CN203477065U - Thrust bearing structure of well submersible motor - Google Patents

Abstract

The utility model discloses a thrust bearing structure of a well submersible motor. The thrust bearing structure comprises a thrust disc, a disc bearing pedestal, a bearing pedestal support, a bearing bush and a bearing disc. The bearing disc is fixed to the disc bearing pedestal through siding block positioning screws, and the bearing bush is composed of a plurality of independent fan-shaped bearing sliding blocks which are evenly distributed on the bearing disc in the circumferential direction; the siding block positioning screws are provided with protrusive ends on the bearing disc, a spherical crown convex hull is arranged in the bearing disc, the two faces of every fan-shaped bearing sliding block are smooth, the big arc edge and the small arc edge of every fan-shaped bearing sliding block are respectively provided with a limiting flange, and all the fan-shaped bearing sliding blocks are placed on the spherical crown convex hull and limited by the protrusive ends; the bearing disc is provided with a center hole, limiting columns with grooves are evenly distributed on the periphery outside the disc, a flange is arranged at the upper end of the periphery of the center hole of the bearing disc, a plastic internally grinding ring is installed in the center hole, the lower surface of the outer circumference of the plastic internally grinding ring is provided with a spigot flange, the flange and the spigot flange are locked mutually, the waist of the plastic internally grinding ring is provided with a concave groove, and the upper end of the plastic internally grinding ring is provided with a fan-shaped sliding block. The limiting flanges of the fan-shaped bearing sliding blocks are embedded into the grooves and the concave groove to be limited, every fan-shaped bearing sliding block is in a loosening state without falling out, and the fan-shaped bearing sliding blocks and the fan-shaped sliding block are located on the same plane. The thrust bearing structure has the advantages that the thrust bearing structure can assist a thrust disc abrasive disc and the fan-shaped bearing sliding blocks to bear axial pressure and impact, material selection difficulty and material cost are reduced, and product quality is ensured.

Description

Well thrust bearing of submersible motor structure

Technical field

The utility model relates to a kind of thrust bearing structure for submersible motor, especially a kind of well thrust bearing of submersible motor structure.

Technical field

In prior art, well thrust bearing of submersible motor is to be applied to well with in submersible pump, when work, to bear the vitals of maximum axial pressure, the quality of product and life-span are played an important role, in order to improve well thrust bearing of submersible motor structure, the axial pressure ability to bear that strengthens thrust bearing is the technical issues that need to address in industry always, wherein having Chinese utility model patent " thrust bearing of submersible motor " patent No. is that 200610124303.X and Chinese utility model patent " thrust bearing " patent No. are 200610124319.0, exactly in order to solve the problem of the axial pressure ability to bear that strengthens thrust bearing, the well that they are described mainly comprises that by thrust bearing of submersible motor structure the disc shaft bearing of water port is arranged around center at thrust disc and bottom, and at bearing block support and the bearing shell of disc shaft bearing bottom spherical bearing, bearing shell is comprised of a plurality of independent multipart bearing slide blocks, between described disc shaft bearing and bearing shell, be also provided with bearing dish, and be fixed in disc shaft bearing by slide block positioning stud, multipart bearing slide block is pressed circumference uniform distribution on bearing dish, described slide block positioning stud has protruding terminus on bearing dish, centre in every two adjacent protruding terminuss on bearing dish is also furnished with spherical crown convex closure, described multipart bearing slide block upper and lower surface is level and smooth, the equal limited location flange of its big or small arc edge, each multipart bearing slide block is all placed on spherical crown convex closure and between two adjacent protruding terminuss and is defined position, described bearing dish also has center hole, this center hole periphery is evenly equipped with the limited post I with groove I consistent with multipart bearing slide block quantity, at dish outer annulus edge, be evenly equipped with corresponding with limited post I, limited post II with groove II, centre in every two adjacent sliders positioning stud protruding terminuss on bearing dish is also furnished with spherical crown convex closure, described multipart bearing slide block two sides is level and smooth, its big or small arc edge all has flange, each multipart bearing slide block is all placed between the protruding terminus on spherical crown convex closure and in two adjacent sliders positioning studs, and slide block size arc-shaped edges flange embeds respectively between the groove II of limited post II and the groove I of limited post I and is lockable, make each multipart bearing slide block in loosening and the state that can not come off.It is strong that said structure has the pressure capability of bearing, structure shape is simple, easily processing, easily guarantee accuracy of manufacturing, and the advantage that multipart bearing slide block can not come off, but also there are some shortcomings in said structure, when Submersible Pump frequent starting is worked or when pump head flow is very high, or when the well that power is larger is applied with submersible motor, thrust disc abrasive disc and multipart bearing slide block will be subject to very large axial pressure and impact, easily cause cracked, at present in order to improve thrust disc abrasive disc and multipart bearing slide block intensity, need to choose high-intensity material, especially high-power well must high-intensity material with the thrust disc abrasive disc of submersible motor and multipart bearing slide block, but in selection at present, be difficult to stable material source, thereby can not guarantee quality of materials, and cost of material is also higher, be subject to the restriction of product price, must reduce the selection difficulty of thrust disc abrasive disc and multipart bearing slide block, stable material source, thereby can guarantee quality of materials, and reduce cost of material, so can only consider from structure, axial pressure and the impact of compensation thrust disc abrasive disc and multipart bearing slide block, this technical problem is also the technical problem of always researching and solving in industry.

