RIDING LAWN EQUIPMENT ENGINE SPEED CONTROL MODULE

Abstract

A riding lawn equipment engine speed control module has user actuated buttons that may be used to select from a plurality of operating modes, each mode having a different non-overlapping range of engine speeds; specify an engine speed within each mode; and continuously increase or decrease engine speed within each mode.

Claims

1. A riding lawn equipment engine speed control module, comprising: a plurality of mode buttons, each mode button providing a signal to operate an electronically controlled engine at a different range of engine speeds; and a user programmable button to specify an engine speed within the range of engine speeds for each of the mode buttons.

2. The riding lawn equipment engine speed control module of claim 1 further comprising at least one button to increment or decrement engine speed in the range of engine speeds.

3. The riding lawn equipment engine speed control module of claim 2 wherein the engine speed is incremented or decremented in stepped amounts.

4. The riding lawn equipment engine speed control module of claim 2 wherein the engine speed may be incremented or decremented to a maximum engine speed and a minimum engine speed.

5. The riding lawn equipment engine speed control module of claim 1 further comprising at least one button to continuously change engine speed within each mode.

6. The riding lawn equipment engine speed control module of claim 1 wherein at least one of the plurality of mode buttons also may be used to increment or decrement engine speed.

7. A riding lawn equipment engine speed control module, comprising: a user operated button that provides signals to an electronic control unit to set an engine speed within each of a plurality of different speed ranges; increase or decrease engine speed within each of the different speed ranges; and select a speed within each speed range.

8. The riding lawn equipment engine speed control module of claim 7 further comprising a user programmable memory to store the user selectable engine speed within each speed range.

9. The riding lawn equipment engine speed control module of claim 7 further comprising at least one button to select one of the speed ranges, and to increment or decrement engine speed within the speed range.

10. The riding lawn equipment engine speed control module of claim 7 wherein the different speed ranges do not overlap each other.

11. The riding lawn equipment engine speed control module of claim 7 further comprising a button to continuously change engine speed within any of the speed ranges.

12. A riding lawn equipment engine speed control module, comprising: a plurality of user actuated buttons that: select from a plurality of operating modes, each mode having a different non-overlapping range of engine speeds; specify an engine speed within each mode; continuously increase or decrease engine speed within each mode.

13. The riding lawn equipment engine speed control module of claim 12 further comprising at least one user actuated button that may be used for both selecting from a plurality of operating modes and continuously increasing or decreasing engine speed with the mode.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0007] FIG. 1 is a top perspective view of a riding lawn equipment engine speed control module used with riding lawn equipment according to a first embodiment of the invention.

[0008] FIG. 2 is a top perspective view of a riding lawn equipment engine speed control module according to a second embodiment of the invention.

[0009] FIG. 3 is a software logic diagram for a riding lawn equipment engine speed control module according to a second embodiment of the invention.

[0010] FIG. 4 is a software logic diagram of a user programmable button feature for the riding lawn equipment speed control module according to the first and second embodiments of the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENT

[0011] In a first embodiment shown in FIG. 1, riding lawn equipment engine speed control 100 may include module 102 having a plurality of operating mode selection buttons 104, 106, 108, increment and decrement buttons 110, 112, and user programmable button 114. Module 102 may be a sealed switch module and may be attached to the dash or control panel of riding lawn equipment, and electrically connected to electronic control unit 116 on electronically governed engine 118. Alternatively, the module may communicate with a vehicle controller, which then may communicate with an engine controller. Or the module may be attached to or combined with the vehicle controller. The electronically governed engine may hold engine speed constant while under varying loads due to terrain and turf thickness.

[0012] In a first embodiment, riding lawn equipment engine speed control module 102 may have high speed or performance mode button 104, medium speed or economy mode button 106, and low speed or transport mode button 108. When the high speed or performance mode button is actuated, the sealed switch module provides a high speed signal to the electronic control unit, and the electronic control unit operates the engine at a constant speed setting within a defined high engine speed range such as 3050 rpm to 3300 rpm. When the medium or economy mode button is actuated, the sealed switch module provides a medium speed signal to the electronic control unit, and the electronic control unit operates the engine at a constant speed setting within a medium engine speed range such as 2850 rpm to 3049 rpm. When the low or transport speed button is actuated, the sealed switch module provide a low speed signal to the electronic control unit, and the electronic control unit operates the engine at a constant speed setting within a low engine speed range such as 1900 rpm to 2849 rpm.

[0013] In a first embodiment, riding lawn equipment speed control module 102 may have increment engine speed button 110 and decrement engine speed button 112, which may be actuated to adjust engine speed within the range for the selected operating mode, up to the minimum and maximum engine speed for that mode. The increment and decrement engine speed buttons may increase or decrease engine speed by fixed amounts such as 50 rpm, or may increase or decrease engine speed continuously based on how long the operator presses the increment or decrement button.

