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Número de publicaciónUS2047216 A
Tipo de publicaciónConcesión
Fecha de publicación14 Jul 1936
Fecha de presentación20 Jun 1932
Fecha de prioridad20 Jun 1932
Número de publicaciónUS 2047216 A, US 2047216A, US-A-2047216, US2047216 A, US2047216A
InventoresElmer I Mckesson
Cesionario originalMartha F Mckesson
Exportar citaBiBTeX, EndNote, RefMan
Enlaces externos: USPTO, Cesión de USPTO, Espacenet
Gas administering equipment
US 2047216 A
Resumen  disponible en
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Reclamaciones  disponible en
Descripción  (El texto procesado por OCR puede contener errores)

July 14, 1936. E. l. McKESSON I GAS ADMINISTERING EQUIPMENT Filed June 20, 1952.

livering fluids.

Patented July 14:, 1936 RATE-NT OFFICE ZAM'LZEG GA'S ADEWSTEEBNG EQUIPMENT Elmer Application June 2%,

1 (Claim.

This invention relates conducting: and ele This invention has utility when incorporated for elimination of electrical hazards and in the delivering or" fluids controllably to a patient.

Referring to the drawing:

Fig. 1 is a fragmentary embodiment of the invention in an installation for anaesthetizing a patient; v

Fig. 2 is a view 01' the delivery terminus or mask in the installation of Fig. l;

Fig. 3 is a section on the line m-m, F g. 2;

Fig. i is a partial section on the line Iii-IV, Fig. 2;

Fig. 5 is a section on the line V-V, Fig. 2;

Fig. 6 is a fragmentary bottom plan view of the mask, that is, from the reverse side to the showing of Fig. 2; and

Fig. 7 is a fragmentary view of the flexible passage member or duct to the mask from the source of supply or machine.

Valve mechanism for controllably determining pressure and mingling of supply is shown as a machine l with which there is assembled metallic fitting 2 as an electrical conductor. This fitting 2 is a terminus for hose 3, shown as having a general fabric and rubber body 4, reinforced internally by helical metallic wire spring i, having end 6 thereof anchored with the terminal fitting 2 for a continuity of electrical conductivity throughout this hose 3 from the fitting 2 to the remote fitting l.

Additionally, internally of this hose body l there is herein provided lining t of electric conductivity efiectiveness. This lining ii in practice is a rubber loaded with 50 per cent of apure carbon black, known to thetrade as Special Carbon P-33. There is, accordingly, in this homogeneous lining 8 a degree of electrical conductivity effective against rise of any static charge or the existence of electrical tension as an unbalanced condition, for the reason that any leakages from electrical sources or responses to radio conditions or flow of gases is dissipated uniformly by this electrical conductor lining B to the fittings 2, while any such tendency to promote or disturb conditions even in the body 3 of the hose is minimized against hazard'by having the helix 5 contact the lining and connected at its termini 6 with the respective fittings 2, 7.

In addition to meeting or anticipating hazard from such disturbed condition in the conductor from the machine I, there is no occasion for annoyance of the patient 9 by the occurrence of any rpm a ent,

(iii. Elk-195) I. hicliieeson, Toledo, Dhlo, assignor F. lilcfieeeon, Toledo, @hio noise from the snapping or other electrically dimtubing features. The attendant, as normally conducting the administration, is in position to touch the flesh of the patient as well as hold the hose More especially, there is a tendency with those administering anaesthesia, to position body iii of the mask. This mask body iii is herein shown provided with tubular port It centrally thereof, which is assembled with metallic fitting it as a conductor having terminus it which may This mask body it is also shown as l has electrical conductivity throughout, and furthermore, is of a quality to submit to distortion and hold such shape. For instance, the width may be increased by applying pressure transversely thereof inward. Contrariwise, to narrow the mask in adapting it to the face of the patient, such pressure may be applied to opposite sides, say adjacent rivets it having snap heads Iii. Additionally, these snap heads it may be engaged by connection it about the head of the patient ii in locating the mask at the mouth and nose of the patient when the mask is, as herein shown, adapted for oral and nasal use.

With this connection it an electrical conductor, there is dissipation directly to the cheek of the patient 9 so that no tendency for jumping of the spark may be had to annoy the patient by the prickly sensation, nor to create the hazard of disturhing the patient nervously or the still greater hazard of combustion in the event the administered gases should be of a nature to ignite, as mixtures of ether, acetylene, ethylene with nitrous oxide or oxygen.

As herein disclosed, this mask body it of plastic attributes and electrical conductor properties, has vulcanized assembly connection H to tubular cushion rim [8 of thin sheet rubber. This thin sheet ,rubber l8 has passage it normally contoured and formed therein as the stable condition Y 2 aoetgeie This stem 23 as externally threaded, has opening from the inner terminus thereof to lateral port 24.

Accordingly, in rotating the knurled head 22 by a turn or so as to the stem 20, the port 24 is exposed so that in applying pressure to the cushion l8, the normal content of air may be reduced, and then, with the chamber 59 thus collapsed or partially defiated, the valve may be closed by reverse operation of the knurled head 22. Accordingly, the degree of softness for this cushion It? by gas quantity therein may be nicely determined for promoting comfort in fitting this mask at the face of the patient 9. This comfort in fitting also is a factor against; leakage. This cushion then is not loaded with electrical conductivity to the extent of in itself precluding static charge to be isolated therein away from the patient. As before suggested, this electrical charge accumulation against hazard may be dissipated by the connection IE or by the hand of the operator engaging such mask body 10.