Model utility content

The technical problems to be solved in the utility model be to provide a kind of can augmented thrust Disc grinding plate and multipart bearing slide block bear axial pressure and impact, reduce selection difficulty and the cost of material of thrust disc abrasive disc and multipart bearing slide block, guarantee the well thrust bearing of submersible motor structure of quality of product.

In order to solve the problems of the technologies described above, the utility model well by the technological scheme of thrust bearing of submersible motor structure is: comprise that the disc shaft bearing of water port is arranged around center at thrust disc and bottom, and at bearing block support and the bearing shell of disc shaft bearing bottom spherical bearing, bearing shell is comprised of a plurality of independent multipart bearing slide blocks, between described disc shaft bearing and bearing shell, be also provided with bearing dish, and be fixed in disc shaft bearing by slide block positioning stud, multipart bearing slide block is pressed circumference uniform distribution on bearing dish, described slide block positioning stud has protruding terminus on bearing dish, centre in every two adjacent protruding terminuss on bearing dish is also furnished with spherical crown convex closure, described multipart bearing slide block upper and lower surface is level and smooth, the equal limited location flange of its big or small arc edge, each multipart bearing slide block is all placed on spherical crown convex closure and between two adjacent protruding terminuss and is defined position, described bearing dish has center hole, dish outer annulus edge is evenly equipped with consistent with multipart bearing slide block quantity, the reeded limited post of its waist tool, be characterized in: there is flange the center hole periphery upper end at described bearing dish, in this center hole, bull ring in plastics is also installed, below bull ring excircle, there is the seam flange with the mutual locking of flange of the center hole of bearing dish in described plastics, in plastics, the waist of bull ring has spill annular groove, the defining flange of described multipart bearing slide block size arc edge embeds respectively in the groove of limited post and the spill annular groove of the interior bull ring of plastics and is limited, make each multipart bearing slide block in loosening and the state that can not come off, in plastics, the upper end of bull ring has and the multipart bearing slide block quadrant block that corresponding its fan shape of continuity connects one by one, between adjacent quadrant block, by notch, separated, the upper plane of quadrant block and the upper plane of multipart bearing slide block are in same level.

As one of preferred technological scheme of the utility model, be: described bearing shell is comprised of the multipart bearing slide block of 3～8.

As two of the preferred technological scheme of the utility model, be: the steel ball of described spherical crown convex closure in steel ball hole set on being concealed in bearing dish be aobvious to be protruded and form.

