KR101912351B1 - Live Center For Machine Tool - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a live center for a machine tool, and more particularly, to a live center for a machine tool, which is installed on a tailstock for machining a workpiece on a shelf and supports one end of the workpiece, To a live center for a machine tool, which prevents the coolant from flowing into the center body by discharging the coolant to be discharged into the center body through a centrifugal force.

Description

Live Center For Machine Tool}

The present invention relates to a live center for a machine tool, and more particularly, to a live center for a machine tool, which is installed on a tailstock for machining a workpiece on a shelf and supports one end of the workpiece, The present invention relates to a live center for a machine tool, which is provided with a cap ring connected to a front surface of a cover covering in a non-contact manner to prevent a coolant from flowing into a center body.

The live center for machine tools is installed in the center of a lathe and the tailstock to support the end of the workpiece.

It is a part of a lathe that supports one end of the workpiece and is located above the bed opposite the main shaft. It is used to support one end of the workpiece, that is, the right end of the workpiece, with the center of the main shaft.

Such a tailstock is provided with a shaft that can move in the axial direction. When the live center for a machine tool is installed on such a shaft, the workpiece is firmly fixed by pushing toward the center hole of the workpiece.

However, in the conventional live center for a machine tool, the cover body for preventing the inflow of cutting oil is formed at one end of the center body into which the center shaft is inserted. However, when the workpiece is machined, the cutting oil flows or splashes, Is introduced.

In this way, when the cutting oil flows into the gap between the covering and the center shaft, the cutting oil can be penetrated to the vicinity of the installation of the bearing required for smooth rotation of the center shaft, so that the bearing is often damaged by penetration of the cutting oil.

In addition to the damage of these bearings, other components installed inside the LiveCenter can also be seriously damaged, which in turn leads to the problem of shortening the life of the live center, which can only be used for about a month.

Meanwhile, the patent documents disclosed in the following prior art documents refer to the technology related to a live center for a machine tool, and in particular, a live center disclosed in Registration Practical Utility Model No. 20-0241737 and Registration No. 10-1324080, This is a technique for preventing the inflow of cutting oil.

That is, the live center disclosed in Registration Utility Model No. 20-0241737 includes a vortex generating groove 5 formed in the inner diameter 31 of the cover 3 for preventing the inflow of cutting oil and a center shaft 2 and the vortex generating grooves 5 are formed as inclined surfaces 51 and the inflow preventing grooves 6 are formed by the inclined surfaces 61 and the blocking surfaces 62, The cutting oil is ejected to the outside through the gap formed between the outer side of the inner diameter 31 of the cover 3 and the outer diameter of the first end portion 22 of the center shaft 2 by the centrifugal force of the center shaft 2, So that the inflow of the cutting oil into the cover 3 can be prevented.

However, when the cutting oil flows into the inflow preventing groove 6 formed in the first end portion 22 of the center shaft 2, both side inclined surfaces 51 forming the vortex generating groove 5 collide with the cutoff surface 62, The gap between the outer side of the inner diameter 31 of the cover 3 and the outer diameter of the first end portion 22 of the center shaft 2 when the cutting fluid passes over the blocking surface 62 due to a large inflow amount of the cutting oil, , And this structural vulnerability has been raised as a new problem.

The rotation of the center shaft 2 causes a problem of uneven rotation such as irregular rotation or eccentric rotation due to the centrifugal force of the center shaft 2 and the difference between the outside of the inner diameter 31 of the cover 3 and the center shaft 2 The outer circumferential surface of the first end portion 22 of the outer circumferential surface of the outer circumferential portion of the outer circumferential surface of the outer circumferential portion of the outer circumferential portion.

That is, since the ejection of the cutting oil is caused by the centrifugal force of the center shaft 2, the ejection of the cutting oil can not be uniform when the above-mentioned problems occur in the rotational drive of the center shaft 2. [

Patent Document 001: Registration Utility Model No. 20-0453482 Patent Document 002: Registration Utility Model No. 20-0241737 Patent Document 003: Registration Utility Model No. 20-0219066 Patent Document 004: Registration No. 10-1324080

The present invention for solving the above-mentioned problems provides a live center for a machine tool of a rigid structure that fundamentally blocks the inflow of coolant generated in the process of machining a workpiece into the live center and optimally prevents the inflow of cutting oil The purpose is to do so.

Further, in the present invention, since the cutting oil to be introduced into the live center is discharged to the outside, not the rotating force of the conventional center shaft which directly discharges the cutting oil to the outside, And to provide a live center for a machine tool capable of inducing discharge of the machine tool.

