| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种煤矿井下巷道施工用自动除尘机器人 | CN201310603854.4 | 2013-11-21 | CN104653218A | 2015-05-27 | 侯鹏 |
| 本发明公开了一种煤矿井下巷道施工用自动除尘机器人,包括除尘筒、行走底盘、电动行走驱动机构和安装于机器人本体上的电子线路板一;行走底盘上安装有电动升降支架,电动升降支架上安装有空气状况监测装置;电子线路板一上设置有行走控制器、内部存储有多条行走路线的数据存储单元以及分别与行走控制器相接的计时电路、无线通信模块一和电源模块;除尘筒上开有多个进气口,各进气口上均安装有高压离心风机;除尘筒内侧上部安装有多个电动喷头。本发明结构简单、设计合理且使用操作简便、使用效果好,能对煤矿井下巷道内的烟尘与有害气体分布状态进行实时监测,并能根据监测结果简便、快速去除煤矿井下巷道内的烟尘和有毒有害气体。 | ||||||
| 2 | 一种高效治理浅埋藏煤层大面积采空区遗煤自燃的方法 | CN201410769236.1 | 2014-12-12 | CN104514577A | 2015-04-15 | 秦波涛; 秦小文; 仲晓星; 鲁义 |
| 一种高效治理浅埋藏煤层大面积采空区遗煤自燃的方法,属于防治煤自燃的方法。预先判断采空区遗煤是否发生自燃,若采空区遗煤发生自燃,首先圈定采空区遗煤自燃高温区域,其次在井下对大面积采空区连续大流量注氮气降低采空区氧气浓度,采用均压防灭火技术减少采空区的漏风量,释放六氟化硫示踪气体定性分析连通采空区的漏风通道并进行堵漏,然后采用地面灭火钻孔进行治理及探测,即注灭火材料治理采空区煤自燃并利用有效的钻孔判定采空区煤自燃是否熄灭,最后对煤自燃高温区域以及钻孔灌注稠化砂浆或高浓度粉煤灰浆液进行充填。该方法集堵漏控风与快速惰化降温为一体用来高效防治浅埋藏煤层大面积采空区的遗煤自燃。 | ||||||
| 3 | 用于由喷水系统施加压力水的装置 | CN200610163064.9 | 2006-11-30 | CN1975110A | 2007-06-06 | 佛朗兹-海因里希·苏尔曼; 米夏埃尔·德特默斯; 维尔纳·赖内尔特; 塞巴斯蒂安·M·蒙德里 |
| 本发明涉及一种用于由设置在地下采矿中的节式掩护支架(1)上的喷水系统施加压力水的装置,包括至少一个用于刨机通道喷水或滚筒式采煤机喷水的喷水系统(8)和至少一个用于崩落区喷水、顶梁喷水和/或侧面喷水的另外的喷水系统(10;12;14)。一个中央水管(19)用于向喷水系统(8;10;12;14)的喷嘴(7、9、11、13)供水。为了提高该装置在节式掩护支架(1)的工作安全性,所有用于喷水系统的开关阀容纳在一个喷水阀块(20)内,该喷水阀块设有一个用于水管(19)的接口(26)并且作为与一个液压阀块分开的单元设置或可设置在节式掩护支架上。 | ||||||
| 4 | 一种高效治理浅埋藏煤层大面积采空区遗煤自燃的方法 | CN201410769236.1 | 2014-12-12 | CN104514577B | 2016-04-20 | 秦波涛; 秦小文; 仲晓星; 鲁义 |
| 一种高效治理浅埋藏煤层大面积采空区遗煤自燃的方法,属于防治煤自燃的方法。预先判断采空区遗煤是否发生自燃,若采空区遗煤发生自燃,首先圈定采空区遗煤自燃高温区域,其次在井下对大面积采空区连续大流量注氮气降低采空区氧气浓度,采用均压防灭火技术减少采空区的漏风量,释放六氟化硫示踪气体定性分析连通采空区的漏风通道并进行堵漏,然后采用地面灭火钻孔进行治理及探测,即注灭火材料治理采空区煤自燃并利用有效的钻孔判定采空区煤自燃是否熄灭,最后对煤自燃高温区域以及钻孔灌注稠化砂浆或高浓度粉煤灰浆液进行充填。该方法集堵漏控风与快速惰化降温为一体用来高效防治浅埋藏煤层大面积采空区的遗煤自燃。 | ||||||
| 5 | 用于由喷水系统施加压力水的装置 | CN200610163064.9 | 2006-11-30 | CN1975110B | 2011-04-13 | 佛朗兹-海因里希·苏尔曼; 米夏埃尔·德特默斯; 维尔纳·赖内尔特; 塞巴斯蒂安·M·蒙德里 |
| 本发明涉及一种用于由设置在地下采矿中的节式掩护支架(1)上的喷水系统施加压力水的装置,包括至少一个用于刨机通道喷水或滚筒式采煤机喷水的喷水系统(8)和至少一个用于崩落区喷水、顶梁喷水和/或侧面喷水的另外的喷水系统(10;12;14)。一个中央水管(19)用于向喷水系统的喷嘴(7、9、11、13)供水。为了提高该装置并且从而节式掩护支架的工作安全性,所有用于喷水系统的开关阀容纳在一个喷水阀块(20)内,该喷水阀块设有一个用于水管的接口(26)并且作为与一个液压阀块分开的单元设置或可设置在节式掩护支架上。所述开关阀是压力操纵的并且用水管中的水压进行控制,每个开关阀配有一个设置在喷水阀块中的可电操纵的控制阀。 | ||||||
| 6 | Process for the preparation of an injection dispersion | EP79100002 | 1979-01-02 | EP0003011A3 | 1979-07-25 | Klinkner, Hans-Guido, Dr. Dipl.-Ing.; Culmann, Günter |
| 7 | Herstellungsverfahren für eine Injektionsdispersion | EP79100002.9 | 1979-01-02 | EP0003011A2 | 1979-07-11 | Klinkner, Hans-Guido, Dr. Dipl.-Ing.; Culmann, Günter |
Einem Bindemittel aus Magnesiumchloridlösung und gebranntem Magnesit zur Gebirgsverfestigung und Firstsicherung im Bergbau werden als weitere Komponenten Bentonit und eine Kunstharzdispersion auf Polyvinylpropionat-Basis und/oder eines Mischpolymerisates des Vinylpropionates zugesetzt. Durch die Zusätze gelingt es. die Haftfähigkeit und die Abbindezeit des Bindemittels zu verbessern. |
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| 8 | Herstellungsverfahren für eine Injektionsdispersion | EP79100002.9 | 1979-01-02 | EP0003011B1 | 1981-04-08 | Klinkner, Hans-Guido, Dr. Dipl.-Ing.; Culmann, Günter |
| 9 | ARRANGEMENT FOR THE ADMISSION OF PRESSURIZED WATER TO SPRAY SYSTEMS | US11565916 | 2006-12-01 | US20070158995A1 | 2007-07-12 | Franz-Heinrich Suilmann; Michael Dettmers; Werner Reinelt; Sebastian Mundry |
| A water system for the admission of pressurized water to spray systems arranged on a powered support assembly for underground mining, having at least one spray system for plow or shearer track spraying and having at least one further spray system for goaf space spraying, canopy spraying and side spraying. A central water line feeds spray nozzles of the spray systems. To increase the operating reliability of the water system and thus of the powered support assembly, the control valves for the spray systems are accommodated in a spray valve block which is provided with a connection for the water line and can be arranged on the powered support assembly as a unit separated from a hydraulic valve block. | ||||||
