KR20230075782A - A scafold platform for a RFCC regenerator - Google Patents

Abstract

The present invention proposes a repairing platform capable of performing upper and lower work, which is used in an RFCC regenerator. A lower support part (10) of the present invention is seated between an air dome (4) and an air arm (6) inside. An upper support part (20) is disposed above the lower support part (10) and consists of at least one pair of support rings for supporting a scaffold for work and a plurality of radial members (21, 23) for connecting the support rings in a radial direction. A plurality of connecting members (30) structurally connect the lower support part (10) and the upper support part (20). The lower support part (10), the support rings and the radial members (21, 23) of the upper support part (20), and the connecting members (30) are assembled with bolts and nuts to be able to be disassembled. The lower support part (10), the support rings and the radial members (21, 23) of the upper support part (20), and the connecting members (30) consist of a plurality of members, which are also assembled with bolts and nuts to be able to be disassembled.

Description

A scafold platform for a RFCC regenerator}

The present invention relates to an apparatus for internal maintenance of a fluid catalytic cracking (RFCC) regenerator, and more particularly, an operation for maintenance of the upper part of an air dome in the catalyst regenerator and an upper operation thereof, For example, it relates to a maintenance platform configured to simultaneously perform maintenance and the like of a heat-resistant material.

A fluid catalytic cracking (RFCC) regenerator can be said to regenerate a catalyst in a state in which carbon is bound by use. Inside the regenerator, an air dome and an air arm are installed in connection with the supply of oxygen for regeneration of the catalyst. In general, for internal maintenance of such a regenerator, a worker enters the inside through a manhole of the regenerator shell and performs the work.

In general, a worker entering the shell through a manhole performs a predetermined task on the air dome. In addition, it can be said that it is not desirable to separately repair the heat-resistant material above the air dome while the work is in progress for safety. That is, it can be said that it is not desirable for safety to simultaneously perform maintenance work from above and below.

However, if a safe system for work can be secured, it is natural to say that it is efficient to work simultaneously from the top and bottom. For this, it is natural that safety for the work above the air dome should be sufficiently secured.

The present invention is to propose a platform for efficient maintenance and repair inside a fluid catalytic cracking (RFCC) regenerator.

According to the configuration of the maintenance platform of the fluid catalytic cracking regenerator of the present invention, the lower support is installed to be seated between the air dome and the air arm inside the fluid catalytic cracking regenerator. The upper support portion is disposed above the lower support portion, and includes at least one pair of support rings for supporting the scaffold for work, and a plurality of radial members connecting the support rings in a radial direction. And the connecting member is composed of a plurality of structurally connecting the lower support portion and the upper support portion. Here, the lower support part, the support ring of the upper support part, the radial member, and the connecting member are assembled so as to be disassembled by bolts and nuts. In this way, the support ring, the radial member, and the connecting member of the upper and lower supports are composed of a plurality of members, and these members are also assembled to be disassembled by bolts and nuts.

According to another embodiment of the present invention, at least some of the radial members extend to the center, and a central upper plate and a central lower plate are installed on the upper and lower surfaces of the inner end of the radial member, and the central lower plate has a central pipe whose lower end contacts the upper surface of the air dome. installed

According to another embodiment of the present invention, the lower support portion is composed of a circular pipe, and the upper support portion is composed of a circular pipe.

According to the repair platform of the fluid catalytic decomposition regenerator of the present invention having the above configuration, repair work related to the air dome and the air arm can be quickly performed at the top of the air dome, and at the same time, a scaffold installed on the upper support. In this case, you can expect the advantage of being able to simultaneously carry out work such as repairing the heat-resistant layer inside the shell.

The lower support part is molded into a circular pipe and can be most stably seated between the air dome and the air arm. And since the upper support is made using H-beams, it can be structurally the safest and is expected to support the scaffolding more stably. The connecting member can be structurally simply installed by using a rectangular pipe to stably support the upper support portion and the lower support portion to each other.

In addition, according to the present invention, the lower support portion, the support ring and the radial member of the upper support portion, and the connecting member are assembled so as to be disassembled by bolts and nuts. At the same time, it can be seen that the support ring, the radial member, and the connecting member of the lower support part and the upper support part are composed of a plurality of members, and these members can also be disassembled and assembled using bolts and nuts. This configuration means that assembly and disassembly are substantially convenient inside the shell, and thus, the convenience of use is substantially secured.

1 is a perspective view showing a state in which a maintenance device according to the present invention is installed inside a regenerator;
Figure 2 is an exemplary perspective view of the maintenance device of the present invention.
Figure 3 is an exemplary cross-sectional view of the maintenance device of the present invention.

Next, the present invention will be described in detail based on the embodiments shown in the drawings.

As shown in FIG. 1, an air dome 4 and an air arm 6 are installed in the shell 2 of the catalyst regenerator to supply air necessary for catalyst regeneration. One air dome (4) installed in the central portion has a circular shape when viewed from a plan view, and a plurality of air arms (6) are disposed around the entire circumference of the air dome (4).

