] tion of a pulse-shaping inductor 36 and storage capacitor 37. Accordingly, storage capacitor 37 is charged and provides a defibrillation pulse, when relay 22 is energized to switch movable contacts 23, 24, into engagement with stationary contacts 23b, 24b. v

Relay 22 is energized in the following manner. DC

power is supplied to its coil via lead 21 from lead 17. The' other side of the coil is connected by a lead 35 to a first push-button switch 3l'placedon the handle of paddle electrode 30, which is in turn connected by a lead 34 to a second push-button switch 33 placed on the handle of paddle electrode 32. Switches 31 and 33 are normally open,-and theother side of switch 33 is connected to ground. y When the operator detects fibrillation by observation of the ECG monitor scope 54, he then simultaneously depresses switches 31 and 33 to complete a path to ground for the coil of relay 22. Accordingly, relay 22 is energized to discharge the capacitor 37. Relay 22 is designed so that shortly before movable contacts 23 and 24 engage stationary contacts 2% and 24b, movable contacts 25 and 26 are moved out of engagement with stationary contacts 25a, 26a so that the defibrillation pulse applied on common leads 27,28. will not harm the ECG monitor scope 54.

.To discharge the storage capacitor 37 if the portable unit or the defibrillator is turned off without being used, a dump relay 40 is provided whose coil is'connected from the lead 17 toground. Therefore, dump relay 40 is normally energized when power is being supplied to the defibrillator circuit 10. Leads 46 and 47 connect one end of discharge resistors 43, 44 to series network of inductor 36 and capacitor 37. The other ends of resistors 43 and 44 are connected to stationary contacts 41a, 42a associated with movable contacts 41, 42 of dump relay 40. Movable contacts 41 and 42 are interconnected by a lead 45, and are shown in the drawings in their normal position when relay 40 is energized. Y

It will bereadily-appreciated that when power is re- .moved from the coil of relay 40, contacts'4l and 42' move to engage stationary contacts 410, 42a to provide 31, may be interposed in lead 17to the coil of relay 40.

'Contacts3la are'open when push-button switch 31 is depressed. Therefore, relay 40 is de-energized to provide a shunt path for discharge of capacitor 37 through resistors 43 and 44.

If the resistance of resistors 43 and 45 is chosen to be sufficiently'high with respect to the resistance offered by the body of the patient (typically on the order of 70 ohms) then the shunt connection provided thereby will have little or no effect upon the defibrillation pulse if in fact the paddle electrodes and '32 are connected to the patient. If they are not, however, this shunt connection provides an additional safety feature in allowing discharge of capacitor 37 without the possibility of the paddles electrodes 30, 32 later being accidentally touched by the operator or another person.

With reference now to FIG. 2, the relays 22 and are' supported onand secured to a base 60 which may be formed from a sheet of transparent plastic stock material. The relays 22 and 40 both comprise rotary solenoids having a pair of terminals for making connections to the coils of the solenoids and additionally having output shafts 82, 64, respectively. In the embodiment shown, shafts 82 and 64 rotate in a clockwise direction when the solenoids are energized. In a working model,

. the solenoids comprised 24-volt relays obtainable from Ledex, Inc.

' The movable contact arm of dump relay 40 is formed by a first machined steel member 62 which is keyed onto shaft 64. The ends of member 62 are recessed at 62a, 62b to receive, respectively, insulating members 66, 68, which may be secured thereto by appropriate fastening means. Movable contacts 41, 42 comprise standard metallic contact discs which are respectively secured to upper portions of insulating members 66 and 68. As also shown in FIG. 1, contacts 41 and 42 are interconnected by a lead 45.

adischarge shunt path for capacitor 37 through resis- I tors 43 and 44.

In some'cases, it may be desirable to de-energize the dumprelay 40 when the defibrillation pulse is to be applied by actuation of relay 22. Accordingly, a set of contacts 31a, which are actuated by push-button switch Support members 70, 72 of insulating material are secured to base 60 adjacent the extremities of members 66, 68 and have attachedto their upper ends stationary contacts 41a, 42a, also of metallic material. The relative positioning of support members 70, 72 is such so that'contact pairs 41, 41a and 42, 42a are in alignment and in engagement when relay 40 is de-energized. With the arrangement of FIG. 2, the shunt resistors 43, 44 may be conveniently positioned adjacent support members 70, 72.

The contact structure of relay 22 is similar to that of relay 40. A second machined steel member is keyed to shaft 82 and supports for rotation first and second insulating members 84, 86. Member 84 in turn has attached thereto movable contacts 23 and 25, and insulating member 86 has attached thereto movable contacts 24 and 26. As best seen with respect to movable contact 24, each of movable contacts 23 and 24 includes a metallic contact disc on opposite sides of its insulating member.

