161 |
Support structure for tripper of traveling-type stacker, and traveling cargo handling device |
JP2011084537 |
2011-04-06 |
JP2012218848A |
2012-11-12 |
OKI ATSUO; KOTAKI TAKASHI |
PROBLEM TO BE SOLVED: To provide a support structure for a tripper of a traveling-type stacker which can reduce the weight of a counterweight beam, and to provide a traveling-type stacker and a tripper.SOLUTION: The support structure for a tripper incudes a traveling-type stacker 16 including a stacker body 26 traveling on a rail 18, a boom 17 attached to the stacker body 26 so as to be liftable and turnable, a boom conveyor 21 attached to the boom 17, and a counterweight beam 25 attached to the base end of the boom 17 where the stacker is used to connect and hold a tripper 19. The tripper 19 includes a tripper leg 29, freely moves on the rail 18 following the traveling-type stacker 16, and lifts the belt of a ground conveyor 20 obliquely upward. A counterweight beam 25 is disposed so as to travel below the tripper 19 according to the turn of the boom 17 and the stacker body 26 connects and holds the head 19b of the tripper 19 by the use of a connecting/holding member 28. |
162 |
Tripper connecting/separating device of stacker/reclaimer and method thereof |
JP2010219815 |
2010-09-29 |
JP2012071973A |
2012-04-12 |
NAKANO TAKASHI; KAMONO TAKESHI; UESUGI TETSUHIRO; TAMURA AKIHIRO |
PROBLEM TO BE SOLVED: To hoistably and rotatably support a boom 5 on a traveling girder 3 that travels on rails 2, to safely and surely separate a tripper 6 from the traveling girder 3 with a stacker/reclaimer 1 formed by connecting the tripper 6 as an object, without relying on visual confirmation by a worker, and to connect again later.SOLUTION: The stacker/reclaimer is provided with: a connector 70 that separably connects the tripper 6 to the traveling girder 3; a tripper holding means (for example, a storm anchor 63) that holds the tripper 6 at an anchoring position; and a tripper holding detection means (for example, a limit switch 63a) that detects that the tripper 6 is being held by the tripper holding means. The operation of separating the connector 70 can be performed only when the held state of the tripper 6 is detected (step SA3 to SA4). |
163 |
It stores the rolling material into a pile, a device for recovering from a pile |
JP2011513015 |
2009-06-10 |
JP2011522762A |
2011-08-04 |
オーボ、ヘイッキ; コッコ、ペッカ |
本発明は、木材チップ、樹皮、又は穀物などの転動材料をパイル10に積み上げ、前記パイル10から貯蔵地点よりも下方に配置されるコンベア20に回収するための装置に関し、この装置は、中央ブーム30の鉛直方向軸線に対して互いに独立に回転可能であるように蝶番により取り付けられるスタッカ・ブーム40及びリクレイマ・ブーム50を支持する中央柱30を備える。 この装置の特徴的な機構は、中央柱30に対して蝶番で取り付けられる少なくとも1つの点で、この支持部が中央柱30のフレームの周りに配置される支持ホイール60、60'、60''上に在るように構成されることである。 |
164 |
Apparatus for recovering the rolling material from the pile |
JP2011513014 |
2009-06-10 |
JP2011522761A |
2011-08-04 |
オーボ、ヘイッキ; コッコ、ペッカ |
The invention relates to an apparatus for reclaiming rolling material, such as e.g. wood chips, bark or corn from a pile (10) to a conveyor (20) below the storing point, which apparatus comprises a reclaimer boom (50) that is supported onto a center column (30), to which reclaimer boom (50) transporting means (55) are connected for transferring material being reclaimed to a conveyor (20) below the storing point. It is characteristic for the apparatus that the reclaimer boom (50) and/or the transporting means (55) are supported by means of at least one intermediate support (80) in addition to being supported at their ends. |
165 |
Join method and apparatus for operating a conveyor chain |
JP15789393 |
1993-06-03 |
JP3561844B2 |
2004-09-02 |
ケンパス ジョルマ; レートネン ハリー |
|
166 |
Continuous conveying equipment for transferring bulk material in storage site |
JP8374193 |
1993-03-05 |
JPH06239463A |
1994-08-30 |
HARUTOMUUTO GURAATOHOFU |
PURPOSE: To easily construct transfer equipment for bulk material so as to manufacture it at a low cost by improving the equipment.
