Propellant holder for an explosion-driven setting tool and an explosion-driven setting tool
Abstract
An explosion-driven setting tool includes a setting mechanism ( 12 ) driven by a propellant ( 23 ), an ignition unit ( 18 ) for igniting the propellant ( 23 ), a receptacle ( 15 ) for receiving a propellant holder ( 20 ), a data communication interface ( 31 ) for receiving and transmitting data of the propellant holder ( 20 ), and a data processing unit ( 30 ) for receiving data transmitted by the data communication interface ( 31 ) and connected with a display ( 50 ) for displaying the propellant supply level ( 27 ) of the propellant ( 23 ) in the propellant holder having a housing ( 21 ) with an interior space ( 22 ) for receiving the propellant ( 23 ), and a data storage identification unit ( 40 ) in which the propellant supply level ( 27 ) is stored for being read-out.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A propellant holder for a setting tool, comprising a housing ( 21 ) having an interior space ( 22 ) for receiving propellant ( 23 ); and a data storage identification unit ( 40 ) in which a propellant supply level ( 27 ) is stored for being read-out.
2 . A propellant holder according to claim 1 , further comprising a data communication interface ( 41 ) connected with the data storage identification unit ( 40 ).
3 . A propellant holder according to claim 1 , wherein the data storage identification unit ( 40 ) is formed as EEPROM ( 45 ).
4 . A propellant holder according to claim 2 , wherein the data communication interface ( 41 ) is formed as an antenna.
5 . A propellant holder according to claim 4 , wherein the antenna is formed as a transponder antenna.
6 . A propellant holder according to claim 2 , wherein the data communication interface ( 41 ) is formed as a contact element.
7 . A propellant holder according to claim 1 , wherein the data storage identification unit ( 40 ) is formed as a magnetic strip ( 44 ).
8 . A propellant holder according to claim 1 , wherein the propellant ( 23 ) is formed of solid propellant charges ( 25 ).
9 . A propellant holder according to claim 1 , wherein the propellant holder is formed as a pressure container for at least one of gaseous fuel and liquid fueld ( 24 ).
10 . An explosion-driven setting tool, comprising a setting mechanism ( 12 ) driven by a propellant ( 23 ); ignition means ( 18 ) for igniting the propellant ( 23 ); a receptacle ( 15 ) for receiving a holder ( 20 ); a display ( 50 ) for displaying a propellant supply level ( 27 ) in the propellant holder ( 20 ); a data communication interface ( 31 ) for receiving and transmitting data of the propellant holder ( 20 ); and a data processing unit ( 30 ) operationally connected with the data communication interface ( 31 ) and the display ( 50 ).
11 . An explosion-driven setting tool according to claim 10 , wherein the data processing unit ( 30 ) is connected with the ignition means ( 18 ) for controlling the same.
12 . An explosion-driven setting tool according to claim 11 , wherein the data processing unit ( 30 ) actuates the ignition means ( 18 ) for igniting the propellant when following conditions are met:
the data processing unit ( 30 ) receives identification data which are read-out from a data storage identification unit ( 4 ) of the propellant holder ( 20 ) received in the receptacle ( 15 ) of the setting tool and which are recognized by the data processing unit ( 30 ) as authorized identification data of a propellant ( 23 ) suitable for the setting tool ( 10 ); and propellant supply level data ( 27 ) read-out from the data storage identification means ( 40 ) and communicated to the data processing unit ( 30 ) indicate that the propellant holder ( 20 ) is not empty.
13 . An explosion-driven setting tool according to claim 10 , wherein the data communication interface ( 31 ) is located in a region of the propellant holder receptacle ( 15 ).
14 . An explosion-driven setting tool according to claim 10 , wherein the data communication interface ( 31 ) is formed as an antenna ( 32 ).
15 . An explosion-driven setting tool according to claim 10 , wherein the data communication interface ( 31 ) is formed as a mating contact element ( 33 ).
16 . An explosion-driven setting tool according to claim 10 , wherein the data communication interface is formed as a magnetic strip reader ( 34 ).
17 . An explosion-driven setting tool, comprising a setting mechanism ( 12 ) driven by a propellant ( 23 ); ignition means ( 18 ) for igniting the propellant ( 23 ); a receptacle ( 15 ) for receiving a propellant holder ( 20 ) which has a housing ( 21 ) with an interior space ( 22 ) for receiving propellant ( 23 ), and a data storage identification unit ( 40 ) in which a propellant supply level ( 27 ) is stored for being read-out; a display ( 50 ) for displaying the propellant supply level ( 27 ); a data communication interface ( 31 ) for receiving identification data read-out from the data storage identification unit ( 40 ); and a data processing unit ( 30 ) for receiving the identification data from the data communication interface ( 31 ) and connected with the display ( 50 ) for communicating the propellant supply level ( 27 ) thereto.Join the waitlist — get patent alerts
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