KR20200041651A - Coolant nozzel apparatus of machine tool - Google Patents

Abstract

The present invention relates to a coolant nozzle apparatus for a machine tool. A ball unit (31) of a nozzle (30) is constrained or released by a sleeve (40) according to rotation in the direction of coupling the sleeve (40) to a connector pipe (20) or rotation in the direction of releasing the sleeve (40) from the connector pipe (20). When restraint of the ball unit (31) is released by the sleeve (40) is released, free rotation of the nozzle (30) is possible. After angle adjustment of the nozzle (30) is completed, the rotation of the nozzle (30) may be restrained through the restraint of the ball unit (31) by the sleeve (40).

Description

Coolant nozzle device for machine tools {COOLANT NOZZEL APPARATUS OF MACHINE TOOL}

The present invention relates to a coolant nozzle device for a machine tool, and more specifically, it is easy to adjust the angle of the nozzle, and it is possible to fix the position of the nozzle where the angle adjustment is completed. It is a technology related to a coolant nozzle device for machine tools that can keep the injection direction constant.

In general, a machine that processes a metal or non-metal material using a suitable tool by cutting or non-cutting method is called a machine tool. Machine tools, such as lathes, milling machines, grinding machines, drilling machines, tapping machines, boring machines, etc. In addition to general-purpose machine tools, there are NC (Numerical Control) machine tools, CNC (Computer Numerical Control) machine tools, turning centers, and machining center tools.

When machining a workpiece using a tool in a machine tool, a coolant (cutting oil) is supplied to an area where the tool contacts the workpiece, and the coolant serves to cool the tool and the workpiece and to lubricate the main shaft. It is used throughout the machining area to process the workpiece.

The coolant is stored in the coolant tank, and the coolant is supplied to a desired part through the nozzle device. The nozzle device includes a coolant pipe guiding the movement of the coolant and a nozzle for spraying coolant.

In the conventional nozzle device, the coolant pipe is made of steel pipe, and the nozzle is coupled to the end of the coolant pipe made of steel pipe. In order to change the spray angle of the coolant, a coolant made of steel pipe is used by using a separate tool. Since the angle had to be changed by forcibly bending the pipe, in this case, the work was difficult, and in particular, a separate tool was required.

In another embodiment, the nozzle device is a structure in which the coolant pipe is flexibly bent or a structure in which a plurality of nodes are connected in a ball joint form, and such a structure is easily bent in an undesired direction by the coolant injection pressure. Accordingly, there is a disadvantage that it is difficult to keep the coolant injection direction constant.

The above descriptions as background arts are only for improving understanding of the background of the present invention, and should not be taken as an admission that they correspond to the prior arts already known to those skilled in the art.

Republic of Korea Patent Publication No. 10-2015-0037433

The present invention is easy to change the spray angle of the coolant by making it easy to adjust the angle of the nozzle without the use of a separate tool, and it is possible to fix the position of the nozzle where the angle adjustment is completed. An object of the present invention is to provide a coolant nozzle device for a machine tool capable of maintaining a constant spray direction of a coolant.

Coolant nozzle device for a machine tool of the present invention for achieving the object of the above, the coolant pipe connected to the coolant tank; A connector pipe coupled to extend along the longitudinal direction of the coolant pipe; A nozzle having one end rotatably connected to the connector pipe; And a sleeve that is screwed with the connector pipe to constrain or release the rotation of the nozzle.

A first screw portion and a second screw portion are formed at one end of the coolant pipe and one end of the connector pipe; It characterized in that the connector pipe is coupled to extend along the longitudinal direction of the coolant pipe by a nut fastened to the first screw portion and the second screw portion at the same time.

A third screw portion and a fourth screw portion are formed on the other end of the connector pipe and the inner peripheral surface of the sleeve, respectively; The connector pipe and the sleeve are detachably coupled through the fastening of the third screw portion and the fourth screw portion.

A ball portion is provided at one end of the nozzle; The ball portion is rotatably connected to the connector pipe; The connector pipe and the sleeve are coupled by a screw fastening method; The sleeve is characterized in that it restrains or restrains the rotation of the ball according to the direction of rotation of the sleeve coupled to the connector pipe.

