TWI608161B - Engine and vehicle - Google Patents
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- TWI608161B TWI608161B TW104116114A TW104116114A TWI608161B TW I608161 B TWI608161 B TW I608161B TW 104116114 A TW104116114 A TW 104116114A TW 104116114 A TW104116114 A TW 104116114A TW I608161 B TWI608161 B TW I608161B
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01L—CYCLICALLY OPERATING VALVES FOR MACHINES OR ENGINES
- F01L13/00—Modifications of valve-gear to facilitate reversing, braking, starting, changing compression ratio, or other specific operations
- F01L13/08—Modifications of valve-gear to facilitate reversing, braking, starting, changing compression ratio, or other specific operations for decompression, e.g. during starting; for changing compression ratio
- F01L13/085—Modifications of valve-gear to facilitate reversing, braking, starting, changing compression ratio, or other specific operations for decompression, e.g. during starting; for changing compression ratio the valve-gear having an auxiliary cam protruding from the main cam profile
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- Valve Device For Special Equipments (AREA)
- Valve-Gear Or Valve Arrangements (AREA)
Description
本發明係關於一種具備減壓(decompression)機構(以下稱為「減壓機構」)之引擎及車輛。 The present invention relates to an engine and a vehicle including a decompression mechanism (hereinafter referred to as a "pressure reducing mechanism").
當使引擎起動時,需要藉由外力使引擎旋轉直至起動結束。例如存在利用起動馬達旋轉者,或利用腳踩起動機旋轉者。另一方面,於引擎之壓縮步驟中,汽缸內之空氣被壓縮,故而旋轉之阻力增加。為了減少此種阻力,已知有用以於藉由外力使引擎旋轉時之壓縮步驟中使汽缸內之壓力減少之減壓機構。 When the engine is started, the engine needs to be rotated by an external force until the start is completed. For example, there is a person who rotates with a starter motor or a person who rotates with a foot starter. On the other hand, in the compression step of the engine, the air in the cylinder is compressed, so the resistance to rotation increases. In order to reduce such resistance, a pressure reducing mechanism for reducing the pressure in the cylinder during the compression step when the engine is rotated by an external force is known.
例如日本專利特開2008-128171號所揭示之引擎之減壓機構具有減壓凸輪,該減壓凸輪係藉由配重體之旋轉而切換成作動狀態及解除狀態。該減壓機構支持於凸輪鏈條之鏈輪。因此,存在包含減壓機構之凸輪軸於軸向上變大之問題。 For example, the pressure reducing mechanism of the engine disclosed in Japanese Laid-Open Patent Publication No. 2008-128171 has a pressure reducing cam that is switched to an actuated state and a released state by the rotation of the weight body. The pressure reducing mechanism supports the sprocket of the cam chain. Therefore, there is a problem that the cam shaft including the pressure reducing mechanism becomes larger in the axial direction.
於日本專利特開2008-64083號所揭示之引擎中,減壓機構配置於凸輪軸之兩端部之間之位置。減壓機構具有配重體及減壓凸輪,配重體藉由支持軸可相對於凸輪軸旋轉地受到支持。減壓凸輪與配重體藉由銷而連接,配重體以支持軸為中心旋轉,藉此,銷使減壓凸輪旋轉。 In the engine disclosed in Japanese Laid-Open Patent Publication No. 2008-64083, the pressure reducing mechanism is disposed at a position between both end portions of the cam shaft. The pressure reducing mechanism has a weight body and a pressure reducing cam, and the weight body is rotatably supported by the support shaft with respect to the cam shaft. The decompression cam and the weight body are connected by a pin, and the weight body rotates around the support shaft, whereby the pin rotates the decompression cam.
