CN203158189U - Operating device for bicycle - Google Patents

Abstract

The utility model provides an operation device for a bicycle, which enables a first claw to be broken away from a ratchet more easily. The operation device for the bicycle comprises a base component (12) with a first shaft (12a) and a second shaft (12b), a ratchet wheel (14), a relieving rod (16) and a first claw component (18), wherein the ratchet wheel (14) is provided with a plurality of ratchets (14a); the ratchet wheel can be arranged on the first shaft (12a) in a rotating manner in a first rotating direction (R1) or a second rotating direction (R2) which is opposite to the first rotating direction (R1); the relieving rod (16) is provided with a third shaft (16d) and can be arranged on a second shaft (12b) waveringly in the operating direction; the first claw component (18) is provided with a first claw (18a) meshed with one of the ratchets (14a) to control the ratchet wheel (14) to rotate in the first rotating direction (R1); the first claw component (18) can be arranged on the third shaft (16d) in a rotating manner in a first non-controlling direction (A1) and a second non-controlling direction opposite to the first non-controlling direction from which the first claw breaks away from the ratchet (14a); and the first component (18) rotates with the relieving rod (16) in the operating direction, and rotates in the first non-controlling direction (A1).

Description

The handling device that is used for bicycle

Technical field

The utility model is about a kind of handling device, particularly is used for the handling device that is used for bicycle of the part of bicycle about operation.

Background technology

The handling device that is used for bicycle of the transmission system of existing operation bicycle makes the ratchet rotation with a plurality of ratchets via operating unit.Existing handling device for bicycle has base component, free joltily is installed in operating unit on the base component, is located at ratchet on the base component and coaxial and be located at tine on the base component freely to rotate with operating unit with rotating freely.Base component has first that ratchet is set, free setting operation parts joltily second with rotating freely, and the 3rd (for example with reference to Japanese kokai publication hei 10-194187 communique) of tine is set freely to rotate.

Operating unit shakes between position and the operating position in the early stage, and forces in the primary position side via force application part.Ratchet has a plurality of ratchets, and can be located on the base component rotatably at first hand of rotation and second hand of rotation opposite with first hand of rotation around first.Ratchet is biased parts and forces in first hand of rotation.Tine rotatably is located on the 3rd of base component.Tine has ratchet is positioned in a plurality of position of rotation any one first pawl and prevents second pawl that ratchet rotates at first hand of rotation always.Via shaking of operating unit, can rotate to first engage position that first pawl is engaged in ratchet, and second pawl be engaged in second engage position of ratchet.

Existing handling device for bicycle forces in ratchet via force application part first hand of rotation.The handling device that requires to be used for bicycle makes the easier ratchet disengaging from so being biased of first pawl.

Summary of the invention

The purpose of this utility model is for providing a kind of handling device for bicycle, makes that first pawl is easier to break away from from ratchet.

The handling device that is used for bicycle of scheme 1 possesses: base component, and it has first and second; Ratchet; Operating unit; And first tine.Ratchet has a plurality of ratchets.Ratchet can be located at first rotatably at first hand of rotation and second hand of rotation opposite with first hand of rotation.Operating unit has the 3rd, and can joltily be located at second at direction of operating.First tine has first pawl, and it is engaged in a plurality of ratchets one for the control ratchet to first hand of rotation rotation.The first non-control direction that first tine can leave from ratchet at first pawl and the first control direction opposite with the first non-control direction joltily are located at the 3rd.The first tine attended operation parts shake and shake in the first non-control direction to direction of operating.

The handling device that should be used for bicycle be via can joltily being located at first tine the 3rd of operating unit, the 3rd shaking of attended operation parts and being displaced into around second, and near first of base component.Thus, when first tine shook in the first non-control direction, first pawl was displaced into the direction of easy disengaging to ratchet, and first pawl is easier to break away from from ratchet.

The handling device that is used for bicycle in the scheme 2, as the handling device that is used for bicycle of scheme 1, wherein the 3rd is shaken to direction of operating with the attended operation parts, and arranges near first mode of base component.

Under this situation, first tine via the operation of operating unit when the first non-control direction is shaken owing to be displaced into around second in the 3rd nearly first mode that is coupling, therefore first pawl direction that ratchet is tilted and breaks away from easily.Thus, the easier ratchet from ratchet of first pawl breaks away from.

