The present disclosure relates to a work machine having a cab. More specifically, the present disclosure relates to work machine, such as a skid steer loader or a compact track loader, having removable toe boxes that allow for the rotation of the cab for access to equipment.
Compact loaders, such as skid steer loaders (SSL) or compact track loaders (CTL), are relatively small work machines that can provide a variety of lifting and moving functions in tight spaces. Well balanced and highly maneuverable, compact loaders often are used in rugged outdoor environments, such as with heavy construction or mining. A compact loader has lift arms that pivot on left and right sides of the frame and a work tool such as a shovel manipulated by the lift arms. Wheels or tracks that may be separately driven, combined with the relatively small size of the loader, contribute to the high maneuverability of the machine. An operator cab is centered or somewhat forward on a frame where an operator controls the compact loader. A conventional SSL/CTL includes a cab with a sheet metal (or other sturdy material) floor to support the operator's seat and feet. A fully-enclosed (or sealed), rotatable machine cab can provide advantages over conventional skid steer loaders.
A cab of an SSL/CTL may need to be moved in some manner to allow for the inspection or maintenance of equipment located underneath the cab. A first design may be a two-part cab which improves the foot space by rotating the portion of cab above the tilt cylinder and the floor area stays in place. However, the two-part cab has disadvantages such as blocking service access for components underneath the floor area and reduced sealing performance. A second design includes tilting of the cab from the front. This geometry makes service access more difficult. Generally, the lift arms are required to raise prior to tilting the cab.
An example of a conventional cab system may be found in U.S. Pat. No. 10,000,244 (the '244 patent). In particular, the '244 patent describes a vehicle with a “pod” that can be rotated between an open and closed position. For example, FIG. 3 of the '244 patent shows the pod in a fully rotated or open position, whereas FIG. 1 of the '244 patent shows the pod in a fully closed position. In the case of a tilt-able cab, the use of tilt cylinders, along with the geometry of the SSL/CTL cabs in general, may limit the interior dimensions of the cab itself.
Examples of the present disclosure are directed to overcoming deficiencies of such systems.
In some examples, a machine is described. The machine includes a frame defining a horizontal axis and a vertical axis for the work machine, the frame having a left side and a right side with respect to a direction of forward travel of the work machine, traction devices coupled to the left side and the right side of the work machine, a lift arm pivotably attached to the frame through a linkage, a lift arm cylinder pivotably attached to the lift arm and the frame, the lift arm cylinder when extended causing the lift arm to move to a lifted position and when retracted causing the lift arm to move to a lowered position, a cab rotatably attached to the frame through a hinge, wherein the cab is rotatable from a closed position to an open position, and at least one toe box removably affixed to a portion of the cab, wherein when the toe box is detached from the cab, the cab is rotatable from the closed position to the open position without contacting an exterior portion of the lift arm cylinder.
In another example, a cab for use in a machine is described. The cab includes a left side wall, a right side wall, a ceiling, a floor, wherein the left side wall, the right side wall, the ceiling, and the floor provide an interior of the cab, and a toe box removably affixed to the floor of the cab.
In a still further example, a toe box for use in a cab of a machine is described. The toe box includes, a side wall, a front wall connected to a front wall, the front wall extending normally from a distal end of the side wall, and a lip continuously extending out from the side wall and the front wall to provide a location to removably affix the toe box to the cab.
Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or like parts.
Similarly, the term “machine” as used in this disclosure refers to any machine that performs some type of work operation associated with an industry, such as mining, construction, farming, landscaping, or transportation. Compact loaders, such as a compact track loader as illustrated for work machine 100, may perform many work functions across a range of industries. The principles of this disclosure could be applied to other machines having more focused capabilities, such as a wheel loader, excavator, dump truck, backhoe, motor grader, material handler or the like.
