CN204290571U - Adopt microgap rotary dynamic seal and the deep-sea electrical micro-machine of inside and outside cavity pressure balance - Google Patents

Adopt microgap rotary dynamic seal and the deep-sea electrical micro-machine of inside and outside cavity pressure balance Download PDF

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Publication number
CN204290571U
CN204290571U CN201420671035.3U CN201420671035U CN204290571U CN 204290571 U CN204290571 U CN 204290571U CN 201420671035 U CN201420671035 U CN 201420671035U CN 204290571 U CN204290571 U CN 204290571U
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microgap
rotary dynamic
dynamic seal
deep
machine
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熊林根
李盛兵
吴志君
王红香
周金华
程荣
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CETC 21 Research Institute
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CETC 21 Research Institute
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Abstract

The utility model discloses and a kind ofly adopts microgap rotary dynamic seal and the deep-sea electrical micro-machine of inside and outside cavity pressure balance, comprise microgap rotary dynamic seal assembly, motor body, in fill insulating pressure oil, cavity pressure balanced component, withstand voltage socket and rear end cap inside and outside lipid dust-proof rotary dynamic seal assembly, bellows-type.Microgap rotary dynamic seal assembly, is assemblied on the output shaft of motor, and the tension force adopting insulating pressure oil to produce in radial minim gap carries out movable sealing; The dust-proof rotary dynamic seal assembly of lipid inserts in the motor output shaft of microgap rotary dynamic seal assembly, is fixed in the location inner circle seam of motor front end; Inside and outside bellows-type, cavity pressure balanced component is connected with the rear end of motor body, adopts exocoel slight pressure difference in screw to regulate.The utility model has the advantages that the high efficiency that improve motor and run under the hyperpressure of deep-sea; Can huge hyperpressure under the thousands of rice of deep seafloor be resisted and can normally work.

Description

Adopt microgap rotary dynamic seal and the deep-sea electrical micro-machine of inside and outside cavity pressure balance
Technical field
The utility model relates to a kind of deep-sea electrical micro-machine, particularly a kind of work in deep seafloor thousands of meters employing microgap rotary dynamic seal and the deep-sea electrical micro-machine of inside and outside cavity pressure balance.
Background technology
Deep-sea microelectromechanical structure in the market as shown in Figure 1, is mostly and works in hundreds of rice and be deep to the dark seabed of thousands of rice.On market, deep-sea electrical micro-machine as shown in Figure 1 comprises mechanical labyrinth formula dust-proof mechanism 1, rubber lip rotary dynamic seal mechanism 2, O type rubber ring 3, motor body 4, insulating pressure oil 5, O type rubber ring 6, piston holder 7, mobile dust protection rubber circle 8, interior exocoel pressure reduction regulating spring 9 and rear end cap 10.Due to the operating pressure of this deep-sea electrical micro-machine, along with the intensification of the latent extra large degree of depth, pressure increases, and result in the pressure that rubber lip rotary dynamic seal 2 is pressed in rotating shaft and increases.Thus, lose larger motor torque power, motor operational efficiency is low.Lip rubber seal circle is under the immense pressure of deep sea pressure, and wearing and tearing increase, and service life is very short.So, this type of deep-sea electrical micro-machine can only work in hundred meters, deep-sea dark within.
And in this type of deep-sea electrical micro-machine, adopt the inside and outside cavity pressure balanced controls of O type rubber ring 6, frictional force due to O type circle is large and make pressure regulate poor sensitivity, easily make motor external and internal pressure there is small imbalance and make motor case produce micro-strain, improve resistance when motor runs, motor operational efficiency is declined further.Meanwhile, pressure regulate sensitivity lowly to cause in motor exocoel pressure reduction to regulate very unreliable, the probability easily making seawater enter motor internal increases.
In polycylindser spring in this type of deep-sea electrical micro-machine, the small pressure reduction of exocoel regulates and maintaining body, because interior exocoel pressure reduction regulating spring 9 is too much, very inconvenient to the adjustment of pressure difference value during motor assembling, regulates pressure difference discreteness large.Decrement when this is the pressure size of itself and the assembling depending on spring due to this pressure difference value, so be difficult to fine adjustment pressure difference value.
In order to the pressure of the working depth and motor that improve deep-sea regulates sensitivity, market also has another kind of deep-sea electrical micro-machine as shown in Figure 2.This deep-sea electrical micro-machine to comprise inside and outside wool felt dust-proof mechanism, Magnetic drive rotary dynamic seal mechanism, motor body, rubber peel bellows exocoel slight pressure difference in cavity pressure balanced controls and single big column spring and regulates and maintaining body.Although this type of deep-sea electrical micro-machine have employed Magnetic drive mode and solves the large problem of motor output torque loss, the degree of depth that this motor is worked at deep-sea is in infinite depth scope.But the hysteresis effect of output shaft this deep-sea electrical micro-machine easily causes Magnetic drive output shaft step-out and starts suddenly during when load surcharge.Meanwhile, no matter this deep-sea electrical micro-machine is that axial dimension or radial dimension increase all greatly, and its weight is corresponding quick increase also.The structure of motor is tending towards more and more complicated, and the expense of motor considerably increases the manufacturing cost of this deep-sea electrical micro-machine along with being multiplied of rare earth magnetic steel.
Adopt the dust-proof mechanism of wool felt 11 in this deep-sea electrical micro-machine, seawater directly immerses in Magnetic drive casing, and the silt in seawater will directly contact with Magnetic drive seal closure 20 with sliding bearing 15, Magnetic drive external rotor output shaft assembly 17 when motor runs.The service life of these parts is reduced.Particularly in seawater, silt, to the wearing and tearing of the rare earth magnetic steel overcoat on Magnetic drive external rotor output shaft assembly 17, makes seawater directly etching magnet steel, causes motor failure.
Inside and outside the rubber peel bellows of Magnetic drive closed type deep-sea electrical micro-machine, cavity pressure balanced controls comprise O type circle 24, internal and external equilibrium casing A 25, trip bolt 28, rubbery human body pressing plate 29, rubbery human body 30, rubbery human body support 31, internal and external equilibrium casing B 33.
