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    • 1. 发明授权
    • Control system for a fluid operated jack
    • 一种流体操作式压缩机的控制系统
    • US5072648A
    • 1991-12-17
    • US532724
    • 1990-06-04
    • Darren L. KrahnJohn E. Wible
    • Darren L. KrahnJohn E. Wible
    • B66F3/24B66F3/32B66F9/22F15B11/04
    • B66F9/22
    • A control system for a fluid operated jack reduces the speed of retraction of a piston rod of the jack to an acceptable rate during a preselected range of operation by adding pressurized fluid flow to the fluid being exhausted from the jack through a restrictor valve to the reservoir. This reduction in speed reduces the potential for damage to the jack and associated componentry without sacrificing efficiency of operation. An implement controller causes fluid flow from a fluid source to be combined with the flow of fluid being exhausted from the jack in response to receiving a position signal from a implement position sensor and subsequent to the implement controller commanding the shifting of a control valve to a position at which fluid flow is passed from the fluid operated jack to the reservoir. The control system is particularly suitable for use on an automatic guided vehicle.
    • 用于流体操作的千斤顶的控制系统在预选的操作范围内将千斤顶的活塞杆的回缩速度降低到可接受的速率,通过将压力流体流通过限流阀向储液器排出的流体 。 这种降低速度降低了对插孔和相关组件的损坏的可能性,而不会牺牲操作效率。 响应于接收来自工具位置传感器的位置信号并且在指示将控制阀移位到控制阀的工具控制器之后,工具控制器使得流体从流体源流出的流体与从插座排出的流体流合并 流体流动从流体操作的千斤顶到储存器的位置。 该控制系统特别适用于自动引导车辆。
    • 2. 发明授权
    • Contact sensing apparatus and method
    • 接触传感装置及方法
    • US4934478A
    • 1990-06-19
    • US827851
    • 1986-02-10
    • Grant C. MelocikJohn E. Wible
    • Grant C. MelocikJohn E. Wible
    • B60R19/48B60K28/14B60K31/00B60T7/22B60W30/00G05D1/02H04B11/00
    • B60T7/22B60K31/0008B60Y2200/15
    • A sensing apparatus capable of delivering a control signal in response to contact between an element of the apparatus and an external object should respond readily to a predetermined level of contact, and should be sensitive along all portions of the contact sensing surface. The instant invention provides a contact sensing apparatus including a conduit having a generally hollow tubular construction and being formed a resilient deformable material. A sonic generator is connected to one end of the conduit and a sonic detector is connected to the other end of the conduit. An electrical circuit is connected to the sonic generator and sonic detector, and is adapted to controllably produce a control signal in response to contact between the conduit and an external object. The instant invention is advantageously free from electro-mechanical switches and optical devices likely to be contaminated when used in an industrial environment, and requires no seals or other precautions necessary to contain pressure or fluid within the conduit.
    • 能够响应于设备的元件和外部物体之间的接触而输送控制信号的感测装置应当容易地响应于预定的接触水平,并且应当对接触感测表面的所有部分敏感。 本发明提供了一种接触感测装置,其包括具有大致中空管状结构并形成弹性可变形材料的导管。 声音发生器连接到导管的一端,声波检测器连接到导管的另一端。 电路连接到声音发生器和声音检测器,并且适于响应于导管和外部物体之间的接触而可控地产生控制信号。 本发明有利地没有机电开关和在工业环境中使用时可能被污染的光学装置,并且不需要在管道内容纳压力或流体所需的密封件或其它预防措施。
    • 3. 发明授权
    • Object sensing arrangement
    • 物体传感装置
    • US4730690A
    • 1988-03-15
    • US902726
    • 1986-09-02
    • Robert L. McNuttJohn E. Wible
    • Robert L. McNuttJohn E. Wible
    • B60R19/02B60T7/22B60K28/10
    • B60R19/02B60T7/22
    • An arrangement for sensing an object relative to the side of a vehicle requires physical contact between the arrangement and the object. Therefore, mechanically operated object sensing arrangements are prone to damage, frequent malfunctions, and premature failure. An object sensing arrangement for identifying an object within a preselected minimum distance spaced from a first side of a vehicle has first reflective target movably connected to the first side at a location on the first side adjacent a first end portion, and a first connecting apparatus movably connects a first signaling apparatus to the first side at a first location on the first side adjacent a frame second end portion. The first signaling apparatus delivers a first signal to the first reflective target and receives a reflection of the first delivered signal from the first reflective target. The first connecting apparatus is movable in a direction toward the first side and in a passing relationship with the first side in response to an external force being applied to the first connecting apparatus. Therefore, the aforementioned problems related to damage caused by physical contact and the like are alleviated. The object sensing arrangement is particularly suited for use on a material handling vehicle.
