| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 電動トリマ | JP2014541819 | 2012-10-18 | JP5937224B2 | 2016-06-22 | 田邉 康宏; 岡田 厚人; 和田 康男 |
| 42 | Cutting tool | JP2013189177 | 2013-09-12 | JP2014177113A | 2014-09-25 | OKOCHI KATSUMI; OGINO YOHEI |
| PROBLEM TO BE SOLVED: To solve such the problems that for a base of a cutting device which is called a router or a laminate trimmer, a plunge type one which has a grip part and can be lifted up and down or a fixed type one which has no grip part and in which a body support part is fixed to a base part is provided, and accordingly in conventional cutting devices, in the case where it is necessary to use a grip and it is not necessary to use the grip in the same work in which light duty working and heavy duty working are mixed, depending on the working, both types of machines have to be prepared, and it requires time and labor, is inconvenient in handling, and is high in cost, and to provide a cutting device whose handling is convenient even in such the mixed work.SOLUTION: A grip part 30 which is separate from a base assembly 20 can be attached to a tool body 10 later. | ||||||
| 43 | Profiling methods and working vehicle of laying rail | JP2013538001 | 2011-11-11 | JP2013542351A | 2013-11-21 | クノール ヨハン |
| 本発明は、特にスイッチの領域で、敷設されたレールの走行面を作業車両でプロファイリングする方法であって、レールに対して横断して変位可能な第1倣いプローブエレメントをレールの走行端縁部又は内側面と接触させる段階と、第1倣いプローブエレメントに結合された機械加工工具でレールの走行端縁部及び/又は運転面を機械加工する方法において、第2の倣いプローブエレメントは、機械加工されるべきレールの外側面、又はレールの側面に接触した状態で一時的に置かれるか、あるいは第1倣いプローブエレメントが変位した後に、同エレメントが外側面に接触した状態で配置され、機械加工工具は、第2倣いプローブエレメントに結合され、同時に第1倣いプローブエレメントと機械加工工具との結合が切られるか、変位した第1倣いプローブエレメントに結合される、方法に関する。
【選択図】図4 |
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| 44 | Machined into the member of the tubular or rod-shaped, machining equipment, especially subjected to the cutting | JP2013532237 | 2011-10-05 | JP2013542082A | 2013-11-21 | アンテロ マッコネン セッポ; ペッテリ プリハ ミカ |
| An apparatus (100) for machining a tubular or round-bar type piece, wherein the apparatus comprises a frame element (102), a machining unit (104), as well as a threaded shaft (110), which is fitted to the frame element in a rotatable and axially immobile fashion and has a first section 110a) provided with a right-handed thread and a second section (110b) with a left-handed thread. The first section is provided with at least one first support element (106a) and the second section is provided with at least one second support element (106b), the mutual distance between the support elements being adjustable in response to rotating the threaded shaft, such that the support elements, for example wheels, are adapted to touch a workpiece and to support and guide the apparatus (100) in the process of machining the piece. At least one of the support elements, such as wheels (106a, 106b), is adapted to be capable of rotating relative to its axis in response to moving the apparatus along the surface of a workpiece. | ||||||
| 45 | Image-up machine | JP366589 | 1989-01-17 | JPH0744406Y2 | 1995-10-11 | 勝信 岸 |
| 46 | Fixture to machine rotor and method | JP18831191 | 1991-07-03 | JPH04244344A | 1992-09-01 | PIITAA UORUTAA MIYURAA; DEUEI DEYUAN DANKUMAN; JIYOSEFU TEIMOSHII SUTEIIBUNSO; ERUBAATO SUTONOMU |
| PURPOSE: To provide a device including a fixture free to install on a rotor to machine the gas turbine engine rotor without removing it from a frame in an engine by guiding a machining tool to be driven by a manual air motor. CONSTITUTION: A fixture 30 includes a root part 32 having the same outline as a root slot 16 of a rotor 10, a base 34 having a base 36 installed on this root part and a machining guide in the shape of a bush 50 constrained in the inside of a guide slot 38 so as to receive and guide a cutting tool to be driven by a manual air motor 60 to machine the rotor. Additionally, the rotor is machined at a working site so as to cut and form a moving blade damper pocket 20 on a dovetail slot of a compressor rotor by driving a machining tool by using the manual air motor. | ||||||
| 47 | JPH02114414U - | JP2185489 | 1989-02-27 | JPH02114414U | 1990-09-13 | |
| 48 | JPH0294017U - | JP366589 | 1989-01-17 | JPH0294017U | 1990-07-26 | |
| 49 | JPS539112B1 - | JP2095671 | 1971-04-05 | JPS539112B1 | 1978-04-03 | |
