The present disclosure is applicable to manual control devices and, more particularly, to joystick-type manual devices for use in controlling machines.
Manual control devices are commonly used to control machines. For example, various machine types such as airplanes, cranes, each-moving machines and the like use joystick-type input devices that are manipulated by a machine operator to control the motion and/or functions of the machine. In the typical fashion, an operator grasps a handle portion of the input device and moves it to provide control inputs to the machine. The handle portion of usually mounted onto the machine through a multi-axial pivoting mechanism that permits displacement and/or rotation motion of the handle relative to a base in or along one or more axes. Sensors are placed on the base of the handle to provide control signals indicative of the motion or displacement of the handle to a controller, which controller then translates those signals into machine commands. In such a control arrangement, which is sometimes referred to as a fly-by-wire arrangement, electrical signals generated by sensors on the handle of the machine that is manipulated by the operator provide the command inputs to control motion and/or other operations of the machine. The handle portion of the manual control device may further include other control inputs such as buttons and triggers, which the operator may selectively activate, for example, using the operator's index finger, thumb, or other digits, to control various other functions of the machine.
In certain applications, for example skid-steer loaders, and in other machines in which the operator may be standing during machine operation, such as forklifts, abrupt motion of the machine may cause the operator to lose balance and/or abruptly move or jerk with the machine. In those application, operator restraints such as belts and/or handles, are provided to permit the operator to stabilize themselves against excessive motion relative to the machine. However, in most applications, such solutions are only partially effective in stabilizing the operator without compromising the operator's ability to effectively control the machine.
One previously proposed solution for providing a manual control device to an operator can be seen in U.S. Pat. No. 7,474,296 to Obermeyer et. al. (“Obermeyer”). Obermeyer describes a multi-axis position transducer that is associated with a fingertip operated grip, which is similar to a trackball, that is connected to a hand held grip. The fingertip operated grip includes sensor means to provide motion signals. During use, the hand held grip stabilizes the user's hand relative to the fingertip operated grip, which is in turn operated by the user's index finger, middle finger and thumb, as shown in Obermeyer's
In one aspect, the disclosure describes a machine. The machine includes, among other, a frame, a controller associated with the frame, and an operator station disposed on the frame. The operator station is adapted to be occupied by an operator during operation of the machine. A manual input device is connected to the frame adjacent the operator station. The manual input device is configured to be engaged by a hand of the operator. The manual input device includes a handle portion having an elongate shape rigidly connected to the frame, and a control portion connected to one end of the handle portion. The control portion includes a first plurality of control surfaces and a second plurality of control surfaces. The first plurality of control surfaces and the second plurality of control surfaces are associated with sensors providing control signals to the controller. The first plurality of control surfaces is accessible for interaction by a thumb of the hand of the operator, and the second plurality of control surfaces is accessible for interaction by an index finger of the hand of the operator.
In another aspect, the disclosure describes a manual input device for a machine. The manual input device includes a handle portion having an elongate shape, the handle portion having one end configured to be rigidly connected a frame of a machine. The handle portion is configured to be engaged by a hand of an operator. The manual input device further includes a control portion connected to the handle portion. The control portion includes a first plurality of control surfaces and a second plurality of control surfaces, the first plurality of control surfaces and the second plurality of control surfaces being associated with sensors providing control signals to a controller. The first plurality of control surfaces is positioned and oriented relative to the handle portion so it is accessible for interaction by a thumb of the hand of the operator, and the second plurality of control surfaces is positioned and oriented relative to the handle portion so it is accessible for interaction by an index finger of the hand of the operator.
In yet another aspect, the disclosure describes a method for operating a machine. The method includes occupying an operator station of a machine with an operator, using at least one hand of the operator to grab a handle portion of a control device, the handle portion of the control device being rigidly connected to a frame of the machine, wherein grabbing the handle portion operates to stabilize the operator relative to the machine and wherein grabbing the handle portion involves grasping the handle portion in a palm of the operator using at least two fingers wrapped around the handle portion, activating a first plurality of control surfaces disposed on a control portion that is connected onto a free end of the handle portion using a thumb of the operator, and activating a second plurality of control surfaces disposed on the control portion using an index finger of the operator.
