CN205681282U - Rectilinear magnetic drives assembly and the energy-saving and power generation device of rectilinear magnetic drives - Google Patents

Abstract

The utility model provides the energy-saving and power generation device of a kind of rectilinear magnetic drives assembly and rectilinear magnetic drives, this vertical magnetic force transmission component is to install a magnetic force module respectively in the conical through-hole of pedestal each plate body arranged vertically, and orthogonal sets installing put the magnetic drives axle that a bottom has balancing weight, each axle magnet of magnetic drives axle is respectively by the magneticaction of the first magnetic force group and the second magnetic force group of magnetic force module, make magnetic drives axle can promote, without frictional resistance ground vertical rotary, torsion and the rotating speed that magnetic drives axle rotates；The energy-saving and power generation device of rectilinear magnetic drives connects generating set by this rectilinear magnetic drives assembly, and utilize auxiliary power output precision to drive magnetic drives axle rotate without frictional resistance and combine collocation balancing weight rotation accumulation of energy, enable generating set to reduce unnecessary kinetic energy loss, reach preferably generating efficiency.

Description

Rectilinear magnetic drives assembly and the energy-saving and power generation device of rectilinear magnetic drives

Technical field

The utility model is to reduce friction the rectilinear magnetic of loss function with utilizing magnetic force as drive applications with regard to a kind of Power transmission component, and use this rectilinear magnetic drives assembly to reach the energy-saving power generation of rectilinear magnetic drives of energy-conservation purpose Device.

Background technology

The composition construction of existing transmission component, it mainly comprises a power transmission shaft and an offer power transmission shaft is pivoted base therein Seat, in order to reduce frictional resistance each other between pedestal and power transmission shaft, pedestal and transmission between centers are provided with bearing, or enter in bearing One step adds lubricating oil etc..But, power transmission shaft is installed in pedestal by bearing, or adds lubricating oil etc. again and reduce friction resistance Power, the problem still suffering from the loss of energy because of frictional resistance between its component and component.Therefore, use with rotary power in power source After connecting with transmission component between end, energy is made effectively to play.

Furthermore, aforementioned drive assembly is assembly necessary in existing TRT, the kinetic energy providing due to power supply source When being transferred to the generating set of TRT by transmission component, kinetic energy can because of the frictional resistance of transmission component loss of energy, So that kinetic energy is difficult to effectively be converted to electric energy, so that for a long time, existing TRT all has the not good problem of electricity generation efficiency.

Utility model content

A purpose of the present utility model is to provide a kind of rectilinear magnetic drives assembly, solves existing machinery formula transmission group The problem that part consumes energy because of rotation friction resistance.Another object of the present utility model is to provide a kind of rectilinear magnetic drives Energy-saving and power generation device, solves the problem that existing TRT is difficult to promote electricity generation efficiency because transmission mechanism consumes energy.

In order to reach above-mentioned purpose, the rectilinear magnetic drives assembly that the utility model is proposed comprises:

One pedestal, this pedestal comprises multiple upper and lower spaced plate body and the upright hack lever connecting multiple plate body, should Pedestal has a vertical central axis, and on multiple plate bodys, centered on this central axis, formation one size from top to bottom is passed respectively The conical through-hole subtracting；

One magnetic drives axle, the installing of this magnetic drives axle orthogonal sets is placed in pedestal, and this magnetic drives axle comprises an axostylus axostyle And multiple axle magnet, multiple axle magnet are fixedly arranged on axostylus axostyle, and multiple axle magnet lays respectively in the conical through-hole of plate body, institute Stating axle magnet is permanent magnetic iron, and each axle magnet comprises the lower magnetic pole that pole segment and on is connected to the bottom of pole segment Section, lower magnetic pole section forms the bullet of decreasing dimensions from top to bottom, and upper pole segment forms the bullet of size increments from top to bottom, Upper pole segment and lower magnetic pole section joining place form an annular crest line, and upper pole segment and lower magnetic pole section are symmetric shape and different each other Magnetic polarity；In the conical through-hole of the plate body that the lower magnetic pole section of each axle magnet stretches into pedestal, upper pole segment is by conical through-hole Extend above the end face of plate body；

Multiple magnetic force modules, in the conical through-hole of the plate body that multiple magnetic force modules are installed in pedestal respectively, each magnetic force mould Group respectively comprises one first magnetic force group and one second magnetic force group, and described first magnetic force group and the second magnetic force group set with being spaced up and down Being placed in conical through-hole, the first magnetic force group and the second magnetic force group are intersegmental adjacent with the lower magnetic pole of described axle magnet by magnetic force and not Contact, magnetic drives axle suspension floats in pedestal and magnetic force module；And

One balancing weight, this balancing weight is fixed in the bottom of the axostylus axostyle of this magnetic drives axle.

Rectilinear magnetic drives assembly as above, wherein, the described axle magnet of described magnetic drives axle described under The male cone (strobilus masculinus) of the male cone (strobilus masculinus) of pole segment and described upper pole segment relative to the angle of described central axis be 15 degree to 75 degree it Between；

The permanent magnetism that the described first magnetic force group of multiple described magnetic force modules is listed in described conical through-hole by multiple spacer rings Magnet piece is formed, and the permanent-magnet magnetic iron block of each described first magnetic force group respectively comprises one first magnetic pole group, described first magnetic pole group Have a position the first upper magnetic pole and a position under the second magnetic pole, the first magnetic pole of described first magnetic pole group with described Second magnetic pole of the first magnetic pole group is parallel with the described lower magnetic pole section of described axle magnet respectively, and described first magnetic pole group with described Having gap between axle magnet, the position of described first magnetic pole group is at the described lower magnetic pole of the first upper magnetic pole and described axle magnet Section has different magnetic polarity, the position of described first magnetic pole group under the described lower magnetic pole of the second magnetic pole and described axle magnet Section has identical magnetic polarity；

The permanent-magnet magnetic iron block that described second magnetic force group is listed in described conical through-hole by multiple spacer rings is formed, Mei Yisuo The permanent-magnet magnetic iron block stating the second magnetic force group respectively comprises one second magnetic pole group, and described second magnetic pole group has a position interior first Magnetic pole and a position the second magnetic pole outside, the first magnetic pole of described second magnetic pole group and the described lower magnetic pole section of described axle magnet Between there is gap, and the first magnetic pole of described second magnetic pole group has same pole with the described lower magnetic pole section of described axle magnet Property.

