DE3122683C1 - Ultrasonic inhaler - Google Patents

Abstract

The invention relates to an ultrasonic inhaler comprising a housing with a breathing mask, oscillation generator, resonator head and inhalant vessel with liquid transport to the resonator head. In order to permit atomisation of inhalants of different viscosity, so that all areas of the airways can be treated, the resonator head comprising the resonator and a top printed board is fastened via a plug-in connection so as to be releasable and thus exchangeable on the output printed board of the oscillation generator.

Description

According to a further embodiment of the invention are in the head circuit board several connector pins attached. At least one pin protrudes from the others Connector pins and the connector sockets corresponding to the connector pins are on the Output PCB attached. This makes the use of a multi-stage switch avoided. Of course, it is also possible to use the different Generate frequencies by using a switch. However, this is extraordinary expensive, since a total of 12 contacts have to be arranged in a certain way are to generate the required frequency. As a result, one pin is longer than the remaining connector pins will confuse the direction of the resonator head avoided when plugging in. An additional safeguard offers still the eccentric arrangement of the connector pins and the molding of an additional one Locking nose.

An embodiment of the invention is shown in FIGS and is described in more detail below.

F i g. 1 shows the schematic structure of an ultrasonic inhalation device.

F i g. 2 shows the section through an encapsulated according to the invention Resonator.

The ultrasonic inhaler consists of the housing 1 and a breathing mask 2. The vibration generator 3, the resonator head 4 and the inhalation container are in the housing 5 housed with liquid transport to the resonator head 4. The breathing mask is plugged onto the resonator head and is held by it. The resonator head 4 consists of the resonator 6 and the head circuit board 7. Resonator 6 and head circuit board 7 are encapsulated in a liquid-tight manner. The vibration generator housed in the housing 1 3 emits at least two different output frequencies. The electronic Vibration generator is arranged on an output circuit board 8. In this output board sockets 15 are attached to which the output frequency of the electronic Vibration generator 3 are applied.

A flange 10 is formed on the jacket of the resonator head 4. Between an elastically deformable seal is arranged on the flange 10 and the capsule 11.

As a result, the removable resonator head 4 is encapsulated in a liquid-tight manner. It is therefore possible to remove the resonator head from the ultrasonic inhaler after each use to be separated and subjected to a thorough disinfection.

Several connector pins 13 are fastened in the head circuit board 7, whereby a connector pin 14 protrudes beyond the other connector pins 13 This ensures that that all pins 13, 14 with the corresponding sockets 15 of the output circuit board 8 can be connected.

The resonator head plate 7 lies on the end facing away from the truncated cone Side of the resonator 6.

The conductor track side of the head circuit board 7 is the resonator 6 facing. A total of 12 connector pins are located on the head circuit board 7 13, 14, which are soldered into the head circuit board and their free ends from the The liquid-tight encapsulated resonator head 4 protrude. The connector pins 13, 14 engage in them corresponding sockets on the output circuit board 8. Of the 12 connector pins on the resonator head circuit board, only two are connector pins connected to the resonator 6. The remaining 10 pins are through conductor tracks connected to each other so that when plugged in via the connector pins and the sockets, the conductor tracks of the output circuit board 8 in a very specific way Way to be connected to each other in order to excite the resonator head 4 necessary frequency to generate.

Due to the special arrangement of the resonator head circuit board 7 the use of a multi-stage switch 16 is superfluous. It goes without saying it is also possible to switch between the different frequencies by using a switch 16 to generate, which is extremely expensive, since a total of 12 contacts to be brought into certain arrangements to each other to a fixed frequency to create. Due to the special arrangement of the head circuit board 7 and the output circuit board 8 it is possible without additional tools from the electronic vibration generator 3 to tap the frequency required for the excitation of the resonator head 4.

When the ultrasonic inhalation device is started up, the The energy emitted by the vibration generator 3 causes the resonator head 4 to vibrate offset. At the same time, the inhalation container 5 becomes the resonator head 4 and nebulized here.

