CN112271895A - Cross magnetic flux rolling brush laminated rotor motor - Google Patents

Abstract

The invention discloses a cross magnetic flux rolling brush laminated rotor motor, which comprises a shell, a fixed magnet, an excitation iron core, a movable magnet and a main shaft, wherein the fixed magnet is arranged on the inner wall of the shell, the movable magnet is fixedly connected on the main shaft, the main shaft is supported and arranged on the inner wall of the shell through a bearing, the excitation iron core is also arranged on the inner wall of the shell through the bearing, the rotation axis of the excitation iron core is superposed with the axis of the main shaft, the excitation iron core is electrified and excited to generate an alternating magnetic field, the magnetic field of the excitation iron core and the magnetic field of the fixed magnet generate, and the magnetic field of the excitation iron core also drives the moving magnet inside the excitation iron core to rotate, the rotation on the moving magnet is transmitted on the main shaft as output, the motor has two rotating parts, and is driven by two times of electromagnetism to rotate, the speed on the main shaft is the superposition of the two speeds, and the magnetic fields of the movable magnet and the fixed magnet can be generated electrically or can be owned by the permanent magnet.

Description

Cross magnetic flux rolling brush laminated rotor motor

Technical Field

The invention relates to the field of motors, in particular to a cross magnetic flux rolling brush laminated rotor motor.

Background

The motor is a rotating power supply unit used in a large amount in industry.

Among the prior art, the most common is three-phase asynchronous motor, and this kind of motor receives the structure to be restricted, when the power does not carry out the overfrequency, moves under power frequency (50 Hz) state, and its maximum speed of rotation is only 3000rpm, higher speed's application scenario, or the power overfrequency, or carry out the overdrive through the gear box, and motor efficiency reduces fast when the variable frequency operation, and under the form such as gear box, then mechanical structure is complicated, and mechanical efficiency receives the influence.

In the prior art, in order to realize the quick halt in the no-load state, the motor needs to be equipped with a brake structure, and the brake structure is generally the contact friction braking of forms such as staple bolt, brake block, and wearing and tearing are severe.

Disclosure of Invention

The invention aims to provide a cross magnetic flux rolling brush laminated rotor motor to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a cross magnetic flux rolling brush laminated rotor motor comprises a shell, a fixed magnet, an excitation iron core, a movable magnet and a main shaft, wherein the fixed magnet is installed on the inner wall of the shell, the movable magnet is fixedly connected to the main shaft, the main shaft is installed on the inner wall of the shell through a bearing support, the excitation iron core is also installed on the inner wall of the shell through a bearing, the rotation axis of the excitation iron core is overlapped with the axis of the main shaft, the excitation iron core is electrified and excited to generate an alternating magnetic field, the magnetic field of the excitation iron core and the magnetic field of the fixed magnet generate an action to rotate, the magnetic field of the excitation iron core also drives the movable magnet inside the excitation iron core to rotate, and the rotation of the movable magnet is transmitted to the main shaft as output.

Further, the excitation iron core comprises a core rod, pole shoes and excitation coils, wherein the core rod and the pole shoes are provided with an even number and are alternately connected into a ring shape, the excitation coils are a whole lead and are sequentially wound on the core rod, the spiral directions of the excitation coils wound on the adjacent core rods are opposite, the end parts of the excitation coils are wire ends, and the wire ends are connected with external alternating current.

The core bar and the pole shoes are sequentially and alternately formed into a ring body which is a core component of the excitation iron core, the excitation coil is wound on the core bar, so that an electric magnetic field can be generated on the core bar after the excitation coil is electrified, the pole shoes become individual magnetic poles due to the fact that the excitation coil is alternately arranged and the spiral directions of the excitation coils on the adjacent core bar are opposite, and as long as the number of the core bar and the pole shoes on the complete ring body is even, NS poles which alternately appear can be established to serve as a subsequent core rotor which is electrically rotated, and as alternating current is introduced, the NS poles which appear on the pole shoes are alternately changed, so that the driving force for rotating relative to the fixed magnet is provided.

