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CN1250129A - Construction working method for nuclear electric power generation installation - Google Patents

Construction working method for nuclear electric power generation installation Download PDF

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Publication number
CN1250129A
CN1250129A CN99119389A CN99119389A CN1250129A CN 1250129 A CN1250129 A CN 1250129A CN 99119389 A CN99119389 A CN 99119389A CN 99119389 A CN99119389 A CN 99119389A CN 1250129 A CN1250129 A CN 1250129A
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China
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factory building
mentioned
construction
bridge crane
nuclear reactor
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CN99119389A
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CN1109176C (en
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佐藤丰
小岛慎介
横山茂树
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Toshiba Corp
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Toshiba Corp
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E30/00Energy generation of nuclear origin

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Abstract

To provide a construction method for a reactor power facility capable of shortening the construction period of whole reactor power facility, reducing the number of large cranes placed, executing the construction avoiding weather effects and improving accessibility of workers to the underground floors and preventive remedy for oxygen depletion from the beginning of construction. A steel structure constituting a part of a reactor building is constructed with steel columns 15a and 15b and steel beams 16. A running rail 12 for ceiling crane is placed by utilizing the steel structure. A ceiling crane is placed on the running rail 12. Thus, the construction material and the like are carried with the ceiling crane 10 from the beginning of the construction of the reactor power facility.

Description

The construction job practices of nuclear electric power generation facility
The present invention relates to the construction job practices of nuclear electric power generation facility, relate in particular to the construction job practices of nuclear reactor factory building.
Referring now to Figure 12 to Figure 14, is the construction job practices that example illustrates original nuclear electric power generation facility with boiling water type nuclear electric power generation facility.Figure 12 is the principal works progress chart of the construction program of the nuclear reactor factory building in the expression nuclear electric power generation facility.And Figure 13 is the skiagraph of the nuclear reactor factory building state of expression in the process of construction, and Figure 14 is a skiagraph of representing the nuclear reactor factory building that builds up substantially.
As shown in figure 12, relate to the engineering of the construction of nuclear reactor factory building 1, be divided into following two parts substantially: the one, the engineering A (hereinafter referred to as construction work) of construction factory building; The 2nd, the engineering B (hereinafter referred to as electromechanical engineering) of installation plant equipment and electric fixtures in factory building.Construction work A is: at first excavated earth is till making the laccolite of nuclear reactor factory building foundation thereon, and carry out laccolite and check C1, then, from build floor wall engineering A2, the roof working A3 etc. of floor (ground) and wall etc. successively to the factory building upper strata as the heelpiece engineering A1 of nuclear reactor factory building foundation.
On the other hand, electromechanical engineering B is: when the Foundation Design D of nuclear reactor pressure container (RPV) finishes, machine and pipeline etc. is moved into inside, then, progress along with construction work A, along with the progress that bottom engineering E, the RPV of nuclear reactor safety shell (PCV) installs C2, RPV internal construction thing engineering F etc., carry out machine engineering B1, piping engineering B2 and the electrical engineering B3 of each layer of factory building successively from factory building lower floor.Then, adjust, make armamentarium all can guarantee its performance.After these engineerings finish, carry out fuel in the inverse nuclear reaction core pressure vessel and load C3, carry out after the system test G, be running beginning H.
Followingly specifically describe project situation with reference to Figure 13 and Figure 14.
Nuclear reactor factory building 1 is the building that the equipment to direct processing radioactive substance supports, and is necessary condition owing to guarantee not to be subjected to seismic damage, so, use rigid structures, its basis must be set directly on the firm laccolite 2.Therefore, under the very dark situation of the construction place of nuclear reactor factory building 1 laccolite 2, the excavation of ground surface etc. will proceed to till the laccolite 2.And in the construction work of nuclear reactor factory building 1, after being produced on the laccolite 2 as the heelpiece 3 of factory building foundation, the factory building orlop from this heelpiece 3 begins to build principal post and girder class 4 and ground and the wall supporting with it as factory building main structure body.And for the pedestal (RPV basis) 7 that directly supports RPV6 also being set directly on the heelpiece 3 by laccolite 2 supportings, its construction speed parallels with factory building principal post and girder class 4 etc.
Engineering about nuclear reactor factory building 1 inner machinery, pipe arrangement and the electric fixtures of installing, adopt such method, promptly except that main equipments such as PCV5, generally, the construction work of nuclear reactor factory building 1 proceeds to respectively to a certain degree at each layer of factory building, the wall of each layer of factory building and the intensity of ceiling are able to install after machinery, pipeline and the electric fixtures, begin respectively to move into and install machinery equipment.And, in order to improve the mechanical efficient of machinery equipment and pipeline etc., also can adopt such method, promptly when each layer ceiling placing of concrete, with reinforcing bar and deck panels as mould plate, before this ceiling mould plate engineering, equipment to be installed is transported on the floor that has abundant intensity, before reaching requirement, the dull and stereotyped intensity of ceiling just can begin mechanical engineering earlier.
In the construction work A and electromechanical engineering B of the nuclear reactor factory building 1 of nuclear electric power generation facility, in roomy factory building scope, arrange many big and small machinery equipments, and, this plant engineering goods and materials amount is very big, so be provided with the transport crane of the inside and outside contact of factory building, i.e. goliaths such as pillar crane 8 that only uses at construction period and crawler crane 9, be used for above-mentioned machinery equipment moved in the factory building and install, so that the engineering goods and materials are moved into and taken out of, perhaps above-mentioned machinery equipment is transported in the factory building in advance.
Moreover, in the nuclear reactor factory building 1 of nuclear electric power generation facility, as the equipment of factory building main body works and fuel and the equipment relevant with fuel in the RPV6 are installed mainly, in order mainly in RPV6, to handle materials etc., building later stage installation bridge crane 10 as shown in figure 14 simultaneously with fuel treatment ground (running operation floor) 11.This bridge crane 10 is installed upward from running operation floor 11, and, owing to itself be quite heavy machine, so, as mentioned above, after the dull and stereotyped and wall on this of running operation floor 11 and ceiling built up by wall and ceiling engineering, crane 10 was installed on the crane runway set on the wall side face portion 12.Roof 13 is erected at the top of bridge crane 10.And later on for guaranteeing dynamo-electric construction works, installing engineering (the RPV internal construction thing engineering) F that carries out with the nuclear reactor internal works is the main purpose construction project.
