JP2018039066A5 - - Google Patents

Description

To solve the above problems, the present invention includes a base metal having a work facing surface for facing the workpiece, and a fixed abrasive wire comprising a number of abrasive grains is fixed to the core wire, the work The opposing surface is composed of an outer peripheral surface around the rotation axis of the base metal, and the fixed abrasive wire is spirally wound on the outer peripheral surface of the base metal along the rotation axis direction, and In the fixed abrasive wires adjacent to each other in the rotational axis direction, the tip of the abrasive of one fixed abrasive wire is tightly wound so as to contact the other fixed abrasive wire, and is fixed to the base metal A grinding portion for grinding the work is formed on the outer peripheral surface of the base metal, and a discharge groove for chip discharge, which is a recess between fixed abrasive wires adjacent in the rotation axis direction, is formed. Grinding wheels characterized by That.

In this case, preferably, the solid Teitogitsubu wire in its longitudinal ends have a first end and a second end, respectively, the first end portion thereof to one end of the rotation axis direction of the base metal The base is fixed and the second end is fixed to the other end side of the base metal in the direction of the rotation axis, and the intermediate portion located between the first end and the second end is the base metal. With respect to the outer peripheral surface of the roller, it is wound so as to be capable of relative movement in the direction of the rotation axis in a non-sticking state.

Further , according to the present invention, it has a base metal having a workpiece facing surface for facing a workpiece, and a fixed abrasive wire in which a large number of abrasive grains are fixed to a core wire, and the workpiece facing surface of the base metal The fixed abrasive wire comprises an end face on one end side in the rotation axis direction of the base metal, and the fixed abrasive wire is wound on the base metal in a state of being spirally wound around the rotation axis on the end face of the base metal. A chip is fixed, thereby forming a grinding portion for workpiece grinding on the end face of the base metal and for discharging chips consisting of a recess between fixed abrasive wires adjacent in the radial direction of the base metal . There is provided a grinding wheel characterized in that a discharge groove is formed .

In this case, preferably, the fixed abrasive wire has, at its longitudinal ends have a first end and a second end, respectively, secured to the radially one side of an end face of a first end thereof a trapezoidal gold are, together with the second end of which is fixed in the radial direction other side of the該台gold, an intermediate portion positioned between these first and second ends, with respect to the end face of the metal base It is fixed intermittently along the longitudinal direction of the fixed abrasive wire.

Furthermore, according to the present invention, a grinding wheel in which a grinding portion for grinding a workpiece and a discharge groove for discharging chips are formed on the workpiece-facing surface of a base metal having a workpiece-facing surface for facing a workpiece. a manufacturing method, the outer circumferential surface about the rotation axis of the base metal and the workpiece facing surface, the fixed abrasive wire comprising fixed abrasive grains to the core wire, on the outer peripheral surface of該台gold, its axis of rotation and had wound spirally toward the other end from the direction of one end side, and abrasive grains of the tip and the other fixed abrasive of one of the fixed abrasive wire in the fixed abrasive wire adjacent to the rotational axis Forming the grinding portion on the outer peripheral surface by close winding so as to be in contact with a wire, and forming the discharge groove by a recess between fixed abrasive wires adjacent in the rotation axis direction;
And affixing the first end and the second end in the longitudinal direction of the fixed abrasive wire to a base metal.

Further, according to the present invention, there is provided a grinding wheel in which a grinding portion for grinding a workpiece and a discharge groove for discharging chips are formed on the workpiece-facing surface of a base metal having a workpiece-facing surface for facing a workpiece. A manufacturing method, wherein an end surface on one end side in the rotation axis direction of the base metal is used as the work opposing surface, and a fixed abrasive wire formed by fixing abrasive grains to a core wire is rotated on the end surface of the base metal. about an axis by winding spirally, on the end face, thereby forming the grinding unit, forming the discharge groove by the recess between the fixed abrasive wire adjacent in the radial direction of the end face, the fixed abrasive Securing the first end and the second end in the longitudinal direction of the grain wire and the middle part located between the first end and the second end of the fixed abrasive wire to the base metal A method of manufacturing a grinding wheel characterized in that .

