RU2755310C1 - Prefabricated drill bit - Google Patents

Abstract

FIELD: material processing.

SUBSTANCE: invention relates to the processing of materials by cutting and can be used when processing holes with prefabricated drill bits. The drill bit contains a housing in the socket of which a cutting plate is fixed, on the tangential support surfaces of which protrusions are made with some mounting surfaces located at an angle to the lower support surface of the cutting plate, and others located so that they protrude beyond the lower support surface of the cutting plate and are parallel to the corresponding tangential support surface. A groove is made in the housing from the end surface along the axis of symmetry, the walls of which are perpendicular to the lower support wall and the tangential support walls of the socket. In the parts of the housing separated by chip grooves, mounting walls are made for interaction with the mentioned mounting surfaces of the cutting plate and samples located on the side of the tangential support walls and covering the outlets to the end surface of the holes for the supply of lubricoolant.

EFFECT: centering of the cutting plate in the housing socket is improved, the reliability of its fastening without the use of fixing screws is increased.

1 cl, 9 dwg

Description

The invention relates to the processing of materials by cutting, a tool for processing holes - prefabricated drills.

Known assembly drill, having an axis of rotation and containing a housing and a cutting plate mounted and fixed in the housing nest, the cutting insert has an axis of symmetry coinciding with the axis of rotation of the drill when installing the cutting insert in the housing nest, two main cutting edges connected by a transverse cutting edge, intersecting the axis of symmetry, two auxiliary cutting edges, each intersecting with the corresponding main cutting edge, the main cutting edges are located at the intersection of the front surfaces and the main flank surfaces, the auxiliary cutting edges are located at the intersection of the front surfaces and auxiliary flank surfaces, the transverse cutting edge is located at the intersection of the main flank surfaces, the cutting insert is bounded by a lower bearing surface opposite the transverse cutting edge and perpendicular to the axis of symmetry, and two tangential bearing surfaces located parallel to the axis of symmetry, parallel to each other and opposite front surfaces, the body has an axis of symmetry coinciding with the axis of rotation of the drill, two chip grooves extending from the end of the body to its tail part, while in the body parts separated by the chip grooves and the shank there are channels for supplying cutting fluid, protruding at the end of the housing, the housing socket is bounded by the lower support wall for interaction with the lower support surface of the cutting insert and two tangential support walls for interaction with the tangential support surfaces of the cutting insert (see, utility model patent RU 20477, В23В 27/00, 2001. ).

In the known assembly drill, accurate centering of the cutting insert relative to the axis of rotation of the drill is not achieved, since there are no corresponding centering surfaces on the cutting insert and walls in the housing pocket, which reduces the machining accuracy. In addition, the cutting insert is attached to the body by means of fastening screws, the heads of which are located so that they can be influenced by the coming off chips, which reduces the reliability of the cutting insert. The technical problem, therefore, is to improve the machining accuracy by improving the centering of the cutting insert in the housing seat and increasing the reliability of the cutting insert fastening due to the elimination of fastening screws.

The specified technical problem is solved by the fact that an assembly drill having an axis of rotation and containing a body and a cutting insert mounted and fixed in the housing nest, the cutting insert has an axis of symmetry coinciding with the axis of rotation of the drill when the cutting insert is installed in the housing nest, two main cutting edges connected by a transverse cutting edge crossing the axis of symmetry, two minor cutting edges, each intersecting with the corresponding main cutting edge, the main cutting edges located at the intersection of the front surfaces and the main flank surfaces, the auxiliary cutting edges located at the intersection of the front surfaces and the auxiliary rear surfaces, the transverse cutting edge is located at the intersection of the main flank surfaces, the cutting insert is bounded by the lower abutment surface opposite the transverse cutting edge and perpendicular to the axis of symmetry, and two tangential abutment surfaces located parallel to the axis of symmetry, parallel to each other and opposite front surfaces, the body has an axis of symmetry coinciding with the axis of rotation of the drill, two chip grooves extending from the end of the body to its tail, while in the parts of the body, separated by the chip grooves, and the shank are made channels for supplying lubricating-cooling liquid, leaving at the end of the housing, the housing seat is limited by the lower support wall for interaction with the lower support surface of the cutting plate and two tangential support walls for interaction with the tangential support surfaces of the cutting insert, according to the invention on the tangential support surfaces from the side of the lower the support surface of the cutting insert has projections, on each projection there are two fastening surfaces, one of which is located on the side of the axis of symmetry at an acute angle to the lower support surface and is perpendicular to the corresponding tangential support surface, and the other - located on the side of the lower support surface, protrudes relative to it along the axis of symmetry and is parallel to the corresponding tangential support surface, while a groove is made in the body from the end surface along the axis of symmetry, the walls of which are perpendicular to the lower support wall and tangential support walls of the socket, and in parts of the body separated by chip grooves, fastening walls are made for interaction with the mentioned fastening surfaces of the cutting plate and the recess, located on the side of the tangential support walls and covering the outlets to the end surface of the holes for supplying the cutting fluid.

The proposed drill is shown in Fig. 1-9, on which:

in fig. 1 shows a front view of the cutting insert;

in fig. 2 shows a top view of the cutting insert;

in fig. 3 is a side view of the cutting insert;

in fig. 4 shows a front view of the assembled drill (on the working part);

in fig. 5 shows a top view of the assembled drill;

in fig. 6 is a side view of an assembly drill;

in fig. 7 shows section A-A in FIG. 5;

in fig. 8 is a front view of a wrench for securing and releasing a cutting insert in a housing socket;

in fig. 9 is a side view of FIG. eight.