The maintenance platform (F) of the present invention is installed on such an air dome (4). In addition, the air dome 4 transports a plurality of members to the inside through an entrance (manhole) (not shown) formed in the shell 2, and then bolts a plurality of parts inside the shell 2. And it is completed inside the shell 2 by assembling it into one whole assembly using nuts, and when used inside the shell 2, it is dismantled and taken out to the outside.

As can be seen with reference to FIGS. 2 and 3, the platform of the present invention is made at a position spaced upward from the lower support 10 placed on the air dome 4 and the lower support 10, It includes an upper support part 20 for supporting the scaffold. And the lower support part 10 and the upper support part 20 are connected by a plurality of connecting pipes 30.

Here, the lower support part 10, as shown in FIG. 1, can be said to be a ring-shaped member molded so as to be supported in the groove part formed at the part where the air dome 4 and the air arm 6 come into contact. . The lower support 10 is preferably made of a circular pipe in consideration of the above-described installation location. And the lower support portion 10 is formed of a plurality of parts, for example, it may be composed of arc-shaped parts of a size that can enter and exit the manhole (entrance) of the shell 2.

As described above, since the platform of the present invention must be configured to be assembled and disassembled as a whole, it is actually designed to be assembled and disassembled by bolts and nuts. The lower support 10 composed of circular pipes is made using a plurality of arc-shaped pipes. For example, flanges extending radially are made at both ends of the arc-shaped pipes, and the flanges of both arc-shaped pipes are connected with a plurality of bolts and By fastening with a nut, the lower support 10 of a circular pipe shape as a whole can be completed. It can be seen that FIG. 3 shows such a flange 10F as an example.

In addition, the upper support portion 20 may be referred to as a part for installing and supporting a scaffold for a worker, and such an upper support portion 20 is also made in a plurality (at least two or more) circular shapes. The upper support portion 20 is preferably made of an H-beam in consideration of the scaffolding and structural strength to be installed. Here, the flat part (flange) of the H-beam is installed facing upward.

The upper support portion 20 includes a plurality of circular support rings 22, 24, and 26 having different diameters, and a plurality of circular support rings 22, 24, and 26 installed in a radial direction and connecting the above-described plurality of circular support rings 22, 24, and 26 to each other. It includes radial members 21 and 23, and it is preferable that they are all made of H beams as described above. In the illustrated embodiment, the support rings 22, 24, and 26 are composed of three, but need not be limited to this embodiment, and may be configured as a pair if they can support the scaffold on the top.

And, the support rings 22, 24, and 26 having different diameters are completed in a ring shape by connecting a plurality of arc-shaped members to each other. For example, by connecting a plurality of arc-shaped members made of H-beams with bolts and nuts, it is made circular as a whole. That is, the plurality of arc-shaped members for forming the outermost first support ring 22, the middle second support ring 24, and the innermost third support ring 26, respectively, use bolts and nuts. It is assembled so that it can be disassembled.

For example, a common bracket is installed on the connection part (upper or lower surface) of each arc-shaped member, and these brackets and the flange part of the arc-shaped member on both sides are fastened with a plurality of bolts and nuts to form a circle as a whole. The support rings 22, 24 and 26 will be completed. At this time, the common bracket is preferably installed on the flange (plane portion) of the arc-shaped member, and may be mounted on at least one side of several upper and lower surfaces.

As described above, the support rings 22, 24, and 26 can be formed to have an exact circular shape as a whole by connecting a plurality of arc-shaped members made of H beams, and the first support ring 22 and the It can be seen in FIG. 2 that the two support rings 24 are formed by a plurality of arc-shaped members.

And it can be seen that the innermost support ring 26 is made by, for example, arranging a plurality of linear members (10 in the illustrated embodiment) in a circular shape and bolting. As shown in FIG. 3, a trolley support part (Ts) for supporting the troller (T) may be installed at the lower end of the first support ring (22). This trolley support portion may also have a shape such as an H-beam, and is used to move heavy parts to the manhole side using a trolley.

These support rings 22, 24, and 26 are connected to each other by a plurality of radial members 21 and 23 disposed in a radial (or radial) direction. For example, a plurality of first radial members 21 extending to the center of the ring member are connected to the upper portion of the first support ring 22 by means of bolts. For example, this means that the flange of the first support ring 22 and the flange of the first radial member 21 are connected to each other with bolts and nuts.

And according to the illustrated embodiment, the outer end of the first radial member 21 is fixed while being placed on the first support ring 22, and the inner end extends to the center portion. The second radial member 23 connects the third support ring 26 from the first support ring 22, and connects between the first support ring 22 and the second support ring 24, The connection between the 2 support rings 24 and the 3 support rings is configured to be arranged in a line.

