KR101602579B1 - A device for assembling a pressure part panel of a boiler in a thermal power plant and Method for installing thereof - Google Patents

Abstract

The present invention relates to a device for assembling a pressure part of a boiler in a thermal power plant, comprising: a steel structure having a working space therein to assemble a pressure part panel of a boiler; a bottom assembling stand provided on a floor of the working space of the steel structure to assemble the pressure part panel; and a temporary assembling stand provided in the working space of the steel structure and fixedly coupled to the steel structure having a predetermined interval from the bottom assembling stand to assemble the pressure part panel, wherein the steel structure comprises a first and a second steel frame part which form an assembling space having a predetermined space therebetween, and the temporary assembling stand is formed in a rectangular panel shape, and of which a pair of edges facing each other is coupled to the first and second steel frame parts.

Description

Technical Field [0001] The present invention relates to a pressure subassembly apparatus for a boiler for thermal power generation and a method of constructing a pressure subassembly using the same,

The present invention relates to an apparatus for assembling a pressure part of a boiler for thermal power generation and a method of constructing a pressure part using the same, and more particularly, to a device for assembling a pressure part made of a pipe for generating steam in a thermal power generation boiler, ≪ / RTI >

Generally, a turbomachine such as a steam turbine or a gas turbine is used as a power generating device for converting thermal energy of a fluid into rotary power, which is a mechanical energy, for thermal power generation.

Steam turbines generate electricity by rotating a generator by connecting a high pressure (HP) turbine, a medium pressure (IP) turbine, and a low pressure (LP) turbine in series or in parallel. Will be different. A steam turbine is driven to generate a boiler for generating steam at high temperature and high pressure.

The boiler for thermal power generation is a system that supplies steam to the turbine system at high pressure, and a pressure part composed of a plurality of pressure part panels is installed inside the steel structure.

The pressure part panel is assembled from the outside of the steel structure and then transferred to the interior of the steel structure or assembled with the material inside the steel structure. As shown in FIG. 1, the pressure unit panel P is installed by moving the rope R to one end of the steel structure 101 and lifting the rope R by a pulling mechanism, and vertically moving it to an installation position.

Here, when assembling the pressure part panel P from outside the steel structure 101, it is not easy to carry it into the inside of the steel structure 101. In case of assembling inside the steel structure 101, It is not possible to assemble a plurality of pressure part panels P at the same time by bringing a large amount of assembly materials and equipment into a narrow space.

Therefore, since the entire pressure part panel P is installed in such a manner that one pressure part panel P is assembled and installed at a time, and another pressure part panel P is assembled and installed again, There is a problem that it takes.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the conventional pressure assembly unit of a boiler for thermal power generation as described above and can shorten the assembly time of the pressure unit by simultaneously assembling a plurality of pressure unit panels in the steel structure And a pressure subassembly device for a boiler for thermal power generation.

In order to accomplish the above object, the present invention provides a pressure assemble device for a boiler for thermal power generation, comprising: a steel structure having a work space for assembling a pressure part panel of a boiler therein; A lower assembly for mounting the pressure unit panel, and a lower assembling unit provided in the working space of the steel frame structure and fixedly coupled to the steel frame structure at a predetermined interval above the lower assembling unit, Wherein the steel frame structure includes a first steel frame part and a second steel frame part which form an assembly space at a predetermined interval from each other, the gash adjustment part is formed in a square panel shape, and a pair of opposed square panels And an edge is coupled to the first steel frame part and the second steel frame part.

In the pressure assemble device of the boiler for thermal power generation according to the present invention, the gist of the boiler is installed in the lower portion of the boiler, And is provided stepwise with respect to the assembly stand.

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In the apparatus for assembling a pressure vessel of a boiler for thermal power generation according to an embodiment of the present invention, the goggles stand includes a horizontal frame in a direction transverse to the first and second steel frame portions, As shown in FIG.

In the apparatus for assembling a pressure vessel of a boiler for thermal power generation according to an embodiment of the present invention, the steel structure may include a first material inlet for supplying the assembly material through the lower assembly, And a second material entry port.

