1 |
用于将至少一根绞合缆索固锁在锚固块中的方法以及系统 |
CN200410047446.6 |
2004-05-26 |
CN1572992A |
2005-02-02 |
J·-P·米塞因; S·笛亚茨 |
一种借助于围绕至少一根绞合缆索(2)且容纳在形成于锚固块(3)中的一截头锥形凹座(5)中的一截头锥形夹具(4)来将所述绞合缆索(2)固锁在一锚固块(3)中的方法,该方法包括以下的步骤:使用一爆破筒装置(6),所述爆破筒装置包括用以由爆破筒的爆炸来推进的一惰性块(8);在爆破筒装置(6)的惰性块与截头锥形夹具(4)之间设置一传力装置(7);以及致动爆破筒以推进惰性块(8)抵靠在传力装置(7)上。 |
2 |
用炸药驱动的冲击撞锤 |
CN94193157.9 |
1994-08-24 |
CN1129419A |
1996-08-21 |
迈克尔·S·鲁福 |
冲击装置包括:冲击力输送头,具有带冲击边的第一端头,冲击头套,用于容纳上述冲击头,并引导上述冲击头运动,连接件,其第一端头刚性连接上述冲击头第二端头及起活塞作用的第二端头;长套,引导上述连接件作往复运动,使上述冲击头在第一位置与第二位置之间运动,爆炸推动上述连接件上述活塞端的机构,使上述冲击头从上述第一位置移到上述第二位置。能量吸收机构,在上述连接件上述活塞端的上述爆炸运动过程中,吸收上述冲击头的能量。 |
3 |
受控冲击救援工具的冲击元件和爆破设备 |
CN201210479285.2 |
2012-11-22 |
CN103134401A |
2013-06-05 |
路易斯·吉拉尔杜; 本杰明·多尔金; 约翰·瑞安; 迈克尔·米尔斯波; 爱德华·德泽里克 |
提供一种受控冲击救援工具的冲击元件和爆破设备,所述冲击元件包括单一本体,通过作用在活塞头上的力,所述单一本体能够驱动到外部元件内。所述单一本体包括头部和轴,所述轴具有与头部整体地耦接的第一端、与第一端相对的第二端以及介于第一端与第二端之间的中心部分。所述轴的第二端能够与活塞头操作地连接,从而限定远离头部定位的接头。所述轴的第一端具有尾部部分、前部部分以及从尾部部分到前部部分的锥体,所述尾部部分的直径与中心部分的直径相似,所述前部部分的直径与头部后端的直径相似。 |
4 |
用于将至少一根绞合缆索固锁在锚固块中的方法以及系统 |
CN200410047446.6 |
2004-05-26 |
CN100359114C |
2008-01-02 |
J·-P·米塞因; S·笛亚茨 |
一种借助于围绕至少一根绞合缆索(2)且容纳在形成于锚固块(3)中的一截头锥形凹座(5)中的一截头锥形夹具(4)来将所述绞合缆索(2)固锁在一锚固块(3)中的方法,该方法包括以下的步骤:使用一爆破筒装置(6),所述爆破筒装置包括用以由爆破筒的爆炸来推进的一惰性块(8);在爆破筒装置(6)的惰性块与截头锥形夹具(4)之间设置一传力装置(7);以及致动爆破筒以推进惰性块(8)抵靠在传力装置(7)上。 |
5 |
将紧固件锤入硬材料中的装置 |
CN91101550.7 |
1991-03-15 |
CN1019650B |
1992-12-30 |
贝克·约瑟夫; 马克·弗里茨; 梅尔·米歇尔 |
将紧固件(12)锤入到硬材料中的装置,它有一个回转式钻孔器(1)和一个螺栓安置器(2)。为了在材料中制作盲孔,第一步,使紧固件(12)转动,必要时重复地锤击紧固件(12)。在此之后,第二步,借助于高压气体将紧固件(12)锤入到材料中的最终位置。 |
6 |
将紧固件锤入硬材料中的装置 |
CN91101550.7 |
1991-03-15 |
CN1054929A |
1991-10-02 |
贝克·约瑟夫; 马克·弗里茨; 梅尔·米歇尔 |
将紧固件(12)锤入到硬材料中的装置,它有一个回转式钻孔器(1)和一个螺栓安置器(2)。为了在材料中制作盲孔,第一步,使紧固件(12)转动,必要时重复地锤击紧固件(12)。在此之后,第二步,借助于高压气体将紧固件(12)锤入到材料中的最终位置。 |
7 |
JPH0117835B2 - |
JP5129481 |
1981-04-07 |
JPH0117835B2 |
1989-04-03 |
FURANTSU BUEHERU; BETERU YOFUUMU |
|
8 |
Device and method for controlled breaching of reinforced concrete |
EP08254024.6 |
2008-12-17 |
EP2072190B1 |
2013-01-23 |
Brennan, Mike; Goldstein, Brett; Giraldo, Luis; Wallace, Rob; Ryan, John; Dezelick, Ed; Millspaugh, Mike |
|
9 |
Gerät zum Eintreiben von Befestigungselementen in harte Werkstoffe |
EP91810108.0 |
1991-02-18 |
EP0449766B1 |
1993-01-07 |
Beck, Josef; Mark, Fritz; Maier, Michael |
|
10 |
CONTROLLED IMPACT RESCUE TOOL IMPACT ELEMENT |
US13303645 |
2011-11-23 |
US20130126199A1 |
2013-05-23 |
Luis Giraldo; Benjamin Dolgin; John Ryan; Michael Millspaugh; Edward Dezelick |
An impact element is provided and includes a single body drivable into an external element by force acting on a piston head. The single body includes a head and a shaft having a first end integrally coupled to the head, a second end opposite the first end and a central portion interposed between the first and second ends. The second end of the shaft is operatively connectable with the piston head to define a joint located remotely from the head. The first end of the shaft has a trailing portion with a diameter similar to that of the central portion, a leading portion with a diameter similar to that of the rear end of the head and a taper from the trailing portion to the leading portion. |
11 |
Tool |
US13281751 |
2011-10-26 |
US20120097410A1 |
2012-04-26 |
Thomas W. Honsa |
One embodiment of a tool generally comprises a skeleton, barrel, valve box assembly, and a throttle assembly. A sleeve may also be included to cover a portion of the skeleton. The skeleton may include a main body with a handle member protruding therefrom, wherein a throttle void may be formed intermediate to the main body and handle member. The throttle assembly may be configured such that the actuation of the throttle is in a direction substantially perpendicular to the handle member, which allows periphery of the handle member to be less than it would in a parallel configuration. A sleeve fashioned of energy absorbing and/or vibration damping material may be positioned over a portion of the skeleton. A handle integrally formed with the sleeve may cover the handle member to increase the ergonomic features of the tool. |
