CN103872842A

CN103872842A - Magnetic power device

Info

Publication number: CN103872842A
Application number: CN201210539766.8A
Authority: CN
Inventors: 罗文弘
Original assignee: LIUHAN ENTERPRISE CO Ltd
Current assignee: LIUHAN ENTERPRISE CO Ltd
Priority date: 2012-12-13
Filing date: 2012-12-13
Publication date: 2014-06-18

Abstract

The invention relates to a magnetic power device comprising the following elements: a sleeve pipe formed by non-magnetic material; an electromagnetic assembly arranged on an inner wall face on one end of the sleeve pipe in an annular manner; a magnetic assembly arranged in the sleeve pipe in a reciprocating motion manner along an axis direction of the sleeve pipe, and the magnetic assembly can be magnetically combined with the electromagnetic assembly of the sleeve pipe; a transmission mechanism connected with the magnetic assembly so as to form link motion. When the electromagnetic assembly is charged, an electromagnetic field is generated to attract the magnetic assembly so as to form pull force driving the transmission mechanism to rotate; when the electromagnetic assembly is disconnected with power, the electromagnetic field disappearances, inertia effect of the transmission mechanism rotation can be used to reset the magnetic assembly; the connect/disconnect state of the electromagnetic assembly can be continuously switched, and the reciprocating motion of the magnetic assembly and rotation motion of the transmission mechanism are combined to generate power output.

Description

Magnetic dynamic device

Technical field

The present invention relates to a kind of power set, espespecially a kind of in a magnetic sleeve, be configured to the magnet assembly that can move along magnetic sleeve axis direction and be linked on magnet assembly and with the transmission mechanism of magnet assembly interlock, the magnetic dynamic device forming.

Background technology

General power set are roughly to utilize the function mode of motor or engine to implement.

The running of existing engine is that the gas mixture of HTHP is compressed into after the piston cylinder of engine, then light fluid gas mixture, makes it break out the piston expanding and promote in this piston cylinder and moves, then drive crank mechanism to operate to form power output; The shortcoming of this mode is that piston has the problem of wearing and tearing and cannot maintain its air-tightness, thereby affects engine running, and the waste gas discharging after combustion fuel can be to environment.

Existing motor is used in the driving of traditional type pumping, it utilizes power transmission shaft to drive impeller or piston start in pumping to flow to order about fluid, though this kind of pumping arranges shaft seal at power transmission shaft place and carrys out Leakage prevention, but, use the problem that with the passing of time still has seepage, and reduction operating efficiency, and in the time of machine run, produce larger noise.Therefore, in actual application, as cooling in electronic system, under the conditional request of the necessary strict leakproof of pumping, low noise, the pumping of traditional type cannot meet these demands.

Recent favourable with the designed power set of electromagnetic type start, as TWM411470 TaiWan, China patent discloses a kind of electromagnetic type piston cylinder.This prior art content comprises an activity and is located at the intrinsic piston of a piston cylinder, and piston is provided with a magnetic portion, and establishes a piston rod in the bottom of piston, and piston rod and a combined with transmission are with the output that is used as power; One variable electromagnetic unit comprises one first solenoid, one second solenoid and one the 3rd solenoid, and be arranged at respectively the intrinsic upper and lower and middle section of piston cylinder, so composition structure, and effect and the principle of utilizing energising magnetisation and magnetic to repel each other, make piston back and forth start in piston cylinder body, the shortcoming of this mode is complex structure, and assembly is more, and therefore cost is higher.

In view of this, structure space kenel or the number of member etc. of this case inventor based on existing power set does different improvement designs, phase can provide a kind of and make to have energy-saving and environmental protection, structure is simpler, assembly still less, reduce the magnetic dynamic device of use cost, and with existing structure on produce the quite poor opposite sex or promote and use effect or reduce costs, to increase competitiveness.

Summary of the invention

Ben Mingfa main purpose is to provide a kind of and has that energy-saving and environmental protection, structure are simpler, assembly still less, reduce the magnetic dynamic device of use cost.

