JPH04203654A - Outer diameter expanding rotator - Google Patents

Abstract

PURPOSE:To secure such a new rotator as making an outer diameter changeable by constituting this outer diameter expanding rotator from a collet and a collect clamping device clamping this collect to an inner ring. CONSTITUTION:A rotator 1 mainly consists of an inner ring 10 provided with a shaft hole 13, where a turning shaft is attached, and a collet 20 attached to an outer circumference of this inner ring 10 as extending in the circumferential direction, and this inner ring 10 is formed into a wheel form of a minor axis installed with a columnar part 10b at the top side of a truncated cone part 10a, while a thread part 12 is installed on an outer circumferential part of the columnar part 10b. The collet 20 is formed into a nearly minor axial cylinder and the inner cylindrical surface becomes tapered. This tapered surface is formed at the same elevation angle as an outer circumferential surface of the inner ring 10, and the collet inner cylindrical surface 21 is made contact with this outer circumferential surface 11 of the truncated cone 10a of the inner ring 10. A clamping device 30 is composed of a ring piece 22 and two ring bodies 31, 32 holding this piece 22 in between from the axial direction, and these ring bodies 31, 32 themselves are clamped tight, thus the ring piece 22 of the collet 20 is locked tight.

Description

[Detailed description of the invention] [Industrial application field]

The present invention is particularly suitable for grinding, attaching a belt or the like to the outer circumference of the belt, etc.
The present invention relates to a rotating body to which a polishing heald used for polishing is attached.

[Conventional technology]

BACKGROUND ART Conventionally, in grinding metals, hard brittle materials, etc., the grinding process is generally performed by rotating a grindstone formed by combining various types of abrasive grains. Furthermore, when processing with less micro-defects, so-called chipping, is required, processing is performed using an abrasive belt. In machining using an abrasive belt, the belt, which has abrasive grains and other abrasive materials fixed to its surface, is rotated under a predetermined tension and brought into contact with the object to be ground in a cushioning manner. Although there are some problems with line baluns, it is possible to perform processing with fewer defects or cracks on the ground surface. From this point of view, sometimes an elastic material is attached to the outer periphery of a disc-shaped rotating body such as a grindstone, and a polishing heald is further attached to the outer periphery of the rotating body for processing.

[Problem to be solved by the invention]

In the case of a belt attached to a rotating body like the one mentioned above, it is possible to obtain processing accuracy that is intermediate between processing using a grindstone and processing using an abrasive belt, and there is an advantage that the heald can be replaced when the abrasive material wears out. However, there was no way to apply optimal tension to the belt being worn. In other words, the lack of a means capable of applying the necessary tension to the disc-shaped rotating body means that the belt will fall off during processing. The present invention was accomplished with the above problem as a starting point, but was also made in view of the technical value of applying a predetermined tension to the heald, and its purpose is to apply a predetermined tension to the heald. An object of the present invention is to provide a novel rotating body whose outer diameter can be changed in order to apply or adjust the required tension to various belt bodies to be attached.

[Means for Solving the Problems] In the outer diameter expanding rotating body of the present invention, an inner ring with a short shaft is provided with a cylindrical portion or a protruding outer periphery having a threaded portion on the upper surface side of the truncated cone portion, and an inner ring with a short shaft that is approximately cylindrical with a short shaft. The truncated conical portion of the inner ring has an inner cylindrical surface that is tapered at the same elevation angle as the outer peripheral surface and comes into contact with the outer peripheral surface of the truncated conical portion of the inner ring, and has a plurality of slits opened approximately along the axial direction. It is composed of a collet attached to the outer peripheral surface and a collet fixing mechanism that fixes the collet to the inner ring, and the collet fixing mechanism is integrally attached to the inner cylindrical surface of the collet and projects radially inward. The provided annular piece is characterized in that it includes a fixing means that is sandwiched between two annular bodies screwed onto the cylindrical portion of the inner ring. Further, in the outer diameter expanding rotary body, an outer circumferential body made of an elastic body is attached to the outer circumferential surface of the collet in order to attach the heald body to the rotary body.

[Effect]

A collet having an inner cylindrical surface that is tapered at the same elevation angle as the outer peripheral surface is attached to the outer peripheral surface of the truncated conical portion of the inner ring. Since the collet is provided with a plurality of slits along the axial direction, it can be slid on the outer peripheral surface of the inner ring. In other words, when the inner ring is relatively pushed into the narrowing direction of the collet inner cylinder surface, the gap between the slits widens and the outer diameter of the fret expands, and conversely, when the inner ring is moved in the direction of pulling it out from the inner cylinder of the collet, the collet Since the collet itself is always attached to the outer peripheral surface of the inner ring, the gap between the slits becomes narrower, and the outer diameter of the collet is reduced. Further, during rotation, the collet is fixed to the inner ring by the collet fixing mechanism and maintains a predetermined outer diameter. Since the mounted collet is attached to the inner ring, it rotates with the inner ring without slipping due to its frictional force. In the above fixing mechanism, an annular piece integrally provided on the inner cylinder surface of the collet and protruding radially inward is sandwiched between two annular bodies screwed onto the cylindrical part of the inner ring. Since the collet is attached and fixed, the outer diameter of the collet is kept constant without expanding or contracting.

