KR102493383B1 - Regulator for rolling stand choc gap - Google Patents

Abstract

The present invention relates to a regulator for a rolling stand chock gap, in which a spring is installed in a rolling stand chock installed for a rolling operation so as to raise or lower a pressure screw nut to adjust the gap between rolls to a desired value. The present invention prevents cooling water and scale from entering a rolling stand chock device, so that a low failure rate and a smooth operation improve the productivity, resulting in a remarkable economic effect.

Description

STAND CHOC Gap Adjuster {Regulator for rolling stand choc gap}

The present invention relates to a rolling stand chock (STAND CHOC) gap adjusting device, and more particularly, to prevent cooling water and scale from penetrating into a rolling stand chock, thereby reducing failure, smooth operation, and improving productivity, thereby providing an economical rolling stand chock ( STAND CHOC) Gap Adjuster.

STAND CHOCK, which is currently applied and used for rolling operation, is an example of a conventional patented technology, Publication No. 10-1991-0002561. The worms 9 and 10 of the worm shaft 8 mesh with the worm gear 11 supported in the axial direction. , The worm gear is anti-rotation and is engaged with the threaded portion 18 of the adjusting screw 17 movable in the longitudinal direction and the worm shaft 8 engaged with its internal screw In the adjusting device for adjusting the choke on the roll stand , The worm shaft 8 has two worms 9 and 10, and each worm 9 and 10 are symmetrically arranged on the worm shaft 8 and meshed with the worm gear 11 facing each other, and each worm gear 11 ) is connected in a tight manner, and the free end of the adjustment screw 17 supports the common platen 24 and is connected to the platen in an anti-rotational manner (home pin 21). Patent Publication Registration No. 10-0643172 A rolling roll chock 40 having a bearing 30 is installed on the driving shaft 10 on which the rolling roll 20 is installed as a shaft, and a retainer 50 maintaining a distance between the bearings 30 A retainer ( In the rolling roll choke sealing structure of the rolling mill composed of the V-ring 70 and the oil chamber S mounted on 50), the first contact surface 62 formed in the direction of the drive shaft and the first It is connected to the outer end of the contact surface 62 and integrally provided with a second contact surface 64 having an outer diameter smaller than the outer diameter thereof, and the inner diameter of the retainer 50 is the first and second First and second oil chambers 82 and 84 having different inner diameters are mounted on the contact surfaces 62 and 64 so as to come into contact with each other, and the V-rings 70 are connected in the drive shaft direction of the labyrinth ring 60. As disclosed in the rolling roll choke sealing structure of the rolling mill, characterized in that the spring ring groove 72 is formed in its outer diameter so that the garter spring 90 that elastically compresses and seals the opposite surface is mounted, structurally BOTTO It is a structure that is easy for cooling water and microscale to penetrate into the balance cylinder of M CHOCK.

Therefore, there are many failure times such as cylinder sticking due to coolant and fine scale, oiling loss, and hydraulic pipe damage. In addition, there is a problem that causes rolling failure and product defects due to unbalancing of the left and right heights of the rolling roll.

Therefore, the present invention has been made to solve the above problems, and the penetration of cooling water and scale into the rolling stand choke device is prevented, resulting in less failure, smooth operation, and improved productivity. Economical STAND CHOC gap adjustment It is intended to provide a device.

The present invention relates to a rolling stand chock (STAND CHOC) gap adjusting device, characterized in that a spring is installed in a rolling stand chock installed in a rolling operation to raise or lower a pressure screw nut to adjust the gap between rolls to a desired value. to be

Therefore, the present invention has a remarkable economical effect because the penetration of cooling water and scale into the rolling stand choke (STAND CHOC) device is prevented, resulting in fewer breakdowns, smooth operation, and improved productivity.

1 is a block diagram of a rolling stand choke (STAND CHOC) gap adjusting device of the present invention
Figure 2 is a detailed view of the rolling stand choke (STAND CHOC) gap adjusting device of the present invention
Figure 3 is a detailed view of the rolling stand choke (STAND CHOC) gap adjusting device of the present invention
Figure 4 is an assembly flow chart of the rolling stand choke (STAND CHOC) gap adjusting device of the present invention
5 is a conventional rolling stand choke (STAND CHOC) gap adjusting device

The present invention relates to a rolling stand chock (STAND CHOC) gap adjusting device, and a spring is installed in a rolling stand chock installed in a rolling operation to raise or lower a pressure screw nut to adjust the gap between rolls to a desired value. characterized by matching.