Moreover special open job practices described in the clear 64-61688 communique and construction job practices shown in Figure 15 are adopted in the construction of the nuclear electric power generation facility in past.
It is after the ground of nuclear reactor factory building the superiors floor has formed mobile job crane to be arranged on the ground of this superiors' floor that the spy opens the described method of clear 64-61688 communique.
Moreover Figure 15 is the figure of the construction job practices of expression nuclear electric power generation facility in the past, and this is so-called all-weather construction method.After basic heelpiece 32 constructions of nuclear reactor factory building 31 finish, at first set up framework reinforcing bar post 33, many interim crane runways 34 and interim crane 35 are installed on this framework reinforcing bar post 33, utilize this interim crane 35 and be installed in outdoor interim goliath 36, carry out moving into and installing engineering of various goods and materials and equipment.The nuclear reactor factory building 31 of Jian Sheing because dismountable roof 37 has been installed, is provided with exterior wall maintenance tarpaulin (not having diagram) like this, covered by roof 37 and exterior wall maintenance tarpaulin, so, weatherproof, can construct in nuclear reactor factory building 31 inside, be the all-weather construction method.
According to this all-weather construction method, construction work is with the engineering of moving into of moving into engineering and electromechanical equipment of materials, use interim crane 35, or use is arranged on outdoor interim goliath 36, for the time being dismountable roof 37 is removed, goods and materials and equipment, nuclear reactor safety casing component and other electromechanical equipments that construction work is used are moved in the factory building, after moving into, reused interim goliath 36 roof 37 that is removed is restored.
Interim crane 35 has about elevating capacity below 5 tons, and the maximum loading that interim goliath 36 has is about the elevating capacity more than 100 tons.
Figure 12 is to the building method in past shown in Figure 14, and as mentioned above, bridge crane 10 is terminal stages of factory building engineering, and promptly the later stage of construction period installs, after this with regard to entry into service.So by the period of the system test G before the filling of RPV internal construction thing engineering F decision fuel, the Other Engineering that this project time limit carried out than the same time is late.So have decisive role to rebuilding the whole duration duration of runs of bridge crane 10.
Moreover, can consider just to utilize bridge crane 10 to come carrying large machine etc. from the initial stage of building.But, according to the construction job practices in past, utilize bridge crane 10, the terminal stage of construction work A in earlier stage can not be utilized bridge crane 10 by the time.Therefore, before bridge crane 10 entrys into service, goliaths such as gadget pillar crane 8 that uses in the time of must construction work A being installed and crawler crane 9 are as handbarrows such as machinery equipment and construction goods and materials.
About the installation of goliath, must have and fill enough working spaces so that it is assembled and dismantles, when it is dismantled at that time because along with the progress building of engineering builds up, so may be difficult to guarantee enough working spaces.Moreover, goliaths such as pillar crane 8 and crawler crane 9 since be arranged on outdoor, so be subject to the influence of weather, may be because of weather former thereby be difficult to use.Usually, construction work A with and the goliath used of electromechanical engineering B prepare respectively, but when construction, must coordinate, in order to avoid construction work is affected with crane and the electromechanical engineering scope of application with crane.
Moreover, under the situation of the nuclear reactor factory building 1 of building the nuclear electric power generation facility, require the heelpiece 3 as factory building foundation is arranged on the laccolite 2, but in general laccolite 2 is mostly in underground very dark place, and the stability for factory building also is embedded to underground to factory building sometimes, in these cases, must excavate ground surface, the underground lowest level of nuclear reactor factory building 1 is in liftoff surperficial depths more than 20 meters.
At such workshop building construction initial stage, the path that the construction operation personnel enter operation field generally all uses interim stair equipment (not having diagram).But because the distance from ground surface to underground lowermost layer is very long, so operating personnel's burden is bigger.And when the underground construction operation, worry the anoxic accident, must take into full account the air-conditioning equipment when building, therefore need very big expense.
Moreover all-weather construction method shown in Figure 15 is because weatherproof, so all be effectively for the construction work of factory building and the installing engineering of moving into of electromechanical equipment.Therefore, the construction work of nuclear reactor factory building and electromechanical equipment moves into that installing engineering is staggered to be carried out.That is to say that interim crane 35 is used in moving into of low weight materials, is used to build moving into of goods and materials.When weight surpasses 5 tons the moving into of goods and materials approximately, use and be installed in outdoor interim goliath 36, because the position of moving into is limited, and the weight goods and materials above 5 tons approximately is also a lot, so be restricted, interim goliath 36 that sometimes need not be outdoor just can't be moved into.
Moreover, when utilizing outdoor interim goliath 36 to move into goods and materials, must partly or wholly dismountable roof 37 be pulled down and restore.When pulling down roof 37, must guarantee that there is interim placement place on the roof 37 that is removed.Though in the narrow and small power plant of floor space or the site area that can place is arranged, the ability of goliath 36 is difficult to carry out demolition works when not enough temporarily.
And even the roof has recloser, perhaps semi-automatic or manual mode can be slided in the horizontal direction, yet has following problem.
That is to say, when utilizing outdoor interim goliath 36 to move into, be subjected to wind and rain and snowy the influence.Promptly only when calm or gentle breeze, could utilize goliath 36 that dismountable roof 37 is removed, materials are moved into, again roof 37 be restored after having removed.But the initial stage can not be pulled down roof 37 when wind is big, causes project schedule delay.Even slidable roof though can open and close the roof, can not use goliath 36 when wind is big, also cause project schedule delay.Moreover, though can pull down roof 37,, meteorology after this increases because changing wind-force, the result can not use goliath 36, and not only materials can not be moved into, and roof 37 can not restore, the result causes project schedule delay, and the operating environment in the nuclear reactor factory building worsens.
The influence of wind and rain and snowfall also is like this.Be calm or can use goliath 36 during gentle breeze, when precipitation and snowfall because roof 37 is opened, not only rainwater and snow immerse inner, construction material, equipment, electric fixtures, various machine, precision optical machinery etc. are caused harmful effect, and the major accident that can cause the person to get an electric shock, the result causes project schedule delay, and operating environment worsens in the nuclear reactor factory building.
