CN207518412U - A kind of built-in deep permanent magnet synchronous motor in full sea driven - Google Patents

A kind of built-in deep permanent magnet synchronous motor in full sea driven Download PDF

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Publication number
CN207518412U
CN207518412U CN201721426382.XU CN201721426382U CN207518412U CN 207518412 U CN207518412 U CN 207518412U CN 201721426382 U CN201721426382 U CN 201721426382U CN 207518412 U CN207518412 U CN 207518412U
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China
Prior art keywords
resistance
compression
bearing
water pipe
compression housing
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CN201721426382.XU
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Inventor
韩野
吕新
罗凯林
钟齐
范朝伟
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TIANJIN HAOYE TECHNOLOGY Co Ltd
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TIANJIN HAOYE TECHNOLOGY Co Ltd
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Abstract

The utility model discloses a kind of deep permanent magnet synchronous motor in full sea of built-in driving, structure includes:Driving shaft,Motor body,Axle position hole,Link,Resistance to compression electronic box,Drainage arrangement,Connector,Resistance to compression housing,Bearing,Ball,Blade,Water pipe,Discharge outlet,Drive link,Assembly fixture,Bevel gear,Coordinate frame,Assembly fixture is located at the front surface of resistance to compression housing and is integrated with resistance to compression housing,Water pipe is located at the trailing flank of assembly fixture and is connected with assembly fixture,Drive link is located at the medial surface of water pipe and is matched with bearing,Bearing is fixedly mounted on the medial surface of water pipe,Ball is located at the medial surface of bearing and coordinates with bearing activity,A kind of built-in deep permanent magnet synchronous motor in full sea driven of the utility model,After upper drainage arrangement,Motor, which can be reached, at work has working environment certain adaptability to changes,So that motor can work at deep-sea,And the purpose that device can be caused more perfect.

