RU2066443C1 - Setting device of electronic time fuze with outside control - Google Patents

Abstract

FIELD: blasting operations. SUBSTANCE: increased extent of control and testing of operation of setting device are achieved by insertion into its circuit of change-over switch 16 of selection of fault, two relays 17 and 18 with two groups of switching-over contacts, start button 19, change-over switch 20, additional unit 21 of resistance decoupling, counter 22, shift register 23, decoder 24, delay switch 25, generator 26, two flip-flops 27, 28, additional panel 29, OR-ELSE gate 30, duration former 31 and amplifier 32. Given elements coupled to other elements of circuit provide for control over outputs of setting device, its input, interrogation former 12, level converter 10 and matching unit 11 and for test of operation under emergency conditions in circuits of formation of setting signals, of coupling of logic control unit 4 with reception-transmission unit 5 and of unit 13 of resistance decoupling in circuit of interrogation former 12. EFFECT: increased extent of control and testing of operation under emergency situations. 2 dwg

Description

 The invention relates to the field of blasting and can be used in devices for installing electronic remote fuses.

 The aim of the invention is to increase the depth of control and verification of the installer in emergency situations.

 This goal is achieved by the fact that in the installer of an electronically-remote fuse with external control, comprising a mode switch, a signal shaper of the installation, the output of which is connected to the input of the control unit, to which the logic control unit with the flight time computer, the transceiver, and the transceiver are connected in series control and scoreboard, N range setting switches, switch switch, level converter, matching device, query driver, set galvanic isolation properties, two series-connected windings of the transmitting device, the beginning of the second winding of which is additionally connected to the second input of the control unit, the third, fourth and fifth inputs of which are connected, respectively, with the second and third outputs of the signal conditioning system, with the output of the galvanic isolation device connected with the first input of the setup signal generator, the second input of which is connected to the second output of the flight time calculator, the third and fourth output, as well as the second, second, third and fourth inputs of which are connected, respectively, with the sixth input of the control unit, with the input of the query generator, with the output of the control unit, with the output of the matching device and with the output of the level converter, with the second output of the transceiver, the third output of which is connected to the second input of the control unit and with the input of the switch switch, 1.N, N, N + 1, the outputs of which are connected to the switching contacts of the mode switch and N range setting switches, M of the same contacts of which they are connected to each other and to the second input of the transceiver device, the first contact of the mode switch is connected to one of the M contacts of the range setting switches, a malfunction selection switch, two relays with two groups of switching contacts, a start button, an electronic remote fuse type switch, an additional device are introduced isolation, counter, shift register, decoder, delay switch, generator, two triggers, additional display connected in series exclusive OR circuit, duration shaper and amplifier, the output of which is connected to the input of the galvanic isolation device, the first output of the malfunction selection switch is connected to the third input of the transceiver device and to the fifth output of the flight time calculator, the sixth output of which is connected to the input of the additional board, the second and third outputs malfunction selection switch connected to the winding of the first and second relay, respectively, the beginning of the first winding of the transmitting device is connected through properly connected normally closed contacts of the first groups of both relays with the second output of the setup signal generator, the third output of which is connected to the end of the second winding of the transmitting device through series-connected normally closed contacts of the second groups of the first and second relays, normally open contacts of the first and second groups of the first the relays are interconnected and with the common output of the installer, the input of the level converter is connected to the switching contact of the start button, normally open contact which connected to the installer’s power output, an electronic fuse type switch output is connected to the input of the matching device, the output of the query driver through an additional galvanic isolation device is connected to the input S of the first trigger, the inverse output of which is connected to the inputs R of the counter and the shift register and to the second input of the shaper duration, the third input of which is connected to the first output of the generator, the second output of which is connected to the counting input of the counter, the first, second and third outputs of the cat They are connected, respectively, with the inputs C of the shift register, S of the second trigger and the input of the decoder, the first second and third outputs of which are connected, respectively, with the input R of the first trigger, normally-closed and normally-open contacts of the delay switch, the switching contact of which is connected to the input S of the second trigger, the direct output of which is connected to the input L of the shift register, the two outputs of which are connected to the inputs of the exclusive OR circuit.