Further, the excitation iron core still includes a support section of thick bamboo and electrode ring, a support section of thick bamboo is for connecting at the core bar, the part of the cyclic annular part both sides that the pole shoe constitutes, a support section of thick bamboo extends along the main shaft axial, it installs on the casing through the bearing to support a section of thick bamboo both ends, be equipped with two rings of electrode rings on the support section of thick bamboo, a support section of thick bamboo is the insulator, the electrode ring uses the main shaft as the axis, the end of a thread independently wears to establish respectively on two electrode rings of thick in-connection of support section of thick bamboo wall, a round brush is contradicted respectively outward to the electrode ring, the round brush exerts the conflict power towards the electrode ring through the.

Because the field core is a rotating component, so, in order to introduce the electric signal in the field core, the moving and static contact position must appear, in the original motor, generally there are many contacts, several fan-shaped pieces set up in pairs at two contact components of alternating current, and separate the electrode at the juncture of the fan-shaped piece through the median, such brush arrangement mode, because the short-term electrode can appear in the boundary and break away from and resume the contact, so, danger such as easy to produce spark, etc., in order to appear the spark, the traditional motor generally makes articles on the electrode material, use the conductor such as graphite, etc. that is difficult to produce the spark as the link. However, the disconnection and the re-contact of the electrode inevitably cause current impact at the contact position, and the electrode material is easy to damage, but in the application, the wire head is led to the two annular electrode rings, so that the two electrode rings bear the external connection task, and the electrode rings have complete circular arcs, so that the rolling brush can also be always kept in a contact state with the electrode rings, the complete circular ring electrode does not need large contact force, the installation position of the rolling brush only needs to give a slight contact force towards the electrode rings, the rolling brush is in rolling contact with the electrode rings, the friction is further reduced, and the external electric connection is led out at the rotation axis of the rolling brush.

Further, the rolling brush is a graphite rolling brush. The graphite is soft, even if the electrode contact part is abraded, the graphite is also an abraded rolling brush, the replacement is convenient, and the maintenance cost is low.

Furthermore, the core rod and the pole shoe are ring-shaped silicon steel sheets formed by overlapping and splicing the silicon steel sheets, the magnetic permeability of the ring-shaped silicon steel sheets is good, the technology is mature, the ring-shaped silicon steel sheets are formed by stamping, and the density and the mass distribution are uniform.

Furthermore, the moving magnet is a permanent magnet, the permanent magnet has a self-magnetic field without excitation, the permanent magnet is linked with an electromagnetic field and generates acting force to carry out rotary driving, current excitation is carried out on a rotating component to cause the device to be complicated, and dangerous conditions such as brush spark and the like easily occur at an electric signal contact.

Further, the fixed magnet is also the permanent magnet, and moving magnet and permanent magnet all are the permanent magnet, can realize the automatic brake when shutting down, and among the prior art, the quick brake when the motor shuts down is through adding electromagnetic control 'brake block' in the pivot, promptly: the electromagnetic brake is arranged on a shaft of the motor, the electromagnetic brake is also electrified and attracted when the motor is electrified, the electromagnetic brake does not brake the motor, the electromagnetic brake is also powered off when the motor is powered off, the brake brakes the motor under the action of the spring, but the main shaft can be abraded by the mode.

Further, the casing is filled with transformer oil. The transformer oil lubricating bearing also fills the magnetic gap between the excitation iron core and the fixed magnet and between the excitation iron core and the moving magnet, prevents the deformation of magnetic lines of force caused by some original air dust in the casing, and influences the use.

Further, transformer oil in the casing carries out extrinsic cycle, and when transformer oil reachd the outside, cool off the cooling through heat dissipation coil pipe or heat exchanger. The transformer oil is circulated externally and radiated by the heat exchanger or the coil pipe, so that the heat of the rotor can be taken away more.

Compared with the prior art, the invention has the beneficial effects that: according to the double-layer rotor structure, the two-layer electromagnetic driving structure with the moving magnet and the fixed magnet is respectively constructed on the excitation iron core, so that double-layer rotating speed driving is obtained, the rotating speed is the superposition of a single-layer driving structure, and the rotating speed range is twice as large as that of an asynchronous motor in the prior art; in the three layers of magnets, the middle position is an electric magnetic field of an excitation iron core, the two sides are permanent magnets, when the electric magnetic field is generated, the motor normally runs, after the excitation iron core is powered off, the electric magnetic field is eliminated, the movable magnets and the fixed magnets have a cross action in the excitation iron core, the excitation iron core and the movable magnets are helped to stop rotating quickly, and the purpose of non-contact power-off braking is achieved.

