CN216734648U - Integrated double centrifugal clutch assembly and automatic speed change hub applying same - Google Patents

Abstract

The utility model discloses a double centrifugation clutch assembly integrates and uses its automatic speed change flower-drum, it relates to the speed change gear field. Its technical scheme main points include first separation and reunion inner circle portion and second separation and reunion inner circle portion, first separation and reunion inner circle portion forms integrated inner circle through fixed connection or integrated into one piece with second separation and reunion inner circle portion, integrated inner circle lateral wall is provided with integrated into one piece's fixed plate, be provided with first centrifugal flail piece and the centrifugal flail piece of second on the fixed plate respectively. The utility model discloses can reduce part quantity and assembly process, reduction in production cost and detection cost improve reliability and stability, can also simplify the structure simultaneously, optimize the size, utilize output speed to realize the three automatic switch-over that keeps off the position moreover to can further improve and ride and experience.

Description

Integrated double centrifugal clutch assembly and automatic speed change hub applying same

Technical Field

The utility model relates to a speed change gear field, more specifically say, it relates to an automatic speed change flower-drum that integrates dual centrifugal clutch subassembly and use it.

Background

A typical internal speed change mechanism utilizes centrifugal force to realize automatic speed change, and when a certain step frequency speed is reached, the centrifugal block is thrown away to realize automatic upshift, and when the step frequency speed is reduced below a speed change point, the centrifugal block is contracted to realize automatic downshift, as shown in chinese patent No. CN 208882034U.

However, with a vehicle employing the above-described transmission mechanism, if the rider does not want to step on the vehicle at a high speed (greater than the shift point) or does not need to step on the vehicle on a downhill, the transmission mechanism is automatically downshifted due to a reduction in the rider's stepping speed; when the vehicle is still kept at a high speed (greater than the speed change point) after the vehicle slides for a certain distance, the rider needs to make the pedaling speed reach the speed change point within a short time after pedaling again so as to automatically upshift the speed change mechanism. In this case, the automatic downshift of the speed change mechanism can affect the riding experience, and the increase of the gear shifting frequency easily causes the fault of the speed change mechanism and affects the service life of the speed change mechanism.

Chinese patent publication No. CN113007295A discloses a transmission mechanism for automatically shifting gears by using output speed, which uses output speed to automatically shift gears.

However, the speed change mechanism in the above patent has only two gears, and the riding experience after the speed change mechanism is mounted on a vehicle still needs to be improved. When the gear of the speed changing mechanism is increased, the problems of complex assembly, high cost, influence on reliability and the like caused by the large number of parts need to be considered.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, one of the purposes of the utility model is to provide an integrate double centrifugal clutch subassembly, it can reduce part quantity and assembly process, reduction in production cost and detection cost improve reliability and stability, can also simplify the structure simultaneously, optimizes the size.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides an integrate dual centrifugal clutch subassembly, includes first separation and reunion inner lane portion and second separation and reunion inner lane portion, first separation and reunion inner lane portion forms integrated inner circle through fixed connection or integrated into one piece with second separation and reunion inner lane portion.

Furthermore, the outer side wall of the integrated inner ring is provided with an integrally formed fixing plate, and a first centrifugal throwing block and a second centrifugal throwing block are respectively arranged on the fixing plate.

Furthermore, the fixing plate is provided with a notch, so that the fixing plate comprises four fixing support plates; the two opposite fixed support plates are respectively provided with the first centrifugal throwing blocks, and the other two opposite fixed support plates are respectively provided with the second centrifugal throwing blocks.

Further, a first driving plate matched with the first centrifugal throwing block is sleeved on the outer side wall of the first clutch inner ring portion; the outer side wall of the first clutch inner ring part is provided with a limiting step matched with the first drive plate, and a limiting clamp spring is sleeved on the outer side wall of the first clutch inner ring part; the limiting clamp spring is matched with the limiting step to achieve axial limiting of the first driving plate.

Further, first separation and reunion inner circle portion lateral wall inlays and is equipped with first separation and reunion driving piece, be provided with on the spacing jump ring with first separation and reunion driving piece complex bulge of stepping down.

Furthermore, the integrated inner ring is integrally formed, and a weight reduction groove located between the first clutch inner ring portion and the second clutch inner ring portion is formed in the outer side wall of the integrated inner ring.

