A movable battery replacing platform includes a travel-driving portion used for driving the movable battery replacing platform to move on the ground; a lifting portion mounted on the travel-driving portion, for lifting a battery during the replacement of the battery; and a battery mounting portion mounted on the top of the lifting portion, for placing a battery to be replaced or a replaced battery. The battery mounting porting is provided with a battery replacing device. The device can use an unlocking device to unlock a battery locked on the bottom of an electric vehicle, automatically aligning an unlocking point of a battery locking mechanism and realizing automatic unlocking in the movement. The angle of an upper board relative to the battery unlocking position can be adjusted by a movement actuating device, so that the unlocking point of the battery can automatically fit where the movable battery replacing platform remains still.

A movable battery replacing platform includes a travel-driving portion used for driving the movable battery replacing platform to move on the ground; a lifting portion mounted on the travel-driving portion, for lifting a battery during the replacement of the battery; and a battery mounting portion mounted on the top of the lifting portion, for placing a battery to be replaced or a replaced battery. The battery mounting porting is provided with a battery replacing device. The device can use an unlocking device to unlock a battery locked on the bottom of an electric vehicle, automatically aligning an unlocking point of a battery locking mechanism and realizing automatic unlocking in the movement. The angle of an upper board relative to the battery unlocking position can be adjusted by a movement actuating device, so that the unlocking point of the battery can automatically fit where the movable battery replacing platform remains still.

A movable battery replacing platform includes a travel-driving portion used for driving the movable battery replacing platform to move on the ground; a lifting portion mounted on the travel-driving portion, for lifting a battery during the replacement of the battery; and a battery mounting portion mounted on the top of the lifting portion, for placing a battery to be replaced or a replaced battery. The battery mounting porting is provided with a battery replacing device. The device can use an unlocking device to unlock a battery locked on the bottom of an electric vehicle, automatically aligning an unlocking point of a battery locking mechanism and realizing automatic unlocking in the movement. The angle of an upper board relative to the battery unlocking position can be adjusted by a movement actuating device, so that the unlocking point of the battery can automatically fit where the movable battery replacing platform remains still.

An industrial truck comprises a drive part comprising a battery compartment and a battery having a cladded exterior surface and is positioned within a housing. The housing is configured to be positioned within the battery compartment. An electrical plug connector is configured to be electrically connected to the battery such that the electrical plug connector is configured to supply power to the battery during a charging process. The electrical plug connector has a plug-in direction for an external electrical plug connector and the plug-in direction has an angle of 20° to 70° relative to a horizontal axis.

Systems and methods for mobile dimensioning and weighing are disclosed. An example mobile weighting and dimensioning system includes a truck scale system and a tape measure. The truck scale system includes: a fork scale to weigh a parcel that is held by forks; and a weight indicator to receive an indication of the weight of the parcel from the fork scale. The tape measure includes: a tape cartridge to spool and unspool a tape having electronically readable indicia; a measurement circuit to determine linear dimensions of the parcel by reading the electronically readable indicia in response to trigger events; and a communications circuit to transmit the first linear dimension of the parcel to the weight indicator. The weight indicator associates the weight and the first linear dimension with an identifier of the parcel, and transmits the weight, the first linear dimension, and the identifier to a computing system.

A transportation apparatus includes a delivering device, an elevating unit and a loading device. The delivering device is horizontally movable. The elevating unit is disposed under and mounted to the delivering device, and is vertically extendable and contractible relative to the delivering device. The loading device is adapted for loading and unloading an object, and includes a moving unit and a fork unit. The moving unit includes a moving base horizontally movable along a lower first axis parallel to a first direction relative to the elevating unit. The fork unit includes two fork prongs being horizontally spaced apart from each other along a second direction which is transverse to the first direction.

Described is a rotary telehandler (1) comprising a carriage (10) movable on wheels, which mounts a tower (11), which in turn mounts a drivers cab (12) and an operating arm. The telehandler (1) is equipped with the following free paths of ascent and descent: a first path, defined by a first position of the tower (11), wherein it has an axis parallel to that of the carriage (10) and comprises a door (15) of the cab (12), a handle (17) on which an operator can grasp and a ladder (101, 104) made on a side wall of the carriage (10); a second path, defined by an angled position of the tower (11), wherein it is oblique or transversal to the axis of the carriage (10), with a front of the cab (12) facing towards the inside of the carriage (10), the second path comprising the door (15), a first handle (16) mounted at a first side of the door (15), a treadable surface (105, 106) of the carriage (10) and a further ladder (102, 103) made in a side of the carriage (10); and a third path, defined by a further angled position of the tower (11), wherein it is oblique or transversal to the axis of the carriage (10), with the front of the cab (12) facing towards the outside of the carriage (10), the third path comprising the door (15), a second handle (17) mounted at a second side of the door (15), a treadable surface (103, 102) of the carriage (10) and a ladder (104, 103) made in a further side of the carriage (10).

The first, second and third paths are free of obstacles for the free passage of an operator.

The lift truck automatic guided vehicle (AGV) generally comprises a chassis, a compartment for the attachment of a tower, a counterweight in the rear part, a battery box and power and control boards on opposite sides of the base chassis, a casing and a front lifting system constituted by a support mast, a lifting carriage, a lifting cylinder, a raising carriage, a fork hanger and two front forks. The chassis is supported by two sets of double front wheels, two free wheels in the rear part and a central driving and steered wheel coupled to an electric motor.

A system is provided comprising: a materials handling vehicle; a wearable remote control device comprising: a wireless communication system including a wireless transmitter; and a rechargeable power source; a receiver at the vehicle for receiving transmissions from the wireless transmitter; a controller at the vehicle that is communicably coupled to the receiver, the controller being responsive to receipt of the transmissions from the remote control device; and a charging station at the vehicle. The charging station may charge the rechargeable power source of the wearable remote control device. The charging station may comprise a visual indicator.

A pallet jack assembly for use with a pallet jack is provided. The pallet jack assembly includes a tug assembly configured for attachment to a towing vehicle and a frame assembly configured to support the tug assembly. A plurality of caster assemblies is supported by the frame assembly. Each of the caster assemblies is configured to support a wheel. The pallet jack assembly facilitates use of the pallet jack as a hand-powered pallet jack or for towing by a towing vehicle.