In general, the present disclosure relates to a manual control device or input device for use by a machine operator to locally or remotely control the motion and operation of a machine and also the operation and/or configuration of one or more work implements connected to or associated with the machine. While the illustrated embodiment is described in the context of a skid-steer machine, having a loader bucket attached, it should be appreciated that other machine types such as mini-skid steer machines, forklifts and the like that are locally or remotely controlled are contemplated. In one embodiment, the disclosure describes a manual control input device, joystick, or electronic handlebar controller for controlling multiple functions of multiple machines. The electronic handlebar controller allows the operator to maintain at least a two, three or four finger grip around each of one or two handlebars while controlling the primary machine functions with the thumbs and/or fingertips. Additionally, the operator can operate secondary control inputs within reach of the thumbs and/or fingers. For example, a miniature joystick similar to one found on a video game controller is placed within finger reach of the handlebar.
In one embodiment, a pair of handlebar controllers is placed on a machine such as a skid steer loader. The pair includes a left and right handlebar disposed on either side of an operator seat for operation by the operator's left and right hands. In an exemplary embodiment, the left joystick operates drive functions of the loader and the right joystick operates work implement functions of a work implement connected to the machine. This setup allows a four-finger grip on both hands. If an additional, simultaneous function is desired, an electronic input could be added near the forefinger of each hand, and this would still allow for a three-finger grip. A grip sensor or dead-man switch can be added to ensure that the operator is gripping the controls while the machine is moving or the work implement is performing functions to avoid damage or injury to the machine or its surroundings.
The operator can maintain a firm grasp on the machine while simultaneously operating numerous functions to their full capacity, and since the hands are used to brace against machine acceleration, inadvertent control inputs through the fingers are minimized or avoided. Further, by anchoring the operator's hands on the handlebar in proximity to the control switches and surfaces, relative motion between the palms and the fingertips is minimized to optimize control accuracy of the machine's motion and operation.
The proposed controllers differ from similar joysticks in the market in that other joysticks have hand grips that pivot the entire hand about a base part. The proposed design has a hand grip that has no motion relative to the machine. The control inputs are operated exclusively by the fingers and thumbs, not by the wrists and/or forearms. The hand grip can be connected to a machine frame at either or both ends, and includes a control portion onto which switches and other control surfaces are placed for fingertip access by the operator.
An exemplary embodiment for a machine 100 is shown in
The machine 100 further includes an operator cab 112, which encloses an operator area 114. As can be appreciated, other machine types may omit the operator cab and/or its enclosure altogether. An outline detail view of the operator area 114 is also shown in
When seated, the operator (not shown) controls motion and operation of the machine by manipulating two manual input devices, a first manual input device 208 disposed on the right side of the seated operator, and a second manual input device 210 disposed on the left side of the seated operator. During machine operation, the seated operator can grab and manipulate the first manual input device 208 with the operator's right hand 402, as shown in
An outline view of the first manual input device 208 is shown removed from the machine 100 in
In reference to these figures, it can be seen that the first (or second) manual input device 208 incudes a handle portion 302 and a control portion 304. The handle portion 302 has a generally elongate shape and is rigidly attached to the armrest 212 of the machine 100 at one end. In the illustrated embodiment, the handle portion 302 includes a rigid mounting flange 306 that is rigidly connected with fasteners 308 to an upper surface 310 of the armrest 212. The armrest 212 may include an opening, passage or channel 312 that accommodates electrical conductors 314 to interconnect various switches, sensors and controls (not shown) included in the first manual input device 208 to be connected with a machine controller, for example, the machine controller 108 (
More specifically, the handle portion 302 adapted or arranged to be grabbed by at least two fingers, or in alternative embodiments and at the option of the user, grabbed with three or four fingers, as shown in
The three-finger grip of the handle portion 302 advantageously frees the operator's index finger 412 and thumb 414 to move and control various inputs and switches while the operator's hand remains engaged and grabbing the handle portion 302. As shown in the figures, and in particular