Moreover, another shortcoming is: when utilizing dress goliath 36 without to move into materials, be suspension rod and 31 collisions of nuclear reactor factory building that prevent interim goliath 36, when arranging interim goliath 36, according to its energy force diagram, the weight and the scope that hang in are restricted.Be that interim goliath 36 mostly has the about elevating capacity more than 100 tons of maximum load, but, for the suspension rod that prevents interim goliath 36 collides nuclear reactor factory building 31, and owing to the length of boom and the angle of interim goliath 36 and the relation that hung in object are provided with, so the factory building certain distance is left in the position of its mounting arrangements.Generally leave several 10 meters of factory building, will reduce to several tons to tens tons according to the energy force diagram owing to different situations so in fact can move into and take out of the weighing load of factory building.
In Figure 15, interim goliath 36 is portable, but the fixing interim goliath of self-supporting, for example pillar crane is set up because its basis separates separately with nuclear reactor factory building 31, so, the same with above-mentioned situation, crane leaves the factory building certain distance.Its result, the fixing interim goliath of self-supporting, for example pillar crane also has such shortcoming, and according to can force diagram, weight and scope that it can hang in be restricted.
On the other hand, the spy opens that clear 64-61688 communique is described to be: form the back on the superiors ground of nuclear reactor factory building mobile job crane is installed on this superiors ground.But this job practices, its shortcoming is: before the superiors ground of nuclear reactor factory building forms, can not be arranged in mobile job crane on the superiors ground, the reactor inner machine be moved into constructing engineering and can not carrying out concurrently of the engineering in the nuclear reactor pressure container and the building nuclear reactor factory building the superiors with this crane.And, in the scope that mobile job crane moves, be difficult to arrange materials and machinery equipment.
The present invention In view of the foregoing proposes, its purpose is to provide a kind of like this construction job practices of nuclear electric power generation facility: it can shorten the whole construction period of nuclear electric power generation facility, that reduces goliath is provided with the platform number, can prevent the influence of weather to construction, be convenient to the operating personnel and enter subterranean layer work, can improve countermeasure that prevents anoxic etc. at first stage of construction.
In order to achieve the above object, the present invention takes following technical scheme:
A kind of construction job practices of nuclear electric power generation facility, it is characterized in that: the steel framed structure thing that utilizes Steel Frame Column and steel-frame beam to construct to be used to a part that constitutes the nuclear reactor factory building, utilize above-mentioned steel framed structure thing that the moving track that bridge crane is used is set, formal bridge crane is set on above-mentioned moving track, just utilizes above-mentioned bridge crane to carry building goods and materials etc. from the construction construction initial stage of nuclear electric power generation facility.
The construction job practices of described nuclear electric power generation facility is characterized in that: connect temporary track on above-mentioned moving track, the operating range of above-mentioned bridge crane is expanded to the outside of above-mentioned nuclear reactor factory building.
Described nuclear electric power generation Facilities Construction job practices, it is characterized in that: utilize above-mentioned steel framed structure thing, formally or provisionally be provided with one in a certain lower zone in the operating range of above-mentioned bridge crane and be used to ground that vehicle is sailed into, the lifting zone of above-mentioned bridge crane is set in above-mentioned nuclear reactor factory building inside like this.
The construction job practices of described nuclear electric power generation facility, it is characterized in that: when building the above-mentioned nuclear reactor factory building of semi-underground type or underground type, utilize above-mentioned steel framed structure thing, play till factory building is built the ground grading of construction stair being set formally or provisionally from factory building lower floor.
The construction job practices of described nuclear electric power generation facility, it is characterized in that: when building the above-mentioned nuclear reactor factory building of semi-underground type or underground type, utilize above-mentioned steel framed structure thing, from factory building lower floor play factory building build formally or provisionally be provided with till the ground grading of construction can lifting elevator.
The construction job practices of described nuclear electric power generation facility, it is characterized in that: when building the above-mentioned nuclear reactor factory building of semi-underground type or underground type, utilize above-mentioned steel framed structure thing, formally or provisionally be provided with a kind of in order to be taken a breath in the factory building bottom the perpendicular ventilating shaft of factory building lower floor and outside air regional connectivity.
The construction job practices of described nuclear electric power generation facility is characterized in that: can the keep out the wind partition material of rain etc. of utilization covers the outside of above-mentioned steel framed structure thing.
The construction job practices of described nuclear electric power generation facility, it is characterized in that: below the height of above-mentioned formal bridge crane running, on the design attitude top position, above-mentioned nuclear reactor factory building uppermost storey ground, interim ground is set, on this interim ground, crane is set.
The construction job practices of described nuclear electric power generation facility is characterized in that: being arranged on above-mentioned interim ground above-mentioned interim crane is self-propelled.
The construction job practices of described nuclear electric power generation facility is characterized in that: before the running of above-mentioned bridge crane or during running, put up formal or interim roof above the operating range of above-mentioned bridge crane.
The construction job practices of described nuclear electric power generation facility, it is characterized in that: before above-mentioned bridge crane being moved in the above-mentioned nuclear reactor factory building, reserve one for above-mentioned bridge crane is moved into needed opening portion from above-mentioned nuclear reactor factory building top, above other parts of the operating range of above-mentioned bridge crane, put up formal or interim
The construction job practices that relates to nuclear electric power generation facility of the present invention, it is characterized in that: the steel framed structure thing that utilizes Steel Frame Column and steel-frame beam to construct to be used to a part that constitutes the nuclear reactor factory building, utilize above-mentioned steel framed structure thing that the moving track that bridge crane is used is installed, formal bridge crane is installed on above-mentioned moving track, is just utilized above-mentioned bridge crane to carry construction equipment etc. from the construction construction initial stage of nuclear electric power generation facility.
Moreover, also can be connected to temporary track on the above-mentioned crane runway, the outside of the lifting expanded range of above-mentioned bridge crane to above-mentioned nuclear reactor factory building.
And, also can utilize the formal or interim ground of sailing usefulness into of buying car in installments of laying in the lower zone of above-mentioned steel framed structure thing in the working range of above-mentioned bridge crane, like this, the goods of above-mentioned bridge crane lifting zone can be arranged on the inside of above-mentioned nuclear reactor factory building.
Moreover, when building the above-mentioned nuclear reactor factory building of semi-underground type or underground type, also can utilize above-mentioned steel framed structure thing, formally or provisionally set up the stair till the ground of building construction from factory building lower floor to factory building.
Moreover, when building the above-mentioned nuclear reactor factory building of semi-underground type or underground type, also can utilize above-mentioned steel framed structure thing, formally or provisionally set up till the ground grading of building construction from factory building lower floor to factory building can lifting elevator.
