CN208806072U - Modularization for multi-vessel system is layered supporting arrangement - Google Patents

Abstract

The utility model relates to the modularizations for multi-vessel system to be layered supporting arrangement, multi-vessel system includes pressure vessel, steam generator, main pump, steam generator includes at least two, the border of pressure vessel is symmetrically set, main pump includes at least two, the border of pressure vessel is symmetrically set, steam generator, main pump is arranged alternately in the border of pressure vessel, and it is evenly spaced in the border of pressure vessel, steam generator passes through first pipe respectively and connect with pressure vessel, main pump passes through second pipe respectively and connect with pressure vessel, it includes the first bearing unit and third bearing unit that modularization, which is layered supporting arrangement,.First bearing unit, the layering of third bearing unit support each main equipment of reactor-loop, it is loaded to foundation support to transmit main equipment institute, the thermal walking that reactor generates is discharged, inertial load caused by the periodical alternating load of marine environment is resisted, improves the reliability of equipment.

Description

Modularization for multi-vessel system is layered supporting arrangement

Technical field

The utility model relates to nuclear power fields, are layered more specifically to a kind of modularization for multi-vessel system Supporting arrangement.

Background technique

Reactor coolant loop in the related technology passes through pipe by main equipments such as pressure vessel, steam generator, main pumps Road constitutes a closed loop.When having carried out heap, shutdown under accidental conditions, each main equipment can generate thermal expansion in system With generation thermal walking.

If being entirely limited these thermal expansions and thermal walking because temperature span is larger, the thermal stress that equipment and branch are born can be more than Allowable stress and destroy.

And the reactor coolant loop under marine environment be also superimposed on the basis of above-mentioned load it is long-standing Alternating load and external impact load.Alternating load periodically causes the rolling, pitching, heel, trim of reactor foundation structure And heaving.The periodicity alternating load and external impact load act on equipment, can cause the weaknesses such as pipes between devices weld seam Place generates tired risk.

Utility model content

The technical problem to be solved by the present invention is to provide a kind of modularization layering bearing for multi-vessel system Device.

The technical scheme adopted by the utility model to solve the technical problem is as follows: constructing a kind of mould for multi-vessel system Blockization is layered supporting arrangement, and multi-vessel system includes pressure vessel, steam generator, main pump, and the steam generator includes extremely It is two few, the border of the pressure vessel is symmetrically set, and the main pump includes at least two, is symmetrically arranged In the border of the pressure vessel, the steam generator, main pump are arranged alternately in the border of the pressure vessel, and described The border of pressure vessel is evenly spaced on, and the steam generator passes through first pipe respectively and connect with the pressure vessel, The main pump passes through second pipe respectively and connect with the pressure vessel, and the modularization layering supporting arrangement includes the first bearing Unit and third bearing unit；

Several first bearing units are distributed in the border of the pressure vessel, discharge the pressure vessel in radial side Upwards from swollen displacement；

Circumferentially arranged at least two third bearing units in the outside wall surface of each steam generator, each described Three bearing unit one end are connect with the steam generator, and the other end is stretched out and fixed to the direction far from the pressure vessel, The first pipe that each third bearing unit outside each steam generator is connected with the corresponding steam generator relatively Axis horizontal is symmetrical；

Circumferentially arranged at least two third bearing units, each third bearing in the outside wall surface of each main pump Unit one end is connect with the main pump, and the other end is stretched out and fixed, each main pump to the direction far from the pressure vessel Outer third bearing unit is opposite symmetrical with the axis horizontal of the second pipe of the corresponding main pump connection；

The height and position of the third bearing unit is higher than the height and position of first bearing unit.

Preferably, each steam generator side opposite with the pressure vessel is equipped with first bearing unit, The steam generator is supported, and limits the steam generator and system is moved and discharged along the axial direction of the first pipe The thermal walking of system superposition and the thermal expansion of the steam generator itself；

Each main pump side opposite with the pressure vessel is equipped with first bearing unit, to the main pump branch It holds, and limits the main pump and the thermal walking and the main pump that system is superimposed are moved and discharged along the axial direction of the second pipe The thermal expansion of itself.

Preferably, the modularization layering supporting arrangement further includes for supporting and limiting displacement range in the horizontal plane The second bearing unit；

The horizontal two sides of the first pipe are respectively equipped with the second bearing unit supported to the steam generator, Discharge the thermal expansion of the steam generator being superimposed at steam generator from swollen and system.

Preferably, the modularization layering supporting arrangement further includes horizontally disposed fulcrum bearing, is distinguished in the fulcrum bearing Equipped with the first sets of holes corresponding with the pressure vessel, steam generator section outer dimension, the second sets of holes respectively, described first Sets of holes are set in the outer ring of the pressure vessel, and second sets of holes are set in the outer ring of the steam generator.

Preferably, first bearing unit includes for being mounted on the corresponding side of pressure vessel, steam generator, main pump The the first bearing key stretched out on face and in the horizontal direction and the first bearing assembly to the first bearing key bearing；

First bearing assembly is formed with sliding eye corresponding with the first bearing key shape, the first bearing key Be plugged in the sliding eye, there are gap between the first bearing key and the sliding eye, the first bearing key with When the expansion of the pressure vessel, steam generator, main pump generates mobile, the first bearing key expansion and with the sliding eye Close-fitting.

Preferably, first bearing assembly includes first base and is removably mounted at upper on the upside of the first base Lid, the first base and upper cover split form the sliding eye, and the section of the first bearing key and the sliding eye is non- It is round；

The first base includes pedestal and erects two blocks on the pedestal, and two block intervals are set It sets, the upper cover is connected between the upper end of two blocks, is enclosed the sliding eye with the pedestal, block.

Preferably, at least side in the horizontal two opposite sides of the sliding eye is equipped with the level side for adjusting the sliding eye To width dimensions adjustment unit；

The adjustment unit includes the first adjustment plate of the width to adjust the horizontal direction of the sliding eye；

The first bearing key side opposite with the first adjustment plate is equipped with to be slidably matched with the first adjustment plate Sideskid.

Preferably, the sliding eye side opposite with the first bearing downside of key is equipped with sliding unit, for institute The first bearing key is stated along the axial movement of the sliding eye；

The sliding unit includes the first sliding panel；The downside of the first bearing key is equipped with and first sliding panel The horizontal slide plate being slidably matched.

Preferably, second bearing unit includes the second bearing assembly and sliding pedestal component；

Second bearing assembly is mounted on the corresponding side of the steam generator and extends laterally along level；

The sliding pedestal component is equipped with horizontally disposed bearing surface, and second bearing assembly can be along the bearing surface Slidably cooperate in the horizontal direction with the sliding pedestal component, to discharge the thermal potential of the steam generator in the horizontal plane It moves, and limits displacement range in the horizontal plane.

