KR20080086225A - Cooling device of main spindle for lathe - Google Patents

Abstract

A cooling device for a spindle of a lathe is provided to improve precision of a product by preventing the product from being thermally deformed due to heat generated from the body of the spindle. A cooling device for a spindle of a lathe comprises an impeller(20) and an air passage hole(21). The impeller is installed between a body(12) of a main spindle(10) and a pulley(14). The impeller rotates together with a rotary spindle(11) in order to cool the body when a workpiece is processed. The air passage hole is formed in the body so that air generated from the impeller is discharged to the outside through the body of the main spindle. The air passage hole includes a vertical hole(21a) and a horizontal hole(21b) connected to the vertical hole.

Description

Cooling device of main spindle for lathe}

1 is a cross-sectional view showing a cooling apparatus of a lathe main shaft according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: spindle 11: spindle

12 body portion 13 bearing

14: Pulley 15: Keyway

16: key 17: bearing nut

18: flange portion 18a: assembly bolt

18b: through hole 20: impeller

21: air flow hole 21a: vertical hole

21b: horizontal hole

The present invention relates to a cooling device for a lathe spindle, and more particularly, to a cooling device for a lathe spindle that can cool the main spindle of the shelf using its own rotational force without the need for an external power source.

Generally, Computer Nummerical Control (CNC) uses a built-in computer dedicated to the program to select and dictate the machining dimensions, types, required tools, feedrates, etc. when machining with a basic NC (NC) machine tool. A numerical control system that performs some or all of the control functions. The control that automatically positions or cuts the cutting tool by the program that records the numerical data is called numerical control.

Therefore, a CNC lathe is a combination of a computer numerical control unit and a lathe, and has a taper cut, circular cut, screw cut, origin offset, tool position offset, etc. in addition to the spindle function, the feed function, and the tool function.

On the other hand, cutting refers to a process of cutting a cutting chip from a workpiece using a tool that is harder than the workpiece to make a product of a desired shape.

In addition, the cutting process refers to a process of cutting a workpiece by transferring the workpiece to the rotary tool or by transferring the tool to the rotary workpiece.

In general, when machining a machine tool or a workpiece, a cooling jacket is used on a built-in spindle and a cooling fan is used on a belt driven spindle to suppress heat generation of a body part. consist of.

That is, in the built-in spindle, in order to cool the heat generated when the spindle rotates at a high speed, an oil jacket sleeve is attached to the body of the spindle, and the oil cooled through the oil cooler (not shown) is circulated to the jacket. Cooling the main shaft.

In addition, in the belt drive main shaft, a cooling fan is assembled to the main body of the main shaft to cool the main shaft to circulate high-temperature heat to the outside, or to install a heat dissipation rib on the body, or a heat dissipation structure consisting of a symmetrical structure. It can be formed to cope with heat generation of the main shaft without a cooling fan.

By the way, the heat dissipation method of the series structure as described above has a problem that the price is expensive or the performance is not satisfactory, and the fan driving method has a disadvantage that requires a power connection from the outside.

Therefore, the present invention has been invented to solve the above problems, an impeller for suppressing heat generation of the body portion when machining a machine tool or a workpiece on the upper end of the spindle is mounted on a lathe rotates at high speed, and in the impeller Through the air flow hole to allow the generated wind to be discharged to the outside via the inside of the main body of the main shaft, it is possible to cool the heat generated inside the main body of the main shaft without supplying external power, The present invention aims to provide a cooling device for a spindle for a lathe that can prevent thermal deformation from occurring due to heat, thereby reducing a change in precision during processing of the product.

In order to achieve the above object, the present invention provides a spindle rotatably supported by a plurality of bearings mounted on the inner side of the main shaft body portion of the automatic lathe, and a pulley coupled to the spindle end and connected as a motor pulley and a belt. In the spindle for lathe comprising:

It is mounted between the body portion 12 and the pulley 14 of the main shaft 10, the impeller 20 for suppressing heat generation of the body portion 12 when machining a machine tool or a workpiece while rotating with the spindle 11 )Wow;

It is characterized in that it comprises an air flow hole 21 formed in the body portion 12 so that the wind generated from the impeller 20 can be discharged to the outside via the inside of the body portion 12 of the main shaft (10) It is done.

In a preferred embodiment, the flange portion 18 has a through hole 18b radially formed between the assembling bolts 18a to allow the wind generated by the impeller 20 to flow into the air flow hole 21. Characterized in that formed.

In particular, the air flow hole 21 is a vertical hole (21a) so that the wind generated in the impeller 20 can be discharged to the outside via the body portion 12 of the main shaft 10, and the vertical It is characterized in that it consists of a horizontal hole 21b which is integrally connected to the hole 21a and connected to the outside.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings in detail.

