RU2287406C1 - Boring head - Google Patents

Abstract

FIELD: metal working, finish working of holes.

SUBSTANCE: head includes body with vernier formed on its generatrix surface and screw. Eccentric is mounted inside body with possibility of rotation and it is rigidly coupled with limb. Cutter holder is mounted inside eccentric with possibility of radial motion along bar relative to body. In order to improve rigidity and to increase useful life period after adjustment, boring head includes elastic member and stop; screw is jointly mounted. On surface of holder there are cutout and dent. Elastic member engages with said dent and it is rigidly coupled with stop. The last engages with cutout and with jointly mounted screw.

EFFECT: increased useful life period, improved rigidity of boring head.

5 dwg

Description

The invention relates to metalworking, mainly to the finishing of holes.

Known boring mandrels (Maslov AR "Accessories for metalworking tools", M., 1996, p. 204, Fig. 14) with an eccentric feed cutter, in the housing of which there is an eccentric boring, which includes the mandrel. A worm wheel is mounted on the mandrel, driven by the worm. A clip is mounted on the housing, and a disk is mounted on the mandrel.

The disadvantage of this boring mandrel is the complexity of the design.

Also known is the boring head, the prospectus of the company Krupp Video W 2.3.-99. 1082 (prototype), which contains a housing with a hole and a tool holder, with the ability to radially move relative to the housing along the rolling pin by means of an eccentric installed in the hole between the housing and the tool holder.

The disadvantages of this design are the relatively low structural rigidity and the life of the device during adjustment due to the lack of an elastic element that constantly selects gaps and creates an interference fit in both axial and radial directions.

An object of the invention is to increase the rigidity and service life of the device during configuration.

The specified technical problem is solved in that the boring head, including the housing, inside which the cam is rotatably mounted, rigidly connected to the limb, as well as a tool holder mounted inside the cam with the ability to radially move along the rolling pin relative to the housing, and the screw additionally contains an elastic element and emphasis. The screw is hinged, and there is a cut and a protrusion on the forming surface of the tool holder. The elastic element interacts with the protrusion and is rigidly connected with the stop, and the stop interacts with a shear and a hinge screw.

The invention is illustrated graphically, where figure 1 shows a General view of the boring head; figure 2 is a section along aa of figure 1; figure 3 is a section along BB of figure 2; figure 4 is a section along bb In figure 2; figure 5 - elastic element with focus.

The boring head consists of a housing 1, which can be directly the mandrel. An eccentric 2 with a collar "D" is mounted in the opening of the housing 1, and a tool holder 3 is mounted in the hole of the eccentric 2. An "E" collar and an axial hole are made in one end of the tool holder 3, into which the cutters 4 or adapter sleeves 5 are mounted and fastened with clamping screws 6 A radial hole is made at the other end of the tool holder 3, with the help of which it is fixed against rotation and axial movement by the rolling pin 7 so that end clearances are selected between the housing 1, the collar "D" of the cam 2 and the collar "E" of the tool holder 3. Rolling pin 7 in in the ide of the hinge screw is mounted in the housing 1. The tool holder 3 can only move along the rolling pin 7 in the radial direction to the maximum distance of the double eccentricity 2e when the eccentric 2 is rotated 180 °, 2e = Smax-Smin, where S is the wall thickness of the eccentric 2 (Fig. 3). To rotate the eccentric 2 without jamming on its generatrix in a certain place with respect to the eccentricity, for example, a triple cut 8 is made in the form of an equilateral trapezoid (figure 2). A protrusion 9 is contained on one of the faces of the slice 8. An elastic element 10 (Fig. 5) interacts with the protrusion 9 and is rigidly connected to the abutment 11 having an opening. The elastic element 10 with the stop 11 is installed by means of an opening with a minimum clearance on the hinge screw 12. The screw 12 is mated with the threaded hole of the housing 1. By tightening the screw 12, the elastic element 10 presses the protrusion 9 with its cantilever part, because the stop 11 is limited by a hinged screw 12, thereby selecting axial minipages and creating a certain interference fit in the bag from the shoulders of the tool holder 3, the cam 2 and the end face of the housing 1, as well as the tool holder 3 - the rolling pin in conjunction 7. Radial micro-gaps are also selected and a certain tightness is created in the same elements as the elastic element 10 is deformed in this direction within the distance "a" (figure 5). In this state, it is possible to adjust the cutter 4 to size using the radial holes 13 made around the perimeter of the generatrix of the eccentric 2 and intended for its rotation.

The boring head is adjusted according to the divisions of the limb 14 and the vernier 15 made on the generators of the eccentric 2 and the housing 1, respectively. To easily bypass the elastic element 10 when the eccentric 2 is rotated, a cutout 16 is made in it in the form of a sector with an angle of alpha (α) greater than or equal to 180 °. With further tightening of the screw 12, the stop 11 presses against the cut, and the elastic element presses against the protrusion of the tool holder 3, creating the necessary interference in all radial and axial mates. After that, you can process the holes.

Claims (1)

A boring head, comprising a housing with a vernier made on its generatrix surface, inside the housing is mounted rotatably an eccentric rigidly connected to the dial, as well as a tool holder mounted inside the eccentric with the possibility of radial movement along the rolling pin relative to the housing, and a screw, characterized in that it contains an elastic element and a stop, the screw is hinged, and a cut and a protrusion are made on the forming surface of the tool holder, and the elastic element interacts with the protrusion and is rigidly connected with rum, and interact with abutment and the screw cut hinge.

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