DE2936433A1 - Inhalation appliance and atomiser control - using time and pressure dependent delay circuits and threshold switches - Google Patents

Abstract

The control of an inhalation appliance, combined with an atomiser for a medicinal inhalation agent, includes a pressure-dependent delay circuit and a time-dependent delay circuit which are linked by a selector switch to the atomiser. Both the pressure-dependent delay circuit and the inhalation control unit incorporate threshold units. Depending on the desired distribution of the medicinal agent, the aerosol current can thus be controlled depending on the achieved inspiration pressure and can also be added with a delay to the main gas flow.

Description

Ventilator with nebulization device Field of application of the invention: The invention relates to a ventilator comprising a drug nebulizer and a control unit existing nebulization device, which is used for humidifying respiratory gas and in particular for application of medicaments during the inspiration phase independent of the breathing gas flow of the ventilator causes an automatic nebulization of the drug.

Characteristic of the known technical solutions: According to the DD-WP 128 o26 is a ventilator with a nebulizer known that during assisted or automatic ventilation is synchronized with the inspiration phase Nebulizer performance in addition to continuous breathing gas flow rate at the same time guaranteed. The nebulization device is signal-linked to the control of the ventilator and consists of a control unit with pressure uiici wengen reinforcement, on the one hand with a separate energy source or with the pressurized gas source of the ventilator and on the other hand connected to a medicament nebulizer of known design is. The control unit is provided with double diaphragm relays, their uniform trained inputs and outputs with logical input signals routed via distribution blocks, with the auxiliary pressure of the pressure gas source passed through a reduction and with atmospheric pressure 0 exist when there is a pressure signal at the signal input of the control unit Output signals fed by the auxiliary pressure, which in one with the nebulizer nozzle of the medication nebuliser arranged close to the patient connected to the terminal block will.

The arrangement of the nebulizer in the ventilator and their However, construction only allow a constant nebulizer flow.

In DE-OS 2 602 ßlo a method for ventilation and a ventilator with servo adjustment device, flow amplification devices, flow acceleration device and nebulizers or nebulizers. Takes place during the inspiration phase an automatic atomization or nebulization, as the ventilation gases through the nebulizer must flow through. The flow rate of the respiratory flow thus determines the jenge of the ventilation nebulization. Increases the Flow rate on, increased The primary gas jet is from the nozzle of the Tlaupt Venturi valve and in the In the breathing circuit, an increased flow rate occurs, with this solution being able to the ventilation flow is increased or increased by parallel flows of ventilation gases one of these parallel flows of ventilation gases through the Linstellventil for the apneustic plateau flow rate and the other ventilation gas flow through the flow accelerator flows.

The latter flows during the entire inspiration phase and during for a period after the end of the inspiration phase. That way is it is possible, during the slow flow procedure, to avoid the tightness of the additional, double special substances from the nebulizer.

In this known ventilator, the performance of the nebulizer is dependent from the ventilation gas flow. Additional parallel ventilation gas flows can increase the i3 ventilation flow and thus also increase or increase the nebulizer performance. The additional through Breathing gas flow flowing through the flow accelerating device flows during the inspiration phase and during the period for the apneustic flow. In the latter period, however, only the trachea-bronchial area can receive an aerosol with larger particles, object of the invention: The object of the invention consists in the disadvantages of the known ventilators with drug nebulization to consider a highly effective ventilation therapy associated with one To achieve controllable drug application.

Statement of the essence of the invention: The invention is the task based on a signal-linked nebulization device with the control of the ventilator to create a pressure-dependent and a time-dependent disconnection of the aerosol flow to the ventilation gas flow as well as a targeted influencing of the fog spectrum and the productivity of the drug nebulizer.

According to the invention the object is achieved in that the control unit the nebulization device from a pressure-dependent delay circuit and / or there is a time-dependent delay circuit which, on the input side, has the Control line with the ventilator control and on the output side with the Selector circuit and the downstream Liedikamentenvernebler are linked that the breathing pressure line of the control of the ventilator to a threshold switch the pressure-dependent delay circuit and two. more connected in parallel Threshold switch of the ventilator control is connected and that the two Threshold switch via a flip-flop element on the one hand with the time-dependent Delay circuit and on the other hand with an injector and over this with one Mixing member of the drug nebulizer are connected.

The advantage of the solution according to the invention is that accordingly the desired or required distribution of the drug in the Respiratory tract the aerosol flow once depending on the achieved inspiratory pressure and on the other hand delayed compared to the beginning of a respective inspiration phase can be switched on to the main nutrient gas flow coming from the ventilator.

The pressure-dependent delay circuit preferably consists of a threshold switch and a UI 'element, one input with the output of the threshold switch and its other input with the control line of the injector connected is.

In a preferred embodiment, the selection circuit consists of two AND gates and an OR gate linked to these signals, each with an input of the AND elements with a function selector switch, the second input of one UW element with the time-dependent delay element and the second input of the other UiW element connected to the pressure-dependent delay circuit and the output of the OR gate is connected to the medicament nebulizer, its supply line via a Mixing element opens into the inspiration line.

The nebulizer nozzle is advantageously of the medicament nebulizer a pressure reducer and a throttle valve are connected upstream and a manometer in between arranged.

The regulation of the pre-pressure and the medication nebulizer before the nebulizer nozzle has the advantage that at the same time or independently of the time and pressure-dependent switching of the aerosol flow to the breathing gas flow, the nebulizer productivity of the mass flow and its fog spectrum as required changes can be. If the focus of the disease is, for example, in the alveoli, the mass distribution density should of the aerosol are about 1 em, while for diseases of the upper airways one Particle size of 5 µm is suitable. Overall, it is possible to use the Therapy success through a targeted drug aerosol increases significantly To improve and protect non-diseased tissues from drug side effects.

