US3091239A - Apparatus for intravasal injection of gaseous and liquid media - Google Patents

Description

W. MOELLER May 28, 1963 APPARATUS FOR INTRAVASAL INJECTION OF GASEOUS AND LIQUID MEDIA Filed Aug- 25, 1959 .fm emon" WAN/1.07 M04455 7 WAN/0.5.

ilnited rates Fatent 3 091,239 APPARATUS FOR INTRAVASAL INJECTION F GASEOUS AND LIQUID MEDIA. Wilhelm Moeiler, Wiiheimshiiher Alice 5, Kassel, Germany Filed Aug. 25, 1959, Ser. No. 835,894 Claims priority, application Germany Aug. 25, 1958 9 Claims. (31. 128-214) The present invention relates to an apparatus for intravasal introduction of gasiform, and for infusion of liquid, medicines or other fluids into human and animal bodies. More particularly, the invention relates to an apparatus, known as insufllator, which is utilized by the medical profession in treatment of chronic heart ailments and chronic ailments of the circulatory system due to lack of oxygen or other substances, in the treatment of brain and other organs in a human or animal body, in the treatment of cancerous tissue, in the treatment of lungs of asthmatic patients, and for many other purposes.

It is already known to inject a liquid or gasiform medicine or another treating medium which is supplied by a pressurized container directly into the blood vessel without utilizing a dosing or measuring pump in the conduit means which connects the cannula with the source of pressurized fluid. The quantity of injected fluid medium then depends upon the back pressure met by the medium during entry into the blood vessel, i.e., upon the blood pressure, and also upon the actual pressure at which the medium is released from its container. The disadvantage of such insufllators is in that the exact quantities of medium introduced into the system of a patient are not independent from the pressures prevailing in the punctured vessel. In addition, the presently utilized apparatus of such character can introduce only comparatively large quantities of a fluid medium and are capable of operating without interruption for relatively sort periods of time. Moreover, the presently known insuflilators require constant attention in order to conform the pressure of injected fluid medium to the momentary back pressure prevailing in the circulatory system, and the cylinder from which the fluid is fed must be refilled at frequent time intervals. Even if a pressure reducing device is installed between the cylinder and the cannula, and even if a pressure regulator is utilized in the cylinder, an accumulation of excessive fluid quantities just before the entry into a vessel While the pressure of fluid overcomes the momen tarily prevailing back pressure in the vessel cannot be aovided. This brings about the danger that excessive quantities of a fluid are injected into the veins and, in addition, renders impossible proper control of the quantities delivered to a patients system. Still further, no presently known apparatus for such purposes is capable of simultaneously controlling the delivery of gasiform and/or liquid media to two or more patients, which renders it necessary to employ a large number of skilled attendants.

An object of the present invention is to provide a mechanically driven and fully or nearly fully automatic insufllator of the type which requires attention by a single operator and which is capable of simultaneously delivering gasiforrn and/ or liquid media to two or more patients.

Another object of the invention is to provide an insufllator which is equally suitable for intraarterial (high pressure) as well as for intravenous (low pressure) injection or infusion of a fluid medium.

A further object of the invention is to provide an apparatus for intravasal injection of fluids which is capable of delivering predetermined quantities of a fluid regardless of the back pressures prevailing in the blood vessels.

An additional object of the invention is to provide an apparatus of the above outlined characteristics which is capable of simultaneously injecting two or more fluids into the circulatory system of a patient.

A concomitant object of the instant invention is to provide an insufflator which is capable of automatically controlling or measuring the injection of two or more gasiform and/or liquid media and which may be readily adapted for delivery of one, two or more fluids.

Still another object of the present invention is to provide an insufllator which is capable of delivering fluids into a blood vessel for very long and practically unlimited periods of time without requiring interruption of the treatment, and which is so constructed that an accumulation or excessive dosage of fluid at the start of insufllation is positively prevented.

A further object of the invention is to provide an insufliator which is so constructed that the back flow of blood from the punctured vessel into which the cannula is inserted is prevented even if the pressures generated by the insufllator are lower than those prevailing in the vessel.