As generally embodied in
Work machine 100 includes continuous tracks 114 on its left side 106 and right side 108 that rotationally propel the machine. A set of wheels 116 is enclosed by, and at least some of those wheels are engaged with, tracks 114 and causes tracks 114 to rotate and move work machine 100. Work machine 100 can cause tracks 114 to operate at multiple speeds and in a forward and a reverse direction. Tracks 114 are independently controlled and activated, thereby enabling turning of work machine 100 outside of a linear path, often within a small radius, and providing overall skid-steering maneuverability.
In addition, a pair of lift arms 118 are pivotably attached to frame 102 through a linkage 119 and extend longitudinally in the X-axis on both left side 106 and right side 108 of work machine 100. Lift arms 118 rotate in conjunction with linkage 119 around pivot points 120 near the top side 110 to provide a raising and lowering action for the front of lift arms 118. Although not shown in the figures, lift arms 118 support a work tool at their ends at front side 104 of work machine 100 for executing a work function. The work tool may be any item for assisting in executing a function, typically a loader or bucket. Any other tool could alternatively be attached depending on the need, such as a pallet fork, broom, grinder, tiller, rake, blade, or auger. The lift arms 118 may be raised or lowered using one or more lift arm cylinders, as described in more detail in
As shown in
Work machine 100 also includes an engine compartment 124 that is rear mounted on frame 102. By “rear mounted,” it is meant that engine compartment 124 is positioned closer to rear side 112 of work machine 100 than to front side 104. More specifically, engine compartment 124 is mounted behind the cab 122, along the X-axis as in
A grille 126 is positioned along a back wall of at least a portion of engine compartment 124 at a rear side 112 of work machine 100. Grille 126, representatively shown in
While
The cab assembly 200 may further include a support structure 236 of the frame 102. As used herein, the support structure 236 is part of the frame 102 and may be used interchangeably. The support structure 236 of the frame 102 provides an installation location upon which the cab 122 and other equipment described herein may be rotatably affixed. The cab assembly 200 further includes the lift arm 118 that is movably attached to the support structure 236. The lift arm 118 may be mated to one or more devices such as a backhoe, bucket, extended arms for loading items such as crates or equipment, and the like to perform a function. A lift arm cylinder, such as cylinder 238, may be used to manipulate devices connected to the lift arm 118. The cylinder 238 is a hydraulic or pneumatic cylinder and is pivotably attached to the lift arm and the frame of the work machine 100. Retracting or extending the cylinder 238 in response to an operator input performs functions such manipulation of a bucket, the lift arm 118 itself, and other functions depending on the configuration of the work machine 100. The presently disclosed subject matter is not limited to any particular equipment or configuration of the lift arm 118 or the cylinder 238.
The cab 122 further includes a toe box 240, which will be described in more detail below. The toe box 240 is a removably affixed portion of the cab 122 that, when installed, provides an operator with additional space within the interior space 230 of the cab 122 near the area in the interior space 230 of the cab 122 in which the operator's feet are positioned. The toe box 240 extends out from the cab 122 to provide that additional space. However, by extending out from the cab 122, the toe box 240 may block the movement of the cab 122 past an exterior portion 242 of the cylinder 238 proximate to an exterior portion 244 of the toe box 240. If installed on the cab 122 when the cab 122 is rotated, the exterior portion 244 of the toe box 240 may impinge or impact the exterior portion 242 of the cylinder 238.
In various examples disclosed herein, and as indicated by the arc AB shown in
In
The first set of functions and the second set of functions may be programmable and modifiable based on the configuration of the machine with which the cab 122 is used. For example, the first operating pedal 466A may be programmed to move the machine forward or backward and the second operating pedal 466B may be used to tilt or manipulate the lift arms 118. It should be noted that the presently disclosed subject matter is not limited to any particular functional configuration of the first operating pedal 466A or the second operating pedal 466B, or, require that the first operating pedal 466A or the second operating pedal 466B provide any functionality. For example, the second operating pedal 466B may be a stationary surface upon which an operator's foot may rest. The cab 122 may further include a seat module 468 upon which a seat for use by the operator may be attached to allow the operator to sit down during the operation of the machine.