12 |
Device and method for controlled breaching of reinforced concrete |
US12000879 |
2007-12-18 |
US20090151587A1 |
2009-06-18 |
Mike Brennan; Brett Goldstein; Luis Giraldo; Rob Wallace; John Ryan; Ed Dezelick; Mike Millspaugh |
A breaching apparatus includes an impactor element and a self-contained energy source. The self-contained energy source enables the impactor element to impact a first surface of a structure. The impactor element is configured to transmit a localized shock wave through the structure upon impact. The self-contained energy source is capable of accelerating the impactor element to a velocity sufficient to induce spalling at a second surface of the structure. Multiple breaching apparatuses can be supported by a frame to facilitate simultaneous or successive breaching of the structure. The breaching apparatus can be used in a method to breach a concrete structure. |
13 |
Tool for driving fastening elements into hard receiving materials |
US671512 |
1991-03-19 |
US5161624A |
1992-11-10 |
Josef Beck; Fritz Mark; Michael Maier |
Tool for driving fastening elements into a hard receiving material, such as concrete, masonry, rock and the like, has a first device (1) for drilling a fastening element into the hard material and a second device (2) for axially propelling the fastening element into the receiving material after it has been partly drilled in. The first device (1) provides a borehole in the hard receiving material by applying rotary movement to the fastening element, possibly with the addition of axially directed striking force. The second device (2) completes the insertion of the fastening element into the receiving material by directing an axial force produced by high pressure gases against the partly drilled in fastening element. |
14 |
Pavement breaking apparatus |
US703303 |
1985-02-20 |
US4634311A |
1987-01-06 |
John W. Jinnings; Orrin H. Jinnings |
An apparatus for impacting on a hard surface such as concrete so as to break up the hard surface. This apparatus comprises a frame having a bed and an upstanding rail assembly projecting from the bed, a drive shoe, a hammer means attached to the rail assembly so as to be movable in only one direction and operatively connected to the drive shoe for impacting upon the drive shoe. The drive shoe lies adjacent the surface so that upon impact from the hammer means, the shoe forcefully impacts the surface so as to break up the surface. An adjustment means is used to selectively position the drive shoe relative to the hammer means. |
15 |
Ballistic enhanced battering ram |
US13026214 |
2011-02-12 |
US08935839B2 |
2015-01-20 |
Owen Vernon Burt |
A ballistic battering ram device that uses gun powder to produce a striking force. The ballistic battering ram includes a hollow casing, a bolt piston housing housed within the hollow casing, a bolt housed within the bolt piston housing and configured to slide back and forth, and a firing pin attached to the bolt and configured to strike the primer on the explosive casing. When the user strikes the door with the ballistic battering ram a front plate makes contact with the door pushing the bolt piston housing towards a chamber piston. Simultaneously, a retention pin timing spring pushes against a retention pin withdrawing the retention pin from inside the hollow casing. This action may allow the chamber piston to move backwards after firing which may be important for recoil management. |
16 |
Device and method for controlled breaching of reinforced concrete |
US12906443 |
2010-10-18 |
US08342069B2 |
2013-01-01 |
Mike Brennan; Brett Goldstein; Luis Giraldo; Rob Wallace; John Ryan; Ed Dezelick; Mike Millspaugh |