As three of the preferred technological scheme of the utility model, be: in the excircle diametric(al) of described disc shaft bearing, symmetry is extended a pair of chucking lug, the outer end of described chucking lug has a U-shaped breach.

As four of the preferred technological scheme of the utility model, be: described multipart bearing slide block bi-side have the concave indentation of the protruding terminus part side that surrounds slide block positioning stud.

As five of the preferred technological scheme of the utility model, be: the upper surface of the defining flange at the small arc-shaped edge of described multipart bearing slide block is the low convex globoidals in middle high both sides.

The beneficial effects of the utility model are: the utility model is owing to having adopted bull ring in plastics, together with it is combined with multipart bearing slide block, and the quadrant block having on bull ring in plastics and multipart bearing slide block are in same level, when thrust disc abrasive disc and multipart bearing slide block are subject to axial pressure and impact, in plastics, bull ring has buffer function, can undertake pressure and the impact that is subject to part by auxiliary separating, avoided thrust disc abrasive disc and multipart bearing slide block easily to cause because pressure and impact are excessive cracked, under same equal-specification and operating conditions, be equivalent to improve the ability that thrust disc abrasive disc and multipart bearing slide block bear axial pressure and impact, under same quality level, selection difficulty and the cost of material of thrust disc abrasive disc and multipart bearing slide block have been reduced.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, well of the present utility model is described in more detail by thrust bearing of submersible motor structure.

Fig. 1 is that the utility model well is arranged on the sectional structure chart in motor by thrust bearing of submersible motor structure.

Fig. 2 is disk bearing holder assembly plan view in thrust bearing of submersible motor structure for the utility model well.

Fig. 3 is that the A-A of Fig. 2 is to sectional view.

Fig. 4 is the main parallax stereogram of Fig. 2.

Fig. 5 is the rear perspective view of Fig. 2.

Fig. 6 is the plan view of disc shaft bearing in thrust bearing of submersible motor structure for the utility model well.

Fig. 7 is the left view of Fig. 6.

Fig. 8 is that the B-B of Fig. 6 is to sectional view.

Fig. 9 is the main parallax stereogram of Fig. 6.

Figure 10 is the rear perspective view of Fig. 6.

Figure 11 is the plan view of thrust bearing of submersible motor structure axis tray for the utility model well.

Figure 12 is that the C-C of Figure 11 is to sectional view.

Figure 13 is the main parallax stereogram of Figure 11.

Figure 14 is the rear perspective view of Figure 11.

Figure 15 is the plan view of bull ring in plastics in thrust bearing of submersible motor structure for the utility model well.

Figure 16 is that the D-D of Figure 15 is to sectional view.

Figure 17 is the main parallax stereogram of Figure 15.

Figure 18 is the rear perspective view of Figure 15.

Figure 19 is the plan view of multipart bearing slide block in thrust bearing of submersible motor structure for the utility model well.

Figure 20 is that the E-E of Figure 19 is to sectional view.

Figure 21 is that the F-F of Figure 19 is to sectional view.

Figure 22 is the worm's eye view of Figure 19.

Figure 23 is the rear view of Figure 19.

Figure 24 is the main parallax stereogram of Figure 19.

Figure 25 is the rear perspective view of Figure 19.

Figure 26 be the utility model well with in thrust bearing of submersible motor structure with the disk bearing holder assembly plan view of chucking lug.

Figure 27 is that the G-G of Figure 26 is to sectional view.

Figure 28 is the stereogram of Figure 26.

Figure 29 be the utility model well with in thrust bearing of submersible motor structure with the plan view of the disc shaft bearing of chucking lug.

Figure 30 is that the H-H of Figure 28 is to sectional view.

Figure 31 is the main parallax stereogram of Figure 28.

Figure 32 is the rear perspective view of Figure 28.

Figure 33 is that the utility model well is with have the plan view of the disk bearing holder assembly of eight multipart bearing slide blocks in thrust bearing of submersible motor structure with chucking lug.

