KR101100092B1 - Coolant supplier for cooling tools on cnc machine - Google Patents

Abstract

In the cooling device for a CNC multi-axis machining tool according to the present invention, a plurality of spindle shafts are installed at equal intervals on the turret rotating body of the turret assembly, and one of the plurality of spindle shafts is clutched with the drive shaft to be driven by the spindle drive motor. In a cooling apparatus for a CNC multi-axis machining tool, which is driven, the holder for holding the tool is provided at each of the distal end of the plurality of spindle shafts, the pump power transfers the coolant from the outside of the turret assembly, and is discharged from the pump The connector for guiding the coolant to the first cooling liquid passage formed in the longitudinal direction inside the drive shaft is provided between the outlet of the pump and one end of the driving shaft, and the second cooling liquid passage communicating with the first cooling liquid passage of the drive shaft is The first coolant joint shaft formed in the longitudinal direction therein is different from the drive shaft A second coolant joint shaft installed inside the end portion and having a third coolant passage communicating with the second coolant passage of the first coolant joint shaft in a longitudinal direction therein is detached from the first coolant joint shaft; In addition, a holder is installed inside the other end of the spindle shaft, and a holder is installed at the other end of the spindle shaft in which the fourth cooling liquid passage communicating with the third cooling liquid passage of the second coolant joint shaft is formed in the longitudinal direction therein. Injecting coolant into the tool.

Therefore, in the present invention, when one of the plurality of spindle shafts provided in the turret assembly is driven, the coolant flows through the first cooling liquid passage of the drive shaft, the second cooling liquid passage of the first coolant joint shaft, and the third cooling liquid of the second coolant joint shaft. Since it is injected into the tool through the holder through the passage and the fourth cooling liquid passage of the spindle shaft in turn, it is possible to guide the coolant to cool the tool without having to prepare many components. The interlocking tool can be easily cooled with a coolant, and the effect of improving the processing quality and cutting speed of the workpiece can be easily achieved.

CNC, multi-axis machining, turret assembly, tool cooling device

Description

COOLANT SUPPLIER FOR COOLING TOOLS ON CNC MACHINE}

The present invention relates to a cooling device for a CNC multi-axis machine tool installed in a turret assembly of a CNC multi-axis machine machine to cool a tool for processing a workpiece with a coolant, and more specifically, a drive shaft and a spindle shaft using a simple component. In addition, the present invention relates to a cooling apparatus for a tool for a CNC multi-axis machining machine, which enables the tool interworking with the holder to be easily cooled with a coolant.

In general, in the turret assembly, a plurality of spindle shafts are installed at equal intervals on the turret rotating body, and one of the plurality of spindle shafts is coupled to the driving shaft and driven by the spindle driving motor, and a holder is provided at the tip of the spindle shaft. In addition, drilling, milling, cutting, etc. are performed according to the rotation of the tool installed in the holder, and a tool suitable for the purpose of the required work is installed in each of the plurality of holders.

In order to change the position of the other one of the plurality of spindle shafts with the drive shaft, the drive shaft is moved by a cam or a link to move the turret rotating body away from the spindle shaft to rotate the turret rotating body and then the other one of the plurality of spindle shafts. To match the drive shaft, and return the drive shaft to the initial state to reconnect the spindle shaft and the drive shaft.

In particular, conventionally, when machining a workpiece with a tool, a coolant is sprayed through a nozzle provided in close proximity to the tool to form a structure for cooling the tool.

Therefore, in the related art, since the coolant that is installed in the turret assembly and cools the tool for processing the workpiece is sprayed through a nozzle installed at a position proximate to the tool, the structure for cooling the tool is not only complicated but also reduces the cutting heat of the ghost. There is a drawback to this.

In particular, in the drilling of the workpiece, when the workpiece is processed while the tool is inserted into the deep hole, the external cooling liquid does not flow into the deep hole, so that the deep hole cannot be smoothly cooled.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention is to cool the liquid to the tool through the drive shaft and the inside of the spindle shaft when the coolant is driven by one of the plurality of spindle shaft provided in the turret assembly The present invention provides a cooling device for a tool for a CNC multi-axis machining machine which can easily cool a tool interlocked with a drive shaft, a spindle shaft, and a holder with a coolant by injecting the same.