Further, integrate dual centrifugal clutch subassembly and still include first separation and reunion buffer frame, first separation and reunion outer lane, second separation and reunion driving piece, second drive plate, second separation and reunion buffer frame and second separation and reunion outer lane.

Another object of the utility model is to provide an automatic speed change hub, it utilizes output speed to realize the three automatic switch-over that keeps off the position to can further improve ride experience.

In order to achieve the above purpose, the utility model provides a following technical scheme:

an automatic speed changing hub comprises a hub barrel, wherein a first planetary gear assembly, a second planetary gear assembly and the integrated dual centrifugal clutch assembly are respectively arranged in the hub barrel, and the integrated dual centrifugal clutch assembly is positioned between the first planetary gear assembly and the second planetary gear assembly;

a fastener connected with the inner end face of the drum barrel is arranged on the fixing plate in a penetrating way;

the first planetary gear assembly comprises a first planet carrier, a first-gear clutch assembly is arranged between the first planet carrier and the drum barrel, and a first planet gear meshed with a first clutch outer ring is arranged on the first planet carrier;

the second planetary gear assembly comprises a second planet carrier, a transmission shaft sleeve is arranged between the second planet carrier and the first planet carrier, and a second planet wheel meshed with the second clutch outer ring is arranged on the second planet carrier.

Further, the fixed plate is located between the first clutch outer ring and the first centrifugal thrower.

Furthermore, the automatic speed changing hub further comprises a main shaft, and a first sun gear meshed with the first planet gear and a second sun gear meshed with the second planet gear are respectively arranged on the main shaft; and a speed measuring assembly is arranged between the second sun gear and the second planet carrier.

To sum up, the utility model discloses following beneficial effect has:

1. the integrated inner ring is integrally formed, so that the number of parts and assembly processes can be reduced, the production cost and the detection cost are reduced, the reliability and the stability are improved, the structure can be simplified, and the size can be optimized;

2. the structure is compact, the layout is reasonable, the axial size and the radial size of the automatic speed changing hub can be effectively controlled, and the volume is reduced;

3. the output speed of the power output unit is adopted to control the centrifugal driving assembly, riding experience can be improved, gear shifting frequency is reduced, and the service life of the automatic speed changing hub is prolonged.

Drawings

FIG. 1 is a cross-sectional view of an integrated dual centrifugal force combiner assembly according to example 1;

FIG. 2 is a first schematic view of an integrated dual centrifugal force combining assembly according to embodiment 1;

FIG. 3 is a schematic structural diagram of an integrated dual centrifugal force combiner assembly according to example 1;

FIG. 4 is a schematic view of the structure of an integrated inner ring in embodiment 1;

fig. 5 is a schematic structural view of an automatic transmission hub according to embodiment 2.

In the figure: 1. integrating the inner ring; 11. a first clutch inner ring portion; 12. a second clutch inner ring portion; 13. a fixing plate; 14. a weight reduction groove; 21. a first clutch driving member; 22. a first buffer frame; 23. a first clutch outer; 31. a second clutch driving member; 32. a second buffer frame; 33. a second clutch outer ring; 41. a first centrifugal throw block; 42. a first drive plate; 51. a second centrifugal throw block; 52. a second drive plate; 6. a limiting clamp spring; 61. a abdication convex part; 7. a main shaft; 81. a first carrier; 82. a first planet gear; 83. a first sun gear; 84. a first gear clutch assembly; 85. a driving shaft sleeve; 86. a second planet carrier; 87. a second sun gear; 88. a second planet wheel; 89. a toothed sheet; 9. a drum barrel; 91. and (5) fixing the bolt.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Example 1:

an integrated dual centrifugal clutch assembly, referring to fig. 1 to 4, comprises a first clutch inner ring portion 11 and a second clutch inner ring portion 12, wherein the first clutch inner ring portion 11 and the second clutch inner ring portion 12 are fixedly connected or integrally formed to form an integrated inner ring 1; preferably, the integrated inner ring 1 in the present embodiment is integrally formed, so that the number of parts and the assembly process can be reduced, the production cost and the detection cost can be reduced, the reliability and the stability of the work can be improved, and the structure can be simplified and the size can be optimized, for example, the axial size can be reduced; of course, in other alternative embodiments, the first clutch inner ring portion 11 and the second clutch inner ring portion 12 may also be fixedly connected as a whole by welding, bolting, or snapping, which is not limited herein.