The second material entry opening is provided on the opposite side of the first material entry opening with the gap therebetween.

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As described above, according to the pressure assembling apparatus of the boiler for thermal power generation according to the present invention, the assembly time of the pressure unit can be shortened by simultaneously assembling the plurality of pressure unit panels inside the steel structure supporting the boiler, The entire construction period of the boiler can be shortened.

1 is a schematic perspective view illustrating a process of installing a pressure unit of a boiler for thermal power generation according to a related art,
FIG. 2 is a perspective view illustrating a pressure part assembling apparatus of a boiler for thermal power generation according to an embodiment of the present invention. FIG.
Fig. 3 is a rear view of Fig. 2,
Figure 4 is a top plan view of Figure 2,
5 is a schematic cross-sectional view cut along line AA of FIG. 4,

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 to 5, a pressure assembly unit for a boiler for thermal power generation according to an embodiment of the present invention includes a steel structure 10 having a work space for assembling a pressure unit panel of a boiler, A lower assembly 20 for assembling the pressure part panel, and a goggle stand 30.

The steel structure 10 is a truss structure made of H beams and includes a first steel frame part 12 and a second steel frame part 13 provided at a predetermined interval from each other.

A space between the first and second steel members 12 and 13 forms a work space 11 and a lower assembly 20 and a tearing platform 30 are provided in the work space 11 .

The lower assembly 20 is provided at the bottom of the work space 11 of the steel structure 10 and the mounting platform 30 is provided at an upper portion of the lower assembly 20 at a predetermined interval. The lower assembly 20 is not fixed to the steel structure 10 but is provided at the bottom of the work space 11 while the gasholder 30 is fixedly coupled to the steel structure 10.

The cooperating plate 30 is formed in a rectangular panel shape, and a pair of facing edges of the rectangular panel shape are fixedly coupled to the first and second steel frame parts 12 and 13. The lower assembling stand 20 and the goggle stand 30 are both work platforms for assembling the pressure part panel. When one pressure sub-panel is assembled in the lower sub-assembly 20, another pressure sub-panel can be assembled at the same time.

Since the temporary fixing part 30 is temporarily provided for the assembling work, the pressure part is disassembled after the completion of the pressure part. For this purpose, it is preferable that the coarse graining band 30 is flanged to the first steel frame part 12 and the second steel frame part 13 by bolts.

It is needless to say that various methods such as welding in addition to flange bonding by bolts can be applied. Even in the case of welding, it is preferable to perform light welding to such an extent that the welding portion can be easily cut.

The cohesion preventive band 30 includes a horizontal frame 31 installed in a direction crossing the first and second steel frame portions 12 and 13, an assembly panel portion 32 provided on the upper portion of the horizontal frame 31, .

A plurality of horizontal frames 31 are provided parallel to each other at a predetermined interval and both ends of each horizontal frame 31 are bolted to the first and second steel frame portions 12 and 13. The horizontal frame 31 may apply H beams.

The cohesion preventive band 30 is provided stepwise with respect to the lower assembly 20. The pressure part panel assembled in the lower assembling stand 20 and the assembling stand 30 is lifted up to the ceiling of the steel structure 10 to complete the pressure part. A pulling space 16 is formed on the upper side of the lower assembling bar 20 and in front of the overlapping bar 30 so as to be lifted up.

As described above, the lower assembly 20 and the tacking and lowering stand 30 are arranged in a stepwise manner to form the pulling space 16 so that the pressure part panel assembled in the lower assembly 20 is pulled up to the ceiling of the steel structure 10 . The pressure part panel assembled horizontally in the lower assembly 20 is lifted upwards by being pulled up and fastened to one side of the pressure part panel. When the pressure part panel of the lower assembly 20 is pulled by the stepped structure, it collides against the visor stand 30 and does not cause interference.

The steel structure 10 is provided with a first material inlet 14 for supplying the assembled material to the lower assembly 20 and a second material inlet 15 for supplying the assembled material to the arresting platform 30 Respectively.