    • 用于感测物体相对于车辆侧面的布置需要布置和物体之间的物理接触。 因此,机械操作的物体感测装置易于损坏,频繁发生故障和过早故障。 用于识别与车辆第一侧间隔开的预选最小距离内的物体的物体检测装置具有可移动地连接到与第一端部相邻的第一侧的位置处的第一反射目标的第一反射目标,以及可移动的第一连接装置 将第一信号装置连接到与第二侧相邻的第一侧的第一位置处的第一信号装置。 第一信号装置向第一反射目标传送第一信号,并接收来自第一反射目标的第一传送信号的反射。 第一连接装置可以响应于施加到第一连接装置的外力而朝向第一侧的方向和与第一侧的通过关系移动。 因此,与物理接触等引起的损伤相关的上述问题得到缓解。 物体检测装置特别适用于材料搬运车辆。
    • 4. 发明授权
    • Apparatus and method for testing vehicle brakes
    • 用于测试车辆制动器的装置和方法
    • US4567757A
    • 1986-02-04
    • US713360
    • 1985-03-18
    • Grant C. MelocikJohn E. Wible
    • Grant C. MelocikJohn E. Wible
    • G01M17/007B60T17/22G01L5/28
    • B60T17/221G01L5/28
    • The subject brake test apparatus operates in conjunction with a vehicle having a source of power, a traction motor controllably connected to the power source and to at least one vehicle wheel, and a vehicle brake associated with at least one vehicle wheel. An actuator controllably engages and disengages the vehicle brake in response to receiving respective brake control signals, and a transducer produces wheel rotation signals in response to rotation of at least one of the vehicle wheels. A processor controllably delivers a brake engaging signal to the actuator and engages the vehicle brake. A predetermined amount of power from the power source is delivered to the traction motor for a predetermined period of time. In response to receiving wheel rotation signals from the transducer, the processor determines the degree of rotation of the vehicle wheels during at least a predetermined portion of the period of time that the traction motor is energized, and produces a brake status signal in response to amount of rotation of the vehicle wheels. The brake test apparatus advantageously produces an objective result, and is fully automatic in operation. Therefore, it is particularyl well suited to use on unmanned vehicles.
    • 目标制动测试装置与具有动力源的车辆,可控制地连接到动力源和至少一个车轮的牵引马达以及与至少一个车轮相连的车辆制动器一起操作。 响应于接收相应的制动控制信号,致动器可控制地接合和解除车辆制动器,并且换能器响应于至少一个车轮的旋转而产生车轮旋转信号。 处理器可控地将致动器接合信号传递到致动器并接合车辆制动器。 来自电源的预定量的动力被输送到牵引电动机一段预定的时间。 响应于来自换能器的接收轮旋转信号,处理器在牵引电动机被通电的时间段的至少预定部分期间确定车轮的旋转程度,并响应于数量产生制动状态信号 的车轮的旋转。 制动测试装置有利地产生客观结果,并且在操作中是全自动的。 因此,它非常适合用于无人驾驶车辆。
    • 5. 发明授权
    • Controlling arrangement
    • 控制安排
    • US4564085A
    • 1986-01-14
    • US693415
    • 1985-01-22
    • Grant C. MelocikJohn E. Wible
    • Grant C. MelocikJohn E. Wible
    • B66F9/24B66F9/075G05D3/12B66B9/20
    • B66F9/0755
    • Controlling arrangements of the type used for aligning a load engaging assembly with a load to be lifted tend to be bulky, costly, unable to accurately position the load engaging assembly with the load to be lifted, and unable to accommodate different types of load supporting structures. A controlling arrangement having a signal assembly having first and second spaced apart portions is provided. The first portion is adapted to deliver a first signal and receive a reflection of the first signal and the second portion is adapted to deliver a second signal and to receive a reflection of the first signal. A single sensing device is adapted to receive the reflected signals and a selecting device controls the operation of the first and second signal assembly portions. Therefore, the problems of bulk, cost, inaccuracy and flexibility are eliminated. The controlling arrangement is particularly suited for use on a material handling vehicle.
