RU2018419C1 - Face milling cutter - Google Patents

Abstract

FIELD: metal working. SUBSTANCE: cylindrical cutting insets are mounted in the holes of the milling cutter body with the aid of screws. In this case holes are made along the body circumference perpendicular to the holes for placing the cylindrical inserts. Ring channelings are accomplished on the cylindrical cutting insets. Tapered threaded holes and a slit not for the full height are made in the ring channelings from the face end along the axle. Tuning members with channelings designed to interact with the tapered threaded holed of the cylindrical cutting insets are inserted into the milling cutter. They are placed in the holes along the body circumference. The body is accomplished in the form of a ring with the inner thread and a ring with a collar and the outer thread designed to interact with each other. EFFECT: facilitated manufacture. 2 dwg

Description

 The invention relates to metalworking and can be used in the construction of metal cutting tools.

 The closest analogue adopted for the prototype is a face mill [1], in the openings of the casing of which there are cylindrical cutting inserts fixed with screws, while holes are made perpendicular to the holes around the circumference of the casing to accommodate the cylindrical cutting inserts, and ring holes are made on the cylindrical cutting inserts corrugation.

 The disadvantages of the prototype include low productivity and low quality processing.

 The purpose of the invention is to increase productivity and processing quality.

 The goal is achieved in that the face mill, in the openings of the body of which cylindrical cutting inserts are mounted with screws, while the circumference of the housing is perpendicular to the holes for accommodating the cylindrical inserts, are made holes, and on the cylindrical cutting inserts - ring corrugations, characterized in that in the latter with the end faces along the axis are conical threaded holes and the slot is not to the full height, and the tuning elements with corrugations placed in holes made around the circumference of the body are introduced into the mill designed to interact with annular corrugations on cylindrical cutting inserts, while the screws are made with tapered threads designed to interact with conical threaded holes of cylindrical cutting inserts, and the casing is made in the form of rings with internal thread and rings with collar and external thread.

 In FIG. 1 shows a profile projection of the cutter; in FIG. 2 - the same, plan view from the non-working end.

 An end mill comprises a housing 1 with cylindrical holes 2 of the cutting units 3, in which cylindrical cutting inserts 4 with cutting plates 5 held by screws 6 are mounted. Around the circumference of the housing 1, holes 7 are made perpendicular to the holes 2 of the cutting units 3, and annular holes are formed on the cylindrical cutting inserts corrugations 8.

 In the cutting inserts 4 from the end face 9 along the axis 10, conical threaded holes 11 and the slot 12 are not made to the full height h. Into the milling cutter, tuning elements placed in holes 7 along the periphery of the casing 1 are introduced with corrugations 13 intended for interaction with ring corrugations 8 on cylindrical cutting inserts 4.

 The screws 14 are made with a tapered thread for interacting with the tapered threaded holes 11 of the cutting inserts 4. The housing 1 is made in the form of a ring with an internal thread 15, which serves to contact the external thread 16 of the central ring with a shoulder 17 and a keyway 18.

 To implement the tool, it is installed on a mandrel (not shown) on the machine spindle relative to the mounting hole with a diameter D. The rotation of the central threaded housing is transmitted from the keys to the keyways 18 with the surface. The threaded surfaces (threads 15 and 16) interact with each other, and the torque transmitted by the spindle to the tool is perceived by a ring with cutter inserts 4, which are installed before operation of the face mill for one outreach or in a stepwise pattern relative to the main cutting plane.

 The face mill is capable of processing interchangeable inserts with their various locations that determine the direction of chip flow during processing, which is fundamentally important when it is necessary to discharge chips through a central hole.

 Technical appraisal and economic benefits: the milling cutter contains compact cutter assemblies with mechanical fastening of non-sharpenable and grindable carbide and mineral-ceramic plates, the position of which can be controlled by feeding the grooved surface of the toolholder holders, and the cutting holders are fixed using conical screws that are located inside the holders, which additionally helps to reduce the pitch between the cutting units and increase processing productivity.

Claims (1)

 A face milling cutter, in the openings of the body of which cylindrical cutting inserts are installed with screws, while holes are made perpendicularly to the holes around the circumference of the body to accommodate the cylindrical cutting inserts, and annular corrugations are made on the cylindrical cutting inserts, characterized in that in the latter, the ends are made along the axis along the axis conical threaded holes and slots not to the full height, but into the cutter are inserted tuning elements with corrugations, corrugations, pre designed to interact with annular corrugations on cylindrical cutting inserts, while the screws are made with a tapered thread designed to interact with the tapered threaded holes of the cylindrical cutting inserts, and the casing is made in the form of a ring with an internal thread and a collar ring designed to interact with each other and external thread.

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