The first radial member 21 and the second radial member 23 have a substantially linear shape disposed in the radial direction and are alternately disposed. And the first radial member 21 extends to the center portion of the support rings 22, 24, and 26. As shown in FIG. 3, the inner end of the first radial member 21, that is, the upper and lower inner ends of the first radial member 21 corresponding to the center of the support ring has a circular or ring shape made of a plate, respectively. The central upper plate 42 and the central lower plate 44 are fixed.

As described above, the central upper plate 42 and the lower central plate 44 are also detachably coupled by bolts and nuts. In addition, an auxiliary central lower plate 46 is installed on the lower surface of the lower central plate 44, and the lower end is designed to support the central pipe 40 contacting the center of the upper surface of the air dome 4. A plurality of members described above, for example, the three support rings 22, 24, 26 and the lower support portion 10 are preferably made by combining a plurality of members.

In addition, all of the components composed of a plurality of in this way and the connection between the components composed in this way are all made by bolts and nuts. This can be said to be for disassembly and assembly. For example, it can be seen that the connection between the second radial member 23 and the second support ring 24 is made of a plurality of bolts and nuts using brackets. At this time, in consideration of installing brackets that can cover adjacent members in common with each other, it is preferable that adjacent members are connected while forming a plane with each other.

Here, it can be said that it is more preferable in terms of structural strength that the member connecting the central top plate 42 from the first support ring 22, that is, the first radial member 21 is composed of one. However, it is obvious that it is not limited thereto. As described above, a plurality of connection pipes 30 are installed between the upper support part 20 and the lower support part 10 to maintain structural strength in the upper and lower parts.

It is preferable to use a square pipe as the connecting pipe 30 in terms of structural strength and convenience of assembly. The connection of the square pipe connecting pipe 30 also uses bolts and nuts. For example, it is preferable to connect the radially extending flanges 40F of the square pipe to each other with bolts and nuts.

The upper end of the connecting pipe 30 is fastened to the flat bottom surface of the first support ring 22 using bolts and nuts. It is desirable to make a bracket that can be achieved in advance. In addition, the flange 40F provided at the lower end of the connection pipe 30 is a square pipe extending upwards, which is pre-made in the arc-shaped pipe of the corresponding lower support 10, and the flange of the upper end is fastened with bolts and nuts. it is desirable

Such a connection pipe 30 is composed of a plurality of pieces, for example, a first connection pipe 32 connecting the lower support portion 10 and the second radial member 23 to each other, the lower support portion 10 and the first connection pipe 32. It may be composed of a pair of second connection pipes 34 and 36 connecting the inner and outer portions of the radial member 21, respectively. It is natural that the first connection pipe 32 and the second connection pipes 34 and 36 are alternately installed.

In the present invention as described above, the plurality of support rings 22, 24, and 26, the plurality of radial members 21 and 23, and the plurality of connecting members 30 are disassembled by using bolts and nuts to enable disassembly. It is configured to be assembled. In addition, it can be seen that each of the plurality of support rings 22, 24, and 26, the plurality of radial members 21 and 23, and the plurality of connecting members 30 are composed of a plurality of parts, and in this way one member is formed. Even when composed of multiple pieces, it can be seen that they are designed to be disassembled by assembling each part with bolts and nuts.

It goes without saying that FIGS. 1 to 3 and the above description based thereon are substantially only one embodiment of the present invention. Various modifications are possible within the technical scope of the present invention described through these embodiments will be sufficiently possible for those skilled in the art, of course. Therefore, after registration, it can be said that the scope of protection of the present invention should be interpreted based on the description of the claims, as well as the purpose of the provisions of the Patent Act.

10 ..... lower support
20 ..... upper support
21, 23 ..... radial member
22, 24, 26 ..... Support ring
32, 34, 36 ..... Connection pipe

Claims (4)

A lower support 10 seated between the air dome 4 and the air arm 6 inside the fluid catalytic decomposition regenerator;
An upper support portion 20 disposed above the lower support portion 10 and including at least one pair of support rings for supporting a working scaffold and a plurality of radial members 21 and 23 connecting the support rings in a radial direction. ); and
It consists of a plurality of connecting members 30 structurally connecting the lower support 10 and the upper support 20;
The lower support 10, the support ring of the upper support 20, the radial members 21 and 23, and the connecting member 30 are disassembled and assembled by bolts and nuts, and the lower support 10 and the upper support The support ring, the radial members 21 and 23, and the connecting member 30 of (20) are composed of a plurality of members, and these members are also assembled to be disassembled by bolts and nuts. platform for maintenance.
The method of claim 1, wherein at least some of the radial members (21) extend to the center, and a central upper plate and a central lower plate are installed on the upper and lower surfaces of the inner ends of the radial member (21), and the lower central plate is in contact with the upper surface of the air dome. A platform for maintenance of a fluid catalytic cracking regenerator on which the central pipe 40 is installed.
The platform for maintenance of a fluid catalytic cracking regenerator according to claim 1, wherein the lower support portion (10) is composed of a circular pipe.
The platform for maintenance of a fluid catalytic cracking regenerator according to claim 1, wherein the upper support portion (20) is composed of a circular pipe.

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