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WO2014034983A1 - Bicycle pedal assembly - Google Patents

Bicycle pedal assembly Download PDF

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Publication number
WO2014034983A1
WO2014034983A1 PCT/KR2012/007018 KR2012007018W WO2014034983A1 WO 2014034983 A1 WO2014034983 A1 WO 2014034983A1 KR 2012007018 W KR2012007018 W KR 2012007018W WO 2014034983 A1 WO2014034983 A1 WO 2014034983A1
Authority
WO
WIPO (PCT)
Prior art keywords
pedal
binders
pair
bearing housing
pedal body
Prior art date
Application number
PCT/KR2012/007018
Other languages
French (fr)
Korean (ko)
Inventor
정철상
이상재
Original Assignee
주식회사 나눅스
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 주식회사 나눅스 filed Critical 주식회사 나눅스
Priority to PCT/KR2012/007018 priority Critical patent/WO2014034983A1/en
Priority to DE112012006857.2T priority patent/DE112012006857T5/en
Publication of WO2014034983A1 publication Critical patent/WO2014034983A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B62LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
    • B62MRIDER PROPULSION OF WHEELED VEHICLES OR SLEDGES; POWERED PROPULSION OF SLEDGES OR SINGLE-TRACK CYCLES; TRANSMISSIONS SPECIALLY ADAPTED FOR SUCH VEHICLES
    • B62M3/00Construction of cranks operated by hand or foot
    • B62M3/08Pedals
    • B62M3/086Attachments between shoe and pedal other than toe clips, e.g. cleats
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B62LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
    • B62MRIDER PROPULSION OF WHEELED VEHICLES OR SLEDGES; POWERED PROPULSION OF SLEDGES OR SINGLE-TRACK CYCLES; TRANSMISSIONS SPECIALLY ADAPTED FOR SUCH VEHICLES
    • B62M3/00Construction of cranks operated by hand or foot
    • B62M3/08Pedals

Definitions

  • the present invention relates to a bicycle pedal assembly, and more particularly to a bicycle pedal assembly having a binder and a simple axial mounting structure to which the cleat of cycling is coupled.
  • the pedal shaft of the conventional pedal assembly penetrates the entire length of the pedal body, so that the design and structural changes of the pedal body are greatly limited by the pedal shaft and its receiving structure, and in particular, the structural improvement of the binder for cleats There was a problem limited by the pedal shaft.
  • an object of the present invention is to provide a bicycle pedal assembly having a slim thickness while being able to easily and conveniently couple and release a cleat to a binder.
  • Another object of the present invention is to provide a pedal assembly which is simple in structure and easy to adjust.
  • the object according to the present invention is a pedal body having a pedal body, a pedal body having a lateral surface that rotates about the pedal shaft and can support a cleat-mounted cycling, and the pedal body along the axial direction of the pedal body.
  • the pedal body is made of a plastic material
  • the bearing housing is made of a metal material
  • the bearing housing may be embedded in the pedal body by insert injection.
  • the bearing housing preferably includes a spacer portion for keeping the pair of bearings spaced apart.
  • the pair of bearings may be combined with a ball bearing and a sliding bearing, wherein the ball bearing supports a free end region of the pedal shaft, and the sliding bearing supports the pedal shaft at a position spaced apart from the free end. It is desirable to.
  • the stop nut may be coupled to a free end region of the pedal shaft to contact the ball bearing along the axial direction to prevent the pedal shaft from being separated.
  • the bearing housing through the pedal body further comprises a fixing screw inserted into the bearing housing horizontally in the axial direction, the bearing housing preferably has a fixed female screw portion to which the fixing screw is fastened.
  • each binder is preferably spaced outward from the surface of the pedal body.
  • the pivot support portion preferably has an inner pivot pin for pivotally supporting the pair of inner binders and an outer pivot pin for pivotally supporting the pair of outer binders in common.
  • each of the binders may be formed independently to be independently supported on the corresponding pivot pin.
  • the elastic members are torsion coil springs, and preferably have a coil portion through which the pivot pin passes and an arm portion provided at both ends of the coil portion to push a pair of binders.
  • Each of the elastic members may be provided with a tension control unit.
  • the tension adjusting unit preferably includes a slider in contact with at least one arm of the elastic member, and an adjusting screw for moving the slider.
  • a bicycle pedal assembly having a slim thickness and easy attachment and release of the cleats.
  • a bicycle pedal assembly having a simple structure and easy elastic adjustment of a binder.
  • FIG. 1 is an assembled perspective view of a bicycle pedal assembly according to the present invention
  • 6 and 7 are cross-sectional views for explaining the process of binding and release of the cleats.
  • the bicycle pedal assembly has a pedal shaft 100 and a pedal body 200 rotatably coupled to the pedal shaft 100. Cycling is in contact with the upper and lower surfaces of the pedal body 200.
  • the pedal shaft 100 protrudes toward the bicycle at the inner end of the pedal body 200 and is coupled to the pedal crank.
  • the pedal body 200 is embedded with a bearing housing 120 along an axial direction.
  • the bearing housing 120 is made of a metal material, and is embedded in the pedal body 200 by insert injection. In some cases, the pedal body 200 and the bearing housing 120 may be coupled to each other by assembling rather than inserting the insert.
  • the bearing housing 120 is present only in a partial length section of the pedal body 200 so that the structure and design of the pedal body 200 are not limited to the length of the bearing housing 120.
  • the length of the bearing housing 120 is less than half the length of the pedal body 200, and in the present invention, the length of the bearing housing 120 is less than 30-40% of the length of the pedal body 200. It is manufactured to be. The shorter the length of the bearing housing 120, the wider the design width and the wider the applicability.
  • the bearing housing 120 has a first bearing accommodation portion 126 and a second bearing accommodation portion 128 spaced apart from each other along the axial direction.
  • the first bearing 130 and the second bearing 140 are accommodated in the first bearing accommodation part 126 and the second bearing accommodation part 128, respectively.
  • the bearing housing 120 includes a spacer portion 122 between the bearing bearing portions 126 and 128 to maintain the separation between the first bearing 130 and the second bearing 140.
  • the spacer portion 122 has a smaller diameter than both bearing accommodation portions 126 and 128, whereby the bearing housing 120 is pedaled along the axial direction after being integrally molded by the pedal body 200 and the insert injection. Departure from the main body 200 is prevented.
  • the first bearing 130 and the second bearing 140 are each composed of a ball bearing and a sliding bearing in the illustrated embodiment. As a result, the load of the pedal shaft 100 is distributed to the two bearings, and since the sliding bearing supports the surface contact over a large area, the endurance support is possible, and vice versa. Or both may be ball bearings, or both may adopt sliding bearings. In some cases, the first bearing 130 and the second bearing 140 may be roller bearing, needle bearing, or the like.
  • the pedal shaft 100 passes through the bearing housing 120 embedded in the pedal body 200 and is inserted into the pedal body 200 along the axial direction.