The handling device that is used for bicycle in the scheme 3, as the handling device that is used for bicycle of scheme 2, wherein the 3rd is disposed at than second near first side.

Under this situation, during the operating operation parts, need only the 3rd be coupling nearly first with second online and dispose, the 3rd namely near first.

The handling device that is used for bicycle in the scheme 4, the handling device that is used for bicycle as scheme 1 wherein further possesses second tine.Second tine has second pawl, and it is for the control ratchet rotates to first hand of rotation, and is engaged in a plurality of ratchets one.The second non-control direction that second tine can leave from ratchet at second pawl and the second control direction opposite with the second non-control direction joltily are located at the 4th.The second tine attended operation parts shake to direction of operating, and shake in the second control direction.

Under this situation, during the operating operation parts, be displaced into the second control direction via second tine, second pawl is engaged in ratchet, even first tine shakes in the first non-control direction, secondly first tine still can make ratchet (for example next ratchet of the ratchet of engagement before the first non-control direction is shaken) engagement of first pawl and hope when the first control direction is shaken.In other words, can prevent really that ratchet from rotating always.

The handling device that is used for bicycle of scheme 5, the handling device that is used for bicycle as scheme 4 wherein the 4th is located in operating unit.

Under this situation, than being located in the base component situation when dwindling base component with the 4th, can be used in the handling device small and exquisite (compact) of bicycle.

The handling device that is used for bicycle of scheme 6, as the handling device that is used for bicycle of scheme 5, wherein the 4th is shaken and arranges near first mode of base component to direction of operating with the attended operation parts.

Under this situation, can around the 4th of operating unit, joltily arrange via second tine, the 4th shaking of attended operation parts and being displaced into around second, and near first of base component.Thus, the operation of the second tine attended operation parts and when the second control direction is shaken, second pawl favours the direction of easy engagement to ratchet, makes second pawl be engaged in the ratchet of ratchet easily.

The handling device that is used for bicycle of scheme 7, as the handling device that is used for bicycle of scheme 6, wherein the 3rd is disposed at than the 4th near first side.

Under this situation, the radius that shakes of first tine diminishes, because the posture of first pawl changes the therefore easier disengaging of first pawl because first tine shakes namely a little.

The handling device that is used for bicycle of scheme 8, the handling device that is used for bicycle as scheme 4, wherein further possesses first force application part, it is to force in first tine first control direction, and second tine is forced in the mode of the aforementioned second control direction, and be connected in first tine and second tine.

Under this situation, can first tine and second tine be forced in the control direction respectively via first force application part.

The handling device that is used for bicycle of scheme 9, the handling device that is used for bicycle as scheme 8, wherein operating unit further has first press section, and it shakes and press first tine in the mode that the first non-control direction is shaken to direction of operating with the first tine attended operation parts.

Under this situation, can make the first tine attended operation parts that force in the first control direction via first force application part shake and shake in the first non-control direction to direction of operating.

The handling device that is used for bicycle of scheme 10, the handling device that is used for bicycle as scheme 8, wherein operating unit further has second press section, and it shakes and press second tine in the mode that the second non-control direction is shaken to the opposite sense of direction of operating with the second tine attended operation parts.

Under this situation, can make second tine that forces in the second control direction via first force application part, the attended operation parts shake and shake in the second non-control direction to the opposite sense of direction of operating.

The handling device that is used for bicycle of scheme 11, the handling device that is used for bicycle as scheme 8, wherein operating unit further has: first press section, and it presses first tine to shaking of direction of operating in the mode that the first non-control direction is shaken with the first tine attended operation parts; And second press section, it presses second tine to rightabout the shaking of direction of operating in the mode that the second non-control direction is shaken with the second tine attended operation parts.First press section and second press section constitute via same parts.

Under this situation, the attended operation parts shake to the rightabout of direction of operating and direction of operating, can one parts carry out first tine to the pressing of the first non-control direction, and second tine pressing to the second non-control direction.

The handling device that is used for bicycle of scheme 12, the handling device that is used for bicycle as scheme 1, wherein operating unit further has the press section, and it presses first tine to shaking of direction of operating from the mode that ratchet leaves with the first tine attended operation parts.