Rectilinear magnetic drives assembly as above, wherein, the permanent-magnet magnetic iron block of described first magnetic force group and described the The permanent-magnet magnetic iron block of two magnetic force groups is vertical bar block or secter pat, the permanent-magnet magnetic iron block of described first magnetic force group and described second magnetic The permanent-magnet magnetic iron block of power group forms corresponding arc surface respectively towards the inner peripheral surface of described axle magnet.

By above-mentioned rectilinear magnetic drives assembly, when it is applied to transmission between power source and rotary power use end During rotary power, this rectilinear magnetic drives assembly, by the magneticaction between magnetic drives axle and multiple magnetic force module, makes magnetic Power transmission shafr is steady, be hubbed in pedestal vertically and vacantly, and magnetic drives axle can rotate around this central axis in pedestal, And energy storage while the affixed balancing weight of this magnetic drives axle and bottom thereof is driven in rotation, until magnetic drives axle and the end thereof After holding affixed balancing weight to reach certain rotating speed, stop auxiliary power output precision output power, by magnetic drives axle and Inertia force that the affixed balancing weight in bottom rotates and persistently rotate, because the vertical rotary of magnetic drives axle is without friction loss so that The magnetic drives axle of this rectilinear magnetic drives assembly can promote torsion and rotating speed in transmission process.

In order to reach above-mentioned purpose, the energy-saving and power generation device bag of the rectilinear magnetic drives that the utility model additionally proposes Contain:

One rectilinear magnetic drives assembly, this rectilinear magnetic drives assembly comprises a pedestal, a magnetic drives axle, multiple Magnetic force module and a balancing weight, wherein:

This pedestal comprises multiple upper and lower spaced plate body and the upright hack lever connecting multiple plate body, and this pedestal has There is a vertical central axis, multiple plate bodys form centered on this central axis the cone of a from top to bottom decreasing dimensions respectively Shape through hole；

The installing of this magnetic drives axle orthogonal sets is placed in pedestal, and this magnetic drives axle comprises an axostylus axostyle and multiple axle magnetic Iron, multiple axle magnet are fixedly arranged on axostylus axostyle, and multiple axle magnet lays respectively in the conical through-hole of plate body, and described axle magnet is for forever Magnetic magnet, each axle magnet comprises the lower magnetic pole section that pole segment and on is connected to the bottom of pole segment, lower magnetic pole section Forming the bullet of decreasing dimensions from top to bottom, upper pole segment forms the bullet of size increments from top to bottom, upper pole segment with Lower magnetic pole section joining place forms an annular crest line, and upper pole segment forms symmetry shape and magnetic polarity different each other with lower magnetic pole section； In the conical through-hole of the plate body that the lower magnetic pole section of each axle magnet stretches into pedestal, upper pole segment is extended above plate by conical through-hole The end face of body；

In the conical through-hole of the plate body that multiple magnetic force modules are installed in pedestal respectively, each magnetic force module respectively comprises one first Magnetic force group and one second magnetic force group, described first magnetic force group and the second magnetic force group are arranged at conical through-hole with being spaced up and down In, the first magnetic force group is intersegmental adjacent with the lower magnetic pole of described axle magnet by magnetic force with the second magnetic force group and does not contacts, and magnetic force passes Moving axis is suspended in pedestal and magnetic force module；And

This balancing weight is fixed in the bottom of the axostylus axostyle of this magnetic drives axle；

One generating set, this generating set is installed on the plate body in the pedestal of this rectilinear magnetic drives assembly, and knot Close shaft coupling and connect the axostylus axostyle of this magnetic drives axle；And

One auxiliary power output precision, this auxiliary power output precision connects the axostylus axostyle of this magnetic drives axle.

The energy-saving and power generation device of rectilinear magnetic drives as above, wherein, described auxiliary power output precision is electricity Motivation or the combination for engine and train transmission component.

The energy-saving and power generation device of rectilinear magnetic drives as above, wherein, the described axle magnetic of described magnetic drives axle The male cone (strobilus masculinus) of the described lower magnetic pole section of iron and the male cone (strobilus masculinus) of described upper pole segment are 15 relative to the angle of described central axis Spend between 75 degree；

The permanent magnetism that the described first magnetic force group of multiple described magnetic force modules is listed in described conical through-hole by multiple spacer rings Magnet piece is formed, and the permanent-magnet magnetic iron block of each described first magnetic force group respectively comprises one first magnetic pole group, described first magnetic pole group Have a position the first upper magnetic pole and a position under the second magnetic pole, the first magnetic pole of described first magnetic pole group with described Second magnetic pole of the first magnetic pole group is intersegmental with the described lower magnetic pole of described axle magnet has gap, the position of described first magnetic pole group Described lower magnetic pole section at the first upper magnetic pole and described axle magnet has different magnetic polarity, the position of described first magnetic pole group The second magnetic pole under has identical magnetic polarity with the described lower magnetic pole section of described axle magnet；

The permanent-magnet magnetic iron block that described second magnetic force group is listed in described conical through-hole by multiple spacer rings is formed, Mei Yisuo The permanent-magnet magnetic iron block stating the second magnetic force group respectively comprises one second magnetic pole group, and described second magnetic pole group has a position interior first Magnetic pole and a position the second magnetic pole outside, the first magnetic pole of described second magnetic pole group and the described lower magnetic pole section of described axle magnet Between there is gap, and the first magnetic pole of described second magnetic pole group has identical magnetic pole with the described lower magnetic pole section of described axle magnet Property.