【Example】

Embodiments of the present invention will be described with reference to FIGS. 1 to 3. The rotating body 1 is generally composed of an inner ring IO provided with a shaft hole 13 to which a rotating shaft is attached, and a collet 20 extending circumferentially and attached to the outer periphery of the inner ring 1o. The inner ring 10 is made of metal such as iron, steel, light metal, ceramics, or hard material such as hard plastic, and has a short shaft wheel shape with a cylindrical portion 10b protruding from the upper surface side of a truncated conical portion 10a. A threaded portion 12 is provided on the outer periphery of portion lOb.
is provided. Further, the collet 20 is made of a steel material such as SK material or SKD material, or a hard elastic material such as hard plastic, and is formed into a substantially short-axis cylinder, and the inner cylinder surface 21 is tapered. The surface is the inner ring 10. The outer peripheral surface of
The collet inner cylindrical surface 21 abuts against the outer peripheral surface 11 of the truncated conical portion IO of the inner ring IO. A plurality of slits are provided around the entire circumference of the fret 20 along the substantially axial direction. In the drawing, slits 24&, 24b with open ends are formed alternately along the axial direction from both side surfaces 20a, 20b of the cylinder. These slits 24a and 24b allow the collet 2
0 substantially expands or contracts in diameter, and at that time, stress is concentrated at the inner end of each of the slits 24λ, 24b.
Opening portions 25a, 25b are provided at the rear end portions. The collet 20 is formed in a reduced diameter state and is attached to the outer circumferential surface 11 of the inner ring 10 as described above. 10 and collet 20 can be fixed in a desired positional relationship. In this fixing mechanism 30, the inner cylindrical surface 21 of the collet 20
It is composed of an annular piece 22 that is integrally provided on the inner cylindrical surface 21 and protrudes radially inward at the tapered circumferential portion of the ring, and two annular bodies 31 and 32 that sandwich the annular piece 22 from the axial direction. It is something that will be done. The annular bodies 31, 32 each have a threaded portion 31a on the inner periphery. 32a, and the cylindrical portion lGb of the inner ring 10 described above.
It is screwed onto a threaded portion 12 provided on the outer periphery. Also,
One annular body 32 is provided with an annular piece 22 for dimensional advantage when the annular piece 22 protruding from the collet 20 is clamped.
A notch 32c with a step slightly shallower than the thickness of 2 is provided, into which the annular piece 22 is inserted. and,
A plurality of fastening ports 33 are attached to the circumferential surface of the annular body 31. Fixed between 32 and 32. Therefore, the annular body 3
1 has a threaded hole 31b into which the port 33 is screwed, and the annular body 32 has a simple insertion hole 32b. Furthermore, for tightening, instead of the bolt 33, a push bolt 34 with a long shaft is attached to at least one location, and the inner ring I
The upper surface 10c of the truncated conical portion 10a of O is used as a pressing surface and is pressed by this port 34. By doing this,
The rotation of the annular bodies 31 and 32 screwed onto the threaded portion 12 of the inner ring 10 can be restricted. Further, the annular body 32 has a plurality of hook holes 32d formed on the same surface as the tightening hole 33. Normally, a pair of diametrically opposed hooks on the annular body 32 can be used to rotate the annular body 32 around the cylindrical portion IOb using a predetermined jig in the holes 32cl and 32d. . Next, in this embodiment, an outer circumferential body 40 is attached to the outer circumferential surface 23 of the collet 20. The outer circumferential body 40 serves as the outer shell of the rotary body 1 integrally formed of an elastic material such as synthetic rubber or urethane resin, and is adhesively fixed to the outer circumferential surface 23 of the collet 20. In this case, if the outer body 40 is made of an elastic material as described above, it can follow the expansion and contraction of the collet 20, and further,
Slippage when the belt body is attached to the outer peripheral body 40 can be suppressed. Incidentally, when the rotating body 1 is used as a grindstone for grinding or polishing, a polishing belt (not shown) is attached to the outer periphery of the outer peripheral body 40. The abrasive belt may be an endless belt with abrasive grains electrodeposited on the surface of a cloth material or sujiru belt on which a metal film is formed by electroless plating. Next, the operation of the rotating body having such a configuration will be explained. The rotating body I has a rotating shaft (not shown) in the shaft hole 13 of the inner ring 10.
Supported by Outer peripheral surface 11 of truncated conical portion IO & of inner ring 10
The collet 20 is mounted on the inner cylinder surface 21 which is tapered at the same elevation angle as the outer peripheral surface II. However, the collet 20 has a plurality of slits 24a and 24b in the axial direction.
is provided, so that it can slide on the outer circumferential surface II of the inner ring 10. That is, when the inner ring 10 is pushed into the narrowing direction of the inner cylinder surface 21 of the collet 20, the gap between the slits 24a and 24b widens, and the outer diameter of the collet 20 is expanded. Conversely, when the inner ring IO is moved in the direction of pulling it out from the inner cylinder of the collet 20, the collet 20 itself is always attached to the outer circumferential surface 1 of the inner ring IO with tension, so that the slit 24a is removed. The gap 24b becomes narrower, and the outer diameter of the collet 20 is reduced. During rotation of the rotating body 1, the collet 20 is fixed to the inner ring 10 by the collet fixing mechanism 30, and the collet 20 maintains a predetermined outer diameter. Since the collet 20 is attached to the inner ring 10 as described above, the collet 20 rotates with the inner ring IO without slipping due to its frictional force. To move the collet 20 relative to the inner ring 10, tighten the annular bodies 31 and 32 that clamp the annular piece 22 of the collet 20 by loosening the bolt 33 and the push bolt 34. is rotated and moved on the outer periphery of the cylindrical portion lOb of the inner ring 10. The collet 20 moves along the annular body 31, 32 on the outer peripheral surface 11 of the inner ring 10. colette 2
When 0 becomes the desired outer diameter, tighten the bolt 33 and push bolt 34, and the annular piece 22 of the collet 20 is clamped and fixed by the annular bodies 31 and 32.
The outer diameter of the collet 20 is kept constant without expanding or contracting. At this time, when the push bolt 34 is further tightened, the resistance from the suppressing surface 10C of the inner ring 10 is reduced to the annular body 31.3.
2 neck portion 31a. 32 acts as a pressing force against the thread ff+2 of the cylindrical portion 10b, and in addition to the action of restricting the rotation due to the fixation of the annular piece 22 and the annular body 31° 32, the annular body 3
1.32 rotation is prevented. In the above-described embodiment, the slits provided in the collet 20 are slits 24b, 24b, - which are opened on the wide peripheral side end surface of the inner cylindrical surface of the collet 20, that is, on the side of the reference numeral 20b, along the substantially axial direction. . Alternatively, the same effect can be obtained even if the opening is inclined with respect to the axial direction. Further, the annular bodies 31 and 32 each have a threaded portion 31a.
, 32a are provided, but by providing a push holder 34, unexpected rotation of the collet 20 during rotation can be prevented if at least one side is provided with a threaded portion. . Furthermore, this push hold 3
4, the inner ring 10 and the collet 2 are fixed by predetermining the length of the shaft that projects from the annular body 31 toward the insertion surface 10c.
It is possible to set an adjustment standard with 0.

