An element changer includes a plurality of operation pin members (4) inserted in a housing (3). Each of the operation pin members (4) has a wedge surface (12c). When the operation pin members (4) are pushed into the housing (3), each wedge surface (12c) is disengaged from an engaging portion (10a) provided at a leading end portion of a tubular wall portion (10) of a tool plate (2) or of a connection plate (1). This allows a tool (5) functioning as a second element to be detached from a robot arm (8) functioning as a first element.

The present invention discloses a bevel swing head interpolation tool changing mechanism, which includes a bed, a sliding table, a column, a ram, a swing head and a tool magazine, in which the swing head moves along the X-axis, Y-axis and Z-axis of the machine tool, the axis of the swing head and a B-axis form an included angle between 30°-60°, the tool magazine is equipped with a tool, and the swing head moves along its own axis direction and change the tool. The invention provides a bevel swing head interpolation tool changing mechanism and a method thereof, capable of quick and convenient tool changing through the mutual cooperation of the movement of the linear axes of the machine tool, without complex equipment such as manipulators used, and which is simple in structure, good in stability and easy to maintain.

A workpiece exchange device, including: a workpiece spindle; and a workpiece library, wherein: the workpiece spindle is arranged on a pallet, the pallet is arranged on a slide table, the pallet can move along a Z axis of a machine tool, and the slide table can move along an X axis of the machine tool; and the workpiece library is used to store workpieces, and the workpiece spindle can move along the X-axis and Z-axis of the machine tool and grab a workpiece. The present invention also discloses a method for exchanging workpieces. Through the coordinated movement of the slide table and the pallet, the workpiece spindle can take out a workpiece to be machined from the workpiece library or return a machined workpiece into the workpiece library. The present invention uses a machine tool coordinate system to grab the workpiece with high precision and high speed, and does not need to add an auxiliary mechanism, and has the advantages of simple structure, high stability and good reliability.

A processing machine for processing a workpiece with a processing beam includes a nozzle changer and a protective enclosure. The nozzle change is for mounting nozzles on or demounting nozzles from a processing head of the processing machine. The nozzle changer has multiple nozzle holders for holding nozzles. The protective enclosure is configured to close off a working space for the processing of the workpiece with the processing beam from a working space surrounding area. The nozzle changer is movable between a nozzle changing position within the protective enclosure and a setup position outside the protective enclosure.

A tool cartridge for accommodating a processing tool includes: a cartridge base body, a tool holder for detachably holding the processing tool, and at least one first coupling device configured to be coupled in a form-fit and detachable manner to a second coupling device of a further tool cartridge, the second coupling device being complementary to the first coupling device.

A manufacturing machine is capable of subtractive manufacturing and additive manufacturing for a workpiece. The manufacturing machine includes: a first headstock and a second headstock disposed in a machining area and configured to hold a workpiece; a tool spindle and a lower tool rest disposed in the machining area and configured to hold a tool to be used for subtractive manufacturing for the workpiece; an additive manufacturing head configured to discharge a material during additive manufacturing for the workpiece; a workpiece gripper configured to grip the workpiece during transportation of the workpiece into and out of the machining area; and a robot arm on which the additive manufacturing head and the workpiece gripper are mountable. Accordingly, the manufacturing machine improving the productivity in the simple and easy manner is provided.

A moving mechanism brings the rotational axis of each driven rotator into alignment with the rotational axis of a drive rotator, which has an engaging face extending along its rotational axis. Each driven rotator has an engageable face extending along the rotational axis of the drive rotator. Rotating the drive rotator while moving the driven rotator, of which the rotational axis is aligned with the rotational axis, toward the drive rotator will bring the engaging face into engagement with the engageable face.

On an inner peripheral surface defining a through hole of a first rotator, provided is a positioning member for bringing the center axis of a contact tip, housed in the through hole, into alignment with a rotational axis, or making the former axis proximate to the latter axis, by coming into contact with an outer peripheral surface of the contact tip.

Alignment modules attached to a robotic tool changer assist spatial orientation and alignment of a robot arm relative to a robotic tool for location training. A three-axis spatial orientation sensor is first attached to an alignment module affixed to a tool unit. The sensor is “zeroed,” or calibrated to the spatial orientation of the tool unit. The sensor is transferred to a corresponding surface of an alignment module affixed to a master unit. The orientation of the robot arm is adjusted to eliminate sensor error signals indicating deviations from the zeroed orientation of the tool unit. An optical signal, such as a cross line laser beam, is then projected between the alignment modules. The x- and y-axis position of the robot arm is adjusted to align the optical signal with alignment markings. When the master and tool units are aligned, the robot arm is advanced in the z-axis direction until the master unit abuts the tool unit.

Disclosed herein is a system that includes a placement head, the placement head including a spindle assembly, the spindle assembly including a spindle capable of receiving one of a plurality of nozzles for attachment. The system includes a nozzle changer, the nozzle changer including a revolver capable of holding a plurality of nozzles. A position of the nozzle changer is changeable in response to movement of the spindle assembly. Further disclosed is a method of receiving and attaching nozzles with a nozzle changer.