  • the pedal shaft 100 has one end crank fastening portion 112 connected to a crank of the bicycle, and a stop nut fastening portion 114 at the free end region of the other end, respectively. Between the crank fastening portion 112 and the stop nut fastening portion 114, the first bearing column portion 116 and the second bearing column portion 118 to which the first bearing 130 and the second bearing 140 are respectively coupled. Is formed.
  • the pedal shaft 100 is made of metal.
  • the stop nut 150 is fastened to the stop nut fastening part 114 of the pedal shaft 100 via the washer 160.
  • the stop nut 150 is restricted to move outward in the axial direction by the first bearing 130 to regulate the pedal shaft 100 from being separated from the pedal body 200.
  • a fixing screw 170 is provided which penetrates the pedal body 200 from the outer surface of the pedal body 200 and is fastened to the bearing housing 120.
  • a fixed female screw portion 124 corresponding to the fixed screw 170 is provided in the bearing housing 120.
  • the bearing housing 120 is an insert injection together with the pedal body 200, but the thermal expansion coefficient of the bearing housing 120 made of metal and the pedal body 200 made of plastic may be different, and thus play may occur over time. have.
  • the fixed screw 170 and the fixed female threaded portion 124 function to compensate for the clearance between the pedal body 200 and the bearing housing 120 even when such clearance occurs.
  • Fixing screw 170 is supported on both sides of the pedal body 200 to correspond to each other. In some cases, the position where the fixing screw 170 is fastened and the number of the fixing screw 170 may be changed.
  • the inner binder 220 and the outer binder 230 are disposed along the axial direction, one for each.
  • the inner and outer binders 220 and 230 have binding portions 222 and 232 facing each other.
  • the binding portions 222 and 232 are engaged with both side portions of the cleat 300 mounted on the cycling shoes worn by the user, respectively.
  • Each of the binders 220 and 230 has leg portions 224 and 234 bent from both ends of the binding portions 222 and 232, and the rotation pin holes 226 and 236 are formed through the leg portions 224 and 234. have.
  • the rotating pin holes 226 and 236 pass through the inner rotating pin 216 and the outer rotating pin 218, respectively, and are assembled to the pin mounting holes 212 and 214 provided in the pedal body 200.
  • the inner pivot pin 216 passes through all of the pair of inner binders 220, and the outer pivot pin 218 also passes through all of the pair of outer binders 230.
  • the inner pin mounting hole 212 and the outer pin mounting hole 214 are spaced apart at intervals along the axial direction.
  • Rotating support part for supporting the inner and outer binders 220 and 230 is composed of a pair of pivot pins 216 and 218 to rotate the pair of inner binder 220 and the pair of outer binder 230, respectively. I support it.
  • the rotation support part is composed of a single rotation pin to support all four pairs of binders 220 and 230 in pairs, or the two rotation pins 216 and 218 support a diagonal binder or a binder on the same surface. It can also be configured to support in common.
  • a torsion coil spring is adopted as a spring providing elasticity by integrally forming a pair of inner binder 220 and / or a pair of outer binder 230, it is possible to apply various known springs. Of course. For example, compression springs, tension springs, leaf springs, etc. can be applied to replace the torsion coil spring of the present embodiment so as to provide an appropriate elastic binding force.
  • the binders 220 and 230 are rotatably supported by the rotation support part made of the rotation pins 216 and 218 arranged horizontally in the axial direction, the inner binder 220 and the outer binder 230 facing each other are mutually facing. Rotates around the pivot pins 216 and 218 to be mutually accessible and spaced apart along the axial direction of the pedal shaft 100.
  • the binding portions 222 and 232 of the binders 220 and 230 are spaced apart from the surface of the pedal body. As a result, when the operation of the binding units 222 and 232 is disturbed by foreign matters, it is easy to remove the foreign matters.
  • Torsion coil springs 240 and 250 are coupled to the respective pivot pins 216 and 218.
  • Springs 240 and 250 have coil portions 242 and 252 in the central region and torsion arm portions 244 and 254 at both ends, and each pivot pin 216 and 218 passes through coil portions 242 and 252.
  • Both torsion arm portions 244 and 254 contact the inner surfaces of the upper and lower binders 220, 220; 230, 230, respectively.
  • the upper and lower binders 220, 220; 230, 230 receive elastic resistance in the mutually approaching directions.
  • the binders 220 and 230 which face each other along the axial direction at the top or the bottom by these springs 240 and 250 are subjected to elastic pushing force in the mutually approaching direction, and cleats between the binders 220 and 230.
  • the 300 When the 300 is inserted, it is resistant to the springs 240 and 250 and can be elastically opened.
  • the adjusting screw 260 is provided under each of the binders 220 and 230.
  • the adjusting screw 260 is coupled to the slider 262, and when the adjusting screw 260 rotates, the slider 262 moves along the longitudinal direction of the adjusting screw 260.
  • the arm portions 252 and 254 of the torsion coil springs 240 and 250 are in contact with the slider 262 and between the arm portions 244 and 254 and the binders 220 and 230 as the slider 262 moves.
  • the interval fluctuates. Accordingly, the manipulation of the adjusting screw 260 is converted to the movement of the slider 262, and the pressing force of the springs 240 and 250 applied to the binders 220 and 230 is changed.
  • the change in the pressing force of the springs 240 and 250 means a change in the resistance force when the cleats 300 are inserted into or separated from the binding portions 222 and 232.
  • the user can set a binding force suitable for him through the adjustment of the adjusting screw 260.
  • 6 and 7 are cross-sectional views for explaining the detachment process of the cleat (300).
  • Cleat 300 has inner and outer gripping portions 312 and 314 corresponding to binding portions 222 and 232 of inner and outer binders 220 and 230.
  • the engagement portions 312 and 314 have inclined surfaces in the insertion and release directions, respectively, to facilitate insertion into and release from the binding portions 222 and 232.
  • the cleat 300 may be inserted horizontally between the inner and outer binders 220 and 230 as shown in FIG. 5 to be evenly engaged with both binders 220 and 230, but in many cases, the cleats 300 may be inclined as shown in FIG. It is biased and inserted in either side.
  • the binding portions 222 and 232 and the bite portion 312 , 314 can be engaged by itself, and also when the cleats 300 are detached, the cleats 300 can be easily released from the binders 220 and 230 simply by flipping the feet outward without twisting the feet. Therefore, even beginners can adapt without difficulty.