The pressure that inside and outside rubber peel bellows, cavity pressure balanced controls compare to cavity pressure balanced controls inside and outside O type circle piston type regulates sensitivity greatly to increase, but rubbery human body manufacture is comparatively complicated, needs die sinking to suppress.And easy jackknifing during rubbery human body use, useful life is short, and the axial length of this mechanism increases many.
In the single big column spring of Magnetic drive closed type deep-sea electrical micro-machine, the adjustment of exocoel slight pressure difference and maintaining body comprise interior exocoel pressure reduction regulating spring 32, pull bar 34 and internal and external equilibrium casing B 33.This pressure reduction governor motion accurately can carry out the adjustment of pressure differential easily, but pull bar exposes the carrying of part for motor, the use very inconvenience of casing length length, usually be damaged because of colliding with other object, the pull bar sometimes ruptured or the pull bar clashed into directly puncture rubbery human body and cause motor failure.
Utility model content
Technical problem to be solved in the utility model will provide a kind of can resist the huge seawater pressure of the thousands of rice of deep seafloor and the employing microgap rotary dynamic seal that can normally work and the deep-sea electrical micro-machine of inside and outside cavity pressure balance.
In order to solve above technical problem, the utility model provides and a kind ofly adopts microgap rotary dynamic seal and the deep-sea electrical micro-machine of inside and outside cavity pressure balance, this electrical micro-machine comprise microgap rotary dynamic seal assembly, motor body, in fill insulating pressure oil, cavity pressure balanced component, withstand voltage socket and rear end cap inside and outside lipid dust-proof rotary dynamic seal assembly, bellows-type.
Described microgap rotary dynamic seal assembly, is assemblied on the output shaft of motor, and the tension force adopting insulating pressure oil to produce in radial minim gap carries out movable sealing.
Described microgap rotary dynamic seal assembly comprises microgap rotary dynamic seal rotating ring, microgap rotary dynamic seal static components and motor output shaft, microgap rotary dynamic seal static components is installed in the inner circle seam of electrical micro-machine front end, deep-sea, inserts the motor output shaft with microgap rotary dynamic seal rotating ring in the mesopore of microgap rotary dynamic seal static components.
Described microgap rotary dynamic seal static components comprises microgap rotary dynamic seal stationary ring, stationary ring support, metal bellows and bellows support, axial arranged metal bellows one end and stationary ring support welding, the other end and bellows support welding, realize the automatic centering of microgap rotary dynamic seal rotating ring and microgap rotary dynamic seal stationary ring; The internal circular surfaces of stationary ring support and microgap rotary dynamic seal stationary ring interference are press-fitted and add viscose glue and install.
Small circular runout can be produced when the output shaft of motor rotates during deep-sea electrical micro-machine runs, in order to make the microgap rotary dynamic seal rotating ring on the real-time centering motor output shaft of microgap rotary dynamic seal stationary ring in real time, the utility model adopts axial arranged metal bellows to realize this purpose.Because axial arranged metal bellows, respectively to flexible, can be competent at well.
The welding position at described two places is coated with epoxy glue layer.
Described stationary ring support inner circle is equidistantly provided with multiple storage glue groove.Described storage glue groove is triangle, or is up-small and down-big polygon.
The material of described microgap rotary dynamic seal stationary ring is hard material, and microgap rotary dynamic seal rotating ring is hard material, or is flexible material.
Described microgap rotary dynamic seal rotating ring is flexible material, and elastic conjunction is on motor output shaft and Precision Machining cylindrical; Or described microgap rotary dynamic seal rotating ring is hard material, hard material to be sprayed on motor output shaft and Precision Machining cylindrical.
Described microgap rotary dynamic seal stationary ring inner circle is equidistantly provided with trapezoidal oil storage tank, guarantees to leave sufficient lubrication and seal oil in microgap.Insulating pressure oily microgap movable sealing pair of serving as lubricant medium is more steady when running, running noises is lower.
The rotary dynamic seal effect of microgap rotary dynamic seal assembly is that the tension force adopting insulating pressure oil to produce in radial minim gap 0.005mm ~ 0.015mm between microgap rotary dynamic seal rotating ring and microgap rotary dynamic seal stationary ring carries out movable sealing.The fluid surface tension produced in the minim gap of insulating pressure oil in the electrical micro-machine of the utility model deep-sea between the dynamic sealing assembly of microgap is enough to stop the seawater of outside motor enter motor internal and play movable sealing effect.Meanwhile, the resistance produced when resistance when fluid surface tension rotates motor output shaft in microgap rotary dynamic seal assembly rotates much smaller than lip rubber seal circle, O type rubber seal motor output shaft.Because insulating pressure oil has lubrication and the double effect of movable sealing, and deep-sea electrical micro-machine adopts inside and outside cavity pressure balanced controls to resist the immense pressure in seabed, although this microgap rotary dynamic seal assembly will bear the pressure of tens of MPa, but the pressure reduction formed at its two ends is very little, be 0.01MPa ~ 0.05MPa.
Microgap rotary dynamic seal assembly has good sealing property, very little, negligible to the influence of fluctuations of motor output shaft.The loss exported motor torque is very low, and the noise produced in operation is very low.Because wearing and tearing are very little, its long working life.So microgap of the present utility model rotary dynamic seal assembly is highly suitable for the requirement of deep-sea electrical micro-machine to movable sealing pair, sealing, low consumption, low noise, efficient, long-lived.
The dust-proof rotary dynamic seal assembly of described lipid inserts in the motor output shaft of microgap rotary dynamic seal assembly, be fixed in the location inner circle seam of motor front end, the silt in seawater and seawater blocks by the lipid encapsulant in lipid dust-proof rotary dynamic seal assembly and outer field polyester film thereof.
Described lipid dust-proof rotary dynamic seal assembly comprises lipid encapsulant, adjustment seat, trip bolt, adjusting washer (disk), polyester film, dust-proof thin-walled casing, O type circle and trip bolt; Rotary dynamic seal pair is formed with motor output shaft in the middle part of described lipid encapsulant and dust-proof thin-walled casing, it is secondary that O type circle and dust-proof thin-walled casing outside seal groove and motor front end casing inner circle seam form static seal, and the secondary and static seal pair of rotary dynamic seal constitutes the barrier protecting seawater.
Described lipid encapsulant by estersil and lubricating grease in mass ratio 1:1 ~ 1.5:1 mixed preparing form.
