CN103850773A - Clutch - Google Patents

Abstract

The invention relates to a clutch, in particular to a clutch driven by a magnetic force. The invention aims at providing the clutch with the capability of adjusting the output rotating speed according to the requirements of different ambient temperatures as well as simple structure and relatively-small size. The clutch comprises an induction disk and a magnet which can coaxially rotate. The clutch further comprises a position-adjustable shielding device; when the shielding device extends into a part between the induction disk and the magnet, the shielding device guides a magnetic field of the magnet for shielding electromagnetic mutual inductance between software and the magnet. According to the clutch disclosed by the invention, when the shielding device extends into the part between the induction disk and the magnet, the shielding device guides the magnetic field generated by the magnet, so that the induction disk and the magnet cannot act mutually. and further torsion is prevented from being transmitted; when the shielding device exits from the part between the induction disk and the magnet, the induction disk and the magnet mutually act again and the torque is transmitted. The clutch is particularly suitable for occasions where heat radiating fans are required to be arranged and the heat radiating capability is adjusted according to the demand on heat radiation.

Description

Clutch

Technical field

The present invention relates to a kind of clutch, particularly relate to a kind of clutch of magneto drive.

Background technique

At present, there is a kind of clutch in automobile fan clutch field, if application number is 200720026784.0, notice of authorization number is CN201096009Y, notice of authorization day is the disclosed a kind of double speed electromagnetic fan clutch of the Chinese utility model patent on August 6th, 2008, it arranges inductive disks on driving link, magnet is set on driven member, in the time that magnet relative induction dish moves, inductive disks is because cutting magnetic line produces electric convolution, between inductive disks and magnet, can produce interaction force, so driven member can be followed the rotation of driving link and be rotated, between driving link and driven member, can keep differential to rotate, this mode driving by undesirable mutual electromagnetic inductance is soft drive.In order to realize " from " state, the i.e. state of transmitting torque not, the clutch that adopts at present this working principle generally divides driving link and inductive disks to be arranged, and inductive disks is arranged on adhesive dish, for example application number is 2012200109509, notice of authorization number is CN202483695U, notice of authorization day is the disclosed a kind of electromagnetic fan clutch of the Chinese utility model patent on October 10th, 2012, in the time not needing transmitting torque, driving link does not contact with adhesive dish, driving link does not drive inductive disks to rotate, with this reach " from " object, in the time that needs allow driving link soft drive driven member, attract adhesive dish by electromagnetic core, driving link and adhesive dish are close to, thereby driving link drives inductive disks to rotate, reach the object of soft drive, this clutch the inside also needs to have the component that allow adhesive dish reset.This employing increases mode that an electromagnetic core coordinates reset component to make adhesive dish move to realize OFF shelves and soft drive shelves and not only constructs more complicatedly, and volume is larger, and consume electric power.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind ofly can need to adjust output speed, the clutch that simple in structure, volume is relatively less according to difference,

Clutch of the present invention, comprise can coaxial rotating inductive disks and magnet, described inductive disks and described magnet have gap and can mutually drive, the magnetic pole of described magnet is arranged alternately on the face relative with described inductive disks, also comprise the adjustable shutter in position between described inductive disks and described magnet, described shutter is regulated and controled to change the electromagnetic force between described inductive disks and described magnet, and described inductive disks and described magnet differential are rotated.

Clutch of the present invention, described shutter is concentrating flux plate.

Clutch of the present invention, described shutter is connected with spirality metal sheet to complete described regulation and control.

Clutch of the present invention, described tinsel is bimetallic strip.

Clutch of the present invention, described concentrating flux plate comprises arc board and the kink that one connects.

Clutch of the present invention, described concentrating flux plate is provided with magnetic penetrating hole.

Clutch of the present invention, also comprises spline pin.

Clutch of the present invention, also comprises rolling element.

Clutch of the present invention, is provided with the groove that part is held described concentrating flux plate in described inductive disks.

Clutch of the present invention, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, in described heat dissipation plate, be embedded with soft iron, also comprise magnet fixed disc, described concentrating flux plate quantity is two, described concentrating flux plate comprises arc board and the kink that one connects, kink is connected to the front side of arc board, arc plate portion is positioned between described heat dissipation plate and described magnet fixed disc, described kink is provided with the hole of passing for screw, the annular outer wall of described magnet fixed disc is provided with four described holes, described four holes lay respectively at four positions up and down on described magnet fixed disc annular outer wall.

Clutch of the present invention, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, in described heat dissipation plate, be embedded with soft iron, also comprise magnet fixed disc, described concentrating flux plate quantity is three, described concentrating flux plate comprises arc board and the kink that one connects, kink is connected to the front side of arc board, arc plate portion is positioned between described heat dissipation plate and described magnet fixed disc, described kink is provided with the hole of passing for screw, the annular outer wall of described magnet fixed disc is provided with six described holes, described concentrating flux plate distributes at hoop about the axis of described magnet fixed disc.

