KR20190087816A - Fluid supply apparatus for turret of machine tools - Google Patents

Abstract

The present invention provides a turret capable of supplying cutting oil and additionally supplying air under high pressure or oil pressure to a tool holder of the turret by including a pneumatic supply line or a hydraulic supply line in the turret of a shelf. According to the present invention, a fluid supply device for a turret of a machine tool has a through hole in the longitudinal direction in the center of the turret. A rotating union has an inlet port rotating to enable a fluid supplied from the outside to flow inside and is installed at a rear end of the through hole to face the front side of the through hole. Also, a pipe fixing block is installed at a front end of the through hole of the machine tool, and an outlet port of the rotating union and the pipe fixing block is connected by a first pipe installed. Also, the pipe fixing block has a distributor supplying the fluid supplied from the first pipe toward the tool holder of the turret. Also, a second pipe is installed to transfer the fluid supplied to a periphery of the tool holder installed in the circumferential direction of the turret in the distributor.

Description

Technical Field [0001] The present invention relates to a fluid supply apparatus for a machine tool,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for supplying fluid to a tool holder in a machine tool such as a lathe, and more particularly to an apparatus for supplying fluid to a tool mounted on a tool holder at the tip of the tool via a center of a rotating tool.

As shown in Fig. 1, the tool rest 10 of the lathe has a plurality of frame holders at the distal end in the circumferential direction, and a cutting tool such as a bit or a drill is inserted and fixed to the tool holder 11. Fig.

As described above, the tool fixed to the tool holder 11 is gripped by the main shaft of the lathe, and heat is generated in the process of cutting the rotating work. Cutting oil is supplied to the cutting area to cool the generated heat.

However, the tool rest 10 of the lathe may be equipped with an abrasive tool in addition to such a cutting tool. When using such a special tool, cutting fluid can not be used and a separate fluid or air pressure may be supplied. For example, when an abrasive tool is mounted on the tool holder 11 of the tool rest 10 on the shelf and polishing is performed, no cutting oil is used, and a separate air pressure is supplied to blow off chips generated during abrasion Should be.

In order to supply a separate air pressure in addition to the coolant supply device, a separate hose or pipe must be provided outside the tool rest 10 to inject high-pressure air between the abrasive tool and the workpiece.

However, in the conventional lathe tool stand 10, there is no apparatus for supplying high-pressure air in addition to such a coolant supply apparatus. In the case where a high-pressure air supply apparatus is arbitrarily installed in the tool rest 10 without mounting the tool, ) Is not possible, which limits the function of the lathe equipped with various tools.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a pneumatic or hydraulic pressure supply line inside a tool holder of a lathe and to supply high pressure air or hydraulic pressure to a tool holder of a tool stand in addition to cutting oil With the aim of providing a tool stand.

Another object of the present invention is to enable rotation of the tool rest in forming a high-pressure air or hydraulic supply line into the tool rest.

According to an aspect of the present invention, there is provided a fluid supply device for a tool bar of a machine tool, comprising: a through hole formed in a center portion of a tool holder in a longitudinal direction; and an inlet port rotatably connected to a rear end of the through hole, A possible rotating union is installed toward the front of the through hole.

Further, a pipe fixing block is provided at the tip of the through hole of the tool material, and the pipe fixing block and the outlet port of the rotating union are connected to each other through a first pipe.

The pipe fixing block is provided with a distribution pipe for supplying the fluid supplied from the first pipe to the tool holder of the tool holder.

Further, a second pipe is provided from the distribution pipe to the vicinity of the tool holder installed in the circumferential direction of the tool rest to transmit the supplied fluid.

In the meantime, as an embodiment of the present invention, a switching valve may be further provided between the pipe fixing block and the distribution pipe so as to supply or block the fluid supplied to the second pipe. Further, the distribution pipe may be constituted by a distribution pipe branching in both directions, and a second pipe is respectively installed at the outlet of the distribution pipes in both directions so as to supply the fluid to the vicinity of the corresponding tool holder, respectively.

The switching valve may be provided with a shutoff position for shutting off the flow of the fluid to the second piping branching in both directions and a first position for supplying the fluid only to the second piping of either of the two piping branches in both directions, And a third position for simultaneously supplying the fluid to both the second position and the second pipe installed in both directions.

As described above, according to the present invention, when a work such as an abrasive tool is used in a lathe having a tool stand and using high pressure air or a special fluid without using cutting oil, a separate fluid supply device is installed inside the tool rest, It is possible to easily remove chips or abrasive particles generated when the tool is used.

Further, the present invention makes it possible to implement a lathe that can expand the kinds of lathe machining operations without interfering with the use of other tools mounted on the lathe tool stand, by allowing the lathe to perform machining operations using fluids other than cutting fluid have.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective view of a tool holder of a lathe in the prior art;
2 is a cross-sectional view of a tool bar of a lathe in which a fluid supply device is installed, as an embodiment of the present invention.
3 is a cross-sectional view showing an internal structure of a rotating union provided inside a tool holder as an embodiment of the present invention.
Figure 4 is a front view of a tool stand of a shelf equipped with a fluid supply device as an embodiment of the present invention. Figure 5 is a hydraulic circuit diagram of a fluid supply device as another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to FIGS. 2 to 5. FIG.

Before describing the preferred embodiment of the present invention, the fluid supply device 21 used in the present embodiment generally includes fluid supply means other than the coolant supply device such as an air compressor or a hydraulic pump. For the sake of convenience, It can be understood as an air compressor for supplying air. Further, the fluid supplied from the fluid supply device 21 in this embodiment may be understood as high-pressure air.

