RU2049494C1 - Defibrillator - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has power supply source, defibrillating pulse generator, signal distributor, and electrodes with corresponding functional bounds. The defibrillating pulse generator has a group of diodes and capacitors. EFFECT: enhanced effectiveness of cardiac fibrillation treatment. 2 dwg

Description

 The invention relates to medicine, namely to devices for eliminating cardiac fibrillation.

 A device is known comprising a defibrillation pulse forming unit, a signal distributor, a power source and electrodes.

 The device is large in size and weight, and also does not provide bipolar defibrillating pulses of the same amplitude.

 In FIG. 1 shows a structural diagram of a defibrillator; figure 2 the shape of the pulses at the output of the control unit and at the output of the defibrillator.

 Defibrillator works as follows.

An AC voltage source with a voltage of 1.5-1 kV 1 is connected through the contacts of the button Kn and diodes D ₁ -D ₄ and capacitors C ₁ -C ₄ . When the Kn button is pressed, capacitors C ₁ -C ₄ start to charge through the diodes D ₁ -D ₄ (at this time, the contacts K ₁ ¹ K ₄ ^{1 of the} relay P ₁ -P _{4 are} open). Capacitors C ₁ -C ₄ are charged and the charge voltage is controlled by a high-resistance voltmeter. Upon reaching the required charge voltage of the capacitors C ₁ -C _{4, the} button Kn is released. For reliable defibrillation on the control unit select the required number of pulses of defibrillation (figure 2) two, four, etc. and press the "Defibrillation" button (not shown in Fig. 1 and Fig. 2). The control unit generates a series of pulses to the relay P ₁ -P ₄ , which are activated by closing the sequence with their contacts circuit-capacitors C ₁ -C ₄ electrodes of the defibrillator E ₁ . A series of pulses of the discharge of capacitors C ₁ -C ₄ enters the heart. Figure 2 shows a series of pulses at the output of the control unit V _control. and a series of pulses at the output of the defibrillator V _o The shape of the pulses V _o shown conventional, because it must correspond to a curve that varies exponentially.

Due to the fact that the charge voltage of capacitors C ₁ -C ₄ is in the range of 0.5-1.0 kV, electrolytic capacitors with a capacity of 100-250 μF can be used in the defibrillator circuit. All capacitors C ₁ -C ₄ have the same parameters, so you can do with one voltmeter to measure the voltage across the capacitors.

 The defibrillator is used as follows.

 To defibrillate the heart, the defibrillator is connected to a network of 50 Hz, 220 V, the Kn button is pressed, the charge voltage of the capacitors is determined by a voltmeter, the number of pulses sufficient for defibrillation is selected, they are set on the switch control unit and the "Defibrillation" button is pressed. A series of defibrillation pulses appears at the output of the defibrillator.

In view of the fact that the duration of the charge of capacitors C ₁ -C _{4 is} not specified anywhere, a low-power power transformer with a secondary winding of 1.0 kV can be used in the defibrillator. Capacitors C ₁ -C ₄ charge with voltage starting from 0 V, i.e. there is no surge in capacitors, therefore, the tested breakdown voltage of the capacitors may be close to their operating voltage, which reduces the size and weight of the capacitors. Relays R ₁ -P ₄ use medium power, since the current in the discharge circuit of the capacitors does not exceed 15 A.

Claims (1)

 A DEFIBRILLATOR containing a power source connected to one of the inputs of the defibrillating pulse generating unit, the other inputs of which are connected to the output of the signal distributor, and electrodes connected to the output of the defibrillating pulse forming unit and to a power source, characterized in that the defibrillating pulse forming unit contains a group of diodes and capacitors, moreover, some diodes are connected in the forward direction, others in the opposite direction, some diode inputs are connected via a switch and are one input the house of the defibrillating pulse generating unit, one of the terminals of each pair of capacitors is interconnected and is one of the outputs of the defibrillating pulse generating unit, the other outputs of each of the capacitors are connected to other diode terminals, which are combined through the relay contact pins and are another output of the defibrillating forming unit pulses.

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