RU2215636C1 - Method of abrasive machining of holes with intermittent elastic-material tool - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: method comes to comparing rotation relative to longitudinal axis, radial infeeding and reciprocating motion to tool consisting of body in form of bushing with through radial slots and carrying part with working element in form of elastic metal tape. Speed of rotation of tool is changed to adjust radial infeeding. Tool is used in which elastic metal tape is coiled into ring to form corrugations outer parts of which form intermittent cylindrical surface in contact with surface of hole to be machined, and inner parts of corrugations are secured in said slots of bushing. EFFECT: increased accuracy and efficiency of machining, reduced calorific intensity of process owing to intermittent zone of cutting and possibility of adjustment of radial infeeding, simplified design of tool. 4 cl, 3 dwg

Description

 The invention relates to mechanical engineering technology for abrasive machining of holes in machine parts.

 A known method of processing holes with an elastic tool, which contains a housing and a bearing working element part [1].

 The disadvantages of this method are the inability to control the radial feed and the uneven distribution of the radial expanding force in the circumferential direction, which is created by the elastic properties of the metal strip, and as a result, uneven metal removal and uneven tool wear with low quality and processing performance.

 A known method of processing holes with an elastic tool, which contains a housing and a supporting working element, the housing is made in the form of a sleeve with through radial slots located diametrically one another, and the supporting part is made in the form of an elastic metal tape, the ends of which are fixed in these slots, this working element is made in the form of an abrasive layer deposited on the outer part of the metal tape and (in another case) in the form of an abrasive tape with an adhesive applied on its non-working side tion [2].

 The disadvantages of this method are the inability to control the radial feed and the uneven distribution of the radial expanding force in the circumferential direction (at the point of fastening of the ends, the maximum force, in the diametrically opposite place - the minimum), which is created by the elastic properties of the metal tape, and as a result, uneven metal removal and uneven wear tool with low quality and processing performance.

 The objective of the invention is to increase the accuracy and productivity of processing, reducing the heat intensity of the process due to the intermittent cutting zone, the ability to control the magnitude of the radial feed due to the centrifugal force acting on the weights, and simplifying the management of processing and tool design.

 The problem is solved using the proposed method of abrasive machining of holes with an elastic intermittent tool, which is informed about rotation relative to the longitudinal axis, radial infeed of cutting and reciprocating movement to an instrument containing a housing in the form of a sleeve with through radial slots and a bearing part with a working element in the form of an elastic metal tape, at the same time carry out a change in the frequency of rotation of the tool to control the magnitude of the radial feed of the plunge and use an element in which an elastic metal tape is folded into a ring to form corrugations, the outer parts of the corrugations forming a discontinuous cylindrical surface in contact with the machined surface of the hole, and the inner parts of the corrugations are fixed in the indicated slots of the sleeve.

 In addition, an additional radial feed is carried out due to centrifugal force, for which a tool is used, made with weights placed between the body and the bearing part in the places of the outer parts of the corrugations, and with persistent flat concentric outer rings inserted into the slots of the sleeve to limit axial movement weights.

 In this case, a tool is used with a flexible bond on an intermittent cylindrical surface of an elastic metal strip of abrasive, or a tool is used with individual canvases of abrasive tape glued to the outer part of the corrugations, the length of the blades being equal to the arc length of the outer part of the corrugations.

 Figure 1 shows a diagram of the processing of the hole according to the proposed method and tool, General view; figure 2 is a section aa in figure 1; figure 3 is a section bB in figure 2.

The proposed method of abrasive processing of holes is carried out by an elastic intermittent tool, in which the elastic tool shown in FIG. 1, the rotational V _BP relative to the longitudinal axis and the reciprocating S _pr movements are reported, while the radial feed rate S _{p of the} insertion is controlled by changing the rotation frequency of the tool.

 The tool consists of a corrugated elastic metal tape 1, rolled into a ring so that the outer parts 2 of the corrugations form a discontinuous cylindrical surface.

 The elastic tape 1 is, for example, made of steel 65G and others by the method of cold rolling or can be heat-treated. It has a thickness of several tens of micrometers and thicker depending on the diameter of the hole being machined (range of holes).

 The elastic corrugated metal strip 1 is rolled into a ring so that the inner parts 3 of the corrugations are fixed in the through radial slots of the sleeve 4. The latter is made of light material, for example, duralumin. It is screwed onto a mandrel 5, made, for example, also of a duralumin tube.

 On the outer part 2 of the corrugated ring of a metal strip that is in contact with the surface to be treated, by means of known methods, an abrasive layer 6 is applied on a flexible bond or, for example, by electroplating, etc.