In addition, it is characterized in that the control lever is coupled to the pressure screw nut.

In addition, the pressure screw nut pushes the top chock downward, and at this time, the spring of the top chock contracts, and the distance from the bottom chock is adjusted to create a gap.

The present invention will be described in detail with reference to the accompanying drawings. Figure 1 is a rolling stand choke (STAND CHOC) apparatus configuration diagram of the present invention, Figure 2 is a detailed view of the rolling stand choke (STAND CHOC) apparatus of the present invention, Figure 3 is a detailed view of the rolling stand choke (STAND CHOC) apparatus of the present invention 4 is an assembly flow chart of the rolling stand choke (STAND CHOC) device of the present invention.

In the present invention, the left and right roll height balance is adjusted using a hydraulic balance cylinder installed in the BOTTOM CHOCK.

The controller is composed of a storage unit and a control unit, and the sensor is implemented as a length sensor and a pressure sensor. Rolling Stand Chock Spring Type

Adjust the gap between Roll-Roll to the desired value by raising or lowering the Pressure Screw Nut of the Screw Down Device.

The screw down device control lever rotates once, the pressure screw nut

rises or falls by 0.173 mm.

The pressure screw nut pushes the top chock downward, and at this time, the spring of the top chock contracts and the distance from the bottom chock is adjusted to create a gap.

#11~16 Stand Gap is different for each standard and stand, so adjust until the desired gap is achieved.

The stroke of the spring installed on the top chock is 32.5mm, and a separate block suitable for the roll diameter is provided.

The present invention consists of a structure in which a spring is inserted into the top chock and then a piston is installed to push and support the bottom chock. A piston is installed on the top chock to prevent penetration of cooling water and scale.

In addition, the present invention installs an optical sensor to measure the gap, which is the separation distance, and the sensor transmits a signal to the control unit, and the control unit compares the set value stored in the storage unit through the comparison unit and drives the screw nut motor to rotates to lower the upper choke to close the gap.

In addition, when two pairs of upper and lower chokes having the same configuration and shape are installed in two stages at the front and rear, when the gap at the front end has a deviation of more than the set value than the gap at the rear end, the screw nut motor is driven to rotate the screw nut to remove the upper choke. Decrease or increase the gap.

In addition, when a pair of upper and lower chokes of the same configuration and shape is set as one stage, several stages are installed in the forward and backward direction, and if any one of the multiple stages is out of the set value, the control unit calculates the gap value of one stage out of the set value is automatically adjusted, but the degree of reducing the gap value of one stage out of the set value is adjusted in real time by reflecting the changed gap values of the other stages.

Therefore, the present invention has a remarkable economical effect because the penetration of cooling water and scale into the rolling stand choke (STAND CHOC) device is prevented, resulting in fewer breakdowns, smooth operation, and improved productivity.

10: Rolling stand chock
1: spring 2: pressure screw nut
11: upper choke (top choke) 12: lower choke (down choke)
13: upper choke (top choke) piston 14: lower choke (down choke) block
20: screw down device
30: balance cylinder

Claims (3)

A spring is installed in the rolling stand choke 10 installed in the rolling operation to raise or lower the pressure screw nut 2 to adjust the gap between the rolls to the desired value. The pressure screw nut 2 has an adjustment lever combined, the pressure screw nut 2 pushes the top chock downward, and at this time, the spring 1 of the top chock contracts and the distance with the bottom chock is adjusted, In the rolling stand choke gap adjusting device that creates a gap, which is the separation distance,
An optical sensor for measuring the gap, which is the separation distance, is installed, and the optical sensor transmits a signal to the control unit of the controller, and the control unit compares the set value stored in the storage unit of the controller through the comparison unit, and when it is out of the set value, the pressure screw nut motor is driven to rotate the pressure screw nut to lower the upper choke to reduce the gap,
In addition, when two pairs of upper and lower chokes of the same configuration and shape are installed in two stages at the front and rear, when the front gap has a deviation greater than the set value than the rear gap, the control unit drives the screw nut motor to rotate the screw nut. The gap is reduced or increased by lowering the upper choke, and the controller adjusts the gap value of one stage out of the set value, but reduces the gap value of one stage out of the set value by reflecting the changed gap values in the other stage. Rolling Stand Choke Gap Adjuster delete delete

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