RU176175U1 - Assembly tool - Google Patents

Abstract

The utility model relates to the field of processing materials by cutting, in particular to the design of prefabricated cutters with interchangeable polyhedral cutting inserts. In a pre-cutter containing a housing with a landing groove for accommodating a cutting insert, made with the possibility of rotation to form the desired cutting angle ϕ or ϕ when the cutting edge is placed in the executive body of the machine, so that one end face of the plate is adjacent to the bottom of the groove, and lateral faces of the plate, not including the working cutting edge and rib at the working top, rest on the side walls of the groove, a replaceable polyhedral cutting diamond-shaped insert with a central mounting hole and are fastened th screw intended for screwing into the reciprocal threaded hole of the housing in the bottom of the landing groove, the plate is mounted with the possibility of rotation by an angle ϕ = α-α around the axis of its central landing hole, and the side walls of the landing groove are made in the form of a broken line formed by the intersection of three pairs of faces and their extensions of the insert, not including the working cutting edge, turned to extreme positions with the formation of each face with itself in the rotated position of the angle ϕ, and the trajectory of the edge opposite the edge when the top, while the pre-cutter is equipped with a triangular insert designed to fill the gap between one of its walls and the adjacent side face of the cutting insert, while the insert is equipped with a hole and an additional fixing screw, and two additional threaded holes for the designated additional hole are made in the bottom of the groove fixing screw. The technical result is a simplification of the design of the pre-cutter. 1 s.p. f-ly, 3 ill.

Description

The utility model relates to the processing of materials by cutting, in particular, to the design of prefabricated cutters with interchangeable polyhedral cutting inserts.

Known from the prior art is a pre-cutter comprising a housing, a rhombus-shaped cutting insert mounted on a supporting surface of the housing and secured by two tacks interacting with the side surfaces of the cutting insert and a screw, with longitudinal grooves being made on the sides of the housing, and at the ends of the tacks , interacting with the side surfaces of the plate, bevels are made, the angles of which are equal to half the angle at adjacent vertices of the plate (RF patent No. 2119849 C1, IPC: B23B 27/16, publ. 10.10.1998).

The advantages of the analogue include the ability to provide two angles, and, therefore, two cutting modes, for example, longitudinal and end turning, choosing the appropriate angles at the vertices of the replaceable cutting insert.

The disadvantages of the analogue include its high complexity and, as a consequence of the first, low reliability.

The closest to the claimed technical solution - the prototype - is a pre-cutter containing a housing with a landing groove for placement of a cutting plate, made with the possibility of rotation to form the cutting edge of the desired cutting angle ϕ ₁ or ϕ ₂ when placing the pre-cutter in the Executive body of the machine, so that one end face of the plate is adjacent to the bottom of the groove, and the side faces of the plate, not including the working cutting edge with a rib at the working top, rest on the side walls of the groove, interchangeable polyhedral cutting a diamond-shaped plate with a central mounting hole and a mounting screw designed for screwing into the mating threaded hole in the bottom of the mounting groove and provided with a cylindrical girdle for interfacing with the mounting hole of a replaceable polyhedral plate (RF patent No. 166552 U1, IPC: B23B 27/16, publ. 11/27/2016). In the prototype, the housing landing groove is formed by a retainer having a longitudinal slot in the lower part for creating rigid-elastic walls and a conical head, on the periphery of which longitudinal mounting grooves are made with different base angles corresponding to the angles at adjacent cutting edges of the mounted inserts.

The disadvantages of the prototype, as well as the analogue, include its high complexity, due to the presence of rotary supporting (base) surfaces, requiring extreme manufacturing accuracy, and, as a consequence of the first, low reliability.

The objective of the utility model is the exclusion from the design of rotary supporting (base) surfaces on the body of the prefabricated cutter.

The technical result is a simplification of the design of the pre-cutter. As a consequence of the first, an increase in the reliability of the assembly tool is also achieved.

The problem is solved, and the claimed technical result is achieved by the fact that the assembly cutter containing a replaceable polyhedral cutting insert of a rhomboid shape with a central hole, a housing with a landing groove for accommodating said cutting insert in it with the possibility of rotation to form the required cutting edge with the working cutting edge plan ϕ ₁ and ϕ ₂ when placing a pre-cutter in the executive body of the machine and a mounting screw designed for screwing into the mating threaded hole in the bottom the landing groove, while one end face of the plate is adjacent to the bottom of the groove, and the side faces of the plate, not including the working cutting edge with a rib at the working top, rest on the side walls of the groove, equipped with a triangular insert installed and fixed in the groove, designed to fill the gap between one of the walls of the groove of the housing and the adjacent side face of the cutting insert, while the cutting insert is mounted to rotate an angle j = ϕ ₁ -ϕ ₂ around the axis of its central hole, and the side walls of the landing groove you are filled in the form of a broken line formed by the intersection of the faces and their extensions of the cutting insert, not including the working cutting edge, rotated to extreme positions with each face forming an angle j at its rotated position, and the path of the edge opposite the edge at the working top of the cutting insert, optimally insert inserted into the groove with the help of a fixing screw located in the hole made in it and in one of the two threaded holes made in the housing.