Clutch of the present invention, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, also comprise magnet fixed disc, in described magnet fixed disc, be embedded with inserts, described inserts and described magnet fixed disc coaxial line, described magnet is positioned at the annular sidewall of heat dissipation plate described in the rear side of described inserts and is provided with two screw holes, and described concentrating flux plate is fixed by screws on described heat dissipation plate.

Clutch of the present invention, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, also comprise magnet fixed disc, in described magnet fixed disc, be embedded with inserts, described inserts and described magnet fixed disc coaxial line, described magnet is positioned at the annular sidewall of heat dissipation plate described in the rear side of described inserts and is provided with two screw holes, described concentrating flux plate is fixed by screws on described heat dissipation plate, is provided with the groove identical with the arc board profile of concentrating flux plate in described heat dissipation plate.

Clutch of the present invention, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, also comprise magnet fixed disc, described concentrating flux plate is fixed on spirality metal sheet, on described spirality metal sheet, there are three tie points for connecting, interior end points on described spirality metal sheet is the first tie point, described the first tie point is fixed on the front-end face of described magnet fixed disc, outer end points on described spirality metal sheet is the second tie point, described in one of them, concentrating flux plate is fixed on described the second tie point, on the outer ring of described spirality metal sheet, the point relative with described the second tie point is the 3rd tie point, described in another, concentrating flux plate is fixed on described the 3rd tie point.

Clutch of the present invention, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, also comprise magnet fixed disc, described concentrating flux plate comprises annular board and cylindrical part, cylindrical part one is connected to the outward edge of annular board, annular board is provided with six magnetic penetrating holes, six magnetic penetrating holes are uniformly distributed along hoop, cylindrical part is provided with restraining groove, on the annular sidewall of described magnet fixed disc, corresponding restraining groove is provided with spline pin, and spline pin is positioned at restraining groove, and spirality metal sheet is connected on magnet fixed disc.

Clutch of the present invention, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, also comprise magnet fixed disc, described concentrating flux plate comprises annular board and cylindrical part, cylindrical part one is connected to the outward edge of annular board, annular board is provided with six magnetic penetrating holes, six magnetic penetrating holes distribute along hoop, cylindrical part is provided with restraining groove, on the annular sidewall of described magnet fixed disc, corresponding restraining groove is provided with spline pin, spline pin is positioned at restraining groove, spirality metal sheet is connected on magnet fixed disc, described magnet fixed disc is connected with main shaft, fan fixed disk is arranged on main shaft by bearing, described heat dissipation plate is bolted to connection in fan fixed disk.

The present invention can be equivalent to realize three-speed electromagnetic fan clutch close function and the performance of tradition by double-iron core control with the clutch of single iron core control, and technological scheme of the present invention not only manufacture cost reduces greatly, and reliability further improves.

Clutch difference from prior art of the present invention is that clutch of the present invention has provided the technological scheme of changing between OFF shelves and soft drive shelves that realizes that adopts new working principle.Clutch of the present invention is realized the conversion between OFF shelves and soft drive shelves by the adjustable magnetic conduction device in position, in the time that magnetic conduction device stretches between soft iron and magnet, the magnetic field that magnet produces can change through the guiding of magnetic conduction device, magnetic field that like this can shielded magnet, because the interaction between soft iron and magnet is to rely on magnetic field to realize, so in the time that magnetic conduction device stretches between soft iron and magnet, destroy the prerequisite of soft drive, even if soft iron is with respect to magnet movement, between them, can not produce interaction force yet, at this moment the motion of soft iron can be with the motion of moving magnet, so just realized the not working state of transmitting torque.And in the time that magnetic conduction device is withdrawn between soft iron and magnet, recover in the magnetic field that magnet acts on soft iron, between soft iron and magnet, recover interaction force, thereby realize soft drive.Owing to not adopting electromagnetic core and adhesive dish to realize this conversion, and only realize by the position that changes magnetic conduction device, so the structure of clutch of the present invention is relatively simple, volume is also relatively less.