With the above objects in View, the invention resides in the provision of an insufliator which comprises a pump driven by a suitable motor over an infinitely variable speed transmission, the pump being connected to one or more sources of fluid media and delivering the fluid at a predetermined pressure to the cannula inserted into the blood vessel or another part of a patients body. Of course, the pump is capable of simultaneously delivering controlled quantities of fluid at predetermined pressures to more than a single cannula, if desired. The supply I conduit leading to the pump preferably contains a pressure reducing multi-way valve whose intake nipple or nipples may be connected to one, two or more sources of gasiform and/or liquid treating media, and an auto matic control system is preferably provided to actuate at least one plug of the multi-way valve in such a way that a single fluid is injected either continuously or at exactly predetermined intervals of time, or that the injection of one fluid alternates with the injection of one or more additional fluids. The automatic control system is driven by the pump motor and comprises a cam and follower assembly which is adjustable so as to vary the length of intervals between successive injections and also the duration of actual injections, if necessary. The multiway valve is utilized whenever it is desired to insufllate two or more fluids into a patients body.

Certain additional features of the invention reside in the provision of means for automatically adjusting the speed of the pump motor when the pressure of injected fluid exceeds or drops below a predetermined range; in the provision of means for preventing the pump from drawing into its gears the discharge end of the supply conduit means; in the provision of means, such as a counting mechanism, which records and continuously indicates the exact quantities of injected fluid; and in the provision of means, e.g., a check valve, which prevents the flow of blood or other liquid into the insufiiator when the pressures generated by the pump are lower than the pressures prevailing in the blood vessel into which the cannula is inserted.

The novel features which are considered as characteristic for the invention are set forth in particular in the appended claims. The invention itself, however, both as to its construction and its method of operation, together with additional objects and advantages thereof, will be best understood from the following description of a specific embodiment when read in connection with the accompanying drawing the single FIGURE of which is a schematic representation of the insufflator with certain parts shown in vertical section.

Referring now in greater detail to the drawing, there is shown an insufflator which comprises an inlet tube In 10b mounted on theshaft 10a.

connected to a non-represented fluid source such as a high-pressure cylinder containing, for example, oxygen, an. antiseptic substance, a stimulant, or any other fluid medium which is to be-injected in carefully controlled quantities and at carefully controlled pressures into a patient s body. Before entering the tube orconduit 1a, the medium to be insufflated is caused to pass through customary wet and dry filters, not shown. The preferablyflexible tube 1a is connected to the intake nipple 1b of a pressure reducing multi-way valve 1 whose discharge nipple leis connected with the intake end of a supply tube. or conduit. 2 leading the medium passing therethrough to the suction side of a'fluid quantity and pressure regulating pump 3. A tube clamp or clip 4 is provided to prevent the discharge end of supply conduit 2 from being drawn into the pumping device '3. The latter is driven by amotor 5 through an infinitely variable transmission indicated at T, the angular speed ofmotor 5 being adjustable by a knob 6. The infinitely variable transmission T mounted in the housing of themotor 5 may be of any known design, for example, a transmission utilizing friction discs or conical motion transmitting pulleys. The knob 6 controls the position of a spindle which, in a manner well known in the art, controls the spacing between the motion transmitting parts. A scale 7 furnishes accurate readings as to the speed of pump 3. Theshaft 9 of the pumping device drives theshaft 10a of a counting orrecording mechanism 10 through a coaxial gear 8a, an idler gear 8, a bevel .gear 36 whoseshaft 36a is rotatably mounted in theside wall 17 of the insufflator housing, and a meshing bevel gear The adjustingknob 10c serves as a means for returning thecounting mechanism 10 into zero position after each use of the insufflator.

, The pressure side of pump 3 delivers measured quantities of a fluid medium, e.g., oxygen, into apressure line 11 in which is installed apressure gauge 12 whose finger orindicator 12a is free to perform angular movements between a pair of spacedstops or arrestingpins 13 mounted at the opposing sides ofmember 12a and both installed in the electric circuit of themotor 5 as indicated in chain lines .at 13a. The distance between and of fluid medium injected into a patients system in a unit of time may be determined in advance and may remain unchanged for hours and even days, if desired and necessary.