The assembled drill has an axis of rotation 1 and contains a housing 2 and a cutting insert 3 mounted and fixed in the housing socket.

The cutting insert has an axis of symmetry 4, which coincides with the axis of rotation of the drill when the cutting insert is installed in the housing nest, two main cutting edges 5 connected by a transverse cutting edge 6 intersecting the axis of symmetry, two auxiliary cutting edges 7, each intersecting with the corresponding main cutting edge.

The main cutting edges are located at the intersection of the front surfaces 8 and the main rear surfaces 9, the minor cutting edges are located at the intersection of the front surfaces and the minor rear surfaces 10, the transverse cutting edge is located at the intersection of the main rear surfaces.

The cutting insert is bounded by a lower abutment surface 11, opposite the transverse cutting edge and perpendicular to the axis of symmetry, and by two tangential abutment surfaces 12 located parallel to the axis of symmetry, parallel to each other and opposite to the front surfaces.

The body has an axis of symmetry coinciding with the axis of rotation 1 of the drill, two chip grooves 13 extending from the end of the body to its shank, while in the parts of the body, separated by the chip grooves, and the shank there are channels for supplying lubricating-cooling liquid, which exit at the end of the body ...

The housing seat is bounded by a lower abutment wall 14 for interaction with the lower abutment surface of the cutting insert and two tangential abutment walls 15 for interaction with the tangential abutment surfaces of the cutting insert.

On the tangential support surfaces from the side of the lower support surface of the cutting insert, projections 16 are made. On each projection there are two fastening surfaces, one of which 17 is located on the side of the axis of symmetry at an acute angle to the lower support surface and is perpendicular to the corresponding tangential support surface, and the other 18 - located on the side of the lower support surface, protrudes relative to it along the axis of symmetry and is parallel to the corresponding tangential support surface.

In this case, a groove 19 is made in the body from the end surface along the axis of symmetry, the walls of which are perpendicular to the lower support wall and tangential support walls of the socket. The groove provides the possibility of elastic deformation of the body when fixing the cutting insert.

In the parts of the body, separated by the chip grooves, fastening walls 20, 21 are made for interaction with the said fastening surfaces of the cutting insert and the recess 22, located on the side of the tangential support walls and covering the outlets 23 to the end surface of the holes for supplying the cutting fluid.

When assembling the drill, the cutting insert is installed on the lower support wall of the socket so that its tangential support surfaces are located approximately at an angle of 45 ° to the tangential support walls of the socket, and turn until the fastening surfaces 20, located at an angle to the lower support surface, contact the body. Then the key 24 is inserted into the socket so that its legs 25 are located on the side of the front surfaces of the cutting insert, and, overcoming the elastic resistance of the housing, press the cutting insert into the socket until the tangential support surfaces of the cutting insert contact the tangential support walls of the housing socket. In this case, as a result of the elastic interaction of the fastening walls 20 with the fastening surfaces 17, the centering of the cutting insert is ensured, i.e. coincidence of its axis of symmetry with the axis of rotation of the drill. This also ensures the interaction of the fastening surfaces 18 with the fastening walls 21 and the fastening of the cutting insert in the socket, i.e. fasteners in the form of screws are excluded.

To loosen the cutting insert, the wrench tabs 25 are inserted into the recesses 22 on the tangential support walls of the housing and a torque is applied to the cutting insert to remove it from the socket.

Claims (7)

An assembled drill having an axis of rotation and containing a body and a cutting insert mounted and secured in a housing nest, while the cutting insert has an axis of symmetry coinciding with the axis of rotation of the drill when the cutting insert is installed in the housing nest, two main cutting edges connected by a transverse cutting edge crossing the axis of symmetry, two auxiliary cutting edges, each intersecting with the corresponding main cutting edge, and the main cutting edges are located at the intersection of the front surfaces and the main flank surfaces, the auxiliary cutting edges are located at the intersection of the front surfaces and the auxiliary flank surfaces, and the transverse cutting edge is located at the intersection of the main flank surfaces, while the cutting insert is bounded by a lower bearing surface opposite the transverse cutting edge and perpendicular to the axis of symmetry, and two tangential bearing surfaces located parallel to the axis of symmetry, parallel to each other and opposite to the front surfaces, the body has an axis of symmetry coinciding with the axis of rotation of the drill, two chip grooves extending from the end of the body to its shank, while in the parts of the body, separated by the chip grooves, and the shank, there are channels for supplying the lubricating-cooling liquid that exit at the end of the body, and the housing seat is bounded by a lower abutment wall for interaction with the lower abutment surface of the cutting insert and two tangential abutment walls for interaction with the tangential abutment surfaces of the cutting insert, characterized in that on the tangential support surfaces from the side of the lower support surface of the cutting insert, projections are made, on each projection there are two fastening surfaces, one of which is located on the side of the axis of symmetry at an acute angle to the lower support surface and is perpendicular to the corresponding tangential support surface, and the other located on the side of the lower support surface, protrudes relative to it along the axis of symmetry and is parallel to the corresponding tangential support surface, in this case, a groove is made in the housing from the end surface along the axis of symmetry, the walls of which are perpendicular to the lower support wall and tangential support walls of the socket, and in the parts of the housing separated by chip grooves, fastening walls are made to interact with the mentioned fastening surfaces of the cutting plate and recesses located with the sides of the tangential support walls and the female outlets to the end surface of the holes for the supply of cutting fluid.

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