Preferably, second bearing assembly includes the second bearing key protruded horizontally up；

Second bearing assembly further includes the adjustment slide plate being fixedly connected with the second bearing key, the adjustment slide plate It is slidably matched with the bearing surface.

Preferably, the sliding pedestal component includes the second sliding panel, and the bearing surface is formed in second sliding panel On, the bearing surface is slidably matched with second bearing assembly, generates when the steam generator discharges thermal walking opposite Sliding；

The sliding pedestal component further includes second base, and second sliding panel is mounted in the second base；

The sliding pedestal component further includes the second adjustment plate for second base installation.

Preferably, the second base is equipped with and limits the lateral position of second bearing assembly in the horizontal plane The lateral Displacement mechanism of position；

The lateral Displacement mechanism includes two groups of position-limiting units positioned at the horizontal two opposite sides of the second bearing assembly, often One position-limiting unit includes positioning table and the locating part that is arranged on the positioning table；

One end of the locating part is opposite with the side of second bearing assembly, and the locating part is in the positioning table On axial position it is adjustable, with adjust two locating parts between spacing.

Preferably, second bearing unit further includes being connected to second bearing assembly and the sliding pedestal component Between axial limiting mechanism, to limit second bearing assembly and the sliding pedestal component in second bearing assembly Stretching direction displacement；

The axial limiting mechanism includes the connecting rod for stretching out direction setting along second bearing assembly, the connection The both ends of bar are respectively equipped with the first lockhole, the second lockhole, are equipped with respectively in first lockhole, the second lockhole and described second The closure that bearing assembly, sliding pedestal component connect；

At least one of first lockhole, second lockhole are to extend to set along the stretching direction of second bearing assembly The kidney slot set to allow second bearing assembly and the sliding pedestal component to slide relatively, and limits slide displacement amount.

Preferably, the third bearing unit stretches out in the horizontal direction, and is located at the corresponding steam generation The upper end of device, main pump.

Preferably, the third bearing unit includes the first trunnion and third bearing assembly, each first trunnion difference It is arranged in the outside wall surface of the steam generator, main pump；

Each third bearing assembly one end and first trunnion are rotatablely connected, and the other end is to far from the pressure vessel Direction stretch out, and be fixedly mounted；

And the stretching direction of the third bearing assembly of steam generator connection and the corresponding steam generation The axis angle of the first pipe of device connection is acute angle；

And stretch out direction and the corresponding main pump connection second of the third bearing assembly of the main pump connection The axis angle of pipeline is acute angle.

Preferably, third bearing unit there are two being set in the outside wall surface of each steam generator；

The first trunnion of each third bearing unit is along the corresponding steaming in the outside wall surface of the steam generator Vapour generator extends radially out, and perpendicular to the axis of the first pipe connected with the corresponding steam generator；

Third bearing unit there are two being set in the outside wall surface of each main pump；

Diameter of first trunnion of each third bearing unit along the corresponding main pump in the outside wall surface of the main pump To protruding, and perpendicular to the axis of the second pipe of the corresponding main pump connection.

Preferably, the angle of two third bearing assemblies outside each steam generator is less than 180 degree；

The angle of two third bearing assemblies outside each main pump is less than 180 degree；

The third bearing assembly includes the first damper and the first support, and first damper is connected to described first Between support and first trunnion, first support is fixedly mounted.

The modularization for multi-vessel system for implementing the utility model is layered supporting arrangement, has the advantages that First bearing unit, the layering of third bearing unit support each main equipment of multi-vessel system；The third on upper layer supports single Member is supported for main equipment upper level direction, in the variation of main equipment cold and hot, release thermal expansion；In marine environment periodicity The amount of impact loads operating condition such as alternating load, earthquake or accident under, keep main equipment stable state to limit the level of upper part Displacement, to reduce moment of flexure suffered by lower support, stress, the risk for reducing container overturning；First bearing unit of lower layer uses Modularized design, for the main equipment of characteristics of compact layout, modular design structure keeps entire supporting structure simple, occupied space It is small, compact Layout reactor nuclear island space is saved, convenient for the installation O&M of nuclear island other assemblies.

It is loaded to basic that modularization layering supporting arrangement is mainly used for transmitting pressure vessel, steam generator, main pump Bearing, the thermal walking that release reactor-loop generates are reasonably resistant to be used to caused by the periodical alternating load of marine environment Property load, improves the reliability of equipment.

Detailed description of the invention

Below in conjunction with accompanying drawings and embodiments, the utility model is described in further detail, in attached drawing:

Fig. 1 is the stereochemical structure of the multi-vessel system with modularization layering supporting arrangement in the utility model embodiment Schematic diagram；

Fig. 2 is the overlook direction structural schematic diagram of the multi-vessel system in Fig. 1；

Fig. 3 is the structural schematic diagram of the partial view A in Fig. 1；

Fig. 4 is the side schematic view of the first bearing unit in Fig. 3；

Fig. 5 is the structural schematic diagram of the second bearing unit in Fig. 1；

Fig. 6 is the schematic diagram of the section structure of the second bearing unit in Fig. 1；

Fig. 7 is the structural schematic diagram of the third bearing unit in Fig. 2.

Specific embodiment

For a clearer understanding of the technical features, objectives and effects of the utility model, now control attached drawing is detailed Illustrate specific embodiment of the present utility model.

As shown in Figure 1 and Figure 2, the multi-vessel system in one preferred embodiment of the utility model include pressure vessel 6, Steam generator 7, main pump 8, steam generator 7 include two, and the border of pressure vessel 6 is symmetrically arranged in, and main pump 8 wraps Two are included, the border of pressure vessel 6 is symmetrically set, steam generator 7, main pump 8 replace in the border of pressure vessel 6 Setting, and be evenly spaced in the border of pressure vessel 6.

Steam generator 7 is connect by first pipe 71 with pressure vessel 6 respectively, and main pump 8 passes through second pipe 81 respectively It is connect with pressure vessel 6, a part after each component connection of multi-vessel system as reactor-loop.In other embodiments In, the quantity of steam generator 7 and main pump 8 can also more than two.In general, passing through pipeline respectively in steam generator 7 or main pump 8 After connecting with pressure vessel 6, steam generator 7 or main pump 8 itself thermal expansion and the system being superimposed are thermally expanded all in the axis of pipeline Line direction.

Pressure vessel 6, steam generator 7, the main equipment that main pump 8 is reactor, pressure vessel 6 is as entire reactor The centre of location, equipment center position is constant, constitutes a closed loop by pipeline with steam generator 7, main pump 8.

