SE459642B - CLUTCH DEVICE FOR ELECTRONIC SEATING OF THE TOP AND TEMPORARY USE OF THE RESPIRATORY PRESSURE - Google Patents

Description

459 642 é 10 15 20 25 30 sa 2 long-term breathing as well as for anesthetic breathing, has a working range for the average value of the breathing pressure of likewise - 0-10 kPa as well as working areas for the peak value of l-10 kPa and for the instantaneous value of -2 - 10 kPa.

As already mentioned, in this type of monitor, the pressure and frequency monitoring of measuring types and measuring areas takes place by means of closed functional units. This also applies to the measurement of the peak value of the respiratory pressure and the storage for the next respiratory cycle. This is achieved by means of a suitable pressure sensor first converting the instantaneous value of the breathing pressure to an analog voltage signal, by means of which the peak value measurement is then realized via a rectifier device and by charging a capacitor. Through additional switching measures provided in the function units, the measured value is then stored until the next breathing cycle. There is no switch to instantaneous value measurement for manual breathing.

The modern breathing techniques are, taking into account special technical details for, for example, humidification, O 2 mixing and other things so expediently and adaptively constructed that an excellent lung ventilation and lung stabilization was made possible as well as its monitoring is feasible by adapting an electronic respiratory pressure and frequency monitor. to the control electronics.

Such an adaptability has, for example, a respirator for anesthetic breathing with automatic and manual breathing, which is equipped with a "bellow in bottle" system for the automatic operation and a handbag * for the manual operation (nn-WP A 61 M / 244 300.7) . At. this respirator has the switching device provided with a control unit for frequency and respiration time ratio, a switching unit which is signal-wise connected via a first and a second U / P converter as well as a switch-off delay to a switch designed for several functions. The switching unit, which is also connected via an additional U / P converter to the bellow in bottle system and via the breathing gas connection is connected to the anesthetic circuit part, is also connected to a first OR connected to the switch-off delay. gate, which on the output side via a second OR gate is connected to the switch and a memory element connected to the control unit.

This modular connection consisting of functional units of control units can be adaptively connected to an electronic breathing pressure and frequency monitor, the two units, however, remaining independent and thus being usable autonomously and independently of each other.

The object of the invention is to develop a cost-effective solution for peak value and instantaneous value measurement with storage of the values, on the other hand when utilizing the advantages of known breathing techniques, in particular the existing measurement possibility regarding the respiratory pressure process through analog-digital conversion. enable a switch from peak value measurement to instantaneous value measurement and vice versa.

The object of the invention is to provide the coupling device to an anesthesia or treatment respirator with a pulse shortening circuit, which is to be connected complex digitally and thus supplies an analog-to-digital converter with the measured value present at each occasion for a certain time.

According to the invention, the task is solved in that the control unit for an anesthesia and treatment respirator is connected to a memory element, the output side of which is connected to a pulse shortening circuit, which on one side is connected via a drive stage to an p (t) product of an electronic breathing pressure sensor. analog-to-digital converter in series connection with a decoder and an indicator, on the other hand via the drive stage and an inverter are connected to the switching stage intended for manual operation in a switch designed for several functions. 459 642 10 15 20 25 30 35 4 In the embodiment of the switching device according to the invention, in a further, advantageous signal connection, the pulse shortening circuit can be produced by a first NAND gate, both inputs of which are connected to the memory element, one electronically connected in parallel with a diode. resistor, a capacitor and a second NAND gate, one input of which is connected to the memory element and the other input of which is connected to the resistor, diode and capacitor.

The drive stage may again consist of two electronic resistors and a transistor, one resistor being connected to the pulse shortening circuit, while the other resistor as well as the transistor are connected to the analog-to-digital converter and connected to the voltage UB, respectively.

It is also suitable that the pulse shortening circuit and the functional units connected thereto in the switching device are combined as a block in a modular system, which block is connected to the control unit for frequency and breathing time ratio directly or via a device output.

The invention will be described in more detail in the following with reference to the accompanying drawing, which shows a circuit diagram for an exemplary embodiment.

The drawing shows a pulse shortening circuit 1, which consists of a first NAND gate 2, a diode 3, an electronic resistor 4, a capacitor 5 and a second NAND gate 6. The pulse shortening circuit is with its NAND gate 2 directly or via a device output 7 is connected to a memory element 10, which is arranged after the control unit 8 for frequency and respiration time ratio in an anesthesia and treatment apparatus 9. On the other hand, the pulse shortening circuit 1 is connected with its NAND gate 6 to a drive stage 19 and via this for connection to an analog-to-digital converter 13, the second input of which is connected to an electronic respiratory pressure sensor 14. The analog-to-digital converter 13 is connected on the output side to a decoder 1S and via this to a decoder 1S. indicator 16. In the connection between the drive stage 19 consisting of two electronic resistors 11, 20 and a transistor 12 and the analog-to-digital converter, a connection from an inverter 17 is made, which is signaled Connected to the manual operation switching stage in a multi-stage switch 18.