When the sleeve rotates in the direction to be coupled to the connector pipe, rotation of the nozzle is constrained as the sleeve constrains the ball portion; When the sleeve is rotated in the direction in which it is loosened on the connector pipe, the nozzle is rotatable about the ball portion as the restraint of the ball portion by the sleeve is released.

Coolant nozzle device according to the present invention, the ball portion of the nozzle by the sleeve is constrained or released by the rotation in the direction of rotation or release in the direction of coupling the sleeve to the connector pipe, the ball portion by the sleeve It is a structure that enables free rotation of the nozzle when the restraint is released, and it is possible to easily adjust the angle of the nozzle without using a separate tool, thereby greatly improving the convenience of work.

In addition, after the angle adjustment of the nozzle is completed, the rotation of the nozzle can be constrained by restraining the ball portion by the sleeve, and through this, the spray direction of the coolant can be kept constant regardless of the spray pressure of the coolant. By being there is an effect that can improve the durability of the tool and improve the quality of the workpiece.

1 is a view of a coolant nozzle device for a machine tool according to the present invention,
2 is a cross-sectional view of FIG. 1.

Hereinafter, a coolant nozzle device for a machine tool according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

Coolant nozzle device for a machine tool according to the present invention includes a coolant pipe 10 connected to the coolant tank 1, as shown in Figures 1 to 2; A connector pipe 20 coupled to extend along the longitudinal direction of the coolant pipe 10; A nozzle 30 having one end rotatably connected to the connector pipe 20; And a sleeve 40 that is screwed with the connector pipe 20 and constrains or releases the rotation of the nozzle 30.

A plurality of machine tools are installed in the workshop, and a coolant tank 1 is provided for each machine tool, and a predetermined amount of coolant is stored in the coolant tank 1.

In addition, a large-capacity coolant tank for supplying coolant to a plurality of machine tools is separately provided in the workplace, a coolant pump is provided in the large-capacity coolant tank, and a coolant tank (1) is provided in the coolant pump and the machine tool. ) Is connected through a coolant circulation hose.

Therefore, when the coolant pump is driven, the coolant stored in the large-capacity coolant tank moves along the coolant circulation hose, and when the coolant circulation hose moves along the coolant circulation hose, the valve provided in the coolant circulation hose is opened. The coolant is supplied to the coolant tank 1 provided for each machine tool, and when the valve is closed, it moves along the coolant circulation hose and then returns to the large-capacity coolant tank.

The coolant stored in the coolant tank 1 is supplied to a portion where the tool contacts the work piece through the nozzle device according to the present invention when processing a work piece using a tool in a machine tool. The nozzle device according to the present invention It is basically provided on the machine tool.

The coolant pipe 10 according to the present invention is preferably a pipe that does not cause damage or damage due to external force, and its material may be steel or aluminum or plastic having equivalent rigidity.

In the nozzle device according to the present invention, a first screw portion 11 and a second screw portion 21 are formed at one end of the coolant pipe 10 and one end of the connector pipe 20, respectively, and the first screw portion 11 and The connector pipe 20 is structured to be extended along the longitudinal direction of the coolant pipe 10 by a nut 50 that is simultaneously fastened to the second screw portion 21.

The coolant pipe 10 and the connector pipe 20 may be integrally configured, but it is preferable to be configured as a separate material as shown in the illustrated embodiment for repairing a fault so as to be a detachable coupling structure with the nut 50.

And, the other end of the connector pipe 20 and the inner circumferential surface of the sleeve 40 are formed with a third screw portion 22 and a fourth screw portion 41, respectively, so the third screw portion 22 and the fourth screw portion 41 Through the fastening of the connector pipe 20 and the sleeve 40 is configured to be detachably coupled to each other.

According to the present invention, one end of the nozzle 30 is provided with a ball portion 31 having a circular cross section, and the nozzle 30 is installed to be rotatable while the ball portion 31 contacts the other end of the connector pipe 20.

Then, when the sleeve 40 is screwed to the third screw portion 22 of the connector pipe 20, the sleeve 40 covers most of the ball portion 31, and is also screwed to the connector pipe 20. According to the rotational direction of the sleeve 40, the sleeve 40 is restrained from restricting the ball portion 31 of the nozzle 30 from being rotated, or to be able to rotate.