In order to achieve the above object, the present invention is a plurality of spindle shafts are installed at equal intervals on the turret rotating body of the turret assembly, one of the plurality of spindle shafts are clutched with the drive shaft is driven by the spindle drive motor A cooling device for a CNC multi-axis machining tool, wherein a holder for holding a tool is provided at each of the front end portions of a plurality of spindle shafts, wherein the pump power-drives the cooling liquid outside the turret assembly, and the cooling liquid is discharged from the pump. The connector for guiding the first cooling liquid passage formed in the longitudinal direction in the drive shaft is provided between the outlet of the pump and one end of the driving shaft, and the second cooling liquid passage communicating with the first cooling liquid passage of the drive shaft is inside. The first coolant joint shaft formed in the longitudinal direction at the other end of the drive shaft A second coolant joint shaft installed at the side and having a third coolant passage communicating with the second coolant passage of the first coolant joint shaft in a longitudinal direction therein, is detached from the first coolant joint shaft A holder is installed inside the other end of the spindle shaft, and a holder is installed at the other end of the spindle shaft in which the fourth cooling liquid passage communicating with the third cooling liquid passage of the second coolant joint shaft is formed in the longitudinal direction therein. Provided is a cooling device for a tool for a CNC multi-axis machining machine, which is sprayed with a coolant.

In the cooling device for a CNC multi-axis machining tool according to the present invention, the cooling liquid is the first cooling liquid passage of the drive shaft, the second cooling liquid of the first coolant joint shaft when one of the plurality of spindle shafts provided in the turret assembly is driven. Since it is injected into the tool through the holder through the passage, the third cooling liquid passage of the second coolant joint shaft, and the fourth cooling liquid passage of the spindle shaft, it is possible to guide the cooling liquid to cool the tool without preparing many components separately. As a simple component, the drive shaft, the spindle shaft, and the tool interlocked with the holder can be easily cooled with a coolant, and the machining quality and cutting speed of the workpiece can be easily improved.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a view showing a part of an example CNC multi-axis machining machine equipped with a turret assembly to which the cooling device for a tool according to the present invention is applied, Figure 2 is a cooling apparatus for a CNC multi-axis machining tool according to the present invention is applied As an illustration of an example turret assembly, as shown in Figs. 1 to 3, the present invention is an apparatus for cooling a tool installed in a turret assembly 1 for a CNC multi-axis machining machine at work.

A plurality of spindle shafts 12 are installed on the turret rotating body 11 at equal intervals from each other, and one of the plurality of spindle shafts 12 is clutched to the drive shaft 13 by the spindle drive motor 14. Drives, holders 16 for fixing the tools 15, are provided at the distal ends of the plurality of spindle shafts 12, respectively.

3 and 4, the coolant in the separately provided coolant storage tank 2 located outside the turret assembly 1 is power-transferred by the pump 3.

A connector 4 is installed between the outlet of the pump 3 and one end of the drive shaft 13, and the connector 4 is configured to transfer coolant discharged from the pump 3 into the drive shaft 13. Guide to the first cooling liquid passage (13a) formed in the longitudinal direction.

The first coolant joint shaft 17 is installed inside the other end of the drive shaft 13, and the first coolant passage 13a of the drive shaft 13 is inside the first coolant joint shaft 17. A second cooling liquid passage 17a communicating therewith is formed in the longitudinal direction.

A second coolant joint shaft 18 detachable from the first coolant joint shaft 17 is installed inside one end of the spindle shaft 12, and the second coolant joint shaft 18 is installed inside the spindle shaft 12. A third cooling liquid passage 18a communicating with the second cooling liquid passage 17a of the first coolant joint shaft 17 is formed in the longitudinal direction.

Inside the spindle shaft 12, a fourth cooling liquid passage 12a communicating with the third cooling liquid passage 18a of the second coolant joint shaft 18 is formed in the longitudinal direction, and the spindle shaft 12 The holder 16 is installed at the other end of the coolant so that the coolant passing through the fourth coolant passage 12a of the spindle shaft 12 is injected into the tool through the holder 16.

Of course, in the present embodiment, in order to clutch the spindle shaft 12 and the drive shaft 13, it is preferable to provide a driven clutch portion 12b on the spindle shaft 12, the drive clutch portion ( 13b) is preferred.

In addition, a plurality of spindle mounting portions 11a are formed on the turret rotating body 11 of the turret assembly 1 to which the present invention is applied, and the spindle shaft 12 and the second cool on the plurality of spindle mounting portions 11a. The runt joint shafts 18 are respectively installed, and the pump 3 may be installed in the turret assembly 1 or spaced apart from the turret assembly 1 so that the installation place of the pump 3 may be any convenient place. .

When the turret assembly of the present embodiment is schematically described by omitting reference numerals, a timing belt and a pulley are installed between the drive shaft 13 and the spindle drive motor 14 so that the drive shaft is rotated by the spindle drive motor. A clutch is installed between the drive shaft 13 and the drive shaft 13 so that the drive shaft 13 and the spindle shaft 12 interlock with each other. The drive shaft 13 is moved upward in FIG. The shaft between the shaft 12 and the drive shaft 13 is disconnected, and the first coolant joint shaft 17 and the second coolant joint shaft 18 are separated. As shown in FIGS. 1 to 3, the cam driving motor By rotating the cam to rotate the turret rotating body 11, the coupling relationship of this technical configuration can be fully understood based on the prior art.

