KR101858571B1 - Hydrostatic spindle device for a roll grinder - Google Patents

Abstract

The present invention includes a housing (110); A bearing 120 installed on both sides of the inner diameter of the housing 110; A rotation shaft 130 passing through the inner diameter of the bearing 120 and fixing the same; And a cover (140) for fixing the rotating shaft (130) to both ends of the housing (110), wherein the cooling fluid A cooling fluid outlet hole 152 is formed in the other side of the housing 110 and the cooling fluid inlet hole 151 and the cooling fluid outlet hole 152 A plurality of cooling fluid circulation pipes 150 connecting between the cooling fluid circulation pipes 150; A plurality of lubricating oil supply pipes 160 provided on the outer side of the housing 110 to provide a supply hole 161 for supplying lubricating oil to the circulation passage 121 formed in the inner diameter of the bearing 120; A plurality of lubricating oil discharge holes 171 are formed in the lower portion of the inner diameter of the housing 110 and the lubricating oil discharge holes 171 are connected to the through holes 141 formed in the lower side of the cover 140 And a lubricating oil discharge pipe 170. The present invention minimizes the deterioration occurring during the operation of the roll grinder, thereby improving the durability and service life of the roll grinder. . Particularly, the present invention has the effect of preventing severe noise and vibration due to mechanical friction occurring in the polishing process of the work roll. Further, the present invention has the effect of uniformly supplying the lubricating oil of the rotating shaft and the bearing to perform the hydrostatic pressure function.

Description

[0001] The present invention relates to a hydrostatic spindle device for a roll grinder,

The present invention relates to a hydrostatic pressure spindle device for a roll grinder, and more particularly, to a roll grinder for lubricating a work roll in a cold rolling process, wherein a lubricating function of the roll grinder is improved to minimize noise, abrasion and vibration, To a hydrostatic pressure type spindle device for a roll grinder.

Generally, a hydrostatic pressure spindle device for a roll grinder serves as a bearing to secure the rotational force of a roll grinder used to polish the surface of a work roll (rolling roll) used in a cold rolling process.

However, conventionally, deterioration due to high temperature occurs depending on the use period and work environment, resulting in a problem of shortening durability and service life.

In particular, overloading occurs in the polishing process of the work roll, and mechanical friction is concentrated, resulting in severe noise and vibration.

Further, since the lubricating oil is supplied from one direction between the rotating shaft and the bearing, there is a problem that the hydraulic pressure function can not be performed.

In addition, conventionally, the rotational accuracy of the rotary shaft deteriorates while the hydrostatic pressure function is lowered, thereby causing a problem that the defective rate of the polishing operation increases.

Korean Registered Utility Model No. 20-0438113 (2008.01.22.) Korean Patent No. 10-0799259 (Jan. 30, 2008) Korean Patent No. 10-1496584 (Feb. 26, 2015). Korean Patent No. 10-1560795 (Oct. 15, 2015).

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

An object of the present invention is to provide a hydrostatic pressure spindle device for a roll grinder that circulates a cooling fluid inside a housing and uniformly supplies lubricating oil to the surface of a bearing to maximize heat resistance and lubricity.

It is another object of the present invention to provide a hydrostatic pressure spindle device for a roll grinder which can smoothly discharge lubricating oil to the outside to improve circulation efficiency.

In order to achieve the above object, the present invention provides a hydrostatic pressure spindle device for a roll grinder,

A housing 110; A bearing 120 installed on both sides of the inner diameter of the housing 110; A rotation shaft 130 passing through the inner diameter of the bearing 120 and fixing the same; And a cover (140) for fixing the rotating shaft (130) through both ends of the housing (110). The hydrostatic spindle device (100)

A cooling fluid inlet hole 151 is formed in one side of the housing 110 and a cooling fluid outlet hole 152 is formed in the other side of the housing 110. The cooling fluid inlet hole 152 is formed in the housing 110, A plurality of cooling fluid circulation pipes (150) connecting the cooling fluid discharge holes (151) and the cooling fluid discharge holes (152); A plurality of lubricating oil supply pipes 160 provided on the outer side of the housing 110 to provide a supply hole 161 for supplying lubricating oil to the circulation passage 121 formed in the inner diameter of the bearing 120; A plurality of lubricating oil discharge holes 171 are formed in the lower portion of the inner diameter of the housing 110 and the lubricating oil discharge holes 171 are connected to the through holes 141 formed in the lower side of the cover 140 And a lubricating oil discharge pipe (170).

The circulation passage 121 is formed in a zigzag manner around the inner diameter of the bearing 120 and supplied through the lubricating oil supply pipe 160. The lubricating oil circulated through the circulation passage 121 is discharged through the lubricating oil discharge hole 171, .

Particularly, the supply hole 161 is radially arranged when viewed from the side, and is connected to the circulation passage 121.

INDUSTRIAL APPLICABILITY The present invention minimizes the deterioration occurring during the operation of the roll grinder, thereby improving durability and service life.

Particularly, the present invention has the effect of preventing severe noise and vibration due to mechanical friction occurring in the polishing process of the work roll.

Further, the present invention has the effect of uniformly supplying the lubricating oil of the rotating shaft and the bearing to perform the hydrostatic pressure function.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view showing a configuration of a hydrostatic pressure spindle device for a roll grinder of the present invention. FIG.
2 is a sectional view taken along the line AA in Fig.

As described above, the construction of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a cross-sectional view showing the configuration of a hydrostatic pressure spindle device for a roll grinder of the present invention, and Fig. 2 is a sectional view taken along line A-A in Fig.

