The invention relates to a device for guiding a cable for linking a submerged robot, in particular a robot for cleaning swimming pools, to the device for controlling and powering same, said guiding device comprising: a. a coupling including a rotary connector, connected by one side to a first floating portion of the linking cable extending from the control and power device to said coupling and, by the other side, to a second portion of the linking cable extending from said coupling to the submerged robot; b. a floating mounting including: bi. a float; bii. an interface for mechanically linking the rotary connector to said float; and biii. a hood extending above the surface when the floating mounting is submerged in a liquid and removably connected to the float; c. in which the mechanical link between the float and the rotary coupling is a ball-and-socket link.

The invention relates to a device for guiding a cable for linking a submerged robot, in particular a robot for cleaning swimming pools, to the device for controlling and powering same, said guiding device comprising: a. a coupling including a rotary connector, connected by one side to a first floating portion of the linking cable extending from the control and power device to said coupling and, by the other side, to a second portion of the linking cable extending from said coupling to the submerged robot; b. a floating mounting including: bi. a float; bii. an interface for mechanically linking the rotary connector to said float; and biii. a hood extending above the surface when the floating mounting is submerged in a liquid and removably connected to the float; c. in which the mechanical link between the float and the rotary coupling is a ball-and-socket link.

Examples disclosed herein generally relate to methods and apparatus for the insertion of one or more wires into a cavity of a fixture of a structure or component. The wire insertion apparatus includes a grommet, a gripper adapted to interface with the grommet, and at least a first vibrating element. The first vibrating element is connected to and vibrates one or more of the apparatus, the grommet, the gripper, the wire, and/or a component of the apparatus. Vibration, induced in any direction, enables the cavities to shift position during insertion relative to the contact, thus increasing the tolerance of the cavity, reducing the failure rate of wire insertion, and reducing total production time. The vibration breaks the static friction of the contact in the grommet or dielectric opening, creates the positive locating required to insert the contact in the grommet and/or dielectric, and/or pivots the contact.

A dumpster and portable toilet system that includes a chassis with a dumpster mounted thereto, a portable toilet housing portion and a transportation vehicle. The chassis has an attachment region. The dumpster portion has an enclosure that is adapted for receiving refuse. The portable toilet housing portion is removably attachable to the attachment region to form a dumpster and portable toilet system. The portable toilet housing portion has a recess formed therein that is adapted to receive a portable toilet. The transportation vehicle has a hoist mechanism for placing the dumpster and portable toilet system onto the transportation vehicle and moving the dumpster and portable toilet system off of the transportation vehicle.

A PDA terminal is provided. The PDA terminal includes: a main body; a processor disposed in the main body; a memory accessible by the processor; and a display unit disposed on a front surface of the main body to display information processed by the processor. A rear cover detachable from the main body is disposed on a rear surface of the main body. After the rear cover is removed, a gun handle is usable in a state of being connected to a coupling part formed under the rear cover. Since the gun handle with a switch is usable in a state of being connected to the main body of the PDA terminal, the operation of the PDA operation can be more conveniently used in an industrial site or the like.

A PDA terminal is provided. The PDA terminal includes: a main body; a processor disposed in the main body; a memory accessible by the processor; and a display unit disposed on a front surface of the main body to display information processed by the processor. A rear cover detachable from the main body is disposed on a rear surface of the main body. After the rear cover is removed, a gun handle is usable in a state of being connected to a coupling part formed under the rear cover. Since the gun handle with a switch is usable in a state of being connected to the main body of the PDA terminal, the operation of the PDA operation can be more conveniently used in an industrial site or the like.

There is provided a plug unit including a plurality of predetermined standard plug connectors, the predetermined standard plug connectors each including a contact that connects with a connection terminal of a predetermined standard receptacle connector, and the plug unit includes one insulator which holds the contact that each of the plurality of predetermined standard plug connectors has and which defines an interval between the plurality of predetermined standard plug connectors and a posture of the predetermined standard plug connectors.

An adapter device includes a printed circuit board (PCB), an output port disposed on the PCB and having first pins, where the output port is to be connected to an output harness that is connected to an adaptive device. The adapter also includes wireless circuitry one of disposed on or coupled to the PCB and a processing device disposed on the PCB and coupled to the output port and wireless circuitry. The processing device is to: identify, via the wireless circuitry, an actuation command from a wireless signal received from a handheld electronic device; translate the actuation command to one or more actuation bits that match one of analog-converted bits receivable over an input harness or digital control bits receivable over a wireless controller associated with the adaptive device; and provide the actuation bits to the first pins, the actuation bits causing the adaptive device to perform a specific action.

An adapter device includes a printed circuit board (PCB), an output port disposed on the PCB and having first pins, where the output port is to be connected to an output harness that is connected to an adaptive device. The adapter also includes wireless circuitry one of disposed on or coupled to the PCB and a processing device disposed on the PCB and coupled to the output port and wireless circuitry. The processing device is to: identify, via the wireless circuitry, an actuation command from a wireless signal received from a handheld electronic device; translate the actuation command to one or more actuation bits that match one of analog-converted bits receivable over an input harness or digital control bits receivable over a wireless controller associated with the adaptive device; and provide the actuation bits to the first pins, the actuation bits causing the adaptive device to perform a specific action.

An LED (light emitting diode) panel. In particular, an LED panel that is part of a modular system used to construct a wall mounted LED video screen. An LED panel includes a chassis and an LED tile including a plurality of surface mount devices attached thereto. The LED tile is removably mounted to a front of the chassis, and further includes: a first power connector and a first data connector; and a connector assembly mounted on the chassis. The connector assembly includes a support board; a second power connector; a second data connector; and a biasing member arranged to urge the support board in a direction towards the front of the chassis, such that the second power connector and second data connector engage with the first power connector and first data connector, respectively.