The contact pressure gauge 'ormanometer 12 may be connected with a visibleand/ or audible-alarm producing device, not shown, to immediately warn an attendant that the pressure of fluid inline 11 is either below or above the permissible magnitude. In addition to the aforementionedelectrical connection 13a between the stop pins orterminals 13 and themotor 5, there may be provided a hand-actuated switch for arresting the motor as soon as the pressure inline 11 exceeds or drops below the preangular speed ofpump shaft 9, the quantity of injected the positioning :of stop pins orterminals 13 with respect to the scale :of'pressuregauge 12 depends upon the desired range of pressures at which the medium should be injected into the body of a patient. Thus, as soon as the pressure of a fluid medium inline 11 exceeds or drops below a'permissible maximum or minimum value, thefinger 12a comes into contact with the'one or theother pin 13 and, through the non-represented electric connection, causes the transmission which is driven bymotor 5 either to reduce or to increase the speed at which theshaft 9 of pump 3 is driven so as to maintain the pressure inline 11 within a given range.

The quantities of fluid medium'delivered by pump 3 depend solely upon the setting of the transmission in the housing ofmotor 5, i.e., only upon the angular speed of thepump shaft 9. The fluid passing through theline 1a is maintained at constant pressure which preferably only slightly exceeds the atmospheric pressure. The quantity of fluid delivered from the multi-Way valve 1 to pump 3 may be varied by utilizing conduits 2 of different diameters. The disengagement of supply conduit 2 whose discharge end with the clip 4 thereon normally extends into the housing ofpump motor 5 is facilitated by the provision of 'anon-represented bayonet lock or like readily separable connecting means for the cover of the pump and motor housing.

Upon each revolution of thepump shaft 9, an exactly determined quantity of fluid is caused to enter into thepressure line 11. The quantity of fluid delivered by pump 3 in a unit of time equals the capacity of the pump multiplied by the number of revolutions performed by shaft 9- in the same unit of time. 1 Since the angular speed ofshaft 9 is infinitely variable by the knob 6, the quantity fluid medium per unit of time may be readily adjusted to correspond to the circulatory condition of an individual patient or to the condition of another system or organ which is treated by the fluid infused or injected by the insufllator;

The discharge end ofpressure line 11 is connected to a non-represented cannula, and theline 11 further contains a check or back pressure valve 14 which prevents the flow of blood from the puncture vessel into theline 11 when the pressure of medium delivered by pump 3 is lower than the pressure prevailing at the left-hand side of valve 14. This valve is preferably installedin a transparent housing made of a plastic or the like.

The automatic control connection between theshaft 9 of pump 3 and the pressure reducing multi-way'valve 1 comprises a gear transmission 15 and a control cam 16' whose momentary position is determined by the transmission '15 and aspring 30. Thecam 16 is'adjustably mounted on a carrier 26 which latter is swingable about a pivot axle 18 mounted on the insuffiator wall17. At its lower end distant from thepivot axle 13, the carrier or support 26' is formed with a toothed segment 19 which meshes with a similarly toothed member or gear wheel connected to the plug 20 of multi-Way valve 1, the latter determining the quantity of a fluid medium passing fromline 1a through the nipples 1b, 1c and into the supply line 2 leading to the pumping device 3. The toothed member mounted on the plug 20 and the segment 19 may be replaced by a system of levers (not shown) or by any other means capable of transmitting swinging movements of carrier member 26 to the plug 20.

The intermediate gear transmission 15 comprises alarge gear 15a which is coaxially mounted with asmaller gear 15b on theshaft 15c, the latter being fixed to theapparatus wall 17. Gear 15:: meshes with the gear 8a driven by thepump shaft 9. The smaller gear'15b meshes with afurther gear 15d which is coaxially mounted with a followerdisc 21 on a further shaft orpivot axle 15e carried by thewall 17. The transmission 15 controls the duration of, and the length of intervals between, successive injections of a fluid medium passing from line In into the supply line 2 and thence to the cannula at the discharge end ofpressure line 11.