Referring to fig. 1 to 4, in particular, in the present embodiment, an integrally formed fixing plate 13 is disposed on an outer side wall of the integrated inner ring 1, and a first centrifugal throw block 41 and a second centrifugal throw block 51 are respectively disposed on the fixing plate 13; in the embodiment, the integrated inner ring 1 is an integrally formed structure, so that the first centrifugal throw block 41 and the second centrifugal throw block 51 can be arranged on the fixing plate 13, thereby simplifying the structure; specifically, in this embodiment, the fixing plate 13 is provided with four notches, so that the fixing plate 13 includes four fixing support plates; two opposite fixed support plates are respectively provided with a first centrifugal throwing block 41, and the other two opposite fixed support plates are respectively provided with a second centrifugal throwing block 51; the fixing plate 13 is provided with a notch, so that the weight and the processing cost of the integrated inner ring 1 can be reduced.

Referring to fig. 1 to 4, specifically, a first driving plate 42 matched with a first centrifugal swing block 41 is sleeved on an outer side wall of the first clutch inner ring portion 11; the outer side wall of the first clutch inner ring portion 11 is provided with a limiting step matched with the first driving plate 42, and the outer side wall of the first clutch inner ring portion 11 is sleeved with a limiting clamp spring 6; the limiting clamp spring 6 is matched with the limiting step to realize axial limiting on the first drive plate 42; specifically, a first clutch driving piece 21 is embedded in the outer side wall of the first clutch inner ring portion 11, a yielding convex portion 61 matched with the first clutch driving piece 21 is arranged on the limiting clamp spring 6, and the first clutch driving piece 21 can be smoothly bounced up due to the arrangement of the yielding convex portion 61; in this embodiment, a connection structure between the first centrifugal thrower 41 and the fixing plate 13, a connection structure between the first centrifugal thrower 41 and the first driving plate 42, and a connection structure between the first driving plate 42 and the first clutch driving member 21 all belong to the prior art, and are not described herein again.

Referring to fig. 1 to 4, in the embodiment, the outer side wall of the integrated inner ring 1 is provided with lightening grooves 14 between the first clutch inner ring part 11 and the second clutch inner ring part 12, and the lightening grooves 14 can reduce the weight and the processing cost of the integrated inner ring 1; specifically, the first centrifugal thrower 41 and the second centrifugal thrower 51 are located between the first clutch inner ring portion 11 and the second clutch inner ring portion 12, the first centrifugal thrower 41 and the second centrifugal thrower 51 are opposite to the weight-reduction groove 14, and the width of the weight-reduction groove 14 is smaller than the width of the first centrifugal thrower 41 and the second centrifugal thrower 51, so that the first centrifugal thrower 41 and the second centrifugal thrower 51 can contact with the outer sidewall of the integrated inner ring 1 in the contracted state.

Referring to fig. 1 to 4, the integrated dual centrifugal clutch assembly of the present embodiment further includes a first buffer frame 22, a first clutch outer 23, a second clutch driving member 31, a second driving plate 52, a second buffer frame 32, and a second clutch outer 33; the connection structure of the first clutch inner ring portion 11, the first clutch driving member 21, the first buffer frame 22 and the first clutch outer ring 23 belongs to the prior art, and is not described herein again.

Example 2:

an automatic speed changing hub, referring to fig. 1 to 5, comprises a hub 9, wherein a first planetary gear assembly, a second planetary gear assembly and the integrated dual centrifugal clutch assembly of embodiment 1 are respectively arranged in the hub 9, and the integrated dual centrifugal clutch assembly is positioned between the first planetary gear assembly and the second planetary gear assembly; in this embodiment, a fastening member connected to the inner end surface of the drum barrel 9 is inserted into the fixing plate 13, specifically, the fastening member is a fixing bolt 91 in this embodiment; the first planetary gear assembly in the embodiment comprises a first planet carrier 81, a first-gear clutch assembly 84 is arranged between the first planet carrier 81 and the drum barrel 9, and a first planet gear 82 meshed with the first clutch outer ring 23 is arranged on the first planet carrier 81; the second planetary gear assembly comprises a second planet carrier 86, a transmission shaft sleeve 85 is arranged between the second planet carrier 86 and the first planet carrier 81, and a second planet wheel 88 meshed with the second clutch outer ring 33 is arranged on the second planet carrier 86; set up two sets of planetary gear assembly and form three fender position in this embodiment, and realize three automatic switch-over who keeps off the position according to power take off unit's rotational speed to can further improve and ride experience.