【effect】

Since the present invention is configured as described above, it produces the effects described below. - When using an abrasive belt or the like, the outer diameter can be expanded or contracted to fit the belt body and the necessary tension can be adjusted and applied, so the belt body does not fall off during rotation. ■ By appropriately considering the form of the outer peripheral body attached to the outer peripheral surface of the collet, it is possible to provide a driving force transmission mechanism that can be used for various pulleys and easily adjust the tension of belts, etc. Become.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention, and FIG. 1 is a plan view of the outer diameter expanding rotating body, FIG. 2 is a view taken along the line l-1 in FIG. 1, and FIG. It is an arrow direction view along the tn-n line showing a partial cross section of the figure. l Outer diameter expansion rotating body, 10 Inner ring, 11- Inner ring outer peripheral surface, 12- Threaded portion, 20 - collet, 21... Collet inner cylindrical surface, 22 - Annular piece, 24a, 24b slit, 30 Collet fixing Mechanism, 31.32..., annular body, 33--bolt for tightening, 34--push bolt, 40--outer body.

Claims (2)

[Claims] (1) An inner ring with a short shaft having a cylindrical part whose outer periphery is a threaded part protruding from the upper surface side of the truncated conical part, and the outer circumferential surface of the inner ring, which is a substantially short-shaft cylinder and comes into contact with the outer peripheral surface of the truncated conical part of the inner ring. It has an inner cylindrical surface that is tapered at the same elevation angle,
and a collet in which a plurality of slits are opened substantially along the axial direction and is attached to the outer peripheral surface of the truncated cone of the inner ring, and a collet fixing mechanism that fixes the collet to the inner ring, and the collet fixing mechanism is configured to fix the collet to the inner ring. The mechanism includes a fixing means in which an annular piece integrally provided on the inner cylindrical surface of the collet and protruding radially inward is sandwiched between two annular bodies screwed onto the cylindrical part of the inner ring. An outer diameter expanding rotating body characterized by comprising: (2) The outer diameter expanding rotating body according to claim 1, wherein an outer circumferential body made of an elastic body is attached to the outer circumferential surface of the collet.