A refuse vehicle includes a chassis, an energy storage device, a body, an electric power take-off system, and a disconnect. The energy storage device is supported by the chassis and is configured to provide electrical power to a prime mover. Activation of the prime mover selectively drives the refuse vehicle. The body is supported by the chassis and defines a receptacle for storing refuse. The electric power take-off system is positioned on the refuse vehicle, and includes a motor that is configured to drive a hydraulic pump to convert electrical power received from the energy storage device into hydraulic power. The disconnect is positioned between the energy storage device and the electric power take-off system and is configured to selectively decouple the electric power take-off system from the energy storage device.

Operating a refuse collection vehicle to collect refuse from a refuse container includes positioning a refuse collection vehicle with respect to a refuse container to be emptied, and manually engaging a switch to initiate a dump cycle to be performed by the refuse collection vehicle on the refuse container. The dump cycle includes engaging the refuse container with a portion of the vehicle, lifting the engaged refuse container to a dump position, and moving the refuse container to release contents of the refuse container into a hopper of the refuse collection vehicle. The dump cycle continues to completion as long as the switch remains manually engaged.

A vehicle includes a chassis, aa body assembly coupled to the chassis, the body assembly defining a compartment, and a thermal event monitoring system comprising a sampling element configured to detect a thermal event associated with the vehicle indicating at least one of a fire or an overheating component. The thermal event monitoring system is configured to reroute the vehicle, in response to detecting the thermal event, to a safe location comprising one of (a) a service location, (b) a fire station, or (c) an area having a lower population density than a current location of the vehicle.

A content collection system and method for curbside collecting of multiple segregated recycled material streams stored in a product storage container. The product storage container can include a compartment and a door associated with the compartment. A product collection interface is associated with a product collection vehicle, and is configured to engage with any configuration of product storage container. A product transfer module is associated with the product collection interface and is configured to receive content from the product storage container. The product transfer module includes weight sensors to calculate the weight of content in the product transfer module. A release mechanism is configured to discharge the content from the product transfer module to a bulk product holding unit associated with the vehicle. Software application can be utilized to request collection and/to receive collection data. Computer systems can be utilized to control operations of the system.

A content collection system and method for curbside collecting of multiple segregated recycled material streams stored in a product storage container. The product storage container can include a compartment and a door associated with the compartment. A product collection interface is associated with a product collection vehicle, and is configured to engage with any configuration of product storage container. A product transfer module is associated with the product collection interface and is configured to receive content from the product storage container. The product transfer module includes weight sensors to calculate the weight of content in the product transfer module. A release mechanism is configured to discharge the content from the product transfer module to a bulk product holding unit associated with the vehicle. Software application can be utilized to request collection and/to receive collection data. Computer systems can be utilized to control operations of the system.

A refuse vehicle includes a chassis having a chassis frame member, a refuse collection body having a body frame member, and a battery mounted to the chassis frame member, and a body tie-down assembly. The body tie-down assembly includes a chassis mounting member, a body mounting member, a spring assembly, and a retainer plate. The body mounting member has brackets that define a cavity and retaining slots. The top member of the chassis mounting member may be received within the cavity defined by the brackets. The spring assembly includes a spring, a bolt, and a nut. The retainer plate includes a slot. The bolt further extends through a top member of the chassis mounting member and the slot of the retainer plate and receives the nut. The bolt is received within the retaining slots during removal of the bolt to prohibit the bolt from coming in contact with the battery.

A refuse vehicle includes a chassis having a chassis frame member, a refuse collection body having a body frame member, and a battery mounted to the chassis frame member, and a body tie-down assembly. The body tie-down assembly includes a chassis mounting member, a body mounting member, a spring assembly, and a retainer plate. The body mounting member has brackets that define a cavity and retaining slots. The top member of the chassis mounting member may be received within the cavity defined by the brackets. The spring assembly includes a spring, a bolt, and a nut. The retainer plate includes a slot. The bolt further extends through a top member of the chassis mounting member and the slot of the retainer plate and receives the nut. The bolt is received within the retaining slots during removal of the bolt to prohibit the bolt from coming in contact with the battery.

A refuse vehicle including a chassis, a body assembly coupled to the chassis, the body assembly defining a refuse compartment, an electric energy system configured to store power and supply power to the refuse vehicle, and a power control system configured to measure one or more electrical attributes of the refuse vehicle and determine a power profile for the refuse vehicle, the power profile describing a length of time the refuse vehicle can continue to operate based on a remaining power of the electrical energy system, and wherein the power control system controls operation of a lift assembly of the refuse vehicle based on the power profile.

Systems and methods are provided for using video/still images captured by continuously recording optical sensors mounted on waste collection vehicles used in in the waste collection, disposal and recycling industry for operational and customer service related purposes. A system is provided for auditing the fill status of a customer waste container by a waste services provider during performance of a waste service activity.

Systems and methods are provided for using video/still images captured by continuously recording optical sensors mounted on waste collection vehicles used in in the waste collection, disposal and recycling industry for operational and customer service related purposes. A system is provided for auditing the fill status of a customer waste container by a waste services provider during performance of a waste service activity.