The patient 9 inhales in receiving supply from the machine. I and then exhales. may in part flow back toward the machine i. More or less of the residue may be exhausted. To

' this end, the fitting l2 has located therein sleeve 25 having internal shoulder 26 against gasket 21. As protruding beyond this fitting 12, this sleeve 25 has externally threaded portion 28. This portion 28 may be engaged by internally threaded portion 29 of flanged housing 38. In this assembly the housing 30 may clamp gasket 3! in a position to oppose the gasket 21.

Thishousing 30 has ledge or seat 3| beyond the terminus of the sleeve 25. Against this seat 3|, disk 32 is freely rockable into snug closing position.

This disk 32 is provided with stem 33 engaged by screw 34 loosely assembling this disk 32 with arm 35. This arm 35 has depending parallel eyes 36 providing bearings loosely about shaft 31. The arm 35 has eye 38 which may be engaged by hooked terminus 39 of torsion spring 40 wrapped about the shaft 31 and having its remote terminus 4i coacting with radially extending slot 42 longitudinally of the shaft 31. Thisshaft 31 has at one end, head 43 loosely mounted in nut 44 as a bushing in the frame 30. Notches 45 permit rotation of this bushing and thereby determine the pull action of the head 43 on the shaft 31 remote from the head 43. This shaft 31 as protruding from the opposite side of the frame 38 has seat 45 with which may coact set screw 4'1 through The exhalation knurled er wheel 48. This means that the wheel 68 as manually rotated angularly shifts the shaft 3?. angular shifting is determined.

In one direction at stop 49 to engage the set screw 31, the wheel 48 has its graduations 50 with zero registered at indicator point 5!. This may be an adjustment for ready exhalation exhaust. If it be desired to have the exhalation exhaust, say at 5 millimeters of mercury pressure, the knurledwheel 48 may be turned to have the graduation 5 at the pointer 51; for 10 millimeters of mercury pressure, at the point ill; and for 20 millimeters of mercury pressure, at the point 20.

It is thus seen there is provided a ready means for adjusting the pressure at which the disk 32 may be lifted. This adjustment is a frictional loading for the wheel 48 is spaced from the frame 30 by concave-convex spring washer 52 having slot portion 53 astride the stop 49.

Accordingly, this disk or washer 52 oilers resistance against ready shifting ofthe adjusting wheel 48, while this wheel 48, as hand-turned, increases the torsion of the spring 40. This angular adjustment and its friction is entirely independent of the adjustment'of the spring 40 as to the resistance of the movement of the arm 35. Adjustment of the bushing 44 may determine the frictional holding at adjustment of the wheel 48 independently of disturbing the spring 48. The adjustments of the spring 40 are such that as the arm 35 moves it is at all times, with its loose disk 32, free to move to an open position; which, as an open position is the same whether the adjustment at the graduations 58 be for zero or 20 millimeters of mercury.

It is. thus seen that with a compact simple exhaust valve, there is a control for exhalation which may nicely be adjusted over the practical range for operation and with patients; and that, in this operation, the manipulation is with elimination of electrical hazards from combustion or annoyance to the patient.

What is claimed and it is desired to secure by Letters Patent is:

Gas administering equipment embodying a respiration hose of flexible plastic body, having a helical metallic reinforcement, and terminal metallic fittings connected with the reinforcement terminally anchored in the fittings and therebetween fully embedded in the walls of the a plastic hose for maintaining reinforcement flexibility for the full length of the hose.


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US3670726 *23 Sep 196920 Jun 1972Becton Dickinson CoBreathing circuit
US3750665 *21 Jun 19717 Ago 1973Stranicky FFlexible respirator with inflatable frame
US4675780 *26 Ago 198523 Jun 1987The Gates Rubber CompanyConductive fiber hose
US5724965 *6 Jun 199510 Mar 1998Respironics Inc.Nasal mask
US5960494 *30 Jun 19975 Oct 1999Gilliland; Grant D.Facial support mask accommodating prone position surgery
US6834650 *9 Mar 200028 Dic 2004Mallinckrodt, Inc.Face or nose mask for non-invasive ventilation of patients in general
US7063085 *23 Ago 200420 Jun 2006Silva-Parris Medical ConsultantsGas delivery and monitoring system
US7146664 *19 Jul 200412 Dic 2006Grosvenor Eugene MPneumatic surgical prone head support and system
US727842829 Nov 20049 Oct 2007Mallinckrodt, Inc.Face or nose mask for non-invasive ventilation of patients in general
US729657519 Nov 200420 Nov 2007Ric Investments, LlcHeadgear and interface assembly using same
US732235115 Dic 200529 Ene 2008Hsiner Co., LtdRespiratory mask
US760743331 May 200627 Oct 2009Silva-Parris Medical ConsultantsGas delivery and monitoring system
US7743768 *19 Dic 200629 Jun 2010Ric Investments, LlcPatient interface device with dampening cushion
US938730120 Abr 201212 Jul 2016Koninklijke Philips N.V.Pad assembly having outer casing and support element
US20050092327 *29 Nov 20045 May 2005Massimo FiniFace or nose mask for non-invasive ventilation of patients in general
US20060037608 *23 Ago 200423 Feb 2006Silva-Parris Medical ConsultantsGas delivery and monitoring system
US20070006882 *15 Dic 200511 Ene 2007Hsiner Co., Ltd.Respiratory mask
US20070163594 *19 Dic 200619 Jul 2007Ho Peter C FPatient interface device with dampening cushion
Clasificación de EE.UU.128/202.23, 128/206.26, 174/102.0SC, 474/90, 251/303, 361/215, 174/47, 251/152, 152/DIG.200, 128/205.24, 139/1.00R
Clasificación internacionalA61M16/10
Clasificación cooperativaA61M16/104, Y10S152/02
Clasificación europeaA61M16/10B