The invention is illustrated by drawings, which show:
in FIG. 1 block diagram of the installer of an electronic remote fuse with external control;
in FIG. 2 diagrams of the work of the installer of an electronic remote fuse with external control.

 The EDV installer with external control contains an operating mode switch 1, an installation signal shaper 2, the output of which is connected to the input of the control unit 3. The control unit 3 is connected in series with a logical control unit 4 with a flight time computer, a transceiver 5, a control unit 6, and a display 7.

 The device also contains N range-setting switches 8, a switch switch 9, a level converter 10, a matching device 11, a shaper 12, a galvanic isolation device 13, two series-connected windings 14, 15 of the transmitting device.

 The beginning of the second winding 15 is additionally connected to the second input of the control unit 3, the third, fourth and fifth inputs of which are connected, respectively, to the second and third outputs of the signal conditioning system 2, with the output of the galvanic isolation device 13 connected to the first input of the signal conditioning system 2. The second input of the signal conditioning apparatus 2 is connected to the second output of the flight time calculator of the logical control unit 4, the third and fourth output, as well as the first, second, third and fourth inputs of which о are connected, respectively, with the sixth input of the control unit 3, with the input of the request generator 12, with the output of the control unit 3, with the output of the matching device 11 and with the output of the level converter 10, with the second output of the transceiver device 5. The third output of the transceiver device 5 is connected to the second input of the control unit 6 and with the input of the switch switch 9, (1.N, N, N + 1) the outputs of which are connected to the switching contacts of the mode switch 1 and N of the range setting switches 8, M of the same contacts in parallel connected to each other and to the second input of the transceiver device 5. The first contact of the mode 1 switch is connected to one of the M contacts of the range setting switches 8. Additionally, the installer contains a fault selection switch 16, two relays 17, 18 with two groups of switching contacts, a start button 19, switch type EDV 20, additional galvanic isolation device 21, counter 22, shift register 23, decoder 24, delay switch 25, generator 26, two triggers 27, 28, additional display 29 connected after An exclusive OR circuit 30, a shaper of duration 31, and an amplifier 32 are required. The output of the amplifier 32 is connected to the input of the galvanic isolation device 13. The first output of the fault selection switch 16 is connected to the third input of the transceiver device 5 and to the fifth output of the flight time calculator of the logical control unit 4, sixth the output of which is connected to the input of the additional board 29. The second and third outputs of the fault selection switch 16 are connected to the winding of the first and 17 and second 18 relays, respectively, the beginning of the winding 14 of the transmitting device is connected via series-connected normally closed contacts of the first groups of both relays 17, 18 to the second output of the signal conditioning system 2, the third output of which is connected to the end of the second winding 15 of the transmitting device through series-connected normally closed contacts of the second groups of the first and the second relay 17, 18. Normally open contacts of the first and second groups of the first relay 17 are interconnected and with the common output of the installer. The input of the level converter 10 is connected to the switching contact of the start button 19, the normally open contact of which is connected to the power supply terminal of the installer, the output of the EDV type switch 20 is connected to the input of the matching device 11. The output of the request generator 12 through an additional galvanic isolation device 21 is connected to the input S of the first trigger 27, the inverse output of which is connected to the inputs R of the counter 22 and the shift register 23 and to the second input of the shaper of duration 31, the third input of which is connected to the first output of the generator torus 26, the second output of which is connected to the counting input of the counter 22, the first, second and third outputs of which are connected, respectively, with the inputs C of the shift register 23, S of the second trigger 28 and the input of the decoder 24, the first, second and third outputs of which are connected, respectively , with the input R of the first trigger 27, the normally-closed and normally-open contacts of the delay switch 25, the switching contact of which is connected to the input S of the second trigger 28, the direct output of which is connected to the input D of the shift register 23, the two outputs of which are connected Nena with input XOR circuit 30.

