DE3730551A1 - Respiratory gas humidifier - Google Patents

Abstract

Respiratory gas humidifier having a water bath humidifier (1) which is connected to a respirator and has a supply tube (9) which leads to a tube or measurement adapter (10) and is arranged inside an acrylic glass pipe (12) or PVC tube (20) which is in turn surrounded by an additional electrical heater (15). This results in an optimum control of the temperature of the respiratory gas for the patient (Fig. 1). <IMAGE>

Description

The invention relates to a respiratory gas humidifier advises for patients with a ventilator closed gas humidifier in which the breathing gas is processed and with a heated supply hose that the connection between the gas humidifier and one with a measuring tube or tube adapter on Patient or incubator and with a back Guide line for the exhaled gas between tube or measurement adapter and the ventilator.

With a generic respiratory gas humidification device (type MR 450 from Fischer & Paykel) there is gas humidification ter from a so-called wick evaporator humidifier, in inside the humidification chamber filled with water a heating plate and a heat-conducting aluminum spiral, which is lined with a fleece paper. The breathing air flows through the aluminum spiral and becomes there at processed. The problem is that the cross cut the aluminum spiral not chosen arbitrarily large can be, so that an undesirably high  Air resistance occurs. Furthermore is for evaporation of water, even with the help of the fleece paper as a wick, he heated the water relatively strongly required, what to overheat the air and thus Ge can endanger the patient. Although in the ver supply hose a low-current heating wire arranged, which should prevent the formation of condensate. For one thing but it is relatively expensive to manufacture low current to be able to operate the heating, on the other hand is the heating wire sensitive and there is a risk that it too Break goes. In addition, the heating wire Condensation is not reliably prevented because the Wall temperature of the supply hose from the heating wire is unaffected.

The object of the present invention is therefore, the Disadvantages of the generic breathing gas humidification fix device and a universally applicable Device with high humidification capacity without dew point below step in the supply hose system. The Object of the invention is achieved in that the Gasbe is more humid than a water bath humidifier and a electric heating element and a control device points, by means of which the water bath temperature on the Kör temperature of the patient, preferably 37 ° C bar and that the supply hose is on its outside side is surrounded by trace heating that is independent is so controllable that the breathing gas at the end of the supply supply hose or on the tube or measuring adapter to the The patient's body temperature and the condensate sat formation in the supply hose is prevented. By this embodiment of the invention ensures that  the breathing gas cannot be overheated since the water bath temperature is set to the patient's body temperature is regulated. This adjustment ensures security represents that the breathing gas is set at its optimal value is and according to the set temp temperature can absorb the associated moisture. Here Of course, it must be ensured that the breathing gas in the Water bath humidifier is sufficiently evenly distributed and has such a continuous path that it is also at relatively dry gas and low temperature can assume different values. Because the accompanying surrounding the outside of the supply hose the formation of condensate within the supply hose safely avoided, especially since external influences such as reverse exercise temperature or the like. Be turned off so that the wall temperature of the supply hose, which the we significant influence on the formation of condensate or dew point Undershoot has been at a desired high level can be held.

The water bath humidifier according to claim 2 has one Water reservoir on, the breathing gas entry at circuit is arranged at floor level of the storage container and opens below a sieve plate, which in turn un is arranged below the water level. The breathing gas out access port is located above the water level and of a fine-mesh fabric, preferably art fabric, covered, the mesh size as small as possible, at most about 0.5 mm, is selected.  

As already mentioned, the dwell time is the breath gases in the water bath humidifier for enrichment with Moisture and reaching the final temperature are important. Therefore, according to the invention, the distance between the Sieve plate and the water level preferably 15 cm. The Cross section of the water bath tank and the size of the strainer plate holes are dimensioned so that the breathing gas on Water bath humidifier outlet at body temperature of preferably heated to 37 ° C and at this temperature Moisture content of 41 grams of water per kilogram of air exhibits (relative humidity of at least 92%). Though the holes in the sieve plate should be as small as possible be to increase the enrichment with moisture. There however, a certain bore diameter must not be un are exceeded or the bore diameter to the Sieve plate area must be coordinated so that the loading breathability does not become too high.

The trace heating advantageously has at least a heating tape or heating coil on that in parallel or are arranged spirally to the supply hose. There are between the heating tape or spiral or Distances provided for the heating tapes, which give the view to the Release the inside of the supply hose. Through the gaps it is ensured that the supply hose is running can be monitored so that errors in the control formation of condensate can be determined visually. In front the trace heating is partly through visible PVC hose or acrylic glass tube attached, in which the supply hose is arranged. For warmth iso For heating and hygiene reasons, the heating tape or heater is rale of a shrinkable, transparent tube, too  Called shrink tubing, surrounded, preferably made of Teflon exists. The heating tape can be made from a Silicon construction with an aluminum foil for better Heat radiation exist, the aluminum foil on the PVC hose or the acrylic glass tube is arranged.

