Conveyor folding and moldboard operation for excavating and loading systems

Abstract

An excavating and loading system is disclosed which includes a vehicle with an excavating wheel assembly at the front and a plurality of conveyors toward the rear. The excavating wheel assembly comprises three excavating wheels having an overall width in excess of that of the remainder of the system. Each excavating wheel includes a plurality of digging buckets each comprising a wall supported for pivotal movement between a material receiving position and a material dumping position. The excavating wheel assembly is supported for vertical movement to vary the grade angle of the excavating made by the system, and a moldboard is linked to the excavating wheel assembly for movement therewith. Hydraulic cylinders may be utilized to vary the wheel assembly support provided by the moldboard in accordance with the material being excavated. The conveyors of the excavating and loading system include cross conveyors and a main conveyor for receiving material from the excavating wheels. The main conveyor transports the material rearwardly from the excavating wheel assembly and delivers the material to the opposite end of the vehicle. An auxiliary conveyor assembly is detachably supported at the opposite end of the vehicle to receive material from the main conveyor and to transport the material either laterally or rearwardly. The rear portion of the main conveyor is adapted to fold under the auxiliary conveyor assembly to reduce the overall height of the excavating and loading system during travel. The auxiliary conveyor assembly has a pair of conveyors mounted with the discharge end of one conveyor adjacent the receiving end of the other conveyor. The conveyors are mounted so that the relative attitude of the conveyors with respect to each other can be adjusted. Also, the conveyors can be selectivey positioned to discharge material from the end of either conveyor. A variably positionable deflector plate is provided to direct the discharge of material.

Description

Claims

1. An excavating wheel comprising:

a pair of spaced apart side plates mounted for rotation about and each extending radially outwardly with respect to a central axis of rotation;

a plurality of stationary walls each extending between the side plates and each having outwardly projecting material cutting means;

said stationary walls being stationary with respect to the side plates;

a plurality of movable walls each extending between the side plates for cooperation with one of the stationary walls to define a digging bucket;

said plurality of stationary walls and said plurality of movable walls cooperating with the side plates to define a plurality of digging buckets positioned immediately adjacent one another about the entire periphery of the excavating wheel;

each of said movable walls being supported by the side plates for pivotal movement between a material receiving position and a material dumping position;

means entirely enclosed by the digging buckets and the side plates and responsive to rotation of the excavating wheel for positively pivoting the movable wall of each digging bucket to the material receiving position during one portion of said rotation and for positively pivoting the movable wall of each digging bucket to the material dumping position during another portion of said rotation; and

said means for positively pivoting the movable wall of each digging bucket comprising:

a nondriven chain mounted for movement around a predetermined path;

a member defining a portion of the path of the chain and fixedly supported at a point offset from the rotational axis of the excavating wheel; and

means for connecting the movable wall of each bucket to the chain so that the chain and the member defringing a portion of the path of the chain cooperate to positively pivot each movable wall between its material receiving and material dumping positions.

2. An excavating wheel comprising:

a pair of spaced apart side plates mounted for rotation about and each extending radially outwardly with respect to a central axis of rotation;

a plurality of stationary walls each extending between the side plates and each having outwardly projecting material cutting means;

said stationary walls being stationary with respect to the side plates;

a plurality of movable walls each extending between the side plates for cooperation with one of the stationary walls to define a digging bucket;

said plurality of stationary walls and said plurality of movable walls cooperating with the side plates to define a plurality of digging buckets positioned immediately adjacent one another about the entire periphery of the excavating wheel;

each of said movable walls being supported by the side plates for pivotal movement between a material receiving position and a material dumping position;

means entirely enclosed by the digging buckets and the side plates and responsive to rotation of the excavating wheel for positively pivoting the movable wall of each digging bucket to the material receiving position during one portion of said rotation and for positively pivoting the movable wall of each digging bucket to the material dumping position during another portion of said rotation;

the movable wall pivoting means comprising:

a plurality of push rods each connected at one end to the movable wall of one of the buckets;

a nondriven chain interconnecting the ends of the push rods remote from the movable walls; and

a member defining a portion of the path of the chain and fixedly supported at a point offset from the rotational axis of the excavating wheel for engagement with each push rod to move the corresponding movable wall to the material dumping position.

3. An excavating wheel comprising:

means defining a central axis of rotation;

a pair of spaced apart side plates each extending radially outwardly with respect to the axis;

a plurality of stationary walls each extending between the side plates and each having outwardly projecting material cutting means;

said stationary walls being stationary with respect to the side plates;

a plurality of movable walls each extending between side plates for cooperation with one of the stationary walls to define a digging bucket;

said plurality of stationary walls and said plurality of movable walls cooperating with the side plates to define a plurality of digging buckets positioned immediately adjacent one another about the entire periphery of the excavating wheel;

each of said movable walls being supported by the side plates for pivotal movement between a material receiving position and a material dumping position;

an elongate, substantially flexible, endless member entirely enclosed by the digging buckets and the side plates;

a plurality of push rods positioned within the digging buckets and each interconnecting the elongate, flexible, endless member and one of the movable walls; and

means defining a course of rotation of the elongate, flexible, endless member including a portion concentric with the axis and a portion offset from the axis so that the elongate, flexible, endless member and the push rods function to positively pivot each movable wall to the material receiving position during one portion of the rotation of the excavating wheel and to positively pivot each movable wall to the material dumping position during another portion of said rotation.

4. The excavating wheel according to claim 3 wherein the elongate, flexible, endless member comprises a nondriven chain and wherein the course defining means includes a roller supported for rotation about an axis extending parallel to and offset from the axis of rotation of the excavating wheel.

5. The excavating wheel according to claim 3 wherein the elongate, flexible, endless member comprises a roller chain and wherein the course defining means includes a saddle secured to the axis defining means and extending radially outwardly therefrom.