A method for the destruction of data carriers preventing access to the process of rendering confidential data carriers, which consist of paper or similar material, unreadable and allowing the carriers to be destroyed. In the method, confidential data carriers are collected at the point of origin in secure collection containers, removed by a collection vehicle, and are supplied to a paper recycling plant in a final step. The interior of a mobile pulper, which is connected to the collection vehicle, is filled with the confidential data carriers, the carriers are mixed with a pulping fluid and the mixture is blended by an agitator to form a suspension of defibrated documents and pulping fluid, a hydromechanical pulping process taking place in the pulper before the suspension is supplied to the paper recycling plant.

A range extension system for a refuse vehicle includes a battery, and a controller. The battery is configured to provide electrical energy for accessories of the refuse vehicle. The controller is configured to obtain a state of charge of the battery and limit operation of at least one of the accessories in response to the state of charge of the battery to extend a transportation range of the refuse vehicle.

A system, method and device for waste measurement for garbage truck fleets operated by waste pickup service are provided. The waste measurement device comprises one or more visible light cameras; one or more volume sensors; and a controller. The waste measurement device is deployed in front of a hopper of the garbage truck and the device is configured to measure the waste volume in the hopper using the volume sensors. The method calculates the waste volume emptied from the waste container by at least subtracting the measurement of the volume in the hopper before loading from the measurement of the volume after loading. The system manages the waste pickup services having garbage truck fleet with the waste measurement devices. The system optimizes and monitors the system operation conditioned upon the measurements provided from the waste measuring devices.

A garbage truck camera and safety system includes a garbage truck having a lift arm mechanism, a hopper, and a trash compacting device disposed within the hopper. At least one camera and temperature sensor are disposed within the hopper. A control module is operably connected to the cameras and the temperature sensor, as well as to one or more vehicle systems, via a vehicle control interface disposed within the driver's cab. The control module includes a processor, a non-transitory computer readable medium operatively connected to the processor, and a logic stored in the non-transitory computer readable medium that, when executed by the processor, causes the system to detect, via the temperature sensor, the temperature within the hopper; and if the temperature detected is above a predetermined threshold temperature, then deactivating the trash compacting device. The system will prevent harm from being done to individuals who accidentally fall into the hopper.

A garbage truck camera and safety system includes a garbage truck having a lift arm mechanism, a hopper, and a trash compacting device disposed within the hopper. At least one camera and temperature sensor are disposed within the hopper. A control module is operably connected to the cameras and the temperature sensor, as well as to one or more vehicle systems, via a vehicle control interface disposed within the driver's cab. The control module includes a processor, a non-transitory computer readable medium operatively connected to the processor, and a logic stored in the non-transitory computer readable medium that, when executed by the processor, causes the system to detect, via the temperature sensor, the temperature within the hopper; and if the temperature detected is above a predetermined threshold temperature, then deactivating the trash compacting device. The system will prevent harm from being done to individuals who accidentally fall into the hopper.

A refuse vehicle includes a chassis, a body, and a plurality of battery cells. The chassis includes a right frame member and a left frame member spaced apart in a lateral direction and extending lengthwise in a longitudinal direction. The body is coupled to the chassis. The plurality of battery cells are longitudinally disposed along the chassis, positioned between the right frame member and the left frame member.

A refuse vehicle includes a chassis supporting a plurality of wheels, a battery supported by the chassis and configured to provide electrical power to a first motor, and an electric power take-off system coupled to the vehicle body. The electric power-take-off system includes a second motor configured to convert electrical power received from the battery into hydraulic power, an inverter configured to provide electrical power to the second motor from the battery, a heat dissipation device coupled to the inverter, a first sensor configured to detect thermal energy within the inverter, and a controller configured to receive data from the first sensor and provide operating parameters to the heat dissipation device, wherein the controller is further configured to determine if the data from the first sensor is greater than a critical operating condition and shut down the electric power take-off system in response.

A refuse vehicle includes a chassis supporting a plurality of wheels, a battery supported by the chassis and configured to provide electrical power to a first motor, and an electric power take-off system coupled to the vehicle body. The electric power-take-off system includes a second motor configured to convert electrical power received from the battery into hydraulic power, an inverter configured to provide electrical power to the second motor from the battery, a heat dissipation device coupled to the inverter, a first sensor configured to detect thermal energy within the inverter, and a controller configured to receive data from the first sensor and provide operating parameters to the heat dissipation device, wherein the controller is further configured to determine if the data from the first sensor is greater than a critical operating condition and shut down the electric power take-off system in response.

A refuse vehicle including an electric motor powered by a battery, a hydraulic pump driven by the electric motor, a manifold including a plurality of electrically actuated solenoid valves receiving hydraulic power from the hydraulic pump, a hydraulic actuator powered by the hydraulic pump via the manifold, and one or more processing circuits comprising one or more memory devices coupled to one or more processors, the one or more memory devices configured to store instructions thereon that, when executed by the one or more processors, cause the one or more processors to: determine a load applied to the hydraulic actuator, operate the manifold to provide regenerative flow of hydraulic fluid to the hydraulic actuator when the load is less than a threshold load, and operate the manifold to provide non-regenerative flow of hydraulic fluid to the hydraulic actuator when the load is greater than or equal to the threshold load.

An electrified vehicle includes a chassis and a plurality of battery cells positioned along the chassis. The chassis includes a right frame member and a left frame member spaced apart in a lateral direction. The right frame member and the left frame member both include vertical portions, first end portions extending from first ends of the vertical portions towards each other, and second end portions extending from second ends of the vertical portions towards each other. The right frame member and the left frame member are configured to support a cab and a body. The right frame member and the left frame member extend lengthwise in a longitudinal direction. The plurality of battery cells are coupled with the right frame member and the left frame member by fasteners that couple with the vertical portions of the right frame member and the left frame member.