Because of the way the index finger and thumb can be moved while the remaining fingers and palm engage the handle portion 302, the top side 316 and inboard sides 320 are accessible using the thumb 414 (
The inboard side 320 may also include buttons, switches and other control inputs to perform various other functions that are accessible using the operator's thumbs 414. Any desired control input device type can be used, for example, buttons, switches, rollers and the like can be used. In the illustrated embodiment, the inboard side 320 of the first manual input device 208 includes a button 326, which activates a horn, and a slider 328, which controls the proportional power provided to an auxiliary tool installed in place of the bucket 102, for example, a planer. The bottom side 322 includes a trigger 330 which activates a float mode function upon being depressed, which allows the bucket or other work implement to slowly rest on the ground and/or follow the contour of the ground without digging in. In an alternative embodiment, the trigger 330 may be a static structure used as a finger rest for the operator's index finger. The outboard side 318, may include any other functional input that the machine and/or any attached work tools require. As shown, the configurable inputs on the outboard side include four buttons 332, which can be assigned to particular functions by the controller 108 depending on the type of work implement that is attached to the machine.
In an optional embodiment, the manual control devices 208/210 may further include a safety device in the form of an operator presence switch or sensor 334. In the embodiment shown, the sensor 334 is integrated with the handle portion 302 and, through spring-loaded pads or a touch sensor, provides a signal indicative of the operator's hand being present and grabbing the handle portion 302 using at least two fingers, as previously described and as shown in
The present disclosure is applicable to manual control input devices for machines in which stability of the operator may be advantageous to the precise or safe operation of a machine. A flowchart for a method of operating a machine in accordance with the disclosure is shown in
All references, including publications, patent applications, and patents, cited herein are hereby incorporated by reference to the same extent as if each reference were individually and specifically indicated to be incorporated by reference and were set forth in its entirety herein.
The use of the terms “a” and “an” and “the” and “at least one” and similar referents in the context of describing the invention (especially in the context of the following claims) are to be construed to cover both the singular and the plural, unless otherwise indicated herein or clearly contradicted by context. The use of the term “at least one” followed by a list of one or more items (for example, “at least one of A and B”) is to be construed to mean one item selected from the listed items (A or B) or any combination of two or more of the listed items (A and B), unless otherwise indicated herein or clearly contradicted by context. The terms “comprising,” “having,” “including,” and “containing” are to be construed as open-ended terms (i.e., meaning “including, but not limited to,”) unless otherwise noted. Recitation of ranges of values herein are merely intended to serve as a shorthand method of referring individually to each separate value falling within the range, unless otherwise indicated herein, and each separate value is incorporated into the specification as if it were individually recited herein. All methods described herein can be performed in any suitable order unless otherwise indicated herein or otherwise clearly contradicted by context. The use of any and all examples, or exemplary language (e.g., “such as”) provided herein, is intended merely to better illuminate the invention and does not pose a limitation on the scope of the invention unless otherwise claimed. No language in the specification should be construed as indicating any non-claimed element as essential to the practice of the invention.
Preferred embodiments of this invention are described herein, including the best mode known to the inventors for carrying out the invention. Variations of those preferred embodiments may become apparent to those of ordinary skill in the art upon reading the foregoing description. The inventors expect skilled artisans to employ such variations as appropriate, and the inventors intend for the invention to be practiced otherwise than as specifically described herein. Accordingly, this invention includes all modifications and equivalents of the subject matter recited in the claims appended hereto as permitted by applicable law. Moreover, any combination of the above-described elements in all possible variations thereof is encompassed by the invention unless otherwise indicated herein or otherwise clearly contradicted by context.
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