Reference symbol 1 = housing 2 = breathing mask 3 = vibration generator 4 = Resonator head 5 = inhalation container 6 = resonator 7 = head circuit board 8 = output circuit board 9 = plug connection 10 = flange 11 = capsule 12 = seal 13 = plug pin 14 = Long connector pin 15 = connector sockets 16 = changeover switch - Blank page - - blank page - - blank page -

Claims (4)

Claims: 1. Ultrasonic inhaler, consisting of housing (1) with breathing mask (2), vibration generator (3), resonator head (4) and inhalation container (5) with liquid transport to the resonator head (4), d a characterized in that the resonator head (4) consists of a resonator (6) and a head circuit board (7), resonator (6) and head circuit board (7) are encapsulated in a liquid-tight manner, the electronic Vibration generator (3) emits at least two different output frequencies, the output frequencies are applied to an output circuit board (8) and the head circuit board (7) and the output circuit board (8) releasably to one another via a plug connection (9) are connected. 2. Ultrasonic inhaler according to claim 1, characterized in that that on the jacket of the resonator head (4) a flange (10) is formed and between the flange (10) and capsule (11) an elastically deformable seal (12) is arranged. 3. Ultrasonic inhaler according to claim 1, characterized in that that in the head circuit board (7) several pins (13) are attached, at least a connector pin (14) protrudes beyond the other connector pins (13) and the connector pins (13, 14) corresponding sockets (15) attached to the output circuit board (8) are. 4. Ultrasonic inhaler according to claim 1, characterized in that that a changeover switch (16) is electrically in operative connection with the vibration generator (3) stands. The invention relates to an ultrasonic inhaler consisting of Housing with breathing mask, vibration generator, resonator head and inhalation container with Liquid transport to the resonator head. They are inhalers for treating the airways and the throat known, in which the inhalant is nebulized on resonator heads excited by ultrasound will. Such resonator heads are also called ultrasonic atomizers. By the mist with constant droplet size produced by the inhalation atomization each work according to the droplet diameter when inhaling in the nasopharynx on the mucous membranes or in the deeper area of the respiratory organs on the vascular surfaces of the lungs. The known devices can be used in the treatment of diseases such as colds, Cold, sore throat, cough, asthma, Brochitiden etc., with their manifold Symptoms the droplet size of the generated aerosol cannot be changed. Corresponding Due to the size of their individual droplets, the aerosols only have a certain area of action. An inhalation mist is determined by the resonator head built into the inhaler Droplet diameter generated either on the nasal cavity or the throat area or affects the lung area. For the generation of aerosols of different Droplet size, multiple inhalers are required. With an inhaler you can always only a specific area of the airway to be treated. As extremely disadvantageous has been found in the known ultrasonic inhalers that the resonators are firmly connected to the inhalation device and the devices as a whole because of the built-in electrical equipment cannot be sterilized. The defective one The sterilizability of the known devices leads to infections of the oropharynx of different users. Based on this prior art, it is the task of this Invention to provide an ultrasonic inhaler, the disadvantages of the known Inhalers does not have, with which inhalates of different viscosities are nebulized can be used to treat all areas of the respiratory tract (nose, throat, lungs) can be and its most important parts, namely resonator and breathing mask, sterilized can be. This object is achieved in that the resonator head consists of a resonator and head circuit board, resonator and head circuit board are encapsulated in a liquid-tight manner are, the electronic vibration generator at least two different output frequencies outputs, the output frequencies are applied to an output circuit board and the head circuit boards and the output circuit board is detachably connected to one another via a plug connection are. This ensures that different ultrasonic resonators can be operated with just a single inhalation device. With the help of the connector becomes the respective correct excitation frequency of the vibration generator that excites the resonator head tapped, so that starting from the inhalation and the respiratory tract area to be treated generates the aerosol desired for optimal therapeutic success in the device will. This enables a targeted inhalation treatment of predetermined areas of the Respiratory tract. According to the required diameter of the individual aerosol droplets If the resonator is selected before the treatment, via the plug-in contacts of the plug-in connection connected to the vibration generator with the socket located inside the housing, and thereby tapped the frequency that excites it. After using the device the resonator head can be pulled off and sterilized together with the breathing mask be subjected. The pressure-tight encapsulation of the resonator head prevents a Penetration of moisture into the resonator head. According to the invention, a flange is formed on the jacket of the resonator head and an elastically deformable seal is arranged between the flange and the capsule. This seal is expediently supported in a vibration node. This is particularly advantageous because it is via the mounting flange of the resonator head the mechanical ultrasonic energy is decoupled from the resonator.