The pulse shortening circuit 1 and the functional units connected thereto, i.e. the drive stage 19, the analog-to-digital converter 13, the inverter 17, etc., can be combined as blocks in a modular system, the connection of which would take place via the device output 7 and a signal output 21. Respiratory pressure sensor 14 is in turn connected, for example, to the circuit part (not shown).

With this invention, which, as is known, presupposes the input of the measured respiratory pressure profile P (t) with the electronic respiratory pressure sensor 14, the measurement signal supplied by the same as the Ptt) product analog signal 13 is utilized as well as the digital output possibility of decoded average values. indicator 16. When a certain potential is applied to the input of the analog-to-digital converter, the "measured value" is converted approximately 80 times per second to a digital signal 1 'BCD code and is displayed on a 7-segment indicator, ie the indicator. 16. This analog-to-digital converter so connected has the further advantage that when a second, determined potential is applied to the same input to the analog-to-digital converter 13, it operates in a "holding mode", i.e. the last registered measured value is stored and no further transformation takes place. ~ This working method presupposes that the control pulse in the anesthesia or the treatment respirator 9 (for example developed according to DD-WP A 61 M / 244 800.7) is applied to the output of the memory element 10 and by means of the pulse shortening circuit 10 is converted into a square pulse with a width of 10 ms.After this conversion, the square pulse is fed via drive stage 19 to 459 642 The analog-to-digital converter 13, so that on the input side of the analog-to-digital converter 13 the required potential for "fast operation" is achieved, while the analog-to-digital converter 13 operates at other times on "holding operation". According to the invention, it is thus achieved that the peak value of the respiratory pressure present at the end of the inhalation is measured for 10 ms but is stored and indicated for the remaining time.

The advantage of the circuit arrangement described here lies in the exact registration of the peak value, since 10 ms is small in relation to the switching times of the pneumatic inhalation and exhalation signals.

An additional advantage is the result of the circuit structure, which can be emailed minimally and thus makes ae: possible to register each change at subsequent breathing without delay and completely. The instantaneous value of the breathing pressure is also measured by using the property of the analog-to-digital converter 13 and more specifically with a third, determined potential for "slow operation" at its input. For this purpose, for manual breathing it is used from switch 18 in switch mode "manual breathing". the signal, which as a high level signal is applied to the inverter 17 in the circuit device according to the invention, the signal is first inverted by the inverter 17 before it reaches the analog-to-digital converter 13. This thus receives a low level signal and thus the determined potential for slow , continuous measurement and indication. The prevailing instantaneous value at each occasion is thus indicated with a constantly slow change. '

Claims (4)

10 15 20 25 30 35 é 459 642 PATENTKRAV - 1. l. Coupling device for electronic measurement of the peak and instantaneous value of the breathing pressure and with a connection to a control unit (8) for an anesthetic and treatment respirator, which in dependence on its automatic or manual operation is switched on or off by means of a multi-stage switch, characterized in that the control unit (8) is connected to a memory element (10), the output side of which is connected to a pulse shortening circuit (1), which on one side is connected via a drive stage (19) to an analog-to-digital converter (lä) influenced by a P (t) product of an electronic respiratory pressure sensor (14) in series with a decoder (15) and an indicator (16), on the other side via the drive stage (19) and an inverter (17) are connected to the switching stages of the switch (18) for manual operation. Coupling device according to Claim 1, characterized in that the pulse shortening circuit (1) consists of a first NAND gate (2), the two inputs of which are connected to the memory element (10), one electronically connected in parallel with a diode (3). resistor (4), a capacitor (5) and a second NAND gate (6), one input of which is connected to the memory element (10) and the other input of which is connected to the resistor (4), the diode (3) and the capacitor (5). Coupling device according to Claim 1, characterized in that the drive stage (19) - consists of two electronic resistors (11, 20) and a transistor (12), one resistor being connected to the pulse shortening circuit (1), while the other the resistor (20) as well as the transistor (12) are connected to the analog-to-digital converter (13) and connected to the voltage UB, respectively. 4. A coupling device according to any one of claims 1-3, characterized in that the pulse is shortened. The control circuit (1) and the functional units connected thereto in the switching device are combined as a block in a modular system, which block with intermediate switching of the memory element (10) is connected to the control unit (8) for frequency and breathing time ratio. directly or via a device output (7) as well as to the switch (18) directly or via a signal output (21).