| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | Drilling system | US46480154 | 1954-10-26 | US2771272A | 1956-11-20 | MILLER FREDERICK B |
| 82 | 진동기를 구비한 머드 가스 세퍼레이터 | KR1020140181940 | 2014-12-17 | KR1020160073525A | 2016-06-27 | 구학근; 황종덕 |
| 본발명은머드가스세퍼레이터에관한것으로, 더자세하게는가스가포함된머드를초음파진동판을이용해머드와가스를자연스럽게분리시킬수 있는초음파진동판을구비한머드가스세퍼레이터에관한것이다. 본발명에따르는진동기를구비한머드가스세퍼레이터는, 가스가포함된머드가내부에채워지는본체; 상기본체의일측에연결되어, 가스가포함된머드를상기본체내부로유입시키는유입관; 상기본체의타측에연결되어, 가스를외부로배출시키는배기관; 및상기본체내에구비된적어도하나의진동기를포함하며, 상기진동기는상기본체내부에채워진머드에잠겨있는것을특징으로한다. 이에의해, 재사용머드내의가스를최대한으로분리해냄으로써, 머드의재사용과정에서머드내에함유된가스의스파크및 발생된유해가스에의한안전사고와환경오염을예방할수 있다. 또한, 적은수의구성부품을통해간편하게제작할수 있을뿐만아니라, 1차적으로스플링클러유닛에의해머드내의가스를분리하고, 2차적으로본체내에저장된머드의가스를자연스럽게분리하도록하여, 머드내의가스의분리율을극대화시킬수 있다. | ||||||
| 83 | 먼지를 처리하는 장치 | KR1020087012427 | 2006-11-23 | KR100994653B1 | 2010-11-16 | 소르무넨타파니 |
| 본 발명은 암석을 깨뜨릴 때, 먼지를 먼지 분리기 및 나아가 암석 굴착 장치로 처리하는 방법에 관한 것이다. 보어 구멍 (9) 또는 몇몇 다른 작동 위치로부터 흡입된 암석 물질 및 공기가 먼지 분리기 (14) 에서 서로 분리된다. 분리된 암석 물질 (25) 은 먼지 분리기의 배출부 (14a) 로 떨어지며, 이로부터 암석 물질 군은 배출 장치 (16) 에 투여될 수 있다. 배출 장치는 암석 물질 군이 더 치밀한 상태로 압축되는 닫힌 압축 공간 (39) 을 포함한다. 이는 먼지 분리기 (14) 로부터 제거되는 고형물 덩어리 (17) 를 형성한다. 먼지 분리기, 암석 굴착 장치, 배출 장치, 변위 공급 장치, 압축 공간, 프레스, 정화 장치, 슬라이드, 회전자 | ||||||
| 84 | 먼지를 처리하는 장치 | KR1020087012427 | 2006-11-23 | KR1020080071567A | 2008-08-04 | 소르무넨타파니 |
| The invention relates to a method for processing dust when breaking rock, to a dust separator, and further to a rock-drilling rig. Rock material and air sucked from a borehole (9) or some other operating location is separated from each other in the dust separator (14). The separated rock material (25) falls into a discharge part (14a) of the dust separator, from which it can be dosed in batches into a discharging device (16). The discharging device comprises a closed compression space (39) in which the rock material batch is compressed into a more compact state. This forms a solid matter cake (17) that is removed from the dust separator (14). | ||||||
| 85 | Mobile multi sack dust collection apparatus | US15022106 | 2013-11-11 | US09937454B2 | 2018-04-10 | Winfred T. Sedberry; Wesley Warren; Nitinkumar Pandurang Katke; Vishwajit Manajirao Ghatge; Rajesh Sanda; Atul Bhupal Bokane; Alexander Marks |
| An apparatus and method for collection of particulate matter includes a plenum chamber formed in an funnel or a frustum configuration that discharges into a distribution chute assembly. The distribution chute assembly includes a number of individual chutes, each equipped with a circular collar or collar groove at the outlet which facilitates the attachment of the cylindrical dust collection sacks. The plenum chamber, distribution chute assembly, and individual dust collection sacks are carried by a frame assembly. | ||||||
| 86 | Surface fluid extraction and separator system | US14436158 | 2014-05-09 | US09765617B2 | 2017-09-19 | Jon Troy Gosney; Mathew Dennis Rowe; Michael Linley Fripp; Stephen Michael Greci; John Charles Gano |
| A disclosed example embodiment of a fluid extraction system includes a fluid circuit fluidly coupled to a source of a fluid and configured to receive a fluid sample from the source, and a fluid separator arranged in the fluid circuit and configured to receive the fluid sample. The fluid separator includes a body that defines at least one fluid inlet, a flow chamber defined within the body, and is configured to receive and spin the fluid sample from the at least one fluid inlet. The fluid sample spirals inward and forms a vortex, and gases entrained within the fluid sample separate and migrate toward a center of the vortex. An outlet defined in the flow chamber provides a gas outlet that entrains and removes the gases and a liquid outlet receives and removes a remaining portion of the fluid sample. | ||||||
| 87 | MOBILE MULTI SACK DUST COLLECTION APPARATUS | US15022106 | 2013-11-11 | US20160220937A1 | 2016-08-04 | Winfred Trent Sedberry; Wesley Warren; Nitinkumar Pandurang Katke; Vishwajit Manajirao Ghatge; Rajesh Sanda; Atul Bhupal Bokane; Alexander Marks |
| An apparatus and method for collection of particulate matter includes a plenum chamber formed in an funnel or a frustum configuration that discharges into a distribution chute assembly. The distribution chute assembly includes a number of individual chutes, each equipped with a circular collar or collar groove at the outlet which facilitates the attachment of the cylindrical dust collection sacks. The plenum chamber, distribution chute assembly, and individual dust collection sacks are carried by a frame assembly. | ||||||
| 88 | Method and apparatus for increasing the yield in a deposit | US13702626 | 2011-03-29 | US08955918B2 | 2015-02-17 | Thomas Mütze; Silke Röntzsch |
