CN202597255U - Coolant drain tank pump used for nuclear reactor - Google Patents

Abstract

The utility model discloses a compact-structure coolant drain tank pump used for a nuclear reactor, which comprises a stator component, a rotor component, a bearing component, a mechanical seal device and a mechanical seal flushing pipeline, wherein the stator component comprises a pump cover, a pump body, a connecting pipe, a base board, a support, a motor frame connected successively from bottom to top, and the rotor component comprises a pump shaft, an impeller, a locking nut and a locking screw; a suction inlet on the pump cover is axially provided; the pump body comprises a water pumping chamber, and a drain outlet is radially arranged on the side face of the water pumping chamber; the upper end of the base board is also connected with a mechanical seal cavity, and an injection flow path and a drain flow path for flushing water are arranged in the mechanical seal cavity; the bearing component comprises an upper bearing and a lower bearing, and the upper bearing is a pair of angular contact ball bearings; the lower bearing is a guide bearing, the guide bearing comprises a metal sheath and a sliding bushing embedded in an inner cavity of the metal sheath in an interference fit way, and the material of the sliding bushing is engineering rubber; and the mechanical seal device is an assembly type double-end-face mechanical seal and is installed in the mechanical seal cavity.

Description

A kind of freezing mixture drain tank pump that is used for nuclear reactor

Technical field

The utility model relates to a kind of freezing mixture drain tank pump that is used for nuclear reactor.

Background technique

The function of reactor coolant drain tank pump (abbreviation main pump) is to make freezing mixture form forced circulation, thereby is sent to steam generator to the heat energy that produces in the reactor, to produce steam, the driving steam turbine acting.Basic demand to it is:

1) can under the unmanned maintenance condition, work safely and reliably for a long time; Be convenient to maintenance, auxiliary system is simple;

2) Runner assembly should be able to provide enough rotary inertias, so that under the station blackout situation, utilizes the running down of main pump that enough flows are provided, and makes reactor core obtain suitable cooling;

3) to lack with the leakage rate of radioactive freezing mixture.

In the AP1000 project, the installing space of equipment is fixed, and therefore, nuclear power plant reactor freezing mixture drain tank pump must be a kind of compact structure and function can satisfy the vertical pump of technical parameter requirement.

Summary of the invention

The purpose of the utility model is in order to overcome the deficiency of existing technology, a kind of freezing mixture drain tank pump that is used for nuclear reactor to be provided, and it can reduce the axial dimension of pump greatly, makes that pump group structure is more compact.

The technological scheme that realizes above-mentioned purpose is: a kind of freezing mixture drain tank pump that is used for nuclear reactor; Comprise stator component, rotor part, bearing part, machine seal apparatus and machine envelope flushing line; Said stator component comprises pump cover, the pump housing, connecting tube, base plate, support, the motor frame that connects successively from bottom to top; Said rotor part comprises pump shaft, impeller and locking nut, wherein

Suction port on the said pump cover is for axially offering;

The said pump housing comprises the pumping chamber of lower end, the closed chamber at middle part and the bearing chamber of upper end, and the lower end mouth of said pumping chamber is coaxial with the suction port on the said pump cover and be communicated with, and exhaust port is radially offered in the side of said pumping chamber;

The upper end of said base plate also connects one and is positioned at the central machine sealing chamber body of said support, is provided with the injection stream and discharge stream of sparge water in this machine sealing chamber body;

The upper end of said support also connects one successively and is positioned at the central bearing support of said motor frame;

Said rotor part also comprises lock screw, and the bottom of the outer circumferential face of said pump shaft is provided with keyway section and thread section successively, and the lower end surface of said pump shaft also is provided with a tapped blind hole coaxial with pump shaft; Said impeller radially is fixed on the keyway section of pump shaft and is arranged in the pumping chamber of the said pump housing through key; Said impeller nut is threaded on the thread section of said pump shaft and with impeller and is axially fixed on the pump shaft; Said impeller nut is the covering cap shape nut, and the surperficial central authorities of the block of impeller nut offer a through hole; Said lock screw passes the through hole of said impeller nut and through in the tapped blind hole that is threaded in said pump shaft;

