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    • 2. 发明申请
    • APPARATUS FOR ROCK REINFORCEMENT
    • WO2021181140A1
    • 2021-09-16
    • PCT/IB2020/052320
    • 2020-03-13
    • TENAX S.P.A.
    • FIORATTI, Stefano
    • E21C41/00E21C47/10E21D20/02E21C41/26
    • Rock reinforcement apparatus (1), in particular to be used in a rocky quarry, preferably in an ornamental natural stone quarry, characterized in that it comprises: - a cartridge (2) with longitudinal development and comprising at least one chamber (5, 7) inside which at least one component in the liquid/fluid state is contained, said cartridge being configured to be inserted, along its longitudinal development, inside a longitudinal development hole (10) intended to be obtained in a portion of rock (3) to be reinforced, said cartridge (2) comprising a first end (9) which, with the cartridge inserted in the hole (10), is destined to be more inside said hole (10) with respect to the second end (15), which is opposite to the first (9), - a piston (20) which is configured to be inserted and slide longitudinally inside said cartridge (2) from said second end (15) towards said first end (9), so as to push at least one component in the liquid/fluid state to emerge from said cartridge (2) so that, alone or mixed with at least one other component in the liquid/fluid state contained in said cartridge (2), it defines an anchoring product (26) which is intended to fill the space (27) between the cartridge (2) and the hole (10), - said cartridge (2) and/or said piston (20) comprise and/or define at least one passage (18) which is configured to allow said anchoring product (26), which is intended to fill the space (27) between the cartridge (2) and the hole (10), to enter inside the cartridge itself, thus filling it at least in part.
    • 3. 发明申请
    • BLASTING TECHNIQUE
    • WO2019203731A1
    • 2019-10-24
    • PCT/SG2019/050217
    • 2019-04-17
    • ORICA INTERNATIONAL PTE. LTD.
    • PEREIRA, Nigel BrettWILLAN, LesNAGARAJAN, MuraliQUIJANO, Carlos Vicente AranaJERIC, Stephen
    • E21C41/26F42D3/04F42D1/02
    • An aspect of the present invention relates to a method of mining in a rock formation, comprising: drilling blastholes extending into the rock formation, each of the blastholes having a depth between a first end and a second end, wherein for each blasthole the second end thereof is deeper into the rock formation than the first end thereof; loading the blastholes with alternating layers of explosives charges and stemming material to establish a succession of blasting decks or sections extending across and within the rock formation including a first blasting deck or section and at least a second blasting deck or section, wherein each blasting deck or section beyond the first blasting deck or section extends deeper into the rock formation than the first blasting deck or section; and after establishing the multiple blasting decks or sections extending across and within the rock formation, selectively initiating the explosives charges in a series of stages based on blasting deck or section proceeding consecutively from the first blasting deck or section to each successive blasting deck or section, wherein during initiating the explosives charges in a given blasting deck or section, the explosive charges in each deck or section successive to the given blasting deck or section are slept, and wherein after each stage excavation takes place to progress mining in an intended direction.
    • 8. 发明申请
    • MILLING MACHINE, IN PARTICULAR SURFACE MINER, AND METHOD FOR MINING MILLED MATERIAL OF AN OPEN CAST SURFACE
    • 铣削特定的表面矿工,方法用于存储的铣刨材料矿区
    • WO2009098294A3
    • 2009-10-29
    • PCT/EP2009051383
    • 2009-02-06
    • WIRTGEN GMBHVON DER SCHOENEBECK WINFRIEDWAGNER STEFAN
    • VON DER SCHOENEBECK WINFRIEDWAGNER STEFAN
    • E21C41/26E01C23/088E02F9/20
    • E21C25/68B65G67/22E01C23/088E01C23/127E21C25/10E21C41/26E21C47/00
    • The invention relates to a method for milling an open cast surface or for milling away layers of an asphalt or concrete traffic surface with a milling machine that removes the ground surface. According to the invention, by milling the ground surface along a predetermined milling track having a predetermined length, by transporting the milled material via a conveying device to at least one container of a truck that travels along next to the milling machine, said truck having a predetermined maximum load volume per load, and by replacing a completely loaded truck with an unloaded truck when the maximum load volume of a truck load is reached, the following features can be achieved: the maximum total load volume that results from the length of the current milling track is calculated as a function of the current effective working width and an optimized milling depth with respect to a predetermined, preferably maximum milling power; the number of truck loads required for the maximum total load volume of a milling track is calculated; an effective total load volume of the current milling track resulting from the volume of the nearest whole number of loads is determined; and the adjustable total milling volume of the milling machine over the length of the milling track is adjusted to match the effective total load volume, resulting in a whole number of loads.
