Abstract: A rear hinged pivotable hood for enclosing a tractor engine is disclosed wherein a hinge member pivotally mounts the hood to the tractor chassis for movement about a generally horizontal, transverse hinge access between a closed position in which the engine is inaccessibly covered and an opened position in which the engine is accessible. The engine hood includes a primary hood member that is pivotally movable about the hinge axis and a fixed portion that includes a pair of laterally spaced daily access doors pivotally mounted for outward movement to gain access to preselected frequently accessed service components of the engine. The lateral width of the primary hood member is substantially greater that the lateral spacing of the daily access doors so that the operator may have greater visibility of the position where said front tires engage the ground.
Type:
Grant
Filed:
October 5, 1994
Date of Patent:
June 3, 1997
Assignee:
New Holland North America, Inc.
Inventors:
David J. Templeton, Russell W. Strong, Robert D. Kurtz, Jr., Joseph C. Hurlburt, David L. Knight
Abstract: A combine harvester (1) is provided with a grain cleaning mechanism (12), comprising a fan (33) installed in a generally volute-shaped fan housing (72), having primary air inlets (73) in its side walls and a secondary air inlet (74) in its top wall. The housing (72) further has a main outlet duct (80) directed to a chaffer sieve (31) and a lower grain sieve (32) and an additional outlet duct (81) directed to a pre-cleaning sieve (29) and an associated grain pan (30). The secondary air inlet (74) is covered with a plurality of juxtaposed plates (75), comprising sets of louvres (76) which are opened rearwardly. Grain kernels which unwantedly fall off the leading edges of the sieves (29, 31, 32) or the grain pan (30) and into the outlet duct (80, 81), may be engaged and thrown upwardly by the blades (95) of the fan (33), but will be returned into the fan housing (72) by the louvres (76), which nevertheless do not obstruct an efficient air intake by the fan (33) .
Abstract: A round baler having a main frame, a bale forming chamber on the main frame, a pickup for feeding crop material into the chamber, and a tailgate pivotally connected to the main frame for rearwardly discharging completed bales. The chamber is defined by an apron extending around a plurality of guide rolls on the periphery of the chamber, the tailgate, and a floor. The bale forming chamber varies in size from a core starting position to a full bale position. A crop loading monitor having sensors in the bale forming chamber provides signals representing compactness of the crop material during bale formation. The signals are utilizable by the operator to enhance his capabilities for making properly shaped bales.
Abstract: A round baler having a frame, a baling chamber for forming cylindrical packages of crop material mounted on the frame, a pickup for feeding crop material into the chamber including a tubular rotatable shaft extending transverse of the frame and concentric with a stationary shaft also extending transverse of the frame. The tubular shaft is journalled via a bearing assembly including a generally cylindrical stationary first race and a concentrically disposed generally cylindrical rotatable second race between which races a bearing cavity is formed for seating a series of bearings housed between the first and second races. The first race is affixed to the stationary shaft and the second race is rotatable relative to the first race and affixed to the tubular shaft for rotating in concert therewith relative to the first race. An annular shaped cover encloses the cavity and has a first edge adjacent the stationary shaft.
Abstract: A heating element for the reservoir of the hydraulic system of an agricultural tractor is disclosed wherein the heating element is positioned within the interior of the inlet screen member. The heating element is formed with a threaded portion cooperable with the threaded opening of the screen member to permit mounting of the screen member directly on heating element, which in turn is threadably received in the interior wall of the hydraulic system reservoir. The screen member is sealed against the heating element to prevent the leakage of hydraulic fluid into the interior of the screen member. The heating element can be replaced with a stationary stud and sealed against the reservoir wall to allow the mounting of the screen member without utilization of the heating element.