CN204296994U - Bicycle operating device - Google Patents

Abstract

The utility model discloses a kind of bicycle operating device, comprising: fixed component, it is constructed to attach to bicycle, and fixed component has linear guide part; Energy mobile member, can be connected to fixed component movably; Indicating member, is arranged in linear guide part can move linearly; And connecting elements, indicating member is connected to energy mobile member, connecting elements has the first cam portion, and the first cam portion is configured to contact indicating member to move indicating member in a first direction in response to the movement of energy mobile member.The utility model has the connecting elements of cam portion by using, indicating member can be made to be moved linearly in response to the movement of energy mobile member, thus can realize the indicator of simple structure.In addition, because connecting elements has multiple cam portion, thus more gear can be realized by compacter cam structure.

Description

Bicycle operating device

Technical field

The utility model relates generally to a kind of bicycle operating device with indicating member.

Background technology

Can the bicycle of speed change be that people are well-known.In this bicycle, cyclist can select suitable gear shift level, velocity stage or gear level according to specific situation by using gearshift operating device or selector (hereinafter referred to " bicycle operating device ").In order to the convenience that cyclist uses, bicycle operating device can be provided with indicator or indicating member, thus indicates the current state of velocity stage for cyclist.Especially, when cable type mechanical bicycle operating means, mechanical indicator is usually used to refer to gear level.

Now, expect that a kind of structure is simply for the indicator of bicycle operating device.

Utility model content

The purpose of this utility model is to provide a kind of bicycle operating device, and this bicycle operating device indicates current gear level by simple structure.

According to an aspect of the present utility model, a kind of bicycle operating device comprises: fixed component, and it is constructed to attach to bicycle, and fixed component has linear guide part; Energy mobile member, can be connected to fixed component movably; Indicating member, is arranged in linear guide part can move linearly; And connecting elements, being connected to by indicating member can mobile member.Connecting elements has the first cam portion, and the first cam portion is configured to contact indicating member to move indicating member in a first direction in response to the movement of energy mobile member.

Further, connecting elements can have the second cam portion further, and the second cam portion is configured to contact indicating member, to move indicating member in a first direction in response to the movement of energy mobile member after the first cam portion is away from indicating member.

Further, first cam portion can have the first profile, thus make the first cam portion that indicating member is moved the first distance, and the second cam portion has the second profile being different from the first profile, thus the second cam portion is made indicating member to be moved the second distance being different from the first distance.

Further, second distance can be greater than the first distance.

Further, indicating member can have the first protuberance being configured to contact first cam portion and the second protuberance being configured to contact second cam portion.

Further, the second protuberance can be arranged in a first direction away from the first protuberance.

Further, indicating member can have slipper further, slipper is constructed to be slidably arranged in the linear guide part of fixed component, slipper has first surface and the second surface relative with first surface, and the first protuberance and the second protuberance extend from first surface.

Further, indicating member can have the instruction unit extended from the second surface of slipper further.

Further, bicycle operating device comprises biased element further, and biased element can be configured to towards the second direction bias voltage indicating member relative with first direction.

Further, fixed component can be rotationally connected with by mobile member.

Further, fixed component can comprise housing, and housing is constructed to hold energy mobile member and indicating member.

Further, housing can have base part and attach to the cover of base part removedly, and linear guide part is arranged on cover.

By various embodiment of the present utility model, owing to using the connecting elements with cam portion, so indicating member can be made to be moved linearly in response to the movement of energy mobile member, thus the indicator of simple structure can be realized.In addition, because connecting elements has multiple cam portion, thus can realize with compacter cam structure to realize more gear level.