The energy-saving and power generation device of rectilinear magnetic drives as above, wherein, the permanent magnetic iron of described first magnetic force group The permanent-magnet magnetic iron block of block and described second magnetic force group is vertical bar block or secter pat, the permanent-magnet magnetic iron block of described first magnetic force group with The permanent-magnet magnetic iron block of described second magnetic force group forms corresponding arc surface respectively towards the inner peripheral surface of described axle magnet.

In the energy-saving and power generation device of rectilinear magnetic drives as above, this generating set and this auxiliary power output group Part one can have outputting rotary power concurrently and replaced with the dynamotor of generating function.Therefore, the utility model also provides A kind of energy-saving and power generation device of rectilinear magnetic drives, wherein, the energy-saving and power generation device of described rectilinear magnetic drives comprises:

One rectilinear magnetic drives assembly, described rectilinear magnetic drives assembly comprises a pedestal, a magnetic drives axle, many Individual magnetic force module and a balancing weight, wherein:

Described pedestal comprises multiple upper and lower spaced plate body and the upright hack lever connecting multiple described plate body, institute State pedestal and there is a vertical central axis, multiple described plate bodys form centered on described central axis one respectively by up to The conical through-hole of lower decreasing dimensions；

The installing of described magnetic drives axle orthogonal sets is placed in described pedestal, and described magnetic drives axle comprises an axostylus axostyle and many Individual axle magnet, multiple described axle magnet are fixedly arranged on described axostylus axostyle, and multiple described axle magnet lays respectively at the institute of described plate body Stating in conical through-hole, described axle magnet is permanent magnetic iron, and each described axle magnet comprises pole segment and on and is connected to institute Stating the lower magnetic pole section of the bottom of pole segment, described lower magnetic pole section forms the bullet of decreasing dimensions from top to bottom, described upper magnetic Pole section forms the bullet of size increments from top to bottom, and described upper pole segment and described lower magnetic pole section joining place form an annular rib Line, described upper pole segment forms symmetry shape and magnetic polarity different each other with described lower magnetic pole section；The institute of each described axle magnet Stating in the described conical through-hole of the described plate body that lower magnetic pole section stretches into described pedestal, described upper pole segment is by described conical through-hole Extend above the end face of described plate body；

In the described conical through-hole of the described plate body that multiple described magnetic force modules are installed in described pedestal respectively, each described Magnetic force module respectively comprises one first magnetic force group and one second magnetic force group, and described first magnetic force group is with described second magnetic force group between the upper and lower Being arranged in described conical through-hole every arrangement, described first magnetic force group and described second magnetic force group are by magnetic force and described axle magnetic The described lower magnetic pole of iron is intersegmental adjacent and does not contacts, and described magnetic drives axle suspension floats in described pedestal and described magnetic force module；

Described balancing weight is fixed in the bottom of the described axostylus axostyle of described magnetic drives axle；And

One dynamotor, described dynamotor is installed in the described pedestal of described rectilinear magnetic drives assembly On described plate body, and described dynamotor combines the described axostylus axostyle that shaft coupling connects described magnetic drives axle.

By the energy-saving and power generation device of above-mentioned rectilinear magnetic drives, it is mainly by rectilinear magnetic drives assembly Magneticaction between middle magnetic drives axle and magnetic force module, makes frictional resistance between rotary course is without component for the magnetic drives axle, Reduce energy dissipation during energy transfer, connect balancing weight further through magnetic drives axle bottom and together driven with magnetic drives axle Rotate, and then reach energy-conservation purpose.

Brief description

The following drawings is only intended to, in schematically illustrating the utility model and explaining, not limit model of the present utility model Enclose.Wherein:

Fig. 1 is the side elevational cross-section schematic diagram of a preferred embodiment of the utility model rectilinear magnetic drives assembly.

Fig. 2 is the schematic top plan view of rectilinear magnetic drives assembly preferred embodiment shown in Fig. 1.

Fig. 3 is the close-up schematic view of rectilinear magnetic drives assembly preferred embodiment shown in Fig. 1.

Fig. 4 is that the pedestal of rectilinear magnetic drives assembly preferred embodiment shown in Fig. 1 to Fig. 3 is put down with the vertical view of magnetic force module Face schematic diagram.

Fig. 5 is the vertical view with another enforcement kenel of magnetic force module for the pedestal of the utility model rectilinear magnetic drives assembly Floor map.

Fig. 6 is the section signal of a preferred embodiment of the energy-saving and power generation device of the rectilinear magnetic drives of the utility model Figure.

Drawing reference numeral illustrates:

10 rectilinear magnetic drives assemblies

20 pedestal 21 central axis

22 plate body 23 hack levers

24 conical through-holes

30 magnetic drives axle 31 axostylus axostyles

Pole segment on 32 axle magnet 321

322 lower magnetic pole section 323 annular crest lines

40 magnetic force module 41 first magnetic force groups

410 first magnetic pole group 411 first magnetic poles

412 second magnetic poles

42 second magnetic force group 420 second magnetic pole groups

421 first magnetic pole 422 second magnetic poles

50 balancing weights

60 generating sets

70 auxiliary power output precisions

Detailed description of the invention

In order to clearer understanding is had to the technical solution of the utility model, purpose and effect, in conjunction with brief description originally The detailed description of the invention of utility model.

