JPH0230210Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a crowning processing device that performs crowning processing on the processing surface of a workpiece.

For example, in automobile engines, the connection between the piston and the connecting rod is accomplished by a piston pin that passes through the small end of the connecting rod. The inner circumferential surface of the small end of this connecting rod and the outer circumferential surface of the piston pin are constantly sliding against each other and moving relative to each other. It is common practice to crown these surfaces, that is, to make these surfaces mid-height in the axial direction.

Conventionally, in order to perform crowning processing, the grinding wheel was generally formed into an arc shape using a dressing device (for example, Japanese Patent Publication No. 16839/1983), but with this method, the grinding wheel was subjected to super finishing processing. was difficult. For this reason, this crowning process is
Conventionally, an arm equipped with a grinding tool such as a whetstone at one end is pivoted at the other end, and by swinging this arm, the grindstone is swinged in an arc. In the case of this conventional method, the radius of curvature (hereinafter referred to as crowning radius) of the crowned surface (hereinafter referred to as crowning surface) is determined by the distance from the pivot point to the grinding tool, that is, the arm length. However, it is difficult to process a material with a very large radius of curvature, and even if it is possible to process it, it has the disadvantage of being structurally weak because the equipment used to carry out the process is extremely long. However, the conventional method described above also has the disadvantage that the shape of the crowning surface is limited to an arc shape.

Therefore, in view of the drawbacks of the conventional crowning process described above, the present invention provides a crowning process device that can process any crowning radius and allows a wide range of crowning shapes to be selected. The purpose is to

The present invention provides a crowning processing apparatus that performs crowning processing by pressing a grinding tool onto the inner circumference processing surface of a cylindrical workpiece mounted on a rotationally driven main shaft. a copying plate having a copying surface corresponding to the crowning surface to be machined in a plane parallel to the central axis of the spindle; a grinding tool support supported movably along the copying surface on the copying plate; a cylinder means provided on the grinding tool support stand and capable of pressing the grinding tool against the processing surface of the workpiece at a processing position; a cylinder means provided between the base and the grinding tool support stand, the grinding tool support stand; a pressing means for pressing the copying surface of the copying plate;
and a driving means for reciprocating the grinding tool support base along the tracing surface of the tracing plate.

According to the crowning processing apparatus of the present invention having the above structure, by appropriately selecting the radius of curvature or the shape of the profiling surface of the profiling plate, it is possible to process almost any crowning surface, and it is practical. It's convenient.

DESCRIPTION OF THE PREFERRED EMBODIMENTS A crowning apparatus according to a preferred embodiment of the present invention will be described below with reference to the accompanying drawings. In the following example, a crowning device for crowning the peripheral wall of an insertion hole of a piston pin provided at the small end of a connecting rod of an automobile engine will be described, but the present invention is not limited to this. It is not something that will be done.

1, 2, and 3 are a front view, a bottom view, and a side view, respectively, of a crowning device according to an embodiment of the present invention.

In the figure, reference numeral 1 indicates a base of the crowning processing device, and this base 1 is made up of a vertical support plate 2, and this vertical support plate 2 has a plurality of vertical support plates arranged at intervals in the same plane. Position adjustment screws 3, 4
is installed. These position adjustment screws 3,
Copying plates 5 and 6 are disposed above 4, respectively, and the overall position and relative position of the copying plates 5 and 6 to each other are adjusted by position adjustment screws 3 and 4. It is attached to the vertical support plate 2 in this state.

A connecting rod W (hereinafter referred to as a work), which is a workpiece, is attached to the upper surface of the copying plates 5 and 6.
It is provided with tracing surfaces 5a and 6a having a radius of curvature and a shape corresponding to the crowning surface C of. On the copying plates 5, 6, the copying surfaces 5a, 6
A grindstone support stand 9 with rollers 7 and 8 placed on a is supported. A hole 10 penetrating vertically is formed in the middle of the grindstone support 9, and a hollow support 11 is provided at the position where the hole 10 is formed. The upper part 1 of this support 11
1a has a forked shape as shown in FIG.

A support rod 12 is fitted inside the column 11 so as to be slidable in the vertical direction. A grindstone support arm 14 whose tip supports a grindstone 13 is fixed to the upper end of the support rod 12. The lower end of this support rod 12 is connected to the upper end of the piston rod _P2 of the cylinder device _P1 .

