DE102010014222B4 - Compressed air monitoring device - Google Patents

Abstract

Compressed air monitoring device (1) for a compressed air generating system (2) of medical compressed air, comprising - a measuring air line (12) for the continuous withdrawal of medical compressed air from a compressed air supply line (10), - at least one sensor (15, 16, 17, 18, 19) for continuous detection of at least one parameter of the medical compressed air continuously conducted by the measuring air line (12), wherein a humidifier (3) is arranged upstream of the at least one sensor (15, 16, 17, 18, 19) in the direction of flow of the medical compressed air, so that the at least one sensor (15, 16, 17, 18, 19) is supplied with humidified medical compressed air, - wherein the humidifier (3) comprises a semipermeable water-permeable membrane, - wherein the semipermeable water-permeable membrane has a first space (22) from a second Room (23) within the humidifier (3) separates and through the first room (22) the medical Druc to be humidified is ductable and in the second space (23) moist air (32) having a higher relative humidity than that in the first space (22) introduced medical compressed air is present, - wherein the semipermeable water-permeable membrane as a tube (21) - wherein in the second space (23) a saturated water-salt solution (24) and the moist air (32) are arranged, - and wherein the humidifier (3) comprises a housing (20) and that of the housing (20) enclosed inside the first space (22) within the hose (21) and the second space (23) outside the hose (21) is separated from the hose (21), characterized in that the moist air (32) in the second space (23) is provided with a substantially constant relative humidity and that at the bottom of the housing (20) salt (25) and above the saturated water-salt solution (24) of the second space (23) the humid air (32) is located.

Description

The present invention relates to a compressed air monitoring device according to the preamble of claim 1, a compressed air generating system according to the preamble of claim 4 and a method for generating medical compressed air according to the preamble of claim 6.

In hospitals, compressed air generating systems are used to supply compressed air consumers within the hospital with medical compressed air through a network of compressed air supply lines. The medical compressed air generated by the compressed air generating system is detected by a compressed air monitoring device on various parameters, in particular the gas concentration. For example, foreign gas concentrations of sulfur dioxide or nitrogen dioxide are detected in order to be able to provide the compressed air consumers with medically perfect medical compressed air. For this purpose, sensors for detecting the parameters of the medical compressed air are used in the compressed air monitoring device. Due to legal regulations, the medical compressed air introduced into the compressed air supply line by the compressed air generation system was cleaned by means of a treatment device with filters and, including a dehumidifier, dehumidified to a moisture content of less than 67 ppm. This also gives the sensors for detecting the parameters of the medical compressed air strongly dried air. As a result, in particular, electrochemical sensors dry out after a short time, for example in less than three months, and can no longer be used. As a result, an exchange of the sensors of the compressed air monitoring device after this time is required to exclude a failure of these important sensors. This is associated with an increased effort and therefore costs and also there is a risk of failure of at least one sensor on the compressed air monitoring device, so that it can not be detected in a disadvantageous manner by the failed sensor detected by this parameter or a gas concentration.

The DE 27 38 671 A1 describes a gas sensor with a semiconductor-type sensing element. The measuring element is received in a recess of a housing with an outer wall. The ambient gas is supplied via an inlet, via a dust filter, a moistening pad and a semi-permeable membrane to the measuring element by means of diffusion.

In the EP 1 357 379 A2 a sensor which can be used in a compressed air system is described. A galvanic cell serves as an oxygen sensor for test gas passed through the sensor. The test gas conducted to the galvanic cell is humidified by a gas humidifier. The gas humidifier includes a hose made of Nafion. Within a housing is disposed an absorbent sponge enriched with a solution of water with NaCl. This should be maintained within the housing a relatively constant humidity.

Furthermore, the describes DE 26 54 567 A1 an electrochemical gas detector of the ion transporting electrolyte, a catalytic detection electrode on one side of the electrolyte, a catalytic counter electrode on the other side of the electrolyte, a voltage source for applying a voltage between the electrodes, means for exposing the detection electrode to the gaseous component to be detected , And means for maintaining a constant reference potential at the counter electrode. Further, a humidifier is provided to wet the gas stream to 100% relative humidity prior to introduction into the detection chamber.