Drawings

In order that the present invention may be more readily and clearly understood, a more particular description of the invention briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

FIG. 1 is a schematic view of the overall axial plane cut-away structure of the present invention;

FIG. 2 is a schematic view showing the circumferential distribution of the housing, the fixed magnets, the field core, and the moving magnets of the present invention;

FIG. 3 is diagram A of FIG. 2;

FIG. 4 is a sectional view of the axial surface of the field core in the vicinity of the field core according to the present invention;

FIG. 5 is a schematic perspective view of the support cylinder and electrode ring of the present invention;

fig. 6 is a schematic view showing the operation of the electrode ring in contact with the roll brush according to the present invention.

In the figure: 1-machine shell, 2-fixed magnet, 3-bearing, 4-excitation iron core, 41-core bar, 42-pole shoe, 43-excitation coil, 431-wire end, 44-supporting cylinder, 45-electrode ring, 5-moving magnet, 6-main shaft and 7-rolling brush.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, a cross flux rolling brush laminated rotor motor comprises a housing 1, a fixed magnet 2, an excitation core 4, a movable magnet 5 and a main shaft 6, wherein the fixed magnet 2 is installed on the inner wall of the housing 1, the movable magnet 5 is fixedly connected to the main shaft 6, the main shaft 6 is supported and installed on the inner wall of the housing 1 through a bearing 3, the excitation core 4 is also installed on the inner wall of the housing 1 through the bearing 3, the rotation axis of the excitation core 4 is coincident with the axis of the main shaft 6, the excitation core 4 is electrified and excited to generate an alternating magnetic field, the magnetic field of the excitation core 4 and the magnetic field of the fixed magnet 2 generate an action to rotate, the magnetic field of the excitation core 4 also drives the movable magnet 5 inside to rotate, the rotation on the movable magnet 5 is transmitted to the main shaft 6 as output, namely, the motor has two rotating parts, and is driven by two times of electromagnetism to rotate, for example, the number of electrode pairs of the fixed magnet 2, the excitation iron core 4 and the moving magnet 5 is one pair, the standard synchronous rotating speed under a 50Hz power supply is 3000rpm, but the rotating speed of a spindle of 6000rpm is twice that of the existing asynchronous motor due to twice excitation driving, certainly, the asynchronous motor has speed asynchronism due to principle limitation, the actual rotating speed may be only 5800-5950 rpm, in the following analysis and drawing of the figure, only one phase of three phases is drawn for magnetic field analysis, namely, the drawing of the figure is drawn for the modified single-phase asynchronous motor, the scheme of the invention can be directly expanded to the three-phase asynchronous motor, and only three groups of coils are required to be arranged and the circumferences of the three groups are equally divided. The magnetic fields of the moving magnet 5 and the fixed magnet 2 can be generated electrically or can be owned by a permanent magnet.

As shown in fig. 2 and 3, the field core 4 includes a core rod 41, pole shoes 42 and field coils 43, the core rod 41 and the pole shoes 42 have an even number and are alternately connected in a ring shape, the field coils 43 are a whole wire and are sequentially wound on the core rod 41, the field coils 43 wound on adjacent core rods 41 have opposite spiral directions, the ends of the field coils 43 are stubs 431, and the stubs 431 are connected with external alternating current.

The ring body formed by the core bar 41 and the pole shoes 42 alternately in turn is the core component of the excitation core 4, the excitation coil 43 is wrapped around the core bar 41, so after the excitation coil 43 is electrified, an electric magnetic field can be generated on the core bar 41, because the excitation coil 43 is alternately arranged and the spiral directions of the excitation coils 43 on the adjacent core bars 41 are opposite, as shown in fig. 3, the pole shoes 42 become magnetic poles one by one, in fig. 3, the current spiral direction of the core bar 41 at the middle position of the view is left-handed, according to the right-hand rule, the pole shoe 42 on the left side of the core bar 41 is an N pole, on the right side is an S pole, in the right-hand portion of the view in fig. 3, the current on the core bar 41 on the right side portion is right-handed spiral, the right-hand rule shows that the left side of the core bar 41 is an S pole, and the right side is an N pole, as long as the complete ring body, the NS pole appearing on the pole piece 42 is alternated because an alternating current is applied, thereby having a driving force for rotation with respect to the fixed magnet 2.