Said bearing part comprises upper end bearing and bottom end bearing, and said upper end bearing is a pair of angular contact ball bearing and leans against in the inner chamber that is installed in said bearing support privately; Said bottom end bearing is a guide bearing and is installed in the bearing chamber of the said pump housing, and this guide bearing is inlaid in the slide bushing in the inner chamber of metal-coating with comprising metal-coating and interference fit, and the material of said slide bushing is an engineering rubber;

Said machine encapsulation is changed to the unit loading type double mechanical seal and is installed in the said machine sealing chamber body;

Said machine envelope flushing line comprises that one is connected between exhaust port and the said base plate of pumping chamber of the said pump housing and the outlet pipe, parallel with said connecting tube is connected the cleaning hose between outlet pipe and the said machine sealing chamber body and is located at the injection stream and the discharge stream of the sparge water in the machine sealing chamber body.

The above-mentioned freezing mixture drain tank pump that is used for nuclear reactor; Wherein, Said machine seal apparatus comprises machine envelope axle sleeve, a pair of stationary ring, a rotating seat, a pair of rotating ring and a pair of spring; Said machine sealing chamber body is made up of lower chamber and upper cavity, and said lower chamber is fastened between the upper-end surface of base plate inner chamber and base plate of said pump, and said upper cavity is fastened on the upper-end surface of said lower chamber; Said machine envelope axle sleeve is sleeved on through Cock screw on the pump shaft that is positioned at said machine sealing chamber, and the outer circumferential face of this machine envelope axle sleeve is the stepped shaft cylndrical surface that two diameter is little, mid diameter is big; Space between the outer circumferential face of the inner chamber of said machine sealing chamber body and said machine envelope axle sleeve forms machine sealing chamber; Said a pair of stationary ring is fixed on the bottom of said lower chamber and the top of upper cavity through locating stud respectively; Said rotating seat is fixed on the said machine envelope axle sleeve through lock screw and is positioned at the middle part of said machine sealing chamber, and the longitudinal section of this rotating seat is H shape; Said a pair of rotating ring can be inlaid between two up and down and machine envelope axle sleeve of said rotating seat, so that said rotating ring rotates with said pump shaft with moving axially respectively; Said a pair of spring is separately positioned between a pair of rotating ring and the said rotating seat, so that the opposing side of said rotating ring and stationary ring is fitted all the time slidably.

The above-mentioned freezing mixture drain tank pump that is used for nuclear reactor; Wherein, The water inlet of said injection stream is positioned at the top of the outer circumferential face of said machine sealing chamber body, and the water outlet that injects stream is positioned at the bottom of said machine sealing chamber body inner peripheral surface, and said outlet pipe is connected with the water inlet of said injection stream; The drain opening of said discharge stream is positioned at the top of the inner peripheral surface of said machine sealing chamber body, and the backwater mouth of discharging stream is positioned on the lower end surface of said machine sealing chamber body.

The above-mentioned freezing mixture drain tank pump that is used for nuclear reactor, wherein, the upper end of the metal-coating of said bottom end bearing has cover plate, is provided with some mounting holes on this cover plate in uniform way.

The above-mentioned freezing mixture drain tank pump that is used for nuclear reactor; Wherein, Said freezing mixture drain tank pump is provided with the oil sealing mechanism of upper end bearing; This oil sealing mechanism comprises the bearing gland that is connected bearing support upper end and is installed in the outside framework oil seal in the Seal cage of said bearing support that the internal diameter of said bearing gland and the diameter of pump shaft are Spielpassung, and the labyrinth sealing groove is set on the inner peripheral surface of bearing gland; Said outside framework oil seal comprises L shaped metal frame, rubber body and spring ring; Said rubber body has the diapire and the cross section that encircle in interior ring, outer shroud and the connection with outer shroud and takes the shape of the letter U; Outer shroud and diapire are coated on the periphery of said metal frame; Interior ring is sealing lip, and said spring ring is installed on the outer circumferential face of said sealing lip.