That is, in a state in which the sleeve 40 is screwed to the third screw portion 22 of the connector pipe 20 using the fourth screw portion 41, in the direction in which the sleeve 40 is coupled to the connector pipe 20 When rotating (rotating clockwise), the sleeve 40 constrains the ball portion 31, and at this time, the nozzle 30 is prevented from rotating due to the constraint of the sleeve 40.

Then, in a state in which the sleeve 40 is screwed to the third screw portion 22 of the connector pipe 20 using the fourth screw portion 41, in the direction in which the sleeve 40 is released from the connector pipe 20 When rotating (rotating counterclockwise), the restraint of the ball portion 31 by the sleeve 40 is released, and in this case, the nozzle 30 is freely rotatable about the ball portion 31.

And, in the nozzle device according to the present invention, a passage 60 for integrally connecting the coolant pipe 10, the connector pipe 20, and the nozzle 30 for movement of the coolant is formed therein, and the nozzle 30 ) Has a structure that is always connected to the passage of the connector pipe 20 regardless of the rotation of the nozzle 30.

The nozzles 30 shown in dashed lines in FIGS. 1 to 2 illustrate a state in which the nozzles 30 are rotated at a predetermined angle clockwise and counterclockwise around the ball portion 31.

As described above, the embodiment according to the present invention, the ball portion of the nozzle 30 by the sleeve 40 according to the rotation in the direction of rotation or release in the direction of coupling the sleeve 40 to the connector pipe 20 The structure in which the free rotation of the nozzle 30 is possible when the 31 is restrained or the restraint is released, and the ball part 31 is restrained by the sleeve 40, and the nozzle 30 is used without using a separate tool. It has the advantage of making it easy to adjust the angle, and it has the advantage of greatly improving the convenience of work.

In addition, the present invention is a structure capable of restraining the rotation of the nozzle 30 through the restraint of the ball portion 31 by the sleeve 40 after the angle adjustment of the nozzle 30 is completed, through which the injection of the coolant Since the spray direction of the coolant can be kept constant regardless of pressure, there is an advantage of improving the durability of the tool and improving the quality of the workpiece.

Although the present invention has been illustrated and described in relation to specific embodiments, it is understood in the art that the present invention may be variously improved and changed within the limits that do not depart from the technical spirit of the present invention provided by the following claims. It will be obvious to those of ordinary skill.

1-Coolant tank 10-Coolant pipe
11-1st thread part 20-Connector pipe
21-Second screw part 22-Third screw part
30-nozzle 31-ball
40-Sleeve 41-4th screw part
50-Nut 60-Passage

Claims (5)

A coolant pipe connected to a coolant tank;
A connector pipe coupled to extend along the longitudinal direction of the coolant pipe;
A nozzle rotatably connected to the connector pipe; And
Cooling nozzle device for a machine tool comprising a; sleeve that is constrained or released from the rotation of the nozzle by being screwed with the connector pipe. The method according to claim 1,
A first screw portion and a second screw portion are formed at one end of the coolant pipe and one end of the connector pipe;
Coolant nozzle device for a machine tool, characterized in that the connector pipe is coupled to extend along the longitudinal direction of the coolant pipe by a nut fastened to the first screw portion and the second screw portion at the same time. The method according to claim 1,
A third screw portion and a fourth screw portion are formed on the other end of the connector pipe and the inner peripheral surface of the sleeve, respectively;
Coolant nozzle device for a machine tool, characterized in that the connector pipe and the sleeve are detachably coupled through the fastening of the third screw portion and the fourth screw portion. The method according to claim 1,
A ball portion is provided at one end of the nozzle;
The ball portion is rotatably connected to the connector pipe;
The connector pipe and the sleeve are coupled by a screw fastening method;
Coolant nozzle device for a machine tool, characterized in that the sleeve for restraining or restraining the rotation of the ball portion according to the rotational direction of the sleeve coupled to the connector pipe. The method according to claim 4,
When the sleeve rotates in the direction to be coupled to the connector pipe, rotation of the nozzle is constrained as the sleeve constrains the ball portion;
Coolant nozzle device for a machine tool, characterized in that the nozzle is rotatable about the ball portion as the restriction of the ball portion by the sleeve is released when the sleeve is rotated in the direction in which the sleeve is loosened.

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