於日本專利特開2008-64083號之減壓機構中,當凸輪軸不旋轉時,配重體藉由回復彈簧之作用而保持於閉合之狀態。於配重體閉合 之狀態下,減壓凸輪成為可對排氣閥進行作用之狀態。因此,當引擎起動時,減壓凸輪對排氣閥進行作用而打開排氣閥,藉此使汽缸內之壓力減少。 In the pressure reducing mechanism of Japanese Laid-Open Patent Publication No. 2008-64083, when the cam shaft does not rotate, the weight body is held in a closed state by the action of the return spring. For weight closure In this state, the decompression cam is in a state in which the exhaust valve can be acted upon. Therefore, when the engine is started, the decompression cam acts on the exhaust valve to open the exhaust valve, thereby reducing the pressure in the cylinder.
若凸輪軸旋轉,則配重體因受到離心力而繞支持軸旋轉。若凸輪軸之旋轉速度上升至某設定旋轉速度以上,則離心力超過回復彈簧之彈力,藉此使配重體成為打開之狀態。於配重體打開之狀態下,減壓凸輪成為不對排氣閥進行作用之狀態。 When the cam shaft rotates, the weight body rotates around the support shaft due to centrifugal force. When the rotational speed of the camshaft rises above a certain set rotational speed, the centrifugal force exceeds the elastic force of the return spring, thereby bringing the weight body into an open state. When the weight body is opened, the pressure reducing cam does not act on the exhaust valve.
於日本專利特開2008-64083號之減壓機構中,可有效利用凸輪軸之兩端之間之空間。因此,與於凸輪軸之外配置減壓機構之情形相比,有時能夠使包含減壓機構之凸輪軸於軸向上精簡化。然而,本案之發明者進行研究後發現,於日本專利特開2008-64083號所記載般之先前技術之引擎中,存在當起動時減壓機構不作動而起動性之改善並不充分之情況。 In the pressure reducing mechanism of Japanese Patent Laid-Open No. 2008-64083, the space between the both ends of the cam shaft can be effectively utilized. Therefore, the cam shaft including the pressure reducing mechanism can be simplified in the axial direction as compared with the case where the pressure reducing mechanism is disposed outside the cam shaft. However, the inventors of the present invention have found that in the engine of the prior art as described in Japanese Patent Laid-Open No. 2008-64083, there is a case where the pressure reducing mechanism is not actuated at the time of starting, and the improvement of the startability is insufficient.
本發明之課題在於提供一種可提高減壓機構之起動性之引擎及車輛。 An object of the present invention is to provide an engine and a vehicle that can improve the startability of a pressure reducing mechanism.
本案之發明者對先前技術之引擎中當起動時減壓不作動之原因進行了驗證。結果可知,存在當引擎起動時,配重體已經成為打開之狀態之情況。亦即,可知,存在當凸輪軸不旋轉時,配重體旋轉至打開之狀態之情況。 The inventor of the present invention verified the reason why the decompression was not activated at the time of starting in the engine of the prior art. As a result, it can be seen that there is a case where the weight body has been opened when the engine is started. That is, it can be seen that there is a case where the weight body is rotated to the open state when the cam shaft is not rotated.
根據本案之發明者之研究,認為其原因在於回復彈簧之彈力較弱。而且,彈力變弱之原因在於,藉由將減壓機構配置於凸輪軸之兩端之間,而使配重體變小。即,於專利文獻2之減壓機構中,減壓機構係配置於凸輪軸之兩端之間,故而與專利文獻1之減壓機構相比, 配置之限制較大。因此,於專利文獻2之減壓機構中,需要使配重體小於專利文獻1之減壓機構中之配重體。 According to the research of the inventor of the present case, the reason is that the spring force of the return spring is weak. Further, the reason why the elastic force is weakened is that the weight body is made small by disposing the pressure reducing mechanism between both ends of the cam shaft. In other words, in the pressure reducing mechanism of Patent Document 2, since the pressure reducing mechanism is disposed between both ends of the cam shaft, compared with the pressure reducing mechanism of Patent Document 1, The configuration is more restrictive. Therefore, in the pressure reducing mechanism of Patent Document 2, it is necessary to make the weight body smaller than the weight body in the pressure reducing mechanism of Patent Document 1.