When reactor is in cold conditions, each Main Equipment Center of primary Ioops is located at cold position.Each main equipment of primary Ioops heap, Temperature can change between room temperature and reactor operating temperature when shutdown, therefore reactor pressure vessel 6 can be generated because of temperature change Thermal expansion, steam generator 7 and main pump 8 not only itself generate thermal expansion, to be also superimposed pipeline thermal stretching and thermal walking occurs.

Further, modularization layering supporting arrangement is provided with outside multi-vessel system, modularization layering supporting arrangement includes First bearing unit 1, the second bearing unit 2 and third bearing unit 3.

Each steam generator 7 side opposite with pressure vessel 6 is equipped with the first bearing unit 1, to steam generator 7 It holds, and limits thermal walking and steam hair that steam generator 7 moved along the axial direction of first pipe 71 and discharged system superposition The thermal expansion of raw device 7 itself.

Each main pump 8 side opposite with pressure vessel 6 is equipped with the first bearing unit 1, supports to main pump 8, and limit main pump 8 The thermal walking of system superposition and the thermal expansion of main pump 8 itself are moved and discharged along the axial direction of second pipe 81.

Several first bearing units 1 are distributed in the border of pressure vessel 6, release stress container 6 in radial directions from swollen Displacement.

The horizontal two sides of first pipe 71 are respectively equipped with the second bearing unit 2 supported to steam generator 7, release The thermal expansion of steam generator 7 being superimposed to from swollen and system at steam generator.It in other embodiments, can also be by second Bearing unit 2 is cancelled, and supports by each first bearing unit 1, third bearing unit 3, limits each main equipment displacement limited In range.The first bearing unit 1 supported to steam generator 7, main pump 8 can also be cancelled, by foundation support 9 to steam generation Device 7, main pump 8 are supported.

Circumferentially arranged with two third bearing units 3, each third bearing unit in the outside wall surface of each steam generator 7 3 one end are connect with steam generator 7, and the other end is stretched out and fixed, each steam generator 7 to the direction far from pressure vessel 6 Outer each third bearing unit 3 is opposite symmetrical with the axis horizontal of the first pipe 71 of corresponding steam generator 7 connection.

Circumferentially arranged with two third bearing units 3, each 3 one end of third bearing unit in the outside wall surface of each main pump 8 It is connect with main pump 8, the other end is stretched out and fixed, the third bearing unit 3 outside each main pump 8 to the direction far from pressure vessel 6 It is opposite symmetrical with the axis horizontal of the second pipe 81 of corresponding main pump 8 connection.

Preferably, the height and position of third bearing unit 3 is higher than the height and position of the first bearing unit 1, is layered to reaction Each main equipment of heap primary Ioops is supported.

The third bearing unit 3 on upper layer is supported for main equipment upper level direction, in the variation of main equipment cold and hot, is released Heat release expansion；Under the amount of impact loads operating conditions such as the periodic alternating load of marine environment, earthquake or accident, main equipment is kept Stable state limits the horizontal displacement of upper part, to reduce moment of flexure suffered by lower support, stress, the wind for reducing container overturning Danger.

First bearing unit of lower layer uses modularized design, for pressure vessel, the steam generator etc. of characteristics of compact layout Main equipment, modular design structure keep entire supporting structure simple, occupy little space, and have saved compact Layout reactor nuclear island Space, convenient for the installation O&M of nuclear island other assemblies.

It is loaded to base that modularization layering supporting arrangement is mainly used for transmitting pressure vessel 6, steam generator 7, the institute of main pump 8 Plinth bearing 9, the thermal walking that release reactor-loop generates, caused by being reasonably resistant to the periodical alternating load of marine environment Inertial load improves the reliability of equipment.

Modularization layering supporting arrangement rigidity is very strong, the relative position of each main equipment can be effectively fixed, in accident conditions When effectively limit the displacement of each main equipment in limited range, reduce the probability of connecting pipe breakage.

Supporting arrangement modularized design can discharge what the main equipment in the variation of reactor-loop system cold and hot state occurred Thermal walking, and can carry because long time period such as waves, tilts at alternating load and the external impact load caused by bad working environments, Reduce tired risk；The type of bearing is reduced, shortens the reduction with manufacturing cost conducive to the design cycle.

Modularization layering supporting arrangement can effectively balance various load, including periodical alternating load and impact carry Lotus, while again there is certain lateral degrees of freedom can discharge thermal expansion and thermal walking, reduce thermal stress, optimizes pipeline stress.

Modularization be layered supporting arrangement further include horizontally disposed fulcrum bearing 91, be respectively equipped in fulcrum bearing 91 respectively with pressure Force container 6, corresponding first sets of holes of 7 section outer dimension of steam generator, the second sets of holes, the first sets of holes are set in pressure vessel 6 outer ring, the second sets of holes are set in the outer ring of steam generator 7, support to pressure vessel 6, steam generator 7.

Fulcrum bearing 91 is typically mounted on foundation support 9, and 91 loaded area of fulcrum bearing increases, can disperse it is each to load, Enhance bearing capacity.

In conjunction with shown in Fig. 1 to Fig. 4, the first bearing unit 1 includes for being mounted on pressure vessel 6, steam generator 7, master The the first bearing key 11 stretched out on the main equipments sides such as pump 8 and in the horizontal direction and the first bearing key 11 is supported first Bearing assembly 12.The first bearing being arranged radially along pressure vessel 6 of key 11 on pressure vessel 6, discharge radial direction from swollen； The first bearing key 11 on steam generator 7 stretches out setting along the axis direction along first pipe 71, allows steaming in expanded by heating Vapour generator 7 is moved along the axis direction of first pipe 71；The first bearing key 11 on main pump 8 is along the axis along second pipe 81 Setting is stretched out in direction, and main pump 8 is allowed to move along the axis direction of second pipe 81 in expanded by heating.

First bearing assembly 12 is supported by fundamental mechanisms such as the body abutment parts of reactor, and the first bearing assembly 12 is formed with Sliding eye 13 corresponding with the first bearing 11 shape of key, the height and position of sliding eye 13 are corresponding with the first bearing 11 position of key.The One bearing key 11 is plugged in sliding eye 13, and there are gaps between the first bearing key 11 and sliding eye 13, supports key 11 first When generating mobile with the expansion of main equipment, the first bearing key 11 expansion and with and with 13 close-fitting of sliding eye.

Close-fitting refers to that displacement of the first bearing key 11 with sliding eye 13 perpendicular to glide direction is limited, and the first bearing Key 11 is inserted into the section shape size of 13 part of sliding eye and the shape sizableness of sliding eye 13 after expanding, allow after expansion the One bearing key 11, without complete restrained fixation, can satisfy the first bearing key 11 and continuing to expand in the axial direction of sliding eye 13 There can be displacement along sliding eye 13 when extension.