  • the length of the bearing housing 120 embedded in the pedal body 200 is embedded over a portion of the length of the pedal body 200, the length of the pedal shaft 100 is also made accordingly, thereby the pedal body 200 ) And the possibility of changes in the structure and design of the relevant parts can be significantly increased.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Mechanical Control Devices (AREA)

Abstract

The present invention relates to a bicycle pedal assembly comprising a binder to which a cleat of a cycling shoe is combined. According to embodiment of the present invention, the bicycle pedal assembly comprises: a pedal shaft; a pedal main body which rotates around the pedal shaft and of which both surfaces are capable of supporting a cleat-mounted cycling shoe; a bearing housing which is buried in the section corresponding to a part of the length of the pedal main body inside the pedal main body along the direction of the shaft line of the pedal main body and accommodates the pedal shaft; a pair of bearings mutually spaced from each other along the shaft line inside the bearing housing to rotate and support the pedal shaft; a pair of inner binders and a pair of outer binders having binding portions which are attached to the both surfaces of the pedal main body, respectively, and face each other along the shaft line to interlock with the cleat; a rotation support portion for supporting the pair of inner binders and the pair of outer binders to allow the rotation thereof along the shaft line; and resilient members for resiliently pushing each of the binders in the binding direction. Therefore, a slim bicycle pedal assembly for facilitating binding and unbinding of a cleat is provided.

Description

자전거 페달 조립체Bicycle pedal assembly
본 발명은 자전거 페달 조립체에 관한 것으로, 더 상세하게는 사이클화의 클리트가 결합되는 바인더 및 간단한 축장착구조를 갖는 자전거페달 조립체에 관한 것이다.The present invention relates to a bicycle pedal assembly, and more particularly to a bicycle pedal assembly having a binder and a simple axial mounting structure to which the cleat of cycling is coupled.
최근의 많은 자전거 페달 조립체는 사이클화의 클리트가 결합될 수 있도록 바인더를 구비한다. 클리트와 바인더의 결합에 의해 사이클화와 페달이 일체로 견고히 연결되어 사용자가 가하는 에너지를 자전거의 추진력으로 최대한 전환시킬 수 있다.Many recent bicycle pedal assemblies have a binder so that cycling cleats can be engaged. By combining the cleats and binders, cycling and pedals are firmly connected to each other to convert the energy applied by the user to the driving force of the bicycle as much as possible.
바인더와 클리트의 결합방식에 관하여는 다양한 구조의 것이 제안되어 있으나, 대체적으로 클리트와 바인더를 결합하거나 분리하는 동작이 숙련을 요하며 그래서 초보자들이 사용하기에는 매우 불편하고 어렵다. 또한 바인더의 조립구조나 조절메커니즘이 비교적 복잡하여 제조비용이 높다는 등의 문제가 있었다.Regarding the bonding method of the binder and the cleat, various structures have been proposed, but in general, the operation of combining or separating the cleat and the binder requires skill, so it is very inconvenient and difficult for beginners to use. In addition, there is a problem that the assembly structure of the binder and the adjustment mechanism are relatively complicated, resulting in high manufacturing costs.
한편, 종래의 페달 조립체의 페달축은 페달본체의 전체 길이를 관통하고 있어, 페달본체의 디자인 및 구조적인 변화가 페달축 및 그 수용구조에 의해 큰 제약을 받게 되며, 특히 클리트용 바인더의 구조적 개선도 페달축에 의해 제한되는 문제가 있었다.On the other hand, the pedal shaft of the conventional pedal assembly penetrates the entire length of the pedal body, so that the design and structural changes of the pedal body are greatly limited by the pedal shaft and its receiving structure, and in particular, the structural improvement of the binder for cleats There was a problem limited by the pedal shaft.
따라서 본 발명의 목적은 쉽고 편리하게 클리트를 바인더에 결합하고 해제할 수 있으면서도 슬림한 두께를 가진 자전거 페달 조립체를 제공하는 것이다.Accordingly, an object of the present invention is to provide a bicycle pedal assembly having a slim thickness while being able to easily and conveniently couple and release a cleat to a binder.
본 발명의 다른 목적은, 구조가 간단하고 조절이 용이한 페달 조립체를 제공하는 것이다.Another object of the present invention is to provide a pedal assembly which is simple in structure and easy to adjust.
상기 목적은 본 발명에 따라, 페달축과, 상기 페달축에 대해 회전하며, 클리트가 장착된 사이클화를 지지할 수 있는 양측 표면을 갖는 페달본체와, 상기 페달본체의 축선방향을 따라 상기 페달본체 내에 상기 페달본체의 일부 길이 구간에 걸쳐 매립되며, 상기 페달축을 수용하는 베어링하우징과, 상기 베어링하우징 내에 상기 축선방향을 따라 상호 이격 배치되어 상기 페달축을 회전지지하는 한 쌍의 베어링과, 상기 페달본체의 상기 양측 표면에 각각 부속되며, 상기 축선방향을 따라 상호 대면하여 상기 클리트와 맞물리는 바인딩부를 갖는 한 쌍의 내측 바인더 및 한 쌍의 외측 바인더와, 상기 한 쌍의 내측 바인더 및 상기 한 쌍의 외측 바인더를 상기 축선방향을 따라 회동가능하도록 지지하는 회동지지부와, 상기 각 바인더들을 바인딩방향으로 탄성적으로 미는 탄성부재들을 포함하는 것을 특징으로 하는 자전거 페달 조립체에 의해 달성된다.The object according to the present invention is a pedal body having a pedal body, a pedal body having a lateral surface that rotates about the pedal shaft and can support a cleat-mounted cycling, and the pedal body along the axial direction of the pedal body. A bearing housing embedded in a portion of the pedal body in a length section, the bearing housing accommodating the pedal shaft, a pair of bearings spaced apart from each other in the bearing housing along the axial direction, and supporting the pedal shaft to rotate; A pair of inner binders and a pair of outer binders respectively attached to the both side surfaces of the pair and having a binding portion engaged with the cleats along the axial direction, the pair of inner binders and the pair of outer sides A rotation support part for supporting the binder to be rotatable along the axial direction, and burning the binders in the binding direction It is achieved by a bicycle pedal assembly that is characterized, including typically push the elastic member.
여기서, 상기 페달본체는 플라스틱 소재로 만들어지고, 상기 베어링하우징은 금속재질로 만들어지며, 상기 베어링하우징은 상기 페달본체에 인서트사출에 의해 매립될 수 있다. 또한, 상기 베어링하우징은 상기 한 쌍의 베어링을 이격 유지하기 위한 스페이서부를 포함하는 것이 바람직하다. 그리고, 상기 한 쌍의 베어링은 볼베어링과 미끄럼베어링으로 조합할 수 있으며, 이 때, 상기 볼베어링은 상기 페달축의 자유단부 영역을 지지하고, 상기 미끄럼베어링은 상기 페달축을 상기 자유단부로부터 이격된 위치에서 지지하는 것이 바람직하다. 그리고, 상기 페달축의 자유단부 영역에 결합되어 상기 축선방향을 따라 상기 볼베어링에 접촉하여 상기 페달축의 이탈을 방지하는 멈춤너트를 마련할 수 있다. 한편, 상기 페달본체를 관통하여 상기 베어링하우징에 상기 축선방향에 가로로 삽입되는 고정스크류를 더 포함하며, 상기 베어링하우징은 상기 고정스크류가 체결되는 고정암나사부를 갖는 것이 바람직하다.Here, the pedal body is made of a plastic material, the bearing housing is made of a metal material, the bearing housing may be embedded in the pedal body by insert injection. In addition, the bearing housing preferably includes a spacer portion for keeping the pair of bearings spaced apart. The pair of bearings may be combined with a ball bearing and a sliding bearing, wherein the ball bearing supports a free end region of the pedal shaft, and the sliding bearing supports the pedal shaft at a position spaced apart from the free end. It is desirable to. The stop nut may be coupled to a free end region of the pedal shaft to contact the ball bearing along the axial direction to prevent the pedal shaft from being separated. On the other hand, through the pedal body further comprises a fixing screw inserted into the bearing housing horizontally in the axial direction, the bearing housing preferably has a fixed female screw portion to which the fixing screw is fastened.