若配重體變小,則配重體之質量變小。若旋轉速度相同,則配重體之質量越小,作用至配重體之離心力之大小越小。因此,於用以將配重體設為打開狀態之設定旋轉速度下,作用至配重體之離心力變小。因此,需要亦使彈力減小。 If the weight body becomes smaller, the mass of the weight body becomes smaller. If the rotation speed is the same, the smaller the mass of the weight body, the smaller the centrifugal force acting on the weight body. Therefore, the centrifugal force acting on the weight body becomes small at the set rotation speed for setting the weight body to the open state. Therefore, it is also necessary to reduce the elasticity.
然而,配重體之位置係根據凸輪軸之旋轉之相位而變化。亦存在配重體之打開方向與重力方向一致之狀態下凸輪軸停止之情況。本案之發明者查明:此時,因使彈力減小,而使作用至配重體之重力所引起之力矩變得大於彈力,其結果,配重體成為打開狀態。 However, the position of the weight body varies depending on the phase of the rotation of the cam shaft. There is also a case where the cam shaft is stopped in a state in which the opening direction of the weight body coincides with the direction of gravity. The inventors of the present invention have found that at this time, the moment caused by the gravity acting on the weight body becomes larger than the elastic force due to the reduction in the elastic force, and as a result, the weight body is opened.
認為,為了防止如上所述般之現象,而增大彈力,但若彈力增大,則打開配重體之設定旋轉速度上升。設定旋轉速度之上升會成為產生噪音之原因,故而不佳。 It is considered that in order to prevent the phenomenon as described above, the elastic force is increased, but if the elastic force is increased, the set rotational speed of the opening weight body is increased. Setting the increase in the rotational speed becomes a cause of noise, which is not preferable.
本發明之一態樣之引擎具備汽缸頭、排氣閥、閥動機構、凸輪軸、軸承、及減壓機構。排氣閥收納於汽缸頭。閥動機構使排氣閥打開及閉合。凸輪軸藉由與閥動機構接觸,而驅動閥動機構。軸承將凸輪軸可旋轉地支持於汽缸頭。減壓機構配置於凸輪軸之軸線方向上之兩端部之間。減壓機構包含配重體、回復彈簧、減壓凸輪、及減壓銷。配重體相對於凸輪軸可於閉合狀態與打開狀態之間旋轉地受到支持。回復彈簧以使配重體自打開狀態恢復至閉合狀態之方式對該配重體彈壓。減壓凸輪係以如下方式而設置,即,當配重體為閉合狀態時,與閥動機構接觸,當配重體為打開狀態時,不與閥動機構接觸。減壓銷連接配重體與減壓凸輪。 An engine of one aspect of the present invention includes a cylinder head, an exhaust valve, a valve operating mechanism, a camshaft, a bearing, and a pressure reducing mechanism. The exhaust valve is housed in the cylinder head. The valve mechanism opens and closes the exhaust valve. The camshaft drives the valve actuation mechanism by contact with the valve actuation mechanism. The bearing rotatably supports the camshaft to the cylinder head. The pressure reducing mechanism is disposed between both end portions in the axial direction of the cam shaft. The pressure reducing mechanism includes a weight body, a return spring, a pressure reducing cam, and a pressure reducing pin. The weight body is rotatably supported between the closed state and the open state relative to the camshaft. The return spring biases the weight body in such a manner that the weight body returns from the open state to the closed state. The decompression cam is disposed in such a manner as to be in contact with the valve actuation mechanism when the weight body is in the closed state, and not in contact with the valve actuation mechanism when the weight body is in the open state. The decompression pin connects the weight body and the decompression cam.