Under this situation, make operating unit when direction of operating shakes, first pawl is left from ratchet.

The handling device that is used for bicycle of scheme 13, as the handling device that is used for bicycle of scheme 1, wherein operating unit is arranged in the early stage the position and is shaken between the operating position that direction of operating shakes from primary position.

Under this situation, because operating unit shakes between position and the operating position in the early stage, therefore shake processing ease.

The handling device that is used for bicycle of scheme 14, the handling device that is used for bicycle as scheme 13 wherein further possesses second force application part, its with operating unit towards the primary position application of force.

Under this situation, after operating position is operated, return primary position owing to remove the operating unit of the operation of operating unit, therefore do not need to return the operation of primary position.

The handling device that is used for bicycle of scheme 15, as the handling device that is used for bicycle of scheme 1, wherein first and second arranges abreast.

Under this situation, operating unit and ratchet are disposed on the base component easily.

The handling device that is used for bicycle of scheme 16, as the handling device that is used for bicycle of scheme 15, wherein the 3rd and first and second arranges abreast.

Under this situation, respectively easily with operating unit and ratchet arrangement in base component, first tine is disposed at operating unit.

The handling device that is used for bicycle of scheme 17, as the handling device that is used for bicycle of scheme 5, wherein first, second, the 3rd and the 4th arranges in parallel to each other.

Under this situation, easily ratchet, operating unit are disposed at base component respectively, first tine and second tine are disposed at operating unit.

During according to the utility model, the easier ratchet from ratchet of first pawl breaks away from.

Description of drawings

The operating unit of the handling device that is used for bicycle of a kind of embodiment of Fig. 1 the utility model is the plan sketch the during position in the early stage.

Fig. 2 is used for the plan sketch of operating unit when operating position of the handling device of bicycle.

Fig. 3 is used for the front schematic view of the handling device of bicycle.

Wherein, description of reference numerals is as follows:

10 handling device

12 base components

First of 12a

Second of 12b

The 12c location division

The 12d first spring hook portion

14 ratchets

The 14a ratchet

16 relieving rods

The 16a operating portion

16b configuration portion

The 16c second spring hook portion

The 3rd of 16d

The 4th of 16e

The 16f press section

18 first tines

18a first pawl

The 18b first end

18c the 3rd spring hook portion

The 18d the second end

The 18e first supported portion

The 18f locator protrusions

20 second tines

20a second pawl

The 20b first end

20c the 4th spring hook portion

The 20d the second end

The 20e second supported portion

22 first force application parts

24 second force application parts

The A1 first non-control direction

The A2 second non-control direction

The P direction of operating

R1 first hand of rotation

R2 second hand of rotation

The S1 first control direction

The S2 second control direction

The specific embodiment

Among Fig. 1, Fig. 2 and Fig. 3, be the handling device (hereinafter referred to as handling device) 10 that is used for bicycle of a kind of embodiment of the utility model, for example carry out the device of the transmission system variable speed operation that is used for bicycle as shown in the figure.Handling device 10 for example can be connected with the transmission system that is used for bicycle via as shown in the figure speed change wirerope.

Handling device 10 possesses base component 12, ratchet 14, relieving rod (release lever) 16 and first tine 18.In addition, handling device 10 also possesses second tine 20, first force application part 22 and second force application part 24.Moreover, handling device 10 possess coiling bar (take-up lever) that figure do not indicate, with the wirerope coiling body of can reel the 3rd force application part and speed change wirerope.Relieving rod 16 is examples of operating unit.Handling device 10 is via the operation of coiling bar, and the transmission system that can be used in bicycle is gear stage upgrade (or lowering category) one by one for example.In addition, via the operation of relieving rod 16, can be with the transmission system that is used for bicycle gear stage lower category (or upgrading) one by one for example.

Coiling bar, the 3rd force application part and wirerope coiling body for example are the same formation of the existing mobile jib (main lever), coiling portion and the spring that disclose with aforementioned Japanese kokai publication hei 10-194187 communique, omit explanation herein.In addition, each one of handling device 10 be accommodated in be located at base component 12 the casing (not shown) in, the leading section of relieving rod 16 and coiling bar extends outside the casing in casing.