When installing the first bearing unit 1, the first bearing key 11 of the axis direction and corresponding position of sliding eye 13 is stretched Direction is identical out, not only releasable main equipment thermal walking, but also can limit the displacement and rotation of remaining all directions, realizes the displacement of equipment Guiding, orientating function.

First bearing unit 1 will not only discharge itself expansion, while also discharge superposition thermal walking.First bearing unit 1 For main bearing structure, both can the self weight of load bearing equipment vertically downward, the axial load and torsion of accident conditions such as tumbling can also be carried Square；In addition, the first bearing unit 1 is compact-sized, effective load transmission can be realized in small space.

First bearing assembly 12 includes first base 121 and the upper cover 122 being removably mounted on the upside of first base 121, First base 121 and 122 split of upper cover form sliding eye 13.First bearing key 11 and sliding eye 13 section be it is non-circular, can With limit first bearing key 11 and be correspondingly connected with main equipment rotation, first base 121 and upper cover 122 it is sealed after by first bearing Key 11 is fixed on sliding eye 13.

Preferably, the section shape of the first bearing key 11 and sliding eye 13 is rectangular, in other embodiments, first Hold key 11 and sliding eye 13 section shape can also for can prevent the first bearing key 11 from rotating in sliding eye 13 other are polygon Shape or non-circular structure.When each main equipment uses two or more first bearing units 1, the first bearing key 11 and sliding The section shape in hole 13 can also be circle.

In cold conditions, clearance for expansion is reserved between the first bearing key 11 and sliding eye 13, can be discharged in reactor-loop system The thermal walking that equipment occurs when cold and hot state of uniting variation avoids thermal walking is limited from causing great thermal stress.But system temperature rises To equilibrium temperature, the thermal expansion amount of the first bearing key 11 is by gap filling, and the first bearing assembly 12 is to the first bearing key 11 Lateral degrees of freedom limitation only allows the first bearing key 11 to slide along this axial freedom degree of sliding eye 13.

With the temperature rise of primary Ioops, itself thermal expansion superposition thermal walking of the first bearing key 11 is produced by the first bearing unit 1 Raw specified frictional force is limited, and thermal stress persistently increases.When thermal stress is increased above quiet the rubbing of the first bearing unit 1 setting When wiping power, the first bearing unit 1 takes place sliding, sustained release thermal stress, while equipment center and starts to move to hot position It is dynamic.Entire thermal walking release process can continue until that primary Ioops reach normal operating temperature, and thermal stress suffered by equipment is equal to first The force of sliding friction that bearing unit 1 is set.

After primary Ioops temperature rise terminates to enter steady operational status, each main equipment thermal expansion, thermal walking process terminate, center In stable state, the first bearing unit 1 stops the stiction that sliding generates horizontal direction at this time.First bearing unit 1 is released Heat release stress path terminates.

After primary Ioops enter hot stable operation, the first bearing unit 1 starts to carry the normality being superimposed by marine environment Periodical alternating load.The rolling due to caused by marine environment, pitching, heel, the periodical alternating load of trim and heaving Long term causes each main equipment to bear very big lateral inertial load.

Due to the limitation of sliding eye 13, the first bearing assembly 12 only allows the first bearing key 11 free along sliding friction pair list Degree translation, and limit remaining 5 freedom degree movement.The lasting freedom degree of the by-produced lateral stiction of sliding friction at this time Periodicity alternating load caused by marine environment is resisted in direction, is avoided these alternating loads from acting directly on each main equipment pipeline and is connected The weak links such as place are connect, continues longtime running and generates tired risk.

Using the first bearing unit 1, various load, including periodical alternating load can be effectively balanced, while being had again There is certain lateral degrees of freedom that can discharge thermal expansion and thermal walking, reduce thermal stress, optimizes pipeline stress.

In some embodiments, first base 121 includes pedestal 1211 and erects two blocks on pedestal 1211 1212, two interval of block 1212 settings, upper cover 122 is connected between the upper end of two blocks 1212, with pedestal 1211, block 1212 are enclosed sliding eye 13.In other embodiments, the shape of first base 121 and upper cover 122 can also without limitation, energy Sliding eye 13 is formed after assembling.

Preferably, the horizontal two opposite sides of sliding eye 13 are equipped with the tune of the width dimensions of the horizontal direction of adjustment sliding eye 13 Whole unit 14.In other embodiments, adjustment unit only can also be set on the side in the horizontal two opposite sides of sliding eye 13 14.In other embodiments, adjustment unit 14 can also be cancelled, keeps the width dimensions of the horizontal direction of sliding eye 13 non-adjustable.

Adjustment unit 14 includes the first adjustment plate of the width to adjust the horizontal direction of sliding eye 13, it is preferable that the The thickness of one adjustment plate is adjustable, matches the first adjustment plate thickness in fact by the first bearing 11 moving distance of key under field surveys cold and hot Degree provides the displacement space of the first bearing key 11 and unilateral limit under cold and hot state, so as to adjust between the first bearing key 11 Frictional force.Stably and controllable horizontal friction force is provided by Variable Control, can be carried because long time period waves, inclines Lateral force caused by the bad working environments such as oblique, optimizes primary coolant circuit pipe stress, reduces tired risk.

Further, first bearing key 11 side opposite with the first adjustment plate with the first adjustment plate equipped with being slidably matched Sideskid 111.Sideskid 111 and the first adjustment plate constitute friction pair, and sideskid 111 and the first bearing key 11 move together protection First bearing key 11 is not worn.

In some embodiments, the side opposite with the first bearing downside of key 11 of sliding eye 13 is equipped with sliding unit 15, for the first bearing key 11 along the axial movement of sliding eye 13.By live real with processing 15 thickness of sliding unit, micro tune The absolute altitude and levelness of finishing equipment.In other embodiments, sliding unit 15 can also be cancelled.

In general, sliding unit 15 includes the first sliding panel；The downside of first bearing key 11 is equipped with sliding with the first sliding panel The horizontal slide plate 112 of dynamic cooperation.Horizontal slide plate 112 is fixed on the first bearing key 11 in the following, to constitute friction with the first sliding panel secondary, Stably and controllable frictional force is provided, while being produced relative sliding with the first sliding panel, thermal walking is discharged.It preferably, can also be simultaneously Horizontal slide plate 112 is set in the upper side of the first bearing key 11, it is secondary to constitute friction with upper cover 122.

Preferably, the first bearing assembly 12 further includes the support adjustment plate 123 installed for first base 121, support adjustment Plate 123 is between first base 121 and fulcrum bearing 91, the real horizontal adjustment and absolute altitude fine tuning that main equipment is realized with thickness in scene.