| A method is provided for increasing the yield in a deposit comprising a rock that includes a valuable mineral, which can be exposed by virtue of the rock being comminuted, and at least one further mineral, wherein the valuable mineral has a higher density than the at least one further mineral, which method includes: carrying out a drilling operation using a drilling tool prior to the rock being extracted, drillings being generated in the process; forming an aerosol comprising the drillings and a gas stream; transferring the aerosol from the drilling tool to at least one air separator; carrying out hydraulic classification, wherein at least two fractions comprising in each case equal-falling particles of the drillings are formed; and determining a property which belongs to at least one of the fractions and is used as a measure for setting an optimum degree of comminution of the rock. | ||||||
| 89 | Method and apparatus for increasing the yield in a deposit | US13702605 | 2011-03-29 | US08955917B2 | 2015-02-17 | Thomas Mütze; Silke Röntzsch |
| A method for increasing the yield of a deposit including a rock which including at least one valuable mineral to be exposed by comminuting the rock and at least one further mineral, may include the following steps: performing a boring operation using a boring device prior to extracting the rock, determining at least one predetermined boring parameter for the boring device, determining at least one measured value characterizing a current boring behavior of the boring device, and performing a computational elimination of a dependency of the at least one measured value on the at least one boring parameter, wherein at least one rock texture-dependent characteristic value is obtained, and wherein the at least one characteristic value is used as a measure for a mineral particle size of the at least one valuable mineral in the rock and for setting an optimum degree of comminution when comminuting the rock. | ||||||
| 90 | HOLE-VAC | US13959229 | 2013-08-05 | US20150034393A1 | 2015-02-05 | Heinz Otto Hutt; Gregory David Norman Janes |
| An attachment used for digging and removing debris from a hole is connected to a flexible hose of a typical shop vacuum device, and includes a handle, a first tubular section, a second tubular section, a plurality of depth indicators, a bubble level, and a cutting head. This is a light-weight accessory that transforms the existing shop vacuum into an excavating and digging tool instantaneously. There is less energy expended and time spent digging holes. | ||||||
| 91 | Articulated pre-skimmer mount | US13026411 | 2011-02-14 | US08590639B2 | 2013-11-26 | Stuart A. Connell |
| An articulated pre-skimmer mount for a pre-skimmer associated with a drill bit feed unit comprises a feed mounting arm mounted to the drill bit feed unit. A first end is configured for attachment to the drill feed unit and a second end includes a cylindrical mounting shaft and an axial positioning plate. An intermediate arm has a first end comprising a cylindrical sleeve mounted thereto. The cylindrical sleeve has an inner cylindrical opening configured for sliding engagement with the cylindrical mounting shaft and a mating plate configured for locking, face-to-face engagement with the axial positioning plate. A second end comprises a pre-skimmer mounting assembly configured for attachment to the pre-skimmer, wherein an axial positioning plate and a mating plate are operable to disengage, for rotation of the intermediate arm about an axis of the feed mounting arm for alignment of the pre-skimmer. | ||||||
| 92 | Method and Apparatus for Increasing the Yield in a Deposit | US13702626 | 2011-03-29 | US20130082506A1 | 2013-04-04 | Thomas Mütze; Silke Röntzsch |
| A method is provided for increasing the yield in a deposit comprising a rock that includes a valuable mineral, which can be exposed by virtue of the rock being comminuted, and at least one further mineral, wherein the valuable mineral has a higher density than the at least one further mineral, which method includes: carrying out a drilling operation using a drilling tool prior to the rock being extracted, drillings being generated in the process; forming an aerosol comprising the drillings and a gas stream; transferring the aerosol from the drilling tool to at least one air separator; carrying out hydraulic classification, wherein at least two fractions comprising in each case equal-falling particles of the drillings are formed; and determining a property which belongs to at least one of the fractions and is used as a measure for setting an optimum degree of comminution of the rock. | ||||||
| 93 | Arrangement for processing dust | US12094864 | 2006-11-23 | US07987929B2 | 2011-08-02 | Tapani Sormunen |
| The invention relates to a method for processing dust when breaking rock, to a dust separator, and further to a rock-drilling rig. Rock material and air sucked from a borehole or some other operating location is separated from each other in the dust separator. The separated rock material falls into a discharge part of the dust separator, from which it can be dosed in batches into a discharging device. The discharging device comprises a closed compression space in which the rock material batch is compressed into a more compact state. This forms a solid matter cake that is removed from the dust separator. | ||||||
| 94 | Portable well treating fluid mixing system and method | US12578400 | 2009-10-13 | US07926564B2 | 2011-04-19 | Max L. Phillippi; Calvin Lynn Stegemoeller |
