KR102017188B1 - Apparatus for preventing rotation of piston in gas holder - Google Patents

Abstract

Provided is an apparatus for preventing rotation of a piston of a gas holder, which effectively absorbs external impact applied to a piston of a gas holder to prevent rotation and deviation from a slope of a piston so as to stably operate the gas holder. The apparatus of the present invention comprises: a guide bracket installed on a post for guiding vertical movement of a piston of a gas holder to be moved with the piston; a fixing bracket horizontally connected to the guide bracket, and installed at an upper portion of a guide roller moved along the post with the piston; a rotation preventing unit rotatably installed at a rear side of the fixing bracket to prevent rotation of the piston through a weight; and a shock absorbing unit installed between the guide bracket and the fixing bracket to absorb an external shock applied to the gas holder to alleviate the shock transmitted to the guide bracket and the fixing bracket.

Description

Piston anti-rotation device for gas holder {APPARATUS FOR PREVENTING ROTATION OF PISTON IN GAS HOLDER}

Disclosed is a piston anti-rotation device which prevents movement of a piston by mitigating an impact applied to a piston of a gas holder.

In general, Coke Oven Gas (COG) holder (HOLDER) is a dry facility, the piston is reciprocated up and down according to the flow rate of the gas generated in the coke plant, depending on the pressure of the coke by-product gas for the accumulation or discharge It is supposed to move up and down.

In order to reduce the frictional heat generated between the piston and the side wall during the vertical movement of the piston and to prevent the leakage of the accumulated coke by-product gas, a seal oil device for sealing the gas is formed to form an appropriate oil film in the side wall of the holder. It is installed on the outside of the.

The piston of the gas holder rises to the gas pressure of the lower side to keep the piston floating on the gas. A guide roller device is installed to prevent the piston from being inclined in one direction and the inclination thereof is deviated. In addition, an anti-rotation device is installed to prevent the piston from rotating in the left and right directions.

The piston is repeatedly raised and lowered while maintaining the floating state on the gas. At this time, if an excessive force is applied to the piston by an external impact, the piston is loaded. Accordingly, there is a problem in that the oil of the seal oil device is drawn in one direction and the inclination of the piston deviates.

As the piston does not absorb the shock by the external shock applied to the gas holder as described above, the piston deviates from the inclination. Deviation of the piston causes a fatal failure of the gas holder.

In particular, when a large impact such as an earthquake is applied to the gas holder, the anti-rotation device that fixes the piston is separated, causing a problem of damage to the equipment.

The present invention provides a piston holder preventing rotation of the gas holder, which is configured to stably operate the gas holder by effectively absorbing external shocks applied to the piston of the gas holder to prevent rotation and tilting of the piston.

Piston anti-rotation device of the gas holder, the guide bracket which is installed in the support for guiding the piston shangdong of the gas holder is moved along with the piston, connected in a horizontal direction with respect to the guide bracket to move along the support with the piston Fixed bracket is installed on the upper guide roller is rotatably installed in the rear of the fixed bracket to prevent the rotation of the piston through the weight, and is installed between the guide bracket and the fixed bracket the gas holder It may include a shock absorbing portion for absorbing the external shock applied to the mitigating the shock transmitted to the guide bracket and the fixed bracket.

The shock absorbing part is a fixed bar installed on the guide bracket, a fixed bar guide surrounding the rear outer side of the fixed bar, a cylinder installed on the outside of the fixed bar guide to receive the fixed bar guide to move, and the fixed While installed in contact with the rear end of the bar guide may include an elastic member installed inside the cylinder to mitigate the impact applied by the fixed bar guide.

The shock absorbing unit may further include a tension control unit installed on the front of the fixed bar guide to adjust the tension of the fixed bar guide by adjusting the distance to the guide bracket.

The elastic member may include a plurality of cone springs having a compressive force inside the cylinder.

The cone spring may be a structure for adjusting the compressive force of the shock absorbing unit according to the number of installation.

The shock absorbing part is interposed between the first plate fixed to the guide bracket, the second plate fixed to the fixing bracket at intervals from the first plate, and between the first plate and the second plate of the guide bracket. It may include a plurality of shock absorbing member for absorbing the shock.

The shock absorbing member is a fixed bar installed on the first plate, a fixed bar guide surrounding the outside of the rear of the fixed bar, connected to the second plate is installed on the outside of the fixed bar guide to move the fixed bar guide And a plurality of cone springs installed in contact with the rear end of the fixed bar guide to accommodate the cylinder, and the shock springs applied to the fixed bar guide.

