| 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 | 织物及其生产方法 | CN00813270.4 | 2000-09-22 | CN1218075C | 2005-09-07 | J·贝格; H·圣-德尼斯 |
| 本发明涉及一种生产机织物的方法,特别是生产气囊织物,应用多相织机按下述步骤生产:在一台多相织机上,将长丝纱组成的经纱和纬纱织成织物,这里经纱是使用高收缩型的纱,纬纱是用中收缩至低收缩型的纱,织物然后经过水收缩和/或热收缩的整理。 | ||||||
| 2 | 连续梭口织机 | CN93105614.4 | 1993-05-14 | CN1084913A | 1994-04-06 | A·施坦纳; S·特雷科 |
| 一种连续梭口织机,包含一具有钢筘的转子,该钢筘在打纬件之前沿转动方向梳理经纱,引入件(14)将经纱引入开口的高、低点引入件与钢筘之间的间距为(21),所有经纱在引入过程中成绞并具有组织点,该组织点顺转动方向向前位移,因此,组织点的位置,相对于钢筘在转子的转动中心方向逐渐下降。就一个经纱循环而言,或是通过对引入件上的经纱的分配,或是增加引入件之间的距离,在织物中任何邻近的两根经纱的引入件之间至少具有一个最小间距。 | ||||||
| 3 | 机织物的生产方法 | CN00813270.4 | 2000-09-22 | CN1376220A | 2002-10-23 | J·贝格; H·圣-德尼斯 |
| 本发明涉及一种生产机织物的方法,特别是生产气囊织物,应用多相织机按下述步骤生产:在一台多相织机上,将长丝纱组成的经纱和纬纱织成织物,这里经纱是使用高收缩型的纱,纬纱是用中收缩至低收缩型的纱,织物然后经过水收缩和/或热收缩的整理。 | ||||||
| 4 | 一种用于连续开口织机的纬纱握持装置 | CN93109278.7 | 1993-08-10 | CN1085968A | 1994-04-27 | L·加克塞 |
| 一种用于连续开口织机的纬纱握持装置,该装置包括在转鼓的纬纱送入侧(11)和纬纱送出侧(12)设置的一种纬纱握持装置(11a、12a),和至少在纬纱引入侧还有一个切断装置(19),其特征是二个纬纱握持装置(11a、12a)至少在二端夹住一根纬纱(45),而且这些夹持点在转鼓1旋转方向(1a)在到打纬边(17)的行程中积极运动。 | ||||||
| 5 | Thread carrying apparatus and a textile machine, in particular a weaving machine, including a thread carrying apparatus for this kind | US10688386 | 2003-10-16 | US07249725B2 | 2007-07-31 | Erich Klaeui; Hans-Dieter Scorl |
| In accordance with the invention a thread carrying apparatus is proposed with a thread (2) lying in contact with or passing along the thread carrying apparatus with friction in the operating state. The thread carrying apparatus includes excitation means (3) for producing oscillations which reduce the frictional force between the thread (2) and the thread carrying apparatus. In this arrangement a resonator body (4) is provided with the thread (2) lying in contact with or passing along the resonator body with friction in the operating state. The resonator body (4) is designed in such a manner that the excitation means (3) produce resonant structural sound oscillations in the resonator body (4). | ||||||
| 6 | Method for producing woven fabrics | US10102266 | 2002-03-19 | US06866068B2 | 2005-03-15 | Johann Berger; Holger Saint-Denis |
| A method for producing woven fabrics, especially airbag woven fabrics, while using a multiphase weaving machine in the following steps: weaving a fabric comprised of filament threads in warp and weft on the multiphase weaving machine, whereby a high shrinking type of yarn is used as the warp and an average to low shrinking type of yarn is used as the weft, and finishing the woven fabric by hydroshrinking and/or thermoshrinking. | ||||||
| 7 | Thread carrying apparatus and a textile machine, in particular a weaving machine, including a thread carrying apparatus for this kind | US10688386 | 2003-10-16 | US20040099329A1 | 2004-05-27 | Erich Klaui; Hans-Dieter Scorl |
| In accordance with the invention a thread carrying apparatus is proposed with a thread (2) lying in contact with or passing along the thread carrying apparatus with friction in the operating state. The thread carrying apparatus includes excitation means (3) for producing oscillations which reduce the frictional force between the thread (2) and the thread carrying apparatus. In this arrangement a resonator body (4) is provided with the thread (2) lying in contact with or passing along the resonator body with friction in the operating state. The resonator body (4) is designed in such a manner that the excitation means (3) produce resonant structural sound oscillations in the resonator body (4). | ||||||
| 8 | Method for producing woven fabrics | US10102266 | 2002-03-19 | US20020152594A1 | 2002-10-24 | Johann Berger; Holger Saint-Denis |
| The invention relates to a method for producing woven fabrics, especially airbag woven fabrics, while using a multiphase weaving machine with the following steps: weaving a fabric comprised of filament threads in warp and weft on the multiphase weaving machine, whereby a high shrinking type of yarn is used as the warp and an average to low shrinking type of yarn is used as the weft, and finishing the woven fabric by hydroshrinking and/or thermoshrinking. | ||||||
| 9 | Monolithic shed holding component for series shed weaving rotor | US973136 | 1997-12-01 | US5950685A | 1999-09-14 | Jaques Peulen; Peter Grimm |
| A blower nozzle provided for the weft thread insertion is associated with the monolithic shed holder element for the weaving rotor of a series shed weaving machine. The shed holder element is manufactured from a piece of metal. The blower nozzle is integrated into the shed holder element and comprises at least one bore placed in the shed holder element. | ||||||
| 10 | Series shed weaving machine with a weaving rotor | US973412 | 1997-12-02 | US5947162A | 1999-09-07 | Alois Steiner; Peter Grimm; Antonio Diaz |
| A weaving rotor of a series shed weaving machine provides a cover which forms a ring channel with the weaving rotor from a laying-in station up to the cloth edge in the direction of rotation. The ring channel is closed off by further covers, in the direction of rotation and at the side face where the weft arrives. Suction nozzles are mounted along the cloth edge which are dimensioned in such a manner that in spite of the air entering from the insertion and relay nozzles they produce a depression and a flow from the laying-in station to the cloth edge which prevents the deposition of fly. An additional suction nozzle at the arrival of the weft, which is placed in the direction of the weft insertion, additionally stabilizes the flow conditions in the ring channel. | ||||||