First, as shown in Fig. 2, the present invention forms a through hole 12 in the longitudinal direction at the center of the tool rest 10. Also, as shown in FIG. 3, a rotating union 13 is provided at the rear end of the through-hole 12 to allow fluid to flow from the outside even in a rotating state.

A pipe fixing block 18 is provided at the tip of the through-hole 12.

The outlet port 15 of the rotating union 13 is directed to the front of the through hole 12 and the inlet port 14 of the rotating union 13 is rotatably mounted on one side of the machine tool And is connected to the supply device 21 through a pipe.

The outlet port 15 of the rotating union 13 and the outlet port 15 of the rotating union 13 are connected to the pipe fixing block 18 so as to transmit the fluid supplied from the outlet port 15 of the rotating union 13 to the pipe fixing block 18. [ And the first pipe 16 is installed in the through hole 12 between the first pipe 16 and the second pipe 16.

A distribution pipe 19 for supplying the fluid supplied from the first pipe 16 to the tool holder 11 of the tool holder 10 is fastened to the front surface of the pipe fixing block 18.

A second pipe 17 for supplying the fluid supplied through the distribution pipe 19 to the vicinity of the tool holder 11 installed in the circumferential direction of the tool rest 10 is provided at the outlet of the distribution pipe 19 .

4 and 5, the distribution pipe 19 is provided with a distribution pipe 19 branched in both directions so as to supply the fluid to at least two different tool holders 11, And a second pipe 17 is installed at the two outlets of the distribution pipe 19 so as to supply the fluid to the vicinity of the corresponding tool holder 11, respectively.

A switching valve 20 can be additionally provided between the pipe fixing block 18 and the distribution pipe 19 to adjust the supply and supply directions of the fluid. The switching valve 20 may be provided in the pipe fixing block 18 or in some cases in the distribution pipe 19. It is sufficient that the flow of the fluid supplied to the second pipe 17 is blocked or opened even if it is installed at either side.

When the high-pressure fluid is supplied from the fluid supply device 21 installed at one side of the machine tool to the inlet port 14 by the rotating union 13 through the piping, the rotating union 13 Supplies the fluid supplied from the fluid supply device 21 to the first pipe 16 via the outlet port 15 irrespective of the rotation angle of the tool rest 10.

The first pipe 16 supplies the supplied fluid to the distribution pipe 19 and the switching valve 20 via a pipe fixing block 18 at the tip of the through hole 12. The switching valve (20) supplies the fluid to the second pipe (17) in accordance with the switching position so that high pressure fluid is injected into the tool holder (11).

In this case, when the second pipe 17 connected to the distribution pipe 19 is a pipe separated into two pipes, the switching valve 20 is provided to cut off the flow of the high-pressure fluid to both the pipes A second position 24 for supplying fluid to only one of the two pipes and a third position 25 for supplying the fluid to both pipes at the same time ). ≪ / RTI >

That is, when it is necessary to supply the fluid to only one of the tool holders 11, the switching valve 20 is switched to the first position 23 or the second position 24, and both of the two tool holders 11 (25) when it is necessary to supply the fluid to the third position (25). On the other hand, when processing is not required to supply the fluid to any of the second piping 17, the fluid is not supplied to any tool holder 11 when the switching valve 20 is locked to the cut-off position 22.

As described above, according to the present invention, when a work is performed using a special fluid containing high-pressure air or an abrasive without using cutting oil, such as an abrasive tool in a lathe having a tool rest 10, , It is possible to easily remove chips or abraded particles generated when a special tool is used in a lathe.

The present invention also provides a lathe capable of extending the type of lathe machining operation without interfering with the use of other tools mounted on the lathe tool stand (10) by allowing the lathe to perform machining operations using fluids other than cutting fluid Can be implemented.

10: Tool stand
11: Tool holder
12: Through hole
13: Rotating Union
14: inlet port
15: outlet port
16: First piping
17: Second piping
18: Piping fixing block
19: Distribution pipe
20: Switching valve
21: fluid supply device

Claims (5)

A through hole formed in the center of the tool holder in the longitudinal direction;
A rotating union provided at an end of the through hole and having an inlet port rotatable to allow fluid to flow from the outside and an outlet port formed toward the front of the through hole;
A pipe fixing block provided at the tip of the through hole;
A first pipe installed inside the through hole so as to allow the outlet port of the rotating union to communicate with the pipe fixing block;
A distribution pipe installed in the pipe fixing block and supplying the fluid supplied from the first pipe to the tool holder of the tool holder;
And a second pipe installed to supply fluid from the distribution pipe to the vicinity of the tool holder installed in the circumferential direction of the tool rest. The apparatus of claim 1, wherein a switching valve is further provided between the pipe fixing block and the distribution pipe to supply or block the fluid supplied to the second pipe. The tooling machine according to claim 2, wherein the distribution pipe is a branch pipe branched in both directions, and a second pipe is provided at each of the two-way outlets of the distribution pipe so as to supply the fluid to the vicinity of the tool holder, / RTI > The fluid control apparatus according to claim 3, wherein the switching valve is configured to supply fluid only to a second piping of either the second piping branching in both directions, and a shutoff position for shutting off the flow of the fluid to the second piping branching in both directions And a third position for simultaneously supplying the fluid to both the first position and the second position of the first piping and the second piping installed in both directions. The apparatus of claim 1, wherein the fluid supply device is an air compressor, and the fluid is high-pressure air.

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