JPH067848Y2 - Boring machine - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to a boring machine for making a hole of an arbitrary diameter in a target work.

(Problems to be Solved by Prior Art and Invention) For example, when a hole having an arbitrary diameter is formed in a target work, a quill shaft having a rotation center at a position eccentric to the rotation center of a main shaft driven to rotate. A boring machine is used in which the eccentric amount of the tool provided at the tip of the quill shaft with respect to the center of rotation of the main shaft is changed by rotating the. In a boring machine with such a structure, the tool is driven to rotate in a state of being eccentric with respect to the center of rotation of the spindle, which causes a slight change in the spindle balance, which may adversely affect the hole diameter accuracy. There is. However, since the amount of eccentricity of the tool with respect to the center of rotation of the spindle is changed according to the required hole diameter to be drilled in the target work, it is extremely difficult to maintain good spindle rotation balance each time. Has been regarded as an important issue that needs to be resolved. In addition, with respect to the first end surface processing tool attached to the movable table that moves back and forth,
An end face processing device that eccentrically rotates and supports the second end face processing tool has already been disclosed in Japanese Utility Model Laid-Open No. 63-32737. However, in the case of the known example, the eccentric second end face processing tool is also used. No consideration is given to rotational balance.

The present invention has been made in view of the above points, and it is an object of the present invention to eliminate the deterioration of the spindle rotation balance due to the eccentric amount of the tool with respect to the spindle rotation center, by a very simple means. Is.

(Means for Solving the Problem) In the present invention, as means for solving the above-mentioned problems, a main shaft that is rotationally driven and a rotation center that is eccentric to the main shaft from the rotation center of the main shaft are provided. A quill shaft rotatably supported, a tool mounted at a position eccentric from the quill shaft rotation center on one end side of the quill shaft, and a rotating means for rotating the quill shaft. In the boring machine, at the end of the spindle opposite to the tool,
A rotator having a rotation center at a position symmetrical to the quill shaft rotation center with respect to the rotation center of the main shaft is rotatably supported, and is rotated by the same distance as the eccentric amount from the quill shaft rotation center at the tool mounting position. At a position eccentric to the eccentric direction of the tool mounting position with respect to the quill shaft rotation center from the body rotation center, while attaching a balun weight having the same weight as the tool, between the rotating means and the rotating body, A rotation transmission means is provided which acts to rotate the quill shaft and the rotating body in the same direction by the same amount of rotation.

(Operation) In the present invention, the following operations can be obtained by the above means.

That is, even if the position of the tool provided on one end side of the quill shaft with respect to the rotation center of the spindle is changed by rotating the quill shaft, the quill shaft should be rotated by the same amount in the same direction as the quill shaft. The balance weight attached to the rotating body can eliminate the rotational imbalance caused by the quill shaft being eccentric with respect to the main shaft rotation center and the tool being eccentric with respect to the quill shaft rotation center. Since it is moved to the position, the rotational balance of the spindle is maintained well, and the adverse effect on the processing accuracy is effectively prevented.

(Effect of the Invention) According to the present invention, a main shaft that is rotationally driven, and a quill shaft that is rotatably supported with a rotation center at a position eccentric to the main shaft from the rotation center of the main shaft, In a boring machine equipped with a tool mounted at a position eccentric from a quill shaft rotation center on one end side of the quill shaft, and a boring device for rotating the quill shaft, a non-tool side end of the main shaft Rotatably supports a rotating body having a rotation center at a position symmetrical to the rotation center of the main shaft with respect to the rotation center of the quill shaft, and has the same eccentricity from the rotation center of the quill shaft at the tool mounting position in the rotation body. A balun weight having the same weight as the tool is attached at a position eccentric to the quill shaft rotation center from the center of rotation of the rotating body in a direction opposite to the eccentric direction of the tool mounting position, and the rotation A quill shaft is rotatably operated between the means and the rotating body by interposing a rotation transmitting means acting to rotate the quill shaft and the rotating body in the same direction by the same amount of rotation, thereby rotating the quill shaft. Even when the position of the tool provided on one end side of the shaft with respect to the spindle rotation center is changed, the balance weight attached to the rotating body that is rotated by the same amount of rotation in the same direction as the quill shaft is The quill shaft is eccentric to the center of rotation of the spindle, and the tool can be moved to a position that can eliminate the rotational imbalance caused by the tool being eccentric to the center of rotation of the quill shaft. The balance is always maintained in a good condition, and the adverse effect on the processing accuracy is effectively prevented, which has a practical effect of greatly contributing to the improvement of the processing accuracy.