Figure 34 is the stereogram of Figure 33.

Figure 35 is the main parallax stereogram of bearing dish that coordinates eight multipart bearing slide blocks in thrust bearing of submersible motor structure for the utility model well.

Figure 36 is the bearing dish rear perspective view that coordinates eight multipart bearing slide blocks in thrust bearing of submersible motor structure for the utility model well.

Figure 37 is that the utility model well is with coordinate the main parallax stereogram of the disc shaft bearing of eight multipart bearing slide blocks in thrust bearing of submersible motor structure with chucking lug.

Figure 38 is that the utility model well is with coordinate the rear perspective view of the disc shaft bearing of eight multipart bearing slide blocks in thrust bearing of submersible motor structure with chucking lug.

Figure 39 is that the utility model well is with coordinate the longitudinal sectional view of the disc shaft bearing of eight multipart bearing slide blocks in thrust bearing of submersible motor structure with chucking lug.

Figure 40 is the main parallax stereogram that coordinates the interior bull ring of plastics of eight multipart bearing slide blocks in thrust bearing of submersible motor structure for the utility model well.

Figure 41 is the rear perspective view that coordinates the interior bull ring of plastics of eight multipart bearing slide blocks in thrust bearing of submersible motor structure for the utility model well.

Figure 42 is that the utility model well is arranged on the sectional structure chart in motor when applying with chucking lug disc shaft bearing by thrust bearing of submersible motor structure.

Embodiment

Shown in Fig. 1～42, the utility model well with the mode of execution of thrust bearing of submersible motor structure is: comprise that the disc shaft bearing 2 of water port is arranged around center at thrust disc 1 and bottom, and at bearing block support 3 and the bearing shell 4 of disc shaft bearing 2 bottom spherical bearings, bearing shell 4 is comprised of a plurality of independent multipart bearing slide blocks 41, between described disc shaft bearing 2 and bearing shell 3, be also provided with bearing dish 5, and be fixed in disc shaft bearing 2 by slide block positioning stud 51, multipart bearing slide block 41 is pressed circumference uniform distribution on bearing dish 5, described slide block positioning stud 51 has protruding terminus 511 on bearing dish, centre in every two adjacent protruding terminuss 511 on bearing dish 5 is also furnished with spherical crown convex closure 52, described multipart bearing slide block 41 upper and lower surfaces are level and smooth, the equal limited location flange 411 of its big or small arc edge, each multipart bearing slide block 41 is all placed on spherical crown convex closure 52 and between two adjacent protruding terminuss 511 and is defined position, described bearing dish 5 has center hole 53, dish outer annulus edge is evenly equipped with consistent with multipart bearing slide block 41 quantity, its waist has the limited post 55 of groove 54, there is flange 56 center hole 53 periphery upper ends at described bearing dish 5, in this center hole 53, bull ring 6 in plastics is also installed, below bull ring 6 excircles, there is the seam flange 61 with the flange 56 mutual lockings of the center hole 53 of bearing dish 5 in described plastics, in plastics, the waist of bull ring 6 has spill annular groove 62, the defining flange 411 of described multipart bearing slide block 41 big or small arc edges embeds respectively in the groove 54 of limited post 55 and the spill annular groove 62 of the interior bull ring 6 of plastics and is limited, make each multipart bearing slide block 41 in loosening and the state that can not come off, in plastics, the upper end of bull ring 6 has and multipart bearing slide block 41 quadrant block 63 that corresponding its fan shape of continuity connects one by one, between adjacent quadrant block 63, by notch 64, separated, the upper plane of quadrant block 63 and the upper plane of multipart bearing slide block 41 are in same level.In the present embodiment, in plastics, bull ring 6 can adopt wear-resistant plastic molding and forming, the upper surface of its quadrant block 63 is smooth, between notch 64 between described adjacent quadrant block 63 and adjacent multipart bearing slide block 41, gap is communicated with, can be used as lubricated waterway, bearing shell 4 adopts 6 and 8 multipart bearing slide blocks 41 compositions, multipart bearing slide block 41 can be used graphite, graphite metal alloy, high strength alloy, the high-strength high-abrasive material die casts such as pottery, also can use common alloy processing after-baking to improve hardness finished plane again, in order to guarantee that each forms all multipart bearing slide block 41 consistency of thickness of bearing shell 4, can be simultaneously the plane of all multipart bearing slide blocks 41 of fine grinding together, the spherical bearing of disc shaft bearing 2 bottoms and bearing block support 3, for adjusting axle bearing capacity balance and cooperation multipart bearing slide block 41 alignings, can adopt the bottom center in disc shaft bearing 2 that concave spherical surface or protruding sphere are set, concave spherical surface or protruding sphere can form with the 2 essence castings of disc shaft bearing or finishing work, and bearing block support 3 is sphere fore-set or ball-and-socket pallet support for corresponding cooperation.

