DE3908909A1 - Device for generating heated aerosols for the inhalation treatment of humans - Google Patents

Abstract

In order to create a device for generating heated aerosols for the inhalation treatment of humans which permits generation of an inhalable aerosol stream in a simple manner, is easy to operate, can be hygienically maintained and adjusted to suit the natural breathing of the patient, a back-breathing valve is integrated in an open system which comprises a plurality of containers mutually connected by a mist collecting channel with allocated nozzle atomisers.

Description

The invention relates to a device for generating tempered Brine and medication mist for inhalation treatment of people who is generated by means of compressed air or oxygen in injector nozzles and the Patient is fed.

In the known devices of this type, this is in open or closed nebulizer systems blown to the patient. The open Nebulizer system has the disadvantage that it is particularly effective against external contamination when the patient coughs up, is unprotected. The device is up to immediately inside with fungi and bacteria. Because only that for the patient Mouthpiece or nose piece can be replaced is not secured, that disease germs can spread to the next patient.

In addition, this device consists of slightly corroding pipe and metal parts that are only chrome-plated on the outside. By the action of the aggressive Brine and medication mist, also in the outer area of the device, releases the chrome plating quickly and sets the base material, such as copper and Brass, free. This in turn is subject to oxidation and verdigris formation and expresses a health hazard for the patient.

The inhalation solutions are heated by a water bath in which one exposed heating coil is connected to a voltage source with 220 V. This heating coil is very effective due to the action of lime and brine-containing water attacked and short circuits often occur. It is very dangerous for him Patients and the operating staff.

Last but not least, water baths of this type can be used without mechanical circulation, regulate the temperature only imprecisely and sluggishly. An overheating of the inhalation mist is a great danger to the patient. Too low The temperature of the mist is ineffective or disadvantageous for the patient with inflamed airways.

The inhalation devices with the closed nebulizer system have the Disadvantage that a continuous stream of mist is supplied to the patient, which is determined by the air delivery volume of the nebulizer nozzles. It has happened shows that when the nebulizer nozzle is switched on, the patient only has about 20 liters. Air can be supplied per minute. The patient needs about 36 liters in the minute. Many patients also have so-called sighing. The means that these patients have much more air at the beginning of the inhalation phase need than this device delivers in a closed system. The patients therefore suffer from shortness of breath and experience has shown that they come from the corner of the mouth unfiltered, unheated indoor air that is then in the airways mixed with the inhalation mist. This makes the inhalation effect very good impaired because the patients, due to the initial shortness of breath, have a wrong one Use breathing technique. The unheated indoor air that is also carried by bacteria  is afflicted, it reaches the foci of the patient and adversely affects inhalation effects.

The inhalation mist in the closed nebulizer system is in the supply line heated to the patient by a heating wire to about 60 cm in length. At this Heating cable also deposits medication mist. This makes it inevitable that the following patients who inhale other medications also have residues, who got stuck to the heating cable from the previous patient.

A fungus and bacteria formation is very beneficial here, because that too The temperature of the heating wire is very low and there is constantly new moisture settles and, depending on the amount, runs off again into the mouth or nose of the following Patient.

The present invention has for its object, while avoiding the previously mentioned disadvantages of creating a device of the so-called type, which is simply the generation of an aerosol suitable for inhalation Stromes enables, as well as easy to use and hygienic maintenance. In addition, it should be designed so that it meets the high requirements, in terms of hygiene and usability when inhaling from the patient, corresponds perfectly and does no harm.

This object is achieved by the features of the Claim 1 solved. Further advantageous configurations result from the Characteristic of the subclaims.

The device according to the invention is particularly characterized in that it represents an open nebulizer system within which the nebulization treatment fluids are made, and additional filtered and heated Breathing air releases through a one-way valve. Through this one-way valve, however a rebreathing and thereby contaminated system are excluded. It is advantageously achieved that the formation of fog by unwanted external influences can not be affected, but the Patient can breathe in suitable breathing air as needed and breathlessness avoided can be.

An outstanding advantage of the invention is that the Er the inhalation mist is heated using a 35 mm long heating rod, which reaches its own temperature of approx. 140 ° and is therefore always self-sufficient autoclaved and sterilized. This heating element is protected for the patient inserted into a PTFE housing and comes with a completely harmless Low voltage powered by 24 V. The heater housing made of highly heat-resistant PTFE plastic and the heating element are in the fog feed to the patient inserted and easy to remove and clean at any time. All other fog leading parts are removable and at any time for cleaning and maintenance free. These consist of high-quality, food-approved plastics that do not corrode and are autoclavable. The outside completely closed heater  The rod jacket is made of corrosion-free VA steel.