自凸輪軸之軸線方向觀察,將通過凸輪軸之旋轉中心與配重體之旋轉中心之直線設為縱軸。將與縱軸正交且通過凸輪軸之旋轉中心之直線設為橫軸。將平行於縱軸之方向中之自凸輪軸之旋轉中心朝向 配重體之旋轉中心之方向設為第1縱方向。將平行於橫軸之方向中之一者設為第1橫方向。將與第1橫方向相反之方向設為第2橫方向。 The straight line passing through the center of rotation of the cam shaft and the center of rotation of the weight body is set as the vertical axis as viewed in the axial direction of the cam shaft. A straight line orthogonal to the vertical axis and passing through the center of rotation of the cam shaft is set as the horizontal axis. Orienting from the center of rotation of the camshaft in a direction parallel to the longitudinal axis The direction of the center of rotation of the weight body is set to the first longitudinal direction. One of the directions parallel to the horizontal axis is set to the first horizontal direction. The direction opposite to the first lateral direction is referred to as the second lateral direction.
自凸輪軸之軸線方向觀察,配重體之重心配置於第1區域。第1區域相對於橫軸位於第1縱方向,並且相對於縱軸位於第1橫方向。配重體包含第1配重體部及第2配重體部。第1配重體部自配重體之旋轉中心沿凸輪軸之周向延伸。第1配重體部之周向端部相對於縱軸位於第1橫方向。第2配重體部自配重體之旋轉中心沿凸輪軸之周向延伸。第2配重體部之周向端部相對於縱軸位於第2橫方向。於凸輪軸之周向上,第1配重體部較第2配重體部長。減壓銷連接於第1配重體部。 The center of gravity of the weight body is disposed in the first region as viewed in the axial direction of the cam shaft. The first region is located in the first longitudinal direction with respect to the horizontal axis and is located in the first lateral direction with respect to the vertical axis. The weight body includes a first weight body portion and a second weight portion. The first weight body extends from the center of rotation of the weight body along the circumferential direction of the cam shaft. The circumferential end portion of the first weight body portion is located in the first lateral direction with respect to the vertical axis. The second weight body extends from the center of rotation of the weight body along the circumferential direction of the cam shaft. The circumferential end portion of the second weight portion is located in the second lateral direction with respect to the vertical axis. In the circumferential direction of the camshaft, the first weight body portion is longer than the second weight body. The decompression pin is connected to the first weight body.
於本態樣之引擎中,第1配重體部之周向端部相對於縱軸位於第1橫方向。即,第1配重體部係以不沿第2橫方向跨越縱軸之方式而延伸。因此,與第1配重體部自相對於縱軸位於第1橫方向之區域延伸至沿第2橫方向跨越縱軸之位置之情形相比,可使配重體之重心遠離凸輪軸之旋轉中心。因此,若凸輪軸之旋轉速度相同,則施加至配重體之離心力變大。藉此,可增大彈力,故而無需使設定轉數上升,便可抑制重力所引起之配重體之打開。 In the engine of the aspect, the circumferential end portion of the first weight body portion is located in the first lateral direction with respect to the vertical axis. That is, the first weight body portion extends so as not to straddle the vertical axis in the second lateral direction. Therefore, the center of gravity of the weight body can be rotated away from the cam shaft as compared with the case where the first weight body portion extends from the region in the first lateral direction with respect to the longitudinal axis to the position in the second lateral direction across the vertical axis. center. Therefore, if the rotational speed of the cam shaft is the same, the centrifugal force applied to the weight body becomes large. Thereby, the elastic force can be increased, so that it is possible to suppress the opening of the weight body caused by the gravity without increasing the set number of revolutions.
又,可使配重體之重心靠近配重體之旋轉中心,故而可減小作用至配重體之重力所引起之力矩。因此,可抑制重力所引起之配重體之打開。 Moreover, the center of gravity of the weight body can be brought close to the center of rotation of the weight body, so that the moment caused by the gravity acting on the weight body can be reduced. Therefore, the opening of the weight body caused by gravity can be suppressed.