In clutch of the present invention, magnetic conduction device comprises arc board and is connected to the kink on arc board, and bending part is in a side of the close magnet of arc board, and the thinner thickness of magnetic conduction device like this can further dwindle the volume of whole device.In clutch of the present invention, magnetic conduction device comprises annular board and is connected to the cylindrical part on annular board, cylindrical part is positioned at a side of the close described magnet of annular board, when annular board is provided with magnetic penetrating hole, good integrity and the component of magnetic conduction device are few, and whole clutch is easier to processing and assembling.In clutch of the present invention, magnetic conduction device is removably when fix relative with magnet, can adjust by manual mode the position of magnetic conduction device, thereby whether user can need transmitting torque that magnetic conduction device is installed according to reality to make clutch transmission or transmitting torque not like this, be applicable to being applied to the field that adopts fan cooling, magnetic conduction device is stretched between soft iron and magnet such as in the winter time time, make not transmitting torque of clutch, in the time of summer, reinstall magnetic conduction device is exited between soft iron and magnet, make clutch transmission torque.In clutch of the present invention, when magnetic conduction device stretches into the amount between soft iron and magnet by spirality bimetallic strip as position automatic regulating apparatus adjustment, thereby the sector-meeting of spirality bimetal automatically realizes torsion change magnetic conduction device according to ambient temperature and stretches into the amount between soft iron and magnet, can realize like this clutch according to actual variation of ambient temperature and output rotating speed regulation intelligently, in the time that magnetic conduction device does not block magnet, output speed maximum, in the time that magnetic conduction device blocks a part of in magnet, output speed is medium, in the time that magnetic conduction device blocks magnet completely, output speed levels off to zero.In clutch of the present invention, when the sidewall of magnet fixed disc is provided with spline pin, can make magnetic conduction device only in certain scope, rotate, can make like this clutch have more adaptability under too low or too high temperature environment, work more reliable.In clutch of the present invention, when magnet fixed disc is provided with rolling element, can reduce the rotational resistance of magnetic conduction device, increase the reliability of clutch.In clutch of the present invention, soft iron is removably when fix relative with magnet, thereby can change by changing the position of soft iron the working state of clutch.In clutch of the present invention, soft iron comprises arc board and be connected to the kink on arc board, and kink is provided with screw hole, and soft iron removably when fix relative with magnet, also can further dwindle the volume of whole device by screw.In clutch of the present invention, be embedded with magnet fixed disc inserts in magnet fixed disc, magnet is between magnet fixed disc inserts and soft iron time, and magnet fixed disc inserts can be guided the magnetic field at the magnet back side, can improve the Magnetic field distribution of magnet.

Below in conjunction with accompanying drawing, clutch of the present invention is described further.

Accompanying drawing explanation

Fig. 1 is the left view under first embodiment of clutch of the present invention installment state in the winter time;

Fig. 2 is the partial enlarged drawing at A place in Fig. 1;

Fig. 3 is that the B-B of Fig. 1 is to view;

Fig. 4 is the schematic diagram of first embodiment of clutch of the present invention under the installment state in summer;

Fig. 5 is the schematic diagram of second embodiment of clutch of the present invention under the installment state in summer;

Fig. 6 is the schematic diagram under second embodiment of clutch of the present invention installment state in the winter time;

Fig. 7 is the left view of the 3rd embodiment of clutch of the present invention under the installment state in summer;

Fig. 8 is the partial enlarged drawing at C place in Fig. 7;

Fig. 9 is the partial enlarged drawing under installment state in the winter time corresponding to C place in Fig. 7;

Figure 10 is the left view of the 4th embodiment of clutch of the present invention under the installment state in summer;

Figure 11 is the 5th embodiment of clutch of the present invention left view under state in the winter time;

Figure 12 is the partial enlarged drawing at D place in Figure 11;

Figure 13 is that the E-E of Figure 11 is to view;

Figure 14 is the front view of the bimetallic strip that uses in the 5th embodiment of clutch of the present invention;

Figure 15 is that the F-F of Figure 11 is to view;

To be the 5th embodiment of clutch of the present invention under summer state corresponding with Figure 15 for Figure 16 to view;

Figure 17 is the rear view that the magnet fixed disc of magnet is housed in the 6th embodiment of clutch of the present invention;

Figure 18 is the rear view of the magnetic conduction device in the 6th embodiment of clutch of the present invention;

Figure 19 is the left view of the magnetic conduction device in the 6th embodiment of clutch of the present invention;

Figure 20 is the 7th embodiment's of clutch of the present invention left view.

Embodiment

Embodiment one

First embodiment of clutch of the present invention as shown in Figure 1, on main shaft 101, be connected with the inductive disks of aluminum by key (key is not shown in the drawings), conventionally make the heat dissipation plate 102 of a side band radiating fin, in the time that rotating, main shaft 101 drive heat dissipation plate 102 to rotate by key, on main shaft 101, also by bearing (bearing is not shown in the drawings), fan fixed disk 103 is installed, fan fixed disk 103 is positioned at the front of heat dissipation plate 102, and fan fixed disk 103 can be rotated around main shaft 101.In fan fixed disk 103, be installed with the magnet fixed disc 105 of aluminum by bolt 104, so magnet fixed disc 105 can synchronously rotate around main shaft 101 together with fan fixed disk 103, magnet fixed disc 105 is positioned at front and the close heat dissipation plate 102 of heat dissipation plate 102.

