RU2002108721A - DETONATOR - Google Patents

Claims (24)

1. An electronic detonator containing a flaming charge, a battery for supplying a flaming current to initiate a flaming charge, and an electronic circuit for controlling said supply of a flaming current, wherein the battery is movably mounted in the detonator from the rest position to the activated position in which the battery is connected to supply said flammable current in a controlled manner, and means are provided for activating the battery in response to an external action by pyrotechnic waiting for the battery to move from the rest position to the activated position, in which the battery has the shape of a plunger or piston, and is installed in the corresponding channel in the detonator, the channel being located in a tubular element that is dimensionally stable and resistant to mechanical stress and which has a longitudinal the size is preferably large enough to match the longitudinal size of the detonator, and the battery is mounted to move in the said channel from its rest position to the activated position against the action of the frictional forces. 2. The detonator according to claim 1, wherein said means for activating the battery comprise a pyrotechnic ignition tube connected to the detonator. 3. The detonator according to claim 1 or 2, in which the means for activating the battery contain a moving charge for the battery, and the moving charge is located in the detonator. 4. The detonator according to claims 2 and 3, wherein the ignition tube is connected to initiate said transfer charge. 5. The detonator according to claim 3 or 4, in which the moving charge is installed in the chamber for movement, which faces the activating part of the battery with the possibility of its involvement and causing movement by means of the moving pressure that is created in the chamber to move by means of the moving charge. 6. The detonator according to claims 4 and 5, in which a check valve is installed near the place of attachment of the ignition tube to the chamber for movement with the possibility of preventing the discharge of the moving pressure created in the chamber for movement through the ignition tube. 7. The detonator according to claim 5 or 6, in which the camera for movement is located in the continuation of the tubular element aligned along the axis with the said channel. 8. The detonator according to any one of paragraphs.5-7, in which the walls of the tubular element and the chamber for movement are made in the form of a pressure vessel with the ability to withstand a predetermined moving pressure. 9. The detonator according to any one of the preceding paragraphs, in which the channel in the detonator is designed so that when the battery is in its activated position, there is free space in front of the battery in which gas thrown forward by the battery can be compressed. 10. The detonator according to any one of the preceding paragraphs, which provides for an increase in friction after the battery has passed the initial distance from the rest position. 11. The detonator according to any one of the preceding paragraphs, which provides for a gradual increase in the friction force to stop the movement of the battery at the end of the movement process. 12. The detonator according to any one of the preceding paragraphs, containing elements for generating friction forces located on the channel wall and / or on the surface of the battery facing the channel wall. 13. The detonator of claim 12, wherein said elements for generating friction forces comprise protrusions on a channel wall for interfacing with a battery surface facing the channel wall. 14. The detonator of claim 13, wherein the protrusions comprise corrugations, preferably parallel to the direction of movement of the battery. 15. The detonator according to item 13 or 14, in which the height of the protrusions from the channel wall increases near the end of the channel, where the activated position of the battery. 16. The detonator according to any one of paragraphs.12-15, in which the frictional force that counteracts the movement is selected with the possibility of preventing the battery from moving to an activated position under the influence of a driving force with acceleration in the direction of movement at least exceeding a predetermined level. 17. The detonator according to any one of the preceding paragraphs, in which the battery has at least one contact terminal, which in the non-activated position of the battery is coated with insulating material and which in the activated position of the battery is adapted so that the insulating material is pierced by interacting contacting means in the detonator . 18. The detonator according to claim 17, in which the contact terminal coated with insulating material is located on the side of the battery channel and in which the interacting contacting means are protruding in the channel so that when the battery is in the activated position, the contacting means pierce the insulation material of the contact terminal and are in contact with the contact terminal. 19. The detonator according to claim 17 or any one of claims 12 to 16, wherein said contacting means is included in said element to create friction. 20. The detonator according to any one of paragraphs.17-19, in which the battery on the side of its front end is equipped with a contact terminal coated with insulating material, and which is adapted to contact when the battery is in its activated position, by means of a contact rod piercing the insulating material and located in the channel. 21. The detonator according to any one of the preceding paragraphs, further comprising a contact device in a circuit for supplying flammable current from the battery, the contact device being opened in the resting position and closed in the activated position, and the contact device is adapted to move from the resting position to the activated position in response to pyrotechnic activating effect. 22. The detonator according to item 21, in which the direction of movement of the battery from the rest position to the activated position and the direction of movement of the contact device, when switching from an open state to a closed state, are essentially separated and directed preferably at least enough opposite or enough orthogonally. 23. The detonator according to any one of the preceding paragraphs, in which the movement of the battery from the rest position to the activated position occurs in the direction of the igniting charge, and the distance of movement is preferably at least about 1 cm 24. The detonator according to any one of the preceding paragraphs, in which the battery in its resting position is completely encapsulated in an electrically isolated manner.