When building the above-mentioned nuclear reactor factory building of semi-underground type or underground type, also can to utilize above-mentioned steel framed structure thing, formally or provisionally to set up a kind of perpendicular ventilating shaft (ダ ケ ト シ ヤ Off ト) that factory building lower floor is connected in order being taken a breath in the factory building bottom with territory, outer gas area.
And, also can utilize the material of shading wind and rain etc. to cover the outside of above-mentioned steel framed structure thing.
Moreover, also can below formal above-mentioned bridge crane running height, on the design attitude top position, above-mentioned nuclear reactor factory building the superiors ground, build interim ground, interim crane is arranged on this interim ground.
Moreover, be arranged on above-mentioned interim ground above-mentioned interim crane and be preferably mobile crane.
Moreover, also can be before above-mentioned bridge crane entry into service or between on-stream period, above the lifting scope of above-mentioned bridge crane, set up formal or interim roof.
Moreover, also can be before above-mentioned bridge crane being moved in the above-mentioned nuclear reactor factory building, the roof is reserved one for above-mentioned bridge crane is moved into necessary opening portion from the top of above-mentioned nuclear reactor factory building, sets up formal or interim roof above the lifting scope of above-mentioned bridge crane.
Effect of the present invention is:
As mentioned above, if according to the present invention, then can utilize the formal bridge crane of nuclear reactor factory building in early days, so, be restricted the mechanical engineering of workshop building evening time that past comes into operation owing to bridge crane, can carry out mechanical engineering in early days now, therefore can shorten the construction period of nuclear electric power generation facility integral body.
Moreover in the whole operating range of bridge crane, rated load is handled with the handling of interior weight and all can be carried out, so the materials used of carrying heavy goods and construction work or electromechanical equipment etc. expeditiously.Therefore, utilize interim goliath only promptly to come to an end in the construction initial stage from the outdoor operation that hangs in equipment etc., can reduce the complicated influence of the construction operation that relates to goliath, not need to have for a long time interim goliath, can reduce construction cost.
Moreover, take out of about building moving in the construction, the temporary structure thing that is used to support bridge crane is set outside factory building, the moving track of the bridge crane during construction extends to the factory building outside, like this operating range of bridge crane is expanded to outside the factory building, the lifting zone of bridge crane is set to the factory building outside, and the bottom in the operating range of bridge crane formally or provisionally is provided with the ground that vehicle can sail into, the lifting zone is arranged on nuclear reactor factory building inside, can improves like this and take out of the convenience of moving into bridge crane.
Moreover, at the nuclear reactor factory building is under the situations such as semi-underground type or underground type, utilize the post and the beam of steel framed structure, in the first stage of construction stage the perpendicular ventilating shaft of stair, elevator and idle call etc. is set formally or provisionally, like this, the operating personnel just can enter underground each layer easily and can more effectively prevent anoxic at the workshop building initial stage.When these facilities were used as formal facility, gadget can be reduced in the construction operation space in the time of guaranteeing to build.
Have again, weather-proof measure during as workshop building, the partition material that utilizes energy shading wind and rain such as plate etc. is the outer side covers of the steel framed structure thing of assembling in advance, can avoid the influence of wind and rain etc. like this.
Moreover, below formal bridge crane running height, arrange under the situation of interim crane on the set interim ground on the above position, nuclear reactor factory building maximum layer floor ground, in the inaccessiable scope of running ability of the formal bridge crane of nuclear reactor factory building, also can be expeditiously and almost on whole ground, all can carry materials that construction work uses or electromechanical equipment etc.
Have, when having arranged the interim crane of self-propelled on interim ground, interim crane is easy to move on its interim ground again, so, can enlarge job area, provide high efficiency taking out of to move into operation.And, because be can be voluntarily interim crane, so the layout of interim crane and withdrawing does not all need to prepare vehicle and comes transfer crane.Therefore can save and build construction cost.
Moreover; bring into use preceding or formal bridge crane between the operating period at formal bridge crane; add a cover under the situation on roof on top in formal bridge crane running (use) scope; can protect formal bridge crane not to be subjected to the influence of wind and rain and snowfall; so can make formal bridge crane from the first stage of construction stage with regard to entry into service, also can guarantee the operating environment of nuclear reactor factory building.And, from above move into formal bridge crane before, except being moves into the required part roof of formal bridge crane from nuclear reactor factory building top, to the construction in advance of other roofs, like this, can guarantee that the roof openings when formal bridge crane is moved in the top is a Min., construction period in the time of simultaneously also shortening the capping of roof openings part, in roof openings part construction period, can make in the operating range of formal bridge crane beyond the roof openings part and turn round, and, because the roof openings minimum, so also can guarantee the operating environment that the nuclear reactor factory building is interior.Below with reference to the accompanying drawings, describe the various embodiment of the construction job practices that relates to nuclear electric power generation facility of the present invention in detail.And, in the explanation of following embodiment, for brevity, for the example in past in the illustrated member part identical with engineering, adopt the symbol identical with it.And, omitted with the part that explanation in the example in past repeats mutually.
Fig. 1 is the process chart (programming figure) of the nuclear electric power generation Facilities Construction job practices of explanation the present invention the 1st embodiment.
Fig. 2 is the summary skiagraph of the arrangement after nuclear reactor factory building steel frame that expression is built by the operation of Fig. 1 builds up.
The A-A of Fig. 2 of Fig. 3 nuclear reactor factory building plane steel frame arrangement that to be expression build by the operation of Fig. 1 is to view.
The B-B of Fig. 2 of Fig. 4 nuclear reactor factory building plane steel frame arrangement that to be expression build by the operation of Fig. 1 is to view.
Fig. 5 dots the B-B of Fig. 2 of machine of carrying by the bridge crane of the nuclear reactor factory building of the operation construction of Fig. 1 etc. to view.
Fig. 6 is the figure of the nuclear electric power generation Facilities Construction job practices of explanation the present invention the 2nd embodiment, is the summary skiagraph of the state in the process of construction of expression nuclear reactor factory building.
Fig. 7 is the figure of the nuclear electric power generation Facilities Construction job practices of explanation the present invention the 3rd embodiment, is the summary skiagraph of the state in the process of construction of expression nuclear reactor factory building.
Fig. 8 is the summary plan view of Fig. 7 of steel frame layout of stair, elevator and perpendicular ventilating shaft of the nuclear reactor factory building of presentation graphs 7.