In conjunction with shown in Fig. 1, Fig. 2, Fig. 5, Fig. 6, the second bearing unit 2 includes the second bearing assembly 21 and sliding pedestal component 22, the second bearing assembly 21 is mounted on the corresponding side of steam generator 7 and extends laterally along level.Slide pedestal component 22 Be equipped with horizontally disposed bearing surface, the second bearing assembly 21 can along bearing surface in the horizontal direction slidably with sliding pedestal component 22 cooperations to discharge the thermal walking of steam generator 7 in the horizontal plane, and limit displacement range in the horizontal plane.

In heap cold and hot change procedure, the second bearing assembly 21 is by the friction pair edge between sliding pedestal component 22 First pipe 71 is relative to sliding 22 restricted movement of pedestal component.In some embodiments, the second bearing assembly 21 and sliding seat It can not be oriented between body component 22, allow and do nondirectional relative movement between the two, realize that steam generator 7 and pressure hold The multidirectional thermal walking not axial in first pipe 71 of device 6.

Preferably due to which multidirectional thermal walking may be implemented, several can be distributed in the border of each steam generator 7 Two bearing units 2.Second bearing unit, 2 major function is to carry the vertical and part lateral load of steam generator 7, Duo Ge Two bearing units 2 constitute complete bearing together, limit the rotary freedom and vertical translation freedoms of steam generator 7, rise To can effectively limit 7 freedom degree of steam generator and discharge the work of system multidirectional thermal walking caused by cold and hot changes With.

In some embodiments, one end of the second bearing assembly 21 is connect with steam generator 7, the second bearing assembly 21 The other end protrudes horizontally up.Sliding pedestal component 22 is installed in fulcrum bearing 91, is supported to the second bearing assembly 21, is allowed the second bearing It is slidably matched on the upside of component 21 and bearing surface.

Further, the second bearing assembly 21 includes the second bearing key 211 protruded horizontally up, and second supports the one of key 211 End is connect with steam generator 7, and the other end stretches out horizontally outward.

Second bearing assembly 21 further includes the adjustment slide plate 212 being fixedly connected with the second bearing key 211, adjusts slide plate 212 It is slidably matched with bearing surface.It adjusts slide plate 212 to be located between the second bearing key 211 and bearing surface, only allows and adjust slide plate 212 and branch Bearing surface is slidably matched.It adjusts slide plate 212 and is equipped with card slot, the second bearing key 211, which is engaged in card slot, to achieve a fixed connection.

Preferably, sliding pedestal component 22 includes the second sliding panel 221, and bearing surface is formed on the second sliding panel 221.Branch Bearing surface is slidably matched with the second bearing assembly 21, produces relative sliding when steam generator 7 discharges thermal walking.Second bearing group Part 21 can form friction pair with sliding pedestal component 22, can get stable frictional force and can pass through Variable Control.

Further, the second sliding panel 221 has wear-resistant and stable friction factor characteristic using material, slides with adjustment Plate 212 constitutes friction pair, can add lubricating oil etc. by the material of replacement different coefficients of friction, in rubbing surface, providing stabilization can The frictional force of control, while being produced relative sliding with adjustment slide plate 212, discharge thermal walking.

Sliding pedestal component 22 also typically includes second base 222, and the second sliding panel 221 is mounted in second base 222, The second sliding panel 221 of unlike material can be replaced, the frictional force for controlling the second sliding panel 221 and adjusting between slide plate 212 is big It is small.

Further, sliding pedestal component 22 further includes the second adjustment plate 223 installed for second base 222, and second adjusts Whole plate 223 is set to the downside of second base 222, and between second base 222 and main body support 3, and scene is real real with thickness The horizontal adjustment and absolute altitude fine tuning of existing main equipment.

Second bearing unit 2 further includes the axial limiting being connected between the second bearing assembly 21 and sliding pedestal component 22 Mechanism 4, the displacement with the second bearing assembly of restriction 21 with sliding pedestal component 22 in the stretching direction of the second bearing assembly 21, Simultaneously, moreover it is possible to which limitation generates movement in the height direction.

Axial limiting mechanism 4 includes the connecting rod 41 for stretching out direction setting along the second bearing assembly 21, connecting rod 41 Both ends are respectively equipped with the first lockhole 411, the second lockhole 412, are equipped with respectively in the first lockhole 411, the second lockhole 412 and second The closure that bearing assembly 21, sliding pedestal component 22 connect.

Second lockhole 412 is to stretch out the extended kidney slot in direction along the second bearing assembly 21, to allow the second bearing Component 21 and the opposite sliding of sliding pedestal component 22, and limit slide displacement amount.It in other embodiments, can also be by the first lockhole 411 are made into and stretch out the extended kidney slot in direction along the second bearing assembly 21, or by the first lockhole 411, the second lockhole 412 are made into kidney slot, can limit sliding stroke.

Further, in order to limit sliding scale of the opposite sliding pedestal component 22 of the second bearing assembly 21 on lateral, Second base 222 is equipped with the lateral Displacement mechanism 5 limited to the lateral position of the second bearing assembly 21 in the horizontal plane. The position that lateral Displacement mechanism 5 limits supports the position of key 211 according to cold and hot second to adjust, and realizes the second bearing assembly 21 It is displaced sideways extreme position limitation.

In some embodiments, lateral Displacement mechanism 5 includes two groups for being located at the horizontal two opposite sides of the second bearing assembly 21 Position-limiting unit 51, each position-limiting unit 51 include positioning table 511 and the locating part 512 being arranged on positioning table 511.At it In his embodiment, position-limiting unit 51 only can also be set in side, the other side is that retaining wall is limited.

One end of locating part 512 is opposite with the side of the second bearing assembly 21, and locating part 512 is on positioning table 511 Axial position is adjustable, and to adjust the spacing between two locating parts 512, the spacing between two locating parts 512 defines the second bearing The lateral sliding range of component 21.Locating part 512 can be the screw rod being spirally connected with positioning table 511, be convenient for adjusting axial position.

Lateral Displacement mechanism 5 can limit displacement of the main equipment under accident conditions, can effectively realize steam generator 7 With the equal main equipments of main pump 8 not in the multidirectional thermal walking of connection short tube axial direction, the conditional release to multidirectional thermal walking is realized.

Friction pair between second bearing assembly 21 and sliding pedestal component 22 is by Variable Control, in adjustment slide plate 212 The friction pair for having limit is established between the second sliding panel 221, by Variable Control frictional force size a to range, realizes heat Its stress generated, which is greater than frictional force, when expansion, thermal walking occur can push the secondary sliding of friction, and when temperature is stablized each steam hair Horizontal component can be offset or be shared to frictional force when raw device 7, first pipe 71 keep stablizing, and then optimize the stress feelings of pipeline Condition avoids pipeline fatigue phenomenon.

The second bearing unit 2 has a multidirectional friction auxiliary structure simultaneously, has both met the multidirectional of the different fulcrums of steam generator 7 Thermal expansion, thermal walking requirement, while controllable and stable frictional force can be provided again and adapt to long time period under marine environment Alternating load optimizes the distribution of force of steam generator 7, avoids fatigue failure.