 The installer works as follows.

 The logical control unit 4 sets all the devices to their initial state and, using the matching device 11, analyzes the signal of the selected projectile type with an EDV switch of the EDV type 20. If a projectile without EDV is selected, the logical control unit 4 transmits information to the control unit 6 through the transceiver 5 redemption of the scoreboard 7. In this case, the logical control unit 4 controls the correct transmission through the transceiver 5 in response. If the fault selection switch 16 is in the off state, then the transmission is made, and if in the position at which its signal 1 is “common”, then the logical control unit 4, having detected the absence of transmission by the response word checksum, forms a message on the additional display 29 about the malfunction. If the EDV 20 switch is set to the "EDV" position, and the fault selection switch 16 is set to the "Off" position, then the logical control unit 4 through the transceiver 5 using the switch switch 9 sequentially polls the switches for operating mode 1 and setting range 8, reading information about the operating mode - automatic or manual and about the entered range and remembers this information. Next, the logical control unit 4 analyzes the installation mode.

 In automatic mode, the device operates as follows.

 The logical control unit 4 analyzes using the level 10 converter the state of the start button 19.

 If the button is pressed, i.e. If the Start signal is given, then, at the signal of the logical control unit 4, the request generator 12 gives a pulse, which, through the additional galvanic isolation device 21, sets the first trigger 27 to a single state. The signal at the inverse output (see Fig. 2a) of the trigger 27 allows in this case the operation of the counter 22, the shift register 23 and the shaper duration 31.

 At the first, second and third outputs of the decoder 24, time pulses are generated, delayed at T1, T2 and T3, respectively (see Fig. 2b, c, d).

 Depending on the position of the delay switch 25, the second trigger 28 is set to a single state with delay TK or T2. The pulses from the second output of the counter 22 return the trigger 28 to its original state, while the generated pulse duration is the same.

 The pulses from the first output of the counter 22 advance the pulses along the shift register 23 (see Fig. 2e, g) and a two-pulse code is generated at the output of the exclusive OR 30 circuit (see Fig. 2h) with an interval equal to the pulse duration of trigger 28. The code pulses are generated by duration by the shaper of duration 31 and through the amplifier 32 and the galvanic isolation device 13 enter the control unit 3 and the signal conditioning unit 2. At the same time, the logical control unit 4 pre-sets the required operating mode of the signal conditioning unit 2 and prepares for operation the control unit 3. The pulses of the code generated by the power of the signal generator of the installation 2 are received in the control unit 3 to control the signals both before winding 14 and after it. After the time required for the passage of the two-pulse code, the logical control unit 4, according to the information of the control unit 3, determines the serviceability of the signal shaper of the installation 2, winding 14 and the communication line connecting them. If the two-pulse code arrives with a delay in the specification, then the logical control unit 4 fixes the malfunction.

 If the two-pulse code arrives with a delay of T2, then the logic control unit 4 prepares the control unit 3 for a new measurement and gives the command to the signal conditioner of installation 2 to generate pulses in the winding 15.

 These pulses enter the control unit 3 both before winding 15, and after it.

 When the fault selection switch 16 is set to the position at which the relay 17 or 18 is turned on, and the circuits to the windings 14 and 15 are either connected to the common terminal, or they break.

 In this case, the pulses from the second and third outputs of the signal shaper of the installation 2 are received in the control unit, but from the common point of the windings 14 and 15 are not received. In these cases, the logical control unit 4 according to information from the control unit 3 determines the malfunction of the winding 14 and the communication line with the driver of the installation 2 or winding 15 and its communication line. Work on this “Start” signal is terminated, and information about the source of the malfunction is displayed on the scoreboard 7.