Shown in Fig. 2,4,26,28,33～34, as the utility model, be one of preferred embodiment: described bearing shell 4 is comprised of the multipart bearing slide block 41 of 3～8.In the present embodiment, can and bear according to bearing dish 5 size that pressure area selects is that 3,4,5,6,7,8 multipart bearing slide blocks 41 form, and is uniformly distributed on bearing dish 5, shows the bearing shells 4 of 6 and 8 multipart bearing slide block 41 compositions in figure.

Shown in Fig. 1,3, as the utility model preferred embodiment two be: the steel ball 522 of described spherical crown convex closure 52 in steel ball hole set on being concealed in bearing dish 5 521 be aobvious to be protruded and forms.In the present embodiment, the diameter of design steel ball 522 is greater than the thickness of bearing dish 5, and steel ball 522 aobvious spherical crown convex closure height protruding from steel ball hole 521 equals thickness poor of steel ball 522 diameters and bearing dish 5, by multipart bearing slide block 41, is blocked and is prevented from coming off.The hardness of making spherical crown convex closure of steel ball is high, bears the intensity of pressure high, not easy to wear, easily guarantees that each spherical crown convex closure height is consistent simultaneously.Steel ball can be bought commodity part, and cost is low.

Shown in Figure 26～42, as the utility model preferred embodiment three be: in the excircle diametric(al) of described disc shaft bearing 2, symmetry is extended a pair of chucking lug 21, and the outer end of described chucking lug 21 has a U-shaped breach 22.This U-shaped breach 22 is to make disc shaft bearing 2 can not rotate but can allow to swing.

Shown in Fig. 2,4,19～28,33～34, as the utility model preferred embodiment four be: described multipart bearing slide block 41 bi-side have the concave indentation 412 of the protruding terminus 511 part sides that surround slide block positioning stud 51.This concave indentation 412 can make multipart bearing slide block 41 bi-side better locate, and the side-play amount that reduces 41 rotations of multipart bearing slide block and move radially, better prevents multipart bearing slide block 41 by groove 54 and spill annular groove 62 is stuck can not swing.

Shown in Figure 22, as the utility model preferred embodiment five be: the upper surface of the defining flange 411 at the small arc-shaped edge of described multipart bearing slide block 41 is the low convex globoidals 413 in middle high both sides.Because small arc-shaped edge and spill annular groove 62 surface of contact of multipart bearing slide block 41 are more, convex globoidal 413 can make the small arc-shaped edge of multipart bearing slide block 41 and spill annular groove 62 surface of contact reduce, increase the degrees of freedom that multipart bearing slide block 41 swings, also prevented that multipart bearing slide block 41 is stuck in spill annular groove 62 simultaneously.