(Embodiment) Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 1, the boring processing apparatus of the present embodiment is
A main shaft 2 rotatably supported with respect to a base 1, a drive means 3 for rotationally driving the main shaft 2, and a predetermined amount of eccentricity from the rotation center P _{1 of the} main shaft 2 with respect to the main shaft 2. a quill shaft 4 which has a rotation center P ₂ which is rotatably pivoted to a position, the tool 5 mounted in a position a predetermined amount offset from the quill shaft rotation center P ₂ on one end side of the quill shaft 4
And a rotating means 6 for rotating the quill shaft 4.

The drive means 3 is a motor attached to the upper portion of the base 1, and includes a pulley 7 pivotally mounted on a rotation shaft 3a of the motor 3 and a rear end side of the main shaft 2 (that is, a counter tool). A pulley 8 provided on the side) is connected by a belt 9 so as to be capable of transmitting power, so that the rotation driving of the main shaft 2 can be performed by the motor 3.

In the present embodiment, the eccentric amount of the tool 5 with respect to the rotation center P ₂ of the quill shaft 4 is made equal to the eccentric amount of the rotation center P ₂ of the quill shaft 4 with respect to the rotation center P ₁ of the main shaft 2. . Therefore, in this embodiment, the tool 5 is moved as shown by the movement locus Q ₁ in FIG. 2 with the rotation of the quill shaft 4, and the minimum position of the tool 5 on the spindle rotation center P _{1 is} shown. The tool 5 is placed at a position symmetrical with the machining diameter R ₁ and the spindle rotation center P ₁ with respect to the quill shaft rotation center P _2.
Maximum machining diameter R _{2 in} which (indicated by 5'in FIG. 2) is located
It is possible to drill holes of any diameter between and.

The rotating means 6 is a rack member having a helical gear 10 formed at the rear end of the quill shaft 4 and teeth meshing in a direction orthogonal to the helical gear 10 and obliquely inclined. It consists of 11. The rack member 11 includes a main shaft 2
The cover member 12 fixed to the rear end of the main shaft 2 is slidably inserted into an axial sliding hole 13 formed in the main shaft 2 so that the main shaft 2 rotates together with the main shaft 2. It has become. Then, the helical gear 10 is rotated with the backward movement of the rack member 11, and the quill shaft 4 is rotated with the rotation of the helical gear 10. . A connecting portion 14 that stands upright is integrally formed at the rear end of the rack member 11, and a support shaft 15 horizontally projecting rearward from the connecting portion 14 is provided.
Is rotatably supported by a movable bearing 17 which is slid by being guided by a guide rail 16 fixed on the base 1 so as to extend in the axial direction of the main shaft 2. The movable bearing 17 is fixed to the tip of a piston rod 18a of a cylinder 18, which is fixed to the rear end of the base 1 so as to extend in the axial direction of the main shaft 2, and is retracted by contraction of the cylinder 18. It is like this. The rack member 11 is caused to move backward with the backward movement of the movable bearing 17. That is, the cylinder 18 is used as a drive source of the rotating means 6 for rotating the quill shaft 4.

Then, the cover member 12 fixed to the rear end side (that is, the counter tool side) of the main shaft ₂ has a rotation center P ₃ at a position symmetrical to the quill shaft rotation center P ₂ with respect to the main shaft rotation center P _1. A body 19 is rotatably supported. The rotating body 19
Is rotated by the same distance as the eccentric amount between the tool mounting position and the quill shaft rotation center P ₂ (in this embodiment, the eccentric amount of the quill shaft rotation center P ₂ is made equal to the main shaft rotation center P ₁ ). A balun weight 20 having the same weight as the tool 5 is attached at a position eccentric from the body rotation center P ₃ to the quill shaft rotation center P _{2 in the} direction opposite to the eccentric direction of the tool mounting position.