Accompanying drawing explanation

Accompanying drawing forms the part of this description, understands the utility model further for helping.Accompanying drawing illustrates embodiment of the present utility model, and is used for principle of the present utility model is described together with description.The identical label of parts identical in the accompanying drawings represents.Shown in the drawings of:

Fig. 1 is the top plan view with the handle of two bicycle operating devices according to an embodiment;

Fig. 2 is the top perspective view of the right side bicycle operating device shown in figure l, illustrated therein is indicator unit;

Fig. 3 is the top perspective view of the right side bicycle operating device shown in figure l and 2, and the cover of its middle shell illustrates with the state of taking apart;

Fig. 4 is the top plan view of the right side bicycle operating device shown in figure l to 3;

Fig. 5 is the top plan view of the right side bicycle operating device shown in figure l to 4, and wherein indicator unit is removed;

Fig. 6 is the top plan view of the right side bicycle operating device shown in figure l to 5, and wherein the some parts of fixed component and indicator unit are removed;

Fig. 7 is the exploded perspective view of the indicator unit of the right side bicycle operating device shown in figure l to 6;

Fig. 8 is the bottom perspective view of the indicator unit shown in Fig. 7;

Fig. 9 is the bottom plan view of the indicator unit shown in Fig. 8, wherein illustrate only connecting elements and the indicating member of indicator unit;

Figure 10 is the exploded perspective view of the chosen part of energy mobile member and the indicator unit shown in Fig. 9; And

Figure 11 and 12 shows the view of the course of work of indicator unit, illustrate only connecting elements and the indicating member of indicator unit.

Detailed description of the invention

Describe by the embodiment selected referring now to accompanying drawing.By the disclosure, be apparent that to those skilled in the art, the following description of embodiment is provided just to illustrating, instead of in order to limit the utility model, the utility model limited by appended claim and equivalent thereof.

First with reference to Fig. 1, the handle H of right side bicycle operating device 12a and the left side bicycle operating device 12b be provided with according to an embodiment is shown.One in the bicycle operating device 12a and left side bicycle operating device 12b of right side is operatively coupled to rear transmission device (such as, Rear Derailleur and internal tooth hub) (not shown) by controlling cable 16.Another in the bicycle operating device 12a and left side bicycle operating device 12b of right side is operatively coupled to driving front device (such as, front derailleur and internal tooth hub) (not shown) by controlling cable 18.These transmission devices are parts of traditional bicycle drive chain, and this traditional bicycle drive chain is used for changing gear shift level, velocity stage or gear level (not shown) in relatively traditional mode.Therefore, described transmission device will not be illustrated or describe in this article.

Preferably, each in speed Control cable l6 and 18 is all Bowden (Bowden) molded line cables.As seen in figure l, control cable 16 and there is interior cable 16a, cable 16a in its housing 16b covers.Control cable 18 and there is interior cable 18a, cable 18a in its housing 18b covers.

As visible in figure l, right side bicycle operating device 12a and left side bicycle operating device 12b except be mirror image each other and they can have different variable speed operations quantity except, they are operationally substantially identical.Therefore, will only discuss and illustrate right side bicycle operating device 12a (hereinafter referred to bicycle operating device 12a) here.

Bicycle operating device 12a comprises the fixed component 20 of the handle H being configured to attach to bicycle and the gear-change operation unit 30 (Fig. 5) for gear-change operation.In addition, as shown in Figure 7, bicycle operating device 12a also comprises the indicating member 44 being used to indicate current gear level and the connecting elements 46 indicating member 44 being connected to gear-change operation unit 30, wherein, indicating member 44, connecting elements 46 form indicator unit 22 together with the part (that is, cover 34) of fixed component 20 and biased element 48.

Describe the structure of bicycle operating device 12a with reference to the accompanying drawings in detail.

As seen in Fig. 2 to 5, fixed component 20 comprises operating means housing 24 and clamping band 26.

As finding in figure 3, housing 24 has base part 32 and attaches to the cover 34 of base part 32 removedly.Cover 34 by multiple (being preferably three) screw 31 by removably and can base part 32 be connected to reinstalling.

Bicycle operating device 12a is arranged on handle H by clamping band 26 in a conventional manner releasedly.Clamping band 26 has bending clamping surface, and bending clamping surface defines handle grip clamping axis B (see Fig. 1).Cable regulon 28 is arranged on housing 24 to be used for the tension force of cable 16a in regulable control cable 16 in a conventional manner.Clamping band 26 and cable regulon 28 are the traditional structures usually used together with operating means.Therefore, for simplicity, clamping band 26 and cable regulon 28 will not discussed or be illustrated in detail herein.