進而,減壓銷連接於較第2配重體部長之第1配重體部。因此,與減壓銷連接於第2配重體部之情形相比,可增大減壓銷與配重體之旋轉中心之間之距離。藉此,使減壓銷相對於配重體之旋轉角度之移動量變大。換言之,可減小用以將配重體自閉合狀態切換至打開狀態之配重體之旋轉角度。藉此,可減小配重體為閉合狀態時與為打開狀態時之配重體之重心位置之移位。又,藉由使配重體之旋轉角度變小,可易於避免配重體與周圍之構件之干涉。藉此,配重體之形狀之 自由度較高。 Further, the decompression pin is connected to the first weight body portion of the second weight body. Therefore, the distance between the decompression pin and the center of rotation of the weight body can be increased as compared with the case where the decompression pin is connected to the second weight body. Thereby, the amount of movement of the decompression pin with respect to the rotation angle of the weight body is increased. In other words, the rotation angle of the weight body for switching the weight body from the closed state to the open state can be reduced. Thereby, the displacement of the center of gravity of the weight body when the weight body is in the closed state and in the open state can be reduced. Further, by making the rotation angle of the weight body small, it is possible to easily avoid interference between the weight body and the surrounding members. Thereby, the shape of the weight body The degree of freedom is higher.
此處,配重體為打開狀態時之配重體之重心與凸輪軸之旋轉中心之間的距離大於配重體為閉合狀態時之配重體之重心與凸輪軸之旋轉中心之間的距離。因此,配重體為閉合狀態時與為打開狀態時之配重體之重心位置之移位越大,則配重體越難以恢復至閉合狀態。 Here, the distance between the center of gravity of the weight body and the center of rotation of the cam shaft when the weight body is in the open state is greater than the distance between the center of gravity of the weight body and the center of rotation of the cam shaft when the weight body is in the closed state. . Therefore, the greater the displacement of the center of gravity of the weight body when the weight body is in the closed state and the open state, the more difficult it is for the weight body to return to the closed state.
然而,於本態樣之引擎中,如上所述,可減小配重體為閉合狀態時與為打開狀態時之配重體之重心位置之移位,故而配重體易於恢復至閉合狀態。 However, in the engine of the present aspect, as described above, the displacement of the center of gravity of the weight body when the weight body is in the closed state and in the open state can be reduced, so that the weight body is easily restored to the closed state.
如上所述,於本態樣之引擎中,易於避免當起動時配重體為打開之狀態,故而可提高引擎之起動性。 As described above, in the engine of the present aspect, it is easy to avoid the state in which the weight body is opened when starting, so that the startability of the engine can be improved.
較佳為,第1配重體部包含第1部分及第2部分。自凸輪軸之軸線方向觀察,第1部分配置於第1區域。自凸輪軸之軸線方向觀察,第2部分配置於第2區域。第2區域相對於橫軸位於第2縱方向,並且相對於縱軸位於第1橫方向。第2縱方向係與第1縱方向相反之方向。自凸輪軸之軸線方向觀察,第1配重體部之端部配置於第2區域。於此情形時,與第1配重體部自相對於縱軸位於第1橫方向之區域延伸至沿第2橫方向跨越縱軸之位置之情形相比,可使配重體之重心遠離凸輪軸之旋轉中心。又,與第1配重體部之端部配置於第1區域之情形相比,易於將減壓銷遠離配重體之旋轉中心而配置。 Preferably, the first weight body portion includes the first portion and the second portion. The first portion is disposed in the first region as viewed in the axial direction of the cam shaft. The second portion is disposed in the second region as viewed in the axial direction of the cam shaft. The second region is located in the second longitudinal direction with respect to the horizontal axis and is located in the first lateral direction with respect to the vertical axis. The second longitudinal direction is opposite to the first longitudinal direction. The end portion of the first weight portion is disposed in the second region as viewed in the axial direction of the cam shaft. In this case, the center of gravity of the weight body can be moved away from the cam as compared with the case where the first weight body portion extends from the region in the first lateral direction with respect to the vertical axis to the position in the second lateral direction across the vertical axis. The center of rotation of the shaft. Further, it is easier to arrange the decompression pin away from the center of rotation of the weight body than when the end portion of the first weight portion is disposed in the first region.