상기 각 바인더의 상기 바인딩부는 상기 페달본체의 표면으로부터 외측으로 이격되어 있는 것이 바람직하다.The binding portion of each binder is preferably spaced outward from the surface of the pedal body.
또한, 상기 회동지지부는 상기 한 쌍의 내측 바인더를 공통으로 회동지지하는 내측 회동핀과, 상기 한 쌍의 외측 바인더를 공통으로 회동지지하는 외측 회동핀을 갖는 것이 바람직하다. 여기서, 상기 각 바인더들은 독립적으로 형성되어 해당 회동핀에 독립적으로 지지될 수 있다.In addition, the pivot support portion preferably has an inner pivot pin for pivotally supporting the pair of inner binders and an outer pivot pin for pivotally supporting the pair of outer binders in common. Here, each of the binders may be formed independently to be independently supported on the corresponding pivot pin.
상기 탄성부재들은 비틀림코일 스프링이며, 상기 각 회동핀이 통과하는 코일부와 상기 코일부의 양단에 마련되어 한 쌍의 바인더들을 미는 아암부를 갖는 것이 바람직하다. 상기 각 탄성부재에 장력조절부가 마련되어 있을 수 있다. 여기서, 상기 장력조절부는 상기 탄성부재의 적어도 일측 아암부에 접촉하는 슬라이더와, 상기 슬라이더를 이동시키는 조절스크류를 포함하는 것이 바람직하다.The elastic members are torsion coil springs, and preferably have a coil portion through which the pivot pin passes and an arm portion provided at both ends of the coil portion to push a pair of binders. Each of the elastic members may be provided with a tension control unit. Here, the tension adjusting unit preferably includes a slider in contact with at least one arm of the elastic member, and an adjusting screw for moving the slider.
상기한 바와 같이 구성된 자전거 페달 조립체에 따르면, 클리트의 결착 및 해제가 쉽고 슬림한 두께를 가진 자전거 페달 조립체가 제공된다.According to the bicycle pedal assembly configured as described above, there is provided a bicycle pedal assembly having a slim thickness and easy attachment and release of the cleats.
또한, 구조가 간단하고 바인더의 탄성 조절이 용이한 자전거 페달 조립체가 제공된다.In addition, there is provided a bicycle pedal assembly having a simple structure and easy elastic adjustment of a binder.
도 1은 본 발명에 따른 자전거 페달 조립체의 조립상태 사시도,1 is an assembled perspective view of a bicycle pedal assembly according to the present invention;
도 2는 페달축의 분해사시도,2 is an exploded perspective view of the pedal shaft,
도 3은 축선방향을 따른 페달축의 단면도,3 is a cross-sectional view of the pedal shaft along the axial direction;
도 4는 페달본체의 분해사시도,4 is an exploded perspective view of the pedal body;
도 5는 축선방향을 따른 페달본체의 단면도,5 is a cross-sectional view of the pedal body along the axial direction;
도 6 및 도 7은 클리트의 결착 및 해제과정을 설명하기 위한 단면도이다.6 and 7 are cross-sectional views for explaining the process of binding and release of the cleats.
이하 도면을 참조하여 본 발명에 따른 자전거 페달 조립체의 실시예를 상세히 설명한다.Hereinafter, embodiments of the bicycle pedal assembly according to the present invention will be described in detail with reference to the accompanying drawings.
이들 도면에서 볼 수 있는 바와 같이, 자전거 페달 조립체는 페달축(100)과, 페달축(100)에 회전가능하게 결합된 페달본체(200)를 갖는다. 페달본체(200)의 상하 표면에는 사이클화가 접촉한다. 페달축(100)은 페달본체(200)의 내측 단부에 자전거를 향하여 돌출되어 페달 크랭크에 결합된다.As can be seen in these figures, the bicycle pedal assembly has a pedal shaft 100 and a pedal body 200 rotatably coupled to the pedal shaft 100. Cycling is in contact with the upper and lower surfaces of the pedal body 200. The pedal shaft 100 protrudes toward the bicycle at the inner end of the pedal body 200 and is coupled to the pedal crank.
도 3에 도시된 바와 같이, 페달본체(200)는 축선방향을 따라 베어링하우징(120)이 매립되어 있다. 베어링하우징(120)은 금속재질로 만들어지며, 인서트사출에 의해 페달본체(200)에 매립된다. 경우에 따라서는 인서트사출이 아닌 조립에 의해 페달본체(200)와 베어링하우징(120)을 결합 가능하다.As shown in FIG. 3, the pedal body 200 is embedded with a bearing housing 120 along an axial direction. The bearing housing 120 is made of a metal material, and is embedded in the pedal body 200 by insert injection. In some cases, the pedal body 200 and the bearing housing 120 may be coupled to each other by assembling rather than inserting the insert.
베어링하우징(120)은 페달본체(200)의 일부 길이 구간에만 존재하도록 하여 페달본체(200)의 구조 및 디자인이 베어링하우징(120)의 길이에 구애받지 않도록 한다. 바람직하게는 베어링하우징(120)의 길이가 페달본체(200)의 절반 이하의 길이가 되도록 하며, 본 발명에서는 베어링하우징(120)의 길이가 페달본체(200)의 30~40% 이하의 길이가 되도록 제작된다. 베어링하우징(120)의 길이가 짧아질수록 설계 폭이 넓어지며 응용가능성 또한 넓어진다.The bearing housing 120 is present only in a partial length section of the pedal body 200 so that the structure and design of the pedal body 200 are not limited to the length of the bearing housing 120. Preferably, the length of the bearing housing 120 is less than half the length of the pedal body 200, and in the present invention, the length of the bearing housing 120 is less than 30-40% of the length of the pedal body 200. It is manufactured to be. The shorter the length of the bearing housing 120, the wider the design width and the wider the applicability.