Furthermore, from the DE 197 17 056 C1 an electrochemical gas sensor is known, which has an electrode system and a gas inlet, with which the gas sensor is directly coupled to the environment. At the gas inlet, a container body is arranged as a moisture reservoir, the walls of which have moisture permeable areas and in which hygroscopic substances are added, the hygroscopic substances, the gas body surrounding the container body reversibly exchange moisture with this, to fluctuations in the relative humidity of the on the electron system to buffer the acting gas atmosphere.

In addition, the describes DE 695 13 000 T2 a method and a device for the treatment of air for medical applications. In a compressor ambient air is compressed and fed, inter alia, a Absorptionsmittelschüttung. In addition, a sensor for monitoring certain gas components of the medical compressed air is provided, in particular, a sensor for monitoring the carbon monoxide concentration is installed within the system.

The object of the present invention is therefore to provide a compressed air monitoring device, a compressed air generating system and a method for generating medical compressed air, in which the monitored parameters of the compressed air permanently and can be reliably measured continuously with little technical effort.

This object is achieved with a compressed air monitoring device for a compressed air generating system of medical compressed air, comprising a measuring air line for the continuous withdrawal of compressed air from a compressed air supply line, at least one sensor for continuously detecting at least one parameter of the continuously guided by the measuring air line medical compressed air, wherein in the flow direction of the medical compressed air Before the at least one sensor, a humidifier is arranged, so that the at least one sensor is acted upon by humidified compressed air. The humidifier humidifies the medical compressed air dehumidified by a dehumidifying device before the at least one sensor is acted upon, so that the at least one sensor does not dry out and thus be used reliably over a longer period of time, for example more than six months, to detect the at least one parameter can.

The humidifier is arranged in the flow direction of the medical compressed air on the measuring air line after removal from the compressed air supply line. From the compressed air supply line only a small proportion of medical compressed air is introduced into the measuring air line and only after the removal of the medical compressed air from the compressed air supply line and the introduction into the measuring air line, the medical compressed air passed through the measuring air line is humidified in the humidifier. As a result, the medical compressed air supplied to the compressed air consumers is not humidified by the humidifier and humidified only from the compressed air supply line taken medical compressed air, which is intended for the at least one sensor of the humidifier.

The humidifier comprises a semipermeable water-permeable membrane, in particular Nafion. Nafion as a sulfonated tetrafluoroethylene polymer has the property that Nafion no harmful gases, such as carbon monoxide, sulfur dioxide or nitrogen dioxide absorbs and also diffuse no harmful gases in the second space at a positive pressure in a first space through the semipermeable water-permeable membrane of Nafion.

Suitably, the semipermeable water-permeable membrane is designed to the effect that the membrane does not absorb noxious gases and / or diffuse no noxious gases through the semipermeable water-permeable membrane.

The semipermeable membrane separates a first space from a second space within the humidifier, and through the first space is the medical compressed air to be humidified, and in the second space is water or gas, especially air, having a higher relative humidity than that in the first space introduced medical compressed air available.

In an additional embodiment, the membrane is arranged disc-shaped in the compressed air monitoring device and thus separates the first space from the second space.

The semipermeable water permeable membrane is formed as a tube.

In a variant, the gas is kept in the second space with a substantially constant relative humidity. A substantially constant relative humidity means that the relative humidity is less than 30%, 20%, 10%, 5%, or 2% of a given relative humidity set point.

In an additional embodiment, the constant relative humidity in the second room is due to the fact that the relative humidity in the second room is detected by means of humidity monitoring devices and the relative humidity is increased or decreased in the case of deviations from a predetermined setpoint relative to the relative humidity, for example by the temperature is changed and / or moisture is supplied or withdrawn in the second room.

In the second room, a saturated water-salt solution and the moist gas are arranged.