Fig. 9 is that expression utilizes the construction job practices of the nuclear electric power generation facility of the present invention the 4th embodiment to build the summary skiagraph of the state of nuclear reactor factory building.
Figure 10 is that expression utilizes the construction job practices of the nuclear electric power generation facility of the present invention the 5th embodiment to build the summary skiagraph of the state of nuclear reactor factory building.
Figure 11 is that expression utilizes the construction job practices of the nuclear electric power generation facility of the present invention the 6th embodiment to build the summary skiagraph of the state of nuclear reactor factory building.
Figure 12 is the process chart of the construction job practices of expression nuclear electric power generation facility in the past.
Figure 13 is the summary skiagraph in the construction interstage of the nuclear reactor factory building built by the operation of Figure 12 of expression
Figure 14 is the summary skiagraph of the construction terminal stage of the nuclear reactor factory building built by the operation of Figure 12 of expression
Figure 15 is that expression utilizes nuclear electric power generation Facilities Construction job practices in the past to build the summary skiagraph of the state of nuclear reactor factory building.
The 1st embodiment
Building method about the nuclear electric power generation facility of the present invention the 1st embodiment describes referring to figs. 1 through Fig. 5.
Fig. 1 is the summary engineering drawing of the construction job practices of explanation present embodiment.As shown in Figure 1, the difference of the example in present embodiment and past shown in Figure 12 is: before laccolite is checked C1, carry out steel frame engineering A4 and roof working A3 (frame assembled), when laccolite is checked C1, bridge crane is installed and is made its entry into service as the steel framed structure thing of principal post and girder.At this moment, carry out heelpiece engineering A1 after the laccolite inspection at once.And, utilize the bridge crane that can turn round, move into machinery equipment and pipeline in advance, and move into steel component and building goods and materials that the PCV structure is used.
Fig. 2 and Fig. 3 be expression construct by the operation of Fig. 1 construction the time the summary skiagraph of nuclear reactor factory building 1.Fig. 2 installs the state that bridge crane 3 has also made its entry into service after being illustrated in steel frame engineering A4; Fig. 3 represents to enter tunnel 14 etc., the state of building with what bridge crane 10 was moved into RPV basis 7 and constituted PCV5.
As shown in Figures 2 and 3, the steel framed structure thing of assembling has Steel Frame Column 15a that arranges in the factory building outside vertical and the Steel Frame Column 15b that stretches out to the factory building inboard earlier, with Steel Frame Column 15a, 15b bridge crane 10 is supported.The steel frame 17 that Steel Frame Column 15a, 15b connection utilization each other is arranged in the steel-frame beam 16 of the below of operating floor 12 and the truss pin on formation roof 13 etc. can support the load of bridge crane 10 like this.Moreover, move into or take out of goods and materials etc. in order to utilize bridge crane 10 from the factory building outside, as shown in Figure 3, the lifting zone 18 of factory building inside is set, be provided with simultaneously and make vehicle 20 grades in lifting zone 18, be written into regional 21 from the face of leveling land 19.These zones the 18, the 21st are laid steel plate 22 etc. and are constituted.
Fig. 4 be the A-A of Fig. 2 to view, the layout of its expression Steel Frame Column 15a, 15b and steel-frame beam 16.
As shown in Figure 4, present embodiment is to arrange on the position of steel concrete system factory building principal post and girder by the job practices in past, arranges Steel Frame Column 15a, 15b and steel-frame beam 16 to be centered around PCV5 form on every side.And these Steel Frame Column 15a, 15b and steel-frame beam 16 also can be the concrete parts of steel frame that can increase factory building intensity after factory building builds up, and also can not increase factory building intensity.
In work progress, the most handy material that can shading wind and rain in the outside of the steel framed structure thing that is made of Steel Frame Column 15a, 15b and steel-frame beam 16 covers, the plate of the type frame of using as placing of concrete for example perhaps can daylighting, the (not shown)s such as thin plate of waterproof and ventilation.
Fig. 5 is that B-B among Fig. 2 is to view.This Fig. 5 dots main body etc.Utilize bridge crane 10 after being built into main body on the steel-frame beam 16, the enough bridge cranes 10 of energy are installed the operation of moving into machine 23.
According to the 1st embodiment, the part of the inscape of the works of the nuclear reactor factory building 1 of nuclear electric power generation facility, promptly as Steel Frame Column 15a, 15b, steel-frame beam 16 and the roof 13 of principal post and girder, join than the advanced luggage of factory building members such as ground such as steel concrete and wall, make the bridge crane 10 of factory building main body just begin in early days to come into operation at workshop building, like this, past can carry out in advance because of the later mechanical engineering that is restricted in period that bridge crane 10 comes into operation, so, can shorten the construction period of factory building integral body.
That is to say, technology according to the past, installation bridge crane 10 is the mid-terms at the roof working of construction work, be that the factory building frame strength has reached the stage that this bridge crane 10 can be installed, bridge crane 10 just can be brought into use after this, so, the whole construction project of plant and equipment, its flow process is: " roof working A3 → bridge crane work → RPV internal construction thing engineering F → system test G ", " the RPV internal construction thing engineering F → system test G " of the electromechanical engineering B that has to just can carry out after waiting until roof working A3.And this construction sequence has decisive role to whole construction project after other machines, pipeline and electrical engineering B1, B2, B3.And if construction work A postpones, then electromechanical engineering B is also influenced, causes engineering extension.
In contrast, present embodiment as shown in Figure 1, the installation of bridge crane 10 is to carry out at the initial stage of whole engineering, so, in the construction works before system test G, do not conflict with the construction work A that relates to bridge crane 10, thereby make the RPV internal construction thing engineering F of electromechanical engineering B not have stand-by time, can shorten the whole duration.The progress of construction work A is unaffected, can avoid causing electromechanical engineering B to postpone owing to the delay of construction work A.
Moreover according to the job practices in past, machine is moved in the factory building and moving into of goods and materials of construction taken out of, and all is restricted, and promptly has to use the outer goliath of factory building.In contrast, present embodiment is not subjected to this restriction, can reduce the platform number of the goliath that should use, avoid the influence of weather to goliath, the scope of application of the goliath that energy adjustment minimizing construction work usefulness and electromechanical engineering are used, can be reduced to the required space of goliath is installed, therefore, can reduce the complexity of construction operation etc.
