RU220299U1 - LATHE TOOL HOLDER - Google Patents

Abstract

The utility model relates to machining, in particular to tools for turning precision parts. The turning tool holder includes a base mandrel rigidly connected to the body. The body contains an open groove with support and guide surfaces that are mutually perpendicular. The cutter is installed in the groove on the supporting surface and secured with a screw. The tool holder contains an axis in the housing and two clamping levers pivotally mounted on the axis. The levers contain threaded holes on one of the arms; the other arm interacts with the cutter. A screw with a threaded hole interacts with the cutter. The cutter simultaneously interacts with the guide and supporting surfaces of the open groove. Increases the contact rigidity and increases the versatility of the tool holder. 5 ill.

Description

The utility model relates to machining, in particular to tools for turning precision parts.

Tool holders for lathes are known, see the book by N.N. Chernov “Metal-cutting machines” (M.: Mashinostroenie, 1978. - 389 p., p. 118, fig. 84, where the cutters are clamped directly by screws interacting with their ends with the cutter.

The disadvantage of the clamping devices of these tool holders is the lack of reliability and rigidity of fastening, because the contact of the fastening element (screw) has a small contact area with the cutter.

Typical tool holders are known with a cylindrical shank of the VDI type and an open groove perpendicular to it for installing and fastening the cutter using a screw and a clamping bar, see the Tool Designer's Handbook, ed. IN AND. Baranchikova - M.: Mechanical Engineering, 1994. - 560 pp., p. 510, Fig. 10.4 (prototype).

The disadvantages of these tool holders are their relatively low contact rigidity.

The technical objective of the utility model is to increase the contact rigidity when clamping a cutter in a tool holder and to increase the versatility of the tool holder by clamping right and left cutters, because the stiffness is the same in both directions.

The technical problem is solved by the fact that a turning tool holder, including a base mandrel and a body rigidly connected to it, with an open groove made in it with mutually perpendicular support and guide surfaces, and in the groove the cutter is attached with screws to the support surface, additionally contains an axis installed in the body and two levers pivotally mounted on it. The screws are installed on one of the arms of the levers, and the other arms of the levers directly interact with the cutter, and the cutter is clamped along two surfaces - the support and the guide simultaneously.

The essence of the utility model is illustrated graphically, where in Fig. 1 shows a general view; in fig. 2 - section A-A, Fig. 1; in fig. 3 is the same as in Fig. 2, different sizes square cutter clamp; in fig. 4 is the same as in Fig. 3, rectangular cutter clamp only; in fig. 5 is the same as in Fig. 4, only the cutter clamp is in a different position.

The turning tool holder consists of a body 1, rigidly connected to the base mandrel 2. The cutters 3 are installed and clamped in an open groove 4 made in the body 1. The open groove 4 contains two mutually perpendicular surfaces - a support 5 and a guide 6. In order to increase rigidity, the clamp cutters 5 are carried out simultaneously along the supporting 5 and guide 6 surfaces with the corresponding surfaces of the cutter 3. Clamping of the cutter 3 is carried out at its beginning and end by at least two levers 7 and clamping screws 8. The screws 8 at the end have a spherical end and are installed in threaded holes 9 on one of the arms 10 of levers 7. Levers 7, in turn, are hingedly mounted on an axis 11. The axis 11 is mounted in the housing 2 and is locked from axial movement, for example, by a screw 12. When the screws 8 rotate, their spherical ends rest against the cutter 3, and the levers 6 at this time rotate and the other arms 13, simultaneously with the screw 8, clamp the cutter 3 in two planes 5 and 6 with forces P ₁ and P _2, P _{2 =} P ₁ l ₁ /l _2, respectively, in the body 1 To expand the range of sizes of clamped cutters 3 of square section from □ _min to □ _max , Fig. 3, or rectangular section B×H, Fig. 4, 5, an additional screw 14 can be installed on the arm 13. Moreover, the clamping of the cutters 3 can be carried out, in the case of a square section, by extending the screws 8 and 14, or in the case of a rectangular section, by turning the levers 7 followed by final tightening of one of the screws - 8 or 14.

To fix the levers 6 in a certain position, after clamping the cutters 3, there are clamps 15 made of an elastic material, for example, rubber, and the arm 10 of the lever 7 is made at the end along an arc of radius R, Fig. 4, for its unhindered rotation. At the same time, the clamps 15 can serve as casings to prevent chips and dirt from getting into the clamping area of the cutters 3, because lever 7 is constantly pressed tightly against lock 15 with its shoulder 10.

The tool holder works as follows. After installing the cutter 3 in the tool holder, rotate the screw 8, its spherical end rests against the cutter 3, the lever 7 rotates, the shoulder 13 touches the cutter 3 and presses it to the guide surface 5. Further rotation of the screw 8 with a certain moment clamps the cutter 3 in the supporting surface 5, and the arm 13 of the lever 7 is simultaneously in the guide surface 6 finally. After this, the tool holder is ready for use.

The effectiveness of the proposed utility model lies in its increased technological capabilities.

Claims (1)

A turning tool holder includes a base mandrel rigidly connected to a body containing an open groove with a support and guide mutually perpendicular surfaces, in which a cutter is installed on the support surface and secured with a screw, characterized in that it additionally contains an axis in the body, and pivotally mounted on the axis two clamping arms, each of which contains threaded holes on one of the arms, the other arm interacts with the cutter, and the screw interacts with the threaded hole and the cutter, and the cutter simultaneously interacts with the guide and supporting surfaces of the open groove.