RU2000114819A - KNOCKING SYSTEM FOR INITIATING A KNOCKING MATERIAL - Google Patents

Claims (17)

1. A detonation system controlled by electromagnetic induction for non-contact initiation of an energetic substance in a hole and comprising an automated radio-controlled charging module (ARCH module) connected to an energetic substance and placed in a hole formed in a solid material, said ARCH module being made without permanent own power source and contains a power circuit to obtain using electromagnetic induction of working power from a remotely generated electromagnet the final field, and the specified power circuit is configured to provide operating power for the ARCH module and has a structure configured to generate a detonation current supplied to the energy material and means for receiving and decoding radio-transmitted control signals, including the FIRE code (detonation), when verified, the detonation current is supplied to the energy material, the bottomhole rod for jamming the hole, in which the energy material and the ARCH module are placed, and the block STUDIO for transmitting by radio said control signals comprising a winding for generating electromagnetic fields mounted on or in the bottomhole rod for providing operating power transmission ARCH-module by electromagnetic induction.  2. The system according to p. 1, characterized in that the means for receiving and decoding the control signals is configured to extract and decode the control signal from the specified electromagnetic field.  3. The system according to claim 2, characterized in that said ARCH module further includes an output switch that provides the passage of the specified detonation current to initiate the detonating material, and configured to allow the passage of current directed to the detonating material through a short circuit to receiving and verifying said FIRE code and opening thereafter said short circuit to supply a detonation current to the detonating material.  4. The system of claim 3, wherein the converter unit includes a power source for supplying power to an electromagnetic field generating means for generating said electromagnetic field and a radio transmitter means for transmitting said control signals to the ARCH module.  5. The system of claim 4, wherein said converter unit further includes means for superimposing said control signals onto said electromagnetic field for transmitting said radio transmitter to said ARCH module of said electromagnetic field and control signals.  6. The system according to claim 4, characterized in that said converter unit includes a switch of operating modes between LOCAL (local) and REMOTE (remote) modes, configured to manually enter commands by a user in the LOCAL operating mode to said converter unit for radio transmission to the specified ARCH-module, and in the REMOTE operating mode, entering commands to the converter unit through the remote controller unit.  7. The system according to claim 6, characterized in that said converter unit comprises means for manually entering commands and a timer means, both of which are associated with said mode switch, when switching to LOCAL mode, the user must enter valid the identification number recognized by the converter unit during a predetermined period of time counted by the timer means for processing by the converter unit of subsequent user commands And when there is no input the correct identification number for a specified period of time to automatically disconnect the inverter unit and blocking commands entered by the user during a second period of time timed by the timer means.  8. The system according to claim 7, characterized in that said converter unit comprises an ARM (start) switch configured to operate when the converter unit is in LOCAL operation mode, and the electromagnetic field generating means is configured to generate said electromagnetic field after activating said switch.  9. The system of claim 8, wherein said transducer block comprises a FIRE switch (detonation) configured to operate when the transducer is in LOCAL operation mode, while the transducer block is configured to transmit the FIRE code to the ARCH module when activated the specified switch for a predetermined period of time after the activation of the ARM switch.  10. The system according to p. 6, characterized in that it further includes a remote controller unit, configured to transmit user commands to the specified converter unit from a point remote from it.  11. The system of claim 10, wherein said remote controller unit includes means for manually entering commands by a user to enter a valid identification number for a predetermined period of time and establish a remote channel for the radio channel with said transmitter unit.  12. The system of claim 11, wherein the remote controller unit includes processor means for generating a unique identification codeword continuously transmitted until an acknowledgment signal corresponding to said identification codeword is received from said converter unit, and is configured to transition into RESET mode if there is no specified confirmation signal for a predetermined period of time in which the user must enter stoverny identification number to reinitiate a radio link with said transducer unit.  13. The system of claim 12, wherein said remote controller unit further includes an ARM switch, the activation of which, in the case of an active radio channel with said converter unit, enables the remote unit to transmit the ARM code to the converter unit, the receipt of which causes generation of said a converter unit of said electromagnetic field.  14. The system of claim 13, wherein said converter unit is configured to transmit a confirmation signal to said remote controller unit upon receipt of an ARM code and then initiating its own timer means for counting the first time period during which it must receive a FIRE code from the specified remote controller unit, and if the specified FIRE code is not received during the first period of automatic shutdown for the second period of time.  15. The system according to p. 14, characterized in that the remote control unit includes a FIRE switch, activation of which ensures that the remote control unit transfers the FIRE code to the specified converter unit, which, after verified receipt of the code, transmits the FIRE code to the specified ARCH module.  16. The system of claim 15, wherein the FIRE code transmitted by the remote controller unit to the converter unit is different from the FIRE code transmitted by the converter unit to the ARCH module.  17. A detonation system controlled by electromagnetic induction to initiate a detonating material and including an automated radio-controlled charging module (ARCH module) for supplying a detonation current to the detonating material, said ARCH module being made without a constant power source and contains a power circuit for obtaining by means of electromagnetic induction of operating power from the electromagnetic field generated at a distance from the ARCH module, and the specified power circuit is made with possible providing operating power for the ARCH-Stu module and detonation current, and means for receiving and decoding radio transmitted control signals by including FIRE code, the verified receipt of which ARCH-supply unit performs detonation current to the detonatable material and its initiation.