In reactor work, with the temperature rise of primary Ioops, steam generator 7 itself thermal expansion superposition thermal walking is by second The by-produced specified frictional force that rubs between bearing assembly 21 and sliding pedestal component 22 is limited, and thermal stress persistently increases. When thermal stress is increased above the stiction of the secondary setting of friction, friction pair takes place sliding, sustained release thermal stress, together When steam generator 7 start it is mobile to hot position.

Entire thermal walking release process can continue until that primary Ioops reach normal operating temperature, and steam generator 7 is heated Stress is equal to the force of sliding friction of the secondary setting of friction.After primary Ioops temperature rise terminates to enter steady operational status, each main equipment heat Expansion, thermal walking process terminate, and center is in stable state, the secondary static friction for stopping sliding and generating horizontal direction of friction at this time Power, the friction pair release thermal stress process between the second bearing assembly 21 and sliding pedestal component 22 terminate.

Friction pair after primary Ioops enter hot stable operation, between the second bearing assembly 21 and sliding pedestal component 22 Start to carry the normality periodicity alternating load being superimposed by marine environment.The rolling due to caused by marine environment, pitching, heel, Trim and the periodical alternating load long term of heaving cause each main equipment to bear very big lateral inertial load.But Friction pair between second bearing assembly 21 and sliding pedestal component 22 is the freedom degree with limit in the horizontal direction, hot and cold State unilateral can only laterally limit.The by-produced lateral stiction that rubs at this time is lasting to be resisted caused by marine environment periodically Alternating load avoids the weak links such as 7 pipeline junction of steam generator from generating tired risk.

In other embodiments, it can also be fixedly connected for sliding pedestal component 22 with steam generator 7, allow the second bearing group Part 21 is installed on foundation support 9, and one end of the second bearing assembly 21 is protruded horizontally up to the outside wall surface of steam generator 7.It is sliding The bearing of dynamic pedestal component 22 is arranged down, and the second bearing assembly 21 is supported on the downside of bearing surface.

In conjunction with shown in Fig. 1, Fig. 2 and Fig. 7, the support pattern of each third bearing unit 3 is centrosymmetric arrangement, arrangement It is simple and effective, pass through Stress decomposition, it is ensured that the stable state of the main equipments container such as steam generator 7, main pump 8.

Preferably, each third bearing unit 3 stretches out in the horizontal direction, and force provides horizontal supporting in the horizontal direction, Make the stress equalization of the main equipments containers such as steam generator 7, main pump 8, the risk that will not be tumbled.

In such a way that third bearing unit 3 is supported in the horizontal direction, in primary tanks such as steam generator 7, main pumps 8 When cold and hot changes, third bearing unit 3 allows the thermal expansion of main equipments container, the thermal walkings such as steam generator 7, main pump 8 etc. low The generation of speed displacement, discharges thermal stress within certain limits.

Further, each third bearing unit 3 is located at the upper end of the steam generator 7, main pump 8 that are correspondingly connected with, Ke Yi Under the amount of impact loads operating conditions such as the periodic alternating load of marine environment, earthquake or accident, steam generator 7, main pump 8 are kept Equal main equipments container is in stable state, limits the horizontal displacement of upper part, reduces moment of flexure, stress suffered by lower support to subtract The risk that small container overturns；Optimize pipeline stress, avoids tired risk.

In some embodiments, third bearing unit 3 includes the first trunnion 31 and third bearing assembly 32, each first trunnion 31 are separately positioned in the outside wall surface of the steam generator 7, main pump 8 that are correspondingly connected with.First trunnion 31 is welded on steam generator 7,8 top of main pump provides installation site for upper level bearing.32 one end of third bearing assembly and the rotation of the first trunnion 31 connect It connects, the other end is stretched out to the direction far from pressure vessel 6, and is fixedly mounted.

And stretching direction and the corresponding steam generator 7 of the third bearing assembly 32 of steam generator connection connect the The axis angle of one pipeline 71 is acute angle, in this way, the supporting direction of each third bearing unit 3 is outside in the border of pressure vessel 6, And be uniformly distributed, guarantee the stress balance of all directions.

Further, and main pump connection third bearing assembly 32 stretching direction connected with corresponding main pump 8 second The axis angle of pipeline 81 is acute angle, in this way, the supporting direction of each third bearing unit 3 is outside in the border of pressure vessel 6, and It is uniformly distributed, guarantees the stress balance of all directions.

In some embodiments, third bearing unit 3 there are two being set in the outside wall surface of each steam generator 7；Each steaming The angle of two third bearing assemblies 32 in 7 outside wall surface of vapour generator is less than 180 degree, guarantees the pulling force of third bearing unit 3 Direction is the axis direction along the first pipe 71 connected with corresponding steam generator 7, and far from pressure vessel 6, guarantee pair The bearing of steam generator 7.In other embodiments, it if can guarantee the bearing dynamic balance of corresponding steam generator 7, can also set More than two third bearing units 3 are set to connect with one of steam generator 7.

First trunnion 31 of each third bearing unit 3 is along corresponding steam generator 7 in the outside wall surface of steam generator 7 Extend radially out, and perpendicular to the axis of the first pipe 71 connected with corresponding steam generator 7, allow the thirds of two sides Bearing unit 3 is more balanced to the supporting role power of steam generator 7 controllable.In other embodiments, the first trunnion 31 is to steaming The direction stretched out outside vapour generator 7 can also be in a certain angle with corresponding first pipe 71.

In some embodiments, third bearing unit 3 there are two being set in the outside wall surface of each main pump 8；Each 8 outer wall of main pump The angle of two third bearing units 3 on face be less than 180 degree, guarantee third bearing unit 3 direction of pull be along with it is corresponding The axis direction of second pipe 81 that connects of main pump 8 guarantee the bearing to main pump 8 and far from pressure vessel 6.In other realities Apply in example, if can guarantee the bearing dynamic balance of corresponding main pump 8, may also set up more than two third bearing units 3 with wherein One main pump 8 connects.

The first trunnion 31 radially outward stretching along corresponding main pump 8 of each third bearing unit 3 in the outside wall surface of main pump 8 Out, and perpendicular to the axis of the second pipe 81 connected with corresponding main pump 8, allow the third bearing unit 3 of two sides to main pump 8 Supporting role power is more balanced controllable.In other embodiments, the direction that the first trunnion 31 is stretched out to outside steam generator 7 can also It is in a certain angle with corresponding second pipe 81.