베어링하우징(120)은 축방향을 따라 상호 이격된 제1베어링수용부(126)와 제2베어링수용부(128)를 갖는다. 제1베어링수용부(126)와 제2베어링수용부(128)에는 각각 제1베어링(130)과 제2베어링(140)이 수용되어 지지된다. 베어링하우징(120)은 제1베어링(130)과 제2베어링(140)의 이격유지를 위해 양 베어링수용부(126, 128) 사이에 스페이서부(122)를 포함하고 있다. 스페이서부(122)는 양 베어링수용부(126, 128)보다 직경이 축소되어 있으며, 이에 의해 페달본체(200)와 인서트사출에 의해 일체로 성형된 후 베어링하우징(120)이 축방향을 따라 페달본체(200)로부터 이탈되는 것이 방지된다.The bearing housing 120 has a first bearing accommodation portion 126 and a second bearing accommodation portion 128 spaced apart from each other along the axial direction. The first bearing 130 and the second bearing 140 are accommodated in the first bearing accommodation part 126 and the second bearing accommodation part 128, respectively. The bearing housing 120 includes a spacer portion 122 between the bearing bearing portions 126 and 128 to maintain the separation between the first bearing 130 and the second bearing 140. The spacer portion 122 has a smaller diameter than both bearing accommodation portions 126 and 128, whereby the bearing housing 120 is pedaled along the axial direction after being integrally molded by the pedal body 200 and the insert injection. Departure from the main body 200 is prevented.
제1베어링(130) 및 제2베어링(140)은 도시된 실시예에서 볼베어링과 미끄럼베어링으로 각각 이루어진다. 이에 의해 페달축(100)의 하중은 두 베어링에 분산되고, 또 미끄럼베어링이 넓은 면적에 걸쳐 면접촉 지지하므로 내구적 지지가 가능해지며, 그 역의 경우도 가능하다. 혹은 둘 다 볼베어링이거나 둘 다 미끄럼베어링을 채용할 수 있다. 경우에 따라서, 제1베어링(130) 및 제2베어링(140)은 롤러베어링, 니들베어링 등이 채용될 수 있다.The first bearing 130 and the second bearing 140 are each composed of a ball bearing and a sliding bearing in the illustrated embodiment. As a result, the load of the pedal shaft 100 is distributed to the two bearings, and since the sliding bearing supports the surface contact over a large area, the endurance support is possible, and vice versa. Or both may be ball bearings, or both may adopt sliding bearings. In some cases, the first bearing 130 and the second bearing 140 may be roller bearing, needle bearing, or the like.
페달축(100)은 페달본체(200)에 매립된 베어링하우징(120)을 통과하여 축선방향을 따라 페달본체(200)에 삽입된다. 페달축(100)은 일단부에는 자전거의 크랭크에 연결되는 크랭크체결부(112)가 타단의 자유단부 영역에는 멈춤너트체결부(114)가 각각 형성되어 있다. 크랭크체결부(112)와 멈춤너트체결부(114) 사이에는 제1베어링(130)과 제2베어링(140)이 각각 결합되는 제1베어링칼럼부(116) 및 제2베어링칼럼부(118)가 형성되어 있다. 페달축(100)은 금속재질로 만들어진다.The pedal shaft 100 passes through the bearing housing 120 embedded in the pedal body 200 and is inserted into the pedal body 200 along the axial direction. The pedal shaft 100 has one end crank fastening portion 112 connected to a crank of the bicycle, and a stop nut fastening portion 114 at the free end region of the other end, respectively. Between the crank fastening portion 112 and the stop nut fastening portion 114, the first bearing column portion 116 and the second bearing column portion 118 to which the first bearing 130 and the second bearing 140 are respectively coupled. Is formed. The pedal shaft 100 is made of metal.
페달축(100)의 멈춤너트체결부(114)에는 와셔(160)를 개재하여 멈춤너트(150)가 체결된다. 멈춤너트(150)는 제1베어링(130)에 의해 축방향 외측으로 이동이 제한되어 패달축(100)이 페달본체(200)에서 이탈하지 않도록 규제하는 역할을 한다.The stop nut 150 is fastened to the stop nut fastening part 114 of the pedal shaft 100 via the washer 160. The stop nut 150 is restricted to move outward in the axial direction by the first bearing 130 to regulate the pedal shaft 100 from being separated from the pedal body 200.
페달본체(200)의 외표면으로부터 페달본체(200)를 관통하여 베어링하우징(120)에 체결되는 고정스크류(170)가 마련되어 있다. 고정스크류(170)에 대응하는 고정암나사부(124)가 베어링하우징(120)에 마련되어 있다. 베어링하우징(120)이 페달본체(200)와 함께 인서트사출이 되지만 금속재질로 이루어진 베어링하우징(120)과 플라스틱재질로 이루어진 페달본체(200)의 열팽창계수가 달라 시간이 지남에 따라 유격이 발생할 수 있다. 고정스크류(170) 및 고정암나사부(124)는 이러한 유격이 발생하더라도 페달본체(200)와 베어링하우징(120)의 유격을 보상하는 기능을 한다. 고정스크류(170)는 페달본체(200)의 양측에서 상호 대응하여 지지한다. 경우에 따라서 고정스크류(170)가 체결되는 위치 및 고정스크류(170)의 개수는 변경 가능하다.A fixing screw 170 is provided which penetrates the pedal body 200 from the outer surface of the pedal body 200 and is fastened to the bearing housing 120. A fixed female screw portion 124 corresponding to the fixed screw 170 is provided in the bearing housing 120. The bearing housing 120 is an insert injection together with the pedal body 200, but the thermal expansion coefficient of the bearing housing 120 made of metal and the pedal body 200 made of plastic may be different, and thus play may occur over time. have. The fixed screw 170 and the fixed female threaded portion 124 function to compensate for the clearance between the pedal body 200 and the bearing housing 120 even when such clearance occurs. Fixing screw 170 is supported on both sides of the pedal body 200 to correspond to each other. In some cases, the position where the fixing screw 170 is fastened and the number of the fixing screw 170 may be changed.