As shown in Figure 2, heat dissipation plate 102 interior can setting-in the soft iron 106 of annular in the form of sheets, soft iron 106 and main shaft 101 coaxial lines.The magnet fixed disc inserts 107 of annular in the form of sheets that is embedded with irony in magnet fixed disc 105, magnet fixed disc inserts 107 is positioned at the front of soft iron 106, magnet fixed disc inserts 107 and main shaft 101 coaxial lines.On magnet fixed disc 105, be also fixed with the magnet 108 of 12 coin shape, every block of magnet 108 is all between soft iron 106 and magnet fixed disc inserts 107.

As shown in Figure 3, wherein 6 blocks of magnet are positioned at the top of magnet fixed disc 105 and are arc line shaped and distribute, and other 6 blocks of magnet are positioned at the bottom of magnet fixed disc 105 and are arc line shaped and distribute.The magnetic pole of the 6 blocks of magnet in top is that south poles is staggered, and the magnetic pole of the 6 blocks of magnet in bottom is also for south poles is staggered.Between 6 blocks of magnet on top and 6 blocks of magnet of bottom, leave two interval regions in left and right.

Referring to Fig. 1 and Fig. 3, the concentrating flux plate 109 of two ironys is fixed on magnet fixed disc 105 by screw 110 separately, as shown in Figure 2, concentrating flux plate 109 comprises arc board 1091 and the kink 1092 that one connects, kink 1092 is connected to the outward edge of arc board 1091, kink 1092 is positioned at the front side of arc board 1091, and arc board 1091 is between heat dissipation plate 102 and magnet fixed disc 105.Kink 1092 is provided with the hole of passing for screw 110, on the annular outer wall of magnet fixed disc 105, be provided with altogether four screw hole (not shown)s, these four screw holes lay respectively at four positions up and down on magnet fixed disc 105 annular outer walls, and four screw holes are uniformly distributed at hoop.When use wherein two screw holes are fixed respectively the kink 1092 of these two concentrating flux plates 109 up and down time, thereby the arc board of these two concentrating flux plates 109 1091 can block respectively 6 blocks of magnet on top and 6 blocks of magnet of bottom between magnet and soft iron 106.In the time that use two of left and right screw hole is wherein fixed respectively the kink 1092 of these two concentrating flux plates 109, thereby the arc board of these two concentrating flux plates 109 1091 can not block magnet between aforesaid interval region and soft iron 106.

The present embodiment is applied to car radiation field, in the time using the present embodiment, main shaft 101 is fixedly installed on belt pulley or on other power sources, and whether provided with fan flabellum in fan fixed disk 103, according to needing heat radiation to determine which two screw hole of use are fixed concentrating flux plate 109.Generally, summer temperature is higher, and winter temperature is lower; There is higher radiating requirements summer, fan need to maintain normality work with higher soft drive rotating speed, and the full speed operation that is aided with interruption is to meet radiating requirements, do not need often to start fan cooling winter, can selection portion separated-shielding magnetic field, reduce soft drive rotating speed, severe cold area is shielding magnetic field completely, thoroughly removes the flexible rotating of fan.

In the time of summer, as shown in Figure 4, use the fixing concentrating flux plate of two of left and right screw hole wherein, namely make the arc board of concentrating flux plate 109 not block each magnet 108.At this moment at the trailing flank of each magnet, between each magnet of magnetic pole alternative arrangement, interact, the magnetic line of force arrives the S level of closing on from the N utmost point through inductive disks 102 and its inner soft iron 106.And at the leading flank of each magnet, referring to Fig. 2, due to the existence of magnet fixed disc inserts 107, can guide the magnetic field of each magnet front side, the magnetic field that makes magnet front side is from magnet fixed disc inserts 107 from by forming closed loop.In the time of work, originally fan fixed disk 103 and magnet fixed disc 105 do not turn, main shaft 101 rotates and drives heat dissipation plate 102 and soft iron 106 to rotate, like this can be with respect to the Movement in Magnetic Field of magnet 108, cutting magnetic line produces electric convolution, the soft drive that forms electromagnetic induction, magnet fixed disc 105 and fan fixed disk 103 can be followed rotation.In the present embodiment, how the problem, main shaft that how connects heat dissipation plate by key about main shaft be well known to the skilled person by bearing provided with fan fixed tray and problem that how electromagnetic core to be set, specifically can be 200720026784.0 referring to application number, notice of authorization number for CN201096009Y, notice of authorization day be the disclosed a kind of double speed electromagnetic fan clutch of Chinese utility model patent on August 6th, 2008.