The entire device is safety-related according to the regulations and Med-GV guidelines have been developed and comply with the regulations according to VDE.  

The invention is illustrated below with the aid of one in the drawing Exemplary embodiment explained in more detail. In the drawing shows

Fig. 1, the device according to the invention in a schematic representation, with rebreathing valve and fog heating,

Fig. 2 more connected to a mist collecting channel Verneblungsbehälter in front view, partly in section,

Fig. 3 shows a nozzle nebulizer according to the invention in section on an enlarged scale and

Fig. 4 shows an embodiment of the device according to the invention in the form of a mounting wall in a schematic representation in side view.

Fig. 1 shows five containers 1 which are filled in part with their volume with treatment liquid such as brine or medicament solution. A nozzle nebulizer 4 projects into each container 1 and is connected to a pressure distributor 16 via an air line 15 . An electromagnetic valve 17 is inserted into each air line 15 , which valve is closed when the current is switched off and can be brought into the open position by means of an associated push-button switch 18 . The pressure distributor 16 is supplied with the air required for atomization of approximately 1.6 bar by a compressor 19 with a downstream, medically clean air-producing filter 20 . The connecting line 21 to the 220-volt network runs over a time switch 22nd

Each container 1 is connected by a mist line 23 to a mist collecting channel 24 , to which an inhalation line 26 leading to the patient is connected. A replaceable mouthpiece 27 is arranged at the outlet end of the inhalation line 26 . The inhalation line 26 preferably consists of a flexible plastic tube with a smooth inner wall. In front of the inhalation line 26 there is a heating resistor 28 , which is fed by a protective transformer 29 with a voltage of 24 volts. The connecting line of the transformer 29 to the 220-volt network is connected to the timer 22 , so that the heating resistor 28 is only switched on during treatment.

From Fig. 2, the connection between the treatment liquids ent holding containers 1 and mist collecting channel 24 can be seen. Glass containers of conventional type are preferably used as container 1 . On the collar of these glass bottles is an acid-resistant plastic, with an external thread provided ring-shaped connector 2 is attached. These connecting pieces 2 can be brought into engagement with sockets with a corresponding internal thread which are embedded in the outer wall of the mist collecting duct 24 . The container 1 are seen at their connecting edge with a sealing ring 3 ver and can be connected gas-tight to the mist collecting channel 24 by means of this. Each nozzle nebulizer 4 is connected to the associated air line 15 by means of a pipe 14 which penetrates the mist collecting duct 24 and can be screwed into the radially opposite duct wall.

The jacket wall of the mist collecting duct 24 has through-openings 25 at the connection points for the containers 1 , through which openings the mist formed in the containers 1 can reach the mist collecting duct 24 . At the mist collecting channel end, a rebreathing valve 32 is connected, through which the mist system is opened in one direction (inhalation).

The structure of a nozzle nebulizer 3 according to the invention is shown in FIG. 3. The nozzle nebulizer consists of a one-piece plastic cylinder, which in its slender end section 5 has a threaded bore 7 on the head end for connecting the tube 14 which brings the drive medium. This threaded bore 7 merges into an axial inflow channel 8 , which opens into a radial outlet channel 9 . The other end section of the cylinder consists of an annular flange 6 with an axially parallel through hole 10 , which is penetrated by a nozzle pin 11 . The through bore 10 is followed by a longitudinal groove 40 located in the flange-free end section 5 , which extends to the mouth area of the associated outlet channel 9 . This longitudinal groove 40 ensures a tear-free exit of the compressed air from the outlet channel 9 . The nozzle pin 11 has a nozzle-shaped suction channel 13 for the treatment to be atomized liquid. The outflow end of the nozzle pin 11 lies in the mouth region of the associated axial outlet channel 9 .

Fig. 4 shows a one-piece mold wall 33 which serves as a support for all construction elements of the device according to the invention. It has two bulges 34 and 35 . The compressor 19 is accommodated behind the lower bulge 35 . The upper bulge 34 has on its bottom wall 36 a number of openings 37 corresponding to the number of containers 1 . These openings 37 are aligned with the internally threaded bushings, which are embedded in the outer wall of the inside the bulge 34 arranged fog collecting channel 24 . This arrangement allows the container 1 with its connecting pieces 2 to be guided through the openings 37 from the operating side and screwed into the threaded bushings.

The device according to the invention allows various treatments liquids, generally a brine and several medicines solutions either individually or in any combination at the same time in to transfer foggy state.