The shock absorbing member may be connected to the upper portion of the guide roller through a connecting bracket to mitigate the impact of the guide roller.

According to this apparatus, the shock applied to the piston of the gas holder can be absorbed to stably fix the piston, and the operation of the steel mill facility can be effectively operated by preventing the inoperability of the gas holder due to external shock.

In addition, it is possible to protect the gas holder by absorbing the shock applied to the piston and the rotation preventing device of the gas holder to prevent damage of the rotation preventing device.

1 is a view schematically showing a piston anti-rotation device of the gas holder according to the present embodiment.
2 is a view schematically showing the shock absorbing portion of the piston anti-rotation device according to the present embodiment.
3 is a view schematically showing the structure of the shock absorbing unit according to the present embodiment.
4 is a view schematically showing a state in which the shock absorbing unit is installed in the piston anti-rotation device according to the present embodiment.
5 is a view schematically showing a state in which the shock absorbing member according to the present embodiment is installed on the upper guide roller of the piston.

The terminology used below is merely to refer to specific embodiments, and is not intended to limit the present invention. As used herein, the singular forms “a,” “an,” and “the” include plural forms as well, unless the phrases clearly indicate the opposite. As used herein, the meaning of “comprising” embodies a particular characteristic, region, integer, step, operation, element, and / or component, and other specific characteristics, region, integer, step, operation, element, component, and / or group. It does not exclude the presence or addition of.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art can easily understand, the embodiments described below may be modified in various forms without departing from the concept and scope of the present invention. Accordingly, the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a view schematically showing a piston anti-rotation device of the gas holder according to the present embodiment. 2 is a view schematically showing the shock absorbing portion of the piston anti-rotation device according to the present embodiment.

As shown in FIG. 1 and FIG. 2, the piston 200 is installed inside the gas holder 100 containing the coke by-product gas, and the piston 200 rotates at a point facing each other outside the piston 200. Piston anti-rotation device (1) is installed to prevent.

The lower portion of the piston anti-rotation device (1) is connected to the guide roller (2) which is raised / lowered together with the piston (200). The piston anti-rotation device 1 and the guide roller 2 may be raised / lowered together. The lower portion of the guide roller 2 is provided with a seal oil device 3 for gas sealing by forming an appropriate oil film in the side wall of the gas holder 100.

The piston 200 inside the gas holder 100 is connected to the piston anti-rotation device 1, the guide roller 2, and the seal oil device 3 through a structure.

In the present embodiment, the piston anti-rotation device (1) is installed on the support (100a) for guiding the shanghaidong of the piston 200 of the gas holder 100 is moved to the guide bracket (10) with the piston 200 ), A fixed bracket 20 which is connected to the guide bracket 10 in a horizontal direction and installed on an upper portion of the guide roller 2 moving along the support 100a with the piston 200, and the fixed bracket It may include a rotation preventing portion 30 which is rotatably installed at the rear of the 20 to prevent the rotation of the piston 200 through the weight 31.

In addition, the piston anti-rotation device 1 is installed between the guide bracket 10 and the fixing bracket 20 to absorb external shock applied to the gas holder 100 to fix the guide bracket 10. It may further include a shock absorbing portion 40 to mitigate the shock transmitted to the bracket 20.

The shock absorbing unit 40 is attached to the piston anti-rotation device 1 to absorb the external shock applied to the gas holder 100 to fix the piston anti-rotation device 1 fixing the piston 200. I can protect it.

When an external impact is applied to the gas holder 100, first, an impact is transmitted to a support 100a installed at intervals in the circumferential direction of the gas holder 100, and the guide roller is installed at the support 100a. An impact is applied to the guide bracket 10 which is lifted / lowered together with (2).

At this time, the shock absorbing portion 40 buffers the shock transmitted through the guide bracket 10 to absorb the shock applied to the piston anti-rotation device 1. Accordingly, the anti-rotation part 30 of the piston anti-rotation device 1 may be separated to prevent the piston 200 from rotating. In addition, it is possible to prevent the piston anti-rotation device 1 from being damaged by the impact.