The above-mentioned freezing mixture drain tank pump that is used for nuclear reactor, wherein, the gap between the internal diameter of said bearing gland and the diameter of said pump shaft is 0.24～0.26mm.

The above-mentioned freezing mixture drain tank pump that is used for nuclear reactor, wherein, the through hole on the said impeller nut is against on the step surface of this shoulder hole the spiral shell head of said lock screw for going up little one-level shoulder hole down greatly.

The above-mentioned freezing mixture drain tank pump that is used for nuclear reactor; Wherein, Said cleaning hose and said outlet pipe through one be fixed on said base plate upper end the water outlet connection part is connected, this water outlet connection part comprises that outlet port that one section short tube, coaxial with said outlet pipe and that offer an outlet is connected short tube and exports, two are connected to that the flange and at two ends is connected the blind flange on the upper flanges about the short tube.

The above-mentioned freezing mixture drain tank pump that is used for nuclear reactor wherein, is provided with some radiated ribs in uniform way on the outer surface of said bearing support.

The above-mentioned freezing mixture drain tank pump that is used for nuclear reactor, wherein, the quantity of said radiated rib is three to five, the thickness of said radiated rib is 8～12mm.

The technological scheme of the freezing mixture drain tank pump that is used for nuclear reactor of the utility model, adopting liquid is the structure that axially sucks, radially discharges, and can satisfy the size requirement of system to freezing mixture drain tank pump.The Natural Heat Convection mode is adopted in the bearing heat radiation, promptly is provided with the Natural Heat Convection fin on the surface of bearing support, can guarantee the Natural Heat Convection area, can also shorten the axial dimension of bearing support, makes pump structure more compact.In addition, the flushing of machine envelope is adopted from flushing, promptly adopts water inlet down, upper water-out flushing scheme, draws sparge water to the machine envelope in the outlet of the pump housing, can effectively play the effect of flushing, heat radiation.The axial force transmission of entire pump is steady, can effectively guarantee the safe operation of pump group.The freezing mixture drain tank pump structure that is used for nuclear reactor of the utility model is simple, outside sparge water need be provided; Pump group sealability is reliable, long service life; Satisfy the strict demand of AP1000.

Description of drawings

Fig. 1 is the freezing mixture drain tank pump structure schematic representation that is used for nuclear reactor of the utility model;

Fig. 2 is the structural representation of the freezing mixture drain tank pump rotor parts that are used for nuclear reactor of the utility model;

Fig. 3 is the structural representation of the freezing mixture drain tank pump middle (center) bearing parts that are used for nuclear reactor of the utility model;

Fig. 4 is the structural representation of the freezing mixture drain tank pump oil sealing mechanism that is used for nuclear reactor of the utility model;

Fig. 5 is the structural representation of the freezing mixture drain tank pump machine seal apparatus that is used for nuclear reactor of the utility model;

Fig. 6 is the structural representation of the freezing mixture drain tank pump flushing line that is used for nuclear reactor of the utility model.

Embodiment

In order to understand the technological scheme of the utility model better, below through embodiment particularly and combine accompanying drawing at length to explain:

See also Fig. 1, a kind of freezing mixture drain tank pump that is used for nuclear reactor of the utility model comprises stator component, rotor part, bearing part, oil sealing mechanism, machine seal apparatus and machine envelope flushing line.