Gear-change operation unit 30 is accommodated in housing 24.Gear-change operation unit 30 is configured to strain and discharge interior cable 16a in a conventional manner.As finding in figure 6, what gear-change operation unit 30 comprised cable 16a in tension in a conventional manner or release can mobile member 36.Fixed component 20 can be connected to movably by mobile member 36 by principal axis bolt 38.In this embodiment, can be supported by principal axis bolt 38, can rotate around the pivot center A1 of principal axis bolt 38 by mobile member 36.One end of interior cable 16a is attached to can mobile member 36.When energy mobile member 36 rotates along the first rotation direction Rl, interior cable 16a can be tightened up or be wrapped on the peripheral edge of energy mobile member.When energy mobile member 36 rotates along the second rotation direction R2, interior cable 16a can be released or be untied from the peripheral edge of cable tension element, and wherein the second rotation direction R2 is contrary with the first rotation direction Rl relative to pivot center Al.That is, in this embodiment, take-up (take-up) component or coil members can be constructed to by mobile member 36.

Gear-change operation unit 30 also comprises release lever 40 and tie rod 42, and release lever and tie rod are operatively coupled to can mobile member 36.Energy mobile member 36 is located in one in multiple precalculated position by detent mechanism (not shown).Can be rotated along the second rotation direction R2 towards next precalculated position by relieving mechanism (not shown) in response to the movement of release lever 40 by mobile member 36.After this releasing operation, energy mobile member 36 is positioned in a place in precalculated position by detent mechanism.Can be rotated along the first rotation direction R1 towards next precalculated position by tensioning mechanism (not shown) in response to the movement of tie rod 42 by mobile member 36.After this retightening operation, energy mobile member 36 is positioned in a place in precalculated position by detent mechanism.Because these detent mechanisms, relieving mechanism and tensioning mechanism are well-known, therefore, will illustrate or describe these mechanisms of bicycle operating device 12a in no detail.In other words, gear-change operation unit 30 can be the gear-change operation unit of any type of the parts comprising cable 16a in tension and release.Therefore, the gear-change operation unit 30 of bicycle operating device 12a will not be illustrated in more detail or describe.

As finding in Figure 5, in an illustrated embodiment, connecting hole 36a can be provided with for operatively link indicator unit 22 by mobile member 36, make the rotational motion of mobile member 36 to be passed to indicator unit 22.

Mainly turn to Fig. 7 to 12 now, indicator unit 22 will be discussed in more detail.As described above and as seen by the figure 7, indicator unit 22 comprises the cover 34 of housing 24, indicating member 44, connecting elements 46 and biased element 48.Indicating member 44 is configured for the current gear level of instruction.Indicating member 44 is connected to by connecting elements 46 can mobile member 36.

The cover 34 of fixed component 20 has linear guide part 34a.In this embodiment, linear guide part 34a is constructed to the groove extended linearly along the first and second direction D1 and D2, and wherein the first and second direction D1 and D2 are perpendicular to rotation direction A1.Indicating member 44 is accommodated in housing 24.Indicating member 44 is disposed on linear guide part 34a, can move linearly.Connecting elements 46 has the first cam portion 46a and the second cam portion 46b.First cam portion 46a is configured to contact indicating member 44, to move indicating member 44 in the first direction dl in response to the movement along the first rotation direction R1 (see Fig. 6) (rotation) of energy mobile member 36.Second cam portion 46b is configured to contact indicating member 44, to move indicating member 44 in the first direction dl in response to the movement along the first rotation direction R1 (see Fig. 6) (rotation) of energy mobile member 36 after the first cam portion 46a is away from indicating member 44.

First cam portion 46a has the first cam contour P1, and the starting point of the first cam contour P1 is P1 ', terminal is P1 ".Indicating member 44 is moved the first distance by the first cam portion 46a.Second cam portion 46b has the second cam contour P2, and the starting point of the second cam contour P2 is P2 ', terminal is P2 ".Second cam contour P2 is different from the first cam contour P1.Indicating member 44 is moved the second distance being different from described first distance by the second cam portion 46b.More particularly, in this embodiment, second distance is greater than the first distance.