Described adjustment seat supports and stops that the lateral width b of polyester film is the width of polyester film, and the gap a of described adjustment seat and motor output shaft is 1 ~ 5 times of polyester film width, and the α that adjustment seat left end is arranged is the oblique angle of 5 ° ~ 30 °.
The lateral width b of described dust-proof thin-walled cabinet supports and stop polyester film is the width of polyester film, the gap a of dust-proof thin-walled casing and motor output shaft is 1 ~ 5 times of polyester film width, and the α that dust-proof thin-walled casing left end is arranged is the oblique angle of 5 ° ~ 30 °.
The thickness of described polyester film is 0.05mm ~ 0.15mm.
Lipid encapsulant has the mobility under obvious water preventing ability and power drive, this movable sealing is secondary can be blocked the silt in seawater and seawater, particularly silt tiny in seawater is kept outside of the door by lipid encapsulant and outer field polyester film thereof, very little to resistance during motor output shaft rotary work.
Be positioned at fluid that the left end of microgap rotary dynamic seal assembly and dust-proof rotary dynamic seal right-hand member formed to close community be all full of insulating pressure oil when ground, along with deep-sea electrical micro-machine progressively drops to seabed, then the external seawater pressure deformation that will dust-proof thin-walled casing be forced to concave.Due to the Incoercibility of liquid, the indent deformation of dust-proof thin-walled casing the immense pressure of seawater is passed to the microgap rotary dynamic seal assembly of motor internal each component surface and with motor inside and outside the internal pressure that produces of cavity pressure balanced component balance each other, to ensure the normal work of motor.Be be unlikely the operation hindering motor output shaft after 5 ° ~ 15 ° chamferings ensure under sea pressure deformation to occur with dust-proof thin-walled casing middle left and right two α in adjustment seat.
Therefore, in the utility model, lipid dust-proof rotary dynamic seal assembly has dust-proof rotary dynamic seal and pressure conduction dual-use function concurrently.Wherein dust-proof movable sealing effect is much better than common mechanical labyrinth formula dust-proof mechanism, and it slightly larger than mechanical labyrinth formula dust-proof mechanism to the friction torque of motor output shaft, but is less than common wiper of rubber and has friction torque.And the casing Inward deflection very easily under sea pressure that area in dust-proof thin-walled casing is large and thin, by the pressure conduction of seawater in the rotary dynamic seal mechanism of microgap.The space closed due to it is less than motor cavity space relatively, and this space is full of insulating pressure oil, therefore the distortion that the thin-walled casing of dust-proof thin-walled casing is small be just enough to seawater pressure to conduct on the rotary dynamic seal assembly of microgap with motor rear inside and outside the pressure that produces of cavity pressure balanced component balance each other, to ensure the normal work of motor.So, the lipid dust-proof rotary dynamic seal assembly with pressure conduction ability is also a kind of pressure balance mechanism, has more simple structure, less volume and weight and lower manufacturing cost than cavity pressure balanced controls inside and outside cavity pressure balanced controls, rubber peel bellows inside and outside common O type circle piston type.Although its internal volume regulated is less than the above two, it is more than sufficient to regulate for little volume pressure herein.Therefore, the dust-proof rotary dynamic seal assembly of lipid with pressure conduction ability of the present utility model is highly suitable for deep-sea electrical micro-machine dust seal.
Inside and outside described bellows-type, cavity pressure balanced component is connected with the rear end of motor body, its inner equilibrium casing and motor body inner chamber form the protective zone laying motor-drive circuit, and inside and outside described bellows-type, cavity pressure balanced component adopts exocoel slight pressure difference in screw to regulate.
Inside and outside described bellows-type, cavity pressure balanced component comprises inner equilibrium casing, O type circle, metal bellows, pressure regulator panel and pressure difference value adjustment screw, and wherein inner equilibrium casing, metal bellows and pressure regulator panel are hardware.
The left end of described metal bellows is welded on the left end inner stopper of inner equilibrium casing, the right-hand member of metal bellows is welded on the male half coupling of pressure regulator panel, pressure difference value adjustment screw screws in pressure regulator panel by push-and-pull before and after metal bellows, regulates the pressure differential of exocoel in the electrical micro-machine of deep-sea between 0.01MPa ~ 0.05MPa.
The welding position at described two places is coated with epoxy glue layer.
Metal bellows is pulled back put in row deep-sea electrical micro-machine inner chamber oil-filled after, under the effect of external seawater pressure, inside and outside this bellows-type, cavity pressure balanced component can play motor cavity insulating pressure oil and produce outside pressure to resist and to balance the pressure of external sea water to motor case, ensure that motor normally works under immense pressure.Meanwhile, inside and outside this bellows-type, cavity pressure balanced component is hardware composition, and when deep-sea electrical micro-machine assembles, it is not more afraid of by sharp-pointed process tool and workpiece touching than cavity pressure balanced controls inside and outside rubber peel bellows and scratches.It is simpler that it has structure than cavity pressure balanced controls inside and outside rubber peel bellows, the feature that pressure regulation effect is effective, quick, sensitive equally.Just the volume of pressure regulation is smaller, and due to the Incoercibility of liquid, the adjustable range for the cavity volume ratio of deep-sea electrical micro-machine about tens percent is more than sufficient.Therefore, inside and outside the bellows-type in the utility model, cavity pressure balanced component is particularly suitable for deep-sea electrical micro-machine regulates sensitivity and volume adjusted requirement to chamber pressure.