The utility model provides energy-conservation of a kind of rectilinear magnetic drives assembly and a kind of rectilinear magnetic drives Electric installation.As it is shown in figure 1, disclose a preferred embodiment of this rectilinear magnetic drives assembly.This rectilinear magnetic drives assembly 10 comprise a pedestal the 20th, a magnetic drives axle the 30th, multiple magnetic force modules 40 and a balancing weight 50.

As shown in Figure 1 to Figure 3, this pedestal 20 comprises multiple go to upper and lower spaced plate body 22 and upright connect Supportting the hack lever 23 of the plurality of plate body 22, described plate body 22 can be constituted by single plate, or combines for multiple plates, this base Frame 20 has a vertical central axis 21, the plurality of plate body 22 is common formed respectively centered on this central axis 21 one by The above conical through-hole 24 of lower decreasing dimensions, i.e. the plurality of plate body 22 forms one respectively by up to centered on this central axis 21 The conical through-hole 24 of lower decreasing dimensions.Described conical through-hole 24 can be cone-shaped hole or be pyramid through hole.

As shown in Figure 1 to Figure 3, this magnetic drives axle 30 orthogonal sets installing is placed in pedestal 20, and this magnetic drives axle 30 wraps Containing an axostylus axostyle 31 and multiple axle magnet 32, this axostylus axostyle 31 can be the single body of rod, or continues combine for multiple bodies of rod, described The quantity of axle magnet 32 is corresponding to the quantity of described magnetic force module 40, and the plurality of axle magnet 32 is fixedly arranged on axostylus axostyle 31 and difference position In the conical through-hole 24 of the plate body 22 of pedestal 20, described axle magnet 32 is permanent magnetic iron, and each axle magnet 32 comprises magnetic on one Pole section 321 and one is connected to the lower magnetic pole section 322 of pole segment 321 bottom, and lower magnetic pole section 322 forms from top to bottom size and passs The bullets such as the cone subtracting or pyramid, upper pole segment 321 forms cone or the pyramid etc. of from top to bottom size increments Bullet, upper pole segment 321 and lower magnetic pole section 322 form symmetry shape, and in upper pole segment 321 and lower magnetic pole section 322 joining place Forming the annular crest line 323 of a circle or regular polygon, on this, pole segment 321 and lower magnetic pole section 322 are as cone, upper magnetic pole As a example by section 321 and lower magnetic pole section 322 joining place are the annular crest line 323 of a circle, axle magnet 32 is relatively big for mid diameter, axle magnetic The top and bottom equal diameters of iron 32, and the upper end diameter of axle magnet 32 and lower end diameter be respectively less than in the middle of axle magnet 32 circular Annular crest line 323 at diameter.Upper pole segment 321 magnetic polarity different each other with lower magnetic pole section 322, say, that upper magnetic When pole section 321 is for S pole, lower magnetic pole section 322 is then N pole.The lower magnetic pole section 322 of each axle magnet 32 stretches into the plate body 22 of pedestal 20 Conical through-hole 24 in, upper pole segment 321 is from the end face extending above plate body 22 of conical through-hole 24.

In this preferred embodiment, the male cone (strobilus masculinus) of the male cone (strobilus masculinus) of lower magnetic pole section 322 and upper pole segment 321 is relative to central shaft The angle of line 21 is 15 degree to 75 degree, wherein, the male cone (strobilus masculinus) of the male cone (strobilus masculinus) of lower magnetic pole section 322 and upper pole segment 321 relative to The angle of central axis 21 is preferred with 30 degree, 45 degree or 60 degree etc..

As shown in Figure 1 to Figure 3, the plurality of magnetic force module 40 is installed in the conical through-hole 24 of the plate body 22 of pedestal 20 respectively In, each magnetic force module 40 respectively comprises one first magnetic force group 41 and one second magnetic force group 42, described first magnetic force group 41 and second Magnetic force group is arranged in conical through-hole 24 about 42 with being spaced, say, that the first magnetic force group 41 is positioned at conical through-hole 24 Epimere, the second magnetic force group 42 is positioned at the hypomere of conical through-hole 24, and the first magnetic force group 41 and the second magnetic force group 42 pass through magnetic force Adjacent with the lower magnetic pole section 322 of described axle magnet 32 and do not contact, the i.e. first magnetic force group 41 and the second magnetic force group 42 respectively with institute Lower magnetic pole section 322 male cone (strobilus masculinus) stating axle magnet 32 is parallel, has between the first magnetic force group 41 and the lower magnetic pole section 322 of axle magnet 32 Gap, also has gap between the second magnetic force group 42 and the lower magnetic pole section 322 of axle magnet 32, is passed with magnetic force by magnetic force module 40 Magneticaction between the axle magnet 32 of moving axis 30 and offset its gravity, make magnetic drives axle 30 be arranged at pedestal vertically and vacantly In 20, magnetic drives axle 30 can rotate around this central axis 21 in pedestal 20, and passes through in magnetic force module 40 in cone Or the first magnetic force group 41 of pyramid distribution and the second magnetic force group 42 are relative to the magnetic attraction of the axle magnet 32 of magnetic drives axle 30 With magnetic repulsion, the position making magnetic drives axle 30 can be positioned at central axis 21 smoothly uprightly rotates.

