KR102622025B1 - Cutting oil supply device for honing machine - Google Patents

Abstract

The present invention relates to a cutting oil supply device for a honing machine, which is provided at a distance from the upper part of a honing tool coupled to the lower end of a rotating shaft and is inserted along the honing tool into the inside of a workpiece for internal diameter processing. By supplying cutting oil to the machine, it prevents the scattering of cutting oil and reduces the amount of cutting oil used. In addition, it increases cooling efficiency by ensuring that the cutting oil is delivered between the honing tool and the inner diameter of the workpiece without scattering to the outside. To this end, a rotating shaft 71 is connected to the honing tool 73 for processing the inner diameter of the workpiece 91 and rotates the honing tool 73; A vertical tube body 72 is provided to surround and protect the outer surface of the rotating shaft 71, and a support head portion 70 is fixed to the upper end of the vertical tube body 72; A cutting oil inlet hole 11 is formed in an open form on the side of the support head part 70, and is connected to the cutting oil inlet hole 11 and is provided parallel to the rotating shaft 71 on the inside of the vertical tube body 72. A cutting oil supply pipe (15); A supply regulator 30 provided at the lower end of the cutting oil supply pipe 15 to control the supply of cutting oil; The supply regulator 30 is provided at a distance from the upper side of the honing tool 73, and a cutting oil discharge hole 16 communicating with the cutting oil supply pipe 15 is formed radially on the lower surface of the supply regulator 30. A plurality of space parts 31 are formed between the cutting oil discharge hole 16 and the upper surface of the honing tool 73 when the supply regulator 30 enters the inner diameter of the workpiece 91. The cutting oil is sprayed vertically downward from the cutting oil discharge hole (16) on the upper surface of the honing tool (73) and flows between the honing tool (73) and the machining surface of the workpiece (91), thereby providing a cooling function on the machining side. It is characterized by being configured to perform.

Description

Cutting oil supply device for honing machine}

The present invention relates to a cutting oil supply device for a honing machine. More specifically, the present invention relates to a cutting oil supply device for a honing machine. More specifically, it is provided at a distance from the upper part of a honing tool coupled to the lower end of a rotating shaft and is inserted along the honing tool into the inside of a workpiece for internal diameter processing. By supplying cutting oil to the upper part of the honing tool, scattering of cutting oil is prevented and the amount of cutting oil used is reduced. In addition, cutting oil is delivered between the honing tool and the inner diameter of the workpiece without scattering to the outside, thereby cooling the workpiece. This relates to a cutting oil supply device for honing machines that improves efficiency.

In general, a honing machine refers to a device that processes the inner diameter (inner surface) of a workpiece at low speed using a honing stone made by combining abrasive particles. It fixes one or several rod-shaped honing stones on the circumference to make a tool. Use it as a tool.

The purpose of machining using a honing machine is sometimes used to remove material at a large material removal rate, but generally, it is to obtain dimensional precision and a surface of excellent quality while processing at a very small material removal rate.

In the processing of the honing machine according to the prior art, as shown in FIG. 1, the honing tool 104 connected to the rotating shaft 102 is inserted into the inside of the workpiece 106 requiring inner diameter processing, and the workpiece (106) is inserted into the inner diameter processing process. It has a structure in which cutting oil is sprayed and supplied to the upper side of the rotating shaft 102 located inside the workpiece 106 through the cutting oil injection nozzle 108 provided on the outside of the workpiece 106. In this structure, there was a problem in that the cutting oil was scattered outward and flowed down along the outer surface of the workpiece 106, resulting in a large amount of unnecessary cutting oil consumption, which resulted in a decrease in cooling efficiency.

Public Patent No. 10-2022-0054423

Accordingly, the present invention was created to eliminate the above-described problems. The honing tool is provided at a distance from the upper part of the honing tool coupled to the lower end of the rotating shaft and is inserted along the honing tool inside the workpiece for internal diameter processing. By supplying cutting oil to the upper part of the machine, scattering of cutting oil is prevented and the amount of cutting oil used can be reduced. In addition, cooling efficiency is improved by ensuring that the cutting oil is delivered between the honing tool and the inner diameter of the workpiece without scattering to the outside. It was completed as a technical task with a focus on the cutting oil supply device for the honing machine to increase the height of the honing machine.

