RU208067U1 - Twist drill - Google Patents

Abstract

The utility model relates to the field of mechanical engineering and can be used in an axial tool. The spiral drill consists of a working part 1 and is equipped with two spiral helical grooves 2. Spiral grooves 2 at the intersection with the main rear surfaces 3 form cutting elements 4. Centering ribbons 7 are designed to center and guide the drill in the machined hole 5 of the part 6 and are formed in the form of petals 8 over the entire width and length of the back 9 with the help of a drainage recess, which is made in the form of grooves 10 crossing the back 9 at an angle in the direction opposite to the direction of rotation of the drill. When drilling holes 5 in the part 6, these ribbons 7 interact with the machined hole 5. The grooves 10 provide coolant supply and reduce friction that occurs in the centering zone of the working part 1 with the machined hole 5. Increased durability of the drill and the quality of the machined holes. 3 ill.

Description

The utility model relates to the field of mechanical engineering and can be used in an axial tool, such as drills, countersinks, reamers to improve the quality of machined holes.

Known spiral drills (GOST 10902-77, GOST R50427-92), consisting of a working part, equipped with two spiral helical grooves, which form cutting elements and are designed for efficient removal of chips, as well as supply of cutting fluid (coolant) to the drilling zone ...

The disadvantage of these drills is the relatively low quality of the machined holes due to insufficient centering due to narrow centering bands on the backs (auxiliary rear surfaces) of the drill.

Also known are spiral drills used for processing difficult-to-machine materials, with two ribbons located along the edges of the backs, and in the middle there is a drainage recess that serves to supply coolant and reduce friction ("Handbook of a toolmaker" edited by V.I. Baranchikov, p. . 217, Fig. 5.16. - M .: Mashinostroenie, 1994.).

The disadvantage of these drills is the relatively low dimensional stability and quality of the machined surface of the hole due to the low load capacity to absorb the radial load due to the insufficient support area of the centering strips.

The technical task of this solution is to increase the load capacity of the drill and improve the quality of the holes to be machined.

The technical problem posed is solved by the fact that the drill is spiral, includes a working part equipped with two helical grooves forming cutting elements at the intersection with the main rear surfaces, and two backs, on the screw surfaces of which centering ribbons are made, interacting with the hole to be machined. Centering strips are made in the form of petals along the entire width and length of the backs by means of drainage recesses, presented in the form of grooves, intersecting with the backs at an angle, with a rise in the direction opposite to the direction of rotation of the drill.

The proposed utility model is illustrated graphically, where in FIG. 1 shows a general view of the working part of the twist drill, FIG. 2 - section A-A, Fig. one; in fig. 3 - view B, Fig. one.

The spiral drill consists of a working part 1 with a diameter D and is equipped with two spiral helical grooves 2 with a lifting angle ω. The spiral grooves 2 at the intersection with the main flank surfaces 3 form cutting elements 4. In addition, the spiral grooves 2 are designed for efficient removal of chips and supply of coolant to the drilling zone. For good centering and direction of the drill in the hole 5 to be machined in part 6, centering ribbons 7 are used. The ribbons 7 are formed in the form of petals 8 along the entire width and length on two backs 9 brought together with the help of a drainage recess. The drainage recess is made in the form of grooves 10 with a certain pitch t, intersected with the backs 9 at an angle α and a rise (from the cutting elements 4 to the drill shank) in the direction opposite to the rotation of the drill.

When drilling holes 5 in part 6, ribbons 7 interact with the hole to be machined 5. The grooves 10 allow the coolant to be supplied and reduce the friction that occurs in the centering zone of the working part 1 with the machined hole 5. Centering ribbons 7, located on the backs 9, increase the load capacity , and, consequently, the dimensional durability of the drill.

The effectiveness of the proposed technical solution lies in increasing the dimensional stability and quality of the machined surfaces of the holes. This solution can be used in axial tools with wide centering bands, such as countersinks, reamers and other similar tools.

Claims (1)

A spiral drill containing a working part made with helical grooves forming cutting elements at the intersection with the main rear surfaces, and with backs, on the screw surfaces of which centering ribbons are made to interact with the hole to be machined, separated by a drainage recess along the entire length of the back, characterized in that, that the centering strips are made in the form of petals located across the entire width of the backrest, and the drainage recess is formed by grooves intersecting with the backrests at an angle and with a rise in the direction opposite to the direction of rotation of the drill.

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