CN208190443U - One-stroke intermittent power supply motor - Google Patents

Abstract

The utility model discloses a kind of one-stroke intermittent power supply motor of electromagnet both ends magnetic pole reciprocal stress positive simultaneously, including rack and rack-mounted crankshaft, flywheel, at least one set of magnetic drive unit and corresponding at least one set of control unit, magnetic drive unit includes the crank throw being arranged on crankshaft and connecting rod, telescopic shaft, two slides, N⁺A electromagnet (moving magnet) and N⁺+ 1 permanent magnet (fixed magnet), N⁺For positive integer, N⁺Homopolarity is opposite in order and and N for+1 permanent magnet⁺A electromagnet cross arrangement；Control unit includes electric current rotary connector and electric current interval commutator, two commutator segments of electric current interval commutator and the on-off stroke of brush respectively account for the 1/4 of circumference, it is powered for controlling 2 DC current directions of alternation weekly and electromagnet being made to originate 1/2 stroke, other 1/2 stroke power-off, so that electromagnet both ends magnetic pole and one end is powered off iron core relay stress and completes a stroke, another stroke is similarly completed, and acting on connecting rod by telescopic shaft makes crankshaft rotate output power.

Description

One-stroke intermittent power supply motor

Technical field

The utility model belongs to electromagnetism and field of power machinery technology, is related to a kind of engine of magnetic field forward direction stress A kind of tool, and in particular to one-stroke intermittent power supply motor of electromagnet (moving magnet) both ends magnetic pole reciprocal stress positive simultaneously.

Background technique

It once magnetizes permanently with magnetic characteristic it is well known that permanent magnet has, and homopolarity is mutually exclusive, different Pole is attracted each other, and with being showing improvement or progress day by day for science and technology, the performance of permanent magnet is continuously improved, rare-earth Nd-Fe-B permanent magnet of today It is magnetic superpower, it is capable of providing lasting high-intensity magnetic field.

Currently, well known: 1. motor generate rotating excitation field effect acting after armature winding energization, the disadvantage is that needing Want continued power that could work normally；2. entitled " Double-stroke permanent magnet engine ", Application Number (patent) are 2010105520625, Authorization Notice No. be 102468786B patent of invention, principle be using moving magnet (permanent magnet) with The positive of fixed magnet (energization electromagnet) repels one stroke of completion, utilizes moving magnet (permanent magnet) and power-off electromagnet core Positive attract complete another stroke, and reciprocal linear motion is made into crankshaft rotation output power, disadvantage by connecting rod It is that moving magnet only has one end magnetic pole stress.

Utility model content

In order to overcome the defect and deficiency of above-mentioned existing motor He " Double-stroke permanent magnet engine ", the utility model is mentioned For a kind of one-stroke intermittent power supply motor of moving magnet (electromagnet) both ends magnetic pole reciprocal stress positive simultaneously.