Claims (8)

It has a base metal having a workpiece facing surface for facing a workpiece, and a fixed abrasive wire in which a large number of abrasive grains are fixed to a core wire,
The above-mentioned workpiece-facing surface consists of an outer circumferential surface around the rotation axis of the base metal,
The fixed abrasive wire is spirally wound along the rotational axis direction on the outer peripheral surface of the base metal, and one fixed abrasive wire is formed between the fixed abrasive wires adjacent to the rotational axis direction. The tip of the abrasive grain is closely wound and fixed to the base metal so as to contact the other fixed abrasive wire, whereby a grinding portion for work grinding is formed on the outer peripheral surface of the base metal. A grinding wheel characterized in that a discharge groove for chip discharge is formed which is a concave portion between the fixed abrasive wires adjacent to each other in the rotational axis direction . In the grinding wheel according to claim 1 ,
The fixed abrasive wire has a first end and a second end at both ends in the longitudinal direction, and the first end is fixed to one end side in the rotation axis direction of the base metal, and the second end And a middle portion fixed between the first end and the second end with respect to the outer peripheral surface of the base metal. It is characterized in that it is wound so as to be able to move relative to each other in the direction of the rotation axis in a non-sticking state. It has a base metal having a workpiece facing surface for facing a workpiece, and a fixed abrasive wire in which a large number of abrasive grains are fixed to a core wire,
The workpiece facing surface of the base metal is composed of an end face on one end side in the rotation axis direction of the base metal, and the fixed abrasive wire is wound spirally around the rotation axis on the end face of the base metal. Between the fixed abrasive wire adjacent to the base metal in the radial direction of the base metal, while the grinding portion for work grinding is formed on the end face of the base metal. A grinding wheel characterized in that a discharge groove for chip discharge consisting of a concave portion is formed. In the grinding wheel according to claim 3 ,
The fixed abrasive wire has, at its longitudinal ends have a first end and a second end, respectively, the first end is fixed in the radial direction on one side of an end face of a base alloy that its second end parts with is fixed in the radial direction other side of the該台gold, an intermediate portion positioned between these first and second ends is, in respect to the end face of the base metal, the fixed abrasive wire It is characterized in that it is fixed intermittently along the longitudinal direction of. In the grinding wheel according to claim 3 or 4 ,
A spirally recessed guide groove is engraved on the end face of the base metal, and the fixed abrasive wire is disposed in the guide groove along the longitudinal direction of the guide groove. Being fixed to the base metal in a state. A manufacturing method of a grinding wheel in which a grinding portion for grinding a workpiece and a discharge groove for discharging chips are formed on the workpiece facing surface of a base metal having a workpiece facing surface for facing a workpiece,
A fixed abrasive wire having an outer peripheral surface around the rotation axis of the base metal as the above-mentioned work opposing surface and having abrasive grains fixed to the core wire is placed on the outer peripheral surface of the base metal from one end side in the rotational axis direction. and it had wound helically towards the end side, and densely as abrasive grains of the tip of one of the fixed abrasive wire in the fixed abrasive wire adjacent to the rotation axis direction is in contact with the other fixed abrasive wire Forming the grinding portion on the outer circumferential surface by winding, and forming the discharge groove by a recess between fixed abrasive wires adjacent in the rotation axis direction;
And affixing the first end and the second end in the longitudinal direction of the fixed abrasive wire to a base metal. A manufacturing method of a grinding wheel in which a grinding portion for grinding a workpiece and a discharge groove for discharging chips are formed on the workpiece facing surface of a base metal having a workpiece facing surface for facing a workpiece,
The end face on one end side in the rotation axis direction of the base metal is used as the above-mentioned work opposing surface, and the fixed abrasive wire formed by fixing the abrasive grains to the core wire is spirally wound around the rotation axis on the end face of the base metal. by winding, on the end face, and forming together to form the grinding portion, said discharge groove by the recess between the fixed abrasive wire adjacent in the radial direction of the end face,
Fixing the first end and the second end in the longitudinal direction of the fixed abrasive wire, and an intermediate portion located between the first end and the second end of the fixed abrasive wire to the base metal And a method of manufacturing a grinding wheel characterized in that In the method of manufacturing a grinding wheel according to claim 7 ,
Engraving a spirally recessed guide groove around the rotation axis;
Placing the fixed abrasive wire in the guide groove along the longitudinal direction of the guide groove.