SU745593A1 - Apparatus for undercutting end abutting to opening - Google Patents

Description

(54) DEVICE FOR TRIMMING THE END, ADJUSTING THE HOLE

one

The invention relates to the field of mechanical engineering and can be used for machining the ends of pipes with a strictly perpendicular end to the axis of the pipe.

A device for trimming an end face adjacent to an aperture, made in the form of a cartridge based on said opening, carrying the body of the cutting head, with a rod mounted in it with the possibility of real movement, is kinematically connected with the caliper of the cutting head fl.

The disadvantage of the known device is the low machining accuracy.

The aim of the invention is to improve the accuracy of processing.

To achieve this goal, the bar is installed eccentrically relative to the axis of the body and provided with a wedge mounted at one end with the possibility of interacting with the incisor support and a gear wheel mounted at the other end, while the cartridge is equipped with a hard-mounted pin bore kinematically associated with the specified tooth bowl wheel.

FIG. 1 pszhazano device in longitudinal section; in fig. 2 is a view A from the side of the drive-drive drive of the caliper feeder; in fig. 3 section bb fig 1

The proposed device consists of a guide cartridge 1 with a through hole in which the bearing bushings 2 are installed. A sleeve 3 is installed in the case 3 that can be rotated in the bushings. The free end of the body 3 on the side opposite to the cartridge 1 is provided with a device for its rotation from an unauthorized drive. For example, Morse taper. In the thickened part of the body 3, a through rectangular (or other, but not round) hole is made strictly perpendicular to the longitudinal axis of rotation of the body 3. In this hole there is a support 4 (Fig. 1 and 3), in addition, in the middle part of the body 3 a groove intersecting a hole for the caliper 4 is made along the axis of the vnshaen. In the caliper 4, a longitudinal through groove of the same width is also made. In these slots there is a one-sided wedge 5, which is pressed with the right side to the bar 6, fastened in the longitudinal groove of the housing 3, and with a bevel pressed to the caliper 4. The wedge 5 is screwed into the stud 7. The hole in the housing 3 under the stud 7 is perfectly parallel to j noosi rotation of the housing 3 d by some eccentricity. A nut-star 8 is screwed on the second end i of the stud 7. Therefore, the caliper 4 is equipped with a new feed mechanism. In the “Q version of the caliper 4, there is a cutter 9 / fixed with a bolt 10 (FIGS. 1 and 3). Along the caliper 4 there is a drilling, into which the spring 11 is installed, serving a constant clamping of the caliper 4 to the wedge 5 5. For adjusting the axial play of the body 3 and its mounting in the cartridge 1 on its cylindrical part, running through the sleeves 2, screwed nuts 12. The chuck 1 is provided with a wedge 13 20 and a tension screw 14 for fastening the chuck 1 to the base hole. For a constant clamping of the wedge 13 to the housing 1 on the housing 1 and the wedge 13 is installed reerez spring ring 15. 25

But for this device, another constructive implementation of the self-aligning yatron is also possible, for example, in the form of a compression sleeve with a hydro-plastic joint. But at the same time the base hole must be made by. 1-2 kl; ssu accuracy, because the brilliance tolerance field creates conditions for the occurrence of residual deformations -

 in a steel elastic-deformable sleeve of the hydrop cartridge. In case 1

pressed into the bobbin 16 nuts-stars-. Daughters 8., which together with it, with the use of nutrm 31xcontrolling pin 7 relative to the axis of rotation of the housing 3, forms a planetary internal engagement, and together with the pin 7 connected with the wedge 5, the ball screw drives the wedge-drive wedge IO of the support mechanism 5 with 45 cutter 9.. ,,

The device works as follows.

The cartridge 1 of the device is inserted into. the base hole CQ of the workpiece previously made so that the cutter 9 enters the hole in the hole by the amount of chips removed from the surface to be machined B. The cartridge has a hole in the part

. or a screw 14, which by means of Kli-55 puts the case 1 in the hole in 13. Behind the electric drill or pneumatic machine through the shank (cone

Mbree) tprvyv ed t so rotation case 3. The asterisk nut 8, having made a planar movement, due to the eccentric arrangement of the stud, 7 IB case 3, periodically engages with the girl 16 fixedly fixed in case 1, and for every 5

,one,.,-,... ; . . . .. Turns are screwed on the Hd stud 7 by an angle equal to the neutral angle between the teeth of the sprocket nut 8. (For the star shown in Fig. 2, this angle is 60). In this case, the wedge 5 moves in the direction of the cartridge 1 to the g-pitch of the thread of the stud 7, onto which the asterisk nut is screwed. The movement of the wedge 5 causes the support 4 to move together with the cutter 9 fixed on it perpendicular to the axis of rotation of the housing 3, due to the guide hole, the caliper 4 is located, from the axis of rotation to the periphery. This provides automatic feed of the cutter at a constant value per revolution of the housing 3, performed in the sleeves 2 of the fixed housing 1. In addition, the support 4 rotates together with the housing 3 and at the same time its end with the cutter 9 moves from the axis of rotation to the periphery, this provides from the B chip surface, uniform in thickness and continuous (due to some elasticity when the stud 7 is stretched) for each revolution of the housing 3. The feed rate is constant and is determined by the thread pitch of the stud 7, the number of teeth per nut e-asterisk. 8 and the wedge bevel angle 5.

The present invention allows the ends to be machined around holes in large parts in hard-to-reach places, eliminates the need for placing a part on a machine or machine for a part and can be used in heavy and medium-sized machinery.

invention formula

The device for trimming the butt, the software is designed for a bft hole made in the form based on the specified dTBepcTiiiEO. natfjOHa, bearing the body of a cutting head, with an axial movement installed in it with a potential movement. bar, kinematically, associated with the support of the incisive head, differing from the fact that, in order to increase the machining accuracy, the bar is installed very eccentrically relative to the axis of the body and is equipped with a fixed L1 on one of its ends with the possibility of borrowing from the incisors with a wedge and mounted on its other end is gearing with a wheel. At the same time, the sleep cartridge is bjen of a rigidly fixed on it kinematically associated with the specified gear wheel.

Sources of information, a certificate in the institute; jie in the examination 1. Bromberg B. -M. and others. Diamond boring machines. M., Mashinostroenie, 1965, p 82, FIG. 38 (a).

Claims (1)

Claim A device for trimming the end adjacent to the hole, made in the form of a cartridge based on the specified hole, bearing the body of the cutting head, with a rod installed in it with the possibility of axial movement, kinematically connected with the support of the cutting head, In order to increase the accuracy of processing, the rod is mounted eccentrically relative to the axis of the housing and is equipped with a wedge fixed to one of its ends with the possibility of interaction with the cutting support and a tooth mounted on its other end Atymya wheel, the cartridge is equipped with a rigidly mounted on. it is a forearm kinematically connected with said gear.