The utility model is illustrated by illustrations in which:

in FIG. 1 - precast cutter with a plate mounted at an angle in the plan ϕ ₂ , top view;

in FIG. 2 - precast cutter with a plate mounted at an angle in the plan ϕ ₁ , top view;

in FIG. 3 is a section AA in FIG. one.

As can be seen from the images presented, the pre-cutter includes a housing 1, a replaceable cutting insert 2 with a diamond-shaped shape, a fixing screw 3, an insert 4 of a triangular shape and an additional mounting screw 5. In the housing 1, a groove 6 with side walls 7, 8, 9, 10, 11, 12 and 13. The bottom 14 of the groove 6 contains a threaded hole 15 and two additional threaded holes 16. The threaded hole 15 is designed to fix the replaceable cutting insert 2 with a screw 3, passed through the central bore hole 17 of the plate 2. Additional threaded aperture tions 16 are intended for fixing the insert 4 additional screw 5 in one of two extreme positions of the cutting insert 2 in its rotation about the bore axis 17 by an angle j. The outline of the side walls 7, 8, 9, 10, 11, 12 and 13 (as follows from a joint consideration of Fig. 2 and Fig. 3) is formed by the intersection of three pairs of faces 18 and their extensions, not including the working cutting edge 19, of the cutting insert 2 , rotated to the extreme positions with the formation of each face with itself in the rotated position of the angle j.

The angles in the plan ϕ ₁ and ϕ ₂ (the angle between the cutting edge and the feed direction D _s ) are traditionally assigned based on the applicable sequence of cutting types, for example, roughing and finishing boring, for the first of which the recommended cutting angle is ϕ ₁ 90 °, and for second recommended cutting angle ϕ ₂ 75 °. From here we find j = 90 ° -75 ° = 15 °.

Team cutter works as follows.

Insert the cutting insert 2 into the housing 1 and fix it with a screw 3 passing through the central mounting hole 17. The insert 4, secured with an additional fixing screw 5, is installed near the side walls 8 and 9 so as to fix the insert in place. This allows the plate to bore the part at an angle ϕ ₂ . If the insert 4 is located near the side walls 9 and 10, then the cutting insert 2 bores the part at an angle ϕ ₁ . These solutions simplify the design of the pre-cutter, as a result - an increase in tool reliability is achieved.

The foregoing allows us to conclude that the task of the utility model — the exclusion from the design of the rotary supporting (base) surfaces on the body of the pre-cutter — is solved, and the claimed technical result — the simplification of the design of the pre-cutter — is achieved.

The analysis of the claimed technical solution for compliance with the conditions of patentability showed that the characteristics indicated in the utility model are essential and interconnected with the formation of a stable set of necessary features, unknown at the priority date from the prior art and sufficient to obtain the claimed technical result.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed technical solution:

- the object embodying the claimed technical solution, when it is implemented, relates to the processing of materials by cutting, in particular to the design of prefabricated cutters with replaceable polyhedral cutting inserts;

- for the claimed object in the form described in the utility model, the possibility of its implementation using the methods and methods known above from the prior art on the priority date has been confirmed;

- an object embodying the claimed technical solution, when implemented, is able to ensure the achievement of the technical result perceived by the applicant.

Therefore, the claimed object meets the criteria of patentability "novelty" and "industrial applicability" under applicable law.

Claims (2)

1. A cutter assembly comprising a replaceable multi-faceted diamond-shaped cutting insert with a central hole, a housing with a seating groove for accommodating said cutting insert therein with the possibility of rotation to form the desired cutting angle ϕ ₁ and ϕ ₂ when the cutting tool is placed by the working cutting edge of the insert in the executive body of the machine and the mounting screw, designed to screw into the mating threaded hole in the housing at the bottom of the landing groove, while one end face of the plate is adjacent to the bottom of the groove, and the sides f the edges of the plate that do not include a working cutting edge with an edge at the working top are supported on the side walls of the groove, characterized in that it is equipped with a triangular insert installed and fixed in the groove, designed to fill the gap between one of the walls of the groove of the body and the adjacent side face of the cutting the plate, while the cutting insert is mounted to rotate an angle j = ϕ ₁ -ϕ ₂ around the axis of its central hole, and the side walls of the landing groove are made in the form of a broken line formed by the intersection of the faces her and their extensions of the cutting insert, not including the working cutting edge, turned to extreme positions with the formation of each face with itself in the turned position of the angle j, and the trajectory of the ribs opposite to the edge at the working top of the cutting insert. 2. The pre-cutter according to claim 1, characterized in that the insert is fixed in the groove by means of a fixing screw located in a hole made in it and in one of two threaded holes made in the housing.

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