An acrylic glass or plexiglass tube can then be provided be installed when the respiratory gas humidifier is permanently installed is and e.g. on an incubator to hold a small one child is connected. However, the supply should hose can be movable, so a PVC hose is provided see. Between the supply hose and the PVC hose or acrylic glass tube is featured an air gap see that at the ends of the PVC hose or acrylic glass tube is sealed. This creates an air pole between the trace heating and the supply hose, which makes the heating of the Supply hose despite good visibility by the attendant heating is guaranteed. In the air gap, preferably on its half length, can be a temperature probe be fixed so that this temperature as a controlled variable can be used. According to another characteristic of the Er the air gap between the supply hose and PVC hose or acrylic glass tube as a return line used, which is preferably the supply hose on ner entire length between tube or measuring adapter and gas surrounds the humidifier. This has the advantage that instead of two Single hoses only one hose unit to the bed of the Patient or to the incubator must be relocated. Farther the heat of the exhaled gas is recovered, so that already without trace heating, there is a risk of condensation is reduced and the heat output of the trace heating small  ner can be chosen. Furthermore, the Influences of the environment on the supply hose ver wrestles. In addition, no condensate forms in the return line, so that the risk of infection ver is wrestled.

The variation in heater power and loading slide heating is advantageously carried out according to the prin zip of the leading edge control. Advantageously is also a micro as a central regulating and control device Computer provided on which the individual probes one are connected and continue to control of the heating element and the trace heating takes over.

To further explain the invention reference is made to the Reference drawings, in which embodiments of the Invention are shown in simplified form. Show it:

FIG. 1 is an outlined view of a Atemgasbefeuchtungs device that is permanently installed on an incubator;

Fig. 2 shows a section through the connecting lines between rule's incubator and respiratory gas humidifier

Fig. 3 shows a corresponding respiratory gas humidification device, which is provided for ventilation of an adult patient.

In Figs. 1 and 3, 1 denotes a Wasserbadbefeuchter, via a breathing gas inlet port 2 and a return line 3 to a not shown, but well-tes, ventilator is connected. The Wasserbadbe humidifier 1 has a storage container 4 , in which a certain amount of water is filled. The Atemgasein inlet connection 2 opens into the storage container 4 at floor level. Above this mouth is a sieve plate, designated 5 , which dissolves the breathing gas into small bubbles so that it can come into contact with the water level above it and warms up in the water and enriches it with moisture. Arranged within the storage container 4 is a heating element, designated 6 , which heats the water bath to the body temperature of the patient, preferably 37 ° C., and keeps it at this temperature. For this purpose, a measuring probe is provided, not shown, which can be connected to the heating element. Above the water level, in the reservoir 4 , a breathing gas outlet connection 7 is also provided, the end of which is coated with a fabric, preferably plastic fabric, which is as fine-meshed as possible in order to retain any water contained in the breathing gas. The breathing gas inlet connection, the return line, the heating element and the breathing gas outlet connection are fastened to a closure lid 8 , which can be fastened in a sealing manner to the storage container 4 , preferably via quick closures. The cap 8 can be lifted to refill water so that there is always a minimum amount of water in the reservoir. At the breathing gas outlet connection, a supply hose 9 is connected, which leads to a tube or measuring adapter 10 , which is known as such. A line is connected to the tube or measuring adapter 10 , which leads to the patient's mouth or trachea and supplies the patient with breathing gas. Since this line between the tube or measuring adapter and the patient is provided both for the supply and for the return of the breathing gas, the tube or measuring adapter has valves so that the fresh breathing gas is removed from the supply hose and the exhaled gas into one returned with 11 designated return line.

Referring to FIG. 1, the return line by the versor supply hose 9 and at a distance from this, the Ver sorgungsschlauch surrounds transparent acrylic tube 12 is formed which between the Tubus- or measuring adapter 10 in an incubator 13 and the cap 8 of the water badbefeuchters 1 is arranged. The closure cover 8 has, at least in places, a cavity into which the acrylic glass tube 12 opens, the cavity being in turn connected to the return line 3 , which leads to the ventilator. Depending on requirements, a heating tape or spiral 14 is arranged on a part of the route or on almost the entire plug-in distance of the acrylic glass tube 12 on its outer circumference, which is designed as trace heating 15 for the acrylic glass tube or the supply hose 9 . The heating tape or spiral 14 is, depending on the design, attached via an aluminum foil to the acrylic tube, so that good heat conduction to the acrylic tube is given. To provide an insight into the supply hose or in the interior of the acrylic glass tube, the heating tape or spiral is wound at a distance on the acrylic glass tube, so that a view is guaranteed ge. Around the heating band or spiral, a shrunk-on, transparent tube 18 , preferably made of Teflon, is arranged, which ensures a secure hold of the heating band or spiral on the acrylic glass tube. Furthermore, the shrink tube is used for heat insulation and forms a smooth surface so that it can be cleaned hygienically. A temperature measuring probe 19 can be provided between the acrylic tube and the supply hose.

In the section shown in Fig. 2, the spatial relationship between the supply hose 9 , device 11 Rückführlei, acrylic glass tube 12 , heating tape or coil 14 (Be heating 15 ) and shrink tube 18 can be seen.