CONSTITUTION: This continuous conveying equipment for transferring bulk material in storage sites is provided with a mobile gantry construction 15 having a tubular column 14 on which a pivot bearing 13, a turntable 12 and a pivot drive are present, and a conveying jib 6, a ballast jib 7, a pylon 8 and guy ropes 9 are provided on the turntable while forming an oscillating piece which has a joint 11 and which can be moved by a cylinder 10.
COPYRIGHT: (C)1994,JPO |
167 |
JPH0348087B2 - |
JP239784 |
1984-01-10 |
JPH0348087B2 |
1991-07-23 |
TAKASU MOTOYUKI; HAYAKAWA KYOSHI |
|
168 |
JPH0348086B2 - |
JP239684 |
1984-01-10 |
JPH0348086B2 |
1991-07-23 |
TAKASU MOTOYUKI; HAYAKAWA KYOSHI |
|
169 |
Sekisankenshutsukinoshijisochi |
JP14764082 |
1982-08-27 |
JPH0236169B2 |
1990-08-15 |
IRIE MITSUHIRO |
|
170 |
JPH0157009B2 - |
JP2040482 |
1982-02-10 |
JPH0157009B2 |
1989-12-04 |
NISHAMA NORYUKI |
|
171 |
JPS6254726B2 - |
JP10878580 |
1980-08-06 |
JPS6254726B2 |
1987-11-17 |
RUISU RORANDO ARAADO |
|
172 |
Yard machine for bulk material |
JP9090284 |
1984-05-09 |
JPS60236933A |
1985-11-25 |
HACHITANI TOSHIO |
PURPOSE:To eliminate the need of a trailer conveyer and to enlarge the using area of a yard by providing a direct delivery chute on the same level surface with a loading chute of a transfer loader, and disposing a tripper in such a manner as a supply material to the respective chutes. CONSTITUTION:In case of performing discharge operation, a bucket wheel 4 is rotated to operate a boom conveyer 3, so that bulk material is dropped on a ground conveyer 10 through a discharge chute 7, a relay chute 8, and a hopper 9. In case of performing loading operation, a chute 19 of a tripper 15 is positioned above a loading chute 6 by a moving device 17. The bulk material is lifted up by the tripper 15 to be thrown into the loading chute 6 from a chute 19 and dropped on a yard through a boom conveyer 3. In case of performing direct delivery operation, the tripper 15 is guided and retreated by a coupling member 18 to position the chute 19 above a direct delivery chute 11. |
173 |
Ore storage yard |
JP9004183 |
1983-05-24 |
JPS59217531A |
1984-12-07 |
SUEKANE MASAZUMI; YAMAGUCHI HIDEKI |
PURPOSE:To automate loading operation by fitting a telescopic expansion chute on a shuttle conveyor which can also travel. CONSTITUTION:At a comparatively great outdoor ore storage yard, a straight discharge device 36 is installed at the bottom of a recess 12 formed by embankment 10 facing a shuttle conveyor device 22, which is arranged in said recess 12 extending in its longitudinal direction, which can also travel, and which is fitted on its both ends with telescopic expansion chutes 24, and further are furnished a vertically and horizontally moving screw conveyor device 38 for loading and unloading stretching in the direction across the shuttle conveyor 22 as well as a carry-in conveyor device 56 for supplying objects 14 to the shuttle conveyor device 22. Thereby loading and unloading of objects 14 is automated, and genera tion of dust during loading operation can be suppressed. |
174 |
Coal expelling device in coal center |
JP17289182 |
1982-09-30 |
JPS5964425A |
1984-04-12 |
TAKASU MOTOYUKI; HAYAKAWA KIYOSHI |
PURPOSE:To improve luffing and turning performance along with the reduction of power consumption by making light weight a gathering conveyor as well as the whole of a coal gathering device. CONSTITUTION:In a device wherein a moving girder 6 is suspended between retaining walls 1 provided in parallel to each other in a prescribed interval, and coal piled in heaps is taken in by means of a coal gathering device 11 free to transversely move on the girder 6, the coal gathering device 11 comprises a gathering conveyor 15 located over the central part of a piled coal C in its height direction, operating freely to luff and turn and provided with a scraping device 16 on the tip part thereof. Namely, the gathering conveyor of the coal gathering device formed with a rubber made flexible conveyor belt presents not only very light weight, and a smooth and rapid luffing and turning motion but also reduced power consumption. |