As shown in fig. 4 to 6, the field core 4 further includes a supporting cylinder 44 and an electrode ring 45, the supporting cylinder 44 is a part connected to both sides of the annular part formed by the core bar 41 and the pole shoe 42, the supporting cylinder 44 extends axially along the main shaft 6, both ends of the supporting cylinder 44 are mounted on the casing 1 through the bearings 3, two rings of the electrode ring 45 are disposed on the supporting cylinder 44, the supporting cylinder 44 is an insulator, the electrode ring 45 uses the main shaft 6 as an axis, the wire ends 431 are respectively and independently inserted into the wall thickness of the supporting cylinder 44 and connected to the two electrode rings 45, the electrode rings 45 respectively abut against one rolling brush 7, the rolling brush 7 exerts an abutting force towards the electrode ring 45 through a torsion spring at the mounting axis, and the rolling brush 7 is a conductive body and is connected to an external alternating current.

Because the field core 4 is a rotating component, in order to introduce the electric signal into the field core 4, the moving and static contact positions inevitably occur, in the original motor, there are many contacts, there are several fan-shaped pieces arranged in pairs at two contact members of the alternating current, and the electrodes are separated by the isolation belt at the junctions of the fan-shaped pieces, such a brush arrangement mode, because the temporary electrode separation and recovery contact can occur at the boundary, so the danger such as spark is easy to generate, for the spark occurrence mode, the traditional motor generally makes articles on the electrode material, and uses the conductor such as graphite which is not easy to generate spark as the connector. However, the separation and the re-contact of the electrode will cause current impact at the contact position, and the electrode material is easily damaged, but in this application, the wire ends are led to the two annular electrode rings 45, so that the two electrode rings 45 bear the task of external connection, and the electrode rings 45 have complete circular arcs, so that the rolling brush 7 can also be always kept in contact with the electrode rings 45, the complete annular electrode does not need a large contact force, as shown in fig. 6, the installation position of the rolling brush 7 only needs to give a slight contact force towards the electrode rings 45, the rolling brush 7 is in rolling contact with the electrode rings 45, the friction is further reduced, and the external electrical connection is led out at the rotation axis of the rolling brush 7.

The roller brush 7 is a graphite roller brush. The graphite is soft, even if the electrode contact part is abraded, the roller brush 7 is also abraded, the replacement is convenient, and the maintenance cost is low.

The core rod 41 and the pole shoe 42 are ring-shaped silicon steel sheets formed by overlapping and splicing silicon steel sheets, the magnetic permeability of the ring-shaped silicon steel sheets is good, the technology is mature, the ring-shaped silicon steel sheets are formed by stamping, and the density and the mass distribution are uniform.

The moving magnet 5 is a permanent magnet, the permanent magnet has a self-magnetic field without excitation, the permanent magnet is linked with an electromagnetic field and generates acting force to carry out rotary driving, current excitation is carried out on a rotary component to cause the complexity of the device, and dangerous conditions such as brush spark and the like easily occur at an electric signal contact.

The fixed magnet 2 is also a permanent magnet, the moving magnet 5 and the permanent magnet 2 are permanent magnets, automatic braking when the motor is stopped can be realized, and in the prior art, the quick braking when the motor is stopped is realized by adding an electromagnetically-controlled brake block on the rotating shaft, namely: the electromagnetic brake is arranged on a shaft of the motor, the electromagnetic brake is also electrified and attracted when the motor is electrified, the motor is not braked, the motor is also powered off when the motor is powered off, the brake brakes the motor under the action of the spring, but the main shaft can be abraded in such a way, the brake is carried out in a non-contact way, as shown in figure 3, when the excitation iron core 4 is powered on, the excitation iron core 4 and the movable magnet 5 rotate, once the power supply is powered off, the excitation iron core 4 becomes a middle magnetizer without an own magnetic field, the fixed magnet 2 of the outer ring can attract the movable magnet 5 of the inner ring to stop at any position opposite to the inner ring NS, the movable magnet 5 is prevented from continuously rotating, namely, the movable magnet 5 is enabled to rapidly stop rotating through the magnetism of the permanent magnet, and the brake is non-contact and free of abrasion.

