序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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1 | Projektilwebmaschine mit induktivem Signalgeber | EP95100458.9 | 1995-01-14 | EP0667407A1 | 1995-08-16 | Weidmann, Erich; Schümperli, Walter |
Eine Projektilwebmaschine ist mit einem induktiven Signalgeber (3) ausgerüstet, um den Vorbeiflug des Projektils zu detektieren. Der Signalgeber (3) ist seitlich am Halteelement (1) angeordnet, in welchem die Führungszähne (2) befestigt sind. Im Signalgeber (3) ist eine Induktionsspule untergebracht, die sich möglichst nahe am Schaft eines Führungszahns (5) befindet. Ferner sind Permanentmagnete vorgesehen, die diesen Führungszahn (5) sowie zwei benachbarte Führungszähne (10, 13) magnetisieren. Es zeigt sich, dass ein solcher Signalgeber eine gute Empfindlichkeit aufweist und unabhängig von der Art des Projektils reproduzierbare Signale erzeugt. Die seitliche Anordnung des Signalgebers hat den Vorteil, dass er auch bei Webmaschinen eingesetzt werden kann, bei denen die Oberkante des Halteelements (1) relativ nahe bei der Flugbahn des Projektils liegt. Ausserdem werden durch den grossen Abstand von den Kettfäden elektrostatische Sörsignale reduziert. |
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2 | A horse boot | EP11157982.7 | 2011-03-11 | EP2366285A1 | 2011-09-21 | Finnegan, Patrick |
A horse boot arrangement (1) for a horses hoof (4), the horse boot arrangement (1) having a flexible sock member (2) having a base portion (3) for engaging a sole of the horses hoof (4) and a sleeve portion (5) extending from the periphery of the base portion (3) for covering the hoof (4). An arrangement (6) is provided for fastening the sleeve portion (5) against the horses hoof (4) to ensure the flexible sock member (2) remains on the hoof under working conditions. Rigid ground engaging means (7) are detachably mounted to the flexible sock member (2) via coupling means (8). |
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3 | JPS6047377B2 - | JP11732676 | 1976-10-01 | JPS6047377B2 | 1985-10-21 | NIKOORA SANCHUTSUCHI; ZAHOCHIN AREKUSANDORU AREKUSANDOROBITSUCHI; ROSUKIRIN EBUHENNII DOMITORIEBITSUCHI; GARUPERIN AREKUSANDORU RUBOBITSUCHI; ONIKOFU EDEYUARUDO ARUKAKOBITSUCHI; SAKAROFU BORISU AREKUSANDOR |
A method of and a device for stopping the movement of a weft-carrier or shuttle when an obstruction is in the shed of a loom without damaging the loom or fabric being woven. The device includes a power operated shuttle drive mechanism adapted to engage the shuttle to move the shuttle through a shed, and a sensitive section adapted to be responsive to forces produced by an obstruction in the shed. When such forces exceed a predetermined value, the sensitive section actuates a transducer to stop the supply of power to shuttle drive mechanism and reduces to zero the forces being applied to the shuttle by its drive mechanism. | ||||||
4 | JPS5710219B2 - | JP12520077 | 1977-10-20 | JPS5710219B2 | 1982-02-25 | |
5 | Shatle propelling system in circular loom | JP14852978 | 1978-11-29 | JPS5576138A | 1980-06-09 | TORII SOUICHI |
6 | JPS5938335B2 - | JP19871781 | 1981-12-11 | JPS5938335B2 | 1984-09-17 | BARUTAA SHUMUPERURI |
7 | JPS5547141B2 - | JP11000976 | 1976-09-16 | JPS5547141B2 | 1980-11-28 | |
8 | Running yarn dispenser * loom or ring type loom having said dispenser | JP16095778 | 1978-12-20 | JPS54101971A | 1979-08-10 | ANDORIYUU KEISU KUROKII |
9 | 원형직기의 위사 검지구 및 그 검지회로 | KR1020070048282 | 2007-05-17 | KR100868871B1 | 2008-11-14 | 구광일 |
A weft detection outlet and a detection circuit are provided to compose the improved weft detection outlet accurately detecting the state of weft and having stability from the frictional heat of loom or the electricity connection line cut. A weft detection circuit comprises as follows. The generating voltage(Vg) induced with the magneto system spindle(10) is charged with a constant voltage in the first capacitor(C1) and organizes circuit to the second capacitor(C2) be charged with reverse voltage. But the first transistor(TR1) makes not connected with the charge reverse voltage of the second capacitor and makes conducted with the charge constant voltage of the first capacitor, thus the magnetic field detection signal is generated by the operation of the oscillation integrated circuit(44) the output coil(L2). By making conducted electric conduction switch piece(18) using the contact with the bobbin(12) of the conductive material, the oscillation integrated circuit is operated, and by making the second transistor(TR2) using the voltage fed back with the output coil, the oscillation integrated circuit is also operated. | ||||||
10 | Loom having induction shuttle detector | JP517895 | 1995-01-17 | JPH07229035A | 1995-08-29 | ERITSUHI UEIDOMAN; BUARUTAA SHIYUUMUPERI |
PURPOSE: To constitute an induction detector, which detects the passing of a suttle, so that the motion of the shuttle is not hindered. CONSTITUTION: The detector 3 is arranged on the flank of a holder 1 which supports a metallic guide 2 disposed along a shuttle path 20. The detector 3 has a coil arranged as closely as possible to one axis of the guide 2. Further, a permanent magnet is provided in order to magnetize the adjacent guide. It has been found that such a detector has good sensitivity and gives a signal independent from individual shuttle characteristics. Arrangement of the detector 3 on the flank can also be applied to a loom which is narrow in space between the upper surface of the guide holder 1 and the shuttle path, which is advantageous. Further, the distance between the detector and static electricity-charged weaving yarn is long enough to reduce a noise signal. COPYRIGHT: (C)1995,JPO | ||||||