Stator component comprises pump cover 11, the pump housing 12, connecting tube 13, base plate 14, support 15, motor frame 16, machine sealing chamber body 17 and the bearing support 18 that connects successively from bottom to top, wherein:

Pump cover 11, the pump housing 12, connecting tube 13, base plate 14, support 15 and motor frame 16 connect from bottom to top successively, and base plate 14 is born the effect of transmitting axial force as the basis of entire pump;

Suction port 110 on the pump cover 11 is for axially offering;

The pump housing 12 comprises the pumping chamber of lower end, the closed chamber at middle part and the bearing chamber of upper end, and suction port on the lower end mouth of pumping chamber and the pump cover 11 110 is coaxial and be communicated with, and an exhaust port 120 is radially offered in the side of pumping chamber;

Machine sealing chamber body 17 is connected the upper end of base plate 14 and is positioned at the central authorities of support 15; This machine sealing chamber body 17 adopts segmentation structure; Promptly constitute by lower chamber 171 and upper cavity 172; Lower chamber 171 is fastened between the upper-end surface of base plate 14 inner chambers and base plate 14 of pump, and the upper-end surface of lower chamber 171 is a ladder surface, and the lower end surface of upper cavity 172 is the adaptive ladder surface of lower chamber 171; So that upper cavity 172 is fastened on the upper-end surface of lower chamber 171, upper cavity 172 engages the back through being bolted on the base plate 14 with lower chamber 171; Be provided with O-ring seals between lower chamber 171 and the base plate 14, be used to prevent that dielectric leakage from arriving air side; Be provided with some O-ring seals between upper cavity 172 and the lower chamber 171, be used to guarantee their sealings between the two;

Bearing support 18 is connected the upper end of support 15 and is positioned at the central authorities of motor frame 16, and the inner chamber of this bearing support 18 comprises bearing bore and the oil sealing chamber of bottom and the big up and small down one-level stepped shaft cylindrical cavity on top; Be provided with many radiated ribs 180 on the outer surface of bearing support 18 in uniform way, the thickness of radiated rib 180 is preferably 10mm, and the quantity of radiated rib 180 is preferably four, and heat can better be discharged, and can also improve the intensity and the rigidity of bearing support 18.

See also Fig. 2 again, rotor part comprises pump shaft 20, impeller 21, impeller nut 22 and lock screw 23, wherein:

The bottom of the outer circumferential face of pump shaft 20 is provided with keyway section and thread section successively, and the lower end surface of pump shaft 20 also is provided with a tapped blind hole coaxial with pump shaft 20;

Impeller 21 radially is fixed on the keyway section of pump shaft 20 through key;

Impeller nut 22 is through being axially fixed on the pump shaft 20 on the thread section that is threaded in pump shaft 20 and with impeller 2; Impeller nut 22 is the covering cap shape nut, and the surperficial central authorities of its block offer a through hole, and this through hole is for going up little one-level ladder hole down greatly;

Hexagonal spiral shell head screw in lock screw 23 adopts; It passes the through hole of impeller nut 22 and through in the tapped blind hole that is threaded in pump shaft 20; The spiral shell head 230 of lock screw 23 is against on the step surface of stepped shaft through hole of impeller nut 22; The spiral shell head 230 of lock screw 23 does not expose the surface of the block of impeller nut 22, can drop to minimumly to medium in the flow interfering of the entrance point of pump, can not influence hydraulic performance.

See also Fig. 3 again, bearing part upper end bearing 31 and bottom end bearing 32, wherein:

Upper end bearing 31 is used for the axial force of bear rotor parts; This upper end bearing 31 is made up of a pair of angular contact ball bearing; This a pair of angular contact ball bearing leans against the bearing bore that is installed on the pump shaft 20 privately and is arranged in bearing support 17, and this a pair of angular contact ball bearing is fastening through locking nut 310;

Bottom end bearing 32 is used for the radial force of bear rotor parts, and this bottom end bearing 32 is a guide bearing and is installed in the bearing chamber of the pump housing 12, this bottom end bearing 32 be a guide bearing and Spielpassung be installed on the axle sleeve 33; This guide bearing comprises metal-coating 321 and slide bushing 322; The material of this slide bushing 322 be engineering rubber and interference fit be inlaid in the inner chamber of metal-coating 321; The upper end of metal-coating 321 has cover plate, is provided with some mounting holes on this cover plate in uniform way, and this guide bearing is fixed on the pump housing 12 through some screws 320.