In the winter time time, as shown in Figure 3, use two fixing concentrating flux plates of screw hole up and down wherein, namely make the arc board of concentrating flux plate 109 block each magnet 108.Referring to Fig. 2, arc board 1091 in concentrating flux plate 109 can affect the magnetic field producing between each magnet 108, the magnetic field producing from the trailing flank of each magnet 108 can be by forming closed loop from arc board 1091, and no longer pass through heat dissipation plate 102, so the magnetic field that magnet produces, no longer to heat dissipation plate 102 generation effects, in the time that heat dissipation plate 102 rotates, no longer produces interaction force like this between heat dissipation plate 102 and magnet, the rotating speed of fan is tending towards 0, does not dispel the heat.

The present embodiment through simply reinstall just can make clutch " from " and " closing " two states between change, there is the simple advantage of use, the state of conversion clutch compared with being applicable in field of radiating according to these two kinds of ambient conditions of winter and summer.

Embodiment two

As shown in Figure 5, second embodiment of clutch of the present invention and first embodiment's difference is: in the present embodiment, the number of concentrating flux plate 209 is 3, and 3 concentrating flux plates 209 are uniformly distributed at hoop about the axis of main shaft; 12 blocks of magnet 208 are divided into three parts, and every part has 4, and the magnet magnetic pole in every part is also staggered, and each several part is uniformly distributed (namely between each several part, leaving altogether three interval sections) about the axis of main shaft at hoop; Owing to adopting 3 concentrating flux plates 209, each concentrating flux plate 209 need to have two mounting points, therefore in the present embodiment, the annular sidewall of magnet fixed disc 205 is provided with 6 screw hole (not shown)s, wherein 3 screw holes are for installing under state in summer, and another three screw holes are for installing under state in the winter time.

As shown in Figure 5, under summer state, use screw 210 that fixing each concentrating flux plate 209 is installed, make each concentrating flux plate 209 lay respectively at the interval region position between three segment magnets, allow each concentrating flux plate not block each magnet, according to the working principle of describing in embodiment one, make fan fixed disk follow the rotation of main shaft and rotate the i.e. state of clutch in " closing " thereby known at this moment iron plate inserts can produce active force to magnet.

As shown in Figure 6, in the winter time under state, use screw 210 that fixing each concentrating flux plate 209 is installed, make each concentrating flux plate 209 block respectively each several part magnet, according to the working principle of describing in embodiment one, thereby the magnetic field that known at this moment each magnet produces can be shielded and make not interact between iron plate inserts and magnet by concentrating flux plate, clutch in " from " state.

Embodiment three

The 3rd embodiment of clutch of the present invention as shown in Figure 7, on main shaft 301, be connected with by key (key is not shown in the drawings) heat dissipation plate 302 of being made by die casting aluminium material, in the time that rotating, main shaft 301 drive heat dissipation plate 302 to rotate by key, on main shaft 301, also by bearing (bearing is not shown in the drawings), fan fixed disk 303 is installed, fan fixed disk 303 is positioned at the front of heat dissipation plate 302, and fan fixed disk 303 can be rotated around main shaft 301.In fan fixed disk 303, be installed with by bolt 304 magnet fixed disc 305 of being made by die casting aluminium material, so magnet fixed disc 305 can synchronously rotate around main shaft 301 together with fan fixed disk 303, magnet fixed disc 305 is positioned at front and the close heat dissipation plate 302 of heat dissipation plate 302.

As shown in Figure 8, in magnet fixed disc 305, be embedded with the magnet fixed disc inserts 307 of annular in the form of sheets of irony, magnet fixed disc inserts 307 and main shaft coaxial line.The magnet 308 that is also fixed with 12 coin shape on magnet fixed disc 305, every block of magnet 308 is all positioned at the rear side of magnet fixed disc inserts 307.Magnet just the same (referring to Fig. 3) in the distribution of these 12 blocks of magnet 308 and arrangement mode and embodiment one.

Referring to Fig. 7 and Fig. 8, the annular sidewall of heat dissipation plate 302 is provided with two screw holes (each up and down) simultaneously, and the concentrating flux plate 306 of two ironys is fixed on heat dissipation plate 302 by screw 310 separately.In the present embodiment, the structure of concentrating flux plate 306 is the same with the structure of concentrating flux plate in embodiment one.As shown in Figure 9, on the annular sidewall of magnet fixed disc 305, be also provided with two screw holes (each up and down), screw 310 can be utilized after the annular sidewall of heat dissipation plate 302 is pulled down screw hole on magnet fixed disc 305 annular sidewalls by fixing concentrating flux plate 306, the position in the annular sidewall screwing hole by design magnet fixed disc 305 can make to fix concentrating flux plate 306 latter two concentrating flux plates 306 and can block respectively each magnet.

Under summer state, concentrating flux plate 306 is installed as shown in Figure 8, use screw 310 that concentrating flux plate 306 is fixed on heat dissipation plate 302, now the state of clutch in " closing ".