較佳為,自凸輪軸之軸線方向觀察,減壓銷配置於第2區域。於此情形時,自凸輪軸之軸線方向觀察,可將第1配重體部之端部配置於第2區域。 Preferably, the decompression pin is disposed in the second region as viewed in the axial direction of the cam shaft. In this case, the end portion of the first weight portion can be disposed in the second region as viewed in the axial direction of the cam shaft.
較佳為,自凸輪軸之軸線方向觀察,配重體之旋轉中心與減壓銷之間之距離為配重體之旋轉中心與凸輪軸之旋轉中心之間之距離以上。於此情形時,可增大減壓銷與配重體之旋轉中心之間之距離。 Preferably, the distance between the center of rotation of the weight body and the decompression pin is greater than the distance between the center of rotation of the weight body and the center of rotation of the cam shaft as viewed in the axial direction of the camshaft. In this case, the distance between the decompression pin and the center of rotation of the weight body can be increased.
較佳為,凸輪軸包含與閥動機構接觸之排氣凸輪。排氣凸輪包 含較基圓更朝外側突出之凸輪凸部。自凸輪軸之軸線方向觀察,配重體之旋轉中心位於較排氣凸輪之基圓更靠凸輪軸之徑向內側。於此情形時,可使配重體之旋轉中心與配重體之重心靠近。 Preferably, the camshaft includes an exhaust cam that is in contact with the valve actuation mechanism. Exhaust cam package A cam projection that protrudes more outward than the base circle. Viewed from the axial direction of the camshaft, the center of rotation of the weight body is located radially inward of the camshaft from the base circle of the exhaust cam. In this case, the center of rotation of the weight body can be brought close to the center of gravity of the weight body.
亦可自凸輪軸之軸線方向觀察,使配重體之旋轉中心位於較凸輪凸部之外周面更靠凸輪軸之徑向外側。於此情形時,可增大減壓銷與配重體之旋轉中心之間之距離。 It is also possible to observe from the axial direction of the cam shaft such that the center of rotation of the weight body is located radially outward of the cam shaft from the outer peripheral surface of the cam lobe. In this case, the distance between the decompression pin and the center of rotation of the weight body can be increased.
較佳為,配重體不具有自凸輪軸之軸線方向觀察配置於第3區域之部分。第3區域相對於橫軸位於第2縱方向,並且相對於縱軸位於第2橫方向。於此情形時,可使配重體之重心進一步遠離凸輪軸之旋轉中心。又,可使配重體之旋轉中心與配重體之重心進一步靠近。 Preferably, the weight body does not have a portion disposed in the third region as viewed from the axial direction of the cam shaft. The third region is located in the second longitudinal direction with respect to the horizontal axis and in the second lateral direction with respect to the vertical axis. In this case, the center of gravity of the weight body can be further moved away from the center of rotation of the camshaft. Moreover, the center of rotation of the weight body can be brought closer to the center of gravity of the weight body.
較佳為,自凸輪軸之軸線方向觀察,第2配重體部之端部配置於第4區域。第4區域相對於橫軸位於第1縱方向,並且相對於縱軸位於第2橫方向。於此情形時,可使配重體之旋轉中心與配重體之重心靠近。 Preferably, the end portion of the second weight portion is disposed in the fourth region as viewed in the axial direction of the cam shaft. The fourth region is located in the first longitudinal direction with respect to the horizontal axis and in the second lateral direction with respect to the vertical axis. In this case, the center of rotation of the weight body can be brought close to the center of gravity of the weight body.
本發明之另一態樣之車輛具備上述引擎。 A vehicle of another aspect of the present invention includes the above engine.
根據本發明,可提供一種能夠提高減壓機構之起動性之引擎及車輛。 According to the present invention, an engine and a vehicle capable of improving the startability of a pressure reducing mechanism can be provided.
