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    • 3. 发明公开
    • COOLANT FLOW CONTROL
    • 流量控制冷却液。
    • EP0362241A1
    • 1990-04-11
    • EP88904437.0
    • 1988-05-24
    • EDWARDS, William John
    • EDWARDS, William John
    • B21B27B21B37B21B45B23Q11F16N7
    • F16N7/40B21B27/10B21B37/32B21B45/0233B21B45/0251B21B45/029Y02P70/131
    • Le procédé et l'appareil décrits servent à réguler la température d'une machine-outil (tels que les cylindres de laminage (7, 8)). Un agent réfrigérant ou un lubrifiant sont acheminés depuis un collecteur d'alimentation (22) vers l'entrée primaire (21) d'un élément fluidique (20) telle qu'une soupape à tourbillons. La sortie (23) de l'élément fluidique (20) est dirigée vers la machine-outil (7, 8) ou à proximité. Un second courant (36) d'agent réfrigérant ou de lubrifiant en provenance du réservoir (25) est acheminé vers l'entrée de régulation (30) de l'élément fluidique (20), ce second courant (36) étant régulé par l'intermédiaire d'un signal de renvoi (27) et d'une soupape (26) de façon à varier en réponse à la forme ou à la température de la pièce à usiner, ce qui permet de faire varier le courant de sortie total provenant du point de sortie (23) de l'agent réfrigérant ou du lubrifiant. Le second courant (36) peut avoir une température qui diffère de la température du premier courant, de sorte que, au fur et à mesure qu'augmente le débit du courant allant de la sortie (23) à la pièce à usiner, la température de l'agent réfrigérant ou du lubrifiant diminue.
    • 5. 发明公开
    • Wall ties
    • Wandanker。
    • EP0337641A1
    • 1989-10-18
    • EP89303316.7
    • 1989-04-04
    • Adams, Hayden JohnEdwards, William John
    • Adams, Hayden JohnEdwards, William John
    • E21D21/00F16B13/06
    • F16B13/068E04G23/0222
    • The tie comprises a rod (1) with threaded end portions (2,3) of opposite hand. Threaded end portion (2) has at each end an anchoring assembly (4) and (4a), respectively. One anchoring assembly (4) comprises first frustoconical member (5) and second frustoconical member (6), each of which has a respective inwardly tapering surface (7,8) and a respective inwardly facing transverse end face (9,10). Located between the frustoconical members is a tubular sleeve (11), which is provided with an inwardly projecting radial lug (11a), arranged to engage transverse end face (10) and resist an applied force which would otherwise tend to pull the frustoconical member (6) through the sleeve (11).
    • 领带包括具有相对的手的螺纹端部(2,3)的杆(1)。 螺纹端部(2)分别在每个端部具有锚固组件(4)和(4a)。 一个锚固组件(4)包括第一截头圆锥体构件(5)和第二截头圆锥形构件(6),每个构件具有相应的向内渐缩表面(7,8)和相应的向内的横向端面(9,10)。 位于截头圆锥形构件之间的管状套筒(11)设置有向内突出的径向凸耳(11a),其布置成接合横向端面(10)并抵抗施加的力,否则其将倾向于拉动截头圆锥体构件 6)穿过套筒(11)。
    • 7. 发明公开
    • Anchoring bolt
    • Ankerbolzen。
    • EP0182565A1
    • 1986-05-28
    • EP85308180.0
    • 1985-11-11
    • Adams, Hayden JohnEdwards, William John
    • Adams, Hayden JohnEdwards, William John
    • E21D21/00
    • F16B13/061E04G23/0222E21D21/008F16B13/068
    • A tie rod 3 is screw-threadedly engaged within a threaded member 7 carrying a cone 8 which, together with a further cone 10, acts to expand a slitted expandable sleeve 9 when the rod 3 is rotated by a tool applied to a square cross-section tip 21 so that the threaded member 7 is driven towards a fixed head 6 on the rod 3. The threaded member 7 carries a securing member 16 having projecting ribs which hold the threaded member 7 against rotation within a bore hole 20B as the rod 3 is rotated. The other end of the rod 3 is secured within a bore 20A of a double skin cavity wall by rotating a nut 11 to cause a slitted expandable sleeve 13 to expand into the wall of the bore 20A due to action of conical members 12 and 14.