The shock absorbing part 40 includes a fixed bar 41 installed on the guide bracket 10, a fixed bar guide 42 surrounding the rear outer side of the fixed bar 41, and a fixed bar guide 42. A cylinder 43 installed at an outer side to movably receive the fixed bar guide 42, and installed in the rear end of the fixed bar guide 42 to be installed inside the cylinder 43 to fix the guide bar ( 42) may include an elastic member to mitigate the impact applied.

The shock absorbing part 40 may cushion the impact applied to the outside by the elastic member embedded in the cylinder 43 through the elastic member. The fixed bar guide 42 sliding along the fixed bar 41 is advanced by an external impact to compress the elastic member. An external shock may be absorbed through the compressive force of the elastic member.

In addition, the shock absorbing portion 40 is installed on the front of the fixed bar guide 42, the tension adjusting unit 44 for adjusting the tension of the fixed bar guide 42 by adjusting the distance to the guide bracket 10. ) May be further included.

The tension adjusting unit 44 is assembled to the front of the fixed bar guide 42 to move along the fixed bar 41 together with the fixed bar guide 42. As the guide bracket 10 is pushed by the external impact, the tension adjusting part 44 is pushed, and the tension adjusting part 44 is pushed to move the fixing bar guide 42.

The tension adjusting unit 44 may be adjusted in accordance with the distance (a) to the front surface of the cylinder 43. If the distance (a) of the tension control unit 44 and the cylinder 43 is small, the tension is kept small, and if the distance (a) of the tension control unit 44 and the cylinder 43 is large, the tension Can maintain a large state. The tension control unit 44 may be designed by calculating the impact that the gas holder 100 receives.

In the present embodiment, the elastic member may include a plurality of cone springs 45 having a compressive force inside the cylinder 43. The cone spring 45 may be a structure for adjusting the compressive force of the shock absorbing portion 40 according to the number of installation.

That is, the shock absorbing part 40 cannot be designed as a general spring because it must absorb a very large impact such as an earthquake. The elastic member of the shock absorbing portion 40 is made of a cone spring 45 can absorb a strong shock.

The cone spring 45 is produced by cutting a cone-shaped plate, the compressive force is determined according to the thickness of the plate. The cone spring 45 is installed in pairs to adjust the compressive force of the shock absorbing portion 40 according to the number of installation.

The larger the number of cone springs 45 installed in the cylinder 43, the greater the compressive force.

3 is a view schematically showing the structure of the shock absorbing unit according to the present embodiment. 4 is a view schematically showing a state in which the shock absorbing unit is installed in the piston anti-rotation device according to the present embodiment.

As shown in FIGS. 3 and 4, the shock absorbing part 40 is spaced from the first plate 40a and the first plate 40a fixed to the guide bracket 10 and the fixing bracket ( A plurality of shock absorbing members 40c interposed between the second plate 40b fixed to 20 and the first plate 40a and the second plate 40b to absorb the shock of the guide bracket 10. ) May be included.

That is, the shock absorbing part 40 may be installed in the piston anti-rotation device 1 to absorb external shock applied to the gas holder 100. The shock absorbing part 40 may be installed between the guide bracket 10 installed on the support 100a of the gas holder 100 and the fixing bracket 20 installed on the piston anti-rotation device 1. .

The shock absorbing part 40 may be provided with a plurality of shock absorbing members 40c between the first plate 40a and the second plate 40b to form a structure. The shock applied to the guide bracket 10 may be absorbed by the shock absorbing member 40c to protect the piston rotation preventing device 1.

The shock absorbing member 40c may be designed to vary the compressive force according to its installation position. When the shock absorbing portion 40 includes a pair of shock absorbing members 40c, the shock absorbing member 40c having a large compressive force is disposed at a position where the shock absorbing member 40c is expected to be subjected to a greater shock, and the impact less than that In the expected position, the shock absorbing member 40c having less compressive force may be disposed.

The shock absorbing member 40c is connected to a fixed bar installed on the first plate 40a, a fixed bar guide 42 surrounding the rear outer side of the fixed bar 41, and the second plate 40b. Installed outside the fixed bar guide 42, the cylinder 43 for receiving the fixed bar guide 42 to be movable, and installed in contact with the rear end of the fixed bar guide 42 inside the cylinder 43 It may include a plurality of cone springs 45 which are installed in the mitigation bar guide 42 to mitigate the impact applied.

The shock absorbing member 40c has a structure in which a plurality of cone springs 45 are installed in the cylinder 43. The shock absorbing member 40c may adjust its compression force according to the number of cone springs 45. When an impact is applied to the gas holder 100, the fixed bar guide 42 compresses the cone spring 45 to absorb an external impact through its compression force.