In the winter time under state, concentrating flux plate 306 is installed as shown in Figure 9, use screw 310 that concentrating flux plate 306 is fixed on magnet fixed disc 305, at this moment concentrating flux plate 306 shielding magnetic fields, between heat dissipation plate 302 and magnet fixed disc 305, no longer include interaction force, therefore in the time that main shaft rotates, fan fixed disk is transfer no longer, now clutch in " from " state.

Embodiment four

As shown in figure 10, the 4th embodiment of clutch of the present invention and the 3rd embodiment's difference is: in heat dissipation plate 402, be provided with the groove identical with the arc board profile of concentrating flux plate 406, after concentrating flux plate 406 being fixed on heat dissipation plate 402 with screw 410 when state summer, the arc plate portion of concentrating flux plate 406 is positioned at this groove, be inlaid in heat dissipation plate 402, concentrating flux plate 306 effect is now equivalent to said soft iron in background technique.Compare like this embodiment three, can further save the cost of soft iron.

Embodiment five

As shown in figure 11, it is that from first embodiment's difference the mounting type of two concentrating flux plates is different to the 5th embodiment of clutch of the present invention.As shown in figure 13, two concentrating flux plates 509 in the present embodiment are welded on spirality bimetallic strip 510, and as shown in figure 14, it is formed by the bimetallic strip bending of strip the structure of spirality bimetallic strip 510, wherein layer of metal is positioned at inner side, and another layer of metal is positioned at outside.Spirality bimetallic strip 510, in the time that temperature changes, can twist because the deformation of inside and outside double layer of metal is different.On spirality bimetallic strip, there are three tie points for connecting, simultaneously referring to Figure 13 and Figure 14, interior end points on spirality bimetallic strip 510 is the first tie point 5101, the first tie point 5101 is welded on the front-end face of magnet fixed disc 505, outer end points on spirality bimetallic strip 510 is the second tie point 5102, one of them concentrating flux plate 509 is welded on the second tie point 5102, on the outer ring of spirality bimetallic strip 510, the point relative with the second tie point 5102 is the 3rd tie point 5103, be that angle between the line between central point and the 3rd tie point 5103 of spirality bimetallic strip 510 and the line between central point and the second tie point 5102 is 180 °, another concentrating flux plate 509 is welded on the 3rd tie point 5103.

Temperature is compared with low and during without radiating requirements, with identical in first embodiment, two concentrating flux plates 509 can block respectively each magnet, as shown in figure 15 in the winter time.This point is not difficult to realize to those skilled in the art, because can know the state of spirality bimetallic strip 510 under this temperature environment according to actual temperature environment, thereby can make them shelter from each magnet by the welding position of adjusting concentrating flux plate 509.

In the time that ambient temperature raises, the torsion of spirality bimetallic strip can drive concentrating flux plate 509 to rotate, so understanding some magnet is not stopped by concentrating flux plate, the magnetic field that they produce can interact with iron plate inserts, according to the working mechanism of describing in embodiment one, in known the present embodiment, in such cases in the time that main shaft rotates, magnet fixed disc and fan fixed disk also can be followed rotation.But due to now still some magnet blocked by concentrating flux plate, so that the magnet quantity that can work is compared total magnet number is few, at this moment the transfer speed of fan can be less.

In the time that ambient temperature is higher, can make spirality bimetallic strip further reverse, all magnet all do not become and are blocked by concentrating flux plate, as shown in figure 16, at this moment because the magnet number working is maximum, so the transfer speed of fan also reaches maximum.Visible, the present embodiment can change automatically according to ambient temperature the rotating speed of fan fixed disk, in the time that ambient temperature is lower, fan transfer speed is lower, in the time that ambient temperature is higher, fan transfer speed is higher, so the present embodiment has the ability of automatically adjusting output speed according to ambient temperature.

Further distortion and make concentrating flux plate can not block whole magnet of spirality bimetallic strip when preventing that temperature is too low, and further distortion and make concentrating flux plate shelter from magnet of spirality bimetallic strip when preventing that temperature is too high, as shown in figure 15, the annular sidewall of magnet fixed disc 505 is provided with 511, two spline pins 511 of two spline pins and is oppositely arranged on the annular sidewall of magnet fixed disc 505.Like this, each concentrating flux plate all can only rotate in the interval between two spline pins 511, can increase the adaptability of the present embodiment to ambient temperature and the functional reliability of the present embodiment.

As shown in figure 12, in the present embodiment, in order to reduce concentrating flux plate 509 at the resistance in the time that magnet fixed disc 505 rotates, on the annular sidewall of magnet fixed disc 505, be also provided with rolling element 512.Concrete quantity, the size and shape of rolling element 512 can be adjusted according to actual needs.

It is worth mentioning that, the spirality bimetallic strip in the embodiment of the present invention five can adopt spirality multiple layer metal thermal sensitive piece to replace, as long as suitably its coiling number of turns is increased and decreased or shape is made to adaptability design.In the present embodiment five, adopt spirality bimetallic strip more to save material and to improve intensity compared with the scheme of spirality multiple layer metal thermal sensitive piece, can also carry out compensatory to the radial displacement of spirality bimetallic strip simultaneously.

