RU68394U1 - DRILL WITH REPLACEABLE MULTI-DIPPED PLATES - Google Patents

Abstract

The utility model relates to the field of metal cutting and can be used in the processing of products on machines with both high and low rigidity of the technological system. The drill contains a housing with chip grooves and holes for supplying a cutting fluid, two replaceable polyhedral cutting inserts asymmetrically located relative to the axis of the housing installed in the base seats, and screws for their fastening, while one of the replaceable multi-faceted cutting plates is located on the periphery of the housing and Designed to form the surface of the hole being machined. The cutting inserts have the shape of cutting edges, which allows to compensate at each point of the cutting edge the horizontal component of the cutting force due to the radial component.

This makes it possible to increase the resistance of cutting edges during cutting, the accuracy of processing and the quality of the processed surface when machining on machines with high rigidity of the technological system and to increase the working capacity (reduce the possibility of breakage) of the cutting inserts when used on machines with low rigidity of the technological system.

Description

The utility model relates to the field of metal cutting and can be used in the processing of products on machines with both high and low rigidity of the technological system.

A drill SU 965628 is known, published on 10/15/82, with mechanical fastening of two carbide cutting inserts for machining holes in a solid material, comprising a housing on which a shank and two grooves for chip evacuation are made, one cutting edge covers the entire radius, and the second only part of it . The plates are mounted in the nests with helical fungal grips. In order to increase the reliability and productivity of processing, the second cutting insert is advanced axially and rotated relative to the first cutting insert so that its cutting edge overlaps the middle section of the cut width.

The disadvantage of this drill is the unreliable fastening of the cutting inserts in the nests with helical fungal grips, the inability to replace the plates due to the difference in the size of the inserts.

Also known drill RU 2147265, published 10.04.2000, for drilling metals, having on the front of the carrier cutting inserts, cassettes (cassettes with mounted cutting plates), for example 3, 5 or 7 cassettes. The peripheral cartridge carries a peripheral cutting insert. This peripheral cartridge is fixed in the drill body by means of a locking screw that goes into the groove in the drill head. There is a wedge radially inside from the peripheral cartridge, which can be moved along the axis and as a result can adjust the radial position of the peripheral cartridge and the cutting insert, and therefore the cutting diameter. Upon reaching the desired radius adjustment, the peripheral cutting insert is fixed (secured) with a locking screw. Reliable, simple and very precise adjustment of the cutting diameter is carried out.

The disadvantage of this drill is the complexity of its manufacture, difficult chip removal along the drill channels, insufficient durability of the cutting edges during cutting, machining accuracy and surface quality when machining on machines with high rigidity of the technological system and quick failure (breakage) of the cutting inserts when using on machines with low rigidity of the technological system.

As a prototype, we used a standard drill, centrally manufactured by the industry according to OST2 I20-9-84 and OST2 I20-10-84, containing a body with chip grooves and holes for supplying a lubricant-cooling fluid, two replaceable polyhedral cutting inserts asymmetrically located relative to the axis of the body, installed in the base sockets, and screws for their fastening, while

one of the replaceable multifaceted cutting inserts is located on the periphery of the body and is designed to form the surface of the hole to be machined (see I. Fadyushin et al. "Tool for CNC machines, multi-purpose machines and GPS", M., "Engineering", 1990, p. 168-173, Fig. 3.20).

The disadvantage of this drill is the insufficient resistance of the cutting edges during cutting and the accuracy of processing on machines with high rigidity of the technological system and the quick failure (breakage) of the cutting inserts when used on machines with low rigidity of the technological system.

The present invention is the creation of a replaceable multi-faceted cutting insert, which improves the performance of the drill with replaceable multi-faceted inserts.

The specified technical problem is solved in that the drill containing the housing with chip grooves and holes for supplying cutting fluid is equipped with replaceable polyhedral cutting inserts installed in the base seats having the shape of cutting edges, which allows to compensate at each point of the cutting edge the horizontal component of the cutting force for radial component count.

Figure 1 shows a General view of the described drill with interchangeable polyhedral plates.

On figa shows a diagram of the mounting plates on the drill.

Figure 2 shows a diagram of the division of the width of the cut and the work areas of the cutting edges of each of the plates.