The 2nd embodiment
Following with reference to Fig. 1 and Fig. 6, the nuclear electric power generation Facilities Construction job practices of detailed description the present invention the 2nd embodiment.
Fig. 6 is the figure of explanation the present invention the 2nd embodiment, is the summary skiagraph of the state of the nuclear reactor factory building in the expression process of construction.
According to present embodiment, in the construction project of nuclear reactor factory building shown in Figure 1, during steel frame engineering A4, as shown in Figure 6, rely on temporary steel frame construction thing 24 to support, the walking track 12 of bridge crane 10 is extended to the factory building outside, come down to lifting zone 18 is extended to the factory building outside.That is to say, can be used as the lifting zone to the zone 21 that is written into of the 1st embodiment.And, this temporary steel frame construction thing 24, preferably also as required, the same material of energy shading wind and rain that utilizes with above-mentioned the 1st embodiment covers.In the 2nd embodiment, other formations are identical with the 1st embodiment with job practices, so explanation is omitted.
According to the 2nd embodiment, assembling temporary steel frame construction thing 24 in the exterior lateral area of nuclear reactor factory building 1, bridge crane 10 can move to the factory building exterior domain continuously in factory building, therefore, except that effect with the 1st embodiment and effect, can also enlarge the lifting scope of bridge crane 10 in building work progress.So goods and materials and equipment etc. hang the operation that is raised to bridge crane 10 etc. from carrying vehicle 20, can outside factory building, promptly carry out on the position that is written into zone 21 of the 1st embodiment.Therefore, can the 1st embodiment in the factory building be written into 21 position, zone as goods and materials, equipment is to the lifting of factory building lower floor and fall to hanging the zone, and, can enlarge range of application, with its construction operation zone, in addition, can also improve operating efficiency as plant and equipment.
Moreover the zone that moving track 12 prolongs also can be used as the interim construction area that uses bridge crane 10 in the factory building external enwergy.
The 3rd embodiment
Following with reference to Fig. 7 and Fig. 8, describe the construction job practices of the nuclear electric power generation facility of the 3rd embodiment of the present invention in detail.
Fig. 7 is the figure of explanation the present invention the 3rd embodiment, is the vertical face figure of summary of the state of the nuclear reactor factory building in the expression process of construction.Fig. 8 is the plan view of Fig. 7.
According to present embodiment, as shown in Figure 7 and Figure 8, when nuclear reactor factory building 1 is semi-underground type or underground type, utilize the Steel Frame Column 15a shown in the various embodiments described above, 15b or steel-frame beam 16, stair 25, elevator 26 and perpendicular ventilating shaft 27 are arranged into the upper strata from underground orlop.
That is to say, stair 25, its integrally-built height is more than the level height from underground orlop to the face 19 of leveling land on the ground, the main form that adopts along Steel Frame Column 15a, 15b, and its mounting means is the mechanical bond of Steel Frame Column 15a, 15b and steel-frame beam 16.And the integral body of these stair 25 also can be partitioned into each floor of factory building.And, on constituting, also can utilize when building main body as the plate of framework etc., this main body is meant the main body of making around the steel concrete of formal stair etc.In addition, these stair 25 also can be used as the formal stair that also use after factory building builds up, and also can be used as the interim stair that only use in the construction period.
Moreover, elevator 26 is also the same with stair 25, the height of its integrated member is to begin to more than the level height of the face 19 of leveling land on the ground from underground orlop, the main form that adopts along Steel Frame Column 115a, 15b, its mounting method is the mechanical connection of its Steel Frame Column 15a, 15b and steel-frame beam 16.At this moment, the same with stair 25, on constituting, also can utilize when building main body as the plate of framework etc., this main body is meant the main body that is centered around the systems such as steel concrete around formal elevator 26 main bodys.This elevator 26 also can be used as the interim elevator that only uses when building.
Perpendicular ventilating shaft 27, its overall structure adopts when building main body as the plate of framework etc., this main body is meant steel or steel concrete, or formally erects the concrete main body of ventilating shaft, and it highly is to begin to leveling land more than face 19 level heights on the ground from underground orlop.Should erect the also main form that adopts along Steel Frame Column 15a, 15b of ventilating shaft 27, and install and carry out easily, its method is the mechanical connection of its Steel Frame Column 15a, 15b and steel-frame beam 16.In order when building, descend in the floor over the ground to take a breath,, be connected with outside atmosphere from the vertical shaft 27a of ground upside at factory building floor or the interim or formal blowing and discharging fan 28 of underground lowermost layer installation on the ground.In this perpendicular ventilating shaft 27, interim ventilating shaft is installed, perhaps when building, be not sought after changing situation under, also can be used as the supply channel of gadget when building (welding with gas, power supply etc.).
Above each equipment such as stair 25, elevator 26 and perpendicular ventilating shaft 27 all can carry out mechanical connection mutually, is convenient to install.These equipment are installed simultaneously or after it finishes with steel frame engineering A4 in the construction operation of nuclear reactor factory building 1 shown in Figure 1.And other formations of present embodiment are identical with the 1st embodiment with job practices, and its explanation is omitted.
According to present embodiment, when nuclear reactor factory building 1 is semi-underground type or underground type, utilize Steel Frame Column 15a, 15b and steel-frame beam 16, in the first stage of construction stage the perpendicular ventilating shaft equipment of stair equipment, lift facility and idle call is installed as formal equipment or gadget, like this, except that having the effect identical with the 1st embodiment, also be convenient to the operating personnel and enter underground floor at the workshop building initial stage, can improve the countermeasure that prevents anoxic.When these equipment were used as formal equipment, the construction operation space in the time of guaranteeing to build can reduce gadget.
The 4th embodiment
Below with reference to the accompanying drawings, describe the building method of the nuclear electric power generation facility of the present invention the 4th embodiment in detail.
Fig. 9 is the figure of expression the present invention the 4th embodiment.The nuclear reactor factory building 31 of first stage of construction is to set up Steel Frame Column 33 on the basic heelpiece 32 of nuclear reactor factory building 31.On this Steel Frame Column 33,, formal bridge crane 41 is installed, on the moving track (not shown) that is installed on the big fine strain of millet 40 of this crane at outdoor layout goliath 36 by design appointed positions erection crane crossbeam 40.