Base component:

Base component 12 has first 12a and leaves second 12b of configuration with first 12a.Base component 12 have with relieving rod 16 be positioned primary position described later location division 12c, and be used for the first spring hook 12d of portion of an end of hook second force application part 24.Second 12b and first 12a be arranged in parallel.

Ratchet:

Ratchet 14 can be located at first 12a rotatably at the first hand of rotation R1 and the second hand of rotation R2.Ratchet 14 forces in the first hand of rotation R1 via the 3rd force application part (not shown).The 3rd force application part for example uses spring arbitrarily such as helical torsional spring.In addition, ratchet 14 is via the operation of coiling bar, and in second hand of rotation R2 gear stage rotation one by one.But ratchet 14 one connect the wirerope coiling body rotatably.Ratchet 14 has a plurality of (for example 32) ratchet 14a.A plurality of ratchet 14a for example uniformly-spaced or unequal interval be located at the peripheral part of ratchet 14.Present embodiment is that a plurality of ratchet 14a equally spaced are set.

Relieving rod:

Relieving rod 16 can joltily be located at second 12b at direction of operating P shown in Figure 1.Relieving rod 16 can joltily arrange between primary position shown in Figure 1 and operating position shown in Figure 2.Relieving rod 16 is forced in the primary position side by second force application part 24, and is positioned primary position via contacting with location division 12c.Relieving rod 16 has be used to the operating portion 16a that shakes operation; And leave configuration from operating portion 16a, be used for the 16b of configuration portion of configuration first tine 18 and second tine 20.Relieving rod 16 further has the second spring hook 16c of portion that is located at operating portion 16a, the 3rd 16d that is located at the 16b of configuration portion, the 4th 16e, and press section 16f.The second spring hook 16c of portion goes up the other end of hook second force application part 24.

Freedom joltily arranges first tine 18 on the 3rd 16d.The 3rd 16d is disposed at than second 12b near first 12a side.The 3rd 16d is arranged to follow relieving rod 16 to the shaking of direction of operating P, and near first 12a of base component 12.The 4th 16e is arranged to follow relieving rod 16 to the shaking of direction of operating P, and near first 12a of base component 12.The 3rd 16d and first 12a and second 12b be arranged in parallel.The 3rd 16d is disposed at than the 4th 16e near first 12a side.The 4th 16e and the 3rd 16d be arranged in parallel.Thereby first 12a of present embodiment, second 12b, the 3rd 16d and the 4th 16e be arranged in parallel.

Press section 16f shakes according to relieving rod 16, and first tine 18 and second tine 20 are pressed on the direction of leaving from ratchet 14a.Particularly, possess the function as first press section, namely follow relieving rod 16 to the shaking of direction of operating P, shake at the first non-control direction A1 and press first tine 18.In addition, press section 16f possesses the function as second press section, namely follows relieving rod 16 to shake to the opposite sense of direction of operating P, shakes at the second non-control direction A2 and press second tine 20.Therefore, present embodiment constitutes first press section and second press section via same parts.

First tine:

First tine 18 can joltily be located at the 3rd 16d at the first non-control direction A1 that leaves from a plurality of ratchet 14a and the first control direction S1 opposite with the first non-control direction A1.18 control of first tine are rotated to the first hand of rotation R1 by the ratchet 14 of the 3rd force application part towards the first hand of rotation R1 application of force.Particularly, first tine 18 is according to the position of rotation of gear stage positioning ratchet wheel 14 at the first hand of rotation R1.

First tine 18 has first a pawl 18a who is engaged among a plurality of ratchet 14a at first end 18b.First tine 18 has the 3rd spring hook 18c of portion of an end of hook first force application part 22 at the second end 18d.First tine 18 has first supported the 18e that is supported in the 3rd 16d between first end 18b and the second end 18d.First tine 18 follows relieving rod 16 to the shaking of direction of operating P, and the portion 16f of being pressed presses and shakes at the first non-control direction A1.As shown in Figure 3, at the face (below Fig. 3) of the 3rd spring hook 18c of portion opposition side locator protrusions 18f is set, it is used for first tine 18 is positioned first control direction S1 control position shown in Figure 1.The contacts side surfaces of the 16b of configuration portion of locator protrusions 18f and relieving rod 16.