Connecting elements 46 also has connecting pin 46c.Especially, connecting pin 46c to be formed on the surface relative with indicating member 44 and to extend from this surface in the direction relative with indicating member 44.Connecting elements 46 is connected to the energy mobile member 36 of gear-change operation unit 30 via connecting pin 46c.Especially, be connected with the connecting hole 36a of energy mobile member 36 with reference to Figure 10, connecting pin 46c.By this connection, the movement (rotation) of energy mobile member 36 can be delivered to connecting elements 46.

As visible in the figure 7, connecting elements 46 is supported by the support column 34b of cover 34.Connecting elements arranges porose 46d, and support column 34b is through this hole.Connecting elements 46 can in response to the movement (rotation) of energy mobile member 36 around pivot axis C in rotational direction R3 (see Fig. 9,11 and 12) and the rotation direction R4 contrary with rotation direction R3 (see Fig. 9,11 and 12) rotation.

Indicating member 44 has slipper 50.Slipper 50 is arranged on linear guide part 34a, can move on the first and second direction D1 and D2.Slipper 50 has the rectangular shape (see Fig. 9,11 and 12) extended on the first and second direction D1 and D2.Slipper 50 has first surface 50a and second surface 50b (see Fig. 7).First surface 50a SCCP connection-oriented component 46 and energy mobile member 36.Second surface 50b is relative with first surface 50a and towards cover 34.Indicating member 44 has the second protuberance 52b of the first protuberance 52a and contact the second cam portion 46b being configured to contact first cam portion 46a.Second protuberance 52b is arranged in the first direction dl away from the first protuberance 52a.First protuberance 52a and the second protuberance 52b extends from the first surface 50a of slipper 50.Indicating member 44 also has the indicating section 54 extended from the second surface 50b of slipper 50.

The movement of connecting elements 46 passes to indicating member 44 with the second cam portion 46b and the first protuberance 52a with the second contacting of protuberance 52b via the first cam portion 46a, thus mobile indicating section 54.That is, indicating member 44 is moved to new gear level in response to the movement (rotation) of energy mobile member by connecting elements 46.Housing 24 is configured to hold energy mobile member 36 and indicating member 44.The cover 34 of housing 24 has status indicator lens 34c (see Fig. 3).As finding in figure 3, status indicator lens 34c comprises the transparent windows for observing indicating member 44.Preferably, mark or indicator mark 34d are arranged on cover (status indicator lens 34c) to indicate current gear level.Such as, mark or indicator mark 34d can be simple point or line.Alternatively, mark or indicator mark 34d can have more descriptive, such as letter (such as, " H ", " M " and " L ") or numeral (such as, " l ", " 2 ", " 3 " etc.).In an illustrated embodiment, mark or indicator mark 34d are arranged on status indicator lens 34c.

As finding in the figure 7, indicating member 44 is connected to cover 34 by biased element 48.Especially, biased element 48 is the helical springs with first end 48a and the second end 48b.The first end 48a of biased element 48 is connected to the support column 50c (with reference to Figure 10) of slipper 50.Second end 48b of biased element 48 is connected to the support column 34e of cover 34.Biased element 48 by indicating member 44 towards the second direction D2 bias voltage contrary with first direction D1.

Present composition graphs 9,11 and 12 will discuss the course of work of indicator unit 22 in more detail.

First, please refer to Fig. 9, this figure corresponds essentially to the original position of indicating member 44, and such as, Fig. 9 corresponds to the 1st gear level of bicycle.Now, the starting point P1 ' of the first cam contour P1 of the first cam portion 46a contacts with the first protuberance 52a of indicating member 44.In this case, the second cam contour P2 of the second cam portion 46b does not contact with indicating member 44.State shown in Fig. 9 corresponds to the first extreme position of variable speed operation scope.

When cyclist operates tie rod 42 (such as increasing gear), rotating along the first rotation direction R1 (with reference to Fig. 6) by mobile member 36 of gear-change operation unit 30.In response to this rotation of energy mobile member 36, connecting elements 46 is in rotational direction R3 rotation around pivot axis C.According to this rotation of connecting elements 46, the first cam contour P1 of the first cam portion 54a promotes indicating member 44 along glide direction D1.