. The follower disc 21 carries an eccentrically mountedlever 22 which is swingably fixed thereto by a pin or pivot axle 23. The lever-22 carries aroller 25 and its swinging movements in one direction (clockwise in the drawing) are limited by a stop or arresting pin 24 which is fixed to the disc 21. Thefollower roller 25 travels along the arcuate or concave inner surface of thecontrol cam 16 when the disc 21 is rotated in anticlockwise direction and thelever 22 abuts against the arresting means 24. The axis ofroller 25 is parallel with the axis about which the carrier 26 rotates. Thecam 16 is adjustably fixed to its carrier or support 26 by means ofscrews 28 which extend through an arcuate slot 27 formed in themember 16. Thus, by releasing thescrews 28,cam 16 may be angularly adjusted with respect to the carrier 26 in order to vary the extent to which the latter may be rocked by thefollower roller 25. As soon as theroller 25 is moved out of contact with the inner surface ofcam 16, the resilient member here shown as ahelical spring 30 immediately rocks the carrier 26 andcam 16 in anticlockwise direction about the pivot axle 18. Thespring 30 is fixed to the carrier 26 and to theside wall 29 of the insufilator. The extent of anticlockwise rocking movements performed by the carrier 26 under the influence ofresilient member 30 is adjustable by a schematically represented stop or arrestingdevice 31 which is fixed to thewall 17 and is movable therealong in the directions indicated by thedouble arrow 31a. When the carrier 26 is rocked by spring 39, its segment 19 displaces the plug 20' into a position to permit entry of controlled quantities of fluid from theline 1a through the valve 1 and into the supply line 2.

Controlled quantifies of asecond fluid medium 32, e.g., a liquid, may be introduced from a second fluid source, such as a tank 32a, through aconduit 33 which is connected to one of theintake nipples 34 forming part of the multi-way valve 1. Theplugs 35 controlling the flow of various media through theintake nipples 34 may be adjusted by hand or by a non-represented automatic control system. The tank 32a may contain a liquid medicine, a stimulant or any other fluid which should be insufliated in controlled quantities and at controlled pressures into a patients system. The pump 3 generates a suctional force or" desired magnitude to draw the fluid medium 32 from the container or receptacle 32:: through theconduit 33 and valve 1 into the supply line 2.

When the insufflator is utilized for injection or infusion of a single fluid medium, thelever 22 is moved into a position in which itsfollower roller 25 remains out of contact with the arcuate surface ofcam 16 when the transmission 15 rotates. For example, thelever 22 may be turned through full 180 degrees with respect to the position shown in the drawing. The position of plug 2% then remains unchanged and is controlled solely by thespring 30 and arrestingmeans 31.

The apparatus shown in the drawing is utilized for alternately injecting two media one of which is supplied through theline 1a in the direction of arrow 37 and the other of which is drawn through theline 33 in the direction ofarrow 38. When thefollower roller 25 rocks thecam 16 and its carrier 26 in clockwise direction about the pivot axle 18, the segment 19' moves the plug 20 into the position shown in the drawing, i.e., in which the first medium is free to pass from theline 1a into the line 2 but thesecond medium 32 is prevented by the plug 20 from entering into the conduit 2. However, when thespring 30 is free to rock theparts 16, 26 in anticlockwise direction to the extent controlled by the arresting means 31, toothed member or segment 19 rotates the plug 20 into a position in which the :line 1a is sealed from line 2 and the latter is open toline 33 whereby the second me dium 32 is free to pass toward the pump 3 and thereover into the pressure line orconduit 11. Such mode of operation is utilized, for example, in treatment of a patient for widening or enlarging his blood vessels by alternately introducing oxygen through the conduit in and aliquid medicine 32 through theconduit 33, the transmission 15 insuring that the alternating dosages of oxygen andliquid treating medium 32 are injected at exactly predetermined time intervals. ,Alternately, the swinging movements of carrier member 26 under the influence ofroller 25 may be utilized for admitting fluid from source 32a in which case thespring 30 causes the member 26 to move into a position permitting the flow of fluid from the source connected withconduit 1a. Thepressure gauge 12 indicates the magnitude of pressures prevailing in theconduit 11 and prevents excessive rise or drop of such pressures.