An extension 15 is provided on one side of the grindstone support 9, and a cam follower 16 is provided on the extension 15, with two plates 16a and 16b arranged at a predetermined interval. It is fixed. An eccentric cam 17 having a diameter substantially the same as the distance between the plates 16a and 16b is arranged between the cam followers 16.
This eccentric cam 17 is fixed to the vertical support plate 2,
The eccentric cam 17 is driven by a motor 18 having a rotary drive shaft 18a at a position offset from the center 17a of the eccentric cam 17. The grindstone support stand 9 is restricted by a guide plate 19 so that it cannot move in the width direction. Further, the grindstone support stand 9 is urged downward by a spring 20 and is pressed onto the copying plates 5 and 6 to prevent it from floating up during operation.

The connecting rod W, which is a workpiece, has a main shaft 21 that is driven to rotate around a rotation axis X.
The machine is installed on the machine to perform its processing. The front portion 22 of this main shaft 21 is a disk-shaped member having a radius larger than the length of the workpiece W, and near its periphery there is a hole that fits into a hole provided at the large end of the workpiece W. A holding member 23 for holding the is provided. This holding member 2
At position 3, the workpiece W held by the holding member 23 is
The center of the hole at the small end of is determined to be on the rotation axis X of the main shaft 21. The small end of the workpiece W,
A pressing member 24 is provided on the front portion 22 in order to hold the main shaft 21 on the front portion 22 with the center of the hole positioned on the rotation axis X of the main shaft 21 . An opening 25 is provided in the center of the front surface of this front portion 22 so that the grindstone 13 can enter into this front portion 22.
is formed.

Next, the operation of the crowning device having the structure described above will be explained.

First, the workpiece W to be machined is attached to the front surface of the front portion 22 of the main shaft 21 as shown in FIG. Then, the cylinder device P ₁ is operated to move the grindstone 13 at the tip of the arm 14 to the machining surface C of the workpiece W.
In this state, the cylinder device _P1 is further operated to pull the piston rod _P2 , thereby pressing the grindstone 13 onto the processing surface C of the workpiece W. Next, when the main shaft 21 is rotated and the motor 18 is driven, the action of the eccentric cam 17 causes the grindstone support 9 to move against the profiling plates 5 and 6.
It reciprocates along the tracing surfaces 5a and 6a. At this time, the grindstone support stand 9 is moved by the spring 20.
It is pressed onto the copying plates 5, 6 and is prevented from rising above the copying surfaces 5a, 6a during operation. As a result, the grinding wheel 13 also has a profiling surface 5a,
It reciprocates along a trajectory corresponding to 6a to perform crowning on the processing surface C of the workpiece W.

In the crowning apparatus of the present invention described above, in addition to arc-shaped crowning, if the tracing surfaces 5a and 5b are made into an ellipse, for example, crowning in a corresponding shape can be performed. Furthermore, the height of the device may be constant when machining a crowning surface of any radius;
Therefore, the structural strength of the device can be improved.

[Brief explanation of the drawing]

FIG. 1 is a front view of the crowning device according to the embodiment of the present invention, FIG. 2 is a bottom view of the crowning device shown in FIG. 1, and FIG. 3 is the crowning device shown in FIG. 1. FIG. 1... Base, 2... Vertical support plate, 5, 6... Copying plate, 5a, 6a... Copying surface, 9... Grinding wheel support stand, 13... Grinding wheel, 17... Eccentric cam, 18
...Motor, 21...Spindle, W...Workpiece, C...
…crowning surface, P ₁ … cylinder device, P ₂ …
...Piston rod.

Claims (1)

[Scope of utility model registration request] In a crowning processing device that performs crowning by pressing a grinding tool onto the inner circumferential processing surface of a cylindrical workpiece mounted on a rotationally driven main spindle, the crowning processing device includes a base, a base mounted on the base, and a central axis of the main spindle. A copying plate having a copying surface corresponding to the crowning surface to be machined in a plane parallel to the surface, a grinding tool support supported movably along the copying surface on the copying plate, and the grinding tool support. A cylinder means provided on the base and capable of pressing the grinding tool against the processing surface of the workpiece at the processing position; provided between the base and the grinding tool support, the cylinder means is provided to push the grinding tool support into the copying plate; A crowning processing device comprising a pressing means for pressing against the tracing surface of the tracing plate, and a driving means for reciprocating the grinding tool support base along the tracing surface of the tracing plate.