RU2032375C1 - Pulse control device - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: this pulse control device includes heart rate pulse shaper 1, regulator 2, amplifier 3, and indicator 4. Regulator 2 includes master oscillator 5, NOT element 6, and AND element 7 interconnected in the following manner. Input of master oscillator 5 is connected to output of heart rate pulse shaper 1, output of master oscillator 5 is connected to input of NOT element 6 whose output is connected to first input of AND element 7, and second input of AND element 7 is connected to output of amplifier 3. EFFECT: greater simplicity of design and operational reliability. 3 dwg, 1 tbl

Description

 The invention relates to medicine, namely to devices for controlling the pulse.

 A device for monitoring cardiac activity during sports training, comprising a series-connected input signal converter, a time interval code converter, a leader signal generation unit and an indication unit, a random access memory, a register, an address counter, a control unit, a mode control unit and a registration unit, the input of random access memory (RAM) is connected to the output of the converter, the time interval is code, the output of RAM with the input of the register, the output of which is it is single with the input of the registration unit, the address input of RAM is connected to the output of the address counter, and in the control unit the first and second signal inputs are connected respectively to the output of the input signal converter and to the overflow output of the address counter, the first and second control inputs are connected respectively to the clock input and output select the mode of the mode control unit, the first output is connected to the stop input of the converter, the time interval is a code, and the RAM write enable inputs, the register and the leader signal generation block At the same time, the second output is connected to the start-up input of the converter, the time interval code and the counting input of the address counter, and the third and fourth outputs are connected respectively to the blocking address of the address counter and the read enable input of RAM, while the leader signal generation block is made in the form of a driver with an indication output and the inputs of the recording permission signal, and the generator outputs are connected to the clock inputs of the shaper, the outputs of the comparison circuit, the inputs of which are connected respectively to the output, are connected to the control inputs ormirovatelya and threshold setting unit output.

 A pulse monitoring device is also known, comprising a biopotentials amplifier and a comparator connected in series, a first generator and an acoustic transducer, and a first switch, a total pulse counter, a first display inhibit circuit, a first decoder and an indicator, a second generator, a current pulse counter, and a second connected in series a decoder, a matching circuit and a light indicator, a third generator connected in series, a training time counter, a second backup circuit eta indicating and third decoder serially connected fourth generator, fourth and fifth decoder, and a switch having an input coupled to the second output of the second decoder, and outputs a first generator and matching circuit, the mixer and the second and third switches. In this device, the biopotentials amplifier is an amplification unit, an acoustic transducer, an indicator and a light indicator forms an alarm unit, and a comparator, a first generator, a matching circuit, a switch, a mixer form a limit-adjustable device.

 The disadvantage of these known devices for measuring heart rate is the design complexity and insufficiently high reliability.

 The aim of the invention is to simplify the design and increase the reliability of the device.

 This goal is achieved by the fact that in the known device containing a pulse generator of heart rate, a limit-adjustable device, a gain unit and an alarm unit, a limit-adjustable device is made in the form of a master pulse generator, the input of which is connected to the output of the pulse generator of a heart rate, and its output is connected to the input of the element NOT, the output of which is connected to the first input of the element And, while the second input of the element And is connected to the output of the shaper pulses of heart rate, and the output of the element And to the input of the amplification unit.

 The proposed device differs from the prototype in that the limit-adjustable device is made in the form of a master pulse generator, an element NOT and an AND element, while the input of the master pulse generator is connected to the output of the pulse shaper heart rate, and its output to the input of the element HE, the output of which connected to the first input of the element And, and the second input of the element And is connected to the output of the pulse shaper heart rate, and the output of the element And is connected to the input of the amplification unit, which allows yaet to conclude that the claimed solution to the criterion "novelty".

 Figure 1 shows the functional diagram of the device; figure 2, 3 shows examples of a specific implementation of the device in the case of using it to inform the athlete and in the case of using it to monitor the patient's condition.

 The device for monitoring the pulse consists of a pulse generator of heart rate 1, a limit-adjustable device 2, a gain unit 3 and a signaling unit 4. The limit-adjustable device 2 consists in turn of a master pulse generator 5, element NOT 6, element AND 7. In this case, in the case of using the device for informing the athlete about overload (see Fig. 2), the input of the master pulse generator 5 is connected to the output of the pulse shaper heart rate 1, and the output of the master generator pulse generator 5 with the input of the element HE 6, the output of which is connected to the first input of the element And 7, while the second input of the element And 7 is connected to the output of the pulse former 1, and the output of the element And 7 to the input of the amplification unit 3.

 The device operates as follows. The biopotential arrives at pulse shaper 1, the output of which receives a sequence of pulses with a repetition rate equal to the heart rate. These pulses are fed to the second input of the And 7 element and simultaneously to the input of the master pulse generator 5, which responds to the incoming signal by generating from its output a series of two pulses, the time interval between which is regulated depending on the necessary physical load. The pulses from the master pulse generator 5 through the element 6 arrive at the first water of the element And 7. The output of the element And 7 through the amplification unit 3 is connected to the block of sound (or light) signaling 4.

 Thus, the alarm unit gives a signal (light or sound) to the athlete, starting from any moment when the pulse frequency from the master pulse generator 5 coincides with the heart rate or the heart rate exceeds the frequency of the pulses coming from the master pulse generator 5.

 The operation of the above scheme can be illustrated by the following logical table.

 The pulse monitoring device can be used to monitor the condition of seriously ill patients by monitoring the heart rate with the output of the signaling device to the nurse's post. In this case, the element 6 is connected to the second input of the element And 7, and its input to the output of the pulse shaper 1, the output of the master pulse generator 5 is connected to the first input of the element And 7 (see figure 3).

 The proposed device is simple to operate, uncomplicated in design, reliable in operation, allows you to promptly inform the athlete about physical overload or medical staff about the deterioration of the patient.

Claims (1)

 PULSE CONTROL DEVICE, comprising a heart rate pulse generator, an organically adjustable device, an amplification unit and an alarm unit, characterized in that the limiting adjustable device is made in the form of a driving pulse generator, an element NOT and an AND element, while the input of the driving pulse generator connected to the output of the pulse shaper heart rate, and its output to the input of the element NOT, the output of which is connected to the first input of the element And the second input of the element And sub It is connected to the output of the pulse generator of the heart rate, and the output of the element And is connected to the input of the amplification unit connected to the signaling unit.

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