| A portable well treating fluid mixing system includes: a supply tank having an inlet receiving pneumatically conveyed dry treating material; a cyclone separator having an inlet coupled to the supply tank and receiving dust laden air from the supply tank, and having a first outlet venting clean air and having a second outlet venting solids; a collection container having a first inlet coupled to the cyclone separator second outlet and receiving solids from the cyclone separator and having an outlet; and, a pump having an inlet coupled to the collection container outlet and a pump outlet coupled to the supply tank. In operation, the system continuously conveys dust from the collection container back into the supply tank to maintain the separator in proper operating condition and minimizes venting of dust during the transfer of material to the supply tank. | ||||||
| 95 | ARRANGEMENT FOR PROCESSING DUST | US12094864 | 2006-11-23 | US20100320000A1 | 2010-12-23 | Tapani Sormunen |
| The invention relates to a method for processing dust when breaking rock, to a dust separator, and further to a rock-drilling rig. Rock material and air sucked from a borehole or some other operating location is separated from each other in the dust separator. The separated rock material falls into a discharge part of the dust separator, from which it can be dosed in batches into a discharging device. The discharging device comprises a closed compression space in which the rock material batch is compressed into a more compact state. This forms a solid matter cake that is removed from the dust separator. | ||||||
| 96 | Enhanced computer control of in-situ drilling system | US09900570 | 2001-07-06 | US06637522B2 | 2003-10-28 | Henry E. Wilson; Gregory E. Hinshaw; William S. McIntyre |
| An apparatus and method is provided for substantially continuously drilling and disposing of drill cuttings and dust to minimize airborne contamination while providing protection against overload using enhanced computer control. A drill stem with a bit is used to form the drill hole. A flushing mechanism utilizes vacuum or pressurized water to create a bailing fluid flow for flushing the cuttings and dust from the drill hole for disposal. A transducer monitors at least one first parameter of the bailing fluid flow, and a sensor may also monitor at least one second parameter of a flow of a driving fluid under pressure for feeding the drill stem and bit into the earth. A controller is utilized to regulate the rate of feed and/or driving of the stem and bit dependent on the levels of the parameters being monitored. | ||||||
| 97 | Device having a filter, a filter vibrating means and a scraper used for sucking off drillings | US09266728 | 1999-03-12 | US06202765B1 | 2001-03-20 | Kurt Schaffer; Erich Brandl; Karl Schnedl |
| A device for sucking off drillings during the drilling of boreholes, comprising a suction fan (9) and a filter (10) as well as an opening closeable by a lid for emptying the drillings reception space (8) preceding the filter (10), in which, for the simple cleaning of the filter (10), the lid (12) is connected with a vibrating mechanism for the filter (10). | ||||||
| 98 | Underground mining system | US932979 | 1992-08-20 | US5320188A | 1994-06-14 | J. Richard England |
| There is disclosed an apparatus and method for drilling underground. The apparatus includes a conventional drilling bit and a shroud disposed around the drill bit to produce a confined for the suspension of drilling debris. The debris is withdrawn under suction from the area by a conduit system associated with the shroud and a cyclonic filter structure. | ||||||
| 99 | Removable filter fluid flow shutoff apparatus | US486500 | 1990-02-28 | US5020610A | 1991-06-04 | Leland H. Lyon; Richard L. Eggeling |
| A filter apparatus for a percussion device powered by fluid pressure includes a percussion device housing having a fluid inlet and a fluid outlet. A valve is displaced between an open and a closed position. A filter recess is formed within the housing. A filter is inserted within the filter recess for moving the valve from the closed to the open position, thereby permitting fluid pressure to be supplied from the inlet to the outlet. | ||||||
| 100 | Drill cuttings conveying apparatus with flexible duct for improved ground clearance | US332616 | 1981-12-21 | US4444280A | 1984-04-24 | D. Franklin Howeth |
| A drill cuttings conveying head for a portable drill rig includes a flexible tubular duct portion which is operable in conjunction with extension and retraction cylinders for the head to bend the duct portion sufficiently to permit retraction of the head to provide suitable ground clearance for transport of the rig. An actuator for bending and straightening the flexible duct portion is interconnected by way of a pressure fluid control circuit with the head extension and retraction cylinders for movement of the duct portion in conjunction with the extension and retraction of the conveying head. | ||||||
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