Gap between the external diameter of internal diameter and axle sleeve 33 through control slide bushing 322; Can control the amplitude that radially wobble of rotor part in the moment that starts and shut down; And then can dwindle the gap between impeller 21 and the seal ring 121; Reduce the wearing and tearing of seal ring 121, make seal ring 121 obtain the longer life-span and reduce the leakage rate of pumping chamber.

In the bearing part of the utility model, because the slide bushing 322 of guide bearing is the WR300 engineering rubber that adopts U.S. Greene Tweed company, this material is that a kind of long carbon fiber adds polyether-ether-ketone resin to strengthen pressing mold made.Polyether-ether-ketone resin has added intensity, stability and the thermal diffusivity of having strengthened material behind the long carbon fiber; And the thermoplastic engineering plastic that has surmounted other kind; The wear resistance of slide bushing 42 is strengthened; Pump is in operation can not take place seize to cause the phenomenon of pump shaft fracture, but bearing radial force well.Guide bearing also adopts the branch body structure, after slide bushing 322 wearing and tearing, can be convenient for changing.Adopt a pair of angular contact ball bearing of installing back-to-back as the upper end bearing, axial force that can the bear rotor parts can make the designs simplification of pump group.Because guide bearing can not bear whole radial forces sometimes, the upper end bearing can also bear remaining radial force.Axle sleeve 33 also can avoid pump shaft 20 directly relative with guide bearing in addition, plays the effect of protection pump shaft 20.

The axial force of entire pump is delivered to bearing support 18 by pump shaft 20 and upper end bearing 31, is born by base plate 14, ground at last.The transmission of power is steady.Can effectively guarantee the safe operation of pump group.

Upper end bearing 31 also is provided with oil sealing mechanism, and this oil sealing mechanism comprises bearing gland 33 and outside framework oil seal 34, wherein:

Bearing gland 33 is connected the upper end of bearing support 18 through bolt, the gap L=0.24～0.26mm between the diameter of the internal diameter of this bearing gland 33 and pump shaft 20, can reduce and pump shaft 20 between friction, prevent that friction from generating more heat; Labyrinth sealing groove 330 is set on the inner peripheral surface of bearing gland 33, can increases the leakage damping.

See also Fig. 4 again; Outside framework oil seal 34 is installed in the oil sealing chamber of bearing support 18; This outside framework oil seal 34 comprises L shaped metal frame (not shown), rubber body 341 and spring ring 342; The material of rubber body 341 is radiotolerant ethylene propylene diene rubber, in rubber body 341 has ring 343, outer shroud 344 and connect in the diapire and the cross section of ring 343 and outer shroud 344 take the shape of the letter U, outer shroud 344 and diapire are coated on the periphery of metal frame; Interior ring 343 tilts to the inside and as sealing lip, spring ring 342 is installed on the outer circumferential face of sealing lip.

When temperature raises; The thinning one side of lubricating grease meeting in the bearing bore produces axial flow and drains in the machine seal apparatus, can overflow bearing gland 33 owing to pressure on the other hand, through the mazy type maze trough 341 tortuous circuitous gaps of bearing gland 33; Because multichannel is multiple to be stopped, reduces pressure; Leakage rate is effectively suppressed, and leakage rate is minimum, has effectively guaranteed the normal use of upper end bearing 31.And external dust and other impurities will be passed through equally through the multiple of labyrinth sealing groove 341 on the bearing gland 33 and stopped, the trend that has stoped dust and other impurities to get into bearing bore.And be installed in the Seal cage of bearing support 18 outside framework oil seal 34 since sealing lip be arranged to hypotenuse and spring ring 342 effects on the sealing lip arranged; Make sealing lip can be fitted on the pump shaft 20 fully; Can prevent in the bearing bore of bearing support 18 dielectric leakage with separate the outer dirt of bearing bore; Dust, water and impurity are invaded.The outside framework oil seal outer layer rubber has the effect of anti-pressure and abrasion-proof, anti-oil and water most, longer service life, and the wearing and tearing of minimizing and pump shaft 20 reduce the wastage.Metal frame in this outside framework oil seal plays the setting effect, and rubber body is worn out, and the metal frame through in rubber, being provided with, and has slowed down the deformation time of rubber body.