Description

A kind of built-in deep permanent magnet synchronous motor in full sea driven
Technical field
The utility model is a kind of built-in deep permanent magnet synchronous motor in full sea driven, belongs to magneto field.
Background technology
Synchronous generator needs that there are one D.C. magnetic fields to realize the conversion of energy.And generate the direct current in this magnetic field The exciting current of electric current, referred to as generator.
Synchronous generator needs that there are one D.C. magnetic fields to realize the conversion of energy.And generate the direct current in this magnetic field The exciting current of electric current, referred to as generator.It is every to obtain exciting current from other power supplys according to the supply mode of exciting current Generator, referred to as separately excited dynamo obtain field power supply in itself from generator, then referred to as self-exciter.
Prior art discloses application No. is:201320669833.8 a kind of permanent magnet synchronous motor use 12 slot, ten pole Scheme, 12 slot stators are arranged in the outside of ten pole rotors.It can be seen by the characteristic distributions of 12 slot stators and ten pole rotors Go out, ten pole rotor outer rings be the total number of the corresponding stator slot of permanent magnet in the South Pole and outer ring be the arctic permanent magnet it is corresponding fixed The total number of pilot trench is identical and is six, and therefore, ten pole rotors realize at any one time, outer ring be the South Pole permanent magnet and Outer ring is that the permanent magnet magnetic force of the arctic is essentially identical, so as to which ten pole rotor magnetic force distributions in rotary course are uniform, cogging torque It greatly reduces.Therefore 12 slot ten-pole permanent magnet synchronous motor provided by the utility model, in production technology and production cost substantially not In the case of change, substantially reducing for cogging torque is realized, meets in actual application the low tooth to permanent magnet synchronous motor The requirement of slot torque, the motor of the prior art at work do not have working environment certain adaptability to changes, so as to make Obtaining motor can work, and can not so that device is more perfect at deep-sea.
Utility model content
In view of the deficienciess of the prior art, the deep permanent magnetism in full sea that the utility model aim is to provide a kind of built-in driving is same Motor is walked, does not have certain adaptability to changes for working environment at work to solve motor, so as to enable motor The problem of working at deep-sea, and can not device more being improved.
To achieve these goals, the utility model is to realize by the following technical solutions:A kind of built-in driving The complete deep permanent magnet synchronous motor in sea, structure include:Driving shaft, motor body, axle position hole, link, resistance to compression electronic box, drainage arrangement, Connector, resistance to compression housing, the motor body are located at the medial surface of resistance to compression housing and are matched with resistance to compression housing, the axle position hole Positioned at motor body front surface and be integrated with motor body, the resistance to compression electronic box is located at the upper table of resistance to compression housing It face and is fixedly connected with resistance to compression housing, the drainage arrangement is located at the left side of resistance to compression electronic box front surface and embedded resistance to compression electronic box Inside, the driving shaft are located at the medial surface in axle position hole and coordinate with the activity of axle position hole.
The drainage arrangement is equipped with bearing, ball, blade, water pipe, discharge outlet, drive link, assembly fixture, bevel gear, cooperation Frame, the assembly fixture are located at the front surface of resistance to compression housing and are integrated with resistance to compression housing, and the water pipe is located at assembling The trailing flank of frame and it is connected with assembly fixture, the drive link is located at the medial surface of water pipe and is matched with bearing, described Bearing is fixedly mounted on the medial surface of water pipe, and the ball is located at the medial surface of bearing and coordinates with bearing activity, the row The mouth of a river is located at the front surface of water pipe and is integrated with water pipe, the blade be located at cooperation frame lateral surface and with It closes frame to be fixedly connected, the cooperation frame is located at the lateral surface of bearing and is flexibly connected with bearing.
Further, the connector is located at the front surface of resistance to compression electronic box and is connected with resistance to compression electronic box.
Further, the motor body is located at the medial surface of resistance to compression housing and is gap-matched with resistance to compression housing.
Further, the link is located at the upper surface of resistance to compression housing and together with resistance to compression case weld.
Further, the drive link is located at the medial surface of water pipe and is gap-matched with bearing.
Further, the resistance to compression enclosure interior is equipped with water proof rubber.
Further, the motor body is made of metal material.
Advantageous effect
A kind of built-in deep permanent magnet synchronous motor in full sea driven of the utility model, after upper drainage arrangement, Ke Yida There is certain adaptability to changes for working environment at work to motor, so that motor can carry out work at deep-sea Make, and the purpose that device can be caused more perfect.
Description of the drawings
Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other spies of the utility model Sign, objects and advantages will become more apparent upon:
Fig. 1 is a kind of built-in structure diagram of the deep permanent magnet synchronous motor in full sea driven of the utility model.
Fig. 2 is the structure diagram of the utility model drainage arrangement.
In figure:Driving shaft -1, motor body -2, axle position hole -3, link -4, resistance to compression electronic box -5, drainage arrangement -6, connector - 7th, resistance to compression housing -8, bearing -601, ball -602, blade -603, water pipe -604, discharge outlet -605, drive link -606, assembling Frame -607, bevel gear -608, cooperation frame -609.