    • 用于将负载接合组件与待提起的负载对准的类型的控制装置倾向于体积庞大,成本高,不能将负载接合组件与要提升的负载精确地定位,并且不能适应不同类型的负载支撑结构 。 提供了一种具有信号组件的控制装置,其具有第一和第二间隔开的部分。 第一部分适于传送第一信号并接收第一信号的反射,并且第二部分适于传送第二信号并接收第一信号的反射。 单个感测装置适于接收反射信号,并且选择装置控制第一和第二信号组合部分的操作。 因此,消除了批量,成本,不准确和灵活性的问题。 该控制装置特别适用于材料搬运车辆。
    • 6. 发明授权
    • Power transferring arrangement
    • 动力传递装置
    • US4944357A
    • 1990-07-31
    • US343704
    • 1989-04-27
    • John E. WiblePaul D. Grohsmeyer
    • John E. WiblePaul D. Grohsmeyer
    • B60L11/18B60T1/16B60T7/16H01R41/00
    • B60L11/1816B60L11/1827B60T1/16B60T7/16H01R41/00B60L2200/26Y02T10/7005Y02T10/7072Y02T90/121Y02T90/125Y02T90/14
    • A contactor assembly having contacting head portion is mounted on a vehicle and a receiving device is mounted on a load transfer station. The contactor assembly and receiving device is provided for transferring electrical energy from a source of electrical energy between the load transfer station and the vehicle and improves the flexibility of load transfer station location and relocation. The contacting head portion is transversely movable between first and second spaced apart locations relative to the vehicle and into engagement with the receiving device. A sensing device is provided for sensing the position of the vehicle relative to the load transfer station and delivering an actuator control signal to an actuating device in response to the contacting head portion and the receiving device being aligned for mating engagement. The actuating device moves the contacting head portion from the first position to the second position in response to the receiving the actuating control signal. The contactor assembly is particularly suited for use on an automatic guided vehicle.
    • 具有接触头部的接触器组件安装在车辆上,并且接收装置安装在负载传送站上。 接触器组件和接收装置被设置用于从负载传送站和车辆之间的电能源传递电能,并且提高了负载传送站位置和搬迁的灵活性。 接触头部分可以在相对于车辆的第一和第二间隔位置之间横向移动并且与接收装置接合。 提供感测装置用于响应于接触头部分和接收装置对准用于配合接合而感测车辆相对于负载传送站的位置并将致动器控制信号递送到致动装置。 响应于接收致动控制信号,致动装置将接触头部从第一位置移动到第二位置。 接触器组件特别适用于自动引导车辆。
    • 7. 发明授权
    • Vehicle guidance system
    • 车辆导向系统
    • US4918607A
    • 1990-04-17
    • US242241
    • 1988-09-09
    • John E. Wible
    • John E. Wible
    • G01S17/74G01S17/87G01S17/93G05D1/02
    • G01S17/936G01S17/74G01S17/87G05D1/0236G05D1/0272G05D2201/0216
    • A navigation system for use in a self guided material handling vehicle provides guidance during operation in areas having densely stacked rows of containers and reduces the potential of deviation of the self guided vehicle from the desired path of travel. A laser signaling device is mounted on the vehicle and rotatable about an axis of rotation extending generally perpendicularly to the longitudinal axis of the self guided vehicle. The laser signaling device is adapted to delivery a light beam signal at a first preselected angle relative to the axis of rotation and a directing device is provided for directing the delivered light beam signal, during a preselected portion of rotation of the laser signaling device, at a second different preselected angle relative to the axis of rotation. A receiving device receives a reflection of the light beam signal and delivers a position signal in response to the light beam signal received. The navigation system is particularly suited for use in automatic storage and retrieval systems.
    • 用于自引导材料处理车辆的导航系统在操作期间在具有密集堆叠的容器行的区域中提供引导,并且减少自动引导车辆偏离所需行进路径的可能性。 激光信号装置安装在车辆上并可围绕大体上垂直于自行车辆的纵向轴线延伸的旋转轴线旋转。 激光信号装置适于以相对于旋转轴线的第一预选角度传送光束信号,并且提供引导装置用于在激光信号装置的预选的旋转部分期间将所传送的光束信号引导到 相对于旋转轴线的第二个不同的预选角度。 接收装置接收光束信号的反射并且响应于所接收的光束信号传送位置信号。 导航系统特别适用于自动存储和检索系统。
    • 8. 发明授权
    • Freely positionable load carrying attachment for an automatic guided
vehicle
    • 用于自动引导车辆的可自由定位的承载附件
    • US4906159A
    • 1990-03-06
    • US327315
    • 1989-03-22
    • Joseph F. SaboAndrew P. BlauJohn E. Wible
    • Joseph F. SaboAndrew P. BlauJohn E. Wible
    • B66F9/06B66F9/075B66F9/12B66F9/14
    • B60L11/1805B66F9/063B66F9/07509B66F9/125B66F9/148B60L2200/44B60L2220/46Y02T10/7005
    • A load carrying attachment has a supporting frame mounted on an elevationally movable carriage assembly mounted uprights of a lift mast and a load engaging frame having a load engaging device. A connecting device connects the load engaging frame to the supporting frame and guides the load engaging frame for movement in a preselected plane in directions transverse the uprights. The load engaging frame is freely transversely movable in the plane in response to an external force being applied to the load engaging frame and alleviates damage to the load engaging frame or a carried load due to misalignment with a transporter. A sensing device is provided for sensing the position of the load engaging frame and delivering a vehicle braking signal in response to the load engaging frame being at either a first or a second preselected transverse position. The load carrying attachment is particularly suited for use on an automatic guided vehicle.
