DE3118502A1 - Overload protection arrangement in a device for applying ultrasound to liquids - Google Patents

Abstract

The invention contains an overload protection arrangement in a device for applying ultrasound to liquids, which comprises a sound generator (source), to which an oscillating circuit is applied and which is to be protected against running dry, in a container which is to be filled with the liquid. There is a sensor which responds when the liquid level in the container drops below a prescribed value. It is provided to use the arrangement in inhalation apparatuses, in particular. In contrast to the state of the art, in which a minimum liquid level is maintained by float controllers or by turn-off electrodes bridged by the liquid, in accordance with the invention turning off is performed when there is a rise in the circuit quality of a resonant circuit, containing the sound generator, of the oscillating circuit. The mode of operation of this arrangement is independent of the possible corrosion of components, and thus very reliable. In addition, easy cleaning of the container to be filled with the liquid is enabled, since only the sound generator is arranged in the latter. <IMAGE>

Description

Overload protection arrangement in a device for ultra-

sound exposure of liquids.

Description The invention relates to an overload protection arrangement according to the preamble of claim 1e There are already arrangements of the mentioned Kind of known for inhalation devices, in which the sound generator is used to convey the liquid to smash in the container to small particle sizes and thus an optimal Induce fogging. The most commonly used here and for certain reasons cheap sounders made of barium titanate are very sensitive to a drying cycle and can, with normal exposure, in such a case already in a time interval be destroyed by more than 10-20 milliseconds. For this reason, the known devices on the drop in the liquid level in the container below a predetermined value responsive transducer provided. These can be either be purely mechanical and include a float as an essential component, or there can be current sensor electrodes working on the principle of electrolytic decomposition The container must be cleaned in the case of transducers with a float difficult. In addition, there is a risk of corrosion with aggressive liquid additives' which creates the risk of malfunction. On the other hand, if the transmitter is working according to the principle of electrolytic decomposition with current sensor electrodes There is also severe corrosion on the electrodes, which can lead to malfunctions over time to lead can, although with such transducers cleaning is somewhat simpler than with the first-mentioned mechanical transducers.

The object of the invention is to create a comparatively improved one Overload protection arrangement, which works more reliably than the known arrangements and, moreover, easier cleaning of the liquid to be filled Allows container.

This is achieved through the characterizing features of the patent claim 1.

Although in accordance with the preceding statements on the prior art Inhalation devices were dealt with, is one application of the subject matter not limited to this. Rather, the overload protection arrangement according to the invention is in general in connection with devices for the application of ultrasound to liquids applicable. In particular, it is also used in preparative chemistry to encourage intense reactions between two or more respondents possible.

In the case of the tfo protection arrangement according to the invention, the speaks Transmitter on the increase in the quality of the oscillating circuit, with under normal Conditions when the liquid level above the sounder is significant, the Circular quality has a relatively low value, but that with the decrease the column of liquid above the sounder increases steadily and when drying out of the sounder reaches a very boring value. As a result, it is in any case a reliable response of the transducer possible without contamination or Corrosion can lead to malfunctions. Since only the Sounder is located in the liquid, is the sounder receiving and Containers to be filled with the liquid are very easy to clean.

Due to the further development according to claim 2 is proportionate allows monitoring of the circular quality in a simple and inexpensive manner.

The development according to claim 3 is a safe one Shutdown before an impermissibly high circuit quality is reached, with a simple adjustment option is also given.

Through the development according to claim 4 it is achieved that not only during normal operation, i.e. when the level is contained in the container Fluid decreases continuously, but a reliable shutdown occurs it is also ensured that when it is forgotten, liquid is used to fill into the container and the sounder goes dry from the start, a Shutdown within a very short time interval (around 10-20 milliseconds) takes place, so that even in this extreme case, the sounder from destruction is secured.

The optional development according to claim 5 is the same result as achieved by the development according to claim 4, However, the device, which the overload protection arrangement according to the invention is assigned, requires a certain start-up time until the sounder is full. Has reached amplitude. This embodiment is therefore suitable because it has a Requires less effort, especially for private purposes (especially Inhalation devices intended for chewing use), while the training form after the patent claim 4 more for Koniinerzielle.Anwendungs purposes (for example in doctor's offices) it is determined where on short standby times Value is placed.

Through the developments according to claims 6 and 7, either by itself or in conjunction with each other, it is achieved that when a determined the oscillating circuit that is still to be regarded as permissible is set so that destruction of the sounder is excluded with certainty can be.

The invention is explained in more detail below with reference to the drawing. The figures show: FIG. 1 a first exemplary embodiment of a load protection according to the invention z arrangement in block diagram representation, Fig. 2 shows a modification of the embodiment according to Fig. 1 in partial representation, but with the same reference numerals for the same components are used.

A sounder is located in a container 2- to be filled with liquid 1 3 arranged, which is to be protected against Grockengang. By an oscillating circuit 4 the sounder 3 is acted upon so that the liquid 1 is acted upon, e.g. when used in conjunction with an inhalation device, an atomization takes place and the resulting mist can be extracted accordingly.