See also Fig. 5 again, the machine encapsulation is changed to the unit loading type double mechanical seal and is installed in the machine sealing chamber body 17; The machine seal apparatus comprises machine envelope axle sleeve 40, a pair of stationary ring 41,42, a rotating seat 43, a pair of rotating ring 44,45 and a pair of spring 46,47, wherein:

Machine envelope axle sleeve 40 is sleeved on through Cock screw 400 on the pump shaft 20 that is positioned at machine sealing chamber body 17, and the outer circumferential face of this machine envelope axle sleeve 40 is the stepped shaft cylndrical surface that two diameter is little, mid diameter is big, can reduce the size of mechanical seal like this, saves cost;

Space between the outer circumferential face of the inner chamber of machine sealing chamber body 17 and machine envelope axle sleeve 40 forms machine sealing chamber;

A pair of stationary ring 41,42 is fixed on the bottom of machine sealing chamber body 17 and the top of machine sealing chamber body 17 through locating stud 411 and O-ring seals 412 respectively;

Rotating seat 43 is fixed on the machine envelope axle sleeve 40 through lock screw 430 and is positioned at the middle part of machine sealing chamber, and the longitudinal section of this rotating seat 43 is H shape;

A pair of rotating ring 44,45 can be inlaid between two up and down and machine envelope axle sleeve 40 of rotating seat 43, to rotate with pump shaft 20 through O-ring seals 423 respectively with moving axially;

A pair of spring 46,47 is separately positioned between a pair of rotating ring 44,45 and the rotating seat 43, so that the opposing side of rotating ring 44,45 and stationary ring 41,42 is fitted all the time slidably.

Be provided with O-ring seals 420 between the bottom of machine envelope axle sleeve 40 and the pump shaft 20, be used to stop the clearance leakage of medium along pump shaft 8 and mechanical seal.

The working principle of the mechanical seal of the startup feed water pump of the utility model is: the leakage of sealing gas, and can adapt to dried the startup, and after operation for the first time, being filled with medium in the machine sealing chamber, later startup all belongs to has lubricated startup.Afterwards in the pump operation process; When medium arrives mechanical seal along pump shaft 20 is mobile from bottom to top; By 420,470 blocking-up of O type circle; Meeting forms to be full of and has the certain pressure fed sheet of a media in machine sealing chamber, because the both ends of the surface area that rotating ring 44,45 is stressed does not wait, can form the impacting force to stationary ring 41,42; And rotating ring 44,45 through spring 46,47 make rotating ring 44,45 and stationary ring 41, the opposing side appropriateness that forms between 42 fits, and keeps the purpose that one deck liquid film as thin as a wafer reaches sealing between this faying surface thereby make.

See also Fig. 6 again, machine seals injection stream 53 and the discharge stream 54 that flushing line comprises outlet pipe 51, cleaning hose 52 and is located at the sparge water in the machine sealing chamber body 17, wherein:

Outlet pipe 51 is parallel with connecting tube 13, and the exhaust port 120 of the pumping chamber in its end and the pump housing 12 is connected, and the other end is connected on the base plate 14 through flange;

One end of cleaning hose 52 is connected with outlet pipe 51 on the base plate 14 through flange, and the other end is connected with the water inlet 531 of the injection stream 53 of machine sealing chamber body 17;

The water inlet 531 that injects stream 53 is positioned at the top of the outer circumferential face of machine sealing chamber body 17, and the water outlet 532 that injects stream 53 is positioned at the bottom of machine sealing chamber body 17 inner peripheral surfaces;

The drain opening 541 of discharging stream 54 is positioned at the top of the inner peripheral surface of machine sealing chamber body 17, and the backwater mouth 542 of discharging stream 54 is positioned on the lower end surface of machine sealing chamber body 17.

