DE102013208761A1 - Device for measuring flowing gases in ventilators or respiratory aids - Google Patents

Abstract

The invention relates to a device for measuring flowing gases in respirators or respiratory aids, with a flow tube (2) designed as an elongated hollow body, which is open on the two end faces (7, 8) and otherwise essentially closed, with a sensor section (9) of the flow tube (2), in which the cross section perpendicular to the longitudinal direction of the flow tube in or against the direction of flow continuously decreases or increases, with at least one sensor (10) arranged on the sensor section (9) and protruding into the flow tube (2), the measures the gases flowing through the flow tube (2), with a plug-on part (3) which can be plugged onto the flow tube (2) and detachably connected to the flow tube (2), with a processor and a memory in the plug-on part (3), with a first interface of the plug-on part (3), via which the sensor (10) can be connected to the logic circuit, mi t a second interface (29) of the plug-on part (3), via which the logic circuit can be connected to an external evaluation device.

Description

The invention is based on a device for measuring flowing gases in ventilators or respiratory aids.

Respirators are motor-driven and controlled machines for the artificial respiration of persons in which the body's own respiration has been partially or completely suspended. Respirators are equipped with sensors that sense the breathing air delivered to a patient and the air exhaled by the patient. The sensors are used to monitor and control a ventilator. Respiratory aids are easy-to-use respiratory aids in emergencies. They are usually equipped with neither a motor nor a controller. Ventilation aids can be equipped with sensors that facilitate breathing.

With the help of sensors, for example, the flow volume during inhalation and exhalation, the airway pressure, the temperature, the moisture content, the oxygen content or the oxygen concentration, the composition and the ambient pressure are detected.

The sensors are generally arranged along a flow channel which connects a source of respirator or respiratory aid providing the respiratory air on the one hand with an interface of the respirator or the ventilator to the patient on the one hand. The patient interface may be, for example, a respiratory mask or an endotracheal tube.

The object of the invention is to make available a device for measuring flowing gases in ventilators or respiratory aids, which can record a plurality of sensors for detecting different measured variables, which outputs the measured values to an external reading device via an interface common to all sensors and the at least partially reusable.

This object is achieved by a device having the features of claim 1. The device is characterized in that it comprises essentially two components: a flow tube, which has a flow channel for the breathing air, and a plug-on part which can be pushed onto the flow tube. At least one sensor is arranged in the flow tube. The sensor protrudes into the flow channel, so that it is flowed around by the inhaled and exhaled air. The flow tube is elongated. At the two end faces of the flow tube is open. In addition, it is essentially closed. The section of the flow tube in which the sensor is arranged is referred to as the sensor section. In this sensor section, the cross-section decreases or increases continuously in the longitudinal direction of the flow tube. The longitudinal direction of the flow tube corresponds to the flow direction of the inhaled or exhaled air. The sensor section of the flow tube thus has the shape of a cone or a truncated pyramid. The form favors the flow of breathing air in the direction of the patient and promotes the flow around the sensor.

The flow tube can be cleaned after use in a patient and reused or disposed of.

The plug-on part is equipped with an interface to the sensor and with an interface to an external reader. It also has a processor and a memory to prepare and store the measured values of the sensor. Via the interface to the sensor, the data acquired by the sensor are read into the processor. There, the data is prepared and stored in the memory. From there, the data is output to an external reader via the second interface. The plug-on part is equipped with a coupling device, via which the plug-on part and the flow tube can be detachably connected to one another. The mechanical coupling can come about via a clamping, clamping or pressing action.

The attachment does not come into contact with a patient or his breathing air. It can therefore be reused at any time.

According to an advantageous embodiment of the invention, a first filter is arranged on the flow tube between a first end face and the sensor. The filter ensures that the sensor flows as evenly as possible around the air flowing through the filter. Depending on whether the filter is located near the distal or near the proximal end of the flow tube, it is the air to be inhaled by the patient or the air exhaled by the patient. In addition, the filter prevents parts from entering a sensor section of the flow tube and damaging the sensor. The filter may for example consist of a wire mesh or a wire mesh.

According to a further advantageous embodiment of the invention, a second filter is arranged on the flow tube between a second end face of the flow tube and the sensor. Like the first filter, it promotes the flow of air or air mixture through the air Flow tube along the sensor and prevents the penetration of parts in the sensor section, which could damage the sensor.