In any case, according to the present invention, one of the plurality of spindle shafts 12 provided in the turret assembly 1 is clutched to the drive shaft 13 and driven by the spindle drive motor 14 to drive shaft 13 and spindle shaft 12. When the lamp is driven, the coolant in the external coolant storage tank 2 is transferred to the first coolant passage 13a of the drive shaft 13 and the second coolant passage 17a of the first coolant joint shaft 17 and the second coolant. Tool 15 shown briefly in FIG. 1 via holder 16 via the third cooling liquid passage 18a of coolant joint shaft 18 and the fourth cooling liquid passage 12a of spindle shaft 12 in turn. Can be sprayed on.

Since the holder 16 is typically to clap the tool, there are many gaps in the holder 16 so that the coolant can be easily injected to the tool 15 through the holder 16.

On the other hand, in the above-described embodiment, the technique of cooling the tool with the coolant, or when the coolant is used without the coolant as the coolant, the spindle shaft bearing 12c supporting the spindle shaft 12 may be cooled and lubricated.

That is, in the present invention, as shown in FIG. 5, an annular groove 18b is formed on the second coolant joint shaft 18, and the first coolant between the third cooling liquid passage 18a and the annular groove 18b is formed. A small diameter first lubrication flow path 18c is formed in the two coolant joint shaft 18, and a small diameter second lubrication oil is formed in the spindle shaft 12 between the annular groove 18b and the spindle shaft bearing 12c. A passage 12d is formed to lubricate and cool the spindle shaft bearing 12c with a cooling liquid flowing through the third cooling liquid passage 18a.

Here, the diameters of the first lubrication flow path 18c and the second lubrication flow path 12d are preferably formed to a size that does not affect the pressure at which the cooling oil can be smoothly injected into the tool.

The apparatus for cooling a CNC multi-axis machining tool according to the present invention as described above cools the tool with a coolant through the path as described above, and also the first lubrication passage 18c, the annular groove 18b, and the second lubrication passage ( It is possible to cool and lubricate the spindle shaft bearing 12c via 12d) one after the other.

1 is a front view showing a part of an example CNC multi-axis machining machine equipped with a turret assembly to which a cooling apparatus for a tool according to the present invention is applied;

FIG. 2 is a view showing an example turret assembly to which a cooling device for a CNC multi-axis machining tool according to the present invention taken from the right side of FIG. 1 is applied; FIG.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is an enlarged cross-sectional view of a portion B of FIG. 3 showing an example of a cooling apparatus for a tool for a CNC multi-axis machining machine according to the present invention;

5 is an enlarged cross-sectional view of a portion B of FIG. 3 showing another example of a cooling apparatus for a tool for a CNC multi-axis machining machine according to the present invention.

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

1: turret assembly 2: coolant storage tank

3: pump 4: connector

11: turret rotating body 12: spindle axis

13: drive shaft 14: spindle drive motor

15 tool 16: holder

Claims (2)

A plurality of spindle shafts are installed at equal intervals on the turret rotating body of the turret assembly, one of the plurality of spindle shafts is clutched with the drive shaft and driven by the spindle drive motor, and a holder for fixing the tool In the cooling device for a tool for CNC multi-axis processing machine which is provided in each of the front end portion, The pump powers the coolant on the outside of the turret assembly A connector for guiding the cooling liquid discharged from the pump to the first cooling liquid passage formed in the longitudinal direction in the drive shaft is provided between the outlet of the pump and one end of the drive shaft, A first coolant joint shaft having a second coolant passage communicating with the first coolant passage of the drive shaft in a longitudinal direction therein is installed inside the other end of the drive shaft; A second coolant joint shaft having a third cooling liquid passage communicating with the second cooling liquid passage of the first coolant joint shaft in a longitudinal direction therein is detached from the first coolant joint shaft and inside one end of the spindle shaft. Installed in, The fourth cooling liquid passage communicating with the third cooling liquid passage of the second coolant joint shaft is provided with a holder at the other end of the spindle shaft formed in the longitudinal direction therein to inject the coolant to the tool through the holder, An annular groove is formed on the second coolant joint shaft, and a first lubrication flow path having a small diameter is formed in the second coolant joint shaft between the third cooling liquid passage and the annular groove. And a second lubrication flow path having a small diameter is formed in the spindle shaft between the annular groove and the spindle shaft bearing to lubricate and cool the spindle shaft bearing with a coolant flowing through the third cooling liquid passage. delete

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