RU2681029C1 - Pyroresources connection scheme - Google Patents

Abstract

FIELD: physics.SUBSTANCE: invention relates to systems for simulating (initiating) pyro-agents. Device for blasting pyro-means contains an energy source, decoupling diodes, electric blasting networks and keys, half of which are connected to negative polarity of electric blasting networks by the first leads, and the second pins are connected to the negative terminal of the power source, the other half of the keys are connected to the second pins with the positive polarity of the electric explosion networks, the computing device, the outputs of which are connected to the control inputs of the keys, the control circuit, the output of each of which is connected to the corresponding input of the computing device; gating inputs of the control circuits are connected to the corresponding gates of the computing device. Additionally, current-limiting resistors are introduced into it, the first terminals of which are connected to the first inputs of the control circuits and to the cathodes of decoupling diodes, the anodes of which are connected to the positive terminal of the power source; second pins of the current-limiting resistors are connected to the second inputs of the control circuits and to the first pins of the keys in the positive polarity of the electric blasting networks, low-power current source, power terminals of which are connected to the positive and negative terminals of the energy source, the output of the low-power current source is connected to the power terminals of the control circuits, at the same time, a low-power current source is connected by a control input with a computing device.EFFECT: invention makes it possible to increase the reliability of undermining pyroresources with an optimal number of control circuits.1 cl, 1 dwg

Description

The invention relates to systems for simulating (initiating) pyromedicines.

A known device for blasting firearms (patent RU 2434199 C1 "Device for blasting fireworks" LB Egorov, KS Kirsanov, IV Tsetlin, published November 20, 2011 Bull. No. 32), containing an energy source, electric blasting networks , keys, some of which are connected to the positive terminal of the energy source, and others are connected to the negative terminal of the energy source, a computing device (microcontroller), the outputs of which are connected to the control inputs of the keys, control circuits are connected respectively to the output of each key, the output of each of which is connected according to the current input of the computing device; the gating inputs of the first and second groups of control circuits are connected to the corresponding gating outputs of the computing device, diodes dividing the keys into two groups, in one of which the key outputs are connected to the anode of the diodes, which are connected through the corresponding electroexplosive networks to the outputs of the keys of another group.

The disadvantage of the prototype is that in the proposed scheme, when you turn on one key, several EMUs are connected to the same power bus (plus or minus). If there is a malfunction in the key connecting the EMU to another power bus, as well as when checking the control circuit (SC) due to the presence of a malfunction, abnormal operation of the subversive device (PU) is possible. The presence of SC for each key requires large circuit costs, which, with an increase in the number of involved pyromedicines, leads to an increase in dimensions, mass of the system, and also currents through EMU.

An object of the invention is the creation of a device for reliable undermining of pyromedicines, with the optimal number of control circuits, allowing you to control two-thread PU.

The device for detonating pyromedicines must contain an energy source, decoupling diodes, electric blasting networks and keys, half of which are connected to the negative polarity of the electric explosion networks by the first terminals and connected to the negative terminal of the energy source by the second terminals; the other half of the keys by the second terminals is connected to the positive polarity of the electric blasting networks, a computing device, the outputs of which are connected to the control inputs of the keys, control circuits, the output of each of which is connected to the corresponding input of the computing device; the gate inputs of the control circuits are connected to the corresponding gate outputs of the computing device, characterized in that current-limiting resistors are introduced into it, the first terminals of which are connected to the first inputs of the control circuits and to the cathodes of the decoupling diodes, the anodes of which are connected to the positive terminal of the energy source; the second terminals of the current-limiting resistors are connected to the second inputs of the control circuits and with the first terminals of the keys in the positive polarity of the electric explosion networks, a low-power current source, the power terminals of which are connected to the plus and minus terminals of the power source, the output of the low-power current source is connected to the power terminals of the control circuits, while a low-power current source is connected by a control input to a computing device.

In FIG. 1 shows a diagram of a device for detonating pyromedicines. A device for detonating a pyromedicine contains: a computing device 1, an energy source 2, N electro-explosive networks (EMU) (3.1 ... 3.N), a low-power current source (MIT) 4, control circuits (CK1 and CK2) (5.1 and 5.2), diodes (D1 and D2), resistors (R1 and R2), switches K1.1, K1.2, K1.3, K1.4 ... KN.1, KN.2, KN.3, KN.4.

The outputs SK1 and SK2 are connected to the corresponding inputs of the computing device 1, the gate outputs of which are in turn connected to the gate inputs of the control circuits (resolution circuit). The MIT is controlled by a computing device, the MIT power terminals are connected to the plus and minus terminals of the energy source, and the MIT output is connected to the power terminals of the control circuits SK1 and SK2. Each control circuit contains decoupling diodes, resistors, and an optotransistor, which is the output of an SC connected to a computing device.

