DE2158701A1 - CONTROL DEVICE FOR ANESTHOSTIC VAPORIZER - Google Patents

Description

PATENT Attorney DIPL-INQ. JOACHIM STREET

HANAU · RdMERSTR. 1 » · POST BOX 793 · TEL.S0803 · TELEQRAMME: HANAUPATtNT ■ TELEX:

ORIGIMAL HANAU November 25, 1971

Quarzlampen GmbH Zo / Ad - 1293

64 5 Hanau a.M.

Rege I vomicht for anesthetics Iverdunstor

The present invention relates to a control device for a 'la rkosem! tte I vorunster for the exact! dosage of the anesthetic dispensed in the fresh gas flow, with an anesthetic ttuI measuring device for determining the anesthetic concentration is provided.

According to the current state of the macroscopic technique, anesthesia has been used to I, such as Halothane and Fluothano, in constant used to a greater extent in surgical interventions. Of the The human organism can run out if the supply is maintained the anesthetic agent diluted quickly and a lot of the macrosome

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take, which may turn the patient into undesirable Reaches depths of anesthesia.

In a known evaporator for dosing halothane the gas fed to the evaporator is divided into the evaporation chamber passing and one flowing through the bypass line de crowd. The flowing through is in the evaporator chamber Gas is saturated with Ha I othandamp f and then again with the By ρ aß'-strom united. The gas flow is divided by the flow resistances of a bypass throttle and a manually regulated throttle. 'During the exhalation phase, the pressure fills in the line leading away from the evaporator, whereby the pressure in the line leading to the evaporator and in the Vordunsterkammür is falling. Jas with halothane saturated gas in the evaporation chamber therefore expands and allows to The majority of the evaporator chamber in the inflow direction To mix with the incoming fresh gas, the mixture happens dio Üypaßdrosse I and increases uncontrollably, ever according to the different concentrations of the fresh gas, the set Halothan concentration.

An evaporator with a built-in pressure compensator is known to stabilize the emitted halothan concentration, even in the case of artificial ventilation with positive and negative pressure. -This is in the form of a long pipe between the fresh gas line and the evaporation chamber. As soon as the pressure in the line leading away from the evaporator falls, the pressure in the evaporation chamber also falls, whereby the outflow from the evaporator is facilitated, since the gas, which is saturated with lialothane, expands. The greater the gas Toi Imenge fströmt backwards out from the Verdunsterkammer and into the compensating pipe, which is chosen so long that bi r, for the Indo Ausatmungsphaso no Ha I othan-gosn'tt I g tos Oa: flow to the Bypaßloitung can. This means that only fresh gas flows through the dio riyp.ibdrosso I without additional halothane, so that the stabled concentration remains constant even during breathing.

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BATH ORIGINAL

The known Ha Iothane evaporators have the disadvantage that the once set (Ia Iothane concentration is no longer checked during artificial ventilation with positive and negative pressure and therefore no Mach control takes place in the event of any deviations from the set value Halothane in an overflowing gas depends on the physical constants of this gas, when there is a change in the composition of the concentration of the mixture of fresh gases used for anesthesia, such as oxygen and nitrous oxide, deviations of up to £ 30 from the collapsed halothane concentration value can occur , λ that with a selected setting of the halothane concentration by changing the mixing ratio of the fresh gas content, there is a considerable effect on the halothane vapor concentration, which cannot be compensated for by the built-in pressure compensator in the known evaporator, so that a constant halothane concentration is not always guaranteed.

The object of the present invention is to provide a control device for exact dosing of the anesthetic agent concentration to create the delivery of the anesthetic into the fresh gas from an anesthetic measuring device is continuously monitored and regulated. "(J

This object is achieved in that the Control device from a the inclusion of anesthesia η into the Fr Ischgasstron in or to the anesthetic vaporizer Rege imechanics in a bypass line to the fresh gas line consists, with adjustment signals consisting of the control signals of the anesthetic measuring device and a nominal value a reference voltage source are formed, the Rege Imechanik actuate. The anesthetic measurement device provides a measured value Halothane concentration value proportional control signal, which in the reference amplifier with one of the reference voltage source incoming reference signal is compared,

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which corresponds to the set anesthetic concentrate I on. The control signal thus represents the actual value and the reference signal the setpoint value. Step between these two values If there are any deviations, then it becomes the difference between the two signals electronically formed and amplified by the mechanical mechanics of the Anesthetic agent evaporator According to the sign RegoImechanIk increases the reference signal or lowering the amount of anesthesia entering the fresh gas and thus regulating the set Anesthetic agent concentrate I on.