The present invention for achieving the above technical problem includes a rotating shaft 71 that is connected to a honing tool 73 for processing the inner diameter of the workpiece 91 and rotates the honing tool 73; A vertical tube body 72 is provided to surround and protect the outer surface of the rotating shaft 71, and a support head portion 70 is fixed to the upper end of the vertical tube body 72; A cutting oil inlet hole 11 is formed in an open form on the side of the support head part 70, and is connected to the cutting oil inlet hole 11 and is provided parallel to the rotating shaft 71 on the inside of the vertical tube body 72. A cutting oil supply pipe (15); A supply regulator 30 provided at the lower end of the cutting oil supply pipe 15 to control the supply of cutting oil; The supply regulator 30 is provided at a distance from the upper side of the honing tool 73, and a cutting oil discharge hole 16 communicating with the cutting oil supply pipe 15 is formed radially on the lower surface of the supply regulator 30. A plurality of space parts 31 are formed between the cutting oil discharge hole 16 and the upper surface of the honing tool 73 when the supply regulator 30 enters the inner diameter of the workpiece 91. The cutting oil is sprayed vertically downward from the cutting oil discharge hole (16) on the upper surface of the honing tool (73) and flows between the honing tool (73) and the machining surface of the workpiece (91), thereby providing a cooling function on the machining side. It is configured to perform, and an air inlet hole 61 is further formed in an open form on the side of the support head part 70, and is in communication with the air inlet hole 61 to form a rotating shaft inside the vertical pipe body 72. An air supply pipe 62 is provided parallel to (71), and the air supply pipe 62 passes vertically through the supply regulator 30 and then is inserted into the honing tool 73, and the honing tool 73 is provided in parallel with the air supply pipe 62. It is configured to perform an air-gauge function by discharging air through a plurality of air discharge holes 64 connected horizontally to the outside of the side of (73), and the upper surface of the honing tool 73 is from the inside. A downward sloping surface is formed toward the outer edge so that the cutting oil supplied to the upper surface of the honing tool (73) moves to the outer edge along the slope and flows between the honing tool (73) and the machining surface of the workpiece (91). It is configured, the lower end of the cutting oil supply pipe 15 is located inside the supply regulator 30, and a horizontal extension pipe 15a is further connected to the outside from the lower end of the cutting oil supply pipe 15, and the horizontal extension pipe 15 is provided. A vertical extension pipe (15b) is further connected and provided downward from the end side of (15a), and a cutting oil discharge hole (16) communicating with the outside is located at the lower end of the vertical extension pipe (15b), and the vertical extension pipe (15b) It protrudes vertically downward from the cutting oil discharge hole 16 to guide the vertically lower movement path of the cutting oil discharged from the cutting oil discharge hole 16 located at the lower end of 15b), and has an inner diameter of the cutting oil discharge hole 16 ( d1) A cutting oil supply device for a honing machine is provided, which is configured to be provided with a discharge guide (40) having a discharge path formed with a smaller guide inner diameter (d2).

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According to the above-described invention, the honing tool is provided spaced apart from the upper part of the honing tool coupled to the lower end of the rotary shaft, and cutting oil is supplied to the upper side of the honing tool while it is inserted along the honing tool inside the workpiece for internal diameter machining. It has the effect of preventing cutting oil from scattering and reducing the amount of cutting oil used.

In addition, there is an effect of increasing cooling efficiency by allowing the cutting oil to be transmitted between the honing tool and the inner diameter of the workpiece without scattering to the outside.

Figure 1 is an illustration according to the prior art.
Figure 2 is an exemplary embodiment of a cutting oil supply device for a honing machine according to the present invention.
Figures 3 and 4 are exemplary diagrams of main parts of Figure 2
Figure 5 is an example of a modified implementation according to the present invention.

Hereinafter, specific details for implementing the present invention will be described in more detail with reference to the attached drawings.

The present invention is provided at a distance from the upper part of the honing tool coupled to the lower end of the rotating shaft, and coolant is supplied to the upper side of the honing tool when inserted along the honing tool inside the workpiece for internal diameter processing, thereby preventing the cutting oil from scattering. It relates to a cutting oil supply device for a honing machine that prevents and reduces the amount of cutting oil used and increases cooling efficiency by allowing the cutting oil to be delivered between the honing tool and the inner diameter of the workpiece without scattering to the outside. Referring to Figures 2 to 5, it includes a rotating shaft 71, a support head part 70, a cutting oil inlet hole 11, a cutting oil supply pipe 15, and a supply regulator 30.

In order to implement the present invention, first, as shown in FIG. 2, a rotation shaft 71 is provided that is connected to the honing tool 73 for processing the inner diameter of the workpiece 91 and rotates the honing tool 73.