1 is a cross-sectional view showing a cooling apparatus of a lathe spindle for the present invention.

As shown in Figure 1, showing an example of the spindle structure of the shelf consisting of a connection structure of the pulley and the spindle, the spindle 11 forming a rotating portion of the spindle 10 is fixed to one side of the body portion 12 of the shelf It is rotatably supported by a plurality of bearings 13, the pulley 14 is coupled to the upper end of the spindle (11).

The pulley 14 is connected to a pulley and a belt (not shown) of a drive motor (not shown) provided on the other side of the shelf body to rotate the spindle 11 by receiving power from the drive motor. have.

Here, in detail the coupling relationship between the spindle 11 and the pulley 14, the key groove 15 formed symmetrically on both sides to correspond to the outer diameter of the spindle 11 and the inner diameter of the boss portion of the pulley (14). ), A key 16 is inserted into the key groove 15 thereof, and the bearing nut 17 is fastened to the spindle 11 at the end of the boss portion of the pulley 14 to be fixed. .

The bearing nut 17 comes into close contact with the pulley 14 toward the bearing 13, and the flange 18, which is connected to the spindle 11 on the other side of the pulley 14, comes into close contact with the circumference of the bearing 13. .

In order to cool the heat generated in the body portion 12 of the main shaft structure configured as described above, a cooling means is provided in a part of the main shaft structure, and is integrated with the spindle 11 between the bearing nut 17 and the flange portion 18. It is provided with an impeller 20 mounted.

The impeller 20 is installed to flow in the downward direction of the wind flow, the direction of the wind can be set to the body portion 12 is mounted with a plurality of bearings (13).

That is, when the spindle 11 rotates, the impeller 20 integrally coupled with the spindle 11 also rotates at the same time to generate wind.

In this case, an air flow hole 21 is formed in the body 12 to allow the wind generated by the impeller 20 to flow into the body 12 to further increase the cooling efficiency. have.

In particular, the wind generated in the impeller 20 is introduced into the air flow hole 21 through the through hole 18b radially formed between the assembling bolts 18a of the flange portion 18.

The air flow hole 21 is a vertical hole 21a and a horizontal hole integrally connected thereto so that the wind generated from the impeller 20 can be discharged to the outside via the body part 12 of the main shaft 10. 21b, the horizontal hole 21b is connected to the outside.

In more detail, the horizontal hole 21b is connected to a plurality of vertical holes 21a formed in a single piece, and the installation holes are preferably formed at regular intervals.

In particular, since the wind generated from the impeller 20 passes close to the bearing 13 inside the body portion 12 of the main shaft 10, compared to the prior art, by suppressing the occurrence of cooling loss more powerful cooling efficiency Can be planned.

Therefore, the cooling device of the spindle for the shelf according to the present invention is equipped with a separate cooling fan or an oil cooler, compared to the prior art in which a separate external power source must be used, without the supply of external power, the body portion 12 of the inside of the main shaft 10 This can reduce the change in precision during product processing due to thermal deformation caused by high temperature heat.

As described above, according to the cooling apparatus of the spindle for the shelf according to the present invention, it is possible to cool the heat generated inside the body portion of the spindle without supplying a separate external power, whereby thermal deformation occurs due to high temperature heat It is effective to reduce the change of precision during processing of the product.

Claims (3)

In a spindle for a lathe comprising a spindle rotatably supported by a plurality of bearings mounted inside the main spindle body of an automatic lathe, and a pulley coupled to the spindle end and connected as a motor side pulley and a belt, It is mounted between the body portion 12 and the pulley 14 of the main shaft 10, the impeller 20 for suppressing heat generation of the body portion 12 when machining a machine tool or a workpiece while rotating with the spindle 11 )Wow; It is characterized in that it comprises an air flow hole 21 formed in the body portion 12 so that the wind generated from the impeller 20 can be discharged to the outside via the inside of the body portion 12 of the main shaft (10) Chillers for lathe spindles. The method of claim 1, The flange portion 18 is characterized in that the through-hole 18b formed radially between the assembling bolts 18a so that the wind generated from the impeller 20 can be introduced into the air flow hole (21) Chiller of lathe spindle. The method according to claim 1 or 2, The air flow hole 21 is a vertical hole (21a) to allow the wind generated in the impeller 20 to be discharged to the outside via the body portion 12 of the main shaft 10, and the vertical hole ( Cooling apparatus for a main shaft for the lathe, characterized in that consisting of a horizontal hole (21b) connected to the outside at the same time integrally connected with 21a).

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