Second tine:

Second tine 20 can joltily be located at the 4th 16e at the second non-control direction A2 that leaves from a plurality of ratchet 14a and the second control direction S2 opposite with the second non-control direction A2.20 control of second tine are by the 3rd force application part and rotate to the first hand of rotation R1 to the ratchet 14 of the first hand of rotation R1 application of force.Particularly, when removing ratchet 14 via the location of first tine 18, the rotation of control ratchet 14 does not make ratchet 14 rotate at the first hand of rotation R1 in a plurality of gear stage.

Second tine 20 first end 20b have with a plurality of ratchet 14a in the second pawl 20a of an engagement.Second tine 20 has the 4th spring hook 20c of portion of hook first force application part 22 other ends between first end 20b and the second end 20d.Second tine 20 has second supported 20e that can joltily be supported in the 4th 16e at the second end 20d.Second tine 20 follows relieving rod 16 to the shaking of direction of operating P, and shakes at the second control direction S2.Second tine 20 follows relieving rod 16 to shake to the opposite sense of direction of operating P, also namely follows shaking from operating position to primary position, and the portion 16f of being pressed presses and shakes at the second non-control direction A2, and is positioned at non-control position shown in Figure 1.

First force application part:

First force application part 22 is coil spring for example, and with the state lodge that stretches between first tine 18 and second tine 20.Particularly, an end hook of first force application part 22 is hung on the 3rd spring hook 18c of portion of first tine 18, and the other end of first force application part 22 is hooked in the 4th spring hook 20c of portion of second tine 20.First force application part 22 with first tine 18 to the first control direction S1 application of force, and with second tine 20 to the second control direction S2 application of force.By first tine 18 of first force application part, 22 application of forces in relieving rod 16 when direction of operating P shakes from primary position to operating position, the portion 16f of being pressed presses and shakes at the first non-control direction A1.First tine 18 that is pressed is located via locator protrusions 18f in the control position.In addition, when relieving rod 16 returned primary position from operating position, the portion 16f of being pressed pressed and shakes at the second non-control direction A2 by second tine 20 of first force application part, 22 application of forces, and was positioned non-control position.

Second force application part:

Second force application part 24 for example is coil spring, and with the state lodge that stretches between base component 12 and relieving rod.Particularly, an end hook of second force application part 24 hangs over the first spring hook 12d of portion of base component 12, and the other end of second force application part 24 is hooked on the second spring hook 16c of portion of relieving rod 16.Second force application part 24 forces in the primary position side with relieving rod 16.

The variable speed operation of handling device:

Below explanation for example is installed in handling device 10 on the handle stem (handlebar), the action of the handling device 10 under the state that is connected in transmission system via the speed change wirerope during variable speed operation.

When shaking operation coiling bar, the driving claw of being located at the coiling bar is pressed among a plurality of ratchet 14a of ratchet 14, makes ratchet 14 in the angle of tooth part of second hand of rotation R2 rotation ratchet 14a.Thus, the speed change wirerope is wound in the wirerope coiling body from the speed change wirerope of the length of tooth part angle correspondence of wirerope coiling body rotation ratchet 14a.At this moment, pressed by the ratchet 14a of zero symbol of annotation among Fig. 1 by first tine 18 of first force application part, 22 application of forces, shake at the first non-control direction A1, and the ratchet 14a of annotation zero symbol among leap Fig. 1.Then, at the second hand of rotation R2, the ratchet 14a of annotation * symbol among the Fig. 1 in the hand of rotation downstream of nipping, transmission system is in gear stage of direction speed change of upgrade (or lowering category).

In addition, under state shown in Figure 1, when relieving rod 16 operated in operating position from primary position towards direction of operating P, as shown in Figure 2, first tine 18 16f of portion that is pressed pressed and shakes at the first non-control direction A1.Thus, remove the ratchet 14a of the first pawl 18a and ratchet 14a(annotation * symbol) engagement, by the 3rd force application part and the ratchet 14 of the application of force rotates at the first hand of rotation R1.At this moment, because first tine 18 shakes around the 3rd 16d that is located at relieving rod 16, so first tine 18 breaks away from from ratchet 14a easily.When relieving rod 16 shakes to operating position, remove second tine 20 via press section 16f in the location of non-control position.Thereby, forced in annotation among the second pawl 20a of second tine 20 of the second control direction S2 and Fig. 2 by first force application part 22 ● the ratchet 14a engagement of symbol temporarily stops the rotation of ratchet 14.