That is to say,, excavate after the enveloping field 42, the basic heelpiece 32 of nuclear reactor factory building 31 is constructed in the initial stage of building.Utilize goliath 36 to construct Steel Frame Column 33 then, the mounting rail (not shown) is collapsed preventing between this Steel Frame Column 33, constructs the steel framed structure thing, therewith erection crane crossbeam 40 concurrently.And, on the moving track (not shown) that is installed on this crane crossbeam 40, utilize the formal bridge crane 41 of goliath 36 liftings.So, can make this formal bridge crane 41 from the first stage of construction stage with regard to entry into service.
Then, constructed in roof 37.At this moment roof 37 can be formal roof, also can be fixing or portable interim roof.So, just can make 41 entrys into service of formal bridge crane from the first stage of construction stage, can protect formal bridge crane 41 not to be subjected to the influence of wind and rain and snowfall simultaneously, can guarantee the operating environment that factory building is interior.
Present embodiment is different from original method that the nuclear reactor factory building is built to the upper strata successively from underground orlop, also be different from original method that the part of nuclear reactor factory building is built in advance, it can make formal bridge crane 41 from the first stage of construction stage with regard to entry into service, can utilize bridge crane 41 to carry out moving into of materials that construction work uses and nuclear reactor safety casing component 43 and other electromechanical equipments.And, in Fig. 9, being positioned at outdoor interim goliath 36 is examples of movable equipment, and when utilizing interim goliath 36 to carry materials, it is arranged and using method will prevent that the suspension rod of interim goliath 36 and nuclear reactor factory building 31 from colliding.But, although interim goliath 36 is portable, or fixing self-supporting, according to can force diagram, crane hang in weight and scope is restricted.In contrast, formal bridge crane 41, if within its operating range, its rated load all can reach so, in general, the load of the formal bridge crane 41 of nuclear reactor factory building 31 is 125 tons in the BWR a complete set of equipment; Be 150 tons in the ABWR a complete set of equipment.With respect to being arranged on outdoor interim goliath 36, formal bridge crane 41 all is being excellent aspect operating range and the load capacity.Symbol 44 among the figure is nuclear reactor safety shells, the 45th, be written into platform.
So, if according to present embodiment, then formal bridge crane 41 just can use from the first stage of construction stage of nuclear reactor factory building 31, so, in the broad scope of nuclear reactor factory building 31, materials or nuclear reactor safety casing component 43 and other electromechanical equipments used of carrying heavy goods and construction work expeditiously.And, do not need to have for a long time interim goliath 36 at construction period, can reduce nuclear reactor workshop building expense.
The 5th embodiment
Below with reference to the accompanying drawings, describe the construction job practices of the nuclear electric power generation facility of the present invention the 5th embodiment in detail.
Figure 10 is the figure of expression the present invention the 5th embodiment, and is the same with the explanation of Fig. 9, and formal bridge crane 41 begins just to be in operable state from the first stage of construction stage of nuclear reactor factory building 31.And, below the height of formal bridge crane 41 running of nuclear reactor factory building 31, above the uppermost storey ground of nuclear reactor factory building, interim ground 46 is set, on this interim ground 46, arrange interim crane 47.
But the lifting scope of formal bridge crane 41 is not the gamut that moving track is laid, and generally lays the wall side of scope at moving track, has the interval that formal bridge crane 41 can not handling.Therefore, for this formal bridge crane 41 can not handling the interval, can utilize interim crane 47 to carry out the carrying and the installation of materials.And interim ground 46 is arranged on the top on nuclear reactor factory building uppermost storey ground, so the materials that can need the nuclear reactor factory building uppermost storey ground of the below on interim ground 46 are carried out handling
If according to present embodiment, then to the formal bridge crane 41 of nuclear reactor factory building 31 can not handling the interval, can utilize interim crane 47, so, use together with formal bridge crane 41, can be almost on whole materials or the electromechanical equipment used of handling construction work expeditiously.
The 6th embodiment
Below with reference to the accompanying drawings, describe the construction job practices of the nuclear reactor factory building of the present invention the 6th embodiment in detail.
Present embodiment is to have increased a part of mechanism on the above-mentioned the 4th or the 5th embodiment.The same with the 4th or the 5th embodiment, as shown in figure 11, formal bridge crane 41 begins just to be in operable state from the first stage of construction stage of nuclear reactor factory building 31.And, on the direction of enveloping field 42, utilize interim moving track 48 to be connected with formal moving track, prolonged, enlarge the operating range of formal bridge crane 41.So this part is the part that nuclear reactor factory building 31 stretches out, can use as lifting zone, the below that can make truck sail this temporary track 48 into, utilize formal bridge crane 41 can be at an easy rate the handlings such as goods and materials of being loaded on the truck in factory building.
If according to present embodiment, then can enlarge the operating range of formal bridge crane 41, so, can guarantee the lifting zone, expeditiously the materials used of handling construction work or electromechanical equipment etc.
Moreover; extension at nuclear reactor factory building 31 and nuclear reactor factory building 31 is added a cover roof 37; can protect formal bridge crane 41 not to be subjected to the influence of wind and rain and snowfall; can make formal bridge crane 41 from the first stage of construction stage with regard to entry into service; therefore, can guarantee operating environment in the nuclear reactor factory building 31.
The 7th embodiment
Below describe the construction job practices of the nuclear electric power generation facility of the 7th embodiment of the present invention in detail.
The job practices of above-mentioned the 6th embodiment is: formal bridge crane 41 is hung in setting, then, the extension of nuclear reactor factory building 31 and nuclear reactor factory building 31 is added a cover roof 37.And the job practices of present embodiment is: before formal bridge crane 41 is hung in setting, earlier the extension of nuclear reactor factory building 31 and nuclear reactor factory building 31 is added a cover roof 37.Promptly, add a cover roof 37 earlier, can guarantee that like this roof openings partly is Min., only can install and move into formal bridge crane 41 from the top except moving into the required opening portion for formal bridge crane 41 is installed from the top.And, because roof openings partly is minimal, thus the engineering time of this roof openings part also will shorten.In roof openings part work progress, can make in the operating range of formal bridge crane 41 beyond the roof openings part and carry out handling, and, because roof openings partly is minimal, so also can guarantee the operating environment that the nuclear reactor factory building is interior.
The 8th embodiment
The following describes the construction job practices of the nuclear electric power generation facility of the present invention the 8th embodiment.