1‧‧‧車輛 1‧‧‧ Vehicles
2‧‧‧車輛本體 2‧‧‧ Vehicle body
2a‧‧‧平坦腳踏板 2a‧‧‧flat pedals
3‧‧‧前輪 3‧‧‧ Front wheel
4‧‧‧後輪 4‧‧‧ Rear wheel
5‧‧‧把手 5‧‧‧Hands
6‧‧‧座部 6‧‧‧s
7‧‧‧引擎 7‧‧‧ engine
8‧‧‧變速箱 8‧‧‧Transmission
11‧‧‧曲軸 11‧‧‧ crankshaft
12‧‧‧曲軸箱 12‧‧‧ crankcase
13‧‧‧汽缸體 13‧‧‧Cylinder block
14‧‧‧汽缸頭 14‧‧‧Cylinder head
15‧‧‧活塞 15‧‧‧Piston
16‧‧‧連桿 16‧‧‧ Connecting rod
17‧‧‧燃燒室 17‧‧‧ combustion chamber
18‧‧‧火星塞 18‧‧‧Mars plug
19‧‧‧頭蓋 19‧‧‧ head cover
21‧‧‧進氣埠 21‧‧‧Intake 埠
22‧‧‧排氣埠 22‧‧‧Exhaust gas
23‧‧‧排氣閥 23‧‧‧Exhaust valve
24‧‧‧進氣閥 24‧‧‧Intake valve
25‧‧‧閥動機構 25‧‧‧Valve mechanism
26‧‧‧凸輪軸 26‧‧‧Camshaft
27‧‧‧第1軸承 27‧‧‧1st bearing
28‧‧‧第2軸承 28‧‧‧2nd bearing
29‧‧‧凸輪鏈條 29‧‧‧Cam chain
31‧‧‧第1鏈輪 31‧‧‧1st sprocket
32‧‧‧第2鏈輪 32‧‧‧2nd sprocket
33‧‧‧排氣搖動軸 33‧‧‧Exhaust rocking shaft
34‧‧‧排氣搖動臂 34‧‧‧Exhaust rocker arm
35‧‧‧進氣搖動軸 35‧‧‧Intake shaft
36‧‧‧進氣搖動臂 36‧‧‧Intake swing arm
40‧‧‧減壓機構 40‧‧‧Relief mechanism
41‧‧‧凸緣 41‧‧‧Flange
42‧‧‧配重體 42‧‧‧weights
42a‧‧‧第1卡止部 42a‧‧‧1st stop
42b‧‧‧第2卡止部 42b‧‧‧2nd stop
43‧‧‧減壓凸輪 43‧‧‧Decompression cam
44‧‧‧減壓銷 44‧‧‧Demolition pin
45‧‧‧回復彈簧 45‧‧‧Return spring
46‧‧‧樞銷 46‧‧‧ pivot
47‧‧‧第1配重體部 47‧‧‧1st weight body
48‧‧‧第2配重體部 48‧‧‧2nd weight body
141‧‧‧第1支持壁 141‧‧‧1st support wall
142‧‧‧第2支持壁 142‧‧‧2nd support wall
143‧‧‧第1軸承支持孔 143‧‧‧1st bearing support hole
144‧‧‧第1凹部 144‧‧‧1st recess
145‧‧‧第2凹部 145‧‧‧2nd recess
146‧‧‧第3凹部 146‧‧‧3rd recess
231‧‧‧排氣閥彈簧 231‧‧‧Exhaust valve spring
232‧‧‧桿端 232‧‧‧ rod end
241‧‧‧進氣閥彈簧 241‧‧‧Intake valve spring
242‧‧‧桿端 242‧‧‧ rod end
261‧‧‧第1凸輪軸端部 261‧‧‧1st camshaft end
262‧‧‧第2凸輪軸端部 262‧‧‧2nd camshaft end
263‧‧‧進氣凸輪 263‧‧‧Intake cam
264‧‧‧排氣凸輪 264‧‧‧Exhaust cam
265‧‧‧凹部 265‧‧‧ recess
266‧‧‧基圓 266‧‧‧Ke Yuan
267‧‧‧凸輪凸部 267‧‧‧ cam convex