As shown in Figures 1 and 3, described first magnetic force group 41 can be listed in the permanent-magnet magnetic in conical through-hole 24 for multiple spacer rings Iron block is formed, and each permanent-magnet magnetic iron block of described first magnetic force group 41 respectively comprises one first magnetic pole group 410, or, described One magnetic force group 41 alternatively single circular row has the conical permanent-magnet magnetic iron hoop of multiple first magnetic pole group 410 to be constituted, and (figure is not Show).As shown in Figures 4 and 5, the permanent-magnet magnetic iron block that described first magnetic force group 41 can be listed in conical through-hole 24 for multiple spacer rings Being formed, described permanent-magnet magnetic iron block can be vertical bar block or secter pat, and described permanent-magnet magnetic iron block is towards the inner peripheral surface shape of axle magnet 32 Become corresponding plane or arc surface, and the plurality of permanent magnetic iron circular row forms pyramid or cone row in conical through-hole 24 Row.Described permanent magnetic iron is parallel to lower magnetic pole section 322 outer peripheral face of axle magnet 32 towards the inner peripheral surface of axle magnet 32, say, that First magnetic pole group 410 is 15 degree to 75 degree, wherein, the first magnetic towards axle magnet 32 inner peripheral surface relative to the angle of central axis 21 Pole group 410 is preferred with 30 degree, 45 degree or 60 degree etc. towards axle magnet 32 inner peripheral surface relative to the angle of central axis 21.

Described first magnetic pole group 410 have a position the first upper magnetic pole 411 and a position under the second magnetic pole 412, have between the first magnetic pole 411 of described first magnetic pole group 410 and the lower magnetic pole section 322 of the second magnetic pole 412 and axle magnet 32 Gap, the first magnetic pole group 410 position has different magnetic pole in the first upper magnetic pole 411 and the lower magnetic pole section 322 of axle magnet 32 Property, the first magnetic pole group 410 position under the second magnetic pole 412 with the lower magnetic pole section 322 of axle magnet 32, there is identical magnetic polarity, Carried respectively relative to the lower magnetic pole section 322 of axle magnet 32 by the first magnetic pole 411 of the first magnetic pole group 410 and the second magnetic pole 412 For magnetic attraction and magnetic repulsion.I.e. the upper pole segment 321 of axle magnet 32 be S pole, lower magnetic pole section 322 for N pole when, the first magnetic pole group 410 positions are S pole at upper first magnetic pole 411, the first magnetic pole group 410 position under the second magnetic pole 412 be N pole.

As shown in Figure 1 to Figure 3, described second magnetic force group 42 can be listed in the permanent-magnet magnetic in conical through-hole 24 for multiple spacer rings Iron block is formed, and described permanent-magnet magnetic iron block can be vertical bar block or secter pat, each permanent-magnet magnetic iron block of described second magnetic force group 42 Respectively comprise one second magnetic pole group 420, or, described second magnetic force group 42 is alternatively single circular row multiple second magnetic pole group The constituted (not shown) of permanent-magnet magnetic iron hoop of 420.As shown in Figures 4 and 5, described second magnetic force group 42 can be multiple intervals circular row Permanent-magnet magnetic iron block in conical through-hole 24 is formed, and described permanent-magnet magnetic iron block can be vertical bar block or secter pat, described permanent-magnet magnetic Iron block forms corresponding plane or arc surface towards the inner peripheral surface of axle magnet 32, and the plurality of permanent magnetic iron circular row is in conical through-hole 24 Middle formation pyramid or cone arrangement.Described permanent magnetic iron is parallel to the lower magnetic of axle magnet 32 towards the inner peripheral surface of axle magnet 32 Pole section 322 outer peripheral face, say, that the second magnetic pole group 420 is situated between towards axle magnet 32 inner peripheral surface relative to the angle of central axis 21 Between 15 degree to 75 degree, wherein, the second magnetic pole group 420 towards axle magnet 32 inner peripheral surface relative to central axis 21 angle with 30 degree, 45 degree or 60 degree etc. are preferred.

Described second magnetic pole group 420 has a position at the first interior magnetic pole 421 and a position the second magnetic pole outside 422, it wherein, is interior near the side of this central axis 21, the side away from this central axis 21 is outward, described second magnetic pole group There is between first magnetic pole 421 of 420 and the lower magnetic pole section 322 of axle magnet 32 gap, and the first magnetic pole of the second magnetic pole group 420 421 have identical magnetic polarity with the lower magnetic pole section 322 of axle magnet 32, the lower magnetic pole section to the axle magnet 32 of magnetic drives axle 30 322 offer magnetic repulsions.It is to say, the upper pole segment 321 of axle magnet 32 be S pole, lower magnetic pole section 322 be N pole, the first magnetic pole group 410 positions are S pole at upper first magnetic pole 411, the first magnetic pole group 410 position under the second magnetic pole 412 for N pole when, second Magnetic pole group 420 position is N pole at the first interior magnetic pole 421, and the second magnetic pole group 420 position the second magnetic pole 422 outside is S pole.

As it is shown in figure 1, this balancing weight 50 is fixed in axostylus axostyle 31 bottom of magnetic drives axle 30 with its center.This balancing weight 50 Can be a circular plate or be a cone plate (not shown).

As shown in Figures 1 and 3, the utility model rectilinear magnetic drives assembly 10 is when using, and this rectilinear magnetic force passes The magnetic drives axle 30 of dynamic assembly 10 can be connected to power source and rotary power uses (not shown) between end, by rectilinear magnetic The magnetic drives axle 30 of power transmission component 10, by the magneticaction of multiple magnetic force modules 40, makes magnetic drives axle 30 vertical and hangs Vacant lot is arranged in pedestal 20, and magnetic drives axle 30 can rotate around this central axis 21 in pedestal 20.For making this practicality The magnetic drives axle 30 of perpendicular style magnetic drives assembly 10 can reduce air drag when operating, this rectilinear magnetic drives Assembly 10 may be disposed in vacuum environment and uses.Wherein, when the lower magnetic pole section 322 of taper of magnetic drives axle 30 is relative to center The angle of axis 21 and the first magnetic pole group the 410th, the second magnetic pole group 420 towards the inner peripheral surface of axle magnet 32 relative to central axis When the angle of 21 is less than 45 degree, magnetic drives axle 30 is relatively big by magnetic force upwards, is suitable to the magnetic drives axle 30 of heavier-weight, And the enforcement kenel of the relatively low demand of magnetic drives axle 30 rotating speed；When the taper lower magnetic pole section 322 of power transmission shafr 30 is relative to center The angle of axis 21 and the first magnetic pole group the 410th, the second magnetic pole group 420 towards the inner peripheral surface of axle magnet 32 relative to central axis When the angle of 21 is more than 45 degree, magnetic drives axle 30 is relatively big by the magnetic force of radial direction, is suitable to the magnetic drives axle 30 of lighter in weight, And the enforcement kenel of magnetic drives axle 30 rotating speed high requirements.