Present embodiment is that the formation of above-mentioned the 5th embodiment has been carried out the partly result of change.As mentioned above, the 5th embodiment shown in Figure 10 arranges fixed interim crane 47 on interim ground 46 set above the nuclear reactor factory building the superiors ground.
And present embodiment is to arrange the interim crane 47 of self-propelled on interim ground 46.
And, if according to present embodiment, then because interim crane 47 can move on interim ground 46, so, compare with fixed, but the scope of application of crane increases.For example, when turning round in a certain zone of formal bridge crane 41 at nuclear reactor factory building 31, make interim crane 47 in other zones, move on interim ground 46 and can turn round on the position of operation.Like this, can carry out materials or moving into of electromechanical equipment that construction work uses concurrently expeditiously and take out of operation.
And, when the regulation end of job of the setting of interim crane 47 and interim crane 47, utilize formal bridge crane 41 to carry out the lifting of interim crane 47 and fall to hanging, can make it keep original state in the 31 inside and outside walkings of nuclear reactor factory building, so, also no longer need to prepare in addition the vehicle that transfer crane is used.
On the other hand, interim ground 46 can be installed on the Steel Frame Column 33 from the beginning, be convenient to construct nuclear reactor factory building 31, the scaffold for building that can be used as when constructing nuclear reactor factory building 31 uses, and, also also have such effect, promptly remove interim ground 46, also formal bridge crane 41, and utilize the interim crane 47 that has fallen to hanging by formal bridge crane 41 to dismantle.
The 9th embodiment
Describe the construction job practices of the nuclear electric power generation facility of the present invention the 9th embodiment below in detail.
Present embodiment is the construction job practices of nuclear electric power generation facility that above-mentioned the 4th to the 8th embodiment is combined.
That is to say, this job practices is: utilize the goliath 36 that is arranged on nuclear reactor factory building 31 outsides to construct, and begin just to make the formal bridge crane 41 of nuclear reactor factory building 31 to turn round from the first stage of construction stage of nuclear reactor factory building 31, effectively utilize formal bridge crane 41 concurrently.And be a kind of like this job practices, promptly part outside the operating range of formal bridge crane 41 and formal bridge crane 41 are concentrated when being used for certain specific part, are arranged on also parallel use of interim crane 47 on the interim ground 46.
If according to present embodiment, then no matter have or not the influence of wind and rain and snowfall, the operating environment that all can keep nuclear reactor factory building 31 utilizes bridge crane 41 and interim crane 47, can carry materials or the electromechanical equipment that construction work is used in whole nuclear reactor factory building expeditiously.And, when not influenced by wind and rain and snowfall, can make full use of the goliath 36 of the outside that is arranged on nuclear reactor factory building 31, carry materials that construction work uses or electromechanical equipment etc. expeditiously.

Claims (11)

1. the construction job practices of a nuclear electric power generation facility, it is characterized in that: the steel framed structure thing that utilizes Steel Frame Column and steel-frame beam to construct to be used to a part that constitutes the nuclear reactor factory building, utilize above-mentioned steel framed structure thing that the moving track that bridge crane is used is set, formal bridge crane is set on above-mentioned moving track, just utilizes above-mentioned bridge crane to carry building goods and materials etc. from the construction construction initial stage of nuclear electric power generation facility.
2. the construction job practices of nuclear electric power generation facility as claimed in claim 1 is characterized in that: connect temporary track on above-mentioned moving track, the operating range of above-mentioned bridge crane is expanded to the outside of above-mentioned nuclear reactor factory building.
3. nuclear electric power generation Facilities Construction job practices as claimed in claim 1 or 2, it is characterized in that: utilize above-mentioned steel framed structure thing, formally or provisionally be provided with one in a certain lower zone in the operating range of above-mentioned bridge crane and be used to ground that vehicle is sailed into, the lifting zone of above-mentioned bridge crane is set in above-mentioned nuclear reactor factory building inside like this.
4. as the construction job practices of each the described nuclear electric power generation facility in the claim 1 to 3, it is characterized in that: when building the above-mentioned nuclear reactor factory building of semi-underground type or underground type, utilize above-mentioned steel framed structure thing, play till factory building is built the ground grading of construction stair being set formally or provisionally from factory building lower floor.
5. as the construction job practices of each the described nuclear electric power generation facility in the claim 1 to 4, it is characterized in that: when building the above-mentioned nuclear reactor factory building of semi-underground type or underground type, utilize above-mentioned steel framed structure thing, from factory building lower floor play factory building build formally or provisionally be provided with till the ground grading of construction can lifting elevator.
6. as the construction job practices of each the described nuclear electric power generation facility in the claim 1 to 5, it is characterized in that: when building the above-mentioned nuclear reactor factory building of semi-underground type or underground type, utilize above-mentioned steel framed structure thing, formally or provisionally be provided with a kind of in order to be taken a breath in the factory building bottom the perpendicular ventilating shaft of factory building lower floor and outside air regional connectivity.
7. as the construction job practices of each the described nuclear electric power generation facility in the claim 1 to 6, it is characterized in that: can the keep out the wind partition material of rain etc. of utilization covers the outside of above-mentioned steel framed structure thing.
8. as the construction job practices of each the described nuclear electric power generation facility in the claim 1 to 7, it is characterized in that: below the height of above-mentioned formal bridge crane running, on the design attitude top position, above-mentioned nuclear reactor factory building uppermost storey ground, interim ground is set, on this interim ground, crane is set.
9. the construction job practices of nuclear electric power generation facility as claimed in claim 8 is characterized in that: being arranged on above-mentioned interim ground above-mentioned interim crane is self-propelled.
10. as the construction job practices of each the described nuclear electric power generation facility in the claim 1 to 9, it is characterized in that: before the running of above-mentioned bridge crane or during running, above the operating range of above-mentioned bridge crane, put up formal or interim roof.
11. the construction job practices of nuclear electric power generation facility as claimed in claim 10, it is characterized in that: before above-mentioned bridge crane being moved in the above-mentioned nuclear reactor factory building, reserve one for above-mentioned bridge crane is moved into needed opening portion from above-mentioned nuclear reactor factory building top, above other parts of the operating range of above-mentioned bridge crane, put up formal or interim roof.
CN99119389A 1998-09-14 1999-09-14 Construction working method for nuclear electric power generation installation Expired - Fee Related CN1109176C (en)

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JP260136/1998 1998-09-14
JP26013698 1998-09-14
JP143623/1999 1999-05-24
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