Further, third bearing assembly 32 includes the first damper 321 and the first support 322, and the first damper 321 connects It connects between the first support 322 and the first trunnion 31, the first support 322 is fixedly mounted, and the first support 322 is bolted on The angled arrangement in stretching direction at reaction cabin bulkhead, with the first trunnion 31.Preferably, the first damper 321 and first It is also rotation connection between support 322.

Such arrangement, the supporting role that 3 horizontal supporting of third bearing unit connecting with steam generator 7 provides Power is most of along 71 axis direction of first pipe, and another part can keep steam generator 7 along the radial direction of steam generator 7 In stable state, the horizontal displacement of upper part is limited, reduces moment of flexure, stress suffered by lower support to reduce steam generator 7 risks overturned, conditional release steam generator 7 thermally expand, and optimize 71 stress of first pipe.

The supporting role power that 3 horizontal supporting of third bearing unit connecting with main pump 8 provides is most of along second pipe 81 Axis direction, another part can keep main pump 8 to be in stable state, limit the horizontal position of upper part along the radial direction of main pump 8 It moving, reduces moment of flexure suffered by lower support, stress to reduce the risk of the overturning of main pump 8, conditional release main pump 8 thermally expands, Optimize 81 stress of second pipe.

Gapless bearing between the main equipments container such as the first bearing unit and steam generator 7 of horizontal supporting, main pump 8, In the case where earthquake operating condition or impact, waving load, the main equipments container cartridge such as steam generator 7, main pump 8 body wall is directly propped up with level External applied load can be absorbed by damper or be transferred to construction by bearing structure contact, can be to avoid compared to contactless bearing Gap has an adverse effect to performances such as the antidetonations of container.

The modularization layering bearing of system can effectively balance various load, including periodical alternating load and impact carry Lotus, while again there is certain lateral degrees of freedom can discharge thermal expansion and thermal walking, reduce thermal stress, optimizes pipeline stress.Module The function of changing layering supporting arrangement mainly has the following:

1. playing the role of connection, positioning main equipment and foundation structure, limitation main equipment displacement is made in design conditions load It is held it in the range of permission under；

2. under the conditions of various operating loadings, what the self weight and media flow for carrying main equipment and contained medium generated Load, and transfer loads in the foundation structure of cabin；

3. under the accident conditions such as pipeline large break, external impact, buffering, release shock loading prevent each main equipment Fall, tumble, keeps reactor coolant loop boundary integrity；

4. generating the working characteristics of very big thermal expansion and thermal walking for reactor coolant loop cold and hot state, branch is installed Restricted release can be carried out by setting, and main equipment thermal stress is avoided to transfinite and destroy.The periodicity of superposition is limited under nominal situation simultaneously The lateral external applied load of normality, alleviate equipment pipe fatigue risk.

It is to be appreciated that above-mentioned each technical characteristic can be used in any combination and unrestricted.

The above description is only the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all Equivalent structure or equivalent flow shift made based on the specification and figures of the utility model, is applied directly or indirectly in Other related technical areas are also included in the patent protection scope of the utility model.

Claims (17)

1. a kind of modularization for multi-vessel system is layered supporting arrangement, which is characterized in that the multi-vessel system includes pressure Force container (6), steam generator (7), main pump (8), the steam generator (7) include at least two, are symmetrically arranged In the border of the pressure vessel (6), the main pump (8) includes at least two, and the pressure vessel is symmetrically arranged in (6) border, the steam generator (7), main pump (8) are arranged alternately in the border of the pressure vessel (6), and in the pressure The border of force container (6) is evenly spaced on, and the steam generator (7) is held by first pipe (71) and the pressure respectively Device (6) connection, the main pump (8) are connect by second pipe (81) with the pressure vessel (6) respectively, the modularization layering Supporting arrangement includes the first bearing unit (1) and third bearing unit (3)；

Several first bearing units (1) are distributed in the border of the pressure vessel (6), discharge the pressure vessel (6) and exist In the radial direction from swollen displacement；

It is each described circumferentially arranged at least two third bearing units (3) in the outside wall surface of each steam generator (7) Third bearing unit (3) one end is connect with the steam generator (7), direction of the other end to separate the pressure vessel (6) It stretches out and fixes, each third bearing unit (3) of each steam generator (7) outside is opposite with the corresponding steam generator (7) axis horizontal of the first pipe (71) connected is symmetrical；

Circumferentially arranged at least two third bearing units (3), each third branch in the outside wall surface of each main pump (8) Bearing unit (3) one end is connect with the main pump (8), and the other end is stretched out and fixed to the direction far from the pressure vessel (6), often The axis of the opposite second pipe (81) connected with the corresponding main pump (8) of the third bearing unit (3) of one main pump (8) outside Horizontal symmetrical；

The height and position of the third bearing unit (3) is higher than the height and position of first bearing unit (1).

2. modularization according to claim 1 is layered supporting arrangement, which is characterized in that each steam generator (7) with The opposite side of the pressure vessel (6) is equipped with first bearing unit (1), supports to the steam generator (7), and limit The fixed steam generator (7) is mobile along the axial direction of the first pipe (71) and discharges the thermal walking of system superposition and institute State the thermal expansion of steam generator (7) itself；

Each main pump (8) side opposite with the pressure vessel (6) is equipped with first bearing unit (1), to the master (8) bearing is pumped, and limits the heat of axial direction movement and release system superposition of the main pump (8) along the second pipe (81) Displacement and the thermal expansion of the main pump (8) itself.

3. modularization according to claim 1 is layered supporting arrangement, which is characterized in that the modularization is layered supporting arrangement It further include the second bearing unit (2) for supporting and limiting displacement range in the horizontal plane；

It is single that the horizontal two sides of the first pipe (71) are respectively equipped with the second bearing supported to the steam generator (7) First (2), discharge the thermal expansion of the steam generator (7) being superimposed at steam generator from swollen and system.

4. modularization according to any one of claims 1 to 3 is layered supporting arrangement, which is characterized in that the modularization point Layer supporting arrangement further includes horizontally disposed fulcrum bearing (91), is respectively equipped on the fulcrum bearing (91) and holds respectively with the pressure Device (6), corresponding first sets of holes of steam generator (7) section outer dimension, the second sets of holes, first sets of holes are set in described The outer ring of pressure vessel (6), second sets of holes are set in the outer ring of the steam generator (7).

5. modularization according to claim 2 is layered supporting arrangement, which is characterized in that the first bearing unit (1) packet Include for be mounted on pressure vessel (6), steam generator (7), on the corresponding side of main pump (8) and in the horizontal direction stretch out One bearing key (11) and the first bearing assembly (12) that first bearing key (11) is supported；

First bearing assembly (12) be formed with the corresponding sliding eye (13) of first bearing key (11) shape, described the One bearing key (11) is plugged in the sliding eye (13), between first bearing key (11) and the sliding eye (13) there are Gap generates shifting with the expansion of the pressure vessel (6), steam generator (7), main pump (8) in first bearing key (11) When dynamic, the first bearing key (11) expansion and with the sliding eye (13) close-fitting.