The rotary shaft 71 is installed vertically to be rotated by a motor (not shown), and a honing tool 73 is coupled to the lower end of the rotary shaft 71 and rotates to process the inner diameter of the workpiece 91. .

At this time, a vertical tube body 72 is provided to surround and protect the outer surface of the rotary shaft 71, and the vertical tube body 72 is provided in a fixed form that is not linked to the rotation of the rotary shaft 71.

A support head portion 70 is provided at the upper end of the vertical pipe body 72. The support head portion 70 is a structure formed with a larger diameter than the vertical tube body 72, and a cutting oil inlet hole 11 is formed in an open form on a side of the support head portion 70, and the cutting oil inlet hole 11 is formed in an open form, Although not shown, a supply hose is connected to the inlet hole 11.

In addition, a cutting oil supply pipe 15 is provided in communication with the cutting oil inlet hole 11 and provided parallel to the rotating shaft 71 inside the vertical pipe body 72. At this time, a preparation part 12 is provided between the cutting oil inlet hole 11 and the upper end of the cutting oil supply pipe 15 to prepare a supply of cutting oil by securing a space where the cutting oil can stay. The preparation part 12 is formed in the form of a connector.

Meanwhile, a supply regulator 30 is provided at the lower end of the cutting oil supply pipe 15 to regulate the supply of cutting oil. At this time, the supply regulator 30 is provided at a distance from the upper side of the honing tool 73, and as shown in FIG. 4, there is a cutting oil discharge hole communicating with the cutting oil supply pipe 15 on the lower surface of the supply regulator 30. A plurality of (16) are formed radially so that cutting oil is evenly sprayed on the entire upper surface of the honing tool (73).

In this structure, as shown in (b) of FIG. 3, the supply regulator 30 enters the inner diameter of the workpiece 91 between the cutting oil discharge hole 16 and the upper surface of the honing tool 73. The cutting oil is sprayed vertically downward from the cutting oil discharge hole 16 in the space 31 formed in the top surface of the honing tool 73, and is sprayed between the honing tool 73 and the machining surface of the workpiece 91. It is configured to perform a cooling function on the processing side by allowing it to flow in.

Looking at the configuration of the cutting oil supply pipe 15 coupled to the supply regulator 30 in more detail, as shown in FIG. 4, the lower end of the cutting oil supply pipe 15 is located inside the supply regulator 30. , a horizontal extension pipe (15a) is further connected to the outside from the lower end of the cutting oil supply pipe (15), and a vertical extension pipe (15b) is further connected to the bottom from the end side of the horizontal extension pipe (15a), and the vertical The cutting oil discharge hole 16 communicating with the outside is located at the lower end of the extension pipe 15b.

At this time, the outer end of the horizontal extension pipe 15a is formed to communicate with the outside, and when in use, it is maintained in a closed state by the opening and closing stopper 81, and is opened and closed for removal of moving cutting oil and internal cleaning as needed. The stopper (81) can be opened.

In addition, as shown in FIG. 5, it protrudes vertically downward from the cutting oil discharge hole 16 to guide the vertically lower movement path of the cutting oil discharged from the cutting oil discharge hole 16 located at the lower end of the vertical extension pipe 15b, The discharge guide 40 having a discharge path formed with a guide inner diameter d2 smaller than the inner diameter d1 of the coolant discharge hole 16 can be configured to be coupled.

At this time, the discharge guide 40 has an edge extension portion 41 formed on the upper side based on the central inner vertical communication hole 45, and a first edge extension portion 41 is formed on the lower side of the inner end of the edge expansion portion 41. A vertical portion 42 is formed, and an inward inclined portion 43 inclined inward is formed at the lower end of the first vertical portion 42, and a second vertical portion 43 is formed vertically downward from the lower end of the inward inclined portion 43. The portion 44 is formed in such a way that the cutting oil moved through the vertical extension pipe 15b and discharged through the cutting oil discharge hole 16 is discharged vertically downward more stably along the discharge guide 40. do.

In addition, the edge extension portion 41 of the discharge guide 40 is fixed by fitting into the expansion groove portion 15c formed at the lower end of the vertical extension pipe 15b, and at this time, the coupling is performed by magnetic force or bolting. It can be done.

Meanwhile, as shown in FIG. 2, an air inlet hole 61 is further formed in an open form on the side of the support head portion 70, and is connected to the air inlet hole 61 to rotate inside the vertical pipe 72. The air supply pipe 62 is provided parallel to the shaft 71.