    • 承载附件具有安装在安装在提升桅杆的支柱和具有负载接合装置的负载接合框架的可升降的托架组件上的支撑框架。 连接装置将负载接合框架连接到支撑框架,并且引导负载接合框架以在横向于立柱的方向上在预选平面中移动。 负载接合框架响应于施加到负载接合框架的外力而在平面中可自由地横向移动,并且减轻由于与运输机的不对准而对负载接合框架或承载负载的损坏。 提供感测装置,用于感测负载接合框架的位置,并响应于负载接合框架处于第一或第二预选横向位置而递送车辆制动信号。 承载附件特别适用于自动引导车辆。
    • 9. 发明授权
    • Obstacle detection system
    • 障碍物检测系统
    • US4903054A
    • 1990-02-20
    • US248878
    • 1988-09-23
    • John E. Wible
    • John E. Wible
    • G01S17/93G05D1/02
    • G01S17/936G05D1/0238G05D1/0244
    • An obstacle detection system for protecting a frame upper end portion and laser scanning device of a self guided vehicle from damage by external objects includes a device for delivering a light signal in a direction along a preselected elevationally oriented axis and a device for receiving a reflection of the delivered light signal and delivering a condition control signal in response to receiving the reflected light signal. A supporting assembly is connected to the frame upper end portion and a guide frame is connected to the supporting assembly and defines a plane passing through the elevationally oriented axis. A reflecting member is supported on the guide frame and a connecting device connects the reflecting member to the support assembly and maintains the reflecting member for movement between a first position at which the reflecting member reflects the light signal towards the receiving device and a second position spaced from the first position at which the reflecting member is free from reflecting the light signal towards the receiving device.
    • 用于保护自身引导车辆的框架上端部分和激光扫描装置免受外部物体损坏的障碍物检测系统包括用于沿着预选的正向取向轴线的方向传送光信号的装置和用于接收反射的装置 所传递的光信号并且响应于接收到反射光信号而递送条件控制信号。 支撑组件连接到框架上端部分,并且引导框架连接到支撑组件并且限定穿过正向取向轴线的平面。 反射构件被支撑在引导框架上,并且连接装置将反射构件连接到支撑组件,并且保持反射构件在第一位置和第二位置之间移动,第一位置反射到接收装置的光信号,第二位置间隔开 从第一位置反射构件不会将光信号反射到接收装置。
    • 10. 发明授权
    • Control valve linkage
    • 控制阀联动
    • US4238008A
    • 1980-12-09
    • US949323
    • 1978-10-06
    • Robert D. HigginsJohn E. Wible
    • Robert D. HigginsJohn E. Wible
    • B60K26/00B66F9/20G05G7/16
    • B60K26/00B66F9/20Y10T74/20396
    • A control valve linkage arrangement which is closely adjacent a vehicle operator and which allows easy access to a compartment upon which the operator sits. A control linkage (12) is disclosed wherein positioning of the member (30) to be controlled determines a control signal. The linkage (12) is connected to the valve control member (30) and may be pivoted relative to the valve control member (30) along a plane generally containing the valve control member (30) without axial movement of the said member (30). The linkage (12) can also be moved axially thereby moving the control member (30) axially without pivoting the linkage (12) relative to the control member (30).
    • 一种控制阀联动装置,其紧邻车辆操作者并且允许容易地进入操作员所在的隔间。 公开了一种控制联动装置(12),其中待控制的构件(30)的定位决定了控制信号。 连杆(12)连接到阀控制构件(30),并且可以沿着通常包含阀控制构件(30)的平面相对于阀控制构件(30)枢转,而不会使所述构件(30)轴向运动, 。 联动装置(12)也可以轴向移动,从而使控制构件(30)轴向移动而不使联动装置(12)相对于控制构件(30)枢转。