| 10 | Flexible continuous grout filled packer for use with a water infusion system | US142946 | 1980-04-23 | US4300631A | 1981-11-17 | Albert Sainato; Joseph Cervik; Leonard J. Prosser, Jr. |
| A borehole packer used with the water infusion system to control the movement of methane gas in an underground coal mine. A non-sparking plastic pipe or mandrel is mounted in each of a series of previously drilled generally horizontal boreholes. Normally this pipe is sealed by an encircling packer in the form of an expandable envelope. The mandrel and envelope are put in each borehole to a depth of about 110 to 185 feet with about 15 feet near the end away from the borehole entrance being opened. The flexible expandable envelope extends along almost all of the length of the hollow mandrel. In the volume between the outer surface of the mandrel and the envelope a hardenable fluid grout under pressure is pumped. As the grout fills this cavity the packer's flexible surface expands within the borehole until it forms a tight seal therewith. Because the grout is in an initial fluid state, it is flowable when forced into the packer and it can flow around irregular borehole surfaces. Eventually the grout forms a continuous seal with the packer's outer wall as it hardens to prevent any backflowing of infused water. | ||||||
| 11 | Tubular one-way closure for injecting a material into a hole | US740320 | 1976-11-09 | US4146094A | 1979-03-27 | Walter Benedum; Otto-Ernst Glaesmann; Walter Marsch |
| A tubular one-way closure for injecting a material, particularly synthetic plastic foam material, into a hole has a throttle channel through which the material is to be injected, and a central tube rotatable about its axis and movable in its axial direction. The closure also comprises an expandable anchoring member actuated by said central tube so as to anchor said closure in said hole while being expanded, and an elastic sealing member also actuated by said central tube so as to seal said hole after anchoring of the same. | ||||||
| 12 | Method for consolidating coal and/or rock in mining | US546597 | 1975-02-03 | US3956900A | 1976-05-18 | Hans-Guido Klinkner; Gunter Culmann |
| The specification describes a method for the consolidation of coal and/or rock in mines by injection of a liquid which subsequently hardens made up of magnesium chloride solution, having a specific gravity above 1.22, magnesium oxide and bentonite. Before transport the bentonite is suspended in the magnesium chloride solution and the suspension is stabilised by an agent which stiffens the consistency. | ||||||
| 13 | Method of preventing the outbreak of endogenous mine fires | US63250057 | 1957-01-04 | US2924279A | 1960-02-09 | IVO HOFBAUER; GUSTAV SEBOR; KAREL BERAN; JOSEF NOVAK |
| 14 | Coal mining | US2973635 | 1935-07-03 | US2063761A | 1936-12-08 | CARL SCHOLZ |
| 15 | Method for efficiently treating spontaneous ignition of remaining coal in large area goaf of shallow-buried coal bed | US15310394 | 2015-08-11 | US09869178B2 | 2018-01-16 | Botao Qin; Xiaowen Qin; Xiaoxing Zhong; Yi Lu |
| A method for efficiently treating spontaneous ignition of the remaining coal in a large area goaf of a shallow-buried coal bed, which method integrates leaking stoppage, airflow control and fast inerting and cooling so as to efficiently prevent and treat the spontaneous ignition of the remaining coal in the large area goaf of the shallow-buried coal bed. | ||||||