Cleaning hose 52 through one be fixed on base plate 14 upper ends water outlet connection part 510 be connected with outlet pipe 51.

The machine seal apparatus of the utility model adopts PLAN11 from the flushing scheme, from the exhaust port 120 introduction machines envelope sparge water of pump, and in bottom's water inlet of machine sealing chamber body 17, the top water outlet, this can make the machine seal apparatus washed fully and cool off.Because the medium temperature that this pump is carried is 10 ℃～121.1 ℃, the cleaning hose 52 in the flushing line adopts fin tube, can effectively increase heat diffusion area in addition.Backwater mouth 542 is positioned on the lower end surface of machine sealing chamber body 17 and can be communicated with connecting tube 13, and sparge water is flowed back in the jar, efficiently solves the sealing difficulty of bringing because of external flushing line.

Those of ordinary skill in the art will be appreciated that; Above embodiment is used for explaining the utility model; And be not with the qualification of doing the utility model; As long as in the connotation scope of the utility model, all will drop in claims scope of the utility model the above embodiment's variation, modification.

Claims (10)

1. freezing mixture drain tank pump that is used for nuclear reactor; Comprise stator component, rotor part, bearing part, machine seal apparatus and machine envelope flushing line; Said stator component comprises pump cover, the pump housing, connecting tube, base plate, support, the motor frame that connects successively from bottom to top; Said rotor part comprises pump shaft, impeller and locking nut, it is characterized in that

Suction port on the said pump cover is for axially offering;

The said pump housing comprises the pumping chamber of lower end, the closed chamber at middle part and the bearing chamber of upper end, and the lower end mouth of said pumping chamber is coaxial with the suction port on the said pump cover and be communicated with, and exhaust port is radially offered in the side of said pumping chamber;

The upper end of said base plate also connects one and is positioned at the central machine sealing chamber body of said support, is provided with the injection stream and discharge stream of sparge water in this machine sealing chamber body;

The upper end of said support also connects one successively and is positioned at the central bearing support of said motor frame;

Said rotor part also comprises lock screw, and the bottom of the outer circumferential face of said pump shaft is provided with keyway section and thread section successively, and the lower end surface of said pump shaft also is provided with a tapped blind hole coaxial with pump shaft; Said impeller radially is fixed on the keyway section of pump shaft and is arranged in the pumping chamber of the said pump housing through key; Said impeller nut is threaded on the thread section of said pump shaft and with impeller and is axially fixed on the pump shaft; Said impeller nut is the covering cap shape nut, and the surperficial central authorities of the block of impeller nut offer a through hole; Said lock screw passes the through hole of said impeller nut and through in the tapped blind hole that is threaded in said pump shaft;

Said bearing part comprises upper end bearing and bottom end bearing, and said upper end bearing is a pair of angular contact ball bearing and leans against in the inner chamber that is installed in said bearing support privately; Said bottom end bearing is a guide bearing and is installed in the bearing chamber of the said pump housing, and this guide bearing is inlaid in the slide bushing in the inner chamber of metal-coating with comprising metal-coating and interference fit, and the material of said slide bushing is an engineering rubber;

Said machine encapsulation is changed to the unit loading type double mechanical seal and is installed in the said machine sealing chamber body;

Said machine envelope flushing line comprises that one is connected between exhaust port and the said base plate of pumping chamber of the said pump housing and the outlet pipe, parallel with said connecting tube is connected the cleaning hose between outlet pipe and the said machine sealing chamber body and is located at the injection stream and the discharge stream of the sparge water in the machine sealing chamber body.