The present invention includes a housing (110); A bearing 120 installed on both sides of the inner diameter of the housing 110; A rotation shaft 130 passing through the inner diameter of the bearing 120 and fixing the same; And a cover (140) for fixing the rotating shaft (130) through both ends of the housing (110). The hydrostatic spindle device (100)

A cooling fluid inlet hole 151 is formed in one side of the housing 110 and a cooling fluid outlet hole 152 is formed in the other side of the housing 110. The cooling fluid inlet hole 152 is formed in the housing 110, A plurality of cooling fluid circulation pipes (150) connecting the cooling fluid discharge holes (151) and the cooling fluid discharge holes (152); A plurality of lubricating oil supply pipes 160 provided on the outer side of the housing 110 to provide a supply hole 161 for supplying lubricating oil to the circulation passage 121 formed in the inner diameter of the bearing 120; A plurality of lubricating oil discharge holes 171 are formed in the lower portion of the inner diameter of the housing 110 and the lubricating oil discharge holes 171 are connected to the through holes 141 formed in the lower side of the cover 140 And a lubricating oil discharge pipe 170.

Particularly, the cooling fluid circulation pipe 150 is a means for minimizing deterioration of the housing 110, which occurs during the polishing process of the work roll, and supplies the cooling fluid through the cooling fluid inflow hole 151 from the outside And discharges the cooling fluid through the cooling fluid discharge hole 152 to perform a cooling function.

The cooling fluid may be water, nitrogen gas, or the like.

Here, the cooling fluid circulation pipe 150 is formed in the housing 110 so as to circulate in the form of an ice-surrounding screw, so that the cooling fluid circulates and the cooling efficiency can be improved.

The outer diameter of the cooling fluid circulation pipe 150 is coated with a refractory material such as a castable and then inserted into a mold, and then the housing 110 is manufactured in a casting manner to improve the heat resistance.

The lubricant supply pipe 160 supplies lubricant between the rotating shaft 130 and the bearing 120 to induce the rotating shaft 130 to perform a hydraulic pressure function.

At this time, a known power transmission means such as a pulley or a sprocket may be installed on one side of the rotating shaft 130 and rotated by a rotational force transmitted from the outside.

Here, the outer diameter of the rotating shaft 130 is made smaller than the inner diameter of the bearing 120 so that the lubricating oil can circulate.

That is, the lubricating oil layer is formed between the outer diameter of the rotating shaft 130 and the inner diameter of the bearing 120, so that the rotating shaft 130 rotating at a high speed can rotate without friction and resistance.

At this time, the circulation passage 121 is formed in a zigzag manner around the inner diameter of the bearing 120, so that the lubricating oil can circulate smoothly.

In particular, the supply holes 161 are radially arranged when viewed from the side, so that they can be connected to the circulation passage 121 to uniformly supply the lubricating oil.

The lubricating oil discharge pipe 170 is a means for discharging the remaining lubricating oil to the outside of the housing 110. The lubricating oil collected through the lubricating oil discharging hole 171 passes through the lubricating oil discharge pipe 170, Can be discharged to the outside through the discharge port (141).

Accordingly, the present invention improves the hydraulic pressure and lubrication function of a roll grinder for polishing a work roll, thereby minimizing noise, abrasion, and vibration, thereby maximizing work efficiency.

Although the embodiments of the present invention have been described in detail, it is to be understood that the scope of the present invention is not limited to the disclosed embodiments. The scope of the present invention is not limited by the scope of the present invention. Do.

100: Hydrostatic pressure type spindle device for roll grinder of the present invention
110: housing 120: bearing
121: circulation passage 130:
140: cover 141: through hole
150: cooling fluid circulation pipe 151: cooling fluid inflow hole
152: cooling fluid discharge hole 160: lubricating oil supply pipe
161: Supply hole 170: Lube oil discharge pipe
171: Lubricant discharge hole

Claims (3)

A housing 110; A bearing 120 installed on both sides of the inner diameter of the housing 110; A rotation shaft 130 passing through the inner diameter of the bearing 120 and fixing the same; And a cover (140) for fixing the rotating shaft (130) through both ends of the housing (110). The hydrostatic spindle device (100)
A cooling fluid inlet hole 151 is formed in one side of the housing 110 and a cooling fluid outlet hole 152 is formed in the other side of the housing 110. The cooling fluid inlet hole 152 is formed in the housing 110, A plurality of cooling fluid circulation pipes (150) connecting the cooling fluid discharge holes (151) and the cooling fluid discharge holes (152); A plurality of lubricating oil supply pipes 160 provided on the outer side of the housing 110 to provide a supply hole 161 for supplying lubricating oil to the circulation passage 121 formed in the inner diameter of the bearing 120; A plurality of lubricating oil discharge holes 171 are formed in the lower portion of the inner diameter of the housing 110 and the lubricating oil discharge holes 171 are connected to the through holes 141 formed in the lower side of the cover 140 And a lubricating oil discharge pipe 170. The cooling fluid circulating pipe 150 is formed in the inside of the housing 110 in a casting manner after a refractory material is applied to an outer diameter of the circulating pipe 150, 121 are formed in a zigzag manner around the inner diameter of the bearing 120 and are supplied through the lubricating oil supply pipe 160 and discharged through the lubricating oil discharge hole 171 through the circulation passage 121, The supply hole 161 is radially arranged when viewed from the side and connected to the circulation passage 121. The lubricant supply pipe 160 supplies lubricant between the rotation shaft 130 and the bearing 120, (130) performs the hydrostatic pressure function And a known power transmission means such as a pulley or a sprocket is installed at one side of the rotary shaft 130 so that the rotary shaft 130 can be rotated by a rotational force transmitted from the outside. So that a lubricant layer is formed between the outer diameter of the rotating shaft 130 and the inner diameter of the bearing 120 so that the rotating shaft 130 rotating at a high speed rotates without friction and resistance Wherein the spindle unit is a spindle unit. delete delete

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