For achieving the above object, the technical solution used in the present invention is:

A kind of magnetic dynamic device, is characterized in that, comprises:

One sleeve pipe, it is formed by nonmagnetic substance;

One electromagnetic assembly, it is located on the inner face of one end of this sleeve pipe;

One magnet assembly, it can reciprocatingly be arranged in this sleeve pipe along the axis direction of this sleeve pipe, and can this electromagnetic assembly magnetic in this sleeve pipe be combined, and in this magnet assembly, is provided with a junction; And

One transmission mechanism, it comprises a crank, a connecting rod and a flywheel; One end of this crank is connected in the axle center of this flywheel, and this crank is provided with a driving section; One end of this connecting rod is connected in the driving section of this crank, and the other end is connected in the connecting portion of this magnet assembly, and forms interlock;

Wherein, in the time of the energising of this electromagnetic assembly, generate an electromagnetic field and inhale mutually to produce pulling force with this magnet assembly, make its flywheel rotate to drive this transmission mechanism start; In the time of this electromagnetic assembly no power, magnetic field diminishes, relies on the rotator inertia effect of the flywheel of this transmission mechanism, to drive this magnet assembly to reply position, makes this magnet assembly form a reciprocating action; Rely on the switching electricity condition that continues to switch this electromagnetic assembly, and in conjunction with the reciprocating action of this magnet assembly and the start of this transmission mechanism, make this flywheel continue to rotate to produce power output.

This sleeve pipe is provided with an end cap to seal this end in the one end that is provided with this electromagnetic assembly, the other end forms an open end, makes a part for the connecting rod of this transmission mechanism be linked to the connecting portion in this magnet assembly by this open end.

This electro permanent magnetic assembly is electromagnet or solenoid.

This magnet assembly is magnet.

Left and right two sides of the driving section on the crank of this transmission mechanism are equiped with respectively a bearing.

It further comprises a power unit, and using as power source, this power unit utilizes wire to be connected with this electromagnetic assembly, and forms a loop.

It further comprises a control assembly, and it is arranged on the wire between this power unit and this electromagnetic assembly, is used for controlling described loop and is path or opens circuit, so that this electro permanent magnetic assembly is energising or no power.

This power unit is battery.

The energising of this electro permanent magnetic assembly and cold operating frequency, the number of revolutions that moves back and forth number of times and this flywheel to this magnet assembly is directly proportional.

Two ends of the connecting rod of this transmission mechanism are respectively equipped with an installing hole, with socket combination corresponding to the driving section of this crank and the connecting portion of this magnet assembly respectively.

Compared with prior art, the beneficial effect that the present invention has is: in the time that electromagnetic assembly is switched on, generate an electromagnetic field and inhale mutually to produce pulling force with magnet assembly, to drive transmission mechanism to turn to initial point position on; Otherwise, in the time of electromagnetic assembly no power, magnetic field diminishes, the effect of inertia that relies on transmission mechanism to rotate, allows transmission mechanism turn to initial point position and makes magnet assembly reply position, and so, cycle rotation moves to produce power output.Rely on above-mentioned member, reach the effect that has energy-saving and environmental protection, reduces use cost, and make member integrated can reduce assembly, relative material reduces, therefore cost.

Brief description of the drawings

Fig. 1 is the three-dimensional exploded view of magnetic dynamic device of the present invention;

Fig. 2 A and Fig. 2 B are the side-looking section actuating state schematic diagrames of magnetic dynamic device of the present invention;

Annexation figure when Fig. 3 is magnetic dynamic device matching battery of the present invention and control unit enforcement.

Description of reference numerals: sleeve pipe 10; Open end 11; Electromagnetic assembly 20; Magnet assembly 30; Connecting portion 31; Transmission mechanism 40; Crank 41; Driving section 411; Connecting rod 42; Installing hole 421; Installing hole 422; Flywheel 43; Bearing 44; End cap 50; Power unit 60; Wire 61; Control assembly 70.

Embodiment

For making the present invention more clearly full and accurate, hereby enumerate preferred embodiment and coordinate following diagram, structure of the present invention and technical characterictic thereof are described in detail as rear:

Please refer to shown in Fig. 1, is the three-dimensional exploded view of magnetic dynamic device of the present invention, and magnetic dynamic device of the present invention comprises a sleeve pipe 10, an electromagnetic assembly 20, a magnet assembly 30 and a transmission mechanism 40.

Sleeve pipe 10 is made up of aluminium alloy shaping, stainless steel or the industrial plastics of nonmagnetic substance shape.The end, long limit of sleeve pipe 10 is provided with an end cap 50 to seal this end, and the other end forms an open end 11.

Electromagnetic assembly 20 is formed by the magnet of circular ring-type, and encircles and establish on the inner face of axis direction one end that is fixed on sleeve pipe 10, as shown the one end for end cap 50 is housed.Wherein electro permanent magnetic assembly 20 is electromagnet or solenoid.

Magnet assembly 30 is arranged in sleeve pipe 10, and can move back and forth along the axis direction of sleeve pipe 10, and can electromagnetic assembly 20 magnetic in sleeve pipe 10 be combined, also, magnet assembly 30 is configured to rely on electromagnetic assembly 20 attract and magnet assembly 30 is combined with electromagnetic assembly 20 magnetic; Magnet assembly 30 is provided with a junction 31 for linking with transmission mechanism 40.Wherein magnet assembly 30 is magnet.