Specific embodiment
To be easy to understand technical means, creative features, achievable purpose and effectiveness of the utility model, below With reference to specific embodiment, the utility model is expanded on further.
It please refers to Fig.1, Fig. 2, the utility model provides a kind of built-in deep permanent magnet synchronous motor technical solution in full sea driven: Its structure includes:Driving shaft 1, motor body 2, axle position hole 3, link 4, resistance to compression electronic box 5, drainage arrangement 6, connector 7, resistance to compression housing 8, the motor body 2 is located at the medial surface of resistance to compression housing 8 and is matched with resistance to compression housing 8, and the axle position hole 3 is located at motor It the front surface of main body 2 and is integrated with motor body 2, the resistance to compression electronic box 5 is located at the upper surface of resistance to compression housing 8 simultaneously And be fixedly connected with resistance to compression housing 8, the drainage arrangement 6 is located at the left side of 5 front surface of resistance to compression electronic box and embedded resistance to compression electronic box 5 Inside, the driving shaft 1 are located at the medial surface in axle position hole 3 and coordinate with 3 activity of axle position hole.
The drainage arrangement 6 be equipped with bearing 601, ball 602, blade 603, water pipe 604, discharge outlet 605, drive link 606, Assembly fixture 607, bevel gear 608, cooperation frame 609, the assembly fixture 607 be located at the front surface of resistance to compression housing 8 and with resistance to compression shell Body 8 is integrated, and the water pipe 604 is located at the trailing flank of assembly fixture 607 and is connected with assembly fixture 607, the biography Lever 606 is located at the medial surface of water pipe 604 and is matched with bearing 601, and the bearing 601 is fixedly mounted on water pipe 604 Medial surface, the ball 602 are located at the medial surface of bearing 601 and coordinate with 601 activity of bearing, and the discharge outlet 605 is located at The front surface of water pipe 604 and be integrated with water pipe 604, the blade 603 be located at the lateral surface of cooperation frame 609 and It is fixedly connected with cooperation frame 609, the cooperation frame 609 is located at the lateral surface of bearing 601 and connects with 601 activity of bearing, described Connector 7 is located at the front surface of resistance to compression electronic box 5 and is connected with resistance to compression electronic box 5, and the motor body 2 is located at resistance to compression housing 8 Medial surface and be gap-matched with resistance to compression housing 8, the link 4 be located at the upper surface of resistance to compression housing 8 and with resistance to compression shell Body 8 welds together, and the drive link 606 is located at the medial surface of water pipe 604 and is gap-matched with bearing 601, described Resistance to compression housing 8 is internally provided with water proof rubber, and the motor body 2 is made of metal material.
Drainage arrangement 6 described in the utility model can will be pressed into internal flow using the power of driving shaft again by water The device of discharge.
It is carrying out in use, connecting electric wire first with connector 7 so that resistance to compression electronic box 5 must be electric, and at this moment motor body 2 drives Driving shaft 1 rotates so that motor operation, when extraneous flow is penetrated into from axle position hole 3, flow enters via water pipe 604, and arranges Water installations connect driving shaft 1 by bevel gear 608 and frame 609 are coordinated to be rotated on bearing 601, and band movable vane piece 603 again will Flow is discharged from discharge outlet 605, and can thus reach motor at work has working environment certain adaptability to changes, from And enable to motor that can work at deep-sea, and the purpose that device can be caused more perfect.
The utility model solution, which can reach motor, at work has working environment certain adaptability to changes, so as to Enable to motor that can work at deep-sea, and the purpose that device can be caused more perfect, the utility model lead to Being combined with each other for above-mentioned component is crossed, can reach motor at work has working environment certain adaptability to changes, so as to Enough motor is worked at deep-sea, and the purpose that device can be caused more perfect, it is described in detail below:
The assembly fixture 607 is located at the front surface of resistance to compression housing 8 and is integrated with resistance to compression housing 8, the water Pipe 604 is located at the trailing flank of assembly fixture 607 and is connected with assembly fixture 607, and the drive link 606 is located at the interior of water pipe 604 It side and is matched with bearing 601, the bearing 601 is fixedly mounted on the medial surface of water pipe 604, and the ball 602 is located at The medial surface of bearing 601 and coordinate with the activity of bearing 601, the discharge outlet 605 is located at the front surface and and water of water pipe 604 Pipe 604 is integrated, and the blade 603 is located at the lateral surface of cooperation frame 609 and is fixedly connected with cooperation frame 609, institute Cooperation frame 609 is stated to be located at the lateral surface of bearing 601 and with 601 activity of bearing connect.
The basic principle of the utility model and main feature and the advantages of the utility model has been shown and described above, for For those skilled in the art, it is clear that the utility model is not limited to the details of above-mentioned exemplary embodiment, and without departing substantially from this In the case of the spirit or essential attributes of utility model, the utility model can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the utility model is by institute Attached claim rather than above description limit, it is intended that will fall within the meaning and scope of the equivalent requirements of the claims All changes are embraced therein.Any reference numeral in claim should not be considered as to the involved right of limitation It is required that.
In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in each embodiment can also be properly combined, forms those skilled in the art The other embodiment being appreciated that.