| 11 | Weft thread distributor apparatus of a series shed weaving machine | US973183 | 1997-12-02 | US5937913A | 1999-08-17 | Marcel Christe |
| Weft thread distributor apparatus for a series shed weaving machine in which a weft thread is fed into a connection channel via a supply nozzle and is distributed within the connection channel to shoot-in tubes. In order to achieve a trouble-free cutting off of the inserted weft and rerouting of the new weft thread tip a cutting device is placed spatially between the shoot-in tube and the clamping device in order that a retraction force and a loop standing under said retraction force are already formed due to of the supply nozzle and the injector nozzle prior to the stopping of the weft thread in the clamping device. During the stopping in the clamping device the thread is pre-tensioned in the cutting device and can be cut without difficulty. The loop unwraps itself and a new weft thread tip is inserted into the shoot-in tube. | ||||||
| 12 | Warp thread insertion device for series-shed looms | US154835 | 1993-11-19 | US5441085A | 1995-08-15 | Andreas Hunziker; Rudolf Frischknecht |
| An insertion device for a series-shed loom having a rotor including combs (2) and shedding members for guiding the warp threads (3) over a predetermined angular region for shedding. The insertion device has a laying bar (10) with recesses (24) to guide the warp thread (3). It is moved to and fro parallel to the rotor by a drive mechanism for inserting the warp threads (3) into the shedding members on the rotor. Each laying bar (10) is associated with a guide bar (25) for deflecting the warp thread (3) for aligning it with the recess (24) in the laying bar (10). As a result the laying bar (10) is advantageously relieved of most of the warp thread tension and only directs the warp just parallel to the rotor. The laying bar (10) may consequently have a low mass. | ||||||
| 13 | Weft thread distribution device for a series shed loom | US239099 | 1994-05-06 | US5437313A | 1995-08-01 | Marcel Christe |
| A device for the distribution of weft yarns into weft ducts of a rotor of a series shed loom has a first part (7) rotating with the rotor (2) with transfer ducts (11) for the weft yarns and a second part (8) which is nonrotatable in relation to the rotor (2) and has connecting ducts (10) for the weft yarns. The parts (7, 8) are axially aligned and movable with respect to one another and energy storing devices (24) hold them in an operating position so that there is a gap between opposing faces of the first and second parts (7, 8). An adjustable support structure permits adjustment of the gap width and then keeps it constant. The second part is connected to an operating mechanism (3) which pulls the second part (8) into an open position to thereby provide access to the transfer and connecting ducts (10, 11) for the weft yarns. | ||||||
| 14 | Traversing shed loom with warp placing guides | US692283 | 1991-04-26 | US5174341A | 1992-12-29 | Alois Steiner; Walter Koch; Peter Grimm |
| The traversing shed loom has a shedding weaving rotor into which weft yarns are picked. The rotor has shedding elements and beating-up combs in which warp placing guides place warn yarns by moving transversely to the direction of rotor rotation. Most of the warp yarns are deflected transversely to the direction of rotation during shedding and the deflection is cancelled only by the shedding elements moving away before the beating-up of the weft so that the warp yarns are realigned. The beating-up combs have at least two warp yarns per occupied space. The position of guides, the geometry and position of the combs, the position of top shed guides and bottom shed guides and the warp yarn placing program are so adapted to one another that the streakiness, i.e., warp streakiness, is controllable. | ||||||
| 15 | Filling thread distributor mechanism for a series-shed weaving machine | US609892 | 1990-11-06 | US5146955A | 1992-09-15 | Alois Steiner; Theodor Wuest; Marcel Christe |
| The filling thread distributor mechanism employs a stationary part having arcuate channels through which filling threads are continuously delivered. In addition, the mechanism has a rotatable part mounted on the weaving rotor which is provided with a plurality of circumferentially disposed transfer channels for sequential alignment with each connecting channel of the stationary part. Each transfer channel also communicates with a picking tube through which filling thread can be picked into a picking channels on the weaving rotor. A cutting mechanism is disposed between a picking tube and a picking channel in order to sever the filling thread and form a new tip for subsequent delivery to the next picking tube of the rotating part. | ||||||