A rotation transmission means 21 is provided between the helical gear 10 and the rotating body 19 which constitute the rotating means 6. The rotation transmission means 21 includes a first pinion gear 22 that meshes with the helical gear 10 and the first pinion gear 22.
And a second pinion gear 23 having the same number of teeth as the coaxial gear, and an internal gear 24 having the same number of teeth as the helical gear 10 integrally formed at the end of the rotating body 19 so as to mesh with the second pinion gear 23. It is composed of and. With this structure, the quill shaft 4 and the rotating body 19 are rotated in the same direction by the same amount by the rotation transmitting means 21. That is, the balance weight 20 is the tool 5
When is moved along the movement locus Q ₁ , it is supposed to be moved along the movement locus Q ₂ (shown in FIG. 2). Therefore, even if the position of the tool 5 with respect to the spindle rotation center P ₁ is changed due to the rotation of the quill shaft 4 by the rotation means 6, the rotation transmitting means 21 acts in the same direction as the quill shaft 4. The balance weight 20 attached to the rotating body 19 that is rotated by the same amount of rotation is moved to a position where the rotational unbalance caused by the eccentric amount of the tool 5 with respect to the spindle rotation center P ₁ can be eliminated. That will be the case.

Next, the operation of the illustrated boring machine will be described.

In order to change the eccentric position of the tip of the quill shaft 4 with respect to the spindle rotation center P ₁ of the tool 5 so as to correspond to the hole diameter to be formed in the target work, the retracting operation of the rack member 11 by contracting the cylinder 18 is performed. The quill shaft 4 is rotated by the rotation of the helical gear 10 obtained by
The rotation of the helical gear 10 is transmitted to the rotating body 19 by the action of the rotation transmitting means 21 composed of the first pinion gear 22, the second pinion gear 23, and the internal gear 24, and is projected on the rotating body 19. The balance weight 20 can eliminate the rotational imbalance caused by the quill shaft 4 being eccentric with respect to the spindle rotation center P ₁ and the tool 5 being eccentric with respect to the quill shaft rotation center P ₂ . It can be moved to the position. Therefore, the rotation balance of the main shaft 2 which is rotationally driven by the motor 3 is always maintained in a normal state, which greatly contributes to the improvement of machining accuracy.

The present invention is not limited to the configuration of the above-mentioned embodiment, and it goes without saying that the design can be appropriately changed without departing from the scope of the invention.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view of a boring machine according to an embodiment of the present invention, and FIG. 2 is an explanatory view showing movement trajectories of a tool and a balance weight in the boring machine shown in FIG. 2 ...... spindle 4 ...... quill shaft 5 ...... tool 6 ...... rotating means 19 ...... rotator 20 ...... balance weight 21 ...... rotation transmitting means P ₁ ...... spindle rotation center P ₂ ...... quill shaft rotational center P ₃ …… Rotation center of rotation

Claims (1)

[Scope of utility model registration request] 1. A main shaft which is rotationally driven, a quill shaft which is rotatably supported with a rotation center at a position eccentric to the main shaft from a rotation center of the main shaft, and one end side of the quill shaft. In a boring machine equipped with a tool mounted at a position eccentric from the center of rotation of the quill shaft, and a rotating means for rotating the quill shaft, in the end opposite to the tool side of the main shaft, A rotator having a rotation center at a position symmetrical to the quill shaft rotation center with respect to the rotation center of the main shaft is rotatably supported, and the rotator has the same distance as the eccentric amount between the tool mounting position and the quill shaft rotation center. A balance weight having the same weight as that of the tool is attached at a position eccentric to the eccentric direction of the tool mounting position with respect to the quill shaft rotation center from the rotation center of the rotator. Between , Boring apparatus, characterized in that the rotation transmitting means acting so as to only rotate quill shaft and the rotating body and the same rotation amount in the same direction a is interposed.