To achieve the above object, the technical scheme adopted by the utility model is that: including rack and rack-mounted song Axis, flywheel, magnetic drive unit group and control unit group, the magnetic drive unit group includes at least one set of magnetic drive unit, described Control unit group includes corresponding at least one set of control unit, and the magnetic drive unit includes one group of connecting rod and crank throw, further includes Telescopic shaft, two slides, N⁺A electromagnet and N⁺+ 1 permanent magnet, wherein N⁺For positive integer, permanent magnet be rare-earth Nd-Fe-B forever Magnet, telescopic shaft one end and the positioning of connecting rod front end are hinged, and telescopic shaft is supported by described two slides, and can be along itself axial direction side To reciprocal telescopic movement, two slides are fixed on the rack, and two extreme direction middle position of permanent magnet is equipped with a through-hole, telescopic shaft It is not contacted with the permanent magnet across the through-hole, electromagnet core axial direction middle position is equipped with a through-hole and fixation of insulating is arranged On the telescopic shaft, N⁺+ 1 permanent magnet in order homopolarity be oppositely arranged and with the N⁺A electromagnet cross arrangement, electromagnetism There are the working clearance, permanent magnet is fixed on the rack iron for stop and permanent magnet up and down；Described control unit includes that electric current rotation connects Device and electric current interval commutator are connect, electric current rotary connector includes the fixed annular insulator being set on crankshaft, around the ring Shape insulator and two collector rings of the mutually insulated being installed in the annular insulator and corresponding first pair of brush；Electricity Stream interval commutator includes fixed insulator, two commutator segments and the second pair of brush being set on crankshaft, two commutator segments around Axle center, which is symmetrically inlayed, to be fixed on the insulator, and collectively forms a smooth arc surface with the insulator, and second pair Brush is contacted in horizontal opposition shape with the arc surface radial friction, and the switching stroke of two commutator segments and second pair of brush is each Account for the 1/4 of circumference；Described two commutator segments are connect with described two collector rings, the N⁺A electromagnet with described second pair Brush or the flexible electrical connection of first pair of brush, another pair brush are connect with DC power supply.

Work as N⁺When > 1, the adjacent two electromagnet wiring direction of above-mentioned magnetic drive unit is different.

Above-mentioned N⁺+ 1 permanent magnet and N⁺A electromagnet is arranged between described two slides.

Above-mentioned telescopic shaft is non-magnetic.

Above-mentioned electromagnet is alternating electromagnet, and the alternating electromagnet does not have short-circuited conducting sleeve.

Above-mentioned two slide is linear bearing.

Beneficial effect

The beneficial effects of the utility model are: 1. crankshafts, which are rotated by 360 ° electromagnet energization stroke, accounts for 1/2 × 180 ° × 2= 180 °, 50% electric energy can be saved compared with existing motor；2. electromagnet (moving magnet) is respectively equipped with one in stop both ends up and down Permanent magnet (fixed magnet), therefore its both ends magnetic pole reciprocal stress positive simultaneously, are one-stroke, and existing " two-stroke permanent magnetism starts Machine " compared to the efficiency that can be doubled.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model embodiment.

Fig. 2 is A--A diagrammatic cross-section in Fig. 1.

In figure, 1. racks, 2. crankshafts, 3. crank throws, 4. connecting rods, 5. flywheels, 6. magnetic drive unit groups, 601. Magnetic driving lists Member, 7. control unit groups, 701. control units, 8. electric current rotary connectors, 9. electric current interval commutators, 10. slides, 11. forever Magnet, 12. telescopic shafts, 13. electromagnet, 14. permanent magnets, 15. electromagnet, 16. permanent magnets, 17. slides, 18,19. collector rings, 20,21. first pairs of brushes, 22,23. commutator segments, 24,25. second pairs of brushes, 26. insulators.

Specific embodiment

The utility model will be further described below with reference to the accompanying drawings:

In Fig. 1, including rack 1 and the crankshaft 2, flywheel 5, magnetic drive unit group 6 and the control unit that are mounted in rack 1 Group 7, magnetic drive unit group 6 include at least one set of magnetic drive unit 601 (in figure by taking two groups of magnetic drive units as an example), and control is single Tuple 7 includes corresponding at least one set of control unit 701 (in figure by taking corresponding two groups of control units as an example), magnetic drive unit 601 include the crank throw 3 that is arranged on crankshaft 2 and connecting rod 4, further include 12, two slides 10,17, N of telescopic shaft⁺A electromagnet 13、15、N⁺+ 1 rare-earth Nd-Fe-B permanent magnet 11,14,16, wherein N⁺It is positive integer (with N in figure⁺For=2), telescopic shaft 12 One end and the positioning of 4 front end of connecting rod are hinged, and telescopic shaft 12 is supported by two slides 10,17, and can be reciprocal along itself axial direction Stretching motion, two slides 10,17 are fixed in rack 1, and it is logical that 11,14,16 liang of extreme direction middle positions of permanent magnet are equipped with one Hole, telescopic shaft 12 pass through the through-hole and do not contact with permanent magnet 11,14,16, and electromagnet 13,15 iron core axial direction middle positions are set Have a through-hole and insulate fixation be set on telescopic shaft 12, permanent magnet 11,14,16 in order homopolarity be oppositely arranged and and electromagnetism Iron 13,15 cross arrangements, electromagnet 13, about 15 stops and permanent magnet 11,14,16 there are the working clearance, permanent magnet 11,14, 16 are fixed in rack 1.

