RU2043810C1 - Method of making holes - Google Patents

Abstract

FIELD: sheet material forming. SUBSTANCE: method comprises steps of making a preliminary hole in a sheet material; placing a rod with an oblique end surface in the prepared hole at one side and resting the rod; at other side acting upon an annular portion of the material around the hole by a punch; providing formation of a hardened layer with non-symmetricaly arranged shear surface in the result of plastic yielding of the material; removing the rod; going on to shear the hardened layer up to making the hole with necessary dimensions. EFFECT: high-quality of holes parts from low ductile materials. 1 cl, 4 dwg

Description

 The invention relates to the processing of metals by pressure and can be used in all areas of the national economy, where the formation of high-quality holes is required, including for mechanical point connections.

 Closest to the invention is a method for producing holes, mainly in plate material, in which a preliminary hole is obtained in the material, a rod is inserted in it with a diameter that is gapless in diameter on a part of its height with the formation of a gap between the rod end and the material plane, the material and the rod are supported from the installation side rod, on the opposite side form a cylindrical recess with a hardened layer in the bottom and with a diameter equal to the diameter of the final hole, by applying axial forces and plastic deformation of the annular portion of the material located within the gap, remove the rod and get the final hole by moving the hardened layer in the axial direction on the remaining part of the thickness of the material.

 The disadvantage of this method is the low quality of the resulting holes.

 The technical result to which the invention is directed is to improve the quality of the resulting holes.

 This is achieved due to the fact that when performing the method of producing holes, mainly in plate material, in which a preliminary hole is obtained in the material, a rod is installed in it with a diameter that is gapless in diameter over part of its height with the formation of a gap between the rod end and the material plane, the material is supported and the rod from the installation side of the rod, on the opposite side form a cylindrical recess with a hardened layer in the bottom and with a diameter equal to the diameter of the final hole, the application of axial forces and plastic deformation of the annular portion of the material located within the gap, remove the rod and get the final hole by moving the hardened layer in the axial direction on the remaining part of the thickness of the material, the gap between the end of the rod and the plane of the material when the rod is installed in the preliminary hole is uneven in depth.

 In FIG. 1 shows the initial position of the die tooling before the formation of a hardened layer in the material; in FIG. 2 stage of the end of the process of formation of the hardened layer; in FIG. 3 stage movement of the hardened layer; in FIG. 4 final stage of separation of the material.

 An embodiment of the method for producing holes is as follows.

In plate material 1, for example, of aluminum alloy B95T, a preliminary hole with a diameter of d is drilled. In this hole, a gapless cylindrical rod 2 is installed with a working end making an angle α with a vertical axis. Thus, between the plane of the material 1 and the end face of the cylindrical rod 2 create a gap asymmetric about the axis: its maximum value h, minimum h ₁ .

Then, the material is placed with the cylindrical rod inserted on the matrix 3. After that, the material is fixed by the clamp 4 with the force P of the _clamp , having previously ensured that its hole with a diameter of D _coincides with the axis of the cylindrical rod 2. A cylindrical punch 5 is installed in the clamping hole 4 to fit the movement (Fig. 1 )

 The implementation of the invention is as follows.

When the pulse force P _τ acts on the punch 5, it moves in the direction of the rod 2. As a result of the plastic flow of the material in the direction of the axis of the preliminary hole, a hardened layer is formed with an asymmetric arrangement of the shear surface. Generating shear surfaces AB and CF are shown by dashed lines. Moreover, the length of the generatrix aw exceeds the length of the generatrix cf.

Then, having removed the cylindrical rod 2 from the material, the impulse force P _{τ is} again applied to the end face of the punch 5. A plastic shift of the material is realized on the diameter D. However, the material will flow at different speeds, due to the difference in the lengths of the shear surface forming at diametrically opposite points of the finishing perimeter holes (Fig. 2). The latter is characterized by the fact that in the process of obtaining a finishing hole in the material to be separated, a shear surface is also formed with generators kl and mn, and also with unequal lengths. The presence of a shear surface in the material to be separated prevents the formation of a “plug”, since chip formation is observed (Fig. 3). Moreover, chip formation is also facilitated by the heating of the processed material from the work of plastic deformation. At the final stage of obtaining the hole (Fig. 4), the formation of the finishing hole is also carried out by shear in the presence of radial pressure on its walls.

 The technological parameters that determine the new process are: the degree of asymmetry of the gap between the punch 5 and the rod 2, which is characterized by the angle of inclination α of the end face of the rod 2 to the vertical axis of the preliminary hole; deformation rate and value of one-side allowance (D-d) / 2.

In working out the technological regimes of the process for producing holes, we used plate material (6 mm) from alloy V95T. A preliminary hole with a diameter of 4.0 mm was obtained by drilling. The asymmetry of the gap between the punch and the cylindrical core created by providing the chamfered (at an angle of ^about 60) the working face of the cylindrical rod to the preliminary axis of the hole.

 In the pilot industrial test of the method of producing holes, technological equipment from U8A tool steel was used, made according to the 7th accuracy class.

 The finishing hole had a diameter of 6.0 mm, the minimum clearance between the punch and the cylindrical rod 1.5 mm; maximum 3.8 mm.

 Punch loading by pulsed force was carried out by a 450 g hammer, accelerated by a MIU-10 magnetic pulse machine, at strain rates in the range of 25-28 m / s.

 Evaluation of surface quality using a 3-fold magnifier showed that there were no defects on the walls of the holes. In this case, the roughness of the separation surface lay in the range Ra 0.32-0.39.

Claims (1)

 METHOD FOR PRODUCING HOLES mainly in plate material, in which a preliminary hole is obtained in the material, a rod is inserted in it with a diameter that is gapless in diameter on a part of its height with the formation of a gap between the end of the rod and the material plane, the material and the rod are supported from the side of the installation of the rod, form on the opposite side a cylindrical recess with a hardened layer in the bottom and with a diameter equal to the diameter of the final hole, by applying axial forces and plastic deformations of the annular portion of the material located within the gap, remove the rod and get the final hole by moving the hardened layer in the axial direction on the remaining part of the thickness of the material, characterized in that the gap between the end of the rod and the plane of the material when the rod is installed in the preliminary hole is not uniform depth.

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