11 | Induction type flying jig sensor for fabric machine | JP19871781 | 1981-12-11 | JPS57121652A | 1982-07-29 | BUARUTAA SHIYUMUPERURI |
12 | JPS5644177B2 - | JP14852978 | 1978-11-29 | JPS5644177B2 | 1981-10-17 | |
13 | Device for controlling shuttle in loom operated by gripper shuttle | JP12520077 | 1977-10-20 | JPS5352766A | 1978-05-13 | JIYON ETSUCHI OSUGUTSUDO |
14 | Device for monitoring shuttle of herringbone twill weaving machine | JP11000976 | 1976-09-16 | JPS52148262A | 1977-12-09 | ADORUFU RINKA; GERUHARUTO HANMA |
15 | Method and device for quiding woof carrier | JP11732676 | 1976-10-01 | JPS5259769A | 1977-05-17 | NIKOORA SANCHIYUTSUCHI; ZAHOCHIN AREKUSANDORU AREKUSAN; ROSUKIRIN EBUHENNII DOMITORIEB; GARUPERIN AREKUSANDORU RUBOBIT; ONIKOFU EDEYUARUDO ARUKAKOBITS; SAKAROFU BORISU AREKUSAND |
A method of and a device for stopping the movement of a weft-carrier or shuttle when an obstruction is in the shed of a loom without damaging the loom or fabric being woven. The device includes a power operated shuttle drive mechanism adapted to engage the shuttle to move the shuttle through a shed, and a sensitive section adapted to be responsive to forces produced by an obstruction in the shed. When such forces exceed a predetermined value, the sensitive section actuates a transducer to stop the supply of power to shuttle drive mechanism and reduces to zero the forces being applied to the shuttle by its drive mechanism. | ||||||
16 | JPS4955964A - | JP6626073 | 1973-06-12 | JPS4955964A | 1974-05-30 | |
17 | Shuttle propelling mechanism in circular loom | US196915 | 1980-07-23 | US4355666A | 1982-10-26 | Soichi Torii |
In a circular loom in which at least one shuttle is continuously travelled in one direction along an annular shuttle guide means, and a plurality of shed forming mechanisms arranged annularly and coaxially with the guide means are sequentially opened prior to arrival of the shuttle to form a moving shed through which the shuttle is to be inserted and passed, each of the shed forming mechanisms having a cylindrical cam mechanism which creates an opening movement of the respective healds, a shuttle propelling mechanism is disposed. This shuttle propelling mechanism comprises a supporting plate rotatably mounted on an extension of a rotation shaft of the cylindrical cam mechanism at a position corresponding to the annular shuttle guide means, at least one horizontal shaft fixed to this supporting plate correspondingly to the shuttle, a shuttle engaging mechanism mounted on the free end of the horizontal shaft, which engaging mechanism is to be engaged with a part of the shuttle guided by the annular shuttle guide means, and a mechanism for transmitting the rotational movement of the cylindrical cam mechanism to the horizontal shaft. | ||||||
18 | Traveling yarn dispensers | US971524 | 1978-12-20 | US4232714A | 1980-11-11 | Andrew K. Clokie |
A travelling yarn dispenser for use in a textile machine, particularly a circular loom shuttle has an electric generator the rotor of which is adapted to be driven by yarn leaving the dispenser. In the preferred construction the driving member of the generator frictionally engages with the yarn carrier, which is mounted for rotation in the dispenser.Several arrangements for using the current generated by the generator to give weft failure signals and pick-up means adapted to co-operate with these arrangements are described. | ||||||
19 | Control for the weft-thread carries in the shed of a multished loom | US728241 | 1976-09-30 | US4135556A | 1979-01-23 | Nicola Santucci; Zabotin A. Aleksandrovic; Loschilin E. Dmitrievich; Galperin A. Lvovich; Onikov E. Archakovich; Sakharov B. Aleksandrovic; Borodin V. Alekseevich |
A method of and a device for stopping the movement of a weft-carrier or shuttle when an obstruction is in the shed of a loom without damaging the loom or fabric being woven. The device includes a power operated shuttle drive mechanism adapted to engage the shuttle to move the shuttle through a shed, and a sensitive section adapted to be responsive to forces produced by an obstruction in the shed. When such forces exceed a predetermined value, the sensitive section actuates a transducer to stop the supply of power to shuttle drive mechanism and reduces to zero the forces being applied to the shuttle by its drive mechanism. | ||||||
20 | Shuttle monitoring device, particularly for multiple-shuttle weaving machines | US725529 | 1976-09-22 | US4073319A | 1978-02-14 | Adolf Linka; Gerhard Hamma |
Each shuttle of a multiple-shuttle weaving machine is provided with at least one shuttle magnet. A drive unit acts upon each shuttle magnet to effect positive magnetic transport of the shuttle through the length of the shed, without physically contacting the shuttle. The shuttle monitoring device includes a magnetic-field-dependent resistor for each shuttle to be monitored. The magnetic-field-dependent resistor is moved in parallel to and in synchronism with the drive unit for the shuttle and moves in a region where the resistor is influenced by at least one pole of the shuttle magnet. A machine shut-off device is connected to the resistor and is operative for shutting off the drive units for the shuttles of the weaving machine in response to a resistance change of the magnetic-field-dependent resistor indicative of lack of proper shuttle movement. |