A stationary machine tool for machining, in particular core drilling, comprising a tool stand with a first tool stand housing interior. A chip guidance system comprises a magnet, wherein the magnet is arranged in the first tool stand housing interior such that chips produced by a machining process and entering the first tool stand interior are deflected by the chip guidance system.

The fan screw nut for removing scraps includes a screwing hub, multiple fan blades and a frame. The screwing hub has an outer periphery. The fan blades are spiral in shaped and are formed around the outer periphery of the screwing hub. A flux space is formed between each fan blade. The frame is formed integratedly on an outer periphery of a front side of the fan blades. Multiple through holes are formed between the inner side of the frame and the flux spaces for air flowing. The fan screw can be introduced air into flux space via through holes to blow up scraps that generated from cutting a work piece.

A drilling end effector may include a motor operative to drive a drilling member, a housing surrounding the motor, and a vacuum shroud coupled to the housing and surrounding the drilling member, wherein the vacuum shroud has a variable length.

A dust collector for use with a power tool comprises a housing, a telescoping suction pipe coupled to the housing, a suction fan positioned in the housing and operable to generate a vacuum in the suction pipe, a dust container coupled to the housing and positioned upstream of the fan, a filter at least partially arranged in the dust container, and a filter cleaning mechanism. The filter cleaning mechanism includes an anvil, a striker moveable between a first striker position, in which the striker is spaced from the anvil, and a second striker position, in which the striker is in contact with the anvil. The filter cleaning mechanism further includes an actuator moveable between a first actuator position and a second actuator position, in which the actuator is moved closer to the anvil than in the first position, and a first spring biasing the striker toward the anvil.

A cylinder boring machine for machining a cylinder bore is disclosed. The cylinder boring machine includes a housing having cylinder block fixtures for receiving a cylinder block. The cylinder block includes the cylinder bore. The cylinder boring machine includes a working head positioned above the housing. The working head includes a tool holder. The tool holder receives a first boring tool insert and a second boring tool insert for operating in rough and fine boring cycles. The cylinder boring machine includes an operational panel and a controller communicatively connected to the operational panel. The controller operates the tool holder connecting the first boring tool insert followed by the second boring tool insert in the rough and fine boring cycles to axially move and rotate in opposite directions for removing the material from the surface of the cylinder bore, and eliminating torn and folded materials (TFM) left in the cylinder bore with the second boring tool insert.

Utilities supplied through a first utility path of a turning tool holder via a docking device is supplied to a second utility path of an adjacent rotating tool holder through a communication means, there is no need to provide a complex hydraulic line, a pneumatic line and a coupler for receiving the utilities from the docking device at a rearward side of the rotating tool holder. A rearward size of the rotating tool holder may be minimized, so that even when the rotating tool holder is mounted on the turret, no interference occurs with the docking device in the rearward direction when the turret rotates. As a result, it is possible to use the rotating tool holder, to which utilities supply is necessary, even in the turret which is provide with the docking device.

The present cutting tool includes a rear end and a front end, with a longitudinal center axis extending from the front end to the rear end. The cutting tool further includes at least one chip-forming cutting edge for machining the workpiece, and a liquid supply conduit extending from the rear end to a nozzle rearward of the front working zone. The nozzle includes an inlet in fluid connection with the liquid supply conduit, and wherein the nozzle includes an outlet. The nozzle has a closed overall shape with an outer circumference that is larger than that of the radial location of the at least one cutting edge. The nozzle outlet is configured such that when liquid is supplied through the liquid supply conduit the liquid ejected from the outlet forms a liquid barrier to prevent chips formed during machining from escaping through the barrier.

A dust collector for use with a hand-held power tool. The dust collector includes a housing, a motor positioned in the housing, and a telescoping suction pipe coupled to the housing. The dust collector also includes a suction fan coupled to the motor and operable to generate a vacuum in the suction pipe. The dust collector further includes a dust container coupled to the housing and positioned upstream of the suction fan, and a filter at least partially arranged in the dust container. The dust collector also includes a filter cleaning mechanism including a solenoid configured to be actuated by a controller to dislodge dust from the filter when either the motor or the suction fan transitions from an active state to an inactive state.

A spindle device includes a main spindle having a tapered hole that is positioned at one end and to which a tool is removably attached, and a spindle cylindrical portion that is positioned on the other end side with respect to the tapered hole and communicates with the tapered hole, a collet chuck that is disposed inside the spindle cylindrical portion and grips the tool, and a drawbar that is connected to the other collet end of the collet chuck and moves the collet chuck forward and backward along an axial direction of the main spindle. The collet chuck includes a plurality of collet clearances that extends from one collet end forming one end and having an annular shape toward the other end of the main spindle, and forms channels that guide air to the tapered hole. The spindle cylindrical portion has a housing space in which the other collet end is housed in a clamped state. The main spindle includes a plurality of spindle air supply channels for supplying air to the housing space in an unclamped state. The spindle device further includes an annular channel that communicates upstream sides of the plurality of spindle air supply channels.

Utilities supplied through a first utility path of a turning tool holder via a docking device is supplied to a second utility path of an adjacent rotating tool holder through a communication arrangement, there is no need to provide a complex hydraulic line, a pneumatic line and a coupler for receiving the utilities from the docking device at a rearward side of the rotating tool holder. A rearward size of the rotating tool holder may be minimized, so that even when the rotating tool holder is mounted on the turret, no interference occurs with the docking device in the rearward direction when the turret rotates. As a result, it is possible to use the rotating tool holder, to which utilities supply is necessary, even in the turret which is provide with the docking device.