2. the freezing mixture drain tank pump that is used for nuclear reactor according to claim 1 is characterized in that, said machine seal apparatus comprises machine envelope axle sleeve, a pair of stationary ring, a rotating seat, a pair of rotating ring and a pair of spring,

Said machine sealing chamber body is made up of lower chamber and upper cavity, and said lower chamber is fastened between the upper-end surface of base plate inner chamber and base plate of said pump, and said upper cavity is fastened on the upper-end surface of said lower chamber;

Said machine envelope axle sleeve is sleeved on through Cock screw on the pump shaft that is positioned at said machine sealing chamber, and the outer circumferential face of this machine envelope axle sleeve is the stepped shaft cylndrical surface that two diameter is little, mid diameter is big;

Space between the outer circumferential face of the inner chamber of said machine sealing chamber body and said machine envelope axle sleeve forms machine sealing chamber;

Said a pair of stationary ring is fixed on the bottom of said lower chamber and the top of upper cavity through locating stud respectively;

Said rotating seat is fixed on the said machine envelope axle sleeve through lock screw and is positioned at the middle part of said machine sealing chamber, and the longitudinal section of this rotating seat is H shape;

Said a pair of rotating ring can be inlaid between two up and down and machine envelope axle sleeve of said rotating seat, so that said rotating ring rotates with said pump shaft with moving axially respectively;

Said a pair of spring is separately positioned between a pair of rotating ring and the said rotating seat, so that the opposing side of said rotating ring and stationary ring is fitted all the time slidably.

3. the freezing mixture drain tank pump that is used for nuclear reactor according to claim 1; It is characterized in that; The water inlet of said injection stream is positioned at the top of the outer circumferential face of said machine sealing chamber body; The water outlet that injects stream is positioned at the bottom of said machine sealing chamber body inner peripheral surface, and said outlet pipe is connected with the water inlet of said injection stream; The drain opening of said discharge stream is positioned at the top of the inner peripheral surface of said machine sealing chamber body, and the backwater mouth of discharging stream is positioned on the lower end surface of said machine sealing chamber body.

4. the freezing mixture drain tank pump that is used for nuclear reactor according to claim 1 is characterized in that the upper end of the metal-coating of said bottom end bearing has cover plate, is provided with some mounting holes on this cover plate in uniform way.

5. the freezing mixture drain tank pump that is used for nuclear reactor according to claim 1; It is characterized in that; Said freezing mixture drain tank pump is provided with the oil sealing mechanism of upper end bearing; This oil sealing mechanism comprises the bearing gland that is connected bearing support upper end and is installed in the outside framework oil seal in the Seal cage of said bearing support

The internal diameter of said bearing gland and the diameter of pump shaft are Spielpassung, and the labyrinth sealing groove is set on the inner peripheral surface of bearing gland;

Said outside framework oil seal comprises L shaped metal frame, rubber body and spring ring; Said rubber body has the diapire and the cross section that encircle in interior ring, outer shroud and the connection with outer shroud and takes the shape of the letter U; Outer shroud and diapire are coated on the periphery of said metal frame; Interior ring is sealing lip, and said spring ring is installed on the outer circumferential face of said sealing lip.

6. the freezing mixture drain tank pump that is used for nuclear reactor according to claim 5 is characterized in that the gap between the internal diameter of said bearing gland and the diameter of said pump shaft is 0.24～0.26mm.

7. the freezing mixture drain tank pump that is used for nuclear reactor according to claim 1 is characterized in that, the through hole on the said impeller nut is against on the step surface of this shoulder hole the spiral shell head of said lock screw for going up little one-level shoulder hole down greatly.

8. the freezing mixture drain tank pump that is used for nuclear reactor according to claim 1; It is characterized in that; Said cleaning hose and said outlet pipe through one be fixed on said base plate upper end the water outlet connection part is connected, this water outlet connection part comprises that outlet port that one section short tube, coaxial with said outlet pipe and that offer an outlet is connected short tube and exports, two are connected to that the flange and at two ends is connected the blind flange on the upper flanges about the short tube.

9. the freezing mixture drain tank pump that is used for nuclear reactor according to claim 1 is characterized in that, is provided with some radiated ribs on the outer surface of said bearing support in uniform way.

10. the freezing mixture drain tank pump that is used for nuclear reactor according to claim 9 is characterized in that the quantity of said radiated rib is three to five, and the thickness of said radiated rib is 8～12mm.

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