1, the Atemgasbefeuchtungsgerät of Fig. 3 differs from the Atemgasbefeuchtungsgerät of FIG. In we sentlichen only in that the apparatus is intended for use of adult patients and that the incubator deleted 13 and the acrylic glass tube 12 is replaced by a bewegli chen PVC tubing 20 is. Therefore, the apparatus can of FIG. Be used at any hospital beds 3.

On Tubus- test adapter or the Atemgasbefeuchtungsgeräte of FIG. 1 and 3, a probe 17 is provided which measures the state of the respiratory gas and leads to an illustrated only as a box microcomputer 16. The trace heater 15 and in the heating element 6 are also connected to the Mikrocompu ter 16 , so that the heating power of the trace heater 15 and the heating element 6 controls ge or can be regulated by the microcomputer in conjunction with a phase control that the patient th always Breathing gas with body temperature and an optimal relative humidity of at least 92% is supplied.

As already explained in the patent description, through the hose-in-hose arrangement of the supply hose and the return line an optimal tempe  tion of the breathing gas is reached so that there is no condensate the patient's risk of infection also arises is reduced to a minimum.

Claims (14)

1. Respiratory gas humidification device for patients with a gas humidifier connected to a respirator, in which the respiratory gas is processed, and with a heatable supply hose that establishes the connection between the gas humidifier and a tube or measuring adapter on the patient or on the incubator provided with a measuring probe and with a return line for the exhaled gas between the tube or measuring adapter and the respirator, characterized in that the gas humidifier is designed as a water bath humidifier ( 1 ) and has an electric heating element ( 6 ) and a control device by means of which the water bath temperature is adjusted to the body temperature temperature of the patient, preferably 37 ° C, is adjustable and that the supply hose ( 9 ) is surrounded on its outside with a trace heater ( 15 ) which can be regulated independently such that the breathing gas at the end of the supply hose ( 9 ) or on Tube or measuring adapter ( 10 ) to the body temperature of the patient duck tempered and condensation in the supply hose ( 9 ) is prevented. 2. Respiratory gas humidification device according to claim 1, characterized in that the water bath humidifier ( 1 ) has a storage container ( 4 ) that the Atemgasein enters connection ( 2 ) at floor level of the storage container ( 4 ) and below an arranged below the water level ter sieve plate ( 5 ) and that the breathing gas outlet connection ( 7 ) arranged above the water level is covered by egg nem fine-mesh fabric, preferably plastic fabric. 3. Respiratory gas humidification device according to one of claims 1 or 2, characterized in that the distance between the sieve plate ( 5 ) and the water level is at least 15 cm. 4. Respiratory gas humidification device according to one of the preceding claims, characterized in that the cross section of the Vorratsbe container ( 4 ) and the size of the sieve plate holes are dimensioned such that the respiratory gas at the outlet of the water bath humidifier ( 1 ) warms to body temperature, preferably 37 ° C and has a moisture content of 41 grams of water per kilogram of air. 5. Respiratory gas humidification device according to one of the preceding claims, characterized in that the trace heating ( 15 ) min least has a heating tape or heating coil ( 14 ) which are arranged in parallel or spiral to the supply hose ( 9 ). 6. Breathing gas humidification device according to one of the preceding claims, characterized in that between the heating tape or spiral ( 14 ) or the heating tapes or spirals distances are provided which release the view to the supply hose interior. 7. Respiratory gas humidification device according to one of the preceding claims, characterized in that the heat tracing ( 15 ) is arranged on a transparent PVC hose ( 20 ) or acrylic glass tube ( 12 ) in which the supply hose ( 9 ) is arranged. 8. Respiratory gas humidification device according to one of the preceding claims, characterized in that the heating tape or spiral ( 14 ) is surrounded by a shrinkable, transparent tube ( 18 ), preferably made of Teflon. 9. breathing gas humidification device according to one of the preceding claims, characterized in that between the supply hose ( 9 ) and the PVC hose ( 20 ) or acrylic glass tube ( 12 ) an air gap is provided, which at the ends of the PVC hose ( 20 ) or acrylic glass tube ( 12 ) is sealed. 10. Respiratory gas humidification device according to one of the preceding claims, characterized in that in the air gap, preferably over half its length, a temperature measuring probe ( 19 ) is net angeord. 11. Respiratory gas humidification device according to one of the preceding claims, characterized in that the PVC hose ( 20 ) or the acrylic glass tube ( 12 ) in connection with the supply hose ( 9 ) forms the return line ( 11 ). 12. Respiratory gas humidification device according to one of the preceding claims, characterized in that the PVC hose ( 20 ) or the acrylic glass tube ( 12 ) surrounds the supply hose ( 9 ) over its entire route. 13. Respiratory gas humidification device according to one of the preceding claims, characterized in that the variation of the heating power of the heating element ( 6 ) and the trace heating ( 15 ) takes place according to the principle of phase control. 14. Respiratory gas humidification device according to one of the preceding claims, characterized in that a microcomputer ( 16 ) is provided as the central regulating and control device.