SU1007841A1 - Cutting tool - Google Patents

Abstract

A CUTTING TOOL with a mechanical fastening of the cutting element by means of a pin, its end into its hole, comprising a housing with a fastening mechanism arranged in it, made in the form of two plungers with a common cavity filled with plastic mass, one of which is associated with a screw pair and the other is in contact with the pin, characterized in that, in order to simplify the construction, the plungers are mounted concentrically relative to each other, wherein the inner plunger is connected to the screw pair, and to interact with the pin tom designed outer plunger.

Description

The invention relates to mechanical engineering and can be used in engineering plants related to the machining of the surfaces of parts, and is intended to improve the tools with the mechanical fastening of non-replaceable cutting inserts with a central hole. Lime cutting tool with a mechanical fastening of the cutting element, which consists of a housing, a clamping screw, a pin and a plunger. A special feature of mechanical fastening is the construction of channels filled with a hydraulic layer, with a plunger in one channel that is in contact with the lower portion of the pin, and the second plunger associated with the screw pair 1. However, in the known device, the clamping force depends on the area of the plunger acting on the lower end of the pin; moreover, at least two channels and the application of elastic elements. The purpose of the invention is to simplify the design. This goal is achieved by the fact that for a cutting tool with a mechanical fastening of the cutting element by means of a pin that enters its hole at its end, plungers are installed concentrically with each other, but differently, while the inner plunger is connected with the screw pair, and for interaction with the pin outer plunger. FIG. Figure 1 shows a tool with a mechanical fastening of a cutting element made in the form of a five-sided carbide insert with a central hole, a section; in fig. 2 shows an embodiment of a tool with plungers shifted relative to each other, section. A tool with a mechanical fastening of a carbide n-tigre plate with a central hole consists of body 1, in the groove of which plate 2 is fixed, fixed to body 1 of support bar 3, plungers 4 and 5 centered in channel of body 1, piston b and pin couples. The screw pair is made of a screw 7, which enters the corresponding threaded hole in the housing 1, with its head inserted into the recess 8 and connected to the latter by means of a socket 9. The cracker 8 is connected to the plunger 4 by means of the protruding part of the crack and the groove made in the plunger 4. The ring 9 protects the screw 7 from axial movements relative to the cracks 8. The housing 1 serves to fix it on the machine or in the tool body and has a rectangular cross section, the sharp edges of which are blunted by chamfers. In the front part of the housing 1 there is a cutting element, made, for example, in the form of a five-sided carbide plate 2. Plate 2 is based on the corresponding surfaces of the support bar 3 and the bottom surface of the groove of the body 1. Support surfaces of the bar 3 have an undercut that ensures tight contact of the plate with the bottom the groove of the housing 1. As U the geometric center of the carbide plate 2, and at the bottom of the groove of the housing 1 are cylindrical holes with equal diameters. The axes of the holes are perpendicular to the supporting surfaces, which ensures that when turning and turning the plate 2, the maximum number of cutting edges is obtained. In these aligned holes, there is an installation pin 6, having a head d and a neck h. The head ct of the pin b, is made with an ellipsoidal surface, interacts with the surface of the carbide plate 2, and below it is located the neck b on the pin b, having a spherical surface, placed along sliding fit in the housing bore 1. Neck pin b serves as a hinge around which the pin rotates when the carbide plate is fixed or released b. In the prismatic case 1 there is a cylindrical shape with a channel c located in the open part on the side of the plate 2 installation. In the cavity of the channel c there is a plastic mass and concentrically arranged plunger 4 and 5, and the hollow plunger 4 is made with a smaller end area e affecting the plastics mass compared to with an area cj, the plunger 5, having contact with the lower part of the cylindrical section of the pin b at the point k. As a plastic mass, depending on the specific operating conditions of the instrument, for example, hydroplasts of the SM, DM types can be used. , MATI-1-4. In the modification of the tool design with the mechanical fastening of the nigonal plate (Fig. 2), the plunger 5 is used concentrically located in the hollow plunger 4 with some displacement relative to its axis and a screw pair, made directly in the body of the plunger 4. Similarly, the pin b is connected the plunger 4 through the groove h located on its outer surface. The support bar 3 and the bottom of the housing groove, forming the seat for the plate 2, are made in the construction as described above.

The fixing of the non-replaceable carbide plate in the housing 1 is carried out as follows.

When screwing the screw 7 (Fig. 1)

At the same time, rusk 8, which rests with its protrusion into the groove of hollow plunger 4, moves. As a result of displacement of plunger 4 along the channel axis through end e, pressure is created in the plastic mass channel and 10 simultaneously acts on plunger 5 having a large end area. The resulting force on the plunger 5, depending on the selected ratio of the areas of the ends e and ej, the plungers 4 and 5, is transferred to the lower end k of the pin b, the pin 6 rotates relative to the spherical neck b clockwise and carries plate 2 to the supporting surfaces of the strap 3. When the screw 7 is screwed in further into the threaded hole of the housing 1 and, respectively, when the cracker 8 and the plunger 4 are moved, the non-swiveling plate 2 begins to contact the supporting surfaces of the slat 3, and the lower plane of the plate is pressed toWell groove body. The execution of the head from the pin 6 with an ellipsoidal surface provides not only an increase in the pressing force of the plate 2 to the supporting surfaces of the bar 3 and its pressing to the bottom of the groove of the body 1, but also raising the plate 2 with its unfixing.

To replace the plate 2 or change the cutting edge 35, the screw 7 should not be completely unscrewed; it is enough to loosen it. When turning the screw 7 in

back side clamping pressure in the channel o. with the placed hydro-paste 40 disappears, and the plate ceases to contact with the supporting surfaces. By performing the ellipsoidal surface of the head with | the pin 6 rotates it relative to the support 5 of the spherical neck b on the body 1, the plate rises, which allows the plate 2 to be easily and quickly taken out of

sockets in the tool for turning, flipping or replacing it.

The fastening and unfastening of the non-reversible plate 2 in the second plate fastening structure in the tool (FIG. 2), as in the previous one, is carried out in a similar way, but when the plate 2 is unfastened, plunger 4, 5 return and the pin 6 is rotated clockwise key or screwdriver when turning the screw 7.

The constructions can be used for fastening carbide non-replaceable plates not only in the cutters and boring blocks, but also on the mills. It should also be noted that in the proposed structures, the front surface of the cutting plate is fully open and, in addition, there is still an open space allowing the plate mounting structure to be widely used in tools used for boring or drilling deep holes.

The above design solution has a significant effect on the installation accuracy of non-replaceable carbide plates, on the reliability and rigidity of pressing the plates to the supporting surfaces, which allows to increase the resistance of each cutting edge of the plate compared to the resistance of the plates fixed in a known manner.

In addition, in the proposed fastening 5 is smaller: auxiliary time is provided for the replacement of blunt plates by raising them from the bearing surfaces and the possibility of using a common channel in multi-cut tools. The use of the proposed device in the designs of multi-blade tools allows fixing non-swiveling plates with a wider tolerance on the dimensions of the plates and the error of the installation places under the plate in the tool body.

Claims (1)

; CUTTING TOOL with mechanical fastening of the cutting element • by means of a pin inserted with its end into its hole, containing a housing with a fastening mechanism placed in it, made in the form of two plungers with a common cavity filled with plastic mass, one of which is connected with a screw pair, and the other is in contact with the pin, characterized in that, in order to simplify the design, the plungers are mounted concentrically relative to each other, while the inner plunger is connected to the screw pair, and to interact with the pin, external plunger designed.