Figure 3 shows the diagrams of the distribution of horizontal forces on the drill and the direction of their action.

Figure 4 shows a top view of the insert and the elementary section of the cutting edge.

On figa shows a diagram of the action of forces on the elementary section of the cutting edge, inclined at an angle λ _Pi to compensate for the horizontal component of the cutting force.

Figure 5 shows a top view of the proposed peripheral plate.

On figa shows the shape of the front surface of the proposed peripheral plate.

On figb shows the shape of the front surface of the proposed peripheral plate in section.

Figure 6 shows a top view of the proposed Central plate.

On figa shows the shape of the front surface of the proposed Central plate.

On figb shows the shape of the front surface of the proposed Central plate in section.

Figure 7 shows the change in the horizontal, radial components of the cutting force and the total cutting force acting on the prototype during the cutting process.

On figa shows the change in the horizontal, radial components of the cutting force and the total cutting force acting on the proposed drill with replaceable polyhedral plates in the process of cutting.

A general view of the described drill with interchangeable polyhedral plates is shown in figure 1.

The drill includes a housing 1 with chip grooves 2 and holes 3 for supplying coolant. In slots 4 of the housing 1, screws 5 are fixed to the cutting inserts 6 and 7. During the cutting process, the cutting central plate 6 provides metal removal at the axis of the hole, and the peripheral cutting plate 7 forms the outer cylindrical surface 8 of the hole in the product 9. Dividing the width of the cut and work sections the cutting edges of each of the inserts are shown in figure 2: section A - is processed by the Central plate, section B - peripheral. In the process, the horizontal force P _{at the} periphery acts on the peripheral plate, and P _{at the center} on the central one. In this case, the horizontal forces from each plate on the drill itself are added up. The diagrams of the distribution of horizontal forces and the direction of action are shown in Fig.3.

The shape of the cutting edges of the plates, allowing to compensate at each point of the cutting edge the horizontal cutting force due to the radial, is calculated by the formula (according to figure 4 and figa):

To do this, it is necessary to divide the cutting edge of the insert into elementary sections of equal length (the shorter the length of the portion, the more accurate the shape of the cutting edge will be obtained), after which each elementary section is rotated through an angle λ _Pi calculated by formula (1), then sequentially from the edge of the insert to its center, the cutting edge is rotated to the angles obtained, as a result of which the profile shown in figa and figa is obtained. To use the formula (1), it is necessary to know the distribution diagrams of the horizontal (P _z ) and radial (P _y ) components of the cutting force (Fig. 3), i.e. know the values of P _zi and P _yi in the elementary section. These values are determined either experimentally or according to the data available in the literature (Broaches for hole processing / D.K. Margulis, M.M. Tverskoy, V.N.Ashikhmin and others. - M .: Mechanical Engineering, 1986. - p. 186, tab. P 20).

The shapes of the cutting edges of the inserts calculated in this way are obtained either by grinding the standard inserts or by sintering in a specially made mold.

The results of using a drill with replaceable polyhedral inserts showed an increase in working capacity when machining on machines with a low rigidity of the technological system and an increase

durability and accuracy of processing on machines with high rigidity of the technological system is on average 35% higher than that of the prototype. The change in the components of the cutting force of the prototype and drill with replaceable polyhedral inserts during the insertion process is shown in Fig. 7 and Fig. 7a, from which it follows that the horizontal component of the cutting force (and, as a result, the total cutting force) during drilling by the proposed design is significantly less than prototype.

The shape of the cutting edge of the peripheral insert is shown in FIG.

The shape of the cutting edge of the center plate is shown in Fig.6.

Claims (1)

Drill with interchangeable polyhedral inserts, comprising a housing with chip grooves and holes for supplying a lubricant-cooling fluid, two replaceable polyhedral cutting inserts asymmetrically located relative to the axis of the housing installed in the base sockets, and screws for their fastening, while one of the interchangeable multifaceted cutting inserts located on the periphery of the housing and is designed to form the surface of the machined hole, characterized in that the cutting inserts have the shape of cutting edges, allowing compensating at each point of the cutting edge the horizontal component of the cutting force due to the radial component.