In the control device of the anesthetic evaporator, it encloses preferably a magnetic coil a metal body arranged above the anesthetic center I s evaporator. the one with its top, is suspended by a spring and on its Bottom one immersed in the anesthetic in the evaporator ceramic wick carries, wobal actuating signals from the Referonz amplifiers are fed into the solenoid, the 'Together with the metal body, the Rege Imechanik forms. According to the sign and the size of the difference signal, formed from control and reference signal, the metal is per adjusted to a greater or lesser extent and the ceramic D'ocht in relation to the anesthetic liquid in the evaporator postponed. Which means the amount of anesthetic that evaporates rege 11 wIrd.

In another embodiment of the present invention Die.Rege Imechanik consists of a servomotor that has a Spur gear drives a worm gear, which meshes with a worm of a Venti I push I drive of the Venti Is'.

In a further embodiment of the invention is a valve tappet rod of the valve connected to a horizontal bimetal, which surrounds a heating coil, the S te I IsIgna I e of the reference more intensely, whereby the valve I push I rod with dom bimotall and the heating coil the Rogo I r still on i k of the valve

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BATH ORIGINAL

_ 5 -

bidet.

The reference voltage source is actually an in Percentage of anesthetic content adjustable reference chip decrease.

The invention is described below with reference to the drawings illustrated embodiments explained in more detail. Show it:

FIg. 1 In a schematic representation a Rege I vorrl cn- ™

with ceramic wick for an anesthetic agent evaporator,

Fig. 2 shows a schematically illustrated embodiment

the control device with servomotor and worm wheel, and

Fig. 3 shows a control device with bimetal and Heating coil ".

In the supply lines 10 and 12- the components of the gas | mixed, white be Ispiο IsweI se from oxygen and nitrous oxide exists, adjusted and combined fed to an anesthetic vaporizer 18. Before the evaporator 18, the gas flow divided and flows .on the one hand through a bypass line In the evaporator 18 and on the other hand through a fresh gas line 15 around the evaporator 18. The amount of fresh gas conducted through the evaporator 18 is mixed with the anesthetic in the evaporation chamber, such as Halothane or Fluothane, saturated and behind the evaporator 18 reunited with the amount of gas flowing past the evaporation chamber. The emerging from the evaporator 18 Gasmengo shows the set anesthetic concentrate I on on. A Rege ImechanIk 19 from a Rege I vent I I body 52,

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which is suspended at the top on a spring 50 and from a solenoid 48 which encloses the Rege I venti I body 52, is for regulating the concentration of anesthetics intended. The Rege IventiI body 52 is via a line 32 is connected to a reference amplifier 30. Each excitation of the magnetic coil 48 by a control signal from the reference amplifier 30 causes a displacement of the control valve body 52 and thus a change in the evaporator chamber of the evaporator 18 in the gas flow passing anesthesia tteI amount. This is done on the underside of the Meta I I body 52 a ceramic that is immersed in the anesthetic Wick 3 attached. The anesthetic is in liquid form usually in a copper block of the evaporation chamber and evaporates on the surface of the wick 3 on which the fresh gas flows past. Every movement of the metaffoid body 52 is transferred directly to the wick 3, so that this more or protrudes less from the liquid anesthetic. This increases the evaporation area of the wick 3 or reduced and the amount of anesthetic that leaks into the fresh gas is regulated. The with dom anesthetic added Fresh gas enters the patent circuit 1 in a line 28 leading away from the evaporator 18. A line 24 branches off from the line 28, which feeds the evaporator 18 escaping gas to measure the anesthetic concentration an anesthetic measuring device 22 supplies, in which the measurement the anesthetic agent concentration takes place in the UV range, whereby the falsification of the concentration measurement by the constituents present in the anesthetic gas, such as carbon dioxide, oxygen, laughing gas, nitrogen and steam, is switched off. The measuring device 22 provides one of the Concentration of the anesthetic proportional control signal, which is fed to the reference amplifier 30. The control signal represents the actual value of the concentration measurement. The reference amplifier 30 is also controlled by a Reference voltage source 26 fed a reference signal, which corresponds to the setpoint of the anesthetic concentration is equivalent to. The two signals are in the reference amplifier

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ker 30 compared, accumulated and the received signal amplified and fed to the Rege ImechanΓk 19 via line 32.