The casing 1 is filled with transformer oil. The transformer oil lubricating bearing also fills magnetic gaps between the excitation iron core 4 and the fixed magnet 2 and between the excitation iron core and the movable magnet 5, so as to prevent the deformation of magnetic lines of force caused by some original air dust in the casing 1 and influence the use of the magnetic lines of force, and it should be noted that the transformer oil is in a liquid state, so the rotating resistance of the transformer oil to the rotor is obviously greater than that of air, so in order to have smaller self-resistance when the transformer oil runs at the rated rotating speed of the motor, the inner wall of the casing 1 should be provided with structures suitable for the circumferential rotation of fluid, the inside of the casing 1 is ensured to be smooth as much as possible, and similar flaky bulges do not occur to cause larger rotating resistance, and when the rated rotating speed is reached, the transformer oil in the casing 1 has a certain rotating speed, and the heat generated by.

The transformer oil in the machine shell 1 is subjected to external circulation, and when the transformer oil reaches the outside, the transformer oil is cooled through the heat dissipation coil or the heat exchanger. The transformer oil is circulated externally and radiated by the heat exchanger or the coil pipe, so that the heat of the rotor can be taken away more.

The operation principle of the motor is as follows: alternating current is input to the two electrode rings 45 from the outside through the rolling brush 7, the alternating current alternately changes the spiral direction and flows through the core rod 41, an alternately changed NS pole is formed on the pole shoe 42, the excitation iron core 4 and the fixed magnet 2 act to generate a rotating force, the excitation iron core 4 rotates in a first stage, the changed magnetic field of the excitation iron core 4 acts on the movable magnet 5 inside, secondary rotation is generated, and the magnetic field is loaded on the main shaft 6 to be output; after the power-off shutdown, the excitation iron core 4 is demagnetized, the excitation iron core 4 is used as an intermediate body of the movable magnet 5 and the fixed magnet 2 to conduct magnetic force lines, the movable magnet 5 is attracted by the fixed magnet 2 to stop at the position opposite to the NS, and the brake is realized by non-contact braking force and high efficiency.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (2)

1. The utility model provides a cross magnetic flux rolling brush folds rotor machine which characterized in that: the motor comprises a shell (1), a fixed magnet (2), an excitation iron core (4), a movable magnet (5) and a main shaft (6), wherein the fixed magnet (2) is installed on the inner wall of the shell (1), the movable magnet (5) is fixedly connected to the main shaft (6), the main shaft (6) is supported and installed on the inner wall of the shell (1) through a bearing (3), the excitation iron core (4) is also installed on the inner wall of the shell (1) through the bearing (3), the rotation axis of the excitation iron core (4) is overlapped with the axis of the main shaft (6), and the excitation iron core (4) is electrified and excited to generate an alternating magnetic field;

the excitation iron core (4) comprises a core bar (41), pole shoes (42) and excitation coils (43), wherein the core bar (41) and the pole shoes (42) are provided with an even number and are alternately connected into a ring shape, the excitation coils (43) are a whole lead and are sequentially wound on the core bar (41), the spiral directions of the excitation coils (43) wound on the adjacent core bars (41) are opposite, the end parts of the excitation coils (43) are wire ends (431), and the wire ends (431) are connected with external alternating current;

the excitation iron core (4) further comprises a support cylinder (44) and an electrode ring (45), the supporting cylinders (44) are connected to two sides of an annular part formed by the core bar (41) and the pole shoes (42), the supporting cylinders (44) extend along the axial direction of the main shaft (6), two ends of each supporting cylinder (44) are arranged on the machine shell (1) through bearings (3), two circles of electrode rings (45) are arranged on the supporting cylinder (44), the supporting cylinder (44) is an insulator, the electrode rings (45) take the main shaft (6) as an axis, the thread heads (431) are respectively and independently arranged in the wall thickness of the supporting cylinder (44) in a penetrating way and connected to the two electrode rings (45), the electrode ring (45) is externally abutted against one rolling brush (7), the rolling brush (7) exerts an abutting force towards the electrode ring (45) through a torsion spring at the installation axis of the rolling brush, and the rolling brush (7) is a conductor and is connected with external alternating current;

the rolling brush (7) is a graphite rolling brush; the shell (1) is filled with transformer oil.

2. A cross flux roller brush rotor electric machine as claimed in claim 1, wherein: the transformer oil in the machine shell (1) is subjected to external circulation, and when the transformer oil reaches the outside, the transformer oil is cooled through the heat dissipation coil or the heat exchanger.

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