The present disclosure generally relates to work vehicles, such as skid steers, compact track loaders, and more particularly to an apparatus and method for controlling the operation of an attachment coupler of a work vehicle.
In order to control an attachment coupler coupled to a variety of attachments having pitch, tilt, and angle adjustment, multiple setting changes are commonly required to an operator input device.
In one embodiment, a work vehicle is disclosed. The work vehicle comprises a frame. At least one ground engaging device is coupled to the frame and configured to support the frame above a surface. A boom assembly is coupled to the frame. The boom assembly is configured to move from a frame contact position to a raised position. At least one boom actuator is coupled to the boom assembly and configured to move the boom assembly. An attachment coupler is coupled to the boom assembly. The attachment coupler is configured to move from a lower position to an upper position. At least one attachment coupler actuator is coupled to the attachment coupler and configured to move the attachment coupler. A boom sensor is configured to generate a boom signal indicative of a position of the boom assembly. An attachment coupler sensor is configured to generate an attachment signal indicative of a position of the attachment coupler. An operator input device is configured for receiving an operator input in at least one mode. An electronic data processor is communicatively coupled to the boom actuator, the attachment coupler actuator, the boom sensor, the attachment coupler sensor, and the operator input device. The electronic data processor is configured to receive the boom signal, the attachment signal, and the operator input. A computer readable storage medium comprising machine readable instructions that, when executed by the electronic data processor, cause the electronic data processor to receive the operator input and for a tilt forward command, command the boom actuator to move the boom assembly to the frame contact position and then command the attachment coupler actuator to move the attachment coupler towards the lower position. For a tilt rearward command, command the attachment coupler actuator to move the attachment coupler towards the upper position and then command the boom actuator to move the boom assembly towards the raised position.
In another embodiment, a method for controlling the operation of an attachment coupler coupled to a boom assembly of a work vehicle is disclosed. The method comprises providing an electronic data processor communicatively coupled to a boom actuator configured to move the boom assembly and an attachment coupler actuator configured to move the attachment coupler. The method further comprises generating a boom signal indicative of a position of the boom assembly with a boom sensor. The method comprises generating an attachment signal indicative of a position of the attachment coupler with an attachment coupler sensor. The method further comprises receiving an operator input from an operator input device configured for receiving the operator input in at least one mode. The method further comprises receiving the boom signal, the attachment signal, and the operator input with the electronic data processor. The method comprises providing a computer readable storage medium comprising machine readable instructions that, when executed by the electronic data processor, cause the electronic data processor to receive the operator input and for a tilt forward command, command the boom actuator to move the boom assembly to a frame contact position and then command the attachment coupler actuator to move the attachment coupler towards a lower position, for a tilt rearward command, command the attachment coupler actuator to move the attachment coupler towards an upper position and then command the boom actuator to move the boom assembly towards a raised position.
In yet another embodiment, a compact track loader comprises a frame. At least one ground engaging device is coupled to the frame and configured to support the frame above a surface. A boom assembly is coupled to the frame. The boom assembly is configured to move from a frame contact position to a raised position. At least one boom actuator is coupled to the boom assembly and configured to move the boom assembly. An attachment coupler is coupled to the boom assembly. The attachment coupler is configured to move from a lower position to an upper position. At least one attachment coupler actuator is coupled to the attachment coupler and configured to move the attachment coupler. An attachment is coupled to the attachment coupler. The attachment is configured to rotate relative to the attachment coupler. An attachment actuator is coupled to the attachment and configured to move the attachment. A boom sensor is configured to generate a boom signal indicative of a position of the boom assembly. An attachment coupler sensor is configured to generate an attachment signal indicative of a position of the attachment coupler. An operator input device is configured for receiving an operator input in at least one mode. An electronic data processor is communicatively coupled to the boom actuator, the attachment coupler actuator, the attachment actuator, the boom sensor, the attachment coupler sensor, and the operator input device. The electronic data processor is configured to receive the boom signal, the attachment signal, and the operator input. A computer readable storage medium comprising machine readable instructions that, when executed by the electronic data processor, cause the electronic data processor to receive the operator input and for a tilt forward command, command the boom actuator to move the boom assembly to the frame contact position and then command the attachment coupler actuator to move the attachment coupler towards the lower position. For a tilt rearward command, command the attachment coupler actuator to move the attachment coupler towards the upper position and then command the boom actuator to move the boom assembly towards the raised position.
Other features and aspects will become apparent by consideration of the detailed description and accompanying drawings.
Before any embodiments are explained in detail, it is to be understood that the disclosure is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the following drawings. The disclosure is capable of other embodiments and of being practiced or of being carried out in various ways. Further embodiments of the invention may include any combination of features from one or more dependent claims, and such features may be incorporated, collectively or separately, into any independent claim.
As used herein, unless otherwise limited or modified, lists with elements that are separated by conjunctive terms (e.g., “and”) and that are also preceded by the phrase “at least one of” or “one or more of” indicate configurations or arrangements that potentially include individual elements of the list, or any combination thereof. For example, “at least one of A, B, and C” or “one or more of A, B, and C” indicates the possibilities of only A, only B, only C, or any combination of two or more of A, B, and C (e.g., A and B; B and C; A and C; or A, B, and C).
An operator's station 40 is coupled to the frame 15. The operator's station 40 may have a door (not shown). An operator input device 45 may be positioned in the operator's station 40.