 The working cutting surface thus obtained is a discontinuous cylindrical abrasive surface, contributing to a decrease in the processing temperature and free penetration of the cutting fluid into the cutting zone.

 In another case, the working cutting surface can be made in the form of separate webs of abrasive tape 6, the length of which is equal to the length of the arc of the outer part 2 of the corrugations glued to the latter.

 Between the housing 4 and the load-bearing working element part 1, weights 7 are placed in the places of the outer parts 2 of the corrugations, which allow for additional radial flow due to centrifugal force, while the weights 7 are limited in axial movement by spring-loaded persistent flat concentric outer rings 8 inserted into the grooves of the housing 4 .

 Before work, the corrugated and rolled into a ring tape 1 is put on the sleeve 4, so that the inner parts 3 of the corrugations fall into the through radial slots. Between the housing 4 and the outer part 2 of the corrugations, weights 7 are inserted and the spring thrust flat concentric outer rings 8 are put on, combining them with the corresponding grooves made in the housing 4.

 In places of the outer parts 2 of the corrugations, an abrasive tape 6 is glued to the metal tape 1 and the tool is ready for use, although the tape 6 can be glued to the tape 1 before. When the sleeve 4 is rotated, the tape, due to the elastic forces and centrifugal forces acting on the weights 7, presses the abrasive tape 6 against the machined surface of the hole. By changing the frequency of rotation of the tool, the radial force of the clamping pressure of the cutting layer is regulated and thus the magnitude of the radial feed is controlled.

 The uniform action of the elastic forces of a metal corrugated tape rolled into a ring increases the accuracy and productivity of processing, and also reduces the heat stress of the process due to the intermittent cutting zone.

 The runout of the sleeve 4 does not affect the runout of the corrugated tape 1, rolled into a ring and freely placed by the internal parts of the corrugations in the grooves of the sleeve, since this tape simply slips in the grooves of the sleeve 4.

As an example, a hole in a sleeve was machined on a mod grinding machine. 3K227V, equipped with a special elastic intermittent tool according to the proposed method. Material of the workpiece: pipe 140 • GOST GOST 8734-75 / B40X GOST 8733-74, HB 280, the diameter of the machined hole ⌀125 mm, the cutting tool is a sandpaper on a fabric basis, roll, according to GOST 5009-82, waterproof, two-layer; abrasive material 24A, grain size of the abrasive 80. The sandpaper was glued in separate pieces with BF glue to the outer parts of the corrugations made of metal (steel 65G) tape 0.75 mm thick, obtained by the method of cold rolling. Processing modes: spindle speed - V _in = 29.5 m / s (n _max = 4500 min ^-1 ), longitudinal feed S _pr = 3600 mm / min, machining allowance of 0.1 mm, tool pressure on the surface to be machined: in an idle state of 0.05 MPa, at a maximum speed of 0.1 MPa, the coolant is sulfofresol.

 The proposed method allows to increase the accuracy and productivity of processing by reducing the amount of runout of the tool with simplicity of design and reducing the metal consumption of the latter, to reduce the heat intensity of the process due to the intermittent cutting zone, to control the magnitude of the radial feed due to the centrifugal force acting on the weights.

Sources of information
1. A.S. USSR N 1028485, class B 24 B 33/02, 1983.

 2. A. p. USSR N 1634469, class B 24 D 17/00, B 24 B 33/02, 03/15/1991 - prototype.

Claims (4)

 1. The method of abrasive processing of holes with an elastic intermittent tool, including a message of rotation about the longitudinal axis, radial feed of the plunge and reciprocating movement of the tool, comprising a housing in the form of a sleeve with through radial slots and a bearing part with a working element in the form of an elastic metal tape, characterized in that carry out a change in the frequency of rotation of the tool to control the magnitude of the radial feed of the plunge and use a tool with an elastic The tape is folded into a ring with the formation of corrugations, while the outer parts of the corrugations form a discontinuous cylindrical surface in contact with the machined surface of the hole, and the inner parts of the corrugations are fixed in the indicated slots of the sleeve.  2. The method according to p. 1, characterized in that they carry out an additional radial feed due to centrifugal force, for which they use a tool made with weights placed between the body and the bearing part in the places of the outer parts of the corrugations, and with persistent flat concentric outer rings, inserted into the slots of the sleeve, to limit the axial movement of the weights.  3. The method according to p. 1 or 2, characterized in that they use a tool with a flexible bond abrasive applied to the discontinuous cylindrical surface of an elastic metal tape.  4. The method according to p. 1 or 2, characterized in that the tool is used with individual canvases of abrasive tape glued to the outer part of the corrugations, the length of the canvases being equal to the arc length of the outer part of the corrugations.

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