When the affixed balancing weight 50 of the magnetic drives axle 30 of this rectilinear magnetic drives assembly 10 and bottom thereof is revolved by driving Simultaneously energy storage when turning, until after the affixed balancing weight 50 of magnetic drives axle 30 and bottom thereof reaches certain rotating speed, stopping auxiliary dynamic Power output precision 70 exports power, the inertia force being rotated by the affixed balancing weight 50 of magnetic drives axle 30 and bottom thereof and continue Rotate, and pass through between pedestal 20 and magnetic drives axle 30 without friction loss so that the magnetic force of this rectilinear magnetic drives assembly 10 Power transmission shaft 30 can improve its verticity such as torsion or rotating speed.

As shown in Figure 6, the utility model is proposed the energy-saving and power generation device of rectilinear magnetic drives and is comprised described in one vertical Formula magnetic drives assembly the 10th, a generating set 60 and an auxiliary power output precision 70.Wherein, described rectilinear magnetic drives The composition of assembly 10 constructs as hereinbefore, repeats no more in this.

As shown in Figure 6, the assembly of this generating set 60 to be one group can be converted into rotation function electric energy, this generating set 60 It is installed on the plate body 22 in the pedestal 20 of this rectilinear magnetic drives assembly 10, and combine shaft coupling and connect this magnetic drives The axostylus axostyle 31 of axle 30.

As shown in Figure 6, this auxiliary power output precision 70 connects the axostylus axostyle 31 of this magnetic drives axle 30, in order to pass magnetic force The rotation of moving axis 30 provides auxiliary driving force.This auxiliary power output precision 70 can be motor, or engine passes with train The combination (not shown) etc. of dynamic assembly.

In the energy-saving and power generation device of described rectilinear magnetic drives, this generating set 60 and this auxiliary power output precision 70 Also can a dynamotor be replaced, this dynamotor has outputting rotary power and generating function concurrently.

The energy-saving and power generation device of the rectilinear magnetic drives of the utility model, when using, as shown in Figure 6, utilizes auxiliary power Output precision 70 drives the affixed balancing weight 50 of the magnetic drives axle 30 of this rectilinear magnetic drives assembly 10 and bottom thereof to rotate And energy storage, until after the affixed balancing weight 50 of magnetic drives axle 30 and bottom thereof reaches certain rotating speed, stop auxiliary power output Assembly 70 exports power, the inertia force being rotated by the affixed balancing weight 50 of magnetic drives axle 30 and bottom thereof and persistently rotate, And the be dynamically connected generating set 60 of magnetic drives axle 30 of band converts kinetic energy into electric energy simultaneously.

The energy-saving and power generation device of the rectilinear magnetic drives of the utility model is because utilizing the magnetic of rectilinear magnetic drives assembly 10 Magneticaction between power transmission shafr 30 and magnetic force module 40, without friction loss when making magnetic drives axle 30 rotate in pedestal 20, Reduce the energy loss of energy transfer process, and reach energy-conservation purpose.

The foregoing is only the schematic detailed description of the invention of the utility model, be not limited to model of the present utility model Enclose.Any those of ordinary skill in the art, without departing from design of the present utility model and on the premise of principle done etc. With change and modification, the scope of the utility model protection all should be belonged to.

Claims (10)

1. a rectilinear magnetic drives assembly, it is characterised in that described rectilinear magnetic drives assembly comprises:

One pedestal, described pedestal comprises multiple upper and lower spaced plate body and the upright hack lever connecting multiple described plate body, Described pedestal has a vertical central axis, multiple described plate bodys forms centered on described central axis one respectively by upper Conical through-hole to lower decreasing dimensions；

One magnetic drives axle, the installing of described magnetic drives axle orthogonal sets is placed in described pedestal, and described magnetic drives axle comprises one Axostylus axostyle and multiple axle magnet, multiple described axle magnet are fixedly arranged on described axostylus axostyle, and multiple described axle magnet lays respectively at institute Stating in the described conical through-hole of plate body, described axle magnet is permanent magnetic iron, each described axle magnet comprise on one pole segment and The lower magnetic pole section of one bottom being connected to described upper pole segment, described lower magnetic pole section forms the taper of decreasing dimensions from top to bottom Body, described upper pole segment forms the bullet of size increments from top to bottom, described upper pole segment and described lower magnetic pole section joining place Forming an annular crest line, described upper pole segment and described lower magnetic pole section are symmetric shape and magnetic polarity different each other；Each institute In the described conical through-hole of the described plate body that the described lower magnetic pole section stating axle magnet stretches into described pedestal, described upper pole segment is by institute State the end face extending above described plate body of conical through-hole；

Multiple magnetic force modules, multiple described magnetic force modules are installed in the described conical through-hole of the described plate body of described pedestal respectively In, each described magnetic force module respectively comprises one first magnetic force group and one second magnetic force group, described first magnetic force group and described second Magnetic force group is arranged in described conical through-hole with being spaced up and down, and described first magnetic force group and described second magnetic force group pass through magnetic Power is intersegmental adjacent with the described lower magnetic pole of described axle magnet and does not contacts, described magnetic drives axle suspension float on described pedestal with described In magnetic force module；And

One balancing weight, described balancing weight is fixed in the bottom of the described axostylus axostyle of described magnetic drives axle.