Superior effect of the present utility model is:
1) the insulating pressure oil that the utility model deep-sea electrical micro-machine adopts microgap rotary dynamic seal assembly to make full use of motor cavity carries out sealing and lubricating, make the torque output loss of electrical micro-machine under deep seafloor hyperpressure very little, run very steady, operating efficiency is very high.The rotary dynamic seal comparing to traditional lip rubber seal circle has higher work comparatively rate, less to the Driving Torque loss of motor.Compare to traditional Magnetic drive rotary dynamic seal and also have higher work comparatively rate, also little to the loss of motor output torque, the starting rotating output shaft when dynamic envelope Driving Torque step-out easily occurs and starts suddenly when load surcharge unlike Magnetic drive is delayed;
2) the utility model deep-sea microelectromechanical structure is more simple, and volume and weight is also much smaller than traditional Magnetic drive rotary dynamic seal, and cost performance is higher;
3) lipid of the utility model deep-sea electrical micro-machine dust-proof rotary dynamic seal assembly has dust-proof movable sealing and pressure conduction dual-use function concurrently; The dust-proof movable sealing mechanism of lipid encapsulant is adopted can effectively to prevent seabed silt from invading rotary dynamic seal proparea, motor microgap, make microgap rotary dynamic seal working life longer, it is better than traditional mechanical labyrinth formula dust-proof mechanism, felt dust ring or wiper of rubber dust-proof effect, meanwhile, the dust-proof movable sealing of this lipid is crossed after date to change new material more simple and convenient;
4) thin-wall construction of the dust-proof thin-walled casing of the lipid of the utility model deep-sea electrical micro-machine dust-proof rotary dynamic seal assembly, in its elastic range, be enough to external seawater pressure to transmit into motor internal from outside motor front end, innovatively pressure balance that is dust-proof and interior exocoel is organically combined, enormously simplify the additional pressure adjusting structure needed for traditional dust-proof movable sealing;
5) the utility model deep-sea electrical micro-machine adopts cavity pressure balanced component inside and outside bellows-type, and compare to exocoel balanced controls pressure in traditional O type circle piston type and regulate sensitiveer, dust-proof effect is more superior and structure is simpler.Compare to cavity pressure balanced controls structure inside and outside traditional rubber peel bellows more simple, application life is longer.Meanwhile, when deep-sea electrical micro-machine assembles, it is not more afraid of by sharp-pointed process tool and workpiece touching than cavity pressure balanced controls inside and outside rubber peel bellows and scratches;
6) in the screw adopted in the electrical micro-machine of the utility model deep-sea, the adjustment of exocoel slight pressure difference and maintaining body compare to the adjustment of exocoel slight pressure and maintaining body in traditional polycylindser spring, are easier to carry out exocoel slight pressure difference accurately and regulate.Then can remove adjustment screw after adjustment, continuation keeps by the pressure difference value after adjustment.Simultaneously, it does not regulate as exocoel slight pressure difference in exocoel slight pressure difference adjustment in polycylindser spring mechanism and maintaining body and single big column spring and inside and outside maintaining body, cavity pressure difference is affected with the spring force change of compression spring after regulating, and the inside and outside cavity pressure difference maintenance after adjustment is stable;
7) inner chamber of the utility model deep-sea electrical micro-machine is full of insulating pressure oil, with balance motor inner chamber oil pressure and external water pressure, makes deep-sea electrical micro-machine resist huge hyperpressure under the thousands of rice of deep seafloor and can normally work.
Accompanying drawing explanation
The Figure of description forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:
Fig. 1 is the sea of rubber seal moldeed depth in the market microelectromechanical structure schematic diagram;
Fig. 2 is Magnetic drive closed type deep-sea microelectromechanical structure schematic diagram in the market;
Fig. 3 is deep-sea of the present utility model microelectromechanical structure schematic diagram;
Fig. 4 is the structural representation of the utility model microgap rotary dynamic seal assembly;
Fig. 5 is the structural representation of the dust-proof rotary dynamic seal assembly of the utility model lipid;
Fig. 6 is the structural representation of cavity pressure balanced component inside and outside the utility model bellows-type;
Label declaration in Fig. 1:
1-mechanical labyrinth dustproof construction; 2-lip rubber seal circle;
3-O type circle; 4-motor body;
5-insulating pressure oil; 6-O type circle;
7-piston holder; 8-mobile dust protection rubber circle;
9-interior exocoel pressure reduction regulating spring; 10-rear end cap;
Label declaration in Fig. 2:
11-felt dust ring; 12-dust ring support;
13-trip bolt; 14-axial stop;
15-sliding bearing; 16-Magnetic drive casing;
17-Magnetic drive external rotor output shaft assembly; 18-seawater immerses district;
19-Magnetic drive internal rotor power shaft assembly; 20-Magnetic drive seal closure;
21-O type circle; 22-O type circle;
23-motor body; 24-O type circle;
25-inner equilibrium casing A; 26-is withstand voltage socket;
27-insulating pressure oil; 28-trip bolt;
29-rubbery human body pressing plate; 30-rubbery human body;
31-rubbery human body support; Exocoel pressure reduction regulating spring in 32-;
33-inner equilibrium casing B; 34-pull bar.
Label declaration in Fig. 3, Fig. 4 and Fig. 5:
35-motor output shaft; 36-microgap rotary dynamic seal rotating ring;
37-microgap rotary dynamic seal stationary ring; 38-adhering and sealing colloid;
39-fluid closes outskirt; 40-stationary ring support;
41-metal bellows; 42-trip bolt;
43-O type circle; 44-bellows support;
45-motor body; 46-O type circle;
47-rubber ring; 48-is withstand voltage socket;
49-inner equilibrium casing; 50-metal bellows;
51-insulating pressure oil; 52-pressure regulator panel;
53-rear end cap; 54-pressure difference value adjustment screw;
55-lipid encapsulant; 56-adjustment seat;
57-trip bolt; 58-adjusting washer (disk);
59-polyester film; The dust-proof thin-walled casing of 60-;
61-O type circle; 62-trip bolt.
Embodiment
Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.
Embodiment of the present utility model is described in detail below in conjunction with accompanying drawing.
Fig. 3 shows deep-sea of the present utility model microelectromechanical structure schematic diagram.As shown in Figure 3, the utility model provides and a kind ofly adopts microgap rotary dynamic seal and the deep-sea electrical micro-machine of inside and outside cavity pressure balance, this electrical micro-machine comprise microgap rotary dynamic seal assembly, motor body 45, in fill insulating pressure oil 51, lipid dust-proof rotary dynamic seal assembly, cavity pressure balanced component, withstand voltage socket 48 and rear end cap 53 inside and outside bellows-type.
Fig. 4 shows the structural representation of the utility model microgap rotary dynamic seal assembly.As shown in Figure 4, described microgap rotary dynamic seal assembly, is assemblied on the output shaft 35 of motor, and the tension force adopting insulating pressure oil 51 to produce in radial minim gap carries out movable sealing.