 In the absence of an emergency (fault selection switch 16 is in the off state), the logic control unit 4 provides a signal to turn on the power source in the EDF using the signal conditioning apparatus 2 and the windings 14 and 15 of the transmitting device.

 After a certain time after the end of the formation of this signal, the logical control unit 4 repeats the formation of the request pulse. The formation of a two-pulse code and its passage through the signal shaper of unit 2 is carried out similarly to the above.

 With positive results of monitoring the passage of this code, information on the completion of installation is transmitted on the scoreboard 7, and with a negative source of failure.

 In the manual mode of the installer’s operation, the formation of a two-pulse code is performed by the signal generator of installation 2 under the control of the logic control unit 4 and the request generator 12, galvanic isolation device 13, additional galvanic isolation device 21, amplifier 32, etc. are not involved in the operation.

 The task of the emergency, its location and work in this situation, the installer of the EDV is carried out similarly to the automatic mode.

Claims (1)

 An installer of an electronic remote fuse with external control, comprising an operation switch, an installation signal generator, the output of which is connected to the input of the control unit, to which are connected in series a logical control unit with a flight time computer, a transceiver, a control unit and a display panel, N installation switches, range, switch switch, level converter, matching device, query driver, galvanic isolation device, two last connected windings of the transmitting device, the beginning of the second winding of which is additionally connected to the second input of the control unit, the third, fourth and fifth inputs of which are connected respectively to the second and third inputs of the setup signal generator, the output of the galvanic isolation device connected to the first input of the setup signal generator, the second the input of which is connected to the second output of the flight time computer, the third and fourth outputs, as well as the first, second, third and fourth inputs of which They are connected respectively with the sixth input of the control unit, the input of the query generator, the input of the control unit, the output of the matching device and the output of the level converter, the second output of the transceiver device, the third output of which is connected to the second input of the control unit and the input of the switch switch, 1.N, N, N + 1 outputs of which are connected to the switching contacts of the mode switch and N range setting switches, M contacts of the same name are connected in parallel to each other and to the second input of the receiver of the transmitting device, the first contact of the mode switch is connected to one of the M contacts of the range setting switches, characterized in that, in order to increase the depth of control and check the operation of the installer in emergency situations, a fault selection switch, two relays with two groups of switching contacts are inserted into it, start button, electronic fuse type switch, galvanic isolation accessory, counter, shift register, decoder, delay switch, generator, engine a trigger, an additional display, connected in series by an EXCLUSIVE OR circuit, a duration driver and an amplifier whose output is connected to the input of the galvanic isolation device, the first output of the malfunction selection switch is connected to the third input of the transceiver device and the fifth output of the flight time calculator, the sixth output of which is connected to the input of the additional the board, the second and third outputs of the malfunction selection switch are connected to the winding of the first and second relays, respectively, the second winding of the transmitting device is connected via series-connected normally closed contacts of the first groups of both relays to the second output of the setup signal conditioner, the third output of which is connected to the end of the second winding of the transmitting device through series-connected normally closed contacts of the second groups of the first and second relays, normally open contacts of the first and the second groups of the first relay are interconnected and with the common output of the installer, the input of the level converter is connected to a switching by the start button contact, the normally open contact of which is connected to the installer’s power output, the output of the electronic fuse type switch is connected to the input of the matching device, the output of the shaper through an additional galvanic isolation device is connected to the input S of the first trigger, the inverse output of which is connected to the inputs R of the counter and the shift register and the second input of the shaper duration, the third input of which is connected to the first output of the generator, the second output of which is connected to counter input of the counter, the first, second and third outputs of which are connected respectively to the inputs C of the shift register, S of the second trigger and the decoder input, the first, second and third outputs of which are connected respectively to the input R of the first trigger, normally closed and normally open contacts of the delay switch, whose switching contact is connected to the input S of the second trigger, the direct output of which is connected to the input D of the shift register, the two outputs of which are connected to the inputs of the EXCLUSIVE OR circuit.

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