| 50 | JPS49134906A - | JP2291674 | 1974-02-28 | JPS49134906A | 1974-12-25 | |
| 51 | REMOTE-CONTROLLED ACTUATOR | EP09806561.8 | 2009-08-05 | EP2340772B1 | 2018-03-21 | OZAKI, Takayoshi; ISOBE, Hiroshi |
| A remote controlled actuator includes a spindle guide section (3) of an elongated configuration, a distal end member (2) fitted to a distal end of the spindle guide section (3) through a distal end member connecting imit (15) for alteration in attitude, a tool (1) rotatably provided to the distal end member (2), a tool rotating drive source (41) for rotating the tool, and an attitude altering drive source (42) for manipulating the attitude of the distal end member. The distal end member rotatably supports a spindle (13) then holding the tool (1). The spindle guide section (3) includes a rotary shaft (22) for transmitting rotation of the tool rotating drive source to the spindle and a guide hole (30a). A flexible attitude altering member (31) capable of altering the attitude of the distal end member is reciprocally movably inserted within the guide hole (30a). | ||||||
| 52 | APPARATUS FOR MACHINING, PARTICULARLY FOR CUTTING A TUBULAR OR ROUND SECTION BODY | EP11830257 | 2011-10-05 | EP2624980A4 | 2017-09-20 | MAKKONEN SEPPO; PRIHA MIKA |
| An apparatus (100) for machining a tubular or round-bar type piece, wherein the apparatus comprises a frame element (102), a machining unit (104), as well as a threaded shaft (110), which is fitted to the frame element in a rotatable and axially immobile fashion and has a first section 110a) provided with a right-handed thread and a second section (110b) with a left-handed thread. The first section is provided with at least one first support element (106a) and the second section is provided with at least one second support element (106b), the mutual distance between the support elements being adjustable in response to rotating the threaded shaft, such that the support elements, for example wheels, are adapted to touch a workpiece and to support and guide the apparatus (100) in the process of machining the piece. At least one of the support elements, such as wheels (106a, 106b), is adapted to be capable of rotating relative to its axis in response to moving the apparatus along the surface of a workpiece. | ||||||
| 53 | CUTTING TOOL | EP14859691 | 2014-10-27 | EP3065903A4 | 2017-07-12 | GRØNÅS JON ARVE |
| A device is arranged to be able to provide openings in a body. The device comprises a cutting head having a front and a rear. The cutting head is provided with a cutting device; a power transmission body arranged to be able to transmit power from a driving means to the cutting device; a drive unit holder, wherein the drive unit holder is adapted to be able to be arranged at a distance (A3) from the rear of the cutting head; at least one connecting body having a first and a second end portion, wherein the connecting body connects the cutting head to the drive unit holder; and a support arranged to be able to rotatably hold the device on a body. | ||||||
| 54 | ROUTER | EP10741887 | 2010-02-16 | EP2396152A4 | 2015-09-30 | CEROLL WARREN A; GRIFFIN GREG; MCDANIEL STEVEN; SCHELL CRAIG |
| A router includes a motor assembly, at least a first rail and at least a first rolling element pair mounted to the motor assembly, where the first rolling element pair engages the first rail. The router may further include a second rail and a second rolling element pair mounted to the motor assembly, where the second rolling element pair engages the second rail. | ||||||
| 55 | REMOTE-CONTROLLED ACTUATOR | EP09806561 | 2009-08-05 | EP2340772A4 | 2015-07-08 | OZAKI TAKAYOSHI; ISOBE HIROSHI |
| A remote controlled actuator includes a spindle guide section (3) of an elongated configuration, a distal end member (2) fitted to a distal end of the spindle guide section (3) through a distal end member connecting imit (15) for alteration in attitude, a tool (1) rotatably provided to the distal end member (2), a tool rotating drive source (41) for rotating the tool, and an attitude altering drive source (42) for manipulating the attitude of the distal end member. The distal end member rotatably supports a spindle (13) then holding the tool (1). The spindle guide section (3) includes a rotary shaft (22) for transmitting rotation of the tool rotating drive source to the spindle and a guide hole (30a). A flexible attitude altering member (31) capable of altering the attitude of the distal end member is reciprocally movably inserted within the guide hole (30a). | ||||||