175 |
Method of automatically regulating cut depth of reclaimer |
JP16177182 |
1982-09-17 |
JPS5953324A |
1984-03-28 |
SAKURAI TAKESHI |
PURPOSE:To prevent overload operation by comparing the highest turning speed and the lowest turning speed of a boom with the maximum permissible turning speed and the minimum permissible turning speed respectively to automatically control the cut depth of a bucket in such a manner that the turning speed is always within the permissible speed. CONSTITUTION:The highest turning speed and the lowest turning speed are computed according to the turning speed and turning signal of a boom 2 by arithmetic units 11, 12. When the highest turning speed is greater than the maximum permissible turning speed in a comparator 13, a correction operation command is output to an operation control device 15 to control the cut depth of a bucket 1 in such a manner that both speeds are equalized. When the lowest turning speed is smaller than the minimum permissible turning speed in a comparator 14, a correcting operation command is output to an operation control unit 16 to automatically control the cut depth of the bucket 1 in such a manner that both speeds are equalized. |
176 |
Supporting device for stack detector |
JP14764082 |
1982-08-27 |
JPS5938617A |
1984-03-02 |
IRIE MITSUHIRO |
PURPOSE:To obtain a sufficient stroke of the forward-backward movement of a detector in relation to a stack and to make it possible to perform this movement automatically in linkage to an arm, by a constitution wherein a large-diameter drum and a small-diameter durm interlocked with each other are provided rotatably on a boom, and a long flexible member linked to the arm is wound on the small-diameter drum. CONSTITUTION:At the time of stacking operation, an arm 1 is rotated to the right around a shaft 15 up to a position indicated by a solid line by an extending operation of a piston-cylinder device 6. Thereby a rope 5 is loosened as the right end of the arm 1 lowers. Because of this loosening, drums 4 and 17 are rotated in the same number of rotation by the weight on the stack detector 2 side. Consequently, the rope 5 is wound up by the drum 17 while a rope 3 and a signal wire 10 are rolled out from the drum 4. Therefore, a stack 8 is piled up to be in contact with the stack detector 2, and a detection output signal is delivered from the stack detector 2 to a control unit via the signal wire 10. At this time point, namely at the time point of detection, a sufficient margin is still found in the vertical direction between the arm 1 and a bucket wheel 13 and the stack 8. |
177 |
Method of treating deposit material, particularly, granular material and its recovery machine and facility |
JP7132883 |
1983-04-22 |
JPS58193838A |
1983-11-11 |
PIEERU BEROTSUCHI |
|
178 |
Carry-out device with bucket wheel for bulk load deposited |
JP3387983 |
1983-03-03 |
JPS58167326A |
1983-10-03 |
AREKUSANDAA RANGUNAA |
|
179 |
Bedding method of iron ore |
JP1516281 |
1981-02-04 |
JPS57131639A |
1982-08-14 |
JIKO KIYOSUKE; YAMANA SHINICHIROU |
PURPOSE:To improve uniformity of an iron ore bed in a blast furnace by a method wherein the falling direction of iron ore from a discharge tip of a carry and stowage device is made to coincide with a direction of a stowage movement and the stowage is so made that a falling width is made to coincide with the center of a bed. CONSTITUTION:The falling direction of iron ore 6 from a discharge tip 8 of a stowage conveyor 12 is made to coincide with a direction of a stowage movement and a stowage is so made that the fall width of iron ore from the tip 8 is made to fall within the center of a bed 2. In such constitution segregation resulting from a difference of a falling locus of the iron ore 6 can be made uniform and a quality of the rion ore bed 2 can be made constant by moving a spot on which the iron ore is falling to a moving direction of the iron ore bed 2. |
180 |
Screwwfeeder |
JP10878580 |
1980-08-06 |
JPS5628124A |
1981-03-19 |
RUISU RORANDO ARAADO |
|