2. rectilinear magnetic drives assembly according to claim 1, it is characterised in that the described axle of described magnetic drives axle The male cone (strobilus masculinus) of the described lower magnetic pole section of magnet and the male cone (strobilus masculinus) of described upper pole segment are relative to the angle of described central axis Between 15 degree to 75 degree；

The permanent magnetic iron that the described first magnetic force group of multiple described magnetic force modules is listed in described conical through-hole by multiple spacer rings Block is formed, and the permanent-magnet magnetic iron block of each described first magnetic force group respectively comprises one first magnetic pole group, and described first magnetic pole group has One position the first upper magnetic pole and a position under the second magnetic pole, first magnetic pole and described first of described first magnetic pole group Second magnetic pole of magnetic pole group is parallel with the described lower magnetic pole section of described axle magnet respectively, and described first magnetic pole group and described axle magnetic Having gap between iron, the position of described first magnetic pole group is at the described lower magnetic pole section tool of the first upper magnetic pole and described axle magnet Have different magnetic polarity, the position of described first magnetic pole group under the described lower magnetic pole section tool of the second magnetic pole and described axle magnet There is identical magnetic polarity；

The permanent-magnet magnetic iron block that described second magnetic force group is listed in described conical through-hole by multiple spacer rings is formed, and each described The permanent-magnet magnetic iron block of two magnetic force groups respectively comprises one second magnetic pole group, and described second magnetic pole group has a position at the first interior magnetic pole With a position the second magnetic pole outside, the first magnetic pole of described second magnetic pole group and the intersegmental tool of described lower magnetic pole of described axle magnet There is gap, and the first magnetic pole of described second magnetic pole group has same magnetic polarity with the described lower magnetic pole section of described axle magnet.

3. rectilinear magnetic drives assembly according to claim 2, it is characterised in that the permanent-magnet magnetic of described first magnetic force group Iron block is vertical bar block or secter pat, the permanent-magnet magnetic iron block of described first magnetic force group with the permanent-magnet magnetic iron block of described second magnetic force group Form corresponding arc surface with the permanent-magnet magnetic iron block of described second magnetic force group towards the inner peripheral surface of described axle magnet respectively.

4. the energy-saving and power generation device of a rectilinear magnetic drives, it is characterised in that energy-conservation of described rectilinear magnetic drives Electric installation comprises:

One rectilinear magnetic drives assembly, described rectilinear magnetic drives assembly comprises a pedestal, a magnetic drives axle, multiple magnetic Power module and a balancing weight, wherein:

Described pedestal comprises multiple upper and lower spaced plate body and the upright hack lever connecting multiple described plate body, described base Frame has a vertical central axis, and multiple described plate bodys form centered on described central axis a from top to bottom chi respectively The very little conical through-hole successively decreasing；

The installing of described magnetic drives axle orthogonal sets is placed in described pedestal, and described magnetic drives axle comprises an axostylus axostyle and multiple axle Magnet, multiple described axle magnet are fixedly arranged on described axostylus axostyle, and multiple described axle magnet lays respectively at the described cone of described plate body In shape through hole, described axle magnet is permanent magnetic iron, and each described axle magnet comprises pole segment and on and is connected on described The lower magnetic pole section of the bottom of pole segment, described lower magnetic pole section forms the bullet of decreasing dimensions from top to bottom, described upper pole segment Forming the bullet of size increments from top to bottom, described upper pole segment and described lower magnetic pole section joining place form an annular crest line, Described upper pole segment forms symmetry shape and magnetic polarity different each other with described lower magnetic pole section；Each described axle magnet described under In the described conical through-hole of the described plate body that pole segment stretches into described pedestal, described upper pole segment is by the top of described conical through-hole Stretch out the end face of described plate body；

In the described conical through-hole of the described plate body that multiple described magnetic force modules are installed in described pedestal respectively, each described magnetic force Module respectively comprises one first magnetic force group and one second magnetic force group, and described first magnetic force group and described second magnetic force group are between the upper and lower every row Being arranged in described conical through-hole, described first magnetic force group and described second magnetic force group are by magnetic force and described axle magnet row Described lower magnetic pole is intersegmental adjacent and does not contacts, and described magnetic drives axle suspension floats in described pedestal and described magnetic force module；And

Described balancing weight is fixed in the bottom of the described axostylus axostyle of described magnetic drives axle；

One generating set, described generating set is installed in the described plate body in the described pedestal of described rectilinear magnetic drives assembly On, and described generating set combines the described axostylus axostyle that shaft coupling connects described magnetic drives axle；And

One auxiliary power output precision, described auxiliary power output precision connects the described axostylus axostyle of described magnetic drives axle.

5. the energy-saving and power generation device of rectilinear magnetic drives according to claim 4, it is characterised in that described auxiliary power Output precision is motor or the combination for engine and train transmission component.

6. the energy-saving and power generation device of the rectilinear magnetic drives according to claim 4 or 5, it is characterised in that described magnetic force The male cone (strobilus masculinus) of the described lower magnetic pole section of the described axle magnet of power transmission shaft and the male cone (strobilus masculinus) of described upper pole segment are relative to described center The angle of axis is between 15 degree to 75 degree；

The permanent magnetic iron that the described first magnetic force group of multiple described magnetic force modules is listed in described conical through-hole by multiple spacer rings Block is formed, and the permanent-magnet magnetic iron block of each described first magnetic force group respectively comprises one first magnetic pole group, and described first magnetic pole group has One position the first upper magnetic pole and a position under the second magnetic pole, first magnetic pole and described first of described first magnetic pole group The described lower magnetic pole of the second magnetic pole of magnetic pole group and described axle magnet is intersegmental has gap, and the position of described first magnetic pole group is upper The described lower magnetic pole section of the first magnetic pole and described axle magnet there is different magnetic polarity, the position of described first magnetic pole group under The described lower magnetic pole section of the second magnetic pole and described axle magnet there is identical magnetic polarity；

The permanent-magnet magnetic iron block that described second magnetic force group is listed in described conical through-hole by multiple spacer rings is formed, and each described The permanent-magnet magnetic iron block of two magnetic force groups respectively comprises one second magnetic pole group, and described second magnetic pole group has a position at the first interior magnetic pole With a position the second magnetic pole outside, the first magnetic pole of described second magnetic pole group and the intersegmental tool of described lower magnetic pole of described axle magnet There is gap, and the first magnetic pole of described second magnetic pole group has identical magnetic polarity with the described lower magnetic pole section of described axle magnet.