271‧‧‧內輪 271‧‧‧ Inner wheel
272‧‧‧外輪 272‧‧‧Outside
341‧‧‧臂本體 341‧‧‧arm body
342‧‧‧排氣輥 342‧‧‧Exhaust roller
343‧‧‧排氣閥推壓部 343‧‧‧Exhaust valve pusher
361‧‧‧臂本體 361‧‧‧arm body
362‧‧‧進氣輥 362‧‧‧Intake roller
363‧‧‧進氣閥推壓部 363‧‧‧Intake valve pusher
411‧‧‧孔 411‧‧‧ hole
412‧‧‧第1凸部 412‧‧‧1st convex
413‧‧‧第2凸部 413‧‧‧2nd convex
414‧‧‧孔 414‧‧‧ hole
421‧‧‧第1部分 421‧‧‧Part 1
421a‧‧‧內徑部 421a‧‧‧Down section
421b‧‧‧外徑部 421b‧‧‧ OD
422‧‧‧第2部分 422‧‧‧Part 2
423‧‧‧樞銷支持部 423‧‧‧ pivot support department
423a‧‧‧收納部 423a‧‧‧Storage Department
423b‧‧‧凸座部 423b‧‧‧seat
423c‧‧‧孔 423c‧‧ hole
424‧‧‧第1突出部 424‧‧‧1st protrusion
424a‧‧‧較近之部分 Closer part of 424a‧‧
424b‧‧‧較遠之部分 424b‧‧‧ farther part
425‧‧‧突出部 425‧‧‧Protruding
426‧‧‧內輪接觸部 426‧‧‧Internal wheel contact
426a‧‧‧第1接觸部 426a‧‧1st contact
426b‧‧‧第2接觸部 426b‧‧‧2nd contact
426c‧‧‧第3接觸部 426c‧‧3rd contact
427‧‧‧第2突出部 427‧‧‧2nd protrusion
431‧‧‧頭部 431‧‧‧ head
432‧‧‧軸部 432‧‧‧Axis
433‧‧‧槽部 433‧‧‧ slot department
434‧‧‧凸輪部 434‧‧‧Cam Department
451‧‧‧第1彈簧端部 451‧‧‧1st spring end
452‧‧‧第2彈簧端部 452‧‧‧2nd spring end
471‧‧‧端部 471‧‧‧ end
481‧‧‧端部 481‧‧‧End
A1‧‧‧第1區域 A1‧‧‧1st area
A2‧‧‧第2區域 A2‧‧‧2nd area
A3‧‧‧第3區域 A3‧‧‧3rd area
A4‧‧‧第4區域 A4‧‧‧4th area
C1‧‧‧凸輪軸26之旋轉中心 C1‧‧‧Rotation center of camshaft 26
C2‧‧‧配重體42之旋轉中心 C2‧‧‧The center of rotation of the counterweight 42
G1‧‧‧配重體42之重心 G1‧‧‧Center of gravity 42
G2‧‧‧無第1突出部424之情形時之配重體42之重心 G2‧‧‧ Center of gravity of the weight body 42 in the absence of the first protrusion 424
X‧‧‧橫軸 X‧‧‧ horizontal axis
x1‧‧‧第1橫方向 X1‧‧‧1st horizontal direction
x2‧‧‧第2橫方向 X2‧‧‧2nd horizontal direction
Y‧‧‧縱軸 Y‧‧‧ vertical axis
y1‧‧‧第1縱方向 Y1‧‧‧1st longitudinal direction
y2‧‧‧第2縱方向 Y2‧‧‧2nd longitudinal direction
圖1係車輛之側視圖。 Figure