    • 拉杆3螺纹地接合在带有锥体8的螺纹构件7中,螺纹构件7与另外的锥体10一起作用以在通过施加到正方形截面的工具旋转杆3时使切割的可扩张套筒9膨胀, 截面尖端21,使得螺纹构件7朝向杆3上的固定头6被驱动。螺纹构件7承载具有突出肋的固定构件16,该突出肋保持螺纹构件7在杆3内在孔眼20B内不旋转 旋转 通过旋转螺母11将杆3的另一端固定在双皮腔壁的孔20A内,以使得由于圆锥形构件12和14的作用使切割的可扩张套筒13膨胀到孔20A的壁中。
    • 8. 发明申请
    • COOLANT FLOW CONTROL
    • 冷却液流量控制
    • WO1988009230A1
    • 1988-12-01
    • PCT/AU1988000156
    • 1988-05-24
    • EDWARDS, William, John
    • B21B27/10
    • F16N7/40B21B27/10B21B37/32B21B45/0233B21B45/0251B21B45/029Y02P70/131
    • A method and apparatus for controlling the temperature of a machine tool (e.g. mill rolls (7, 8)). A coolant or lubricant is fed from a header supply (22) to the primary inlet (21) of a fluidic device (20) such as a vortex valve. The outlet (23) of the fluidic device (20) is directed to or at the machine tool (7, 8). A second flow (36) of coolant or lubricant from reservoir (25) is fed to the control inlet (30) of the fluidic device (20) the second flow (36) being controlled via a feedback signal (27) and valve (26) to vary the second flow (36) in response to workpiece shape or temperature so that the total outflow from the outlet (23) of coolant or lubricant can be varied. The second flow (36) may be at a temperature which differs from that of the first flow so that as the flow rate from outlet (23) to the workpiece rises the temperature of the coolant or lubricant falls.
    • 用于控制机床(例如轧辊(7,8))的温度的方法和装置。 冷却剂或润滑剂从集管供应源(22)进给到诸如涡流阀的流体装置(20)的主入口(21)。 流体装置(20)的出口(23)被引导到机床(7,8)或在机床(7,8)处。 来自储存器(25)的冷却剂或润滑剂的第二流(36)被供给到流体装置(20)的控制入口(30),第二流(36)经由反馈信号(27)和阀(26 )以响应于工件形状或温度来改变第二流(36),使得可以改变来自冷却剂或润滑剂的出口(23)的总流出。 第二流(36)可以处于与第一流不同的温度,使得随着从出口(23)到工件的流量升高,冷却剂或润滑剂的温度下降。
    • 9. 发明申请
    • ROLLING MILL STRIP THICKNESS CONTROLLER
    • 轧制米纹条厚度控制器
    • WO1985000998A1
    • 1985-03-14
    • PCT/AU1984000172
    • 1984-09-07
    • JOHN LYSAGHT (AUSTRALIA) LIMITEDTEOH, Eam, KhwangGOODWIN, Graham, CliffordEDWARDS, William, John
    • JOHN LYSAGHT (AUSTRALIA) LIMITED
    • B21B37/02
    • B21B37/66
    • A method and apparatus for automatically controlling the thickness of product (12) emerging from a rolling mill. Signals indicative of total roll force (F), rollgap position (S), angular position (v) of a first mill roll and downstream product thickness (h) are utilized to obtain an output signal indicative of total roll eccentricity affecting the true instantaneous rollgap position (S) as a function of the measured mill roll angular position (v). The output signal may be used to compensate an estimate of instantaneous thickness of the product (12) for the purpose of controlling the gap between work rolls (3, 4). If preferred the output signal may be further processed to obtain an output signal indicative of the period roll eccentricity of a set of rolls (3, 4) having a common period of rotation or of a plurality of such sets.
    • 一种用于自动控制从轧机出来的产品(12)的厚度的方法和装置。 用于表示总滚动力(F),滚动位置(S),第一轧辊的角位置(v)和下游产品厚度(h)的信号用于获得指示影响真实瞬时辊隙的总辊偏心率的输出信号 作为测量的轧辊角位置(v)的函数的位置(S)。 输出信号可以用于补偿产品(12)的瞬时厚度的估计,以便控制工作辊(3,4)之间的间隙。 如果优选的话,可以进一步处理输出信号以获得指示具有公共旋转周期或多个这样的组的一组辊(3,4)的周期辊偏心率的输出信号。