5 is a view schematically showing a state in which the shock absorbing member according to the present embodiment is installed on the upper guide roller of the piston.

As shown in FIG. 5, the shock absorbing member 40c may be connected to the upper portion of the guide roller 2 through a connecting bracket 50 to mitigate the impact of the guide roller 2.

That is, the shock absorbing member 40c is installed in front of the piston anti-rotation device 1 connected to the support of the gas holder 100 to absorb external shock applied to the gas holder 100. At the same time, the shock absorbing member 40c is also connected to the guide roller 2 through the connecting bracket 50 to absorb the shock applied to the guide roller 2.

Since the piston anti-rotation device 1 and the guide roller 2 continuously move up / down along the support 100a of the gas holder 100, the shock absorbing member 40c prevents the Can be protected together.

Therefore, by absorbing the shock applied to the piston 200 of the gas holder 100 through the shock absorbing portion 40 of the piston anti-rotation device (1), it is possible to stably fix the piston 200, the outside It is possible to effectively operate the steel mill facility by preventing the operation of the gas holder 100 due to the impact in advance.

By absorbing the shock applied to the piston 200 and the piston anti-rotation device 1 of the gas holder 100 to prevent damage to the piston anti-rotation device 1 can protect the gas holder 100, the The piston structure and the guide roller 2 connected thereto can be protected from external impact.

While the exemplary embodiments of the invention have been illustrated and described as described above, various modifications and other embodiments may be made by those skilled in the art. Such modifications and other embodiments are all considered and included in the appended claims, without departing from the true spirit and scope of the invention.

1: Piston anti-rotation device 2: Guide roller
3: seal oil device 10: guide bracket
20: fixing bracket 30: anti-rotation part
31 weight 40: shock absorbing part
40a: first plate 40b: second plate
40c: shock absorbing member 41: fixed bar
42: fixed bar guide 43: cylinder
44: tension adjustment unit 45: cone spring
50: connection bracket
100: gas holder 100a: prop
200: piston

Claims (8)

A guide bracket installed on a support for guiding the piston shangdong of the gas holder and moved together with the piston;
A fixing bracket connected to the guide bracket in a horizontal direction and installed on an upper portion of the guide roller moving along the support with the piston;
A rotation preventing part rotatably installed at the rear of the fixing bracket to prevent rotation of the piston through a weight; And
A shock absorbing part installed between the guide bracket and the fixing bracket to absorb external shock applied to the gas holder to mitigate the shock transmitted to the guide bracket and the fixing bracket.
Including,
The shock absorbing unit,
Fixing bar installed on the guide bracket,
A fixed bar guide surrounding a rear outer side of the fixed bar,
A cylinder installed outside the fixed bar guide to move the fixed bar guide in a movable manner;
An elastic member which is installed in contact with the rear end of the fixed bar guide and is installed inside the cylinder to mitigate an impact applied by the fixed bar guide;
Is installed on the front of the fixed bar guide piston prevention device of the gas holder including a tension control unit for adjusting the tension of the fixed bar guide by adjusting the distance to the guide bracket. delete delete The method of claim 1,
And the elastic member includes a plurality of cone springs having a compressive force in the cylinder. The method of claim 4, wherein
The cone spring is a piston holder of the gas holder of the gas holder of the structure for adjusting the compression force of the shock absorbing portion according to the number of installation. The method of claim 1,
The shock absorbing part is interposed between the first plate fixed to the guide bracket, the second plate fixed to the fixing bracket at intervals from the first plate, and between the first plate and the second plate of the guide bracket. Piston anti-rotation device of the gas holder including a plurality of shock absorbing members for absorbing the shock. The method of claim 6,
The shock absorbing member is a fixed bar installed on the first plate, a fixed bar guide surrounding the outside of the rear of the fixed bar, connected to the second plate is installed on the outside of the fixed bar guide to move the fixed bar guide And a plurality of cone springs provided in the cylinder while being installed in contact with a rear end of the fixed bar guide to accommodate the cylinder, and a plurality of cone springs to mitigate the impact applied by the fixed bar guide. The method of claim 6,
The shock absorbing member is connected to the upper portion of the guide roller through a connecting bracket to prevent the piston holder of the gas holder of the structure to mitigate the impact of the guide roller.

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