The EO of relieving rod 16 when relieving rod 16 shakes to primary position via the application of force of second force application part 24 from operating position, is removed 20 pairs of annotations of second tine ● the engagement of the ratchet 14a of symbol, and ratchet 14 rotates in the first hand of rotation R1 once again.At this moment, because second tine 20 shakes around the 4th 16e that is located at relieving rod 16, so second tine 20 also breaks away from from ratchet 14a easily.When relieving rod 16 shakes to operating position, by first force application part 22 and first tine 18 of the application of force and * symbol and ● the ratchet 14a engagement between the symbol, and be positioned at position corresponding to the next gear stage of the first hand of rotation R1.Thus, the speed change wirerope of the length of tooth part of ratchet 14a is sent from the wirerope coiling body, and transmission system is in the gear stage of (or lowering category) direction speed change that upgrades.

Herein, owing to the 3rd 16d that first tine 18 is located at relieving rod 16, but not base component 12, therefore the 3rd 16d is mobile around second 12b via shaking of relieving rod 16.The 3rd 16d is set follows relieving rod 16 shaking to direction of operating P, and near first 12a of base component 12, therefore, via the operation of relieving rod 16, when first tine 18 shook to the first non-control direction A1, the ratchet 14a of the first pawl 18a tilted to easy disengaging direction.Thus, the easier ratchet 14a from the ratchet 14 of rotation around first 12a of the first pawl 18a breaks away from.

Other embodiment:

More than be to explain with regard to a kind of embodiment of the present utility model, but the utility model is not to be defined in above-mentioned embodiment, can do various changes in the scope of the main idea that does not break away from utility model.A plurality of embodiments of particularly narrating in this specification sheets and variation be combination in any according to need.

(a) above-mentioned embodiment is that second tine 20 can joltily be located at namely is on the relieving rod 16 of operating unit, but the utility model is not limited to this.Also second tine can joltily can be located on the base component.

(b) in the above-mentioned embodiment, first press section and second press section are made of the press section 16f that namely is same parts, but also can constitute first press section and second press section by each different parts.

(c) above-mentioned embodiment forces in non-control direction via first force application part 22 respectively with first tine 18 and second tine 20, but also can first tine and second tine be forced in non-control direction via each different force application part.

(d) above-mentioned embodiment is to be provided with the locator protrusions 18f that first tine 18 is positioned the control position, but also can not set a projection, and locatees the control position via making first tine 18 be contacted with ratchet 14a.When locator protrusions 18f is set, first tine, the 18 unlikely ratchet 14a that excessively nip, the 18 easier disengagings of first tine.

(e) above-mentioned embodiment to be uniformly-spaced arranging ratchet 14a, but also can the unequal interval setting.

(f) above-mentioned embodiment constitutes first force application part and second force application part with coil spring, but the utility model is not limited to this.For example also can constitute first force application part and second force application part via the spring that helical torsional spring, spiral torsion spring etc. can force in hand of rotation.This moment, first force application part was respectively with first tine and the second tine setting.

(g) above-mentioned embodiment discloses operation as the handling device that is used for bicycle of the transmission system of the part that is used for bicycle, but the utility model is not limited to this.For example also can be a kind of handling device, in order to operate the changeable part that is used for bicycle for a plurality of states (for example being used for the suspension apparatus of bicycle etc.).

Claims (17)

1. handling device that is used for bicycle is characterized in that it possesses:

Base component, it has first and second;

Ratchet, it has a plurality of ratchets, can be located at aforementioned first rotatably at first hand of rotation and second hand of rotation opposite with first hand of rotation;

Operating unit, it has the 3rd, and can joltily be located at aforementioned second at direction of operating; And

First tine, it has first pawl, this first pawl is for the aforementioned ratchet of control is engaged in aforementioned a plurality of ratchet one to the rotation of aforementioned first hand of rotation, and aforementioned first tine can joltily be located at aforementioned the 3rd from the first non-control direction and the first control direction opposite with the aforementioned first non-control direction that aforementioned ratchet leaves at aforementioned first pawl;

Aforementioned first tine follows the aforementioned operation parts to shake and shake in the aforementioned first non-control direction to aforementioned direction of operating.