In order to accomplish the above-mentioned objects, the present invention provides a cutting tool for cutting a workpiece, comprising: a center body rotatably inserted into one end of the center body, A part of the outer diameter is inserted between the outer diameter and the inner diameter of the cover ring on the opposite side of the rear side of the cover ring closely inserted between the gap of the one end of the center body and the oil seal inserted in the second portion of the shaft, Contacted at the front surface of the covering in accordance with a structure in which the inner diameter inserted into the second portion is caught by the step of the second portion. The covering is recessed rearward from the front surface between the outer and inner diameters, A circular groove that is a moving path that is moved from the inflow to the discharge, (1) of the present invention is characterized in that it comprises: a housing groove which is capable of temporarily holding cutting oil which is concavely moved rearward at a certain point in the inner rim of the groove groove (the inner rim) And a discharge groove formed at a position facing the groove and discharging the cutting oil by the rotary centrifugal force of the capping,
The capping has a structure in which an outer diameter of the cap ring is inserted into the groove groove in a noncontact manner and is inserted into the groove groove in a stepped state formed at a second portion of the center shaft, Further comprising a sawtooth trough having one or more v-shaped grooves formed along the outer diameter of the grooved portion to allow the cutting oil to flow into the discharge groove at a moment when the cutting oil has flowed into the grooved portion and scatter the cutting oil, There is one feature in the live center for small machine tools.

delete

delete

As described above, the live center for a machine tool according to the present invention has the effect of allowing the cutting oil, which can flow into the center body in the process of machining a workpiece, to be scattered to the outside despite being unbalanced in rotation of the center shaft, .

In addition, the live center for a machine tool according to the present invention differs from a conventional method in which a centrifugal force is directly applied to the center shaft in scattering and discharging the cutting oil, which can flow into the center body in the process of machining a workpiece, The rotation of the workpiece is performed through the center shaft and the external discharge of the cutting oil is performed through the capping so that the rotation of the workpiece and the external discharge of the cutting oil are shared .

In the live center for a machine tool according to the present invention, even when the amount of cutting oil flowing into the center body during the machining of the workpiece is large, the centrifugal force in the non- It is possible to shut off the inflow space of the cutting oil which can be introduced into the live center by making it possible to discharge the outside.

Further, in the live center for a machine tool according to the present invention, the cutting oil, which can flow into the inside of the center body during the machining of the workpiece, is not rotated by the centrifugal force of the center shaft but by using the rotating centrifugal force of the cap ring By allowing external discharge, it is possible to prevent the corrosion of the bearings installed inside the center body by blocking the inflow space of the cutting oil, and thus it is possible to secure the lifetime of the live center for a long time.

1 is a sectional view showing a live center for a machine tool according to the present invention,
Fig. 2 is a cross-sectional view further illustrating each part of the center shaft in Fig. 1,
FIG. 3 is a perspective view showing covering and capping corresponding to the dotted line shown in FIG. 1;
Fig. 4 is an enlarged cross-sectional view of a circle dotted line in Fig. 2; Fig.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. And it should be interpreted based on the technical ideas throughout the specification taking into consideration that various modifications are made.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, an agricultural equipment according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The live center 100 for a machine tool according to the present invention is a center used by being inserted into a main shaft of a lathe and is installed in a tailstock to support one end of the work.

(Not shown) is a component part of a lathe used for supporting one end of a workpiece, and is positioned above the bed opposite the main shaft. In addition to the center of the main shaft, a support for supporting one end of the workpiece, to be.

In general, the tailstock is provided with a shaft that can move in the axial direction. The shaft is attached to the shaft in such a manner that the live center 100 of the present invention is installed, and is pushed against the center hole of the workpiece to firmly fix the workpiece do.

2, the live center 100 of the present invention includes a center body 10 and a center shaft 90 inserted into one end (front end) of the center body and rotatably connected to the center body 10, The other side end (rear end) of the body 10 is attached in such a manner as to be installed on the tailstock.

2, the center shaft 90 is inserted into one end (front end) of the center body 10 and rotatably connected thereto. The center shaft 90 is exposed from one end (front) of the center body 10, A second portion 92 which is a portion to be inserted from the inner diameter of the cap ring 80 to the inner diameter of the covering 70 while extending from the first portion, A third portion 93 extending from the second portion to be inserted from the radial ball bearings 50 and 51 to the thrust ball bearing 40 and a second portion 93 extending from the third portion to the center body 10, A fourth portion 94 which is a portion to be inserted along the inner diameter of the needle bearing 30 and a fifth portion 95 which is extended from the fourth portion and inserted into the needle bearing 30.