In a further embodiment, the salt in the water-salt solution is potassium sulfate and / or potassium nitrate and / or potassium chloride and / or ammonium sulfate and / or sodium chloride and / or sodium nitrite and / or ammonium nitrate and / or sodium bichromate and / or magnesium nitrate and / or Potassium carbonate and / or magnesium chloride and / or potassium acetate and / or lithium chloride and / or calcium nitrate. The relative humidity in the second space depends essentially on the salt used in the water-salt solution. For example, when using magnesium chloride, the relative humidity in the second room is 21% and 22%, respectively, at a temperature in the range between 10 ° C and 40 ° C. When using sodium chloride as a salt, the relative humidity, for example, 75% or 76% at a temperature in the range between 5 ° C and 50 ° C. A substantially constant relative humidity in the second space preferably means that the relative humidity deviates from a predetermined desired value of relative humidity with a deviation of less than 20%, 10%, 5% or 2%. By using the saturated water-salt solution can be achieved technically very easy in the second room, a substantially constant relative humidity. In the humidifier, the compressed air passed through the measuring air line is humidified to a relative humidity of between 5% and 95%, preferably between 15% and 70% and in particular between 20% and 30%. As a result, the at least one sensor can be operated for a longer period of time, for example more than six months, without the at least one sensor drying out, so that reliable detection of the at least one parameter of the medical compressed air is possible over a longer period of time.

In particular, the at least one sensor is a sensor for detecting the proportion or the concentration of carbon dioxide and / or a sensor for detecting the proportion of carbon monoxide and / or a sensor for detecting the proportion of sulfur dioxide and / or a sensor for detecting the proportion Nitrogen dioxide and / or a sensor for detecting the proportion of oxygen and / or a sensor for detecting the relative and / or absolute humidity and / or a sensor for detecting the temperature and / or the at least one sensor is an electrochemical sensor and / or an infrared sensor and / or a ceramic moisture sensor and / or a method described in this patent application is executable.

Compressed air generating systems for a hospital according to the invention comprise an air compressor, for. B. a reciprocating compressor or a screw compressor for compressing ambient air to medical compressed air, a dehumidifier for dehumidifying the intake ambient air and a compressed air monitoring device for monitoring at least one parameter of the medical compressed air, wherein the compressed air monitoring device is designed as a described in this patent application compressed air monitoring device.

In a supplementary variant, the measuring air line of the compressed air monitoring device is arranged on a compressed air supply line in the direction of flow of the compressed air downstream of the dehumidifying device and preferably downstream of the air compressor.

An inventive method for generating medical compressed air is specified in claim 6 and is based on the use of the compressed air generating system according to the claims 4 and 5 and the compressed air monitoring device according to the claims 1 to 3.

The medical compressed air is humidified by water as water vapor diffused through a semi-permeable water-permeable membrane.

The water diffuses from a second space through the membrane into a first space with the medical compressed air.

In the second space, air is maintained at a substantially constant relative humidity by keeping in the second space the gas and a saturated water-salt solution and evaporating the water from the water-salt solution into the gas.

In a supplementary embodiment, the at least one parameter of the compressed and dehumidified medical compressed air is continuously detected by the at least one sensor.

In a supplementary embodiment, the medical compressed air directed to the at least one sensor by a measuring air line is adjusted to a predetermined desired value of relative humidity in the range between 5% and 95%, preferably in the range between 15% and 70%, in particular between 20% and 30%. , moistened.

In an additional embodiment, from the compressed air supply line, wherein a compressed air tank is considered compressed air supply line, a part of the guided through the compressed air supply line medical compressed air derived by a measuring air line and moistened in a humidifier.

In a supplementary variant, a volumetric flow in the range between 0.05 and 1 l / min, in particular in the range between 0.1 and 0.5 l / min, preferably in the range between 0.2 and 0.3 l / min, passed through.

In a preferred variant, the compressed medical air is compressed by the compressor to a pressure in the range between 8 bar and 15 bar, treated to 4 to 10 bar, in particular 5 bar reduced.

• 1 eine vereinfachte Darstellung einer Drucklufterzeugungsanlage.

Hereinafter, an embodiment of the invention will be described with reference to the accompanying drawings. It shows:

• 1 a simplified representation of a compressed air generating plant.

