CN105522183A - Method for processing dynamic inclined hole - Google Patents

Abstract

The invention provides a method for processing a dynamic inclined hole. The method comprises the following steps: step I: placing a workpiece on a horizontal processing center, determining the distance from a reference axis H to a rotation center to be X, determining the distance from an end face Q to the rotation center to be Z, determining an intersection point of the phi D axis of the inclined hole and the end face Q to be A, and determining the distance from the intersection point of the hole axis and the end face Q to the reference axis H to be M; step II: counterclockwise rotating the workpiece to a certain angle alpha; step III: after rotation, determining the intersection point of the phi D axis of the inclined hole and the end face Q to be A', and determining the coordinate of the point A' relative to a machine tool center O to be (XX, ZZ); step IV: determining the position of the coordinate (XX, ZZ) of the point A'; step V: drilling the inclined hole in the point A' of the workpiece. The method greatly simplifies the production process and improves the production efficiency and the processing precision.

Description

A kind of dynamically inclined hole processing method

Technical field

The present invention relates to a kind of machining process, particularly relate to a kind of dynamically inclined hole processing method.

Background technology

At present, inclined hole on machine components, generally all want the work in-process heart or CNC milling machine complete, due in mach operation, often run into rotary table aft-loaded airfoil inclined hole, but after rotating, the coordinate points of workpiece is difficult to determine, is all technical staff's analog computation on computers, both wasted time and energy, be unfavorable for again that line operating personnel directly operated.

Summary of the invention

In view of existing inclined hole processing Problems existing, the object of the invention is to overcome the deficiencies in the prior art, the dynamic inclined hole processing method that a kind of technique is simple, be easy to operation is provided.

Technical scheme provided by the invention is: a kind of dynamically inclined hole processing method, and it comprises following several step,

Step one: workpiece is placed on horizontal Machining centers, determine that reference axis H is X to the distance of the centre of gyration, end face Q is Z to the distance of the centre of gyration, and the intersection point of inclined hole φ D axis and end face Q is A, and the intersection point of axially bored line and end face Q is M to the distance of benchmark H;

Step 2: workpiece is rotated counterclockwise certain angle α;

Step 3: after rotating, the intersection point of inclined hole φ D axis and face Q is A ', A ' coordinate of putting relative lathe center O is (XX, ZZ);

Step 4: the position determining the coordinate (XX, ZZ) that A ' puts:

XX＝L*sin(β-α)

ZZ=L*cos (β-α), wherein, β is the angle of OA ' and postrotational reference axis H,

If reference axis H is on the right side of workbench:

The length of OA is L=(M-x) ^2+z^2) ^0.5

∠ AOB is β=artg ((M-x)/z)

If reference axis H is on the left of workbench:

The length of OA is L=(M+x) ^2+z^2) ^0.5

∠ AOB is β=artg ((M+x)/z);

Step 5: put position with drill bit A ' on workpiece and get out inclined hole.

Preferably, the span of described angle [alpha] is between 0 to 60 degree.

Compared with prior art, the technical solution used in the present invention enormously simplify production technology, improves production efficiency and machining accuracy.

Accompanying drawing explanation

Fig. 1 is that workpiece does not rotate front position schematic diagram;

Fig. 2 is position view after workpiece rotates 16 °;

Fig. 3 is position view after workpiece rotation alpha angle.

Detailed description of the invention

In order to make those skilled in the art understand technical scheme of the present invention better, below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

As shown in Figure 1 and Figure 2, technical scheme provided by the invention is: a kind of dynamically inclined hole processing method, and it comprises following several step,

Step one: workpiece is placed on horizontal Machining centers, determine that reference axis H is X to the distance of the centre of gyration, end face Q is Z to the distance of the centre of gyration, and the intersection point of inclined hole φ D axis and end face Q is A, and the intersection point of axially bored line and end face Q is M to the distance of benchmark H;

Step 2: workpiece is rotated counterclockwise 16 °;

Step 3: after rotating, the intersection point of inclined hole φ D axis and face Q is A ', A ' coordinate of putting relative lathe center O is (XX, ZZ);

Step 4: the position determining the coordinate (XX, ZZ) that A ' puts:

XX＝L*sin(β-16°)

ZZ=L*cos (β-16 °), wherein, β is the angle of OA ' and postrotational reference axis H,

If reference axis H is on the right side of workbench:

The length of OA is L=(M-x) ^2+z^2) ^0.5

∠ AOB is β=artg ((M-x)/z)

If reference axis H is on the left of workbench:

The length of OA is L=(M+x) ^2+z^2) ^0.5

∠ AOB is β=artg ((M+x)/z);

Step 5: put position with drill bit A ' on workpiece and get out inclined hole.

Below be only the preferred embodiment of the present invention, it should be pointed out that above-mentioned preferred embodiment should not be considered as limitation of the present invention, protection scope of the present invention should be as the criterion with claim limited range.For those skilled in the art, without departing from the spirit and scope of the present invention, can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (2)

1. a dynamic inclined hole processing method, is characterized in that, it comprises following several step,

Step one: workpiece is placed on horizontal Machining centers, determine that reference axis H is X to the distance of the centre of gyration, end face Q is Z to the distance of the centre of gyration, and the intersection point of inclined hole φ D axis and end face Q is A, and the intersection point of axially bored line and end face Q is M to the distance of benchmark H;

Step 2: workpiece is rotated counterclockwise certain angle α;

Step 3: after rotating, the intersection point of inclined hole φ D axis and face Q is A ', A ' coordinate of putting relative lathe center 0 is (XX, ZZ);

Step 4: the position determining the coordinate (XX, ZZ) that A ' puts:

XX＝L*sin(β-α)

ZZ=L*cos (β-α), wherein, β is the angle of OA ' and postrotational reference axis H,

If reference axis H is on the right side of workbench:

The length of OA is L=(M-x) ^2+z^2) ^0.5

∠ AOB is β=artg ((M-x)/z)

If reference axis H is on the left of workbench:

The length of OA is L=(M+x) ^2+z^2) ^0.5

∠ AOB is β=artg ((M+x)/z);

Step 5: put position with drill bit A ' on workpiece and get out inclined hole.

2. the dynamic inclined hole processing method of kind according to claim 1, is characterized in that, the span of described angle [alpha] is between 0 to 60 degree.