DE2807357C3 - Sterile disposable cover for holding a measuring probe that detects the temperature and respiratory function of a patient - Google Patents

Description

The shell accordingly comprises at least two separate components, a tubular or hollow cylindrical main body with a tapering conical section and a breath-collecting element placed thereon. To measure the temperature, the conical r closes. tapered tip portion of the disposable sheath with a metallic insert which closes the open front end of the conically tapered tip portion. The wall thickness of the conically tapering section is essentially equal to κι and surrounds the probe tip while maintaining a clearance. To assemble such a disposable cover, complex assembly steps are necessary due to the at least two-part design. The manufacture of the conically tapering tip section with the metallic insert is also complicated, which is too complex and expensive in view of the only one-time use of the sheath. Both the handling and the structure of this sterile one weghülle are too complicated. ? i>

The invention is based on the object of a sterile To simplify disposable cover of the generic type in terms of structure and handling, in terms of production technology more cost-effective to design and in particular the reliability of the temperature measurement r> and measurement of respiratory function.

According to the invention, this object is achieved by the characterizing part of the main claim. Further advantageous refinements emerge from the subclaims. jii

In order to simplify the manufacture and manufacture as well as the structure of such a disposable cover, a one-piece design is provided according to the invention. The assembly steps required to assemble individual parts are therefore no longer necessary. According to the invention, the breath collection element also merges into the elongated hollow-cylindrical main body via an essentially flattened transition section. The flattened transition section according to the invention extends from the hollow cylindrical main body from the vicinity of the beginning of the conically tapering section to approximately the opposite curved wall of the breath collection element, so that the transition section extends in the longitudinal direction of the disposable cover, i.e. in the direction of the combined measuring device to be introduced , extends. It is precisely through such a design that the patient's lips have a flat support surface which is formed by the upper side of the transition section. Thus, the patient's lips slightly in the vt of the breath collecting tray limited space occur, so that the entire disposable sleeve is non-rotatably held by the Lippenanpreßdruck and can be nich 'pivoted to the side. This ensures that the measurement conditions for the respiratory function and w for temperature are essentially always the same and, in particular, cannot change during the measurement process. This ensures a significantly higher measurement accuracy.

Furthermore, this simplifies handling, mj because the doctor or the treating person does not have to keep an eye on the person to be treated in order to ensure that the measuring apparatus has not changed in terms of its position. Because the inlet ports in the disposable cover according to the invention are provided in the hi flattened transition section, they are directly connected to the interior of the elongated hollow cylindrical main body. Through this are, on the one hand, any transmission losses, which, in terms of flow, are always inevitable with long Cable routes are available, reduced to a minimum and, on the other hand, the advantage achieves that the breathing inlet openings as close as possible to the exit point of the expelled from the nose Breath lie. Thus, in the case of the disposable envelope according to the invention, almost the entire expelled one is expelled Tidal volume taken into account in the measurement, so that an extremely reliable detection of the desired Functions is guaranteed.

According to claim 2, the surface of the transition section facing the patient's lips is roughened, to achieve that the flat transition portion is firmly gripped by the patient's lips.

So that the conically tapering section of the sterile disposable sleeve according to the invention on the tip the probe is stuck, the inner diameter of the tapered portion is equal to the outer diameter matched the tip of the associated probe so that a pairing in the form of a Press fit according to claim 3 results.

In the design of the sterile disposable cover according to claim 4, the inlet openings are slits formed, which are limited by several webs. The webs prevent the probe from being pushed in into the sheath at the same time that the tip of the measuring probe does not mistakenly enter the breathing inlet opening is introduced. This could namely damage the tip of the measuring probe.

In order to ensure a reliable measurement of a patient's breath, claims 5 and FIG. 6, on the one hand, an assignment of the breath collection element to the hollow cylindrical main body and to the transition section and, on the other hand, a preferred orientation of the breathing inlet opening. According to claim 6 here is the inlet opening in the bottom surface of the bowl-shaped collecting element horizontally aligned. This ensures that almost all of it is out of the patient's nose escaping respiratory flow is caught and directed into the breathing inlet opening, which is in connection with the measuring device for the breath.

Since according to claim 7, the sterile disposable envelope according to the invention is made of polyethylene, it is very cheap, which is convenient in terms of single use.