Referring to fig. 2 and 5, in particular, in the present embodiment, the fixing plate 13 is located between the first clutch outer 23 and the first centrifugal thrower 41, so that the structure of the drum barrel 9 can be simplified and the installation is convenient.

Referring to fig. 5, specifically, in the present embodiment, a tooth plate 89 for receiving a pedaling input rotation speed is disposed on the first planet carrier 81, and the first planet carrier 81 is connected to the second planet carrier 86 through a transmission shaft sleeve 85, so that the rotation speeds of the tooth plate 89, the first planet carrier 81, the transmission shaft sleeve 85 and the second planet carrier 86 are the same and are all the pedaling input rotation speeds; in the embodiment, the first planet carrier 81 and the transmission shaft sleeve 85, and the second planet carrier 86 and the transmission shaft sleeve 85 are in spline fit to realize circumferential linkage, so that the assembly is convenient; in other alternative embodiments, the driving sleeve 85 may be integrally formed with the first planet carrier 81 or the second planet carrier 86, and is not limited herein.

Referring to fig. 5, the automatic speed changing hub of the present embodiment further includes a main shaft 7, and the main shaft 7 is provided with a first sun gear 83 engaged with the first planet gear 82 and a second sun gear 87 engaged with the second planet gear 88; specifically, in the present embodiment, the first sun gear 83 is integrally formed with the main shaft 7, and the second sun gear 87 is fixed to the main shaft 7 by key-way engagement.

Referring to fig. 5, in the present embodiment, bearings are disposed between the first planet carrier 81 and the main shaft 7, between the drum 9 and the first planet carrier 81, between the drum 9 and the first clutch outer 23, between the drum 9 and the second planet carrier 86, between the drum 9 and the second clutch outer 33, and between the second sun gear 87 and the second planet carrier 86; in other alternative embodiments, the position and number of the bearings may be adjusted as needed, and are not limited herein.

Referring to fig. 5, in the present embodiment, a speed measuring assembly (not shown in the drawings) for detecting the pedal input speed is disposed in the automatic transmission hub, and specifically, the speed measuring assembly is used for detecting the rotation speed of the second planet carrier 86; in this embodiment, the speed measuring assembly includes a hall sensing assembly disposed on the second sun gear 87, and a magnetic ring disposed on the second planet carrier 86 and matched with the hall sensing assembly, and the hall sensing assembly is connected with a wire harness; in this embodiment, the rotation speed of the second planet carrier 86 is detected, so that on one hand, the speed measurement component is convenient to arrange, and on the other hand, the wire harness is convenient to lead out after penetrating through the main shaft 7; adopt in this embodiment to detect pedal input speed through the subassembly that tests the speed, be convenient for ride passerby and know the state of riding, improve the experience of riding.

The working principle is as follows:

the rotating speed of the pedal power is transmitted to the tooth plate 89, the tooth plate 89 drives the first planet carrier 81 and the second planet carrier 86 to rotate, the first sun gear 83 and the second sun gear 87 are fixed, the first planet carrier 81 drives the first clutch outer ring 23 to rotate through the first planet gear 82, the second planet carrier 86 drives the second clutch outer ring 33 to rotate through the second planet gear 88, and the rotating speed of the first clutch outer ring 23 is greater than that of the first planet carrier 81, while the rotating speed of the second clutch outer ring 33 is greater than that of the first clutch outer ring 23.

When the first gear is shifted: the first centrifugal throw block 41 and the second centrifugal throw block 51 are both in a contraction state, and the rotating speeds of the first clutch outer ring 23 and the second clutch outer ring 33 cannot be transmitted to the drum barrel 9; at this time, the first planet carrier 81 drives the drum barrel 9 to rotate through the first gear clutch assembly 84, so as to realize power output.

And when the second gear is on: after the rotation speed of the drum barrel 9 reaches the second gear shift point, the first centrifugal throwing block 41 rotates to a throwing state under the action of centrifugal force, and then the rotation speed of the first clutch outer ring 23 is transmitted to the drum barrel 9, so that power output is realized; at this time, the rotation speed of the drum barrel 9 is greater than that of the first planet carrier 81, and the first gear clutch assembly 84 is in an overrunning state; while the second centrifugal thrower 51 is still in the retracted state.