6. modularization according to claim 5 is layered supporting arrangement, which is characterized in that the first bearing assembly (12) packet The upper cover (122) for including first base (121) and being removably mounted on the upside of the first base (121), the first base (121) formed the sliding eye (13) with upper cover (122) split, it is described first bearing key (11) and the sliding eye (13) break Face is non-circular；

The first base (121) includes pedestal (1211) and erects two blocks (1212) on the pedestal (1211), Two block (1212) interval settings, the upper cover (122) are connected between the upper end of two blocks (1212), with The pedestal (1211), block (1212) are enclosed the sliding eye (13).

7. modularization according to claim 5 or 6 is layered supporting arrangement, which is characterized in that the water of the sliding eye (13) At least side in flat two opposite sides is equipped with the adjustment unit for adjusting the width dimensions of horizontal direction of the sliding eye (13) (14)；

The adjustment unit (14) includes the first adjustment plate to the width for adjusting the horizontal direction of the sliding eye (13)；

First bearing key (11) side opposite with the first adjustment plate is equipped with to be slidably matched with the first adjustment plate Sideskid (111).

8. modularization according to claim 5 or 6 is layered supporting arrangement, which is characterized in that the sliding eye (13) and institute The opposite side in downside for stating the first bearing key (11) is equipped with sliding unit (15), for first bearing key (11) along described The axial movement of sliding eye (13)；

The sliding unit (15) includes the first sliding panel；The downside of first bearing key (11) is equipped with to be slided with described first The horizontal slide plate (112) that movable plate is slidably matched.

9. modularization according to claim 3 is layered supporting arrangement, which is characterized in that the second bearing unit (2) packet Include the second bearing assembly (21) and sliding pedestal component (22)；

Second bearing assembly (21) is mounted on the corresponding side of the steam generator (7) and extends laterally along level；

The sliding pedestal component (22) is equipped with horizontally disposed bearing surface, and second bearing assembly (21) can be along the branch Bearing surface slidably cooperates with the sliding pedestal component (22) in the horizontal direction, to discharge the steam generator (7) in level Thermal walking on face, and limit displacement range in the horizontal plane.

10. modularization according to claim 9 is layered supporting arrangement, which is characterized in that second bearing assembly (21) Including the second bearing key (211) protruded horizontally up；

Second bearing assembly (21) further includes the adjustment slide plate (212) being fixedly connected with second bearing key (211), institute Adjustment slide plate (212) is stated to be slidably matched with the bearing surface.

11. modularization according to claim 9 is layered supporting arrangement, which is characterized in that the sliding pedestal component (22) Including the second sliding panel (221), the bearing surface is formed on second sliding panel (221), the bearing surface and described the Two bearing assemblies (21) are slidably matched, and produce relative sliding when the steam generator (7) discharge thermal walking；

The sliding pedestal component (22) further includes second base (222), and second sliding panel (221) is mounted on described second On pedestal (222)；

Sliding pedestal component (22) further includes the second adjustment plate (223) for the second base (222) installation.

12. modularization according to claim 11 is layered supporting arrangement, which is characterized in that on the second base (222) Equipped with the lateral Displacement mechanism (5) limited to the lateral position of second bearing assembly (21) in the horizontal plane；

The lateral Displacement mechanism (5) includes two groups of position-limiting units positioned at the horizontal two opposite sides of second bearing assembly (21) (51), each position-limiting unit (51) includes the locating part of positioning table (511) and setting on the positioning table (511) (512)；

One end of the locating part (512) is opposite with the side of second bearing assembly (21), and the locating part (512) exists Axial position on the positioning table (511) is adjustable, to adjust the spacing between two locating parts (512).

13. being layered supporting arrangement according to the described in any item modularizations of claim 9 to 12, which is characterized in that described second Bearing unit (2) further includes the axial limiting being connected between second bearing assembly (21) and sliding pedestal component (22) Mechanism (4), to limit second bearing assembly (21) and the sliding pedestal component (22) in second bearing assembly (21) displacement in stretching direction；

The axial limiting mechanism (4) includes the connecting rod (41) for stretching out direction setting along second bearing assembly (21), The both ends of the connecting rod (41) are respectively equipped with the first lockhole (411), the second lockhole (412), first lockhole (411), The closure connecting with second bearing assembly (21), sliding pedestal component (22) is equipped in two lockholes (412) respectively；

At least one of first lockhole (411), the second lockhole (412) are the stretching along second bearing assembly (21) The extended kidney slot in direction, to allow second bearing assembly (21) and the sliding pedestal component (22) to slide relatively, And limit slide displacement amount.

14. modularization according to claim 1 is layered supporting arrangement, which is characterized in that the third bearing unit (3) is equal It stretches out in the horizontal direction, and is located at the upper end of the corresponding steam generator (7), main pump (8).

15. modularization according to claim 14 is layered supporting arrangement, which is characterized in that the third bearing unit (3) Including the first trunnion (31) and third bearing assembly (32), each first trunnion (31) is separately positioned on the steam generator (7), in the outside wall surface of main pump (8)；

Each described third bearing assembly (32) one end and first trunnion (31) are rotatablely connected, and the other end is to far from the pressure The direction of container (6) is stretched out, and is fixedly mounted；

And the stretching direction of the third bearing assembly (32) of steam generator connection and the corresponding steam generation The axis angle of the first pipe (71) of device (7) connection is acute angle；

And the stretching direction of the third bearing assembly (32) of main pump connection and the corresponding main pump (8) connect the The axis angle of two pipelines (81) is acute angle.

16. modularization according to claim 15 is layered supporting arrangement, which is characterized in that each steam generator (7) there are two being set in outside wall surface third bearing unit (3)；

The first trunnion (31) of each third bearing unit (3) is along corresponding in the outside wall surface of the steam generator (7) Steam generator (7) extend radially out, and manage perpendicular to first with corresponding steam generator (7) connection The axis in road (71)；

There are two being set in the outside wall surface of each main pump (8) third bearing unit (3)；

The first trunnion (31) of each third bearing unit (3) is along the corresponding master in the outside wall surface of the main pump (8) Pump (8) extends radially out, and perpendicular to the axis of the second pipe (81) connected with the corresponding main pump (8).

17. modularization according to claim 16 is layered supporting arrangement, which is characterized in that each steam generator (7) angle of two third bearing assemblies (32) outside is less than 180 degree；

The angle of the two third bearing assemblies (32) of each main pump (8) outside is less than 180 degree；

The third bearing assembly (32) includes the first damper (321) and the first support (322), first damper (321) it is connected between first support (322) and first trunnion (31), first support (322) is fixedly mounted.