Particularly, the first portion 91 has a tapered shape and is inserted into the center hole of the work. The first portion 91 is rotated in the inner diameter of the center body 10 through the operation of the driving portion to rotate the work.

Since the collar 20 is installed in the center of the center body 10 between the other ends of the center body 10, the needle bearing 30 connected to the collar 20 is inserted into the center shaft 90, The fifth part (95) is used to hold a vertical load for rotational driving.

A thrust ball bearing 40 and radial ball bearings 50 and 51 are sequentially installed in the middle between the centers of the center body 10. The thrust ball bearings 40 are installed on the center shaft 90 The radial ball bearings 50 and 51 are used to rotate the third portion 93 of the center shaft 90 with respect to the center axis 90 ) Of the load and fluidity acting perpendicularly.

A center shaft 90 is installed at one end of the center body 10 in such a manner that a covering 70 is closely attached to the center body 10 and is rotatably inserted from one end of the center body 10, Thereby covering the gap between them.

The oil seal 60 is inserted into the inside of the inside diameter 70 '' of the cover ring 70 so that the oil seal 60 is interposed between one end of the center body 10 and the cover ring 70, Thereby preventing the inflow.

Further, the front surface of the covering 70 is configured such that the capping 80 is inserted between the outer diameter 70 'and the inner diameter 70'. To this end, the outer diameter 70 And the outer diameter 80 'of the cap ring 80 is inserted into the groove groove 71. As shown in FIG.

Here, the capping 80 may be hermetically sealed up to the inner diameter 70 'of the covering 70 when the capping 80 is inserted into the cover 70. The capping 80 And the first and second portions 91 and 92 of the center shaft 90 are exposed to the inside diameter 80 "

The inside diameter 80 "of the capping 80 is smaller than the inside diameter 70" of the covering 70 in the bore size and the inside diameter 70 "of the covering 70 is smaller than the inside diameter 70" Of the capping 80 and the second portion 92 of the center shaft 90 due to the double blocking structure effect, which is relatively larger than the inner diameter 80 "of the center shaft 90, .

3, the covering 70 is provided with a groove 73 for temporarily holding the cutting oil in a lower direction corresponding to the inner circumference of the groove 71 due to the grooves 71 formed on the front surface thereof, And a discharge groove 72 for discharging the cutting oil to the outside is formed in a lower direction corresponding to the outer periphery of the groove 71.

The capping 80 inserted into the grooves 71 of the coverings 70 has a plurality of serration grooves 81 formed along the outer diameter 80 ' It is preferable that the outer diameter 80 'of the cap ring 80 is equal to the depth of the groove 71 inserted into the groove 71.

Accordingly, the outer diameter 80 'of the capping 80 is composed of a plurality of tooth groove troughs 81 and a flat surface in the form of a flat pattern. The plurality of sawtooth troughs 81 are formed only up to the depth depth of the groove 71 and are rotated together with the center shaft 90 so that the gap between the cover ring 70 and the cap ring 80 Even if the cutting oil flows into the gap between the second portion 92 of the outer diameter of the center shaft 90 and the inner diameter 80 "of the capping 80, the sawtooth troughs 81 having the cutting oil are rotated The cutting oil can be discharged to the outside through the discharge groove 72 of the covering 70 by the centrifugal force of the capping 80 by the rotation centrifugal force.

That is, the cutting oil generated in the process of machining the workpiece flows while flowing along the outer diameter of the workpiece and flows out to flow into the gap between the covering 70 and the capping 80 or the second portion 92 (the outer diameter of the center shaft 90) The capping 80 on which the sawtooth trenches 81 are formed flows into the gap between the center shaft 90 and the inner shaft 80 of the capping 80, And the cutting oil introduced into the groove 71 flows into the discharge groove 72 of the cover ring 70 and is scattered to the outside during the rotation of the tooth grooves 81 in a state where the tooth grooves 81 are fixed.

The reason why the cutting oil can be scattered to the outside from the discharge groove 72 is that it can be scattered by the centrifugal force due to the rotation driving of the capping 80.

The cutting oil flowing into the groove 71 flows in the lower direction of the groove 71 due to its own weight and a part of the cutting oil temporarily stays in the groove groove formed in the lower part of the inner circumference of the groove 71 And the remaining part of the cutting oil flows into the outer (outer) section of the groove 71 and is discharged through the discharge groove 72 of the covering ring 70 in a state of being wedged by the tooth grooves 81 of the cap ring 80 And is discharged.