With reference to
Referring to
With reference to
Referring to
An attachment 215 is coupled to the attachment coupler 160. The attachment 215 comprises an attachment frame 220 coupled to the attachment coupler 160. A dozer blade 225 or a bucket 227 (
With reference to
Referring to
With reference to
Referring to
In mode 90, the first mode 95, and the dozer mode 110, for the tilt forward command 290, the boom actuator 130 is commanded to move the boom assembly 115 to the frame contact position 150 and then the attachment coupler actuator 170 is commanded to move the attachment coupler 160 towards the lower position 175. For the tilt rearward command 295, the attachment coupler actuator 170 is commanded to move the attachment coupler 160 towards the upper position 180 and then the boom actuator 130 is commanded to move the boom assembly 115 towards the raised position 155. For the rotate right command 300, the attachment actuator 230 is commanded to rotate the attachment 215 towards the right 70. For the rotate left command 305, the attachment actuator 230 is commanded to rotate the attachment 215 towards the left 65.
With reference to
In the second mode 100, for the boom lower command 310, the boom actuator 130 is commanded to move the boom assembly 115 towards the frame contact position 150. For the boom raise command 315, the boom actuator 130 is commanded to move the boom assembly 115 towards the raised position 155. For the tilt forward command 290, the attachment coupler actuator 170 is commanded to tilt the attachment coupler 160 towards the lower position 175, for the tilt rearward command 295, command the attachment coupler actuator 170 to tilt the attachment coupler 160 towards the upper position 180.
Alternatively in another embodiment, referring to
Referring to
With reference to
Referring to
With reference to
In Step 335, the method further comprises generating the boom signal 260 indicative of the position of the boom assembly 115 with the boom sensor 255.
In Step 340, the method comprises generating the attachment signal 270 indicative of the position of the attachment coupler 160 with the attachment coupler sensor 265.
In Step 345, the method further comprises receiving the operator input 85 from the operator input device 45 configured for receiving the operator input 85 in the first mode 95 or the second mode 100. The operator input 85 in the first mode 95 or the dozer control mode 110 comprises at least one of the tilt forward command 290, the tilt rearward command 295, the rotate right command 300, or the rotate left command 305, and the operator input 85 in the second mode 100 comprises at least one of the boom lower command 310, the boom raise command 315, the tilt forward command 290, or the tilt rearward command 295.
In Step 350, the method comprises receiving the boom signal 260, the attachment signal 270, and the operator input 85 with the electronic data processor 275.
In Step 355, the method further comprises providing the computer readable storage medium 280 comprising machine readable instructions 285 that, when executed by the electronic data processor 275, cause the electronic data processor 275 to receive the operator input 85 and, in the first mode 95 or the dozer control mode 110, for the tilt forward command 290, command the boom actuator 130 to move the boom assembly 115 to the frame contact position 150 and then command the attachment coupler actuator 170 to move the attachment coupler 160 towards the lower position 175. For the tilt rearward command 295, command the attachment coupler actuator 170 to move the attachment coupler 160 towards the upper position 180 and then command the boom actuator 130 to move the boom assembly 115 towards the raised position 155. For the rotate right command 300, command at least one attachment actuator 230, coupled to the attachment 215 and configured to rotate the attachment 215 relative to the attachment coupler 160, to rotate the attachment 215 towards the right 70. For the rotate left command 305, command the attachment actuator 230 to rotate the attachment 215 towards the left 65. In the second mode 100, for the boom lower command 310, command the boom actuator 130 to move the boom assembly 115 towards the frame contact position 150. For the boom raise command 315, command the boom actuator 130 to move the boom assembly 115 towards the raised position 155. For the tilt forward command 290, command the attachment coupler actuator 170 to tilt the attachment coupler 160 towards the lower position 175. For the tilt rearward command 295, command the attachment coupler actuator 170 to tilt the attachment coupler 160 towards the upper position 180.
With reference to
In Step 365, the method further comprises generating the boom signal 260 indicative of the position of the boom assembly 115 with the boom sensor 255.
In Step 370, the method comprises generating the attachment signal 270 indicative of the position of the attachment coupler 160 with the attachment coupler sensor 265.
In Step 375, the method further comprises receiving the operator input 85 from the operator input device 45 configured for receiving the operator input 85 in the first mode 95 or the second mode 100. The operator input 85 in the first mode 95 comprises at least one of the tilt forward command 290, the tilt rearward command 295, the rotate right command 300, or the rotate left command 305, and the operator input 85 in the second mode 100 comprises at least one of the boom lower command 310, the boom raise command 315, the tilt forward command 290, or the tilt rearward command 295.
In Step 380, the method comprises receiving the boom signal 260, the attachment signal 270, and the operator input 85 with the electronic data processor 275.
In Step 385, the method further comprises providing the computer readable storage medium 280 comprising machine readable instructions 285 that, when executed by the electronic data processor 275, cause the electronic data processor 275 to receive the operator input 85 and, in the first mode 95, for the tilt forward command 290, command the boom actuator 130 to move the boom assembly 115 to the frame contact position 150 and then command the attachment coupler actuator 170 to move the attachment coupler 160 to the predetermined lower position 200 while preventing the attachment coupler 160 from moving to the lower position 175, for the tilt rearward command 295, command the attachment coupler actuator 170 to move the attachment coupler 160 to the predetermined upper position 205 while preventing the attachment coupler 160 from moving to the upper position 180 and then command the boom actuator 130 to move the boom assembly 115 to the raised position 155, for the rotate right command 300, command the attachment actuator 230 to rotate the attachment coupler 160 towards the right 70, for the rotate left command 305, command the attachment actuator 230 to rotate the attachment coupler 160 towards the left 65 and, in the second mode 100, for the boom lower command 310, command the boom actuator 130 to move the boom assembly 115 lower, for the boom raise command 315, command the boom actuator 130 to move the boom assembly 115 higher, for the tilt forward command 290, command the attachment coupler actuator 170 to tilt the attachment coupler 160 forward, for the tilt rearward command 295, command the attachment coupler actuator 170 to tilt the attachment coupler 160 rearward.