Embodiment six

Clutch of the present invention is the 6th embodiment be from the 5th embodiment's difference: the structure of the arrangement of magnet and magnetic conduction device is different.As shown in figure 17,12 blocks of magnet 608 in the present embodiment are divided into 6 pairs, every pair of magnet is uniformly distributed on magnet fixed disc 605, and the position of leaving pair of magnet between every pair of magnet is as interval section (in figure shown in dashed circle), and the magnetic pole of two magnet in every pair of magnet is staggered.

As shown in Figure 18 and Figure 19, the magnetic conduction device in the present embodiment comprises annular board 6091 and cylindrical part 6092, and cylindrical part 6092 one are connected to the outward edge of annular board 6091.Annular board 6091 is provided with 6091,6 magnetic penetrating holes 6091 of 6 magnetic penetrating holes and is uniformly distributed along hoop, and cylindrical part 6092 is provided with restraining groove 60921, and as shown in figure 17, on the annular sidewall of magnet fixed disc 605, corresponding restraining groove 60921 is provided with spline pin 611.Spline pin 611 is positioned at restraining groove 60921, and in the time that magnetic conduction device rotates, spline pin 611 can make magnetic conduction device only in certain angular range, rotate like this.

Magnetic conduction device in the present embodiment and embodiment's sample on May Day are connected on magnet fixed disc by essentially identical spirality bimetallic strip or spirality multiple layer metal thermal sensitive piece, only the magnetic conduction device in the present embodiment is an entirety, the amount of parts of the present embodiment still less, is manufactured and assembles simpler like this.

Under low temperature environment time, the annular board 6091 of magnetic conduction device blocks each magnet, thus the magnetic field of shielded magnet make clutch in " from " state; Under hot environment time, the annular board 6091 of magnetic conduction device rotates, and makes 6 magnetic penetrating holes 6091 respectively just to 6 pairs of magnet, at this moment no longer conductively-closed of the magnetic field of magnet, but extend to the position through soft iron by magnetic penetrating hole 6091, just state in " closing " of clutch like this.

Embodiment seven

As shown in figure 20, the 7th embodiment of clutch of the present invention and the 6th embodiment's difference is: magnet fixed disc 705 is affixed with main shaft 701, fan fixed disk 703 is arranged on main shaft 701 by bearing (not shown), and heat dissipation plate 702 is fixedly connected in fan fixed disk 703 by bolt 704.So just using magnet fixed disc 705 as driving link, and using heat dissipation plate 702 as driven member, just driving link and driven member have been done to exchange, according to previously described working principle, the present embodiment equally can be as embodiment six in the time of low temperature in " from ", in the time of high temperature in " closing ".

Apparently, thus those skilled in the art also can suitably be out of shape the driving link of embodiments of the invention seven and driven member and be applicable to embodiments of the invention one to five and realize the more embodiment of the present invention.

In aforesaid each embodiment, soft iron also can substitute with other any type of iron plate inserts.Distribution of magnets mode in each embodiment and magnetic conduction device are through suitably changing also all applicable to each other.For example, the distribution of magnets mode in embodiment one and concentrating flux plate can substitute with the distribution of magnets mode in embodiment six and magnetic conduction device.

In the aforesaid each embodiment of the present invention, just describe for the general environment of clutch operating temperature for the word in winter, summer, its should broad understanding be clutch of the present invention be operated in mutually more differentiable one compared with high ambient temperature or one the different operating temperature during compared with low ambient temperature environment.

Above-described embodiment is described the preferred embodiment of the present invention; not scope of the present invention is limited; design under the prerequisite of spirit not departing from the present invention; various distortion and improvement that those of ordinary skills make technological scheme of the present invention, all should fall in the definite protection domain of the claims in the present invention book.

Claims (16)

1. clutch, comprise can coaxial rotating inductive disks (102) and magnet (108), described inductive disks (102) has gap and can mutually drive with described magnet (108), the magnetic pole of described magnet (108) is arranged alternately on the face relative with described inductive disks (102), it is characterized in that: also comprise the adjustable shutter (109 in position being positioned between described inductive disks (102) and described magnet (108), 209, 306, 406, 509, 609), described shutter (109, 209, 306, 406, 509, 609) regulated and controled to change the electromagnetic force between described inductive disks (102) and described magnet (108), described inductive disks (102) and described magnet (108) differential are rotated.

2. clutch according to claim 1, is characterized in that, described shutter is concentrating flux plate (109,209,306,406,509,609).

3. clutch according to claim 1 and 2, is characterized in that, described shutter (109,209,306,406,509,609) is connected with spirality metal sheet (510) to complete described regulation and control.