2. the handling device for bicycle as claimed in claim 1 is characterized in that, aforementioned the 3rd following the aforementioned operation parts to shake to aforementioned direction of operating, and arrange near aforementioned first mode of aforementioned base component.

3. the handling device for bicycle as claimed in claim 2 is characterized in that, aforementioned the 3rd is disposed at than aforementioned second close aforementioned first side.

4. the handling device for bicycle as claimed in claim 1, it is characterized in that, further possesses second tine, it has second pawl, this second pawl rotates to aforementioned first hand of rotation for the aforementioned ratchet of control, and be engaged in aforementioned a plurality of ratchet one, and the second non-control direction that aforementioned second tine can leave from aforementioned ratchet at aforementioned second pawl and the second control direction opposite with the aforementioned second non-control direction joltily are located at the 4th, aforementioned second tine follows the aforementioned operation parts to the shaking of aforementioned direction of operating, and shakes in the aforementioned second control direction.

5. the handling device for bicycle as claimed in claim 4 is characterized in that, the aforementioned the 4th is located in the aforementioned operation parts.

6. the handling device for bicycle as claimed in claim 5 is characterized in that, aforementioned the 4th to follow the aforementioned operation parts to shake to aforementioned direction of operating and arrange near aforementioned first mode of aforementioned base component.

7. the handling device for bicycle as claimed in claim 6 is characterized in that, aforementioned the 3rd is disposed at than aforementioned the 4th close aforementioned first side.

8. the handling device for bicycle as claimed in claim 4, it is characterized in that, further possesses first force application part, it is to force in aforementioned first tine aforementioned first control direction, and aforementioned second tine is forced in the mode of the aforementioned second control direction, and be connected in aforementioned first tine and aforementioned second tine.

9. the handling device for bicycle as claimed in claim 8, it is characterized in that, the aforementioned operation parts further have first press section, and it follows the aforementioned operation parts to shake and press aforementioned first tine in the mode that the aforementioned first non-control direction is shaken to aforementioned direction of operating with aforementioned first tine.

10. the handling device for bicycle as claimed in claim 8, it is characterized in that, the aforementioned operation parts further have second press section, and it follows the aforementioned operation parts to shake and press aforementioned second tine in the mode that the aforementioned second non-control direction is shaken to the opposite sense of aforementioned direction of operating with aforementioned second tine.

11. the handling device for bicycle as claimed in claim 8, it is characterized in that, the aforementioned operation parts further have: first press section, and it follows the aforementioned operation parts to press aforementioned first tine to shaking of aforementioned direction of operating in the mode that the aforementioned first non-control direction is shaken with aforementioned first tine; And second press section, it follows the aforementioned operation parts to press aforementioned second tine to rightabout the shaking of aforementioned direction of operating in the mode that the aforementioned second non-control direction is shaken with aforementioned second tine; Aforementioned first press section and aforementioned second press section constitute via same parts.

12. the handling device for bicycle as claimed in claim 1, it is characterized in that, the aforementioned operation parts further have the press section, and it follows the aforementioned operation parts to press aforementioned first tine to shaking of aforementioned direction of operating from the mode that aforementioned ratchet leaves with aforementioned first tine.

13. the handling device for bicycle as claimed in claim 1 is characterized in that, the aforementioned operation parts are arranged in the early stage the position and are shaken between the operating position that the aforementioned operation direction is shaken from aforementioned primary position.

14. the handling device for bicycle as claimed in claim 13 is characterized in that, further possesses second force application part, its with the aforementioned operation parts towards the aforementioned primary position application of force.

15. the handling device for bicycle as claimed in claim 1 is characterized in that, aforementioned first and aforementioned second arranges abreast.

16. the handling device for bicycle as claimed in claim 15 is characterized in that, aforementioned the 3rd and aforementioned first and aforementioned second arranges abreast.

17. the handling device for bicycle as claimed in claim 5 is characterized in that, aforementioned first, aforementioned second, aforementioned the 3rd and aforementioned the 4th arranges in parallel to each other.

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