A first insulating support member 90 is secured to base 60 and positions stationary contacts 24a, 26a so that they are aligned'with and in contact with movable contacts 24, 26 when relay 22 is de-energized. A second insulating support member 96 is identical and supports contacts 23a, 25a for engagement with movable contacts 23' and 25- Third and fourth insulating support members 92, 94 are also secured to base 60 and support stationary contacts 24b, 23b for engagement with v movable contacts 24,23 when relay 22 is energized.

Although interconnection between thecomponents illustrated in H6. 2 is made by wire-leads, it is .also contemplated that a portion of base 60 comprise a printed circuit board substrate with a printed circuit placed thereon for providing the necessary. interconnections. in a working model, the entire assembly illustrated in FIG. 2 was provided with a dust-proof, transparent casing, not illustrated, of a plastic material similar to that used for base 60.. v

As a matter of design, the stationary contacts illustrated in MG. 2 may be supported from-their respective support members by leaf springs so as to provide resilient contact engagement and dampening of contact bounce," or the stationary members themselves may be made of a resilient material;

The design illustrated in PEG. 2 accordingly combines, into one combination relay, the transfer, dump and ECG-protectionfunctions previously provided'by I three separate relays in the prior art. Since the stationary ECG protection contacts a, 260 are placedon supportmembers 90,96, the circuit path from the electrodes to the ECG monitor scope 54 willbe broken before the defibrillation pulse is applied via contacts 23, 23a, 24, 24a. lnaddition, the relay contacts are actuated by rotary solenoids which are virtually impervious to actuation by external shocks or vibrations.

Although the invention has been described with respect to a preferred embodiment thereof, it is to be clearly understood by those skilled in the art that the invention is not limited thereto, but rather is to be bounded onlyby the limits of the appended claims. What is claimed is: A

l. A portable defibrillator for operation from a source of power,'said defibrillator comprising:

. l. a source of defibrillation energy;

2. an electrical network means for storing said defibrillation energy; I 3. a pair of electrodes engagable with a patient; and,

4. circuit means for controlling the selective application of said defibrillation' energy to said patient via said-electrodes, said circuit means including:

a. a first switch;

b. a first relay including a'first set of contacts normally connecting said defibrillation energy source to said electrical network means, and a second set of contacts for connecting said electriing said first set of contacts and closing said sec- I ond set of contacts; and,

c. means interconnecting the source of power, said first switch and said first rotary solenoid to ener- 'gize said firstrotary solenoid upon actuation of said first switch; and,

5. means for automatically shunting said electrical network meanswhenever power is removed from said portable defibrillator, said shunting means including:

a. a second relay including a set of contacts, a'second rotary solenoid having a shaft rotatable upon energization thereof and means responsive to the rotation of said shaft for opening said set of contacts; v

b. a resistance means; I

c. means connecting said set of contacts and said resistance means in series across said electrical network means; r

d. means for connecting said second rotary solenoid to the source of power; and,

e. a set of contacts forming part of said first switch and connected to said second rotary solenoid for removing-power from said second rotary solenoid whensaid first switch is actuated' 2. A portable defibrillator for operation from a source'of power in combination with a heart signal monitoring means for displaying the heart signals of a patient, said combination comprising:

l'. a source of ,defibrillation energy;

2. an electrical network means for storing said defibrillation energy;

3. a pair of electrodes engagable with a patient; and,

4. circuitmeans for controlling the selective application of said defibrillation energy to said patient via said electrodes, said circuit means including: a; a first switch; I I I b. a first relay including-a first set of contactsnormally connecting said defibrillation energy source to said electrical network means, and a second set of contacts for connecting said electrical network means to said electrodes to selectively apply said stored defibrillation energy to said electrodes,'said first relay further including a first rotary solenoid having a shaft rotatable upon energization thereof and means responsive to the rotation of said shaft for sequentially openingsaidfirst set of contacts and closing said second set of contacts; and,

c. means interconnecting the source of power, said first switch and said first rotary solenoid to energize said first rotary solenoid upon actuation of said first switch;

5. means for automatically shunting said electrical network means whenever power is removed. from said portable defibrillator, said shunting means including: I

I a. a second relay including a set of contacts, a second rotary solenoid having a shaft rotatable upon energization thereof and means responsive to the rotation of said shaft for opening said set of contacts;

b. a resistance means;

' 0. means connecting said setof contacts and said resistance means in series across said electrical network means; and, I

d. means for connecting said second rotary solenoid to the source of power; and,

' 6. means for protecting said heart signal monitoring means from receiving any of said defibrillation energy, said protection means comprising:

a. a third set of contacts connected between said heart signal monitoring means and said patient;

, and, i

b. means responsive to the rotation of the shaft of said first rotary solenoid for opening said third set of contacts prior to the closure of said second set of contacts.