Keys K1.1, K1.2, K1.3, K1.4 ... KN.1, KN.2, KN.3, KN.4, the control inputs of which are connected to the outputs of computing device 1.

The keys K1 ... KN are prefabricated and consist of four keys K1.1 ... K1.4 ... KN.1 ... KN.4 included at the same time.

The inputs of the first group of switches K1.1, K1.2, ... KN.1, KN.2 are connected to the second terminals of the newly introduced current-limiting resistors R1 and R2, respectively, the first outputs of which are connected to the cathodes of the corresponding diodes D1 and D2, the anodes of which are connected to the positive the terminal of the power source 2. The outputs of the keys K1.1, K1.2, ... KN.1, KN.2 are connected to the positive terminals of the corresponding EMU (3.1 ... 3.N).

The inputs of the second group of keys K1.3, K1.4, ... KN.3, KN.4 are connected to the negative terminals of the corresponding EMU, and their outputs are to the negative terminal of the power source 2.

At the self-monitoring stage, the energy source 2 is turned off, the computing device 1 turns on the MIT, and then, in turn, opens the keys K1 ... KN and supplies the control circuits CK1 and CK2 with strobe signals (resolution circuit). EMU current is recorded by SC and transmit a signal to a computing device. Based on the received signals, the computing device determines the health of the keys and EMU. Upon completion of self-monitoring, the computing device turns off the MIT.

At the stage of regular operation, the device is powered from energy source 2. The computing device issues a command to open the desired key and, at the same time, gate signals to the control circuits SK1 and SK2. The current flows from the positive terminal of the power source 2 through the diode D1, the resistance R1, the key K1.1, the electric explosive network EMU 1.1 and the key K1.3 to the negative terminal of the power source 2, as well as from the positive terminal of the power source 2 through the diode D2, resistance R2 , key K1.2, electric explosive network EMU 1.2 and key K1.4 to the negative terminal of power source 2. At the same time, a voltage drop is created on resistors R1 and R2, sufficient for the optocoupler to trip control circuits SK1 and SK2 and a signal about the passage of current through EMU1. 1 and EMU1.2 is transmitted to computing devices about.

The claimed technical result is achieved by creating a device for detonating pyromedicines containing an energy source, decoupling diodes, electric blasting networks and keys, half of which are connected to the negative polarity of the electric explosive networks by the first terminals and connected to the negative terminal of the energy source by the second terminals; the other half of the keys by the second terminals is connected to the positive polarity of the electric blasting networks, a computing device, the outputs of which are connected to the control inputs of the keys, control circuits, the output of each of which is connected to the corresponding input of the computing device; the gate inputs of the control circuits are connected to the corresponding gate outputs of the computing device, characterized in that current-limiting resistors are introduced into it, the first terminals of which are connected to the first inputs of the control circuits and to the cathodes of the decoupling diodes, the anodes of which are connected to the positive terminal of the energy source; the second terminals of the current-limiting resistors are connected to the second inputs of the control circuits and with the first terminals of the keys in the positive polarity of the electric explosion networks, a low-power current source, the power terminals of which are connected to the plus and minus terminals of the power source, the output of the low-power current source is connected to the power terminals of the control circuits, while a low-power current source is connected by a control input to a computing device.

The technical result achieved is:

- increased reliability due to the separation of keys for the intended purpose - for each EMU its own set of keys;

- selection of the optimal operating current through EMU;

- application of a current control circuit through EMU (control of all keys controlling one EMU at the same time);

- high reliability during control.

Claims (1)

A device for detonating a pyromedicine containing an energy source, decoupling diodes, electric blasting networks and keys, half of which are connected to the negative polarity of electric explosive networks by the first terminals and connected to the negative terminal of the energy source by the second terminals; the other half of the keys by the second terminals is connected to the positive polarity of the electric blasting networks, a computing device, the outputs of which are connected to the control inputs of the keys, control circuits, the output of each of which is connected to the corresponding input of the computing device; the gate inputs of the control circuits are connected to the corresponding gate outputs of the computing device, characterized in that current-limiting resistors are introduced into it, the first terminals of which are connected to the first inputs of the control circuits and to the cathodes of the decoupling diodes, the anodes of which are connected to the positive terminal of the energy source; the second terminals of the current-limiting resistors are connected to the second inputs of the control circuits and with the first terminals of the keys in the positive polarity of the electric explosion networks, a low-power current source, the power terminals of which are connected to the plus and minus terminals of the power source, the output of the low-power current source is connected to the power terminals of the control circuits, while a low-power current source is connected by a control input to a computing device.

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