Further advantages and advantageous embodiments of the invention are the following description, the drawings and claims removed.

drawing

In the drawing, an embodiment of the invention is shown. Show it:

1 Device for measuring gases in perspective view,

2 Device according to 1 in a view from below,

3 Device according to 1 wherein the plug-on part is detached from the flow tube,

4 Flow tube of the device according to 1 in exploded view,

5 Extract from 4 concerning the sensor, the sensor circuit board and the sensor sleeves

6 Plug-in part of the device according to 1 with removed side parts of the housing.

Description of the embodiment

In the 1 to 6 is a device 1 for measuring gases in ventilators or respiratory aids. The device has a flow tube 2 and a slip-on 3 on. The flow tube is an elongated hollow body. Its longitudinal axis 4 corresponds to the flow direction of the inhaled and exhaled air. The flow tube 2 has at its two ends depending on a cylindrical end portion 5 . 6 with a circular cross-sectional area. With these end sections 5 . 6 can the flow tube 2 be coupled into a flow channel of a ventilator or a ventilator, so that the flow tube 2 forms a portion of the flow channel. At the first end 7 and at the second end face 8th the flow tube is open. In addition, the flow tube is substantially closed. Between the end sections 5 . 6 with the circular cross section is a sensor section 9 the flow tube 2 , At the sensor section 9 is a sensor 10 arranged. The attachment of the sensor 10 is in 4 recognizable. The sensor 10 is with a sensor PCB 11 fitted. On the sensor circuit board either a sensor for detecting a measured variable or a plurality of sensors for detecting a plurality of measured variables can be arranged. The sensor PCB is made of two sensor sleeves 12 and 13 held. The sensor sleeves are at a sensor opening 14 in the sensor section 9 customized. With the help of the sensor sleeves 12 . 13 becomes the sensor 10 into the sensor opening 14 pressed. This is the sensor PCB 11 between the two sensor sleeves 12 . 13 clamped and the sensor opening 14 locked. The sensor then projects into the flow channel of the flow tube 2 into it.

The sensor section 9 is through four side walls 15 . 16 . 17 . 18 limited. The two side walls 15 and 17 are flat and run at an angle of 5 ° to each other. The angle can also be between 2 ° and 20 °. The side wall 16 is also just. It is adjacent to the two side walls 15 and 17 , The fourth side wall 18 may also be flat or curved outwards. Is the fourth sidewall 18 just trained, it is preferably parallel to the side wall 16 , The four side walls 15 . 16 . 17 . 18 create the shape of a truncated pyramid. The cross section of the sensor section 9 is thus at the cylindrical end portion 5 the flow tube 2 facing end smaller than at the cylindrical end portion 6 the flow tube 2 facing the end. Which is especially good in 2 recognizable. Between the two ends of the cross-section decreases perpendicular to the longitudinal axis of the flow tube 2 continuously. In the opposite direction, the cross section increases continuously.

In 4 is a first filter 19 and a second filter 20 recognizable. They are at the sensor section 9 facing ends of the two end portions 5 . 6 arranged. The sensor section 9 is at both ends with sleeves 21 . 22 equipped with the cylindrical end sections 5 . 6 embrace.

The plug-on part 3 has a housing 23 on. The housing 23 is U-shaped. It encompasses the sensor section 9 the flow tube 2 from three sides, leaving the flat sidewalls 15 . 16 and 17 are completely covered by the plug-on part. For this purpose, the plug-on part has three corresponding planar side walls 24 . 25 and 26 on, on the side walls 15 . 16 and 17 issue. This is in relation to the sidewalls 24 and 26 of the plug-in part 3 and in relation to the side walls 15 and 17 of the sensor section 9 in 2 recognizable. Through the two opposite side walls 24 and 26 of the plug-in part 3 a clamping force is generated with which the plug-on part 3 to the flow tube 2 is coupled when plugging.

In the case 23 of the plug-in part 3 are printed circuit boards 27 and 28 arranged on which electrical and electronic components are arranged. This is especially true for a memory and a processor. In addition, an analog-to-digital converter and a DC voltage source can be arranged on the printed circuit boards. On the side wall 25 is arranged in the drawing unrecognizable socket, into which the upper end of the circuit board 11 of the sensor 10 is inserted. The socket is with the printed circuit boards 27 . 28 connected. It forms the interface to the sensor 10 , At the front of the case 23 is also a socket 29 arranged, which forms an interface to an external, not shown in the drawing reader. In a lid 30 of the housing 23 In addition, a display device can be integrated.