Described microgap rotary dynamic seal assembly comprises microgap rotary dynamic seal rotating ring 36, microgap rotary dynamic seal static components and motor output shaft 35, microgap rotary dynamic seal static components is installed in the inner circle seam of electrical micro-machine front end, deep-sea, inserts the motor output shaft with microgap rotary dynamic seal rotating ring 36 in the mesopore of microgap rotary dynamic seal static components.
Described microgap rotary dynamic seal static components comprises microgap rotary dynamic seal stationary ring 37, stationary ring support 40, metal bellows 41 and bellows support 44, axial arranged metal bellows 41 one end is welded with stationary ring support 40, the other end welds with bellows support 44, realizes the automatic centering of microgap rotary dynamic seal rotating ring 36 and microgap rotary dynamic seal stationary ring 37; The internal circular surfaces of stationary ring support 40 and microgap rotary dynamic seal stationary ring 37 interference are press-fitted and add viscose glue and install.Wherein, the outer face of stationary ring support 40 and bellows support 44 is done and is squeezed circle process, as shown in the enlarged drawing in B portion and A portion in Fig. 4.
Small circular runout can be produced when the output shaft 35 of motor rotates during deep-sea electrical micro-machine runs, in order to make the microgap rotary dynamic seal rotating ring 36 on microgap rotary dynamic seal stationary ring 37 centering motor output shaft 35 in real time, the utility model adopts axial arranged metal bellows 41 to realize this purpose.Because axial arranged metal bellows 41 is each to flexible, can be competent at well.
Above-mentioned assembling, welding and squeeze justified after, spray one deck epoxy glue layer, anti-seawater corrosion at metal bellows 41 outer surface and with bellows support 44 weld and stationary ring support welding place.
Described stationary ring support 40 inner circle is equidistantly provided with multiple storage glue groove.Described storage glue groove is triangle, or is up-small and down-big polygon.
The material of described microgap rotary dynamic seal stationary ring 37 is hard material, as ceramic material, as B 4c (boron carbide), AI 2o 3(alundum (Al2O3)), Cr 2o 3(chrome green), sintering WC (tungsten carbide).Microgap rotary dynamic seal rotating ring 36 is hard material, as ceramic material, as B 4c (boron carbide), AI 2o 3(alundum (Al2O3)), Cr 2o 3(chrome green), sintering WC (tungsten carbide); Or be flexible material, as Cr12 (chromium 12 steel), CrWMn (CrWMn steel) steel and tin bronze.
Described microgap rotary dynamic seal rotating ring 36 is flexible material, and elastic conjunction is on motor output shaft 35 and Precision Machining cylindrical.After the stationary ring support 40 of guarantee metal material and the inside and outside circle of the microgap rotary dynamic seal stationary ring 37 of ceramic material coordinate, the coefficient of expansion of reason does not differ larger loosening when high temperature.
Described microgap rotary dynamic seal rotating ring 36 is hard material, and hard material to be sprayed on motor output shaft 35 and Precision Machining cylindrical.
Described microgap rotary dynamic seal stationary ring 37 inner circle is equidistantly provided with trapezoidal oil storage tank, guarantees to leave sufficient lubrication and seal oil in microgap.When the microgap movable sealing pair that insulating pressure oil 51 serves as lubricant medium is run more steadily, running noises is lower.
Through above-mentioned welding, press-fit, bonding after microgap rotary dynamic seal static components in bellows support 44 groove, put into the inner circle seam that O type circle 43 can be assembled to electrical micro-machine front end, deep-sea, and the motor output shaft inserted in rotary dynamic seal stationary ring 37 mesopore of microgap with microgap rotary dynamic seal rotating ring 36 just defines complete microgap rotary dynamic seal assembly.
The rotary dynamic seal effect of microgap rotary dynamic seal assembly is that the tension force adopting insulating pressure oil 51 to produce in radial minim gap 0.005mm ~ 0.015mm between microgap rotary dynamic seal rotating ring 36 and microgap rotary dynamic seal stationary ring 37 carries out movable sealing.The fluid surface tension produced in the minim gap of insulating pressure oil 51 between the dynamic sealing assembly of microgap is enough to stop the seawater of outside motor enter motor internal and play movable sealing effect.Meanwhile, the resistance produced when resistance when fluid surface tension rotates motor output shaft in microgap rotary dynamic seal assembly rotates much smaller than lip rubber seal circle, O type rubber seal motor output shaft.Because insulating pressure oil 51 has lubrication and the double effect of movable sealing, and deep-sea electrical micro-machine adopts inside and outside cavity pressure balanced controls to resist the immense pressure in seabed, although this microgap rotary dynamic seal assembly will bear the pressure of tens of MPa, but the pressure reduction formed at its two ends is very little, be 0.01MPa ~ 0.05MPa.
Microgap rotary dynamic seal assembly has good sealing property, very little, negligible to the influence of fluctuations of motor output shaft.The loss exported motor torque is very low, and the noise produced in operation is very low.Because wearing and tearing are very little, its long working life.So microgap of the present utility model rotary dynamic seal assembly is highly suitable for the requirement of deep-sea electrical micro-machine to movable sealing pair, sealing, low consumption, low noise, efficient, long-lived.
Fig. 5 shows the structural representation of the dust-proof rotary dynamic seal assembly of the utility model lipid.As shown in Figure 5, the dust-proof rotary dynamic seal assembly of described lipid inserts in the motor output shaft 35 of microgap rotary dynamic seal assembly, be fixed in the location inner circle seam of motor front end, the silt in seawater and seawater blocks by the lipid encapsulant 55 in lipid dust-proof rotary dynamic seal assembly and outer field polyester film 59 thereof.
Described lipid dust-proof rotary dynamic seal assembly comprises lipid encapsulant 55, adjustment seat 56, trip bolt 57, adjusting washer (disk) 58, polyester film 59, dust-proof thin-walled casing 60, O type circle 61 and trip bolt 62; Rotary dynamic seal pair is formed with motor output shaft 35 in the middle part of described lipid encapsulant 55 and dust-proof thin-walled casing 60, it is secondary that O type circle 61 and dust-proof thin-walled casing 60 outside seal groove and motor front end casing inner circle seam form static seal, and rotary dynamic seal is secondary and static seal is secondary constitutes the barrier protecting seawater.
