The invention relates to an electric battery module (1) comprising a plurality of individual accumulators (2) in the form of cylindrical elements arranged in parallel rows mounted in a container (3).

Said battery module (1) is characterized in that the container (3) comprises:

for the one part, at least one support body (4) made of a rigid material that is a good heat conductor in the form of a profiled component having a comb-shaped cross section, forming elongate housings that are each configured to receive, in a non-fitted manner, a row of battery elements (2), and,
for the other part, at least first mechanical wedging means (8) that prevent the movements of said elements (2) at least in the longitudinal direction of the housing that receives them and space apart said elements (2) from the two compartmentalizing walls (5) that define said housing.

A compacting power tool comprising: a motor; a housing; at least one handle connected to the housing; a reciprocating drive mechanism coupled to the motor; and a compacting foot coupled to the reciprocating drive mechanism and configured to engage a surface to be compacted; a battery carrier coupled to a vibration compensation mechanism moveably mounted on a side of the housing.

A compacting power tool comprising: a motor; a housing; at least one handle connected to the housing; a reciprocating drive mechanism coupled to the motor; and a compacting foot coupled to the reciprocating drive mechanism and configured to engage a surface to be compacted; a battery carrier coupled to a vibration compensation mechanism moveably mounted on a side of the housing.

An electronic device includes a first connection unit, a second connection unit, and a control unit. The control unit determines whether a first external device is connected to the first connection unit, and controls the electronic device to prevent charging of a battery connected to the first external device with power supplied from a second external device connected to the second connection unit, in a case where the first external device is connected to the first connection unit.

An electronic device includes a first connection unit, a second connection unit, and a control unit. The control unit determines whether a first external device is connected to the first connection unit, and controls the electronic device to prevent charging of a battery connected to the first external device with power supplied from a second external device connected to the second connection unit, in a case where the first external device is connected to the first connection unit.

An energy storage power supply is provided and includes a shell and a plurality of compartments, including a mainboard compartment for installing a circuit mainboard of the power supply, a battery compartment for installing a battery, a lighting compartment for installing a lamp panel, and a pair of heat dissipation air ducts. The lighting compartment, battery compartment and mainboard compartment are arranged from one end of the shell to the shell's other end sequentially. The pair of heat dissipation air ducts are arranged on two sides of one or more of the mainboard compartment and/or lighting compartment to prevent heat generated in the mainboard compartment and/or the lighting compartment from being dissipated into the battery compartment.

The present invention provides a battery charger that enables efficient operation of the battery. According to the present invention, provided is a battery charger, wherein the battery charge is configured to be connectable to an AC power source and multiple batteries, and comprises a changeover switch, control switches, and a terminal for outputting a DC voltage, wherein the control switches are configured to be capable of individually switching between a charge mode and an output mode for the batteries, respectively, the charge mode being a mode for charging the batteries using the AC power source as a power source and the output mode being a mode for outputting the DC voltage from the terminal using the batteries as a power source, the changeover switch is configured to be capable of switching between outputting the DC voltage from the terminal using the AC power source as a power source and outputting the DC voltage from the terminal using the batteries as a power source.

The present invention provides a battery charger that enables efficient operation of the battery. According to the present invention, provided is a battery charger, wherein the battery charge is configured to be connectable to an AC power source and multiple batteries, and comprises a changeover switch, control switches, and a terminal for outputting a DC voltage, wherein the control switches are configured to be capable of individually switching between a charge mode and an output mode for the batteries, respectively, the charge mode being a mode for charging the batteries using the AC power source as a power source and the output mode being a mode for outputting the DC voltage from the terminal using the batteries as a power source, the changeover switch is configured to be capable of switching between outputting the DC voltage from the terminal using the AC power source as a power source and outputting the DC voltage from the terminal using the batteries as a power source.

An apparatus may store at least one object including at least one top end and at least one bottom end. The apparatus may include a container configured to store the at least one object and a pouch containing a liquid. The pouch may be configured to substantially cover the at least one top end of the at least one object when stored inside the container. The pouch may be configured to contact the at least one top end of the at least one object and to open when contacted by contents expelled from the at least one object due to thermal runaway.

An apparatus may store at least one object including at least one top end and at least one bottom end. The apparatus may include a container configured to store the at least one object and a pouch containing a liquid. The pouch may be configured to substantially cover the at least one top end of the at least one object when stored inside the container. The pouch may be configured to contact the at least one top end of the at least one object and to open when contacted by contents expelled from the at least one object due to thermal runaway.