Transmission mechanism 40 is linked to magnet assembly 30, and forms interlock, with the output that is used as power.Transmission mechanism 40 comprises a crank 41, a connecting rod 42 and a flywheel 43.The nearly middle of crank 41 is provided with a driving section 411, and one end of crank 41 is connected to the axle center of flywheel 43.One end of connecting rod 42 is connected in driving section 411, and the other end is connected in the connecting portion 31 of magnet assembly 30 and forms continuous action relation.As shown in the figure, two ends of connecting rod 42 are respectively equipped with the installing hole 421,422 corresponding with the driving section 411 of crank 41 and the connecting portion 31 of magnet assembly 30, to combine with driving section 411 and connecting portion 31 sockets.

Please refer to shown in Fig. 2 A and Fig. 2 B, the side-looking section actuating state schematic diagram of magnetic dynamic device of the present invention, electromagnetic assembly 20 is located at the epimere place of sleeve pipe 10, and magnet assembly 30 is located in sleeve pipe 10, and be positioned at electromagnetic assembly 20 inner side places, the connecting rod 42 of transmission mechanism 40 has part to penetrate magnet assembly 30 inside and is connected with magnet assembly 30, thereby can make the volume-diminished of the present invention's entirety magnetic dynamic device.Wherein, when after electro permanent magnetic assembly 20 energising, the polarity that generates an electromagnetic field and can inhale mutually generation pulling force with magnet assembly 30, orders about magnet assembly 30 and moves to a primary importance P1, and activates connecting rod 42 and crank 41 and flywheel 43 are rotated; Otherwise when after electro permanent magnetic assembly 20 no powers, magnetic disappears, and activates crank 41 and connecting rod 42, so that magnet assembly 30 moves to a second place P2 by primary importance P1 by means of the rotator inertia active force of flywheel 43.Moreover, rely on energising and cold circulation interactive action, magnet assembly 30 is moved back and forth continuously between primary importance P1 and second place P2, and the power resources that produce a line program to be to export as power, and then for machinery equipment.

Moreover, when after 20 energisings of electro permanent magnetic assembly, when electro permanent magnetic assembly 20 moves toward primary importance P1 with magnetic attraction magnet assembly 30, also make magnet assembly 30 order about connecting rod 42 starts and make crank 41 and flywheel 43 synchronously rotate (as shown in Figure 2 A); When after electro permanent magnetic assembly 20 no powers, magnetic disappears, utilize the rotator inertia effect of flywheel 43 that crank 41 is rotated further to origin-location and synchronous drivening rod 42 moves simultaneously, make magnet assembly 30 move to second place P2 position (as shown in Figure 2 B) by primary importance P1.Under this state, do action continuously, magnet assembly 30 is moved back and forth between primary importance P1 and second place P2, and the connecting rod 42 of transmission mechanism 40 carries out similar beam type action, and crank 41 and flywheel 43 rotate, and are used as the output of power by the rotation of flywheel 43.

In this embodiment, the initial state before magnet assembly 30 moves to primary importance P1, activates flywheel from the tangential direction of the flywheel 43 of transmission mechanism 40 and turns 43 rotations, to obtain rotating effect comparatively smoothly.Again, the crank 41 of transmission mechanism 40 is equiped with respectively a bearing 44 on the crank 41 of its driving section 411 left and right two sides, makes crank 41 can improve its stability and accuracy in the time rotating.

Please refer to shown in Fig. 3, magnetic dynamic device of the present invention further comprises a power unit 60, as battery, but does not limit, and using as power source, wherein power unit 60 utilizes wire 61 to be connected with this electromagnetic assembly, and forms a loop.In addition, on the wire 61 between power unit 60 and electromagnetic assembly 20, be also provided with a control assembly 70, to control described loop as path or to open circuit, this path and the state opening circuit can represent energising and the no power of electro permanent magnetic assembly 20, at this, control assembly 70 can be set for controlling magnet assembly 30 in the frequency of doing to move back and forth, and then controls the crank 41 of transmission mechanism 40 and the velocity of rotation of flywheel 43; Again, control assembly 70 also can rely on the rotation distance of measuring crank 41 or flywheel 43, using the foundation as controlling the frequency that magnet assembly 30 moves back and forth.