The provision of two, three ormore intake nipples 34 renders it possible to simultaneously control the injection of three or more different treating fluids. For example, theplugs 35 may be set in such a way that a fluid entering through the left-hand intake nipple 34 is injected alternately with the fluid 32, or that the fluid whose tank is connected to the right-hand intake nipple 34 is injected alternately with the fluids passing through the other twointake nipples 34. Theplugs 35 may be adjusted by hand or by a non-represented automatic control system. In the position shown in the drawing, thecentral plug 35 permits the flow offluid 32 into the conduit 2 while the other twoplugs 35 seal therespective nipples 34. Thus, vthe novel insufllator is capable of controlling in a very simple and reliable manner the injection of several fluids in measured quantities, at fully controlled pressures, and at predetermined intervals of time.

The insufliator of my present invention may be utilized for injecting controlled quantities of oxygen; of blood circulation enhancing and blood vessel widening fluids in liquid form; of blood substitutes and nutrients for the tissue of a human or animal body; as well as of anticoagulants and antiseptics. The insufllation may occur directly into a punctured blood vessel or into any other part of a human or animal body. Since the pressure at which the injection of fluid occurs is generated by the pumping device 3, the tank or tanks from which one or more fluids are lead into the tube 2 may be maintained under any desired pressure and may contain large quanti-ties of fluids. Thus, such tank or tanks need not be refilled while the insufllator is in actual use which would require interruption of the treatment. Consequently, the insufflator may be put to actual use for practically unlimited periods of time, eg, it may be operated without interruption for several hours or for several days, if necessary. Among many other successful uses, the novel instrument has been proven as particularly useful in the treatment of localized bleeding by insufllation of oxygen as well as for treatment of all kinds of circulatory ailments.

The valve 1 andconduit 1a may be omitted if the insufiiator is utilized for continuous injection of a single fluid. The supply line 2 is then connected directly to the cylinder containing oxygen or another substance utilized for a specific treatment. The valve 1 may be considered as consisting of several multi-way valves, namely, the one comprising the intake nipple 1b, the discharge nipple 1c and the plug Ztl, and three multi-way valves connected in parallel with valve 112, 1c, 20 and each consisting of anintake nipple 34 and aplug 35. Theplugs 35 are preferably actuated by hand.

The novel apparatus may be utilized for determining the pressures prevailing in the punctured artery or vein of a patient.

Without further analysis, the foregoing will go fully reveal the gist of the present invention that others can, by applying current knowledge, readily adapt it for various applications without omitting features that, from the standpoint of prior art, fairly constitute essential characteristics of the generic and specific aspects of this invention and, therefore, such adaptations should and are intended to be comprehended within the meaning and range of equivalence of the following claims.

What is claimed as new and desired to be secured by Letters Patent is:

1. An insufliator comprising, in combination, at least one source or" fluid to be insufflated; a pump; motor means comprising an infinitely variable transmission for driving the pump at variable rates of speed; valve means comprising at least one adjustable plug; first conduit means for connecting the source with said valve means;

second conduit means for connecting said valve means with the pump; third conduit means for delivering measured quantities of fluid at predetermined pressures from said pump into a patients body; and an operative connection between said motor means and said plug for adjusting the latter whereby to alternately admit fluid from the source into said second conduit means, said operat-ive connec ion comprising a transmission driven by the motor means, a disc rotated by said last mentioned transmission, a follower roller swingably mounted on said disc and rotatable therewith, a swingable cam in the path of said roller, a gear segment coupled with said cam, toothed means fixed to said plug and meshing with said segment for moving the plug in one direction when the cam is moved by said roller, and resilient means for moving the plug in the opposite direction when the cam is [released by said roller.

2. An insufllator comprising, in combination, at least one source of fluid to be insufilated; a pump; electric motor means comprising an infinitely variable transmission for driving the pump at variable rates of speed; valve means comprising at least one plug; first conduit means for connecting the source with said valve means; second conduit means for connecting said valve means with the pump; third conduit means for delivering measured quantities of fluid at predetermined pressures from said pump into a patients body; a pressure gauge connected with said third conduit means forindicating the pressures prevailing in said last mentioned conduit means, said pressure gauge comprising a scale and indicator means movable along said scale; an electrical connection between said gauge and said motor means -for varying the rate of spec at which the pump is driven when the pressures in said third conduit means are outside a predetermined range, said electrical connection comprising a pair of stops on said scale at the opposite sides of said indicator means and a connection between each stop and said motor 'for increasing the rate of speed at which the pump is driven when the indicator means abuts one of said stops and for reducing the rate of speed at which the pump is driven when the indicator means abuts the other stop; and an operative connection between said motor means and said plug for adjusting the latter whereby to alternately admit and to prevent the flow of fluid from the source into said conduit means;

