SU1007943A2 - Expander - Google Patents

Abstract

1. RETILE on auth. St. M 880704, characterized in that, in order to improve the quality of processing, it is provided with an additional sleeve with an inner conical surface mounted on the mandrel rotatably and kinematically connected with a spring-loaded cone through the non-working part of the peripheral surfaces of the rollers. . 2. Rolling according to claim 1, about t l and -. .4 aa shch - the fact that it uses rollers with a curvilinear surface profile of constant width. O) 41 with 4; 00

Description

The invention relates to the machining of parts by plastic deformation and can be used in the machining of holes.

According to the main author. St. No. 880704 known rolling for finishing machining of internal cylindrical surfaces, containing a mandrel carrying a spring-loaded truncated cone, installed with its large base in the direction of self-feeding and having the possibility of axial movement on the rod, equipped with an adjusting element and a rotary separator with rollers 1.

A disadvantage of the known rolling is the impossibility of obtaining a regular microrelief due to the misorientation of the rollers in the grooves of the separator in various ways. Due to such a misorientation, the rollers slipping along the bearing and work surface, as well as along the lateral surfaces of the separator grooves, which dramatically degrades the quality of the processed surface.

The purpose of the invention is to improve the quality of processing.

The goal is achieved in that the expansion is provided with an additional sleeve with an inner conical surface mounted on the mandrel rotatably and kinematically connected with a spring-loaded cone through the non-working part of the peripheral surfaces of the rollers.

In this case, rollers with a curvilinear surface profile of constant width are used.

FIG. 1 shows rolling with disoriented rollers; in fig. 2 shows section A-A in FIG. in FIG. 3 - microrelief obtained in this case; in fig. 4 - proposed rolling; in fig. 5 - cut. BB in FIG. four; in fig. b yolan microrelief.

The rolling (Figs. 4 and 5) contains a mandrel 1, a support cone 2, rollers of constant width, turned on a self-feeding angle, a separator 4 placed on bearings 5, a sleeve b located on a bearing 7 and contacting the inner surface with a roller 3 constant widths. The support cone 3 is preloaded by the spring 8 by means of the nut 9 and transmits the torque. By means of the key 10. The clearance in the bearings 5 is selected by the nut Il

By kinematic coupling is meant the following. Roller 3 (fig. And 5). forms a kinematic pair with a supporting cone 2. At the same time, ropik 3 forms a kinematic pair with sleeve b, and also forms a kinematic pair with separator 4. Thus, each of the rollers 3 is simultaneously formed by three kinematic pairs and due to the spring compression force 8, four parts are power-locked — the support cone, the separator, the rollers and the tulk. At the beginning, before processing, the rollers 3 are uniquely oriented in the slots of the separator 4, for example, as

0 is shown in FIG. 5, where all the rollers with the tips are directed towards the surface to be machined, or towards the sleeve 6. Due to the presence of the compressive force of the spring 8, the frictional forces in kinematic pairs (especially the o-cone, roller sleeve), the orientation is kept in the idle state of rolling. If you run around the rollers 3 on the support cone 2, then

0, all the rollers 3 will be run in on the support bonus 2 and on sleeve b, i.e. . will perform a planetary rotation, making a permanent connection between the support cone 2 and

5 sleeve b. The frictional forces in the kinematic pairs interfere with slippage and the mutual orientation of the rollers 3 remains unchanged.

Thus, the presence of the sleeve b provides a kinematic connection between the rollers 3 of constant width, due to which their constant mutual orientation is carried out. Accordingly, the sleeve b is kinematically connected to the support cone 2 by means of rollers 3 of constant width.

The tool works as follows.

Before processing, the rollers 3 are uniformly oriented in the grooves of the separator 4. Moreover, their orientation remains unchanged by keeping the rollers with the kinematic surfaces of the support cone 2 and the bushing b.

During processing, the rollers 3 contain planetary motion. At this time, apart from the three listed kinematic pairs, the rollers form

and the fourth kinematic pair: a roller is a workpiece. As is well known, when rolling on a part, an allowance is left, as a result of which there is a tension between the rollers and the surface of the part. A force closure is made between the part and the support cone 2 through the rollers 3. Nat creates a large frictional force in kinematic pairs that prevents the rollers from slipping. Moreover, these friction forces are much higher than the friction forces resulting from the action of the spring 8, and during processing the unambiguous orientation | Taci is preserved due to the friction forces

from nat ha

The sleeve 6 is only needed to maintain an unambiguous orientation in a non-positive state. And its inner surface is made in the form of a cone, with a taper equal to the conicity of the support cone 2, which is shown in tia of FIG. four.

 The workpiece is reported to be produced by the speed w and the rolling is introduced into the work hole. Rollers 3 (Figs. 4 and 5), separator 4 and sleeve 6 begin to rotate, rolling makes forward self-feed motion S. Rollers 3, contact with the surface of the support cone 2, the inside surface of the sleeve 6, rotate with speed w and. the workpiece, make a planetary motion with speed w

Under the action of radio forces, while rolling the support cone 2 is displaced in the feed direction S, overcoming the force of the springs 8 along the mandrel 1.

The torque is transmitted through the key 10. At the end of the treatment, the support cone 2 returns to its original position, pressing the rollers 3 to the inner conical surface of the sleeve 6, which allows to maintain the correct orientation until the next machining cycle.

Due to the reliable orientation of the rollers 3 sleeve 6 ,. during processing, a uniform regulation of the microrelief is formed (Fig. 6).

The use of the invention will improve the quality of the treated surface and the durability of the tool.

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Claims (2)

(57.) 1. RISKATKA by ed. St. No. 880704, which means that, in order to improve the quality of processing, it is equipped with an additional sleeve with an internal conical surface mounted on a mandrel with the possibility of rotation and kinematically connected with the spring-loaded cone by means of the inoperative part of the peripheral surfaces of the rollers. 2. The rolling according to claim 1, about t l and -. due to the fact that rollers with a profile of a curved surface of constant width are used in it.