The device is started by setting the timer 22 to the intended treatment time and closing the switch 30 . Then, by actuating certain push-button switches 18, those valves 17 are opened which release the air lines 15 leading to the containers 1 containing the desired treatment liquids and conveying compressed air. The compressed air flowing in each container 1 through the tube 14 sucks the treatment liquid after passing through the outlet channels 9 via the suction channels 13 of the nozzle pins and the suction hoses 31 connected thereto and atomizes them to the mist which is thrown onto the inner wall of the container 1 which drips off the large fog particles, while the fine, inhalable fog particles are carried upwards into the mist collecting channel 24 and from there into the inhalation line 26 . When passing to the inhalation line 26 , the aerosol stream is heated to a temperature which is beneficial to the patient.

Claims (15)

1. Device for generating temperature-controlled aerosols for inhalation treatment of people, the treatment liquid, such as brine or medication solution, being atomized in nozzles by means of a gaseous drive medium, in particular air, and forming an aerosol stream to be supplied to the patient, characterized in that several containers ( 1 ) each with a treatment liquid are integrated in an open system with a rebreathing valve, the nozzle nebulizers ( 4 ) assigned to the treatment liquids being accommodated within the container ( 1 ) and each container ( 1 ) through a line ( 23 ) for conveying and mixing the Mist is connected to a mist collecting duct ( 24 ), from which an inhalation line ( 26 ) leading the aerosol flow to the patient starts, which is then heated by a secondary heater ( 28 ) at the mist outlet and regulated by a temperature controller ( 33 ). 2. Device according to claim 1, characterized in that the mist collecting channel ( 24 ) is arranged horizontally and is open at one end side ( 31 ) and a rebreathing valve ( 32 ) is attached. 3. Apparatus according to claim 1, characterized in that the mist collecting channel ( 24 ) is provided on the underside with openings ( 25 ) to which the container ( 1 ) in a vertical arrangement by means of a connecting piece ( 2 ) can be connected gas-tight. 4. The device according to claim 3, characterized in that the connecting piece ( 2 ) is designed as a screw or clamping pressure lock. 5. Device according to claim 1, characterized in that the jet nebulizer (4) consists of a cylinder, the one having the gaseous drive medium receiving axial inlet channel (8) in an end portion (5) which opens into a radial outlet channel (9) and which in its other end section at a distance from the outlet channel ( 9 ) has an annular flange ( 6 ) with an axially parallel through bore ( 10 ) which is penetrated by an axially displaceably mounted nozzle pin ( 11 ) having a suction channel ( 13 ) formed in the manner of a nozzle, whose outflow end ( 12 ) is in the mouth area of the associated radial outlet channel ( 9 ). 6. The device according to claim 5, characterized in that the cylinder in its flange-free end portion ( 5 ) one of the radial outlet channel ( 9 ) associated, from the lateral surface, extending from the mouth region of the outlet channel to the annular flange ( 6 ) extending longitudinal groove ( 32 ) has, which forms an extension of the through hole ( 10 ) in the ring flange ( 6 ). 7. The device according to claim 6, characterized in that the longitudinal groove ( 6 ) has a circularly curved jacket wall. 8. The device according to claim 7, characterized in that each of the drive medium to the containers ( 1 ) conveying line ( 15 ) is associated with an actuatable by a separate push button switch ( 18 ) electromagnetic valve ( 17 ). 9. The device according to claim 8, characterized by an electronic timer ( 22 ) for switching the central power supply line on and off. 10. The device according to claim 9, characterized in that the inhalation line ( 26 ) consists of a hose, preferably made of heat-resistant plastic. 11. The device according to claim 10, characterized in that the controllable heating resistor ( 28 ) for the fog heater is connected to a protective transformer ( 29 ) of preferably 24 volts. 12. The apparatus according to claim 1, characterized in that all coming into contact with the treatment liquids and the components formed from their mists such as nozzle nebulizer ( 4 ), mist lines ( 23 ), mist collecting channel ( 24 ), inhalation line ( 26 ) and connecting parts (connector 2 ) are made of corrosion-resistant, tasteless plastic, and the medication containers are made of safety glass. 13. The apparatus according to claim 1, characterized by a one-piece mold wall ( 33 ) made of acid-resistant plastic, for example glass fiber reinforced polyester, which serves as a carrier for all components of the device. 14. The apparatus according to claim 1 and 13, characterized in that the shaped wall ( 33 ) has a part of its width extending upper bulge ( 34 ) whose perpendicular to the wall plane ver bottom wall ( 36 ) openings for passage to the inside the bulge to be accommodated mist collecting duct ( 24 ) contains connectable fittings ( 2 ) of the container ( 1 ). 15. The apparatus of claim 1 and 14, characterized in that a rebreathing valve ( 32 ) with bacterial filter is plugged into the right end of this horizontal wall plane, which opens into the mist collecting channel and allows breathing in of pure breathing air to the inhalation mist by making the mist collecting channel in the direction to the mist collecting duct opens and closes the outlet in the event of rebreathing.