A driving apparatus includes an output shaft, a driving motor, and a speed-reducer. The driving motor includes a stator having an annular shape, and a rotor having an annular shape. The rotor is disposed radially inward of the stator. The speed-reducer is disposed radially inward of the driving motor. The speed-reducer is configured to reduce the speed of rotation output from the rotor and transmit a rotary driving force of the rotor to the output shalt.

A driving apparatus includes an output shaft, a driving motor, and a speed-reducer. The driving motor includes a stator having an annular shape, and a rotor having an annular shape. The rotor is disposed radially inward of the stator. The speed-reducer is disposed radially inward of the driving motor. The speed-reducer is configured to reduce the speed of rotation output from the rotor and transmit a rotary driving force of the rotor to the output shalt.

This invention relates to a weld cutting machine, comprising a first cutting jaw part (4) and a second cutting jaw part (5), a base frame (500) having fixedly attached thereto said second cutting jaw part (5), a power unit and a transmission mechanism (3), wherein said power unit is connected to said transmission mechanism (3) to arrange for movement of at least one of said cutting jaw parts (4, 5), and wherein connecting members are arranged to enable said at least one cutting jaw part (4, 5) to move in a guided manner relative said second cutting jaw part (5), wherein said power unit is an electric motor (2) and that said connecting members include at least two rods (6), each rod (6) being arranged with at least one set of threads (63, 64) arranged to transfer torque applied via said transmission mechanism (3) to said rods (6) to provide linear movement of said at least one cutting jaw part (4, 5), wherein said transmission mechanism (3) includes at least two parts (31, 32) a first reduction transmission (31) arranged to reduce the incoming rotational speed from the electric motor (2) and a second dividing transmission (32) arranged to transmit the outgoing torque from said first reduction transmission (31) synchronously to both of said at least two rods (6).

A frame assembly module for a CNC machine support structure, the module comprising a frame assembly module support structure, and a traversing element, coupled to the frame assembly module support structure, for traversing the frame assembly module support structure, the traversing element comprising a frame assembly fastening feature for attachment of a second frame assembly module to the traversing element, and a spindle fastening feature of attachment of a spindle to the traversing element, the frame assembly module support structure comprising a traversing element fastening feature for attachment of the frame assembly module support structure to a different traversing block. The module may comprise steel tubing.

A frame assembly module for a CNC machine support structure, the module comprising a frame assembly module support structure, and a traversing element, coupled to the frame assembly module support structure, for traversing the frame assembly module support structure, the traversing element comprising a frame assembly fastening feature for attachment of a second frame assembly module to the traversing element, and a spindle fastening feature of attachment of a spindle to the traversing element, the frame assembly module support structure comprising a traversing element fastening feature for attachment of the frame assembly module support structure to a different traversing block. The module may comprise steel tubing.

A weld cutting machine having a first cutting jaw part (4) and a second cutting jaw part (5), a base frame (500) having fixedly attached thereto the second cutting jaw part (5), a power unit and a transmission mechanism (3). The power unit is connected to the transmission mechanism (3) to arrange for movement of at least one of the first cutting jaw part or the second cutting jaw part (4, 5).

A weld cutting machine having a first cutting jaw part (4) and a second cutting jaw part (5), a base frame (500) having fixedly attached thereto the second cutting jaw part (5), a power unit and a transmission mechanism (3). The power unit is connected to the transmission mechanism (3) to arrange for movement of at least one of the first cutting jaw part or the second cutting jaw part (4, 5).

The present invention relates to a precision CNC facing lathe, which comprises a facing head that has slide ways and a feed slide that is mounted in the slide ways on the facing head, wherein, a ball screw feeder that can drive the slide to move in radial direction and a dynamic balancer are arranged on the facing head. The dynamic balancer comprises weight blocks, a weight cable, fixed blocks, and pulleys. The lathe provided in the present invention can absolutely substitute conventional rack-and-gear driven CNC facing lathes, and can improve work piece machining accuracy and machining efficiency.

The present invention relates to a precision CNC facing lathe, which comprises a facing head that has slide ways and a feed slide that is mounted in the slide ways on the facing head, wherein, a ball screw feeder that can drive the slide to move in radial direction and a dynamic balancer are arranged on the facing head. The dynamic balancer comprises weight blocks, a weight cable, fixed blocks, and pulleys. The lathe provided in the present invention can absolutely substitute conventional rack-and-gear driven CNC facing lathes, and can improve work piece machining accuracy and machining efficiency.