| 56 | A TRANSPORTABLE APPARATUS FOR RE-CONDITIONING WINE BARRELS USING A TURNSTILE | EP11768272.4 | 2011-04-13 | EP2558256A1 | 2013-02-20 | WATERMAN, Breck |
| An apparatus for reconditioning barrels, said apparatus including a means to lockingly engage a barrel in a first position, a moving means to move the locked barrel into a second position, a scanner to scan the internal surface of the locked barrel when in the second position and collect scanned data, the moving means then moving the locked barrel to a third position and a means to cut a selected depth of the internal surface of the locked barrel when in the third position according to the collected data. The moving means is a turnstile with three section enabling three barrels to be in the apparatus at any one time, so that whilst one barrel is being scanned, one is being cut and a third is being unloaded/loaded into the apparatus. | ||||||
| 57 | WERKZEUG ZUR BEARBEITUNG EINER SCHADSTELLE IM DICHTBEREICH EINES REAKTORDRUCKBEHÄLTERS | EP06829828.0 | 2006-12-21 | EP1977429A1 | 2008-10-08 | GÜGEL, Siegfried; ADAMS, Helmar; BÖGE, Detlef |
| The invention relates to a tool for manually treating a damaged point in the sealing region (8) between a reactor pressure vessel (1) and its cover (3), having the following configuration: it has a basic body (10) provided with at least one handle (12); on one side of the basic body (10) there are two sliding elements (14) which leave a space (19) free between them and serve for supporting on a surface of the sealing region (8) to be treated; the end faces (32) of the sliding elements (14) are of planar design and run in a common flat plane; a cutting means for machining is arranged in the space (19) in such a way that it essentially does not project beyond the end faces (32) of the sliding elements (14). | ||||||
| 58 | Vorrichtung zum Abtrennen des Randes einer Blechschiene | EP06010323.1 | 2006-05-19 | EP1762350A1 | 2007-03-14 | Bollinger, Heinrich |
Vorrichtung zum Abtrennen des Randbereiches (2) eines Blechstreifens (1), die |
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| 59 | HAND-OBERFRÄSE | EP05708043.4 | 2005-02-21 | EP1737595A1 | 2007-01-03 | HIRSCHBURGER, Wolfgang; FUCHS, Frank; KRAUS, Martin |
| The invention relates to a manual routing machine comprising a housing (12) and a tool (22) that is arranged on said housing in a rotationally driven manner, and can be operated, in accordance with requirements, by means of a suction air flow, especially a vacuum cleaner. Said hand routing machine is especially efficient in that a radial turbine wheel (34) comprising front and rear guiding grids (44, 48) is used as a drive. The housing (12) consists of tubular sections (13, 14, 15) that can especially be gripped by a user's hand and can be interconnected by flanges (36, 38). | ||||||
| 60 | Vorrichtung zur Entnahme von Proben | EP99115830.4 | 1999-08-11 | EP0984262A3 | 2001-08-01 | Hofmann, Frieder, Dipl. Biologe |
Anhand der an der Rinde von Bäumen abgelagerten Schadstoffe wird ein Monitoring der Luftgüte, oft auch zum Nachweis von Schadstoffemissionen bestimmter Emittenten, vorgenommen. Hierfür ist die Entnahme von Proben der Baumrinde in einer genau definierten Schichtdicke erforderlich. Die erfindungsgemäße Vorrichtung zur Entnahme von Proben, insbesondere aus der Rinde von Bäumen oder anderen aktiven oder passiven Akkumulationsindikatoren für ein Luftgüte-Rindenmonitoring oder Immissions-Fingerprinting, ist durch einen Fräser (13) und einen rohrartigen Anschlag (21 bzw. 23) zum Einstellen der Frästiefe gekennzeichnet. Die Entnahmetiefe der Probe ist durch Einstellen der Frästiefe mittels des Anschlags (21 bzw. 23) genau definiert. Da der Innendurchmesser des Anschlags (21 bzw. 23) nur geringfügig größer ist als der Außendurchmesser des Fräsers (13) kann die Vorrichtung auch auf rauher bzw. grober Rinde sicher eingesetzt werden. |
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