페달본체(200)의 상하 양 표면에는 내측 바인더(220)와 외측바인더(230)가 각 하나씩 축선방향을 따라 배치되어 있다. 내측 및 외측 바인더(220, 230)는 상호 대면하는 바인딩부(222, 232)를 가진다. 바인딩부(222, 232)는 사용자가 착용하는 사이클화에 장착된 클리트(300)의 양측 물림부와 각각 맞물린다. 각 바인더(220, 230)는 바인딩부(222, 232)의 양측 단부로부터 절곡된 다리부(224, 234)를 가지며, 다리부(224, 234)에는 회동핀공(226, 236)이 관통형성되어 있다. 이들 회동핀공(226, 236)에는 각각 내측 회동핀(216) 및 외측 회동핀(218)이 통과하여 페달본체(200)에 마련된 핀장착공(212, 214)에 조립된다. 내측 회동핀(216)은 한 쌍의 내측 바인더(220)를 모두 통과하고, 외측 회동핀(218) 역시 한 쌍의 외측 바인더(230)들을 모두 통과한다. 그리고 내측 핀장착공(212)과 외측 핀장착공(214)은 축선방향을 따라 간격을 두고 이격되어 있다.On the upper and lower surfaces of the pedal body 200, the inner binder 220 and the outer binder 230 are disposed along the axial direction, one for each. The inner and outer binders 220 and 230 have binding portions 222 and 232 facing each other. The binding portions 222 and 232 are engaged with both side portions of the cleat 300 mounted on the cycling shoes worn by the user, respectively. Each of the binders 220 and 230 has leg portions 224 and 234 bent from both ends of the binding portions 222 and 232, and the rotation pin holes 226 and 236 are formed through the leg portions 224 and 234. have. The rotating pin holes 226 and 236 pass through the inner rotating pin 216 and the outer rotating pin 218, respectively, and are assembled to the pin mounting holes 212 and 214 provided in the pedal body 200. The inner pivot pin 216 passes through all of the pair of inner binders 220, and the outer pivot pin 218 also passes through all of the pair of outer binders 230. The inner pin mounting hole 212 and the outer pin mounting hole 214 are spaced apart at intervals along the axial direction.
내측 및 외측 바인더(220, 230)를 회동지지하는 회동지지부가 한 쌍의 회동핀(216, 218)으로 구성되어, 각각 한 쌍의 내측 바인더(220)와 한 쌍의 외측 바인더(230)를 회동지지한다. 그러나 회동지지부는 단일의 회동핀으로 구성하여 두 쌍으로 이루어진 총 네개의 바인더(220, 230)를 모두 지지하도록 하거나, 두 개의 회동핀(216, 218)이 대각선 방향의 바인더 혹은 같은 표면의 바인더를 공통으로 지지하게 구성할 수도 있다.Rotating support part for supporting the inner and outer binders 220 and 230 is composed of a pair of pivot pins 216 and 218 to rotate the pair of inner binder 220 and the pair of outer binder 230, respectively. I support it. However, the rotation support part is composed of a single rotation pin to support all four pairs of binders 220 and 230 in pairs, or the two rotation pins 216 and 218 support a diagonal binder or a binder on the same surface. It can also be configured to support in common.
또한, 한 쌍의 내측 바인더(220) 및/또는 한 쌍의 외측 바인더(230)를 일체로 형성하여 탄성을 제공하는 스프링으로서 비틀림 코일 스프링이 채택되었지만, 다양한 형태의 공지된 스프링이 적용될 수 있음은 당연하다. 예를 들어 압축스프링, 인장스프링, 판스크링 등이 본 실시예의 비틀림 코일 스프링에 대체되어 탄성적 바인딩력을 적절히 제공할 수 있도록 적용될 수 있다.In addition, although a torsion coil spring is adopted as a spring providing elasticity by integrally forming a pair of inner binder 220 and / or a pair of outer binder 230, it is possible to apply various known springs. Of course. For example, compression springs, tension springs, leaf springs, etc. can be applied to replace the torsion coil spring of the present embodiment so as to provide an appropriate elastic binding force.
이와 같이 바인더(220, 230)들이 축선방향에 가로로 배치된 회동핀(216, 218)들로 이루어진 회동지지부에 의해 회동가능하게 지지되므로, 상호 대면한 내측 바인더(220)와 외측 바인더(230)는 회동핀(216, 218)을 중심으로 회동하여 페달축(100)의 축선방향을 따라 상호 접근 및 이격 가능하다.In this way, since the binders 220 and 230 are rotatably supported by the rotation support part made of the rotation pins 216 and 218 arranged horizontally in the axial direction, the inner binder 220 and the outer binder 230 facing each other are mutually facing. Rotates around the pivot pins 216 and 218 to be mutually accessible and spaced apart along the axial direction of the pedal shaft 100.
바인더(220, 230)들의 바인딩부(222, 232)는 페달본체의 표면으로부터 이격되어 있다. 이에 의해 이물질에 의해 바인딩부(222, 232)의 동작이 방해될 경우, 이물질의 제거가 용이하다.The binding portions 222 and 232 of the binders 220 and 230 are spaced apart from the surface of the pedal body. As a result, when the operation of the binding units 222 and 232 is disturbed by foreign matters, it is easy to remove the foreign matters.
각 회동핀(216, 218)에는 비틀림코일 스프링(240, 250)이 결합되어 있다. 스프링(240, 250)은 중앙영역의 코일부(242, 252)와 양 단부의 비틀림 아암부(244, 254)를 가지며, 각 회동핀(216, 218)은 코일부(242, 252)를 통과하고, 양 비틀림 아암부(244, 254)는 상부 및 하부 바인더(220, 220; 230, 230)의 내표면에 각각 접촉한다. 이에 의해 상부 및 하부 바인더(220, 220; 230, 230)는 상호 접근되는 방향으로 탄성적인 저항을 받게 된다. 이들 스프링(240, 250)에 의해 상부 혹은 하부에서 축선방향을 따라 상호 대면한 바인더(220, 230)는 상호 접근하는 방향으로 탄성적인 미는 힘을 받게 되며, 양 바인더(220, 230) 사이에 클리트(300)가 삽입될 때 스프링(240, 250)에 저항하며 탄성적으로 벌어질 수 있다.Torsion coil springs 240 and 250 are coupled to the respective pivot pins 216 and 218. Springs 240 and 250 have coil portions 242 and 252 in the central region and torsion arm portions 244 and 254 at both ends, and each pivot pin 216 and 218 passes through coil portions 242 and 252. Both torsion arm portions 244 and 254 contact the inner surfaces of the upper and lower binders 220, 220; 230, 230, respectively. As a result, the upper and lower binders 220, 220; 230, 230 receive elastic resistance in the mutually approaching directions. The binders 220 and 230 which face each other along the axial direction at the top or the bottom by these springs 240 and 250 are subjected to elastic pushing force in the mutually approaching direction, and cleats between the binders 220 and 230. When the 300 is inserted, it is resistant to the springs 240 and 250 and can be elastically opened.
