DE1963349B2 - Breathing air receptor for testing lungs - has plastics housing with flange placed between lips and teeth - Google Patents

Abstract

Breathing air receptor for testing functioning of lungs comprises a flow resistance (7) of given dimensions mounted between two outlet openings (8, 9) for connecting manometers, and a soft plastics housing (1) for the resistance inserted between the teeth of the patient. The housing is pref. cylindrical and provided with an integral sealing edge (2) which is adapted to the mouth opening and inserted between the lips and teeth. The outlet openings are in the form of pipe connections integral with the housing. The arrangement allows some movement of the patient without the receptor coming loose.

Description

50

The invention relates to a respiratory flow receptor for pulmonary function examinations with a flow resistance arranged between two discharge openings for connecting pressure gauges is more defined Size.

The known respiratory flow receptors, e.g. B. a Fleisch nozzle, give a high measurement accuracy, but they have the disadvantage on the one hand that they are complex, expensive and heavy and on the other hand have a relatively large empty space that unnaturally affects the gas exchange to be measured. It is particularly disadvantageous that the test subject can practically not move freely at all with such a respiratory flow receptor, which is bound to a tripod. Another disadvantage is that these known receptors as ren ⁶ S is relatively require a lot of effort in terms of cleaning and disinfection.

The invention is based on the object of specifying a respiratory flow receptor that has a simple Structure, is cheap to manufacture, if at all, then allows easy maintenance and finally, when the volume of air is reduced, a movement of the Test subjects within certain limits. According to the invention, the object set is achieved in that a soft plastic bite piece forms the receiving body for the flow resistance

In the embodiment according to the invention, the entire respiratory flow receptor consists of a cheap one Soft plastic body in which either the flow resistance is used, e.g. B. is buttoned, or at the flow resistance is also part of the soft plastic body itself, e.g. made of plastic, so that it Easily cleaned and disinfected or can be thrown away as a disposable receptor after use.

The discharge openings to be provided for the connection of a differential pressure gauge can be integrally formed Discharge nozzle be formed. A respiratory flow receptor according to the invention can advantageously be designed in this way that the essential part for the measurement with the defined flow resistance in the Oral cavity itself comes to rest, which further reduces the volume of air to be eliminated during the measurement will. Respiratory flow receptors according to the invention are particularly suitable for mass examinations which initially often do not depend on a very high measurement accuracy.

Exemplary embodiments of the invention are described and the mode of operation explained with reference to the drawing.

The F i g. 1 shows in the side and the F i g. 2 in plan a respiratory flow receptor made of soft plastic Material with a cylindrical body 1, on the front side a sealing lip 2 is formed, which when Test subjects between the rows of teeth 3 and the lips 4 is clamped. In the cylindrical body 1 are Annular grooves for the diffusers 5 and 6 and for the flow resistance 7, for. B. a network resistor, molded. Radial discharge openings are provided to detect the pressure difference in front of and behind the flow resistance 7 8 and 9 are provided, which open into the molded pipe socket 10 and 11. To the pipe socket 10 and 11 is then in each case a connection of a differential pressure manometer connected. In addition, a bite rib 12 is formed in the area of the sealing lip 2, which gives the teeth and thus also the receptor a firm hold when inserted.

The insertion of the diffusers 5, 6 or the flow resistance 7 can, for. B. expanding the cylindrical body 1, that is, under elastic deformation. In principle, however, it is also possible to manufacture these parts from the same material as the bit and at least the flow resistance to be shaped as an integral part of the bite piece. In the latter case in particular, the result is a very cheap one Element that can be thrown away after a single use. But also when using the parts they can be easily removed from the bite piece and, if necessary, inserted after a cleaning process insert a new bit.

The F i g. 3 shows an embodiment in which the receiving body is outwardly bottle-shaped expanded cylindrical body 20 consists. On the mouth side there is again a sealing edge 21 and a bite rib 22 arranged. The cylindrical body is provided with molded connection piece 23 and takes the Insert 24 consisting of the two diffusers 25 and 26

as well as the flow resistance 27. To sidings the assignment of the discharge openings 28 in the cylinder 20 and in the insert 24 is both the cylinder body 20 and the insert 24 each provided on the circumference with grooves and adapted projections, see above that both parts can only be plugged into one another in certain relative positions.

1 sheet of drawings

Claims (8)

Patent claims: ί. Respiratory flow receptor for pulmonary function examinations with one between two discharge openings for the connection of pressure gauges arranged flow resistance of a defined size, thereby characterized in that a soft plastic bite piece is the receiving body for the flow resistance forms ίο 2. respiratory flow receptor according to claim 1, characterized in that the bite piece as substantially cylindrical body formed and with one of the mouth opening matched, between the Lips and teeth replaceable, molded sealing edge is provided 3. respiratory flow receptor according to claim 1 and 2, characterized in that the discharge openings with connecting pieces molded onto the bite piece are provided. 4. respiratory flow receptor according to claim 1 to 3, characterized in that the flow resistance and optionally also upstream and downstream diffusers in the bite body under elastic Deformation can be used. 5. respiratory flow receptor according to claim 1 to 4, characterized in that the cylindrical body adapted to the oral cavity and the discharge openings with externally molded, penetrating the sealing edge, axially parallel to the cylinder body guided connecting pieces are connected. 6. respiratory flow receptor according to claim 1 to 4, characterized in that the bite piece is on the lip side widened to a cylindrical body and with radially protruding, one behind the other in the axial direction arranged discharge nozzle is provided. 7. respiratory flow receptor according to claim 6, characterized in that the bite piece consists of a flow resistance and diffusers existing, releasably mounted measuring body receives. 8. respiratory flow receptor according to claim 6 and 7, characterized in that the measuring body with the Bite piece adapted grooves or projections is provided with corresponding fitting parts of the Bite piece are engaged as a rotation lock.