Of course, a part of the cutting oil temporarily staying in the housing groove 73 also gradually flows into the outer (outer) section of the groove 71, and is held by the tooth grooves 81 of the capping 80 Can be scattered and discharged through the discharge groove (72) of the covering (70).

That is, when the workpiece is machined while the center shaft 90 is rotated, the cutting oil is supplied. At this time, the introduced cutting oil flows down the outer diameter of the workpiece, and a part of the cutting oil flows in the existing live center between the inner diameter of the cover and the outer diameter of the center shaft In the live center of the present invention, the inner diameter 80 "of the capping 80 and the outer diameter of the center portion 90, which is the outer diameter of the center shaft 90, Even when the capping 80 is introduced into the gap between the capping 80 and the capping 80 due to the centrifugal force of the instantaneous capping 80 flowing in the direction of the gap in Fig. The cutting oil drained in the grooves 81 can be discharged through the discharge groove 72 formed in the outer diameter of the groove 71 of the cover ring 70 Corrosion resistance of the mounted bearings (50, 51, 40) It is possible to prevent.

4, the second portion 92 of the center shaft 90 has a stepped portion 92 'of FIG. 4 having a stepped portion, and the contactless connection structure of the capping 70 and the capping 80 is illustrated in FIG. Even if the tooth grooves 81 formed in the outer diameter 80 'of the cap 80 are inserted into the grooves 71 of the cover ring 70, The cap ring 70 can not be brought into close contact with the cap ring 70 in the direction of the cover 70 so that a gap can be maintained between the cover ring 70 and the cap ring 80, .

As a result, as the cutting oil flows into the space of the groove 71, the gap between the grooves 81 of the capping 80, which is inserted into the groove 71 in a non-contact manner, (Outer periphery) of the trough 71 by the rotation centrifugal force of the cap 80 rotated together with the center shaft 90 at a moment when the sawtooth troughs 81 were held while keeping a predetermined cutting oil film, And is discharged to the outside through the groove 72.

As described above, in the live center for a machine tool according to the present invention, the center shaft 90 performs the work of rotating the workpiece, and the cap ring 80, which is connected to the front surface of the cover ring 70 in a non- The center shaft is used to discharge the coolant to the outside of the center body 10 through the rotary centrifugal force so that the center shaft rotates the workpiece and discharges the coolant oil simultaneously It is possible to share the rotation of the workpiece and the external discharge of the cutting oil.

Live Center (100)
The center body (10)
Color (20, collar)
Needle bearings (30)
Thrust Ball Bearings (40)
Radial ball bearings (50,51)
Oil Seals (60)
The covering 70, the groove 71, the discharge hole 72,
The capping 80, the sawtooth trench 81,
The center shaft (90)

Claims (3)

An oil seal fitted to a second portion of a center shaft rotatably inserted into one end of the center body so that cutting oil to be introduced into the center body during the machining process of the workpiece can be scattered to the outside using centrifugal force, A part of the outer diameter is inserted between the outer diameter and the inner diameter of the cover ring on the opposite side of the rear side of the cover ring closely inserted into the space between the ends of the cover ring and the inner diameter inserted into the second portion of the center shaft, And a cap ring connected to the front surface of the cover ring in a non-contact manner in accordance with a structure of the protrusion,
Wherein the covering includes a circular groove between the outer diameter and the inner diameter, the circular groove being recessed rearward from the front surface thereof and being a moving path from the inflow of the cutting oil to the discharge; A housing groove capable of temporarily holding a cutting oil moving concavely rearwardly at a certain point in an inner periphery (inner periphery) of the groove groove; And a discharge groove formed at a position opposite to the housing groove and passing through the outer circumference of the groove to an outer diameter of the covering so as to discharge the cutting oil by the rotary centrifugal force of the cap ring; And,
The capping,
A predetermined clearance for allowing coolant to flow between the front surface of the cover ring and the rear surface of the cap ring, the protrusion being inserted into the groove groove in a state of being engaged with the step formed at the second portion of the center shaft;
Wherein one or more v-shaped grooves are formed along the outer diameter to allow the cutting oil to flow into the groove and scatter the cutting oil when the cutting oil flows into the groove groove;
Further comprising:
Wherein the inside diameter of the cover ring is smaller than the inside diameter of the covering ring. delete delete

Images