Control unit 701 includes electric current rotary connector 8 and electric current interval commutator 9, electric current rotary connector 8 include The fixed annular insulator being set on crankshaft 2 around the annular insulator and is installed in mutual in the annular insulator Two collector rings 18,19 and corresponding first pair of brush 20,21 of insulation.

Shown in Fig. 2 is electric current interval commutator 9, and in figure, the fixation of insulator 26 is set on crankshaft 2, commutator segment 22, 23 symmetrically inlay around axle center and are fixed on insulator 26, and collectively form a smooth arc surface with insulator 26, and second pair Brush 24,25 is contacted in horizontal opposition shape with the arc surface radial friction.In conjunction with Fig. 1, to reach timing, setting electromagnet 13, 15 in upper and lower dead-centre position commutator segment 22,23 beginnings contacted with second pair of brush 24,25.Electromagnet 13,15 after power-off exists Its stroke middle position is stress balance point, and iron core becomes ferrimagnet by 11,14,16 size phase of both ends permanent magnet Deng, two contrary attractions, but when electromagnet 13,15 is run among its stroke from upper (lower) stop energization stress Powered off when position, move generation inertial force can make electromagnet 13,15 cross equalization point continue downwards (on) stop direction It is mobile, then under (on) attraction at the increasing and upper (lower) stop end of attraction at stop end is smaller and smaller, electromagnet 13,15 will reach down (on) stop, then the power-off of electromagnet 13,15 point can be determined in the case where its stroke middle position is arrived (on) between stop, the vortex and magnetic hystersis loss that electromagnet 13,15 generates when to reduce the commutation of electric current moment, then as far as possible Extend the interval time that is powered twice of electromagnet 13,15, electromagnet 13,15 is just set and powers off point in its stroke middle position, in It is that the setting end that commutator segment 22,23 is contacted with second pair of brush 24,25 at its stroke middle position of electromagnet 13,15 is de- From contact, 13,15 1 stroke crankshafts of electromagnet rotate 180 °, then 1/2 stroke crankshaft rotation of electromagnet 13,15 90 °, two commutator segments 22,23 are then just set in Fig. 2 circle corresponding with the range that second pair of brush 24,25 is connected Heart angle is 90 °, i.e. the switching stroke of two commutator segments 22,23 and second pair of brush 24,25 respectively accounts for the 1/4 of circumference, is used for It controls 2 primary current direction of alternation weekly and electromagnet is made to originate 1/2 stroke and be powered, in addition 1/2 stroke powers off.

Two two collector rings 18,19 corresponding with Fig. 1 of commutator segment 22,23 connection in Fig. 2, electromagnet 13,15 and the Two pairs of brushes 24,25 or first pair of brush 20,21 are by Spiral spring cable or by the side such as straight line collector plate and brush sliding contact Formula connection, another pair brush are connect with DC power supply.

Since homopolarity is oppositely arranged permanent magnet 11,14,16 in order, work as N⁺When > 1,13,15 pairs of two neighboring electromagnet 11,14,16 magnetic pole of permanent magnet answered is different, to keep two neighboring electromagnet 13, the direction of 15 stress identical, is just arranged adjacent Two electromagnet 13, the magnetic pole of 15 same positions are different, and the electricity of two adjacent electromagnet 13,15 armature winding is then arranged Flow two contrary, i.e., adjacent electromagnet 13,15 wiring directions difference.