Claims (5)

1. a kind of built-in deep permanent magnet synchronous motor in full sea driven, structure include:Driving shaft(1), motor body(2), axle position Hole(3), link(4), resistance to compression electronic box(5), drainage arrangement(6), connector(7), resistance to compression housing(8), the motor body(2)It is located at Resistance to compression housing(8)Medial surface and with resistance to compression housing(8)It matches, the axle position hole(3)Positioned at motor body(2)Preceding table Face and and motor body(2)It is integrated, the resistance to compression electronic box(5)Positioned at resistance to compression housing(8)Upper surface and with Resistance to compression housing(8)It is fixedly connected, the drainage arrangement(6)Positioned at resistance to compression electronic box(5)The left side of front surface and embedded resistance to compression electricity Case(5)Inside, the driving shaft(1)Positioned at axle position hole(3)Medial surface and with axle position hole(3)Activity cooperation, feature exist In:
The drainage arrangement(6)Equipped with bearing(601), ball(602), blade(603), water pipe(604), discharge outlet(605), pass Lever(606), assembly fixture(607), bevel gear(608), cooperation frame(609), the assembly fixture(607)Positioned at resistance to compression housing(8) Front surface and with resistance to compression housing(8)It is integrated, the water pipe(604)Positioned at assembly fixture(607)Trailing flank simultaneously And and assembly fixture(607)It is connected, the drive link(606)Positioned at water pipe(604)Medial surface and and bearing(601)Match It closes, the bearing(601)It is fixedly mounted on water pipe(604)Medial surface, the ball(602)Positioned at bearing(601)Inside Face and and bearing(601)Activity cooperation, the discharge outlet(605)Positioned at water pipe(604)Front surface and and water pipe(604) It is integrated, the blade(603)Positioned at cooperation frame(609)Lateral surface and with coordinate frame(609)It is fixedly connected, institute State cooperation frame(609)Positioned at bearing(601)Lateral surface and and bearing(601)Flexible connection.
2. a kind of built-in deep permanent magnet synchronous motor in full sea driven according to claim 1, it is characterised in that:The connector (7)Positioned at resistance to compression electronic box(5)Front surface and with resistance to compression electronic box(5)It is connected.
3. a kind of built-in deep permanent magnet synchronous motor in full sea driven according to claim 1, it is characterised in that:The motor Main body(2)Positioned at resistance to compression housing(8)Medial surface and with resistance to compression housing(8)It is gap-matched.
4. a kind of built-in deep permanent magnet synchronous motor in full sea driven according to claim 1, it is characterised in that:The link (4)Positioned at resistance to compression housing(8)Upper surface and with resistance to compression housing(8)Weld together.
5. a kind of built-in deep permanent magnet synchronous motor in full sea driven according to claim 1, it is characterised in that:The transmission Bar(606)Positioned at water pipe(604)Medial surface and and bearing(601)It is gap-matched.
CN201721426382.XU 2017-10-31 2017-10-31 A kind of built-in deep permanent magnet synchronous motor in full sea driven Active CN207518412U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201721426382.XU CN207518412U (en) 2017-10-31 2017-10-31 A kind of built-in deep permanent magnet synchronous motor in full sea driven

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201721426382.XU CN207518412U (en) 2017-10-31 2017-10-31 A kind of built-in deep permanent magnet synchronous motor in full sea driven

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107612199A (en) * 2017-10-31 2018-01-19 天津昊野科技有限公司 A kind of complete deep permagnetic synchronous motor in sea of built-in driving

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107612199A (en) * 2017-10-31 2018-01-19 天津昊野科技有限公司 A kind of complete deep permagnetic synchronous motor in sea of built-in driving

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