4. according to the clutch described in right 3, it is characterized in that, described tinsel is bimetallic strip.

5. according to the clutch described in any one in claim 2 to 4, it is characterized in that, described concentrating flux plate (109) comprises arc board (1091) and the kink (1092) that one connects.

6. according to the clutch described in any one in claim 2 to 4, it is characterized in that, described concentrating flux plate (109,209,306,406,509,609) is provided with magnetic penetrating hole (60911).

7. according to the clutch described in claim 5 or 6, it is characterized in that, also comprise spline pin (511).

8. according to the clutch described in claim 5 or 6, it is characterized in that, also comprise rolling element (512).

9. according to the clutch described in claim 5 or 6, it is characterized in that, in described inductive disks (102,402), be provided with part and hold the groove of described concentrating flux plate (406).

10. clutch according to claim 1, it is characterized in that, described screening arrangement is concentrating flux plate (109), described inductive disks is heat dissipation plate (102), in described heat dissipation plate (102), be embedded with soft iron (106), also comprise magnet fixed disc (105), described concentrating flux plate (109) quantity is two, described concentrating flux plate comprises arc board (1091) and the kink (1092) that one connects, kink (1092) is connected to the front side of arc board (1091), arc board (1091) is positioned between described heat dissipation plate (102) and described magnet fixed disc (105), described kink (1092) is provided with the hole of passing for screw (110), the annular outer wall of described magnet fixed disc (105) is provided with four described holes, described four holes lay respectively at four positions up and down on described magnet fixed disc (105) annular outer wall.

11. clutches according to claim 1, it is characterized in that, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, in described heat dissipation plate, be embedded with soft iron, also comprise magnet fixed disc, described concentrating flux plate quantity is three, described concentrating flux plate comprises arc board and the kink that one connects, kink is connected to the front side of arc board, arc plate portion is positioned between described heat dissipation plate and described magnet fixed disc, described kink is provided with the hole of passing for screw, the annular outer wall of described magnet fixed disc is provided with six described holes, described concentrating flux plate distributes at hoop about the axis of described magnet fixed disc.

12. clutches according to claim 1, it is characterized in that, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, also comprise magnet fixed disc, in described magnet fixed disc, be embedded with inserts, described inserts and described magnet fixed disc coaxial line, described magnet is positioned at the annular sidewall of heat dissipation plate described in the rear side of described inserts and is provided with two screw holes, and described concentrating flux plate is fixed by screws on described heat dissipation plate.

13. clutches according to claim 1, it is characterized in that, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, also comprise magnet fixed disc, in described magnet fixed disc, be embedded with inserts, described inserts and described magnet fixed disc coaxial line, described magnet is positioned at the annular sidewall of heat dissipation plate described in the rear side of described inserts and is provided with two screw holes, described concentrating flux plate is fixed by screws on described heat dissipation plate, is provided with the groove identical with the arc board profile of concentrating flux plate in described heat dissipation plate.

14. clutches according to claim 1, it is characterized in that, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, also comprise magnet fixed disc, described concentrating flux plate is fixed on spirality metal sheet, on described spirality metal sheet, there are three tie points for connecting, interior end points on described spirality metal sheet is the first tie point, described the first tie point is fixed on the front-end face of described magnet fixed disc, outer end points on described spirality metal sheet is the second tie point, described in one of them, concentrating flux plate is fixed on described the second tie point, on the outer ring of described spirality metal sheet, the point relative with described the second tie point is the 3rd tie point, described in another, concentrating flux plate is fixed on described the 3rd tie point.

15. clutches according to claim 1, it is characterized in that, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, also comprise magnet fixed disc, described concentrating flux plate comprises annular board and cylindrical part, cylindrical part one is connected to the outward edge of annular board, annular board is provided with six magnetic penetrating holes, six magnetic penetrating holes are uniformly distributed along hoop, and cylindrical part is provided with restraining groove, and on the annular sidewall of described magnet fixed disc, corresponding restraining groove is provided with spline pin, spline pin is positioned at restraining groove, and spirality metal sheet is connected on magnet fixed disc.

16. clutches according to claim 1, it is characterized in that, described screening arrangement is concentrating flux plate, described inductive disks is heat dissipation plate, also comprise magnet fixed disc, described concentrating flux plate comprises annular board and cylindrical part, cylindrical part one is connected to the outward edge of annular board, annular board is provided with six magnetic penetrating holes, six magnetic penetrating holes distribute along hoop, cylindrical part is provided with restraining groove, on the annular sidewall of described magnet fixed disc, corresponding restraining groove is provided with spline pin, spline pin is positioned at restraining groove, spirality metal sheet is connected on magnet fixed disc, described magnet fixed disc is connected with main shaft, fan fixed disk is arranged on main shaft by bearing, described heat dissipation plate is bolted to connection in fan fixed disk.

Images