7. the energy-saving and power generation device of rectilinear magnetic drives according to claim 6, it is characterised in that described first magnetic force The permanent-magnet magnetic iron block of group is vertical bar block or secter pat with the permanent-magnet magnetic iron block of described second magnetic force group, described first magnetic force group The permanent-magnet magnetic iron block of permanent-magnet magnetic iron block and described second magnetic force group forms corresponding arc respectively towards the inner peripheral surface of described axle magnet Curved surface.

8. the energy-saving and power generation device of a rectilinear magnetic drives, it is characterised in that energy-conservation of described rectilinear magnetic drives Electric installation comprises:

One rectilinear magnetic drives assembly, described rectilinear magnetic drives assembly comprises a pedestal, a magnetic drives axle, multiple magnetic Power module and a balancing weight, wherein:

Described pedestal comprises multiple upper and lower spaced plate body and the upright hack lever connecting multiple described plate body, described base Frame has a vertical central axis, and multiple described plate bodys form centered on described central axis a from top to bottom chi respectively The very little conical through-hole successively decreasing；

The installing of described magnetic drives axle orthogonal sets is placed in described pedestal, and described magnetic drives axle comprises an axostylus axostyle and multiple axle Magnet, multiple described axle magnet are fixedly arranged on described axostylus axostyle, and multiple described axle magnet lays respectively at the described cone of described plate body In shape through hole, described axle magnet is permanent magnetic iron, and each described axle magnet comprises pole segment and on and is connected on described The lower magnetic pole section of the bottom of pole segment, described lower magnetic pole section forms the bullet of decreasing dimensions from top to bottom, described upper pole segment Forming the bullet of size increments from top to bottom, described upper pole segment and described lower magnetic pole section joining place form an annular crest line, Described upper pole segment forms symmetry shape and magnetic polarity different each other with described lower magnetic pole section；Each described axle magnet described under In the described conical through-hole of the described plate body that pole segment stretches into described pedestal, described upper pole segment is by the top of described conical through-hole Stretch out the end face of described plate body；

In the described conical through-hole of the described plate body that multiple described magnetic force modules are installed in described pedestal respectively, each described magnetic force Module respectively comprises one first magnetic force group and one second magnetic force group, and described first magnetic force group and described second magnetic force group are between the upper and lower every row Being arranged in described conical through-hole, described first magnetic force group and described second magnetic force group are by magnetic force and described axle magnet row Described lower magnetic pole is intersegmental adjacent and does not contacts, and described magnetic drives axle suspension floats in described pedestal and described magnetic force module；

Described balancing weight is fixed in the bottom of the described axostylus axostyle of described magnetic drives axle；And

One dynamotor, it is described that described dynamotor is installed in the described pedestal of described rectilinear magnetic drives assembly On plate body, and described dynamotor combines the described axostylus axostyle that shaft coupling connects described magnetic drives axle.

9. the energy-saving and power generation device of rectilinear magnetic drives according to claim 8, wherein, the institute of described magnetic drives axle State the male cone (strobilus masculinus) of described lower magnetic pole section of axle magnet and the male cone (strobilus masculinus) of the described upper pole segment angle relative to described central axis It is between 15 degree to 75 degree；

The permanent magnetic iron that the described first magnetic force group of multiple described magnetic force modules is listed in described conical through-hole by multiple spacer rings Block is formed, and the permanent-magnet magnetic iron block of each described first magnetic force group respectively comprises one first magnetic pole group, and described first magnetic pole group has One position the first upper magnetic pole and a position under the second magnetic pole, first magnetic pole and described first of described first magnetic pole group The described lower magnetic pole of the second magnetic pole of magnetic pole group and described axle magnet is intersegmental has gap, and the position of described first magnetic pole group is upper The described lower magnetic pole section of the first magnetic pole and described axle magnet there is different magnetic polarity, the position of described first magnetic pole group under The described lower magnetic pole section of the second magnetic pole and described axle magnet there is identical magnetic polarity；

The permanent-magnet magnetic iron block that described second magnetic force group is listed in described conical through-hole by multiple spacer rings is formed, and each described The permanent-magnet magnetic iron block of two magnetic force groups respectively comprises one second magnetic pole group, and described second magnetic pole group has a position at the first interior magnetic pole With a position the second magnetic pole outside, the first magnetic pole of described second magnetic pole group and the intersegmental tool of described lower magnetic pole of described axle magnet There is gap, and the first magnetic pole of described second magnetic pole group has identical magnetic polarity with the described lower magnetic pole section of described axle magnet.

10. the energy-saving and power generation device of rectilinear magnetic drives according to claim 9, it is characterised in that described first magnetic The permanent-magnet magnetic iron block of power group is vertical bar block or secter pat, described first magnetic force group with the permanent-magnet magnetic iron block of described second magnetic force group The permanent-magnet magnetic iron block of permanent-magnet magnetic iron block and described second magnetic force group formed corresponding respectively towards the inner peripheral surface of described axle magnet Arc surface.