The first material inlet 14 and the second material inlet 15 are formed on opposite sides. The first material inlet 14 is formed on the front side of the lower assembly 20 and the second material inlet 15 is provided on the opposite side of the first material inlet 14 with the interposer 30 interposed therebetween.

The assembly material is introduced from the outside of the steel structure 10 through the first material inlet 14 into the lower assembly 20. Meanwhile, the hoist of the crane can be taken in and out of the pulling space 16 formed in front of the gauzhole reed 30, and the assembled material can be dropped to the upper part of the lower assembly 20.

The second material inlet 15 is formed at the rear of the tearing platform 30 so that the assembly material can be introduced into the tearing platform 30 from behind the steel structure 10.

2 to 5, a method of constructing a pressure portion of a boiler for thermal power generation will be described.

First, the steel frame structure 10 is assembled so as to secure a working space 11 for assembling the pressure part panel inside.

When the steel structure 10 is completed in the steel frame mounting step, a lower assembly 20 and a tacking plate 30 are installed on the bottom of the working space of the steel structure 10 to assemble the pressure part panel.

It is also possible to install the lower assembling stand 20 after the temporary attaching step 30 is installed in the assembling stand installation step and to mount the lower assembling stand 20 before the temporary attaching stand 30.

When installing the tacky-abrasive table 30 in the assembly stage, it is necessary to adjust the installation height (height) so as to be stepwise shifted from the lower assembly table 20 so as to avoid interference during the pulling operation, And the horizontal position.

When the lower assembly 20 and the tacking plate 30 are completed, the pressure assembly panel is assembled in the lower assembly 20 and the tacking plate 30, respectively. It is possible to mount the pressure part panel constituting the pressure part in both the lower assembling stand 20 and the goggle stand 30, but the mass assembly is mainly performed in the lower assembling stand 20, It is also possible to assemble small parts of the parts.

When the pressure sub-panel is assembled in the lower assembling stand 20 and the abutment stand 30, each pressure sub-panel is lifted up to the ceiling of the steel structure to assemble the pressure portion. In the lower assembling stand 20 and the goggle stand 30, the pressure part panel is assembled continuously until the pressure part is completed, and is pulled up to the pressure part and raised and lowered.

When all of the pressure sub-panels are assembled and lifted up, the pressure build-up is completed, the vapor deposition stand 30 is disassembled from the steel structure 10. The lower assembly 20 can be disassembled or the lower assembly 20 itself can be pulled out of the steel structure 10 and removed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious that the modification or the modification is possible by the person.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: Steel Structure
11: Workspace
12: first steel frame part
13: second steel frame part
14: First material entry
15: 2nd material entry
16: Towing space
20: Lower assembly
30:
31: Horizontal frame
32: Assembly panel section

Claims (8)

A steel structure having a work space for assembling the pressure sub-panel of the boiler therein;
A lower assembly provided at the bottom of the working space of the steel structure for assembling the pressure part panel; And
And a clasp for fixing the pressure part panel to the steel frame structure at a predetermined interval on an upper part of the lower part of the steel structure,
Wherein the steel structure includes a first steel frame part and a second steel frame part which form an assembly space at a predetermined interval from each other,
The jigger-
Wherein a pair of opposing edges of the rectangular panel shape is formed in a rectangular panel shape and is coupled to the first and second steel frame parts. The apparatus according to claim 1,
Wherein the pressure assembly panel is provided stepwise with respect to the lower assembly such that a pulling space for lifting the pressure unit panel assembled in the lower assembly assembly to the ceiling of the steel structure is formed. delete delete The apparatus according to claim 1,
A horizontal frame bolted to the first steel frame part and the second steel frame part in a direction transverse to the first steel frame part and the second steel frame part; And
An assembling panel provided on the horizontal frame for assembling the pressure unit panel;
And a pressure unit assembly unit for the boiler for thermal power generation. 2. The steel structure according to claim 1,
And a second material inlet for supplying the assembled material through the lower assembly, and a second material inlet for supplying the assembled material by the second joint. 7. The apparatus of claim 6,
Wherein the second material inlet is provided on the opposite side of the first material inlet with the gap therebetween. delete

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