3. An insufllator comprising, in combination, at least two sources of fluid to be insufilated; a pump; motor means comprising an infinitely variable speed transmission for driving the pump at variable rates of speed; valve means comprising a plug for each of said sources; first conduit means for connecting each source with said valve means and each controlled by one of said plugs; second conduit means for connecting said valve means with the pump; third conduit means for delivering measured quantities of fluid at predetermined pressures from said pump into a patients body; and an operative connection between said motor means and one of said plugs for automatically adjusting the latter whereby to alternately admit fluid from at least two different sources to said pump, said connection comprising a transmission driven by the motor means, a disc driven by said last mentioned transmission, a lever eccentrically mounted on said disc and swingable with respect thereto, a follower roller rotatably mounted on said lever, a carrier member swingable about an axis parallel with the axis of said roller, an arcuate cam adjustably fixed to said carrier member in the path of said roller, a first toothed member fixed to said carrier member, and a second toothed member fixed to said one plug and meshing with said first toothed member, said one plug being movable by the second toothed member into a position to admit at least one'flui-d from the respective first conduit means into said second conduit means when the roller engages said cam and swings the carrier member.

4. An insumator comprising, in combination, at least two sources of'fiuid to be insufliated; a pump; motor means comprising an infinitely variable transmission for driving the pump at variable rates of speed; valve means comprising a plug for each of said sources; first conduit means for connecting each source with said valve means and each controlled by one of said plugs; second conduit means for connecting said valve means with the pump; third conduit means for delivering measured quantities of fluid at predetermined pressures from said pump into a patients body; and an operative connection between said motor means and one of said plugs for automatically adjusting the latter whereby to alternately admit fluid from at least two different sources to said pump, said connection comprising a transmission driven by the mo tor means, a disc driven by said last mentioned transmission, a lever eccentrically mounted on said disc and swingable with respect thereto, a follower roller rotatably mounted on said lever, a carrier member swingable about an axis parallel with the axis of said roller,,an arcuate cam adjustably fixed to said carrier member in the pathof said roller, a first toothed member fixed to said carrier member, a second toothed member fixed to said one plug and meshing with said first toothed member, said one plug being movable by the second toothed member into a position to admit at least one fluid from the respective first conduit means into said second conduit means when the roller engages said cam and swings the carrier member,

and constantly acting resilient means connected withf said carrier member for urging same in a direction opposite to that in which the carrier member is swung by said roller whereby to move said one plug into another position in which the latter admits another fluid into 'said second conduit means.

5. An insufiiator comprising, in combination, at least two sources of fluid to be insufiiated; a pump; motor means comprising an infinitely variable speed transmission for driving the pump at variable rates of speed; valve means comprising a plug for each of said sources; first conduit means for connecting each source with said valve means and each controlled by one of said plugs; second conduit means for connecting said valve means with the pump; third conduit means for delivering measured quantities of fluid at predetermined pressures from said pump into a patients body; and an operative connection between said motor means and one of said plugs for automatically adjusting the latter whereby to alternately admit fluid from at least two diflerent sources to said pump, said connection comprising a transmission driven by the motor means, a disc driven by said last mentioned transmission, a lever eccentrically mounted on said disc and swingable with respect thereto, a follower roller rotatably mounted on said lever, a carrier member swingable about an axis parallel with the axis of said roller, an arcuate cam adjustably fixed to said carrier member in the path of said roller, a first toothed member fixed to said carrier member, a second toothed member fixed to said one plug and meshing with said first toothed member, said one plug being movable by the second toothed member into a position to admit at least one fluid from the respective first conduit means into said second conduit means when the roller engages said cam and swings the carrier member, constantly acting resilient means connected with said carrier member for urging same in a direction opposite to that in which the carrier member is swung by said roller whereby to move said one plug into another position in which the latter admits another fluid into said conduit means, and adjustable arresting means for controlling the extent to which the carrier member is swung by said resilient means.