Then Figure 11 such as corresponds to the 5th gear level of bicycle.In this condition, the terminal P1 of the first cam contour P1 " contact with the first protuberance 51a, and meanwhile, the starting point P2 ' of the second cam contour P2 starts to contact with the second protuberance 51b.

This means, if continue gear shift (such as increasing gear) future time cyclist to operate, connecting elements 46 is around pivot axis C in rotational direction R3 rotation, first cam portion 46a is separated with the first protuberance 52a of indicating member 44, and the second cam portion 46b contact by with the second protuberance 52b of indicating member 44.And then connecting elements 44 continues to promote indicating member 44 and slides linearly along direction D1.

Such as, Figure 12 corresponds to the 10th gear level of bicycle.Under the state shown in Figure 12, the terminal P2 of the second cam contour P2 " contact with the second protuberance 52b of indicating member 44, and the first cam portion 54a disengages with the first protuberance 52a of indicating member 50.State shown in Figure 12 corresponds to the second extreme position of variable speed operation scope.

On the contrary, as cyclist by the gear of bicycle from above-mentioned second extreme position towards the first extreme position (such as, reduce gear) gear shift time, connecting elements 46 will rotate along with rotation direction R4.In this case, indicating member 44 slides along direction D2 linearly by under the effect of biased element 48, thus the current gear level of instruction bicycle.

According to this embodiment of the present utility model, owing to using the connecting elements with cam portion, so indicating member can be made to be moved linearly in response to the movement of energy mobile member, thus the indicator unit of simple structure can be realized.In addition, because connecting elements has multiple cam portion, thus can realize with compacter cam structure to realize more gear level.

Be described for embodiment of the present utility model above, but enforcement of the present utility model is not limited to the above embodiments.Such as, the set-up mode of the ledge contacted with cam portion 46a with 46b of indicating member 44 and position also can change as required.Such as, first cam contour of the first cam portion and the second cam contour of the second cam portion can be arranged to like this, namely, make while a part for the first cam contour of the first cam portion contacts with the first protuberance of indicating member successively, a part for the second cam contour of the second cam portion contacts with the second protuberance of indicating member.In other words, from time angle, there is partly crossover the time period that the time period that the first cam contour contacts with the first protuberance contacts with the second protuberance with a part for the second cam contour.Arranging like this can make the work of indicator unit more stable, there will not be the first cam contour to depart from the first protuberance and the situation that the second cam contour not yet contacts with the second protuberance, thus affect instruction and/or the variable speed operation of gear positions.In addition, those skilled in the art can also change the quantity of the cam portion on connecting elements according to the numbers of gear steps of bicycle.

In addition, indicator unit 22 is typically constructed for specific gear-change operation unit and specific transmission device, so that the current gear level of indication driving gear or velocity stage exactly.But bicycle operating device 12a is not limited to the transmission device operating cable operation, and the indicator unit 22 of bicycle operating device 12a is not limited to the current gear level of instruction or velocity stage.Bicycle operating device can be used to operate other device (such as, bicycle suspension device and bicycle barbed chair pillar), and indicator unit 22 can be used to refer to their current state as needed and/or desired.

When understanding scope of the present utility model, as used in this article, the term that term " comprises " and derivative words is intended to for opening, the term of these openings illustrate specify feature, element, parts, set, entirety and/or step existence, but do not get rid of and there is other unspecified feature, element, parts, set, entirety and/or step.Foregoing teachings is also applicable to the term with similar meaning, and such as term " comprises ", " having " and their derivative words.Similarly, term " parts ", " part ", " portion ", " element " or " part " can have the double meaning of single parts or multiple parts when used in a singular form.Describe as being used in this article above-described embodiment, following directional terminology " forward ", " backward ", " top ", " downwards ", " vertically ", " level ", " below " and " transverse direction " and other similar directional terminology any refer to those directions of the bicycle being equipped with bicycle operating device.Therefore, in time being used to describe bicycle operating device, the bicycle being equipped with bicycle operating device when these terms should be used relative to normal ride position is explained.Finally, the same as used herein, the term of degree, such as " substantially ", " approximately " and " probably ", mean that the deviation of the fair amount of adorned term makes final result that larger change not occur.