각 바인더(220, 230)의 하부에는 조절스크류(260)가 마련되어 있다. 조절스크류(260)에는 슬라이더(262)에 결합되어 조절스크류(260)가 회전하면 슬라이더(262)는 조절스크류(260)의 길이방향을 따라 이동한다. 슬라이더(262)에는 비틀림코일 스프링(240, 250)의 아암부(252, 254)가 접촉하여 있어, 슬라이더(262)의 이동에 따라 아암부(244, 254)와 바인더(220, 230) 사이의 간격이 변동한다. 이에 따라 조절스크류(260)의 조작은 슬라이더(262)의 이동으로 변환되고 나아가 바인더(220, 230)에 가해지는 스프링(240, 250)의 가압력이 변동하게 된다. 스프링(240, 250)의 가압력 변화는 클리트(300)가 바인딩부(222, 232)에 삽입되거나 이탈될 때의 저항력의 변화를 의미한다. 사용자는 조절스크류(260)의 조절을 통해 자신에게 적합한 바인딩력을 설정할 수 있다.The adjusting screw 260 is provided under each of the binders 220 and 230. The adjusting screw 260 is coupled to the slider 262, and when the adjusting screw 260 rotates, the slider 262 moves along the longitudinal direction of the adjusting screw 260. The arm portions 252 and 254 of the torsion coil springs 240 and 250 are in contact with the slider 262 and between the arm portions 244 and 254 and the binders 220 and 230 as the slider 262 moves. The interval fluctuates. Accordingly, the manipulation of the adjusting screw 260 is converted to the movement of the slider 262, and the pressing force of the springs 240 and 250 applied to the binders 220 and 230 is changed. The change in the pressing force of the springs 240 and 250 means a change in the resistance force when the cleats 300 are inserted into or separated from the binding portions 222 and 232. The user can set a binding force suitable for him through the adjustment of the adjusting screw 260.
도6 및 도7은 클리트(300)의 착탈과정을 설명하기 위한 단면도이다.6 and 7 are cross-sectional views for explaining the detachment process of the cleat (300).
클리트(300)는 내측 및 외측 바인더(220, 230)의 바인딩부(222, 232)에 대응하는 내측 및 외측 물림부(312, 314)를 갖는다. 물림부(312, 314)는 바인딩부(222, 232)로의 삽입과 그로부터의 이탈을 용이하게 하기 위해 삽입방향과 이탈방향에 각각 경사면을 가지고 있다. 클리트(300)는 도5에서와 같이 내측 및 외측 바인더(220, 230) 사이에 수평으로 삽입되어 양 바인더(220, 230)에 균등하게 맞물릴 들어갈 수도 있지만, 많은 경우 도6에서와 같이 경사지거나 어느 일측에 편중되어 삽입된다. 클리트(300)가 경사지게 삽입되더라도 클리트(300)가 양 바인딩부(222, 232) 사이에 적당히 위치하여 누르면, 바인더(220, 230)와 물림부(312, 314)의 형상적 조합에 의해 일측의 물림부(312, 314)가 일측 바인딩부(222, 232)에 먼저 접촉하여 밀고 들어가고, 해당 바인더(220, 230)가 스프링(240, 250)의 탄성력에 저항하며 벌어지면서 일측의 물림부(312, 314)가 걸린 다음 나머지 물림부(312, 314)가 순차적으로 걸리어 클리트(300)가 완전히 결합되게 된다. 도7은 결합상태를 나타낸 것이다. 이 결합상태에서는 양측 바인더(220, 230)의 탄성적 구속력에 의해 클리트(300)는 비교적 견고히 결합상태를 유지한다. Cleat 300 has inner and outer gripping portions 312 and 314 corresponding to binding portions 222 and 232 of inner and outer binders 220 and 230. The engagement portions 312 and 314 have inclined surfaces in the insertion and release directions, respectively, to facilitate insertion into and release from the binding portions 222 and 232. The cleat 300 may be inserted horizontally between the inner and outer binders 220 and 230 as shown in FIG. 5 to be evenly engaged with both binders 220 and 230, but in many cases, the cleats 300 may be inclined as shown in FIG. It is biased and inserted in either side. Even if the cleat 300 is inserted at an angle, the cleat 300 is properly positioned between the binding portions 222 and 232 and pressed, and the combination of the binders 220 and 230 and the bites 312 and 314 is applied to one side. The bites 312 and 314 are first pushed into contact with the one- side binding parts 222 and 232, and the binders 220 and 230 are opened while resisting the elastic force of the springs 240 and 250. , 314 is caught, and then the remaining bites 312 and 314 are sequentially engaged so that the cleat 300 is completely engaged. Figure 7 shows the coupling state. In this bonded state, the cleats 300 are relatively firmly held by the elastic restraining force of both binders 220 and 230.
사용자가 자전거에서 내리고자 할 때에는, 역시 도6에 도시된 바와 같이, 사이클화를 외측으로 젖히면 클리트(300)의 내측 물림부(312)가 내측 바인딩부(222)로부터 이탈되고 이어서 외측 물림부(314)가 외측 바인딩부(230)로부터 이탈되어 사이클화는 페달로부터 자유롭게 된다.When the user wants to get off the bicycle, as shown in FIG. 6, when the cycling is turned outwards, the inner stitching portion 312 of the cleat 300 is separated from the inner binding portion 222, and then the outer stitching portion ( 314 is disengaged from the outer binding portion 230 so that cycling is free from the pedals.
이상 설명한 바와 같이, 본 발명에 따른 자전거 페달 조립체는, 사용자가 클리트(300)를 내측 및 외측 바인더(220, 230) 사이에 대충 올려놓기만 하여도 바인딩부(222, 232)와 물림부가(312, 314)가 스스로 맞물릴 수 있고, 또한 클리트(300)를 이탈시킬 때에도 발을 비틀어 이탈시키지 않고, 단순히 발을 외측으로 젖히기만 하면 클리트(300)는 바인더(220, 230)로부터 용이하게 벗어날 수 있으므로, 초보자라 하더라도 별 어려움 없이 적응할 수 있다.As described above, in the bicycle pedal assembly according to the present invention, even if the user roughly places the cleat 300 between the inner and outer binders 220 and 230, the binding portions 222 and 232 and the bite portion 312 , 314 can be engaged by itself, and also when the cleats 300 are detached, the cleats 300 can be easily released from the binders 220 and 230 simply by flipping the feet outward without twisting the feet. Therefore, even beginners can adapt without difficulty.
또한, 페달본체(200)에 매립된 베어링하우징(120)의 길이가 페달본체(200)의 일부 길이 구간에 걸쳐 매립되므로, 페달축(100)의 길이도 그에 맞게 제작되며 이로 인해 페달본체(200) 및 관련 부분의 구조 및 디자인의 변화 가능성이 현저히 커질 수 있다.In addition, since the length of the bearing housing 120 embedded in the pedal body 200 is embedded over a portion of the length of the pedal body 200, the length of the pedal shaft 100 is also made accordingly, thereby the pedal body 200 ) And the possibility of changes in the structure and design of the relevant parts can be significantly increased.

