An apparatus for delivering a glutinous substance from a cartridge to a brush is disclosed. The apparatus comprises a sleeve and a pressure-cap assembly. The pressure-cap assembly comprises a pressure cap, proximate an inlet of the sleeve. The pressure cap comprises a pressure input, selectively operable to apply pressure to the glutinous substance in the cartridge when the cartridge is received within the sleeve, the pressure cap is in the closed position, and a leading end of the cartridge is in sealed engagement with a valve. The apparatus further comprises a brush-arm assembly, configured to retain the brush and capable of rotating the brush. The valve is selectively operable to enable the glutinous substance to flow from the cartridge to the brush.

An apparatus (102) for delivering a glutinous substance (168) from a cartridge (166) to an applicator (154) is disclosed. The apparatus (102) comprises a sleeve (106) and a pressure-cap assembly (104) coupled to the sleeve (106). The pressure-cap assembly (104) comprises a pressure cap (110) proximate an inlet (124) of the sleeve (106). The pressure cap (110) is movable between, inclusively, a closed position, in which the pressure cap (110) is in sealed engagement with a trailing end (169) of the cartridge (166), and an open position, in which the pressure cap (110) provides clearance sufficient for insertion of the cartridge (166) inside the sleeve (106) through the inlet (124) of the sleeve (106). The pressure cap (110) comprises a pressure input (118), through which pressure is selectively applied to the glutinous substance (168) in the cartridge (166). The apparatus (102) also comprises an applicator interface (108) proximate the outlet (128) of the sleeve (106).

An applicator for delivering a glutinous substance to a workpiece from an end-effector is disclosed. The applicator comprises a body and a plunger. The plunger comprises a gate, movable within an outlet portion of a first channel of the body between, inclusively, an open position, allowing the glutinous substance to flow from an inlet of the first channel to an outlet of the first channel and a closed position, preventing the glutinous substance from flowing from the inlet of the first channel to the outlet of the first channel. The applicator further comprises an actuator, selectively operable to move the plunger such that the gate moves between, inclusively, the open position and the closed position.

A part cleaning machine includes a cradle moveable along an X axis, and rotatable about a first cradle axis. A part holder is attached to the cradle, and is rotatable about a second cradle axis. A chuck holder is moveable on a tool positioning plane that is perpendicular to the X axis. A tool chuck is attached to and moveable with the chuck holder. A tool holder is moveable relative to the chuck holder along the X axis. A plurality of tools are releasably attached to the tool holder for selective attachment to the tool chuck. A machine controller is operable to control movement of the chuck holder, the tool chuck, and the tool holder to transfer a selected one of the tools between the tool chuck and the tool holder, and position an appropriate tool and the part in different positions for several different cleaning operations.

A punching system adapted to punch a sheet metal includes a platform, a punching portion, a base portion and a turret device. The punching portion is disposed on the platform, and a first upper die is detachably installed in the punching portion. The base portion is disposed between the punching portion and the platform, and a first lower die is detachably installed in the base portion. The punching portion is adapted to move back and forth along a first direction relative to the platform. The turret device is adapted to move along a second direction relative to the platform, and the first direction is perpendicular to the second direction. A plurality of second upper dies and second lower dies are correspondingly installed on the turret device.

An auto-sorting storage/retrieval system includes an identification mechanism, a first pick and place device, a second pick and place device, and a feed and storage equipment including a feed unit and a storage unit respectively disposed at two opposite sides relative to the identification mechanism and respectively movable up and down for enabling the identification mechanism to recognize and sort drill bits. As the auto-sorting storage/retrieval system can run independently without any additional arrangement, it can be freely installed anywhere without particular space limitation.

A brush (400) for delivering a glutinous substance (168) to a workpiece (170) from an end-effector (102) is disclosed. The brush (400) comprises a body (402), having a rotational axis (438). The brush (400) also comprises a shaft (404), coupled to the body (402) and coaxial with the rotational axis (438). Additionally, the brush (400) comprises a tube (430), having a first end (411) and a second end (412), opposite the first end (411). The tube (430) comprises a first channel (408), coaxial with the rotational axis (438) and having an inlet (409) and an outlet (480). Furthermore, the tube (430) extends from the body (402) in a first direction (A) along the rotational axis (438), to the second end (412). The brush (400) further comprises bristles (420) that surround a portion of the tube (430), wherein the bristles (420) extend from the body (402) in the first direction (A).

A machining apparatus includes a first frame including a first surface formed along a Z-axis direction and a second surface formed along a Y-axis direction. An X-axis moving mechanism and a Z-axis moving mechanism are disposed on the first surface side of the first frame. A Y-axis moving mechanism is disposed on the second surface side of the first frame. A second frame supports the first frame from the second surface side of the first frame. An A-axis rotating mechanism, a B-axis rotating mechanism, and a supporting mechanism that supports an object to be machined are moved by the Y-axis moving mechanism. The t Y-axis moving mechanism is disposed in a space located below the first frame in the Z-axis direction, and formed by the second flame.

A machine tool including a first and a second tool magazine, wherein a tool for machining a workpiece can be received from the first tool magazine and a tool from the second tool magazine can be transferred into the first tool magazine, and wherein one of the tools includes a multiple tool that can be fitted with a plurality of tools prior to the machining. A method for controlling a machine tool includes the steps of detecting workpieces to be machined, determining the tools required for machining the detected workpieces and determining the tools, with which the multiple tool is to be fitted.

A movable fixture for milling rail heads of slide rails arranged in a track bed includes: a rotating milling head mounted in a milling head drive mechanism supported by a chassis. The milling head has at least one cutting tooth comprising several cutting plates for milling the rail heads and a disc-shaped tool carrier connected to the milling head drive mechanism. The tool carrier includes cassettes assembled with cutting plates arranged around their periphery. The cassettes are arranged in several carrier segments connected to the tool carrier so they can be detached. The cassettes are arranged peripherally on the tool carrier with at least two assembled cutting plates, the cassettes being different with regard to at least one of: a number of cutting teeth; distances of the cutting teeth from each other; rake angle of the individual cutting plates; or inclination angle of the individual cutting plates.