An in 1 illustrated compressed air generation plant 2 puts as in on-site investment in one Hospital medical compressed air for various compressed air consumers 11 available within the hospital. For this purpose, a network of compressed air supply lines is in the hospital 10 arranged, through which the compressed air consumers 11 from the compressed air generation plant 2 be supplied with medical compressed air.

The compressed air generation plant 2 includes an air intake line 4 , one as an adsorption dryer 6 trained dehumidifier 5 and one as a reciprocating compressor 8th trained air compressor 7 , The of the reciprocating compressor 8th compressed medical compressed air is stored in a compressed air tank 9 saved. For generating medical compressed air is thus through the air intake 4 Suctioned ambient air in the adsorption dryer 6 the aspirated ambient air is reduced to a moisture content of less than 67 ppm. The sucked air is in the air compressor 7 compressed to a pressure of in the range of about 12 bar and the compressed air tank 9 fed. From the compressed air tank 9 is the medical compressed air via the first pressure reducer 13a on the operating pressure 4 to 10 bar relaxed and through the compressed air supply line 10 the various compressed air consumers 11 provided within the hospital, not shown.

The of the compressed air generation plant 2 into the compressed air supply lines 10 introduced medical compressed air is via the second pressure reducer 13b reduced to a pressure of, for example, 1.2 bar with a volume flow of, for example, 0.05 to 1.0 l / min and into the measuring air line 12 guided and by a compressed air monitoring device 1 continuously checked for various parameters, such as limit values such as concentrations of foreign gases. For this purpose, the compressed air monitoring device 1 different sensors 14 . 15 . 16 . 17 . 18 and 19 on. The sensors 15 to 19 are inside a sensor housing 31 arranged. The sensor 15 serves to detect the concentration of carbon dioxide, the sensor 16 to detect the concentration of nitrogen dioxide, the sensor 17 for detecting the concentration of carbon monoxide, the sensor 18 to detect the concentration of sulfur dioxide and the sensor 19 to detect the concentration of oxygen. The sensor 14 for detecting the relative humidity is at the measuring air line 12 in the flow direction of the medical compressed air in front of a humidifier 3 arranged. The compressed air monitoring device 1 has a data processing and / or data storage device 29 and an optical and / or acoustic warning device 30 on. From the data processing and / or data storage device 29 be constantly from the sensors 14 to 19 recorded parameters of the medical compressed air compared to predetermined setpoints and the parameters documented or stored and when exceeding a threshold value is automatically on an optical and / or audible warning device 30 an alarm is triggered.

From the compressed air supply line 10 with medical compressed air in the range of 4 to 10 bar behind the first pressure reducer 13a is through the measuring air line 12 a small proportion of the through the compressed air supply line 10 Continued medical compressed air taken continuously. It is in the measuring air line 12 from the pressure supply line 10 the second pressure reducer 13b arranged. As a result, the medical compressed air flows through the measuring air line 12 due to the slight overpressure with respect to the atmospheric pressure through the measuring air line 12 , the humidifier 3 and the sensors 14 to 19 , After passing the medical compressed air through the measuring air line 12 this low occurs through the measuring air line 12 directed medical compressed air back to the sensor housing 31 out and is introduced to the environment.

The humidifier 3 has a fluid-tight housing 20 on. Inside the case 20 is a hose 21 from a semipermeable, water-permeable membrane, for example from Nafion. The hose 21 from Nafion has a length in the range between 10 cm and 80 cm. The hose 21 also provides the measuring air line 12 through the hose 21 becomes the of the measuring air line 12 from the compressed air supply line 10 removed medical compressed air through the housing 20 in one of the housing 20 enclosed interior passed through. The one from the case 20 enclosed interior is in a first room 22 inside the tube 21 and a second room 23 outside the hose 21 from the hose 21 separated. In the second room 23 There is a saturated water-salt solution 24 , Due to the saturated water-salt solution 24 is located at the bottom of the case 20 also the salt 25 , As a salt 25 For example, magnesium chloride is used here. Above the water-salt solution 24 there is moist air 32 , In the room 23 is thus moist air 32 with a constant relative humidity in the range of about 30%. Through the measuring air line 12 and with it through the hose 21 Medical compressed air is passed at a flow rate of, for example, 0.25 l / min. Due to the sufficient length and thus sufficient large surface of the hose 21 diffuses the moisture of the moist air 32 through the hose 21 in the medical compressed air, so that it is also moistened to a relative humidity in the range between 25% and 30%. After moistening the medical Compressed air and passing through the hose 21 is the medical compressed air, which comes from the hose 21 flows out, over the measuring air line 12 forwarded and the sensors 15 to 19 inside the sensor housing 31 fed. This preserves the sensors 15 to 19 Medical compressed air with a constant relative humidity in the range between 25% to 30%, so that they do not dry out and can be reliably used over a longer period, for example, more than six months, without the sensors 15 to 19 need to be replaced.

