DE102010026109A1 - Clamping device for volumetric flow sensor for measuring volumetric flow of respiration of artificially respirated patient, has press ring that presses sealing ring against collar of recess during axial movement to clamp tube connector - Google Patents

Abstract

The device has a press ring (3) arranged within a recess (2) of a housing (1) of a volumetric flow sensor. The press ring presses a resilient sealing ring (4) against a collar of the recess during axial movement to reduce inner diameter of the sealing ring and to clamp a tube connector (6). A hole (7) and the recess have an inclined radially extending slot (8) on a periphery of the press ring. A rotary ring (9) is arranged on an outer side of the volumetric flow sensor. A screw thread is provided on an outer side of the press ring and an inner side of the recess.

Description

The invention relates to the volume flow measurement of ventilated patients.

In the measurement of the volume flow of the respiration of ventilated patients, a volumetric flow sensor is arranged between the so-called Y-piece and the tube connector.

The volume of this volumetric flow sensor acts as a so-called apparatus dead space and leads in particular in very small infants to a CO2 retention, which in turn has a more aggressive ventilation setting result.

Components in the breathing circuit, in particular the Y-piece or the tube connector are connected via cones according to the Standard EN 1281 connected with each other. Therefore, the volumetric flow sensors to be arranged between Y-piece and tube connector according to this standard also have an inner cone and an outer cone. In the inner cone of the tube connector is inserted and the outer cone is in turn inserted into the inner cone of the Y-piece. As a result of unavoidable mechanical tolerances, depending on the tolerance value, the insertion depth of both cones can be different, which results in different values for the apparatus dead space.

While these variations in dead space on the side of the Y-piece are irrelevant, they are important on the tube connector side. This is especially serious in ventilating premature babies.

The least dead space is reached when the tube connector can be plugged into its stop into the volume flow sensor. However, this requires a departure from the principle of the cone with its reliable mechanical fixation and the introduction of additional seals.

According to the state of the art devices are known in which the volume flow sensor has a sealing rubber in the region of its inner cone, which takes over the seal. However, these solutions do not always have the required mechanical strength to prevent accidental disconnection of the Tubuskonnektors from the flow sensor.

The object is to provide such a connection between the tube connector and the volumetric flow sensor, which can easily be solved with the desired deconnection, but at the same time makes an unintentional deconnection difficult.

This object is achieved in that the proximal, so the patient facing inner cone of the housing of the flow sensor with a slightly larger diameter is conical or cylindrical, so that the Tubuskonnektor can be inserted to its stop. The front part of the housing contains a recess into which a press ring is inserted, which can press in the axial direction an elastic sealing ring. By this pressing, the inner diameter of the sealing ring is reduced, whereby the Tubuskonnektor is fixed more. If the pressing pressure is released, the inner diameter increases again and the tube connector can be easily removed.

This axial pressing can be effected in different ways. One possibility is that the pressing ring has an external thread and the inner cone of the volume flow sensor has an associated internal thread. By turning the press ring, the desired axial movement is carried out, as a result of which the sealing ring is pressed more or less.

A second possibility for generating the axial movement of the press ring is the introduction of an additional rotary ring. This is arranged on the outside of the housing of the volume flow sensor in the region of the recess. This recess contains at least one obliquely radially extending slot and the pressing ring at least one bore. In the rotary ring at least one pin is fixed, which opens through the radially extending slot of the recess in the bore of the press ring, By rotating the rotary ring is displaced axially due to the oblique slot of the press ring, resulting in either compression or relief of the sealing ring.

The advantage of the solution according to the invention is that when the sealing ring is unloaded, a low-force deconnection of the tube connector from the volume flow sensor is possible, whereas in the case of a compressed sealing ring, the unintentional deconnection is severely hampered.

The invention will be described below with reference to an embodiment. Show here

1 : In exploded view, a view of the solution according to the invention

2 : a sectional view

In 1 we see the case 1 with two oblique radial slots 8th in the area of the turn 2 , the press ring 3 with two holes 7 , the turning ring 9 with two threads to Recording of the two pens 10 as well as the two pins 10 , which are threaded at the top and cylindrical at the bottom.

2 shows the sectional view in the assembled state.

The housing 1 of the volume flow sensor has at its front end a recess ( 2 ), in which the pressing ring 3 and the sealing ring 4 are located. The sealing ring 4 is designed as an O-ring. He lies between Pressring 13 and the shoulder 5 the turnout 2 ,

On the outside of the recess 2 is the rotary ring 9 , in the two pins 10 are screwed offset by 180 °. This pin protrudes through both slots 8th of the inlet pipe 1 into the holes 7 of the press ring 3 ,

If you turn the rotary ring 9 Rotary ring move around its axis 9 and press ring 13 because of the oblique course of the slots 8th axially. When rotated clockwise moves in the embodiment of the pressing ring 3 to the right and compress the sealing ring 4 , This reduces its inner diameter and it presses more strongly against the tube connector 6 which makes it stronger.

The skilled person will appreciate that instead of two pins 10 even one or even three or more can be used. The number of holes changes to the same extent 7 and slits 8th ,

LIST OF REFERENCE NUMBERS

1

casing

2

recess

3

press ring

4

seal

5

shoulder

6

Tubuskonnektor

7

drilling

8th

slot

9

rotating ring

10

pen

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited non-patent literature

• Standard EN 1281 [0004]

Claims (3)

Clamping device for a volumetric flow sensor for fixing a tube connector, characterized in that the housing ( 1 ) of the volumetric flow sensor at one end of a turn ( 2 ), within which a pressing ring ( 3 ) is arranged, which in axial movement an elastic sealing ring ( 4 ) against the shoulder ( 5 ) of the turn ( 2 ), whereby the inner diameter of the elastic sealing ring ( 4 ) and thereby the tube connector ( 6 ) is stuck. Clamping device for a volume flow sensor according to claim 1, characterized in that the pressing ring ( 3 ) at its periphery at least one bore ( 7 ) and the rotation ( 2 ) at least one obliquely radially extending slot ( 8th ), and on the outside of the volume flow sensor, a rotary ring ( 9 ) in which at least one pin ( 10 ) fixed through the slot ( 8th ) within the hole in a hole ( 7 ) of the pressing ring ( 3 ) ends. Clamping device for a volume flow sensor according to claim 1, characterized in that the pressing ring ( 3 ) on its outside and the recess ( 2 ) each have a thread on its inside.

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