A breaching apparatus includes an impactor element and a self-contained energy source. The self-contained energy source enables the impactor element to impact a first surface of a structure. The impactor element is configured to transmit a localized shock wave through the structure upon impact. The self-contained energy source is capable of accelerating the impactor element to a velocity sufficient to induce spalling at a second surface of the structure. Multiple breaching apparatuses can be supported by a frame to facilitate simultaneous or successive breaching of the structure. The breaching apparatus can be used in a method to breach a concrete structure. |
17 |
BALLISTIC ENHANCED BATTERING RAM |
US13026214 |
2011-02-12 |
US20110203090A1 |
2011-08-25 |
OWEN VERNON BURT |
A ballistic battering ram device that uses gun powder to produce a striking force. The ballistic battering ram includes a hollow casing, a bolt piston housing housed within the hollow casing, a bolt housed within the bolt piston housing and configured to slide back and forth, and a firing pin attached to the bolt and configured to strike the primer on the explosive casing. When the user strikes the door with the ballistic battering ram a front plate makes contact with the door pushing the bolt piston housing towards a chamber piston. Simultaneously, a retention pin timing spring pushes against a retention pin withdrawing the retention pin from inside the hollow casing. This action may allow the chamber piston to move backwards after firing which may be important for recoil management. |
18 |
Device and Method for Controlled Breaching of Reinforced Concrete |
US12906443 |
2010-10-18 |
US20110030539A1 |
2011-02-10 |
Mike Brennan; Brett Goldstein; Luis Giraldo; Rob Wallace; John Ryan; Ed Dezelick; Mike Millspaugh |
A breaching apparatus includes an impactor element and a self-contained energy source. The self-contained energy source enables the impactor element to impact a first surface of a structure. The impactor element is configured to transmit a localized shock wave through the structure upon impact. The self-contained energy source is capable of accelerating the impactor element to a velocity sufficient to induce spalling at a second surface of the structure. Multiple breaching apparatuses can be supported by a frame to facilitate simultaneous or successive breaching of the structure. The breaching apparatus can be used in a method to breach a concrete structure. |
19 |
Method of overlocking at least one strand in an anchoring block and system for overlocking at least one strand in an anchoring block |
US10852779 |
2004-05-25 |
US20050005570A1 |
2005-01-13 |
Jean-Pierre Messein; Sebastien Diaz |
Method of overlooking at least one strand in an anchoring block by means of a frustoconical jaw which surrounds the strand and which is housed in a frustoconical recess made in the block, the process comprising the following steps: an explosive cartridge device comprising an inertia block intended to be propelled by the explosion of the cartridge is used, a force transmission device is arranged between the inertia block of the explosive cartridge device and the frustoconical jaw, and the explosive cartridge is activated to propel the inertia block against the force transmission device. |
20 |
Explosive actuated battering ram |
US111464 |
1993-08-25 |
US5415241A |
1995-05-16 |
Michael S. Ruffu; Paul J. Shemeta |
A battering ram device is provided for allowing quick forcible entry through locked closures. The device includes a ram that slides within and partially out of a housing. The ram is connected to a piston which also slides within a cylindrical housing. The housing is connected to a firing mechanism that uses an explosive cartridge for driving the piston forwardly and subsequently forcing the ram partially out of its housing to deliver a blow to a closure. The piston and cylinder further include an energy absorbing mechanism for retarding the motion of the ram once it penetrates through a closure. The ram can be configured as a thin rectangular piece for allowing the ram to fit between a door knob and jamb of most doors. Other ram configurations include a punch for effectively knocking out a door lock of a steel or metal door, and a shearing head for effectively cutting a steel cable, bar, or wire. |