[0014] In a first embodiment, riding lawn equipment speed control module 102 may have user programmable button 114, which may be used to program a preferred engine speed for one or more operating modes. Once the operator programs a preferred speed for an operating mode, he may use the mode select button again to signal the electronic control unit to operate the engine at the preferred speed, or return the engine to the preferred speed, when in that operating mode. As a result, the operator may customize the engine speed within each operating mode.

[0015] For example, as shown in the software logic diagram of FIG. 4, the electronic control unit may receive a signal from the module indicating the user programmable button is actuated in block 130. The electronic control unit may determine if the button is actuated for more than a specified time such as 3 seconds in block 132. If the button is not actuated more than the specified time, the electronic control unit does not change the setpoint in block 134. If it is actuated for more than the specified time, an indicator light on the module blinks in block 136. Then the electronic control unit sets the user programmable setpoint as the current engine speed in block 138, saves the new user programmable setpoint in block 140, and illuminates the indicator light again in block 142. As a result, the engine speed can be saved for later use.

[0016] In a second embodiment shown in FIG. 2, riding lawn equipment speed control module 152 may have high speed or performance mode button 154, medium or economy mode button 156, low or transport mode button 158, and user programmable button 160. In the second embodiment, the high speed or performance button also may be used to increment engine speed, and the low speed or transport button also may be used to decrement engine speed. For example, the electronic control unit may require actuation of the high speed or performance mode button for at least a specified time, such as 500 ms, to operate the engine within the high engine speed range. If the high speed or performance button is actuated less than 500 ms, the electronic control unit may increment engine speed within the range for the presently used operating mode. Similarly, the electronic control unit may require actuation of the low speed or transport mode button for at least a specified time, such as 500 ms, to operate the engine within the low engine speed range. If the low speed or transport mode button is actuated less than 500 ms, the electronic control unit may decrement engine speed within the range for the presently used operating mode. In the second embodiment, the user programmable button may function substantially the same as the user programmable button of the first embodiment.

[0017] FIG. 3 is a software logic diagram of the riding lawn equipment engine speed control of the second embodiment. The electronic control unit may start the software logic in block 200, may receive a signal from the engine indicating if the engine is running in block 202, and the logic may stop in block 204 if the engine is not running. If the engine is running, the electronic control unit may receive a signal from the module indicating if the high speed mode button is actuated in block 206. If the high button is actuated, the electronic control unit may determine if it is actuated for more than 500 ms in block 208. If the high button is actuated for more than 500 ms, the electronic control unit may signal the engine to run at a specified high engine speed such as high idle in block 210, which is within the range of speed settings for the high speed or performance mode. If the high button is not actuated more than 500 ms, the electronic control unit may determine that actuation is a request to increment engine speed in block 212. The electronic control unit then may determine if the request from the module will result in an engine speed that is less than the maximum allowed engine speed for the high speed or performance mode in block 214. If the electronic control unit determines the increment request will result in an engine speed that is less than the maximum allowed engine speed for the high speed mode, the electronic control unit may increment engine speed in block 216. If the increment request will result in an engine speed that is not less than the maximum speed for the high speed mode, the electronic control unit will operate the engine at the high idle speed in block 218, within the range for the high speed mode.

[0018] Still referring to FIG. 3, if the high speed mode button is not actuated, the electronic control unit may determine if the economy or medium speed button is actuated in block 220. If the economy mode button is actuated, the electronic control unit may signal the engine to run at a specified economy engine speed in block 222, which is within the range of speed settings for the economy or medium speed mode. If the economy mode button is not actuated, the electronic control unit may determine if the low speed or transport button is actuated in block 224. If the low button is not actuated, the logic may return to block 202. If the low button is actuated, the electronic control unit may determine if it is actuated for more than 500 ms in block 226. If the low button is actuated for more than 500 ms, the electronic control unit may signal the engine to run at a specified low engine speed such as low idle in block 228, which is within the range of speed settings for the low speed mode. If the low button is not actuated more than 500 ms, the electronic control unit may determine that actuation is a request to decrement engine speed in block 230. The electronic control unit then may determine if the decrement request will result in an engine speed that is greater than the minimum allowed engine speed for the low speed mode in block 232. If the decrement request will result in a speed that is greater than the minimum allowed engine speed for the low speed mode, the electronic control unit may decrement engine speed in block 234. If the decrement request will result in a speed that is not greater than the minimum speed for the low speed mode, the electronic control unit will operate the engine at the low idle speed in block 236, within the range for the low speed mode.

[0019] Having described the preferred embodiments, it will become apparent that various modifications can be made without departing from the scope of the invention as defined in the accompanying claims.