The two outer housing parts 31 and 32 cover the circuit boards 27 . 28 from. They also have laterally outwardly projecting handle elements 33 . 34 on. These are on their underside with recessed grips 35 . 36 fitted. The handles 33 . 34 and the recessed grips 35 . 36 facilitate the attachment of the plug-on part 3 on the flow tube 2 and the lifting of the plug-on part 3 from the flow tube 2 ,

All features of the invention may be essential to the invention both individually and in any combination with each other.

LIST OF REFERENCE NUMBERS

1

Device for measuring flowing gases

2

Strömungstubus

3

An attachment

4

longitudinal axis

5

End of the flow tube

6

End of the flow tube

7

First face of the flow tube

8th

Second end of the flow tube

9

sensor section

10

sensor

11

Sensor circuit board

12

sensor sleeve

13

sensor sleeve

14

sensor opening

15

Side wall

16

Side wall

17

Side wall

18

Side wall

19

First filter

20

Second filter

21

sleeve

22

sleeve

23

casing

24

Side wall

25

Side wall

26

Side wall

27

circuit board

28

circuit board

29

socket

30

cover

31

Outer housing part

32

Outer housing part

33

handle element

34

handle element

35

grip

36

grip

Claims (12)

Device for measuring flowing gases in ventilators or respiratory aids with a flow tube designed as an elongated hollow body (US Pat. 2 ), which at the two front sides ( 7 . 8th ) is open and otherwise substantially closed, with a sensor section ( 9 ) of the flow tube ( 2 ), in which the cross section perpendicular to the longitudinal direction of the flow tube in or against the flow direction continuously decreases or increases, with at least one at the sensor portion ( 9 ) and arranged in flow tube ( 2 ) protruding sensor ( 10 ) passing through the flow tube ( 2 ) measures flowing gases, with a plug-on part ( 3 ), which on the flow tube ( 2 ) attachable and with the flow tube ( 2 ) is detachably connectable, with a processor and with a memory in the Aufsteckteil ( 3 ), with a first interface of the plug-on part ( 3 ) over which the sensor ( 10 ) is connectable to the processor and / or the memory, with a second interface ( 29 ) of the plug-on part ( 3 ), via which the processor and / or the memory can be connected to an external evaluation device. Device according to claim 1, characterized in that the sensor section ( 9 ) two plane, related to the longitudinal axis ( 4 ) of the flow tube ( 2 ) diametrically opposite side walls ( 15 . 17 ) which run at an angle of more than 0 ° and less than 90 ° to each other. Apparatus according to claim 2, characterized in that the sensor section ( 9 ) at least one further flat side wall ( 16 ) adjacent to each of the two sidewalls at an angle greater than 0 ° and less than 90 ° to each other. Apparatus according to claim 3, characterized in that in one of the side walls ( 16 ) the sensor ( 10 ) is arranged. Device according to one of the preceding claims, characterized in that the flow tube ( 2 ) with a first filter ( 19 ) equipped, which between a first end face ( 7 ) of the flow tube ( 2 ) and the sensor ( 10 ) at the flow tube ( 2 ) is arranged. Apparatus according to claim 5, characterized in that the flow tube ( 2 ) with a second filter ( 20 ), which between a second end face ( 8th ) of the flow tube ( 2 ) and the sensor ( 10 ) at the flow tube ( 2 ) is arranged Device according to one of claims 5 or 6, characterized in that the first filter ( 19 ) and the second filter ( 20 ) outside the sensor section ( 9 ) are arranged. Device according to one of the preceding claims, characterized in that the plug-on part ( 3 ) on the sensor section ( 9 ) of the flow tube ( 2 ) can be plugged. Device according to one of the preceding claims, characterized in that the plug-on part ( 3 ) a housing ( 23 ), in which the processor, the memory and the interfaces ( 29 ) are arranged. Device according to one of the preceding claims, characterized in that the plug-on part ( 3 ) the flow tube ( 2 ) at least partially encompasses. Device according to one of the preceding claims, characterized in that on the plug-on part ( 3 ) at least two recessed grips ( 35 . 36 ) and / or outwardly projecting handle elements ( 33 . 34 ) are arranged. Device according to one of the preceding claims, characterized in that the plug-on part ( 3 ) is equipped with a display device.

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