Although only pick out by the embodiment selected to illustrate the utility model, but to those skilled in the art, obviously do various changes and modifications here by the disclosure, and do not deviate from as in the following claims the scope of the present utility model that limits.Such as, the size of various element, shape, position or orientation can change as needed and/or desired.Be shown as the element being connected to each other directly or contacting and intermediate structure can be set between which.The function of an element can be performed by two elements, and vice versa.The 26S Proteasome Structure and Function of an embodiment can be used in another embodiment.All advantages need not be made to be present in a specific embodiment all simultaneously.Relative to each feature unique prior art individually or with further feature combined use time also should be considered to by the independent description of applicant to other utility model, comprise the structure implemented by this feature or these features and/or function is conceived.Therefore, to provide being only used to illustrate according to the description of embodiment of the present utility model above, instead of in order to limit the utility model of claim as appended and equivalents thereof.

Claims (15)

1. a bicycle operating device, is characterized in that, comprising:

Fixed component, it is constructed to attach to bicycle, and described fixed component has linear guide part;

Energy mobile member, can be connected to described fixed component movably;

Indicating member, is arranged in described linear guide part can move linearly; And

Connecting elements, described indicating member is connected to described energy mobile member, described connecting elements has the first cam portion, and described first cam portion is configured to contact described indicating member to move described indicating member in a first direction in response to the movement of described energy mobile member.

2. bicycle operating device according to claim 1, is characterized in that,

Described connecting elements has the second cam portion further, described second cam portion is configured to contact described indicating member, to move described indicating member in said first direction in response to the movement of described energy mobile member after described first cam portion is away from described indicating member.

3. bicycle operating device according to claim 2, is characterized in that,

Described first cam portion has the first profile, thus makes described first cam portion that described indicating member is moved the first distance, and

Described second cam portion has the second profile being different from described first profile, thus makes described second cam portion described indicating member be moved the second distance being different from described first distance.

4. bicycle operating device according to claim 3, is characterized in that,

Described second distance is greater than described first distance.

5. the bicycle operating device according to any one of claim 2 to 4, is characterized in that,

Described indicating member has the first protuberance being configured to contact described first cam portion and the second protuberance being configured to contact described second cam portion.

6. bicycle operating device according to claim 5, is characterized in that,

Described second protuberance is arranged in said first direction away from described first protuberance.

7. bicycle operating device according to claim 6, is characterized in that,

Described indicating member has slipper further, and described slipper is constructed to be slidably arranged in the described linear guide part of described fixed component, and described slipper has first surface and the second surface relative with described first surface, and

Described first protuberance and described second protuberance extend from described first surface.

8. bicycle operating device according to claim 7, is characterized in that,

Described indicating member has the instruction unit extended from the described second surface of described slipper further.

9. bicycle operating device according to claim 1, comprises further:

Biased element, is configured to towards indicating member described in the second direction bias voltage relative with described first direction.

10. bicycle operating device according to claim 8, comprises further:

Biased element, is configured to towards indicating member described in the second direction bias voltage relative with described first direction.

11. bicycle operating devices according to claim 1, is characterized in that,

Described energy mobile member can be rotationally connected with described fixed component.

12. bicycle operating devices according to claim 10, is characterized in that,

Described energy mobile member can be rotationally connected with described fixed component.

13. bicycle operating devices according to claim 1, is characterized in that,

Described fixed component comprises housing, and described housing is constructed to hold described energy mobile member and described indicating member.

14. bicycle operating devices according to claim 12, is characterized in that,

Described fixed component comprises housing, and described housing is constructed to hold described energy mobile member and described indicating member.

15. bicycle operating devices according to claim 13 or 14, is characterized in that,

Described housing has base part and attaches to the cover of described base part removedly, and

Described linear guide part is arranged on described cover.