A cutting assembly is configured to be coupled to a chassis of a mining machine. The cutting assembly includes a ranging arm configured to pivot about a pivot axis relative to the chassis, a motor supported by the ranging arm for the motor to move with the ranging arm about the pivot axis, and a drum including a plurality of cutting picks. The drum is supported by the ranging arm to be driven about a rotational axis by the motor. The cutting assembly includes a pitch adjustment actuator coupled to the ranging arm. The pitch adjustment actuator is operable to move the drum about a pitch axis. The pitch axis extends in a direction between the pivot axis and the rotational axis.

A cutting assembly is configured to be coupled to a chassis of a mining machine. The cutting assembly includes a ranging arm configured to pivot about a pivot axis relative to the chassis, a motor supported by the ranging arm for the motor to move with the ranging arm about the pivot axis, and a drum including a plurality of cutting picks. The drum is supported by the ranging arm to be driven about a rotational axis by the motor. The cutting assembly includes a pitch adjustment actuator coupled to the ranging arm. The pitch adjustment actuator is operable to move the drum about a pitch axis. The pitch axis extends in a direction between the pivot axis and the rotational axis.

The present invention pertains to a method for monitoring operation of a mining machine unit, particularly of a longwall mining system, having a shield unit connected to a material removing unit by means of an actuator for adjusting a distance between the shield unit and the material removing unit, the method comprises the steps of determining a position change of the shield unit during an actuating operation of the actuator; and a step of detecting a malfunction of the mining machine unit based on the determined position change.

The present invention pertains to a method for monitoring operation of a mining machine unit, particularly of a longwall mining system, having a shield unit connected to a material removing unit by means of an actuator for adjusting a distance between the shield unit and the material removing unit, the method comprises the steps of determining a position change of the shield unit during an actuating operation of the actuator; and a step of detecting a malfunction of the mining machine unit based on the determined position change.

Methods and systems of monitoring and controlling a longwall mining system. One system includes a shearer including a cutter drum and a sensor mounted to the shearer. The system also includes an electronic controller including a processor and a memory, the electronic controller communicatively coupled to the sensor. The electronic controller is configured to receive vibration data from the sensor and determine a current vibration level associated with the shearer based on the vibration data. The electronic controller is also configured to compare the current vibration level to a vibration threshold. The electronic controller is also configured to, in response to the current vibration level exceeding the vibration threshold, adjust a cutting parameter for the cutter drum of the shearer. The electronic controller is also configured to control the cutter drum with the adjusted cutting parameter.

Methods and systems of monitoring and controlling a longwall mining system. One system includes a shearer including a cutter drum and a sensor mounted to the shearer. The system also includes an electronic controller including a processor and a memory, the electronic controller communicatively coupled to the sensor. The electronic controller is configured to receive vibration data from the sensor and determine a current vibration level associated with the shearer based on the vibration data. The electronic controller is also configured to compare the current vibration level to a vibration threshold. The electronic controller is also configured to, in response to the current vibration level exceeding the vibration threshold, adjust a cutting parameter for the cutter drum of the shearer. The electronic controller is also configured to control the cutter drum with the adjusted cutting parameter.

A cutting assembly is configured to be coupled to a chassis of a mining machine. The cutting assembly includes a ranging arm configured to pivot about a pivot axis relative to the chassis, a motor supported by the ranging arm for the motor to move with the ranging arm about the pivot axis, and a drum including a plurality of cutting picks. The drum is supported by the ranging arm to be driven about a rotational axis by the motor. The cutting assembly includes a pitch adjustment actuator coupled to the ranging arm. The pitch adjustment actuator is operable to move the drum about a pitch axis. The pitch axis extends in a direction between the pivot axis and the rotational axis.

A cutting assembly is configured to be coupled to a chassis of a mining machine. The cutting assembly includes a ranging arm configured to pivot about a pivot axis relative to the chassis, a motor supported by the ranging arm for the motor to move with the ranging arm about the pivot axis, and a drum including a plurality of cutting picks. The drum is supported by the ranging arm to be driven about a rotational axis by the motor. The cutting assembly includes a pitch adjustment actuator coupled to the ranging arm. The pitch adjustment actuator is operable to move the drum about a pitch axis. The pitch axis extends in a direction between the pivot axis and the rotational axis.

Methods and systems of monitoring and controlling a longwall mining system. One system includes a shearer including a cutter drum and a sensor mounted to the shearer. The system also includes an electronic controller including a processor and a memory. The electronic controller is configured to receive an impact event indication associated with an impact event of the cutter drum, the impact event indication based on vibration data collected by the sensor. The electronic controller is also configured to retrieve additional data associated with the impact event indication and link the additional data with the vibration data of the impact event indication. The electronic controller is also configured to create and store an impact event record including the vibration data and the additional data. The electronic controller is configured to, in response to receiving a maintenance request, export the impact event record for display.

Methods and systems of monitoring and controlling a longwall mining system. One system includes a shearer including a cutter drum and a sensor mounted to the shearer. The system also includes an electronic controller including a processor and a memory, the electronic controller communicatively coupled to the sensor. The electronic controller is configured to receive vibration data from the sensor and determine a current vibration level experienced by a cutter drum of the shearer based on the vibration data. The electronic controller is also configured to compare the current vibration level to a vibration threshold. The electronic controller is also configured to detect an impact event associated with the cutter drum of the shearer based on the comparison and generate an impact event indication associated with the impact event.