The invention is explained in more detail below using an example with reference to the drawing. In it shows

Fig.! a top view of a probe used to measure the temperature and the tidal volume, which is surrounded by the shell according to the invention,

Fig. 2 is a diagrammatic view of the probe for measuring the temperature and the tidal volume and from this Probe separated, but in alignment with it, the one-piece disposable cover according to the invention,

3 shows a side view of a probe used to measure the temperature and the tidal volume, which is surrounded by the one-piece toilet cover according to the invention, with the dash-dotted line A patient's face is indicated,

4 shows a bottom view of a probe used to measure the temperature and the tidal volume, which is surrounded by the shell,

5 is a diagrammatic view of the measuring probe surrounded by the sheath, seen from the rear,

F i g. 6 shows the sterile disposable cover in a rear view

according to the invention,

F i g. 7 a part of the measuring probe with the shell indicated by dash-dotted lines,

F i g. 8, in longitudinal section, the test sample with the casing according to the invention indicated by dash-dotted lines and

F i g. 9 in cross section along the line IX in F i g. 8 the probe surrounded by the one-piece sheath according to the invention.

According to FIG. 1, a probe 10 for measuring the temperature and the respiratory volume is surrounded by the sheath 12 according to the invention. The elongated tip 15 of the probe, which is used to measure the temperature, is located in the patient's mouth and extends under the tongue. The free end portion 14 of the sheath located under the patient's tongue has a much smaller wall thickness than the remainder of the sheath, including the area 16. The free end portion 14 of the sheath is conically tapered and surrounds as shown in FIG. 2 fits the free end part 40 of the probe which is used for temperature measurement and which is essentially as long as the free end part 14 of the sheath. In Fig. 1 also shows the shovel-like curved part 18 which collects and guides air exhaled by the patient through the nose. The sheath has a part 20 which is flat at the top and against which the patient's lips can lie so that the scoop-like part 18 faces the nose. This planar part 20 can be textured or roughened at 22.

For supplying the air exhaled by the patient into the probe housing, the sheath 12 is slotted 26, 30 and 34, which are in communication with the inlet opening 24 of the probe 10 (FIGS. 2 and 8). It several small openings are provided so that when the probe 10 is inserted into the sheath 12 of the Temperaturmeßteil the probe 10 can not pass through the wall of the sheath, as in a larger opening would be possible. From FIG. 2 it can be seen that when the probe 10 is inserted into the sheath 12 the webs 28 and 32 have the effect that the free end part 40 of the probe 10 into the free end part 14 of the sheath 12 got.

In Fig. 2 is a probe 10 for measuring the temperature and the tidal volume prior to insertion shown in the one-piece shell 12 having a scoop-like portion 18 and a textured. level Has area 22 for the application of the patient's upper lip. The conical free end portion 40 of the probe do not pass.

Fig. 3 shows how the lips of the patient rest against the planar part 20 of the sleeve, the Upper lip touches the textured surface 22. It can be seen that the scoop-shaped part 18 is directly located under the patient's nostrils and therefore most of that of the patient catches exhaled air.

4 shows a sheath and a probe surrounded by it, seen from below. The shell can be made Consist of polyethylene or polypropylene. The inlet opening 24 of the probe 10 arranged in the sheath is on one side of that also shown in Fig.8 The bottom part 52 of the shell 12 is covered.

F i g. Figure 5 shows the probe and the sheath surrounding it seen from behind. You can see the shovel-shaped one Part 18, through the slots of which the exhaled air enters the measuring device arranged in the probe of the tidal volume can occur.

In Figure 6, the envelope according to the invention is from shown at the back. One recognizes the shovel-shaped part 18 with the slots 26, 30 and 34 as well as the thin-walled conical free end part 14 for receiving the temperature sensor.

According to Fig. 7, the thin-walled free end portion 14 of the shell 12 has the same length as the metallic free End part 40 of the temperature sensor of the probe 10. The inner diameter of this thin-walled free end part 14 must be slightly smaller than the outer diameter of the metallic part 40 in the relaxed state, so when inserting the probe into the sheath, these two free end parts lie tightly against one another.

F i g. Figure 8 shows the one-piece sheath together with the probe for which the sheath is intended. One recognises, that the exhaled air, which is indicated generally by the arrows 50, through the slots into the inlet opening 24 of the probe occurs.