Described lipid encapsulant 55 by estersil and lubricating grease in mass ratio 1:1 ~ 1.5:1 mixed preparing form.Wherein lubricating grease selects full-bodied lubricating grease, fully stirs form with estersil after mixing.
Described adjustment seat 56 supports and stops that the lateral width b of polyester film 59 is the width of polyester film, and described adjustment seat 56 and the gap a of motor output shaft 35 are 1 ~ 5 times of polyester film 59 width, and the α that adjustment seat 56 left end is arranged is the oblique angle of 5 ° ~ 30 °.Dust-proof thin-walled casing 60 causes adjustment seat 56 locus change and hinder motor output shaft 35 to rotate when being out of shape.
Described dust-proof thin-walled casing 60 supports and stops that the lateral width b of polyester film 59 is the width of polyester film 59, dust-proof thin-walled casing 60 and the gap a of motor output shaft 35 are 1 ~ 5 times of polyester film 59 width, and the α that dust-proof thin-walled casing 60 left end is arranged is the oblique angle of 5 ° ~ 30 °.Dust-proof thin-walled casing 60 causes self space position change and hinder motor output shaft 35 to rotate when being out of shape.
The thickness of described polyester film 59 is 0.05mm ~ 0.15mm.Lipid encapsulant 55 is blocked between adjustment seat 56 and dust-proof thin-walled casing 60 by two panels polyester film 59, and when being beneficial to assemble, adjustment seat 56 pairs of lipid encapsulants 55 apply pressure, extrude air.The monolateral gap that polyester film 59 inner circle and motor output shaft 35 are formed is determined at 0.025 ~ 0.10mm.Polyester film 59 cylindrical is less than or equal to the size that it assembles inner circle in dust-proof thin-walled casing 60.
Lipid encapsulant 55 has the mobility under obvious water preventing ability and power drive, this movable sealing is secondary can be blocked the silt in seawater and seawater, particularly silt tiny in seawater is kept outside of the door by lipid encapsulant 55 and outer field polyester film 59 thereof, very little to resistance during motor output shaft 35 rotary work.
Be positioned at fluid that the left end of microgap rotary dynamic seal assembly and dust-proof rotary dynamic seal right-hand member formed to close community 39 be all full of insulating pressure oil 51 when ground, along with deep-sea electrical micro-machine progressively drops to seabed, then the external seawater pressure deformation that will dust-proof thin-walled casing 60 be forced to concave.Due to the Incoercibility of liquid, the indent deformation of dust-proof thin-walled casing 60 immense pressure of seawater is passed to the microgap rotary dynamic seal assembly of motor internal each component surface and with motor inside and outside the internal pressure that produces of cavity pressure balanced component balance each other, to ensure the normal work of motor.Be be unlikely the operation hindering motor output shaft after 5 ° ~ 15 ° chamferings ensure under sea pressure deformation to occur with dust-proof thin-walled casing 60 middle left and right two α in adjustment seat 56.
Therefore, in the utility model, lipid dust-proof rotary dynamic seal assembly has dust-proof rotary dynamic seal and pressure conduction dual-use function concurrently.Wherein dust-proof movable sealing effect is much better than common mechanical labyrinth formula dust-proof mechanism, and it slightly larger than mechanical labyrinth formula dust-proof mechanism to the friction torque of motor output shaft 35, but is less than common wiper of rubber and has friction torque.And the casing Inward deflection very easily under sea pressure that area in dust-proof thin-walled casing 60 is large and thin, by the pressure conduction of seawater on the rotary dynamic seal assembly of microgap.The space closed due to it is less than motor cavity space relatively, and this space is full of insulating pressure oil 51, therefore the distortion that the thin-walled casing of dust-proof thin-walled casing 60 is small be just enough to seawater pressure to conduct on the rotary dynamic seal assembly of microgap with motor rear inside and outside the pressure that produces of cavity pressure balanced component balance each other, to ensure the normal work of motor.So, the lipid dust-proof rotary dynamic seal assembly with pressure conduction ability is also a kind of pressure balance mechanism, has more simple structure, less volume and weight and lower manufacturing cost than cavity pressure balanced controls inside and outside cavity pressure balanced controls, rubber peel bellows inside and outside common O type circle piston type.Although its internal volume regulated is less than the above two, it is more than sufficient to regulate for little volume pressure herein.Therefore, the dust-proof rotary dynamic seal assembly of lipid with pressure conduction ability of the present utility model is highly suitable for deep-sea electrical micro-machine dust seal.
Described lipid dust-proof rotary dynamic seal assembled process: adopt the assembling dummy shaft of prepackage motor output shaft in the dust-proof rotary dynamic seal assembly of this lipid when terrestrial components is assembled, order is put into dust-proof thin-walled casing 60, polyester film 59 and quantitatively puts into lipid encapsulant 55.Now this point of arrangement be pre-installed being put into vacuum machine and carry out vacuum, discharging at lipid encapsulant 55 air of being mixed into when assembling, to reduce its change in volume under deep sea pressure.The polyester film 59, the adjusting washer (disk) 58 that load left end is continued subsequently on this point of arrangement, adjusting washer (disk) 58 now selects thick 12mm, adjustment seat 56, trip bolt 57 and O type circle 61, transfer to the assembling dummy shaft of motor output shaft, in fluid, dust-proof for this lipid rotary dynamic seal assembly is inserted in the output shaft of deep-sea electrical micro-machine, be screwed into and tighten trip bolt 62, dust-proof for this lipid rotary dynamic seal assembly is anchored in the location inner circle seam of motor front end.Now back out the trip bolt 57 of front end again, transfer to adjustment seat 56 and adjusting washer (disk) 58, change relatively thin adjusting washer (disk) 58 on the dust-proof rotary dynamic seal assembly of this lipid, and again load adjustment pressing plate 56 and trip bolt 57.Tighten trip bolt 57, now unnecessary lipid encapsulant 55 is extruded from polyester film 59 and the gap of motor output shaft, no matter enters in right-hand member cavity or to extrude the exocoel of left end all unimportant, runs not impact to motor.The lipid encapsulant 55 of the lipid dust-proof rotary dynamic seal assembly of such assembling is closely knit, and sealing property is better.