6. An insuffiator comprising, in combination, a pump having a pressure side and a suction side; motor means comprising an infinitely variable transmission for driving the pump at variable rates of speed; a pressure conduit connected to the pressure side of said pump for delivering controlled quantities of a fluid into a patients body; a supply conduit having a discharge end connected to the suction side of said pump and an intake end; a multiway valve having a discharge nipple connected to the intake end of said supply conduit, said valve further comprising at least two intake nipples each communicating with said discharge nipple and a plug for each intake nipple adjustably mounted in said valve for alternately sealing and unsealing the discharge nipple from the respective intake nipple; a source of fluid to be insufllated connected to at least one intake nipple; and an operative connection between said motor means and the plug associated with said one intake nipple, said connection comprising a transmission driven by the motor means, a disc driven by said last mentioned transmission, a lever eccentrically mounted on said disc and swingable with respect thereto, a follower roller rotatably mounted on said lever, a carrier member swingable about an axis parallel with the of said roller, an arcuate cam adjustably fixed to said carrier member in the path of said roller, a first toothed member fixed to said carrier member, a second toothed member fixed to said last mentioned plug and meshing with said first toothed member, said last mentioned plug being movable by the second toothed member into a first position when the roller engages said cam and swings the carrier member, and resilient means for constantly urging the carrier member in a direction opposite to that in which the latter is swung by said cam, the resilient member causing the second toothed member to move the last mentioned plug into a second position, said last mentioned plug sealing the respective source from said discharge nipple in one of said positions and permitting the flow of fluid to said discharge nipple in the other position.

7. An insufliator comprising, in combination, at least two sources of fluid to be insufliated; a pump; motor means comprising an infinitely variable speed transmission for driving the pump at variable rates of speed; valve means comprising a plug for each of said sources; first conduit means for connecting each source with said valve means and each controlled by one of said plugs; second conduit means for connecting said valve means with the pump; third conduit means for delivering measured quantities of fluid at predetermined pressures from said pump into a patients body; and an operative connection between said motor means and one of said plugs for automatically adjusting the latter whereby to alternately admit fluid from at least two different sources to said pump, said connection comprising a transmission driven by the motor means, a disc driven by said last mentioned transmission, a lever eccentrically mounted on said disc and swingable with respect thereto, a follower roller rotatably mounted on said lever, a carrier member swingable about an axis parallel with the axis of said roller, an arcuate cam adjustably fixed to said carrier member in the path of said roller, a first toothed member fixed to said carrier member, and a second toothed member fixed to said one plug and meshing with said first toothed member, said one plug being movable by the second toothed member into a position to admit at least one fluid from the respective first conduit means into said second conduit means when the roller engages said cam and swings the carrier member, and said lever being swingable with respect to said disc into a position in which the roller is out of engagement with said cam.

8. An insufiiator comprising, in combination, at least two sources of fluid to be insufliated; a pump; motor means comprising an infinitely variable speed transmission for driving the pump at variable rates of speed; valve means comprising a plug for each of said sources; first conduit means for connecting each source with said valve means and each controlled by one of said plugs; second conduit means for connecting said valve means with the pump; third conduit means for delivering measured quantities of fluid at predetermined pressures from said pump into a patients body; and an operative connection between said motor means and one of said plugs for automatically adjusting the latter whereby to alternately admit fluid from at least two difierent sources to said pump, said connection comprising a transmission driven by the motor means, a disc driven by said last mentioned transmission, a lever eccentrically mounted on said disc and swingable with respect thereto, stop means fixed to said disc for maintaining the lever in a given position with respect to said disc, a follower roller rotatably mounted on said lever, a carrier member swingable about an axis parallel with the axis of said roller, an arcuate cam adjustably fixed to said carrier member in the path of said roller when the lever engages with said stop means, a first toothed member fixed to said carrier member, and a second toothed member fixed to said one plug and meshing with said first toothed member, said one plug being movable by the second toothed member into a position to admit at least one fluid from the respective first conduit means into said second conduit means when the roller engages said cam and swings the carrier member, and said lever being swingable away from engagement with said stop means into a position in which the roller is out of engagement with said cam.