At this, further illustrate as follows: the electric current that power unit 60 is supplied by control assembly 70, make electromagnetic assembly 20 magnetisation of switching on, allow it produce magnetic force to guide the primary importance P1 of magnet assembly 30 to stroke, make crank 41 and the flywheel 43 of transmission mechanism 40 rotate simultaneously, after again switching controls assembly 70 to control electromagnetic assembly 20 power-off demagnetizations, and be rotated further to guide the second place P2 of magnet assembly 30 to stroke by the rotator inertia of crank 41 and flywheel 43, rely on and continue the logical of switching controls assembly 70 and electromagnetic assembly 20, off-position, make magnet assembly 30 reciprocating actions, so that the power of transmission mechanism 40 can be stablized and transmit constantly, use to machinery equipment with outputting power.

As mentioned above, the magnet assembly 30 of this embodiment, on the border being disposed in sleeve pipe 10, is that the stroke distances that magnet assembly 30 is moved back and forth is set for mutually corresponding with the crank 41 of transmission mechanism 40 and the rotation distance of flywheel 43.In addition, the operating frequency of the energising of electro permanent magnetic assembly 20 or no power (also, the path in loop or open circuit) is directly proportional to the number of revolutions that magnet assembly 30 moves back and forth number of times and flywheel 43.In addition, the electromagnetic assembly 20 of this embodiment can also change according to the size of its design length the intensity in magnetic field.

Magnetic dynamic device of the present invention relies on the combining structure of sleeve pipe 10, electromagnetic assembly 20, magnet assembly 30 and transmission mechanism 40, and effect and the principle of energising magnetisation and rotator inertia are utilized, by electromagnetic assembly 20 magnetisation of switching on, and with produce magneticaction with magnet assembly 30, primary importance P1, second place P2 with 30 starts of guiding magnet assembly to stroke, so do not have the generation of combustor inner cylinder waste gas, therefore, meet environmental protection, energy-conservation requirement, reduce costs again.

From the present invention and the contrast of existing TaiWan, China M411470 patent content, the present invention reduces by two magnet than prior art content, can recognize that sleeve pipe also relatively shortens simultaneously, volume also reduces relatively, therefore can reduce assembly, and relative volume diminishes, material reduces, therefore cost.

And the present invention is not identical with the active principle of existing electromagnetic type yet, existing electromagnetic type is to produce magnetic field to inhale mutually, to repel each other actuating with magnet and coil, just as the cylinder action of automobile produces power.And the present invention is with electromagnetic assembly 20 and the magnetic field suction of magnet assembly 30 and the rotator inertia of transmission mechanism 40, reaches the output of power, and then offer if generator, vehicle, engine etc. are as power resources.

Rely on above-mentioned member, reach the effect that has energy-saving and environmental protection, reduces use cost, and make member integrated can reduce assembly, relative material reduces, therefore cost.

More than explanation is just illustrative for the purpose of the present invention; and nonrestrictive, those of ordinary skill in the art understand, in the case of not departing from the spirit and scope that claim limits; can make many amendments, variation or equivalence, but within all will falling into protection scope of the present invention.

Claims

1. a magnetic dynamic device, is characterized in that, comprises:

One sleeve pipe, it is formed by nonmagnetic substance;

2. magnetic dynamic device according to claim 1, it is characterized in that: this sleeve pipe is provided with an end cap to seal this end in the one end that is provided with this electromagnetic assembly, the other end forms an open end, makes a part for the connecting rod of this transmission mechanism be linked to the connecting portion in this magnet assembly by this open end.

3. magnetic dynamic device according to claim 1, is characterized in that: this electro permanent magnetic assembly is electromagnet or solenoid.

4. magnetic dynamic device according to claim 1, is characterized in that: this magnet assembly is magnet.

5. magnetic dynamic device according to claim 1, is characterized in that: left and right two sides of the driving section on the crank of this transmission mechanism are equiped with respectively a bearing.

6. magnetic dynamic device according to claim 1, is characterized in that: further comprise a power unit, using as power source, this power unit utilizes wire to be connected with this electromagnetic assembly, and forms a loop.

7. magnetic dynamic device according to claim 6, it is characterized in that: further comprise a control assembly, it is arranged on the wire between this power unit and this electromagnetic assembly, is used for controlling described loop and is path or opens circuit, so that this electro permanent magnetic assembly is energising or no power.

8. magnetic dynamic device according to claim 6, is characterized in that: this power unit is battery.

9. magnetic dynamic device according to claim 1, is characterized in that: the energising of this electro permanent magnetic assembly and cold operating frequency, the number of revolutions that moves back and forth number of times and this flywheel to this magnet assembly is directly proportional.

10. magnetic dynamic device according to claim 1, is characterized in that: two ends of the connecting rod of this transmission mechanism are respectively equipped with an installing hole, with socket combination corresponding to the driving section of this crank and the connecting portion of this magnet assembly respectively.