| 16 | Lamella for a picking comb of a weaving rotor | US843075 | 1986-03-24 | US4655259A | 1987-04-07 | Alois Steiner |
| The weaving rotor for a series shed weaving machine is formed with picking combs which have lamellae of unitary structure to define a weft-guiding part and a warp-guiding part. The lamellae may be made of ceramic pressings with the two projections on the warp-guiding part being spaced apart to provide a relatively large entry zone for the insertion of the warp yarn. | ||||||
| 17 | Weaving machine | US693092 | 1985-01-22 | US4595089A | 1986-06-17 | Alois Steiner |
| The weaving machine has a weaving rotor with beating-up lamellae each of which has a beating-up edge perpendicular to the beating-up line during beating-up of the weft yarn. In addition, a rotatable shell is provided to operate after each beating up of a weft yarn in order to draw the cloth in the take-off direction at at least the peripheral velocity of the beating-up lamellae until these lamellae pass out of engagement with the cloth. The shell can be oscillated in synchronism with the beating-up operation via a cam disc coaxial with the rotor and a linkage secured to and end of the rotatable shell 9. The arrangement prevents the cloth from being displaced from the cloth plane by the beating-up lamellae. | ||||||
| 18 | Apparatus for guiding a fluid medium driven weft thread in the shed of a weaving machine and use of the apparatus at a multiple longitudinal traversing shed weaving machine | US575467 | 1984-01-30 | US4492255A | 1985-01-08 | Alois Steiner |
| An apparatus for guiding a weft or filling thread in the shed of a weaving machine, the weft thread being driven by a flowing fluid medium, comprises two lamellae combs which can dip into and out of the warp threads. The lamellae or equivalent plate-like guide elements of the lamellae combs each possess a throughpass opening for guiding the weft thread and a thread exit or outlet opening. When the lamellae are in a position completely immersed in the shed they are interleaved or shoved into one another and form a guide channel for the weft threads, this guide channel being coherent or continuous in the weft insertion direction. Hence, the thread exit or outlet openings are sealed, so that the guide channel also is continuously closed in radial direction. The closed guide channel renders possible, on the one hand, a controlled flight of the weft thread, a reduced energy consumption and driving of the weft thread both by a blowing action and also by a suction action and, on the other hand, can be particularly advantageously employed at a multiple longitudinal traversing shed loom containing a weaving rotor. | ||||||
| 19 | Multiple longitudinal traversing shed weaving loom | US483526 | 1983-04-11 | US4487233A | 1984-12-11 | Alois Steiner |
| A weaving rotor carries lamellae combs, the lamellae of which are provided with shed-retaining elements. Shedding rods which are stroke-wise displaceable in the warp direction are positioned forwardly of the weaving rotor to allocate each warp thread to a shed-retaining element determining either an upper shed or a lower shed. The shedding rods are formed by first racks, the tooth spaces or gaps of which serve as guide means for the warp threads. Thus, there is ensured as precisely as possible pitch or division of the guide means for the warp threads as well as an accurate reproducibility for the shedding rods. The lamellae are positioned on the weaving rotor by second racks having the desired pitch. The first and second racks correspond to each other and are identically designed. Consequently, there results the highest conformity between the lamellae pitch and the pitch of the warp threads, and thus, an optimally ordered run or course of the warp threads from the shedding rods to the weaving rotor. Additionally, manufacture and operation of the multiple longitudinal traversing shed weaving loom are rendered more economical. | ||||||
| 20 | Multiple longitudinal traversing shed weaving apparatus | US96777 | 1979-11-23 | US4291729A | 1981-09-29 | Alois Steiner |
| A multiple longitudinal traversing shed weaving apparatus comprises a weaving rotor having beat-up or beating elements for the inserted weft threads and shed-retaining elements which retain the warp threads, throughout a predetermined path, in their upper shed position or lower shed position. Each intermediate space between neighboring beat-up elements has operatively associated therewith a respective shed-retaining element which determines the upper shed position or lower shed position. Control means are arranged forwardly of the weaving rotor, viewed in the direction of travel of the warp threads, and serve for the lateral deflection and selective allocation of the warp threads at a shed-retaining element which determines the upper shed position or lower shed position. The control means possesses stroke adjusting elements in the weft direction which are constituted by rods or bars extending in the weft direction. These rods are connected with an actuation device of the type used in a conventional dobby loom. | ||||||
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