The utility model is owing to having adopted bull ring 6 in plastics, together with it is combined with multipart bearing slide block 41, and the quadrant block 63 having on bull ring 6 in plastics and multipart bearing slide block 41 are in same level, when thrust disc 1 abrasive disc and multipart bearing slide block 41 are subject to axial pressure and impact, in plastics, bull ring 6 has buffer function, can undertake pressure and the impact that is subject to part by auxiliary separating, avoided thrust disc abrasive disc and multipart bearing slide block easily to cause because pressure and impact are excessive cracked, under same equal-specification and operating conditions, be equivalent to improve the ability that thrust disc abrasive disc and multipart bearing slide block bear axial pressure and impact, under same quality level, selection difficulty and the cost of material of thrust disc abrasive disc and multipart bearing slide block have been reduced.

The above be the utility model preferred embodiment, do not form the restriction to the utility model protection domain, so long as implement the purpose of this utility model with essentially identical means, all should belong to protection domain of the present utility model.

Claims (6)

1. a well thrust bearing of submersible motor structure, comprise that the disc shaft bearing (2) of water port is arranged around center at thrust disc (1) and bottom, and at bearing block support (3) and the bearing shell (4) of disc shaft bearing (2) bottom spherical bearing, bearing shell (4) is comprised of a plurality of independent multipart bearing slide blocks (41), between described disc shaft bearing (2) and bearing shell (3), be also provided with bearing dish (5), and be fixed in disc shaft bearing (2) by slide block positioning stud (51), multipart bearing slide block (41) is pressed circumference uniform distribution on bearing dish (5), described slide block positioning stud (51) has protruding terminus (511) on bearing dish, in the upper centre in every two adjacent protruding terminuss (511) of bearing dish (5), be also furnished with spherical crown convex closure (52), described multipart bearing slide block (41) upper and lower surface is level and smooth, the equal limited location flange of its big or small arc edge (411), each multipart bearing slide block (41) is all placed on spherical crown convex closure (52) above and is defined position between two adjacent protruding terminus (511), described bearing dish (5) has center hole (53), dish outer annulus edge is evenly equipped with consistent with multipart bearing slide block (41) quantity, its waist has the limited post (55) of groove (54), it is characterized in that: there is flange (56) center hole (53) the periphery upper end at described bearing dish (5), in this center hole (53), bull ring (6) in plastics is also installed, below bull ring (6) excircle, have in described plastics and the flange (56) of the center hole (53) of bearing dish (5) the seam flange (61) of locking mutually, in plastics, the waist of bull ring (6) has spill annular groove (62), the defining flange (411) of the big or small arc edge of described multipart bearing slide block (41) embeds respectively in the groove (54) of limited post (55) and the spill annular groove (62) of the interior bull ring (6) of plastics and is limited, make each multipart bearing slide block (41) in loosening and the state that can not come off, in plastics, the upper end of bull ring (6) has and multipart bearing slide block (41) quadrant block (63) that corresponding its fan shape of continuity connects one by one, between adjacent quadrant block (63), by notch (64), separated, the upper plane of the upper plane of quadrant block (63) and multipart bearing slide block (41) is in same level.

2. well according to claim 1 thrust bearing of submersible motor structure, is characterized in that: described bearing shell (4) is comprised of the multipart bearing slide block (41) of 3～8.

3. well according to claim 1 thrust bearing of submersible motor structure, is characterized in that: described spherical crown convex closure (52) by be concealed in steel ball (522) in the upper set steel ball hole (521) of bearing dish (5) aobvious protrude form.

4. well according to claim 1 thrust bearing of submersible motor structure, it is characterized in that: in the excircle diametric(al) of described disc shaft bearing (2), symmetry is extended a pair of chucking lug (21), and the outer end of described chucking lug (21) has a U-shaped breach (22).

5. well according to claim 1 thrust bearing of submersible motor structure, is characterized in that: described multipart bearing slide block (41) bi-side have the concave indentation (412) of protruding terminus (511) the part side that surrounds slide block positioning stud (51).

6. well according to claim 1 thrust bearing of submersible motor structure, is characterized in that: the upper surface of the defining flange (411) at the small arc-shaped edge of described multipart bearing slide block (41) is the low convex globoidals (413) in middle high both sides.

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