Permanent magnet 11,14,16 and electromagnet 13,15 are arranged between two slides 10 and 17.

Permeability magnetic material can be magnetized attraction, due to telescopic shaft 12 in 11,14,16 through-hole of permanent magnet reciprocal telescopic Movement makes its stretching motion by resistance to prevent magnetic field from attracting telescopic shaft 12, therefore telescopic shaft 12 uses non-magnetic material Material.

DC power supply exports alternating current supply electromagnet 13,15, therefore electromagnet 13,15 after electric current interval commutator 9 Magnetic pole checker；Due to DC electromagnet is thin and grow, iron core active area is small, coil impedance is big, starting is slow, access friendship It can not be worked after time-dependent current by the electric current very little of coil；The characteristics of alternating electromagnet is short and thick, iron core active area phase To big, coil induction reactance is big, impedance is small, and starting is fast, since its iron core uses the silicon steel sheet of mutually insulated, can effectively reduce friendship The eddy-current loss and magnetic hystersis loss that time-dependent current lower electromagnet generates, it is alternating electromagnet that electromagnet 13,15, which is then arranged,.Due to There are a voltage over zero, i.e., flashy power-off when alternating current, alternating electromagnet has short-circuited conducting sleeve, and effect is continuous magnetic, this Electromagnet 13, about 15 each half stroke distances are set in utility model in power-off loss of excitation state, there is no need to continuous magnetic, therefore It is not provided with short-circuited conducting sleeve.

For the frictional force for reducing telescopic shaft 12 and two slides 10 and 17, it is straight line that two slides 10 and 17, which are then arranged, Bearing.

The brush 20,21,24,25 is arranged in brush carrier, and brush carrier insulation is fixed on the sky of the corresponding position of rack 1 Between on.

DC power supply (1-3 phase alternating current or battery feed after rectified) after corresponding control unit by distinguishing The alternating current for exporting weekly 2 primary current direction of intermittent alternative supplies the electromagnet of corresponding set of magnetic drive unit.Below according to Attached drawing illustrates the course of work of the utility model by taking one group of magnetic drive unit as an example:

The Starting mode of the utility model is similar with internal combustion engine, connects DC power supply, while applying to 2 direction of rotation of crankshaft The torque for adding a rotation, when electromagnet 13,15 reaches top dead center position, commutator segment 22,23 and second pair of brush 24,25 are logical Road, electromagnet 13,15 work, and top dead centre end generates identical with the permanent magnet at top dead centre end magnetic pole, lower dead center end generate and The opposite magnetic pole of the permanent magnet at lower dead center end, due between magnetic field homopolarity repel, heteropolar attraction, then electromagnet 13,15 both ends magnetic Pole is simultaneously by identical two active forces in direction i.e. by the repulsive force at top dead centre end and the attraction at lower dead center end, then Electromagnet 13,15 pushes telescopic shaft 12 mobile to lower dead center direction rapidly and makes 5 energy storage of flywheel, reaches its stroke middle position When, telescopic shaft 12 pushes connecting rod 4, crank throw 3 that crankshaft 2 is made to have rotated 90 °, at this time commutator segment 22,23 and second pair of brush 24,25 Open circuit, electromagnet 13,15 power off, and iron core becomes ferrimagnet and simultaneously the permanent magnet side by both ends after losing magnetism To opposite, equal-sized two attractions, but due to the inertia force effect that flywheel 5 stores, cause the stress at its iron core both ends Disequilibrium, it is mobile in being to continue with downward stop direction, with continuous separate top dead centre and close to lower dead center, top dead centre direction Permanent magnet field it is just smaller and smaller to the attraction of iron core, and the permanent magnet field in lower dead center direction is to the attraction of iron core It is increasing, lower dead center is then reached, crankshaft 2 has rotated 180 ° at this time；At this time commutator segment 23,22 and second pair of brush 24, 25 commutation accesses, the opposite electric current of outbound course supply electromagnet 13,15, and then electromagnet 13,15 pole orientations change, Lower dead center end generates magnetic pole identical with the permanent magnet at lower dead center end, and top dead centre end generates the permanent magnetism iron phase with its top dead centre end Anti- magnetic pole, similarly, electromagnet 13,15 reach top dead centre, and crankshaft has rotated 360 ° at this time, and and so on, power is by crankshaft 2 End output.