At this time, the air supply pipe 62 is inserted into the inside of the honing tool 73 after passing vertically through the supply regulator 30, and a plurality of air pipes are horizontally communicated to the outside of the side of the honing tool 73. It is configured to discharge air through the discharge hole 64, and is configured to perform an air-gauge function.

As a modified embodiment of the present invention described above, although not shown, the upper surface of the honing tool 73 is formed to have a downward sloping surface from the inner side to the outer edge, so that the cutting oil supplied to the upper surface of the honing tool 73 flows through the inclined surface. It can be configured to move to the outer edge along and flow between the honing tool 73 and the machining surface of the workpiece 91.

According to the cutting oil supply device of the honing machine of the present invention as described above, the honing tool is provided at a distance from the upper part of the honing tool coupled to the lower end of the rotating shaft and is inserted along the honing tool inside the workpiece for internal diameter processing. By supplying cutting oil to the upper part of the tool, scattering of cutting oil is prevented and the amount of cutting oil used can be reduced. Additionally, cooling efficiency is achieved by ensuring that the cutting oil is delivered between the honing tool and the inner diameter of the workpiece without scattering to the outside. can be increased.

The present invention described above has been described with reference to an embodiment shown in the drawings, but this is merely illustrative, and various modifications and other equivalent embodiments can be made by those skilled in the art. should be clarified. Therefore, the true technical protection scope of the present invention should be interpreted in accordance with the attached claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

11: cutting oil inlet hole 15: cutting oil supply pipe
16: cutting oil discharge hole 30: supply regulator
31: space part 70: support head part
71: Shaft 72: Vertical tube body
73: Honing tool 91: Workpiece

Claims (5)

A rotating shaft 71 connected to the honing tool 73 for processing the inner diameter of the workpiece 91 and rotating the honing tool 73; A vertical tube 72 is provided to surround and protect the outer surface of the rotating shaft 71,
A support head portion (70) fixed to the upper end of the vertical pipe body (72); A cutting oil inlet hole 11 is formed in an open form on the side of the support head part 70,
A cutting oil supply pipe (15) connected to the cutting oil inlet hole (11) and provided parallel to the rotating shaft (71) on the inside of the vertical pipe body (72);
A supply regulator 30 provided at the lower end of the cutting oil supply pipe 15 to control the supply of cutting oil; The supply regulator 30 is provided at a distance from the upper side of the honing tool 73, and a cutting oil discharge hole 16 communicating with the cutting oil supply pipe 15 is formed radially on the lower surface of the supply regulator 30. Many are formed,
In a state where the supply regulator 30 enters the inner diameter of the workpiece 91, the cutting oil discharge hole ( It is configured to perform a cooling function on the processing side by causing cutting oil to be sprayed vertically downward from 16) onto the upper surface of the honing tool 73 and flowing between the honing tool 73 and the machining surface of the workpiece 91. ,
An air inlet hole 61 is further formed in an open form on the side of the support head part 70, and is in communication with the air inlet hole 61, parallel to the rotating shaft 71 on the inside of the vertical tube body 72. An air supply pipe 62 is provided, and the air supply pipe 62 passes vertically through the supply regulator 30 and then is inserted into the inside of the honing tool 73, and is inserted into the outside of the side of the honing tool 73. It is configured to perform an air-gauge function as air is discharged through a plurality of horizontally communicated air discharge holes 64,
The upper surface of the honing tool 73 is formed with a downwardly sloping surface from the inner side to the outer edge, so that the cutting oil supplied to the upper surface of the honing tool 73 moves to the outer edge along the inclined surface, thereby forming the honing tool 73 and the outer edge. It is configured to flow between the processing surfaces of the workpiece 91,
The lower end of the cutting oil supply pipe 15 is located inside the supply regulator 30, and a horizontal extension pipe 15a is further connected to the outside from the lower end of the cutting oil supply pipe 15, and the horizontal extension pipe 15a A vertical extension pipe (15b) is further connected in the downward direction from the end side, and a cutting oil discharge hole (16) communicating with the outside is located at the lower end of the vertical extension pipe (15b),
It protrudes vertically downward from the cutting oil discharge hole 16 to guide the vertically lower movement path of the cutting oil discharged from the cutting oil discharge hole 16 located at the lower end of the vertical extension pipe 15b, and the cutting oil discharge hole 16 A cutting oil supply device for a honing machine, characterized in that it is configured to be provided with a discharge guide (40) having a discharge path formed with a guide inner diameter (d2) smaller than the inner diameter (d1) of ). delete delete delete delete

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