    • 在铣削一个矿区或剥离沥青或混凝土与Bodenoberfiäche的输送表面的层abarbeitenden铣床,通过由通过输送机输送磨碎材料的旁边的至少一个容器研磨Bodenoberffäche沿着预定研磨轨道预定长度的方法 研磨骑乘卡车每次充电预定的最大电荷量,并通过由达到卡车负载的最大负载能力时卸载更换满载卡车,条件是在当前研磨轨道最大总的长度所得的计算 负载体积作为当前有效工作宽度的函数,并且相对于预定的,优选最大铣削性能优化铣削深度,计算最大Gesamtladevolu 男人所需碾磨轨道货车-载荷,设定有效的总装载量的当前研磨轨道,它从电荷的最接近的整数的体积的效果,并调节可调节总Fräsvolumens铣床在研磨轨道的长度 产生整数个负载的总有效负载量。
    • 9. 发明申请
    • FRÄSMASCHINE, INSBESONDERE SURFACE MINER, SOWIE VERFAHREN ZUM ABBAUEN VON FRÄSGUT EINER TAGEBAUFLÄCHE
    • 铣削特定的表面矿工,方法用于存储的铣刨材料矿区
    • WO2009098294A2
    • 2009-08-13
    • PCT/EP2009/051383
    • 2009-02-06
    • Wirtgen GmbHVON DER SCHÖNEBECK, WinfriedWAGNER, Stefan
    • VON DER SCHÖNEBECK, WinfriedWAGNER, Stefan
    • E21C41/26
    • E21C25/68B65G67/22E01C23/088E01C23/127E21C25/10E21C41/26E21C47/00
    • Bei einem Verfahren zum Fräsen einer Tagebaufläche oder zum Abfräsen von Schichten einer Verkehrsfläche aus Asphalt oder Beton mit einer die Bodenoberfiäche abarbeitenden Fräsmaschine, durch Fräsen der Bodenoberffäche entlang einer vorgegebenen Frässpur vorgegebener Länge, durch Transportieren des Fräsgutes über eine Fördereinrichtung zu mindestens einem Behälter eines neben der Fräsmaschine mitfahrenden Lastkraftwagens mit einem vorgegebenen maximalen Ladevolumen je Ladung, und durch Ersetzen eines vollständig beladenen Lastkraftwagens durch einen unbeladenen, wenn das maximale Ladevolumen einer Lastkraftwagen-Ladung erreicht ist, ist vorgesehen, dass das Berechnen des sich über die Länge der aktuellen Frässpur ergebenden maximalen Gesamt-Ladevolumens in Abhängigkeit der aktuellen effektiven Arbeitsbreite und einer in Bezug auf eine vorgegebene, vorzugsweise maximale Fräsleistung optimierten Frästiefe, das Berechnen der Anzahl der für das maximale Gesamtladevolumen einer Frässpur erforderlichen Lastkraftwagen-Ladungen, das Festlegen eines effektiven Gesamt-Ladevolumens der aktuellen Frässpur, das sich aus dem Volumen der nächstliegenden ganzzahligen Anzahl von Ladungen ergibt, und das Anpassen des einstellbaren Gesamt-Fräsvolumens der Fräs-maschine über die Länge der Frässpur an das effektive Gesamt-Ladevolumen, das eine ganzzahlige Anzahl von Ladungen ergibt.
    • 在铣削一个矿区或剥离沥青或混凝土与Bodenoberfiäche的输送表面的层abarbeitenden铣床,通过由通过输送机输送磨碎材料的旁边的至少一个容器研磨Bodenoberffäche沿着预定研磨轨道预定长度的方法 研磨骑乘卡车每次充电预定的最大电荷量,并通过由达到卡车负载的最大负载能力时卸载更换满载卡车,条件是在当前研磨轨道最大总的长度所得的计算 -Ladevolumens在当前有效的工作宽度的依存性和一个相对于预定的,优选最大铣削优化铣削深度,计算最大Gesamtladevolu的数量 男人所需碾磨轨道货车-载荷,设定有效的总装载量的当前研磨轨道,它从电荷的最接近的整数的体积的效果,并调节可调节总Fräsvolumens铣床在研磨轨道的长度 有效总负载量其给出的电荷的整数。