9. An insufflator comprising, in combination, a pump having a pressure side and a suction side; motor means comprising an infinitely variable transmission for driving the pump at variable rates of speed; a pressure conduit connected to the pressure side of said pump for delivering controlled quantities of a fluid into a patients body; a supply conduit having a discharge end con nected to the suction side of said pump and an intake end; a multiway valve having a discharge nipple connected to the intake end of said supply conduit, said valve further comprising at least two intake nipples each communicating with said discharge nipple and a plug for each intake nipple adjustably mounted in said valve for alternately sealing and unsealing the discharge nipple from the respective intake nipple; a source of fluid to be insufflated connected to at least one intake nipple and an operative connection between said motor means and the plug associated with said one intake nipple, said connection comprising a transmission driven by the motor means, a disc driven by said last mentioned transmission, a lever eccentrically mounted on said disc and swingable with respect thereto, a follower roller rotatably mounted on said lever, a carrier member swingable about an axis parallel with the axis of said roller, an arcuate cam adjustably fixed to said carrier member in the path of said roller, and means for transmitting swinging movements of said carrier member to said last mentioned plug whereby to move the latter into a pair of positions in one of which fluid is admitted from the respective source into said discharge nipple when the roller engages the cam and swings the carrier member in one direction and in the other of which the last mentioned plug seals the respective source from said discharge nipple, the operative connection further comprising resilient means for constantly urging the carrier member in a direction opposed to that in which the carrier member is swung by said cam when the latter engages with said roller whereby the resilient means constantly tends to move the last mentioned plug into said other position.

References Cited in the file of this patent UNITED STATES PATENTS 1,553,859 Hein Sept. 15, 1925 1,615,643 'Mickey Jan. 25, 1927 2,434,802 Jacobs Jan. 20, 1948 2,449,678 Stallcup Sept. 21, 1948 2,483,924 Moulinier Oct. 4, 1949 FOREIGN PATENTS 290,364 Italy Nov. 17, 1931

Claims (1)

1. AN INSUFFLATOR COMPRISING, IN COMBINATION, AT LEAST ONE SOURCE OF FLUID TO BE INSUFFATED; A PUMP; MOTOR MEANS COMPRISING AN INFINITELY VARIABLE TRANSMISSION FOR DRIVING THE PUMP AT VARIABLE RATES OF SPEED; VALVE MEANS COMPRISING AT LEAST ONE ADJUSTABLE PLUG; FIRST CONDUIT MEANS FOR CONNECTING THE SOURCE WITH SAID VALVE MEANS; SECOND CONDUIT MEANS FOR CONNECTING SAID VALVE MEANS WITH THE PUMP; THIRD CONDUIT MEANS FOR DELIVERING MEASURED QUANTITIES OF FLUID AT PREDETERMIN PREDETERMINED SAID PUMP INTO A PATIENT''S BODY; AND AN OPERATIVE CONNECTION BETWEEN SAID MOTOR MEANS AND SAID PLUG FOR ADJUSTING THE LATTER WHEREBY TO ALTERNATELY ADMIT FLUID FROM THE SOURCE INTO SAID SECOND CONDUIT MEANS, SAID OPERATIVE CONNECTION COMPRISING A TRANSMISSION DRIVEN BY THE MOTOR MEANS, A DISC ROTATED BY SAID LAST MENTIONED TRANSMISSION, A FOLLOWER ROLLER SWINGABLY MOUNTED ON SAID DISC AND ROTATABLE THEREWITH, A SWINGABLE CAM IN THE PATH OF SAID ROLLER, A GEAR SEGMENT COUPLED WITH SAID CAM, TOOTHED MEANS FIXED TO SAID PLUG AND MESHING WITH SAID SEGMENT FOR MOVING THE PLUG IN ONE DIRECTION WHEN THE CAM IS MOVED BY SAID ROLLER, AND RESILIENT MEANS FOR MOVING THE PLUG IN THE OPPOSITE DIRECTION WHEN THE CAM IS RELEASED BY SAID ROLLER.

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