| 16 | Method for blocking gas flow in a coal seam | US542149 | 1975-01-20 | US4065927A | 1978-01-03 | J. Gilbert Davis, II |
| Gas flow from a coal seam to a mine face in the seam is blocked by drilling a hole from the face into the seam in a direction generally parallel to the direction of the flow of the gas to be blocked; forming a notch at the interior end of the hole; injecting a fluid into the hole and notch under a pressure sufficient to hydraulically fracture the seam along a plane extending substantially perpendicular to the hole and to the direction of gas flow; and filling such fracture with a barrier-forming fluid. The hole is then plugged to prevent retrograde flow of the fluid to the mine face. | ||||||
| 17 | Method for preventing fluid migration in coal seams | US595938 | 1975-07-14 | US4009578A | 1977-03-01 | Dai S. Choi |
| A method for preventing fluid migration in coal seams by forming a substantially fluid impermeable zone across the fluid migration path by positioning at least one borehole in the coal seams in a direction generally parallel to the direction of fluid migration; injecting anhydrous hydrogen chloride or ammonia into the coal seams through the boreholes; and thereafter plugging the boreholes to prevent retrograde flow of the hydrogen chloride or ammonia. | ||||||
| 18 | Prevention of self-ignition (spontaneous ignition) of coal through the use of calcium or magnesium chloride with addition of a wetting agent | US566604 | 1975-04-08 | US3990517A | 1976-11-09 | Hans Lewer |
| A new process has been devised for the application of a mixture of calcium or magnesium chloride and a non-ionogenic wetting agent for the prevention of the spontaneous ignition of coal, especially during underground mining operations, by applying the same to the surface of the coal. The process involves boring of holes into the out-cropping coal and then forcing the mixture of calcium or magnesium chloride and wetting agent in an aqueous solution which contains 25 to 35% by weight of the mixture through the bore holes. A constant quantity of about 3 to 6 liters of solution per minute is pressed into the bore holes, the pressure being only sufficient to overcome the counter pressures occurring in the coal. The procedure greatly extends the time of effectiveness of the prevention of spontaneous ignition of the coal and eliminates to a large extent the expenditure of labor for supervision and retreatment of the surface of the coal now being experienced. | ||||||
| 19 | Suppressant for coal dust | US30523172 | 1972-11-10 | US3928222A | 1975-12-23 | CHESLICK SR WALTER A |
| The suppressing of coal dust is carried out by applying a solution of magnesium sulfate (MgSO4), a wetting agent, and water (H2O), by any desired means, to any surface where coal dust is made, some of which means will hereinafter be described.
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| 20 | METHOD FOR EFFICIENTLY TREATING SPONTANEOUS IGNITION OF REMAINING COAL IN LARGE AREA GOAF OF SHALLOW-BURIED COAL BED | US15310394 | 2015-08-11 | US20170268338A1 | 2017-09-21 | Botao Qin; Xiaowen Qin; Xiaoxing Zhong; Yi Lu |
| A method for efficiently treating spontaneous ignition of the remaining coal in a large area goaf of a shallow-buried coal bed, which method integrates leaking stoppage, airflow control and fast inerting and cooling so as to efficiently prevent and treat the spontaneous ignition of the remaining coal in the large area goaf of the shallow-buried coal bed. | ||||||
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