The hose 21 from Nafion adsorbs no foreign or noxious gases, such as carbon monoxide, sulfur dioxide or nitrogen dioxide, so that due to the passage of the medical compressed air through the hose 21 no distortion of the sensors 15 to 19 recorded shares of harmful gases occurs. Further diffuse through the hose 21 also no harmful gases from the first space inside the hose 21 in the second room 23 with the humid air 32 so that also by the sensors 15 to 19 detected parameters are not distorted, but by the sensors 15 to 19 at the compressed air supply line 10 taken medical compressed air can actually be detected.

The humidifier 3 has a preferred embodiment as a float 27 trained water level detection device 26 and a display unit 28 for the water level. Decreases the existing water level or the level of the water-salt solution 24 below a predetermined target value, this can be indicated by means of an optical and / or acoustic warning device, not shown. The fluid-tight housing 20 also has a closable opening through which water in the second space 23 can be refilled if needed. Only so much water may be added that the water-salt solution 24 continues to be saturated and thus maintain a constant relative humidity of humid air 32 above the water-salt solution 24 is guaranteed, so that from the water-salt solution 24 the water evaporates and vaporous water in the humid air 32 for diffusion through the hose 21 is available. The volume of the case 20 is designed to the effect that in the housing 20 a water-salt solution 24 can be introduced with a sufficiently large volume, so that over a period of at least six or nine months no refilling of water into the housing 20 is required. Thus, the compressed air monitoring device 1 over a period of at least six months low maintenance reliably capture the various parameters of the medical compressed air, because on the one hand the sensors 15 to 19 with humidified air applied and thus an exchange of sensors 15 to 19 is not necessary and on the other hand, due to the sufficiently large volume of water-salt solution 24 a refilling of water into the housing 20 is not required.

Overall, considered with the compressed air monitoring device according to the invention 1 significant benefits. The saturated water-salt solution 24 provides at normal ambient temperatures of 10 ° C to 40 ° C a substantially constant relative humidity available, so that with a little technical effort with the hose 21 within the second room 23 The medical compressed air can be enriched to a constant relative humidity. A distortion of the pollutant gas concentrations occurs in an advantageous manner to the humidifier 3 not up.

LIST OF REFERENCE NUMBERS

1

Compressed air monitoring device

2

Compressed air generating plant

3

humidifier

4

air intake

5

dehumidifier

6

adsorption

7

air compressor

8th

reciprocating compressor

9

Air receiver

10

Compressed air supply line

11

Air consumers

12

Measuring air line

13

13a, first pressure reducer; 13b, second pressure reducer

14

Sensor for detecting the humidity

15

Sensor for detecting the proportion of carbon dioxide

16

Sensor for detecting the proportion of nitrogen dioxide

17

Sensor for detecting the proportion of carbon monoxide

18

Sensor for detecting the proportion of sulfur dioxide

19

Sensor for detecting the proportion of oxygen

20

Fluid-tight housing of the humidifier

21

Tube made of semipermeable water-permeable membrane

22

First room inside the tube

23

Second room with moist air

24

Water-salt solution

25

salt

26

Water level detector

27

swimmer

28

Display unit for water level

29

Data processing and data storage device

30

Optical and / or acoustic warning device

31

sensor housing

32

Moist air

Claims (6)