In the third gear: after the rotation speed of the drum barrel 9 reaches the three-gear speed change point, the second centrifugal throw block 51 rotates to a throw-away state under the action of centrifugal force, and the rotation speed of the second clutch outer ring 33 is transmitted to the drum barrel 9 to realize power output; at this time, the rotation speed of the drum barrel 9 is greater than the rotation speed of the first planet carrier 81 and the first clutch outer 23, the first clutch assembly 84 is in an overrunning state, and the first clutch inner ring portion 11, the first clutch driving member 21 and the first buffer frame 22 are also in the overrunning state.

The output speed of the power output unit is adopted to control the centrifugal driving assembly, riding experience can be improved, gear shifting frequency is reduced, and the service life of the automatic speed changing hub is prolonged.

Claims (10)

1. The utility model provides an integrate dual centrifugal clutch subassembly which characterized in that: the clutch inner ring comprises a first clutch inner ring portion and a second clutch inner ring portion, wherein the first clutch inner ring portion and the second clutch inner ring portion are fixedly connected or integrally formed to form an integrated inner ring.

2. The integrated dual centrifugal clutch assembly of claim 1, wherein: the outer side wall of the integrated inner ring is provided with an integrally formed fixing plate, and a first centrifugal throwing block and a second centrifugal throwing block are respectively arranged on the fixing plate.

3. The integrated dual centrifugal clutch assembly of claim 2, wherein: the fixed plate is provided with a notch, so that the fixed plate comprises four fixed support plates; the two opposite fixed support plates are respectively provided with the first centrifugal throwing blocks, and the other two opposite fixed support plates are respectively provided with the second centrifugal throwing blocks.

4. The integrated dual centrifugal clutch assembly of claim 2, wherein: the outer side wall of the first clutch inner ring part is sleeved with a first driving plate matched with the first centrifugal throwing block; the outer side wall of the first clutch inner ring part is provided with a limiting step matched with the first drive plate, and a limiting clamp spring is sleeved on the outer side wall of the first clutch inner ring part; the limiting clamp spring is matched with the limiting step to achieve axial limiting of the first driving plate.

5. The integrated dual centrifugal clutch assembly of claim 4, wherein: the outer side wall of the first clutch inner ring portion is embedded with a first clutch driving piece, and a limiting clamp spring is provided with a yielding protruding portion matched with the first clutch driving piece.

6. The integrated dual centrifugal clutch assembly of claim 1, wherein: the integrated inner ring is integrally formed, and a weight reduction groove located between the first clutch inner ring portion and the second clutch inner ring portion is formed in the outer side wall of the integrated inner ring.

7. The integrated dual centrifugal clutch assembly of claim 5, wherein: integrate dual centrifugal clutch subassembly and still include first separation and reunion buffer, first separation and reunion outer lane, second separation and reunion driving piece, second drive plate, second separation and reunion buffer and second separation and reunion outer lane.

8. An automatic speed changing hub, characterized in that: the hub comprises a hub barrel, wherein a first planetary gear assembly, a second planetary gear assembly and the integrated dual centrifugal clutch assembly in claim 7 are respectively arranged in the hub barrel, and the integrated dual centrifugal clutch assembly is positioned between the first planetary gear assembly and the second planetary gear assembly;

a fastener connected with the inner end face of the drum barrel is arranged on the fixing plate in a penetrating way;

the first planetary gear assembly comprises a first planet carrier, a first-gear clutch assembly is arranged between the first planet carrier and the drum barrel, and a first planet gear meshed with a first clutch outer ring is arranged on the first planet carrier;

the second planetary gear assembly comprises a second planet carrier, a transmission shaft sleeve is arranged between the second planet carrier and the first planet carrier, and a second planet wheel meshed with the second clutch outer ring is arranged on the second planet carrier.

9. The automatic transmission hub as claimed in claim 8, wherein: the fixed plate is positioned between the first clutch outer ring and the first centrifugal throw block.

10. The automatic transmission hub as claimed in claim 8, wherein: the automatic speed changing hub further comprises a main shaft, and a first sun gear meshed with the first planet gear and a second sun gear meshed with the second planet gear are respectively arranged on the main shaft; and a speed measuring component is arranged between the second sun gear and the second planet carrier.

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