As noted above, the use of toe boxes, such as the toe box 240 and a corresponding toe box 470 can extend the space available to an operator. This additional space is illustrated in
The shape and form of the toe boxes 240 and 470 are configured to allow for additional space for the operator's feet and other equipment, such as the first operating pedal 466A and the second operating pedal 466B. For example, the toe box 240 includes a side wall 476 connected to a front wall 478 extending normally from a distal end 480 of the side wall 476. The front wall 478 of the toe box 240 may be shaped to extend further past the front wall 464 of the cab 122 to provide additional space, as illustrated in
The screws 800A-800N, or whatever technology is used to removably affix the toe box 470 to the cab 122, may be used to create a seal between the toe box 470 and the cab 122. In some examples, a seal interface 802, such as gasket, rubber interface, or the like, is provided by which the toe box 470 is sealed to the cab 122. The seal interface 802 may be a deformable plastic or polymer that allows for a surface of the toe box 470 to at least partially seal to a surface of the cab 122. The seal interface 802 in some configurations abuts to at least a portion of the lip 482 described in
When the toe box 470 is detached from the cab 122, a tether 804 may be used to attach the toe box 470 to the cab 122. The tether 804 may be a metallic, semi-metallic, cloth, polymer, or other material that maintains a point of attachment of the toe box 470 to the cab 122 when the toe box 470 is detached from the cab 122. Also illustrated in
The present disclosure relates generally to the use of removable toe boxes in cabs. In some examples, the benefits of a front tilting cab are provided along with providing additional foot space by the use of removable toe boxes. Various examples of the presently disclosed subject matter provides a system which improves the foot space in a skid steer or a compact track loader cab. Specifically, the system uses a removable panel in the toe/floor area of the cab. The removable panel allows the rotation of cab with the lift arms in the down position and also creates an additional floor space when installed and not rotated. Additionally, the cab can be tilted with the lift arms in the raised position without removing the panel. The system improves the sealing performance compared to a two-part cab.
The use of a removable toe box can increase the amount of space proximate to the feet of an operator of a machine. However, the exterior of the toe box may extend far enough to impact or hit a cylinder used to lift a lift arm of the machine. To provide for the benefits of a toe box while still allowing for the rotation of the cab, the toe boxes can be removed. Removing the toe boxes provides a space through which equipment such as the cylinder can travel through as the cab is rotated. Thus, using the technologies and systems described herein can provide not only an increase in operator comfort, which may increase operational time while decreasing fatigue, but allow for the access of the equipment below the cab without having to configure the machine in a potentially dangerous position, such as a lifted lift arm.
For example, in areas in which there may be a lot of dust or dirt, a sealed (or partially sealed) cab 122 can reduce or prevent the probability of dust or dirt entering the cab 122. This can reduce contamination of interior spaces of the cab 122 and provide a more comfortable, cleaner working space for an operator of the machine. In other examples, a sealed (or partially sealed) cab 122 can provide for a conditioned air space inside the cab 122. For example, the cab 122 may be heated or cooled to provide a more comfortable working area for an operator.
Unless explicitly excluded, the use of the singular to describe a component, structure, or operation does not exclude the use of plural such components, structures, or operations or their equivalents. As used herein, the word “or” refers to any possible permutation of a set of items. For example, the phrase “A, B, or C” refers to at least one of A, B, C, or any combination thereof, such as any of: A; B; C; A and B; A and C; B and C; A, B, and C; or multiple of any item such as A and A; B, B, and C; A, A, B, C, and C; etc.
While aspects of the present disclosure have been particularly shown and described with reference to the embodiments above, it will be understood by those skilled in the art that various additional embodiments may be contemplated by the modification of the disclosed machines, systems and methods without departing from the spirit and scope of what is disclosed. Such embodiments should be understood to fall within the scope of the present disclosure as determined based upon the claims and any equivalents thereof.
This application claims the benefit of U.S. Provisional Application No. 63/245,777 filed Sep. 17, 2021, entitled “Removable Cab Toe Box for a Work Machine”, which is incorporated herein by reference in its entirety.
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