Fig. 6 shows the structural representation of cavity pressure balanced component inside and outside the utility model bellows-type.As shown in Figure 6, inside and outside described bellows-type, cavity pressure balanced component is connected with the rear end of motor body 45, its inner equilibrium casing 49 forms with motor body 45 inner chamber the protective zone laying motor-drive circuit, and inside and outside described bellows-type, cavity pressure balanced component adopts exocoel slight pressure difference in screw to regulate.
Inside and outside described bellows-type, cavity pressure balanced component comprises inner equilibrium casing 49, O type circle 46, metal bellows 50, pressure regulator panel 52 and pressure difference value adjustment screw 54, and wherein inner equilibrium casing 49, metal bellows 50 and pressure regulator panel 52 are hardware.
The left end of described metal bellows 50 is welded on the left end inner stopper of inner equilibrium casing 49, and the right-hand member of metal bellows 50 is welded on the male half coupling of pressure regulator panel 52.Undertaken by D, E partial enlarged view in Fig. 6 after welding squeeze circle process, to strengthen the ability resisting pressure.Above-mentioned assembling, welding and squeeze justified after spray one deck epoxy glue layer, in case seawater corrosion at metal bellows 50 outer surface and with inner equilibrium casing 49 weld and pressure regulator panel 52 weld.Pressure difference value adjustment screw 54 screws in pressure regulator panel 52 by push-and-pull before and after metal bellows 50, regulates the pressure differential of exocoel in the electrical micro-machine of deep-sea between 0.01MPa ~ 0.05MPa.
Metal bellows 50 is pulled back put in row deep-sea electrical micro-machine inner chamber oil-filled after, under the effect of external seawater pressure, inside and outside this bellows-type, cavity pressure balanced component can play motor cavity insulating pressure oil and produce outside pressure to resist and to balance the pressure of external sea water to motor case, ensure that motor normally works under immense pressure.Meanwhile, this pressure balance mechanism is hardware composition, and when deep-sea electrical micro-machine assembles, it is not more afraid of by sharp-pointed process tool and workpiece touching than cavity pressure balanced controls inside and outside rubber peel bellows and scratches.It is simpler that it has structure than cavity pressure balanced controls inside and outside rubber peel bellows, the feature that pressure regulation effect is effective, quick, sensitive equally.Just the volume of pressure regulation is smaller, and due to the Incoercibility of liquid, the adjustable range for the cavity volume ratio of deep-sea electrical micro-machine about tens percent is more than sufficient.Therefore, inside and outside the bellows-type in the utility model, cavity pressure balanced component is particularly suitable for deep-sea electrical micro-machine regulates sensitivity and volume adjusted requirement to chamber pressure.
After inside and outside microgap rotary dynamic seal assembly in the electrical micro-machine of deep-sea, the dust-proof rotary dynamic seal assembly of lipid with conducting pressure and bellows-type, cavity pressure balanced component has assembled, complete machine is still immersed in the container filling insulating pressure oil 51, now, first take off withstand voltage socket 48, fit on pressure tap gauge outfit on socket aperture also unscrews joint.Now, pressure difference value adjustment screw 54 is elongated metal bellows 50 backward, tightens pressure tap subsequently, screw out all pressure difference value adjustment screw 54.Raise this motor and expose fluid surface, now manometric reading is the pressure difference value in the inside and outside chamber of deep-sea electrical micro-machine.Repeatedly repeat the length that above-mentioned operation regulating step is strained or loosened metal bellows 50, can easily and accurately the pressure differential in inside and outside for motor chamber be regulated within the scope of 0.01MPa ~ 0.05MPa.When reaching desired value, in fluid, first pressure difference value adjustment screw 54 being screwed in present position, controlling the elongation length of metal bellows 50 instantly and screwing off pressure tap, change withstand voltage socket 48 and tighten it, now, namely the pressure difference of exocoel is set up.Pressure difference when producing in batches regulates metal bellows 50 length then can set up according to First, the pressure difference of quick adjustment deep-sea electrical micro-machine.
The foregoing is only preferred embodiments of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., within all should being included in protection range of the present utility model.

Claims (17)

1. adopt microgap rotary dynamic seal and a deep-sea electrical micro-machine for inside and outside cavity pressure balance, it is characterized in that: this electrical micro-machine comprise microgap rotary dynamic seal assembly, motor body, in fill insulating pressure oil, cavity pressure balanced component, withstand voltage socket and rear end cap inside and outside lipid dust-proof rotary dynamic seal assembly, bellows-type;
Described microgap rotary dynamic seal assembly, is assemblied on the output shaft of motor, and the tension force adopting insulating pressure oil to produce in radial minim gap carries out movable sealing;
The dust-proof rotary dynamic seal assembly of described lipid inserts in the motor output shaft of microgap rotary dynamic seal assembly, be fixed in the location inner circle seam of motor front end, the silt in seawater and seawater blocks by the lipid encapsulant in lipid dust-proof rotary dynamic seal assembly and outer field polyester film thereof;
Inside and outside described bellows-type, cavity pressure balanced component is connected with the rear end of motor body, its inner equilibrium casing and motor body inner chamber form the protective zone laying motor-drive circuit, and inside and outside described bellows-type, cavity pressure balanced component adopts exocoel slight pressure difference in screw to regulate.
2. employing microgap rotary dynamic seal according to claim 1 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: described microgap rotary dynamic seal assembly comprises microgap rotary dynamic seal rotating ring, microgap rotary dynamic seal static components and motor output shaft, microgap rotary dynamic seal static components is installed in the inner circle seam of electrical micro-machine front end, deep-sea, inserts the motor output shaft with microgap rotary dynamic seal rotating ring in the mesopore of microgap rotary dynamic seal static components.
3. employing microgap rotary dynamic seal according to claim 2 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: described microgap rotary dynamic seal static components comprises microgap rotary dynamic seal stationary ring, stationary ring support, metal bellows and bellows support, axial arranged metal bellows one end and stationary ring support welding, the other end and bellows support welding, realize the automatic centering of microgap rotary dynamic seal rotating ring and microgap rotary dynamic seal stationary ring; The internal circular surfaces of stationary ring support and microgap rotary dynamic seal stationary ring interference are press-fitted and add viscose glue and install.
4. employing microgap rotary dynamic seal according to claim 3 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: the welding position at described two places is coated with epoxy glue layer.