3. The combination recited in claim 2 wherein said third set of contacts. normally connects said heart signal monitor means to said electrodes, and wherein said means responsive to the rotation of the shaft of said first rotary solenoid opens said third set of contacts so as to disconnect said heart signal monitoringmeans from said electrodes prior to closure of the second set of contacts and the application of defibrillation energy to said electrodes.

4. A portable defibrillator for operation from a source of power in combination with a heart signal monitoring means for displaying the heart signals of a patient, said combination comprising: 1. a source of defibrillation .energy; 2. an electrical network means for storing said defibrillation energy; 3. a pair of electrodes engagable with apatient; and,

4'. circuit means for controlling the selective application of said defibrillation energy to said patient via said electrodes, said circuit means including: a. a first switch; b. a first relay including a first set of contacts normally connecting said defibrillation energy."

source to said electrical network means, and a second set of contacts-for. connecting said electrical network means to said electrodes to selectively apply said stored defibrillation energy to said electrodes, said first relay further including a first rotary solenoid having a shaft rotatable upon energization thereof and means responsive to the rotation of said shaft for sequentially opening said first set of contacts and closing said second set of contacts; and,

c. means interconnecting the source of power, said first switch and said first rotary solenoid to energize said first rotary solenoid upon actuation of said first switch; and,

5. means for protecting said heart signal monitoring means from receiving any of said defibrillation energy, said protection means comprising:

a. a third set of contacts connected betweensaid heart signal monitoring means and said patient; and, Q

b. means responsive to the rotation of the shaft of said first rotary solenoid for opening said third set of contacts prior to the closure of said second .set of contacts.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2877314 *Nov 10, 1954Mar 10, 1959Grear Jr Jay WElectric contact means
US3093136 *May 25, 1960Jun 11, 1963Mine Safety Appliances CoVentricular defibrillator
US3389704 *Dec 6, 1965Jun 25, 1968Zenith Radio CorpDischarge circuit for a defibrillator
US3527228 *Feb 23, 1966Sep 8, 1970Cardiac Electronics IncCardiac apparatus and switching circuit therefor
US3547108 *Sep 18, 1968Dec 15, 1970Physio Control CorpCombination defibrillator and heartbeat monitoring system
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US4077413 *May 4, 1976Mar 7, 1978The Burdick CorporationDefibrillator
US4090519 *May 10, 1976May 23, 1978James Francis PantridgeDefibrillators
US4106494 *Aug 29, 1977Aug 15, 1978American Optical CorporationHeart defibrillating and monitoring system
US4554928 *Sep 16, 1983Nov 26, 1985Webster Wilton W JrElectrophysiological switching unit
US4635639 *Jan 8, 1985Jan 13, 1987Physio-Control CorporationModular physiological instrument
US4823796 *Apr 3, 1987Apr 25, 1989Laerdal Manufacturing Corp.Defibrillator circuit for producing a trapezoidal defibrillation pulse
US4848345 *Jan 30, 1978Jul 18, 1989Zenex CorporationConnection circuit and method for using monitor/defibrillator
US5222492 *Nov 8, 1991Jun 29, 1993Physio-Control CorporationCardiac defibrillator including an electronic energy transfer circuit
US5243975 *Jul 31, 1991Sep 14, 1993Physio-Control CorporationFor the relief of pain and inflammation
US5872497 *Oct 23, 1996Feb 16, 1999Physio-Control CorporationHigh energy transfer relay
US6148233 *Mar 6, 1998Nov 14, 2000Cardiac Science, Inc.Defibrillation system having segmented electrodes
US6885562Dec 28, 2001Apr 26, 2005Medtronic Physio-Control Manufacturing CorporationCircuit package and method for making the same
EP0526175A1Jul 29, 1992Feb 3, 1993Physio-Control CorporationUser-interactive defibrillator with screen display
WO1982000413A1 *Jun 19, 1981Feb 18, 1982Abbott LabImproved radiopaque medical tubing
WO1982000414A1 *Aug 7, 1981Feb 18, 1982R2 CorpPhysiological electrode systems
WO1985001214A1 *Sep 14, 1984Mar 28, 1985Wilton W Webster JrElectrophysiological switching unit
WO1998018145A1 *Oct 22, 1997Apr 30, 1998Physio Control Manufacturing CHigh energy transfer relay
WO2013107546A2 *Nov 26, 2012Jul 25, 2013Metrax GmbhRelay for a defibrillator
Classifications
U.S. Classification607/5, 335/122
International ClassificationA61N1/39
Cooperative ClassificationA61N1/39, A61N1/3912
European ClassificationA61N1/39