The oscillating circuit 4 is supplied via a power supply unit 5 cares, the current drawn by the oscillating circuit drops across a measuring resistor 6.

The oscillating circuit 4 is assigned a current control element 7, which especially the current drawn by the oscillating circuit 4 when the circular quality rises increases sharply, so that the slope of a signal voltage drop across the measuring resistor 6 is increased significantly.

The signal voltage picked up at the measuring resistor 6 passes over an input actuator 8 as a filtered DC voltage to a threshold value discriminator 9 in the form of a differential amplifier. Since in the power supply 5 included charging and Filter capacitors (not shown for the sake of clarity) a relatively have a long charging time, the threshold value discriminator 9 is initially switched on not acted upon via the input actuator 8, so that the entire overload protection arrangement would not be functional during the charging time of the power supply unit 5. There on the other hand but the oscillating circuit 4, even if it is screened with relatively less DC voltage is supplied, already an oscillation amplitude at the to be protected Sounder 3 emits, would be the necessary foolproof booklet in terms of protection of the sounder 3 is not given, if it is forgotten from the start, liquid 1 to be filled into the container 2 and therefore the sound generator 3 will already dry out initially. In order to achieve the necessary operational reliability of the overload protection arrangement, the signal voltage is applied to the threshold value discriminator 9 in addition to the input actuator 8 also without delay via a further input actuator 10, but also largely unscreened, transfer. As a result, it is the threshold discriminator 9 immediately operational when the power supply unit 5 or the oscillating circuit 4 is switched on.

If the power supply unit 5 has been charged after a certain start-up time, so the input actuator 10 is blanked by the input actuator 8, wherein During further operation, the signal voltage removed from the measuring resistor 6 reaches the threshold value discriminator 9 via the input actuator 8. In each The operating phase is therefore either only the input actuator 10 or the input actuator 8 in operation.

The threshold value discriminator 9 acts on the oscillating circuit Control attenuator 11 for reducing the oscillation amplitude of the oscillating circuit 4 subordinate. Furthermore, the threshold value discriminator 9 or (in the case of the illustrated Embodiment downstream of the control attenuator 11) a control short-circuit element 12, which serves to short-circuit the resonant circuit of the resonant circuit 4. If too high a signal voltage drops across the measuring resistor 6 and consequently speaks if the threshold value discriminator 9 is on, in the exemplary embodiment shown of Fig. 1 not only short-circuited the resonant circuit of the resonant circuit 4, but there is also a significant reduction in the oscillation amplitude ensures that in the required short time interval of 10-20 milliseconds the application of the sound generator 3 is reduced in such a way that destruction is no longer to be feared.

In the exemplary embodiment according to FIG. 2, the threshold value discriminator is used 9 acted upon directly by the voltage drop across the measuring resistor 6, so that So the input actuator members 8 and 10 shown in Fig. 1 are missing. Instead of this an amplitude control circuit 13 influencing the oscillating circuit is provided, which for gradually increasing the oscillation amplitude of the oscillation circuit 4 is used after switching on. The threshold value discriminator 9 is like this here set that it is already at a relatively low oscillation amplitude the oscillating circuit 4 responds if the sounder 3 goes dry. The rest The mode of operation basically corresponds to that of the arrangement in Fg, 1.

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Claims (7)

Overload protection arrangement in a device for applying ultrasound of liquids patent claims S overload protection arrangement in a device for applying ultrasound of liquids, which acted upon you by an oscillating circuit, against Dry run to be protected sound generator in a to be filled with the liquid Containers comprising, with a decrease in the liquid level in the container transducer responding below a predetermined value, characterized in that that the transducer responds to the increase in the circular quality of the oscillating circuit (4) is trained. 2. Arrangement according to claim 1, characterized in that the transducer a current control element (7) assigned to the oscillating circuit (4) for raising the of the oscillating circuit includes the current drawn when the Q factor increases. 3. Arrangement according to claim 1, characterized in that the transducer one on the exceeding of a given current of the oscillating circuit (4) responsive threshold value discriminator (9) for switching off the oscillating circuit. 4. Arrangement according to claim 3, characterized in that the threshold value discriminator (9) via a first input actuator (10) from one also the oscillating circuit (4) supplying power pack (5) without delay with largely unfiltered DC voltage and after a predetermined charging time interval via a second input actuator (8) is to be applied with filtered direct voltage. 5. Arrangement according to claim 3, characterized in that the oscillating circuit (4) an amplitude control circuit (13) for gradually increasing the oscillation amplitude is assigned to the oscillating circuit after switching on. 6. Arrangement according to claim 3, characterized in that the threshold value discriminator (9) a control attenuator (11) acting on the oscillating circuit (4) for Reducing the oscillation amplitude of the oscillating circuit is arranged downstream. 7. Arrangement according to claim 3, characterized in that the threshold value discriminator (9) a control short-circuit element (12) acting on the oscillating circuit for closing the circuit of the resonant circuit of the resonant circuit (4) is arranged downstream.