Compressed air monitoring device (1) for a compressed air generating system (2) of medical compressed air, comprising - a measuring air line (12) for the continuous withdrawal of medical compressed air from a compressed air supply line (10), - at least one sensor (15, 16, 17, 18, 19) for continuous detection of at least one parameter of the medical compressed air continuously conducted by the measuring air line (12), wherein a humidifier (3) is arranged upstream of the at least one sensor (15, 16, 17, 18, 19) in the direction of flow of the medical compressed air, so that the at least one sensor (15, 16, 17, 18, 19) is supplied with humidified medical compressed air, - wherein the humidifier (3) comprises a semipermeable water-permeable membrane, - wherein the semipermeable water-permeable membrane has a first space (22) from a second Room (23) within the humidifier (3) separates and through the first space (22) the medical Compressed air is conductive and in the second space (23) moist air (32) having a higher relative humidity than that in the first space (22) introduced medical compressed air is present, - wherein the semipermeable water-permeable membrane as a tube (21) - wherein in the second space (23) a saturated water-salt solution (24) and the moist air (32) are arranged, - and wherein the humidifier (3) comprises a housing (20) and that of the housing (20) enclosed inside the first space (22) within the hose (21) and the second space (23) outside the hose (21) is separated from the hose (21), characterized in that the moist air (32) in the second space (23) is provided with a substantially constant relative humidity and that at the bottom of the housing (20) salt (25) and above the saturated water-salt solution (24) of the second space (23) the humid air (32) b LAB. Compressed air monitoring device (1) according to Claim 1 , characterized in that the humidifier (3) in the flow direction of the medical compressed air to the measuring air line (12) after removal from the compressed air supply line (10) is arranged. Claim 1 or 2 , characterized in that the at least one sensor (15,16, 17, 18, 19), a sensor (15) for detecting the concentration of carbon dioxide and / or a sensor (17) for detecting the concentration of carbon monoxide and / or a sensor (18) for detecting the concentration of sulfur dioxide and / or a sensor (16) for detecting the concentration of nitrogen dioxide and / or a sensor (19) for detecting the concentration of oxygen and / or a sensor for detecting the relative and / or absolute Moisture and / or a sensor for detecting the temperature and / or the at least one sensor (15, 16, 17, 18, 19) an electrochemical sensor (16, 17, 18) and / or an infrared sensor (15) and / or a ceramic moisture sensor is. A compressed air generating system (2) for a hospital, comprising - an air compressor (7) for compressing ambient air to medical compressed air, - a dehumidifier (5, 6) for dehumidifying the medical compressed air and - a compressed air monitoring device (1) for monitoring at least one parameter of the medical Compressed air characterized in that the compressed air monitoring device (1) as a compressed air monitoring device (1) according to one of Claims 1 to 3 is trained. Compressed air generating system (2) after Claim 4 , characterized in that the measuring air line (12) of the compressed air monitoring device (1) to a compressed air supply line (10) in the flow direction of the compressed air after the dehumidifying device (5, 6) and after the air compressor (7, 8) is arranged. A method for generating medical compressed air comprising the steps of: - sucking in ambient air, - compressing the sucked ambient air to medical compressed air, - dehumidifying the medical compressed air, - introducing the dehumidified medical compressed air into a compressed air supply line (10), - Directing the medical compressed air to at least one sensor (14, 15, 16, 17, 18, 19), - detecting at least one parameter of the dehumidified medical compressed air with a compressed air monitoring device (1) according to one of Claims 1 to 3 , characterized in that a compressed air generating system (2) is used, which as a compressed air generating system (2) according to Claim 4 or 5 is formed, wherein the medical compressed air is humidified by water as water vapor diffused through a semipermeable water-permeable membrane, wherein the water diffuses from a second space (23) through the semipermeable water-permeable membrane in a first space (21) with the medical compressed air and in the second space (23) humid air (32) is maintained with a substantially constant relative humidity by the wet air (32) and a saturated water-salt solution (24) is held in the second space (23) and the water evaporates from the water-salt solution (24) into the moist air (32).

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