F i g. 9 shows the sheath surrounding the probe 10 according to the invention. It is shown how exhaled Air passes through the openings 26, 30 and 34 into the inlet opening 24 of the probe 10. Furthermore is shown how the transversely arranged inlet opening 24 of the probe 10 on one side with the bottom part 52 of the sheath 12 is covered so that the exhaled air does not pass through the probe housing can, but is directed into the channel that contains the device for measuring the tidal volume

For this purpose 3 sheets of drawings

Claims (7)

Patent claims: 1. Sterile disposable sleeve to contain a patient's temperature and respiratory function detecting measuring probe, with a closed elongated and surrounding the measuring elements of the probe hollow cylindrical main body, the front one intended for temperature measurement End of a conically tapered section with a smaller wall thickness than the wall thickness of the remaining shell and at its rear end has an insertion opening for the measuring probe and a carries cup-shaped breath collecting element which opens to the outside and at least one breath inlet opening has, characterized in that the elongated, hollow cylindrical main body of the Sheath (12), the breath collection element (18) and the conically tapered section (15) form one piece, that the breath collection element (> 8) has an essentially flattened transition section (20) merges into the elongated hollow cylindrical main body, and that the breathing inlet opening (s) (26, 30,34) is (are) provided in the flattened transition section (20) and directly with the interior of the elongated hollow cylindrical main body of the sheath (12) is in connection (s). 2. Disposable sleeve according to claim 1, characterized in that the patient's lips facing surface (22) of the transition section (20) is roughened. 3. Disposable cover according to claim I or 2, characterized in that the decreasing inner diameter of the conically tapered section (15) at least in the region of its tip section (14) always smaller than the decreasing outer diameter of the associated section (40) of the measuring probe (10) is. 4. Disposable cover according to one of claims 1 to 3, characterized in that the breathing inlet opening in the bottom surface of the cup-shaped breath collection element (18) of several webs (28, 32), limited slots (26, 30, 34) is formed, and that the webs (28, 32) the tip (40) of the Guide the measuring probe (10) past the breathing inlet opening (24) when inserting it into the sheath (12). 5. Disposable cover according to one of the preceding claims, characterized in that the cup-shaped Breath-collecting element (18) is assigned and shaped to the hollow cylindrical main body of the sheath (12) and the transition section (20) is dimensioned such that the breath collection element (18) when inserted into the sheath (12) Measuring probe (10) directs the breath into the breath inlet opening (24). 6. Disposable cover according to one of claims 1 to 5, characterized in that the breathing inlet opening (24) essentially horizontally in the bottom surface of the cup-shaped breath collection element (18) is aligned. 7. Disposable cover according to one of claims 1 to 6, characterized in that the integrally formed and the elongated hollow cylindrical main body, the transition section (20) and the shell-shaped breath collection element (18) comprising sheath (12) made of polyethylene. The invention relates to a sterile disposable cover for holding the temperature and the respiratory function a patient sensing probe according to the preamble of the main claim. A sterile disposable cover of the type mentioned is known from DE-OS 26 15 113. This sterile Disposable cover is intended for a medical device as a! S sterile single-use cover Function equivalent to the temperature and the ίο measuring probe recording the respiratory function of a patient is. This sterile disposable cover has a flexible part and a rigid part. The flexible part has one Opening with which the flexible part can be pulled onto the probe and the housing. Of the The flexible part also has an extension which envelops the probe and a collecting opening through which the breathing air can enter in order to coat the thermistor arranged in the wind tunnel. This will a connection is made between the wind tunnel and the openings in the rigid part. Such sterile disposable envelope has a composite structure and therefore consists of two separate ones Components, a flexible part and a rigid part. Also, the breath inlet openings are not on the flat section of the sterile disposable envelope, but provided on the curved side winds. The breathing inlet openings are in communication via an opening in the pipe part and others Openings are in connection with the wind tunnel, so that is provided in the measuring probe. Such a sterile disposable cover has a manufacturing technology and Constructively complex structure, as it consists of two separate components with different properties, a rigid and a flexible part. The arched, curved edge of the breath collection element is aligned with this sterile disposable cover the front edge of the flexible part into which the measuring probe for temperature measurement is inserted and which carries the conically tapered section. If now such a disposable cover with an inserted temperature probe in the mouth of a When the patient is inserted, the patient's lips can only see the tapered / tapered portion as the rigid part is flush with the leading edge of the flexible part. This creates the There is a risk that the measuring probe can twist in the mouth, so that an exact temperature measurement is no longer possible is possible, and that in particular the breath expelled through the nose is no longer reliably analyzed and can be measured because the rigid part, which serves to catch the expelled breath, so twist can that in the breathing inlet openings only a small proportion of the total expelled tidal volume got. This falsifies the measurement of the respiratory function. Another falsification of the Measurement of respiratory function can result from losses in transmission over the connection from the breath inlet openings, the opening and the wind tunnel in the measuring device, which are their cause in flow resistance and similar phenomena. Another type of design of a sterile disposable cover is known from DE-OS 24 13 621. These Disposable cover comprises a closed, elongated, M tubular part with a conically tapered section at the front end and an insertion opening for the measuring probe at the rear end and a bowl-shaped breath collection element. This disposable