In a further embodiment, the mechanism consists of a servomotor 34 which drives a spur gear 36 which meshes with a worm gear 38. A valve I push I drive 40 of a control valve 20, which is arranged in front of the evaporator 18 in the bypass line 17, has a worm 54 which is in engagement with the worm wheel 38. The bump VENTII I drive 40 is 38 actuated by the actuator motor 34 via the gears 36, so long until the measured NarkosemitteI-Concen- tration Λ corresponds to the set value. As soon as this state is reached, the control signal and the reference signal in the amplifier 30 match, so that an actuating signal is fed into the control mechanism 19 until the concentration continues to deviate from the setpoint value. In another embodiment of the control device, the control mechanism 19 is also arranged Γη of the bypass line 17 in front of the evaporator 18. A vent (I push I rod 46 of the valve 20 is connected to a horizontal bimetal 44. A heating coil 42 surrounds the bimetal 44 and is heated via the line 32 by the control signal of the reference amplifier 30. The control signal is obtained in the same way as The heating of the heating coil 4.2 results in a known deformation of the bimetal 44, whereby a corresponding adjustment of the valve 20 occurs and a change in the concentration of the anesthetic takes place registered, a correspondingly new control signal is fed to the reference amplifier 30 and an actuating signal is formed which acts on the control mechanism 19 in the manner already described.

The structure of the reference amplifier 30 and the ReferenzspannungsquelIo 26 are known and require no further Er I ά Explanatory note.

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The present invention has the advantage that largely keeping the anesthetic concentration constant through continuous monitoring and regulation of the Anesthetic consumption is achieved, so that the vaporizer arrangement thanks to the optimal consumption of anesthetics in the company works particularly economically. Because of the ongoing Readjustment in the event of deviations from the set anesthetic concentration only small adjustments are necessary in each case, so that the anesthetic concentration once set can be maintained with great accuracy, whereby the concentration even with constant pressure changes, how it is used, for example, with artificial ventilation, and remains constant with long-term anesthesia.

Expectations :

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Claims (5)

- 9 claims (V / control device for an anesthetic vaporizer for exact dosage of the anesthesia released in the fresh gas flow tteIs, using an anesthetic meter to determine the anesthetic agent concentration is intended, characterized in thatdle Control device from a the intake of anesthetic agent I η i η the fresh gas flow in or to the anesthetic evaporator (18) adjusting rule I mochan I k (19) in a By- (| paßleltung (17) to the fresh gas line (15), wherein Understand I I s i gna Ie from the tax! gna ton- the anesthesia tteI measuring device (22) and a setpoint value of a reference voltage source (26) are formed, the control mechanism (19) actuate. . 2. Control device for an anesthetic vaporizer according to Claim 1, characterized in that that a magnetic coil (48) has an evaporator above the anesthetic agent (18) encloses arranged metal body (52), which is suspended with its top on a spring (50) is and on its underside one in the anesthetic Ceramic wick (3) immersed in the evaporator (18) - carries, with control signals from the reference amplifier (30) In. the Magnot coil (48) are fed together forms the control mechanism (19) with the metal body (52). 3. Control device according to claim 1, characterized in that · the control mechanism (19) from _; a servomotor (34) which drives a worm wheel (38) via a spur gear (36) which meshes with a worm (54) of a valve actuator (40) of the valve (20). - 10 3 09822/0613 - OK - 4. Control device according to claim 1, since by gek e η η ζ e Ichnet that a valve I push I rod (46) of the valve (20) with a horizontal bimetal C44) is connected, which surrounds a HeίzwickIung (42) which Heat up the control signals of the referral amplifier (30), whereby the valve pushes the Istango (46) with the bimetal (44} and the heating coil (42) forming the control mechanism (19) of the outlet (20). 5. · Control device according to claims 1 to 4, "thereby marked that the Ref erenzspanrtuiigsquolle (26) one as a percentage of the anesthetic content provides adjustable reference voltage. 309822/0613