Exemplary embodiment: The invention is intended below on the basis of an exemplary embodiment will be explained in more detail.

In the accompanying drawing: FIG. 1 shows a bypass to the ventilation gas flow switched nebulization device FIG. 2 shows an arrangement and signal combination logical elements in a nebulizer.

The respirator 1 shown in FIG. 1 is usually the breathing tubes 2 and the Y-piece 3 connected to the patient breathing space 4, wherein the inspirationsleitunp; 5 a medicament nebulizer 6 is arranged paticntennnh, one in the bypass to the breathing gas current-switched nebulization device 7, be consisting of a control unit 8 and the medicament nebulizer 6 is on the input side via a control line 9 with the ventilator 1 and via an auxiliary power supply line 11 with the Connected pressurized gas source and opens on the outlet side via a supply line 12 of the iediknmentenvernebler 6 in the inspiration line So the Control lo of the ventilator 1 shown in FIG. 2 for assisted ventilation is a simple variant that is sufficient for many drug applications. An F1ip-flop element 13 is on the input side with a threshold value shoulder 14 for the lower breathing pressure threshold for initiating the inspiration phase and a threshold switch 15 connected for the upper respiratory pressure threshold to end the inspiration phase, On the output side, the flip-flop element 13 controls an injector via a flow control valve 16 17, which is connected by means of a mixing member 33 to which the medicament nebulizer 6 is also connected is connected, forms the output of the nebulizer device.

The control unit 8 consists of a time-dependent delay circuit 18, a pressure-dependent delay circuit 19 and a jahl circuit 20. Das The inspirationsphasensyncrone signal in the control line 9 is applied to the delay element 18 and at an input of an AND element 21 of the pressure-dependent delay circuit 19 at. The analog breath pressure signal 22 is via a threshold switch 23 with the second input of the AND gate 21 is connected. To the analog breath pressure signal A separate breathing pressure line is to be fed to the threshold switch 23 without side effects 24 to the patient breathing space 4 is provided. The output signals of the delay circuit 18 and the AND element 21 each have an input of two AND elements 25, 26 executed as conjugator 25 and inhibitor 26, which with an OR gate 27 to a Selector circuit 20 are signal-linked, connected. The second inputs of the AND gates 25, 26 are with a coming from the function selector switch 28 Punkticnswahlsignal 29 occupied, the function selector switch 28 is used to determine pressure- or time-dependent delay.

The output of the OR gate 27 of the selector circuit 20 is to the medicament nebulizer 5 connected.

The medication nebulizer has a pressure reducer 3o and an nDssel valve 31 upstream. The pressure reducer 30 regulates the pre-pressure in front of the nebulizer nozzle and thus influences the quality of the fiebel spectrum. The form is sent to a Ilanometer 32 checked. The throttle valve 31 regulates that of the nebulizer nozzle to be offered volume flow, of which the productivity of the Ledikamentenverneblers 6 dependent; is.

Claims (5)

Invention claims: 1. Ventilator with a drug nebulizer and control unit of existing nebulization device, which is in bypass to the breathing gas flow arranged with the control of the ventilator and via a Linlaß with the a pressurized gas source and is connected to the patient's breathing space via an outlet, its control unit consisting of logical membrane elements as well as pressure and volume booster valves consists, by means of which, regardless of the flow rate of the respiratory gas flow Casjet directed via the nebuliser nozzle is controlled and this during the inhalation phase causes an automatic fogging, characterized in that the control unit (8) from a pressure-dependent delay circuit (19) and a time-dependent one Delay circuit (18) exists on the input side via the control line (9) and the breathing pressure line (24) with the ventilator control (10) or the breathing space of the patient (4) and on the output side with the selector circuit (20) and the downstream Medicament nebulizer (6) are linked to the breathing pressure line (24) of the ventilator control (10) to a threshold switch (23) of the pressure-dependent delay circuit (19) as well as two other threshold switches (14, 15) connected in parallel. the Ventilator control (10) is connected and that the threshold switch (14, 15) via a flip-flop element (13) on the one hand with the time-dependent delay circuit (13) and on the other hand with an injector (17) and above this with the mixing element (33) of the medicament nebulizer (6) are connected. 2. Ventilation device with nebulization device according to point 1, thereby characterized in that the pressure-dependent delay circuit (19) consists of the threshold switch (23) and enel AND element (21), one input of which is connected to the output of the threshold switch (23) and whose other input is connected to the control line (9). 3. Ventilator with nebulizer according to item 1, thereby characterized in that the selection circuit (20) consists of two AND gates (25, 26) and one with this signal-linked OR gate (27) there is one input of the AND elements (25, 26) with a function selector switch (28), the second input of the AND gate (25) with the time-dependent delay circuit (18) and the second Input of the AND element (26) with the output of the pressure-dependent delay circuit (19) is connected. 4. Ventilation device with nebulization device according to point 1, thereby characterized in that the output of the ODLR element (27) of the selection circuit (20) the medicament nebulizer (6) is connected, the supply line (12) of which opens into the inspiration line (5) via the mixing element (33). 5. Ventilation device with nebulization device according to point 1, thereby characterized in that the medicament nebulizer (o) has a pressure reducer in front of the nebulizer nozzle (30) and a throttle valve (31) connected upstream and in between a nanometer (2) is arranged