Claims (6)

1. a kind of one-stroke intermittent power supply motor, including rack (1) and the crankshaft (2) being mounted on rack (1), flywheel (5), Magnetic drive unit group (6) and control unit group (7), it is characterised in that: the magnetic drive unit group (6) includes that at least one set of magnetic drives Moving cell (601), described control unit group (7) include corresponding at least one set of control unit (701), the magnetic drive unit (601) include one group of connecting rod (4) and crank throw (3), further include telescopic shaft (12), two slides (10,17), N⁺A electromagnet (13, And N 15)⁺+ 1 permanent magnet (11,14,16), wherein N⁺It is rare-earth Nd-Fe-B permanent magnet, telescopic shaft (12) for positive integer, permanent magnet One end and the positioning of connecting rod (4) front end are hinged, and telescopic shaft (12) is supported by described two slides (10,17), and can be axial along itself Direction reciprocal telescopic movement, two slides (10,17) are fixed on rack (1), and two extreme direction middle position of permanent magnet is equipped with one Through-hole, telescopic shaft (12) pass through the through-hole and do not contact with the permanent magnet, and electromagnet core axial direction middle position is equipped with a through-hole And fixation of insulating is set on the telescopic shaft (12), N⁺+ 1 permanent magnet (11,14,16) in order homopolarity be oppositely arranged and with The N⁺A electromagnet (13,15) cross arrangement, there are the working clearance, permanent magnet is fixed on electromagnet for stop and permanent magnet up and down In rack (1)；Described control unit (701) includes electric current rotary connector (8) and electric current interval commutator (9), electric current rotation Connector (8) includes the fixed annular insulator being set on crankshaft (2), around the annular insulator and is installed in the annular Two collector rings (18,19) and corresponding first pair of brush (20,21) of mutually insulated on insulator；Electric current interval commutator It (9) include fixed insulator (26), two commutator segments (22,23) and the second pair of brush (24,25) being set on crankshaft (2), Two commutator segments (22,23) are symmetrically inlayed around axle center and are fixed on the insulator (26), and common with the insulator (26) A smooth arc surface is constituted, second pair of brush (24,25) contacts in horizontal opposition shape with the arc surface radial friction, and two The switching stroke of a commutator segment (22,23) and second pair of brush (24,25) respectively accounts for the 1/4 of circumference；Described two commutator segments (22,23) are connect with described two collector rings (18,19), the N⁺A electromagnet (13,15) and second pair of brush (24, 25) or the flexible electrical connection of first pair of brush (20,21), another pair brush are connect with DC power supply.

2. one-stroke intermittent power supply motor according to claim 1, it is characterised in that: work as N⁺When > 1, magnetic drive unit (601) adjacent two electromagnet (13,15) wiring direction is different.

3. one-stroke intermittent power supply motor according to claim 1, it is characterised in that: the N⁺+ 1 permanent magnet (11, 14,16) and the N⁺A electromagnet (13,15) is arranged between described two slides (10 and 17).

4. one-stroke intermittent power supply motor according to claim 1, it is characterised in that: the telescopic shaft (12) is not led Magnetic.

5. one-stroke intermittent power supply motor according to claim 1 or 2 or 3, it is characterised in that: the electromagnet is to hand over Galvanic electricity magnet, the alternating electromagnet do not have short-circuited conducting sleeve.

6. one-stroke intermittent power supply motor according to claim 1 or 3, it is characterised in that: described two slide (10 Hes It 17) is linear bearing.