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    • 1. 发明申请
    • GLAZING SHATTERING DEVICE
    • WO2023281452A1
    • 2023-01-12
    • PCT/IB2022/056325
    • 2022-07-08
    • RAILWAY WINDOWS S.R.L.
    • ALLOCCA, Michele Rosario
    • A62B3/00B25D17/00B60R21/01
    • A glazing shattering device (10), wherein the possible operation reversibility is guaranteed, allowing to repeat a glazing shattering impact or to program several impacts in a selected number of devices connected to the safety system, comprises: a supporting frame (6) having a casing with open side, apt to be positioned facing towards a glazing (1) to be shattered; at least a hammer (2) provided with a hammer head (11) comprising at least a ferrule (12) to shatter said glazing (1), which is hinged on said supporting frame, thereby it is movable between a respective rest position, in which said at least a ferrule (12) is spaced apart from the glazing (1), and a break position, in which said at least a ferrule (12) interferes with said glazing (1), the hammer (2) comprising a preloaded elastic element (14) which keeps it in said rest position when it is not stressed; and a linear actuator (3), inserted in said casing, having a piston head (17) snap movable between a respective retracted position, wherein it does not interfere with said at least a hammer (2), and an interference position, wherein said piston head (17) pushes said at least a hammer (2) through said open side in said break position, wherein a mechanism for returning the piston head (17) in said respective rest position is provided.
    • 9. 发明申请
    • SYSTEM AND METHOD FOR ASSESSING THE EFFICIENCY OF A DRILLING PROCESS
    • 评估钻井过程效率的系统和方法
    • WO2017217905A1
    • 2017-12-21
    • PCT/SE2017/050538
    • 2017-05-19
    • ATLAS COPCO ROCK DRILLS AB
    • ENBLOM, SamuelJAKOBSSON, ErikGÖTHBERG, Mattias
    • E21B44/00B25D17/00G07C3/00
    • The invention related to a method for determining efficiency of a drilling process comprising the steps of: transferring (s510) energy via a tool member (232, 234) to the material in which drilling is to be performed by means of a drilling configuration (299); - detecting (s520) waves which are propagating in said tool member (232, 234) of said drilling configuration (299) during drilling as a result of energy provision; - detecting (s520) said waves by means of at least two sensor means (310:1; 310:2) arranged on mutually opposite sides of said tool member (232, 234) adjacent to, on a certain distance from, said tool member (232, 234), which sensor means (310:1; 310:2) are based on inductive and/or capacitive detection of said waves in said tool member (232, 234); and - based on results of said detection, determining (s530) said efficiency of said drilling process. The invention also relates to a computer program product comprising program code (P); a system (299), a drilling rig (100) which is equipped with the system and a detection device of such a system.
    • 本发明涉及一种用于确定钻井过程的效率的方法,其包括以下步骤:经由工具构件(232,234)将能量转移(S510)到将要执行钻井的材料 借助于钻井配置(299); - 检测(s520)由于能量提供而在钻探期间在所述钻井配置(299)的所述工具构件(232,234)中传播的波; - 借助于布置在所述工具构件(232,234)的相互相对侧上的至少两个传感器装置(310:1; 310:2)检测(s520)所述波,所述传感器装置与所述工具构件 (232,234),所述传感器装置(310:1; 310:2)基于对所述工具构件(232,234)中的所述波的感应和/或电容检测。 以及 - 基于所述检测的结果,确定(s530)所述钻孔过程的所述效率。 本发明还涉及一种包括程序代码(P)的计算机程序产品; 系统(299),配备有该系统和该系统的检测装置的钻机(100)。
    • 10. 发明申请
    • POWER TOOL
    • 电动工具
    • WO2017163037A1
    • 2017-09-28
    • PCT/GB2017/050773
    • 2017-03-20
    • WEBSTER TECHNOLOGIES LIMITED
    • WEBSTER, Ian
    • B25D17/06B25D17/24E02D7/10B25D17/00
    • B25D17/06B25D17/24B25D2216/0015B25D2216/0046B25D2217/0019B25D2217/0073B25D2222/57B25D2250/121
    • A power tool (30) comprising a tool carrier (34) for mounting an impact tool (36). The tool carrier has a base member (38) aligned with an operational axis. The base member has a head end (40) for receiving impact energy, a foot end (42) at an opposite end of the tool carrier, the foot end being provided with a tool mount (44) configured to transmit the impact energy to the impact tool, and a casing engagement feature (46) provided between the head end and foot end. There is also provided a first casing module (50), at least part of the tool carrier being located within the first casing module. The casing module is provided with a tool carrier engagement feature (52) complementary in shape to, and for interlocking engagement with, the tool carrier casing engagement feature. This prevents rotation of the tool carrier relative to the first casing module around the operational axis, and permits relative movement between the tool carrier and the first casing module along the operational axis.
    • 包括用于安装冲击工具(36)的工具托架(34)的电动工具(30)。 刀架具有与操作轴线对齐的基座构件(38)。 基座构件具有用于接收冲击能量的头端(40),在刀架的相对端处的脚端(42),脚端设置有工具安装座(44),该工具安装座构造成将冲击能量传递给 冲击工具,以及设置在头端和脚端之间的壳体接合部件(46)。 还提供了第一壳体模块(50),该工具载体的至少一部分位于第一壳体模块内。 所述壳体模块设置有与所述刀架运载件壳体接合特征形状互补并且与所述刀架运载件壳体接合特征互锁接合的刀架接合特征(52)。 这防止刀架相对于第一壳体模块围绕操作轴线转动,并且允许刀架和第一壳体模块之间沿操作轴线相对运动。