Claims (13)

  1. 자전거 페달 조립체에 있어서,In a bicycle pedal assembly,
    페달축과,Pedal shaft,
    상기 페달축에 대해 회전하며, 클리트가 장착된 사이클화를 지지할 수 있는 양측 표면을 갖는 페달본체와,A pedal body that rotates about the pedal shaft and has both side surfaces capable of supporting a cleat-mounted cycling;
    상기 페달본체의 축선방향을 따라 상기 페달본체 내에 상기 페달본체의 일부 길이 구간에 걸쳐 매립되며, 상기 페달축을 수용하는 베어링하우징과,A bearing housing in which the pedal body is embedded in the pedal body over a partial length section of the pedal body along the axial direction of the pedal body, and accommodates the pedal shaft;
    상기 베어링하우징 내에 상기 축선방향을 따라 상호 이격 배치되어 상기 페달축을 회전지지하는 한 쌍의 베어링과,A pair of bearings spaced apart from each other in the bearing housing along the axial direction and rotatably supporting the pedal shaft;
    상기 페달본체의 상기 양측 표면에 각각 부속되며, 상기 축선방향을 따라 상호 대면하여 상기 클리트와 맞물리는 바인딩부를 갖는 한 쌍의 내측 바인더 및 한 쌍의 외측 바인더와,A pair of inner binders and a pair of outer binders respectively attached to both surfaces of the pedal body, the pair of inner binders having binding portions facing the mutually along the axial direction and engaging the cleats;
    상기 한 쌍의 내측 바인더 및 상기 한 쌍의 외측 바인더를 상기 축선방향을 따라 회동가능하도록 지지하는 회동지지부와,A rotation support part which supports the pair of inner binders and the pair of outer binders so as to be rotatable along the axial direction;
    상기 각 바인더들을 바인딩방향으로 탄성적으로 미는 탄성부재들을 포함하는 것을 특징으로 하는 자전거 페달 조립체.And an elastic member that elastically pushes each of the binders in a binding direction.
  2. 제 1항에 있어서,The method of claim 1,
    상기 페달본체는 플라스틱 소재로 만들어지고, 상기 베어링하우징은 금속재질로 만들어지며, 상기 베어링하우징은 상기 페달본체에 인서트사출에 의해 매립되는 것을 특징으로 하는 자전거 페달 조립체.The pedal body is made of a plastic material, the bearing housing is made of a metal material, the bearing housing is a bicycle pedal assembly, characterized in that embedded in the pedal body by insert injection.
  3. 제 1항에 있어서,The method of claim 1,
    상기 베어링하우징은 상기 한 쌍의 베어링을 이격 유지하기 위한 스페이서부를 포함하는 것을 특징으로 하는 자전거 페달 조립체.And the bearing housing includes a spacer portion for keeping the pair of bearings apart from each other.
  4. 제 1항에 있어서,The method of claim 1,
    상기 한 쌍의 베어링은 볼베어링과 미끄럼베어링인 것을 특징으로 하는 자전거 페달 조립체.The pair of bearings are bicycle pedal assembly, characterized in that the ball bearing and the sliding bearing.
  5. 제 4항에 있어서,The method of claim 4, wherein
    상기 볼베어링은 상기 페달축의 자유단부 영역을 지지하고, 상기 미끄럼베어링은 상기 페달축을 상기 자유단부로부터 이격된 위치에서 지지하는 것을 특징으로 하는 자전거 페달 조립체.And the ball bearing supports a free end region of the pedal shaft, and the sliding bearing supports the pedal shaft at a position spaced apart from the free end.
  6. 제 5항에 있어서,The method of claim 5,
    상기 페달축의 자유단부 영역에 결합되어 상기 축선방향을 따라 상기 볼베어링에 접촉하여 상기 페달축의 이탈을 방지하는 멈춤너트를 포함하는 것을 특징으로 하는 자전거 페달 조립체.And a stop nut coupled to a free end region of the pedal shaft to contact the ball bearing along the axial direction to prevent separation of the pedal shaft.
  7. 제 1항에 있어서,The method of claim 1,
    상기 페달본체를 관통하여 상기 베어링하우징에 상기 축선방향에 가로로 삽입되는 고정스크류를 더 포함하며, 상기 베어링하우징은 상기 고정스크류가 체결되는 고정암나사부를 갖는 것을 특징으로 하는 자전거 페달 조립체.And a fixing screw penetrating the pedal body and inserted into the bearing housing laterally in the axial direction, wherein the bearing housing has a fixing female screw portion to which the fixing screw is fastened.
  8. 제 1항에 있어서,The method of claim 1,
    상기 각 바인더의 상기 바인딩부는 상기 페달본체의 표면으로부터 외측으로 이격되어 있는 것을 특징으로 하는 자전거 페달 조립체.And said binding portion of each binder is spaced outward from the surface of said pedal body.
  9. 제 1항에 있어서,The method of claim 1,
    상기 회동지지부는 상기 한 쌍의 내측 바인더를 공통으로 회동지지하는 내측 회동핀과, 상기 한 쌍의 외측 바인더를 공통으로 회동지지하는 외측 회동핀을 갖는 것을 특징으로 하는 자전거 페달 조립체.And the pivot support portion has an inner pivot pin for pivotally supporting the pair of inner binders and an outer pivot pin for pivotally supporting the pair of outer binders in common.
  10. 제 9항에 있어서,The method of claim 9,
    상기 각 바인더들은 독립적으로 형성되어 해당 회동핀에 독립적으로 지지되는 것을 특징으로 하는 자전거 페달 조립체.Each of the binders is independently formed, the bicycle pedal assembly, characterized in that supported independently on the pivot pin.
  11. 제 10항에 있어서,The method of claim 10,
    상기 탄성부재들은 비틀림코일 스프링이며, 상기 각 회동핀이 통과하는 코일부와 상기 코일부의 양단에 마련되어 한 쌍의 바인더들을 미는 아암부를 갖는 것을 특징으로 하는 자전거 페달 조립체.The elastic member is a torsion coil spring, and the bicycle pedal assembly, characterized in that it has a coil portion through which each pivot pin passes and an arm portion provided at both ends of the coil portion to push a pair of binders.
  12. 제 11항에 있어서,The method of claim 11,
    상기 각 탄성부재에 장력조절부가 마련되어 있는 것을 특징으로 하는 자전거 페달 조립체.Bicycle pedal assembly, characterized in that the tension adjusting portion is provided in each of the elastic members.
  13. 제 12항에 있어서,The method of claim 12,
    상기 장력조절부는 상기 탄성부재의 적어도 일측 아암부에 접촉하는 슬라이더와, 상기 슬라이더를 이동시키는 조절스크류를 포함하는 것을 특징으로 하는 자전거 페달 조립체.And the tension adjusting part includes a slider in contact with at least one arm of the elastic member, and an adjusting screw for moving the slider.
PCT/KR2012/007018 2012-08-31 2012-08-31 Bicycle pedal assembly WO2014034983A1 (en)

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PCT/KR2012/007018 WO2014034983A1 (en) 2012-08-31 2012-08-31 Bicycle pedal assembly
DE112012006857.2T DE112012006857T5 (en) 2012-08-31 2012-08-31 A bicycle pedal system

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US6012356A (en) * 1998-11-05 2000-01-11 Shimano Inc. Bicycle pedal with gap adjustment mechanism
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