5. employing microgap rotary dynamic seal according to claim 3 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: described stationary ring support inner circle is equidistantly provided with multiple storage glue groove.
6. employing microgap rotary dynamic seal according to claim 5 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: described storage glue groove is triangle, or is up-small and down-big polygon.
7. the employing microgap rotary dynamic seal according to Claims 2 or 3 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: the material of described microgap rotary dynamic seal stationary ring is hard material, microgap rotary dynamic seal rotating ring is hard material, or is flexible material.
8. employing microgap rotary dynamic seal according to claim 7 and the deep-sea electrical micro-machine of inside and outside cavity pressure balance, it is characterized in that: described microgap rotary dynamic seal rotating ring is flexible material, elastic conjunction is on motor output shaft and Precision Machining cylindrical; Or described microgap rotary dynamic seal rotating ring is hard material, hard material to be sprayed on motor output shaft and Precision Machining cylindrical.
9. employing microgap rotary dynamic seal according to claim 3 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: described microgap rotary dynamic seal stationary ring inner circle is equidistantly provided with oil storage tank.
10. employing microgap rotary dynamic seal according to claim 9 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: the shape of described oil storage tank is trapezoidal.
11. employing microgap rotary dynamic seals according to claim 1 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: described lipid dust-proof rotary dynamic seal assembly comprises lipid encapsulant, adjustment seat, trip bolt, adjusting washer (disk), polyester film, dust-proof thin-walled casing, O type circle and trip bolt; Rotary dynamic seal pair is formed with motor output shaft in the middle part of described lipid encapsulant and dust-proof thin-walled casing, it is secondary that O type circle and dust-proof thin-walled casing outside seal groove and motor front end casing inner circle seam form static seal, and the secondary and static seal pair of rotary dynamic seal constitutes the barrier protecting seawater.
12. employing microgap rotary dynamic seals according to claim 11 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: described adjustment seat supports and stops that the lateral width b of polyester film is the width of polyester film, the gap a of described adjustment seat and motor output shaft is 1 ~ 5 times of polyester film width, and the α that adjustment seat left end is arranged is the oblique angle of 5 ° ~ 30 °.
13. employing microgap rotary dynamic seals according to claim 11 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: the lateral width b of described dust-proof thin-walled cabinet supports and stop polyester film is the width of polyester film, the gap a of dust-proof thin-walled casing and motor output shaft is 1 ~ 5 times of polyester film width, and the α that dust-proof thin-walled casing left end is arranged is the oblique angle of 5 ° ~ 30 °.
14. employing microgap rotary dynamic seals according to claim 11 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: the thickness of described polyester film is 0.05mm ~ 0.15mm.
15. employing microgap rotary dynamic seals according to claim 1 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: inside and outside described bellows-type, cavity pressure balanced component comprises inner equilibrium casing, O type circle, withstand voltage socket, metal bellows, pressure regulator panel, pressure difference value adjustment screw and rear end cap, and wherein inner equilibrium casing, metal bellows and pressure regulator panel are hardware.
16. employing microgap rotary dynamic seals according to claim 15 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: the left end of described metal bellows is welded on the left end inner stopper of inner equilibrium casing, the right-hand member of metal bellows is welded on the male half coupling of pressure regulator panel, pressure difference value adjustment screw screws in pressure regulator panel by push-and-pull before and after metal bellows, regulates the pressure differential of exocoel in the electrical micro-machine of deep-sea between 0.01MPa ~ 0.05MPa.
17. employing microgap rotary dynamic seals according to claim 16 and inside and outside cavity pressure balance deep-sea electrical micro-machine, it is characterized in that: the welding position at described two places is coated with epoxy glue layer.
CN201420671035.3U 2014-11-11 2014-11-11 Adopt microgap rotary dynamic seal and the deep-sea electrical micro-machine of inside and outside cavity pressure balance Withdrawn - After Issue CN204290571U (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104393705A (en) * 2014-11-11 2015-03-04 中国电子科技集团公司第二十一研究所 Deep-sea micro-motor adopting micro-clearance rotary motive sealing and having pressure-balanced inner and outer chambers
CN107166041A (en) * 2017-06-13 2017-09-15 武汉第二船舶设计研究所 Pedipulator shoulder joint with the deep self-balancing type high pressure seal in full sea
CN107166042A (en) * 2017-06-13 2017-09-15 武汉第二船舶设计研究所 The complete deep self-balancing type high pressure seal in sea
CN109802510A (en) * 2018-12-24 2019-05-24 中国船舶重工集团公司第七一0研究所 A kind of watertight driving motor shaft
CN111336113A (en) * 2020-04-13 2020-06-26 重庆水泵厂有限责任公司 High-speed sealed internal fluid static and dynamic characteristic measuring system

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104393705A (en) * 2014-11-11 2015-03-04 中国电子科技集团公司第二十一研究所 Deep-sea micro-motor adopting micro-clearance rotary motive sealing and having pressure-balanced inner and outer chambers
CN104393705B (en) * 2014-11-11 2017-05-17 中国电子科技集团公司第二十一研究所 Deep-sea micro-motor adopting micro-clearance rotary motive sealing and having pressure-balanced inner and outer chambers
CN107166041A (en) * 2017-06-13 2017-09-15 武汉第二船舶设计研究所 Pedipulator shoulder joint with the deep self-balancing type high pressure seal in full sea
CN107166042A (en) * 2017-06-13 2017-09-15 武汉第二船舶设计研究所 The complete deep self-balancing type high pressure seal in sea
CN107166041B (en) * 2017-06-13 2018-06-22 武汉第二船舶设计研究所 Pedipulator shoulder joint with the deep self-balancing type high pressure seal in full sea
CN107166042B (en) * 2017-06-13 2018-06-22 武汉第二船舶设计研究所 The complete deep self-balancing type high pressure seal in sea
CN109802510A (en) * 2018-12-24 2019-05-24 中国船舶重工集团公司第七一0研究所 A kind of watertight driving motor shaft
CN111336113A (en) * 2020-04-13 2020-06-26 重庆水泵厂有限责任公司 High-speed sealed internal fluid static and dynamic characteristic measuring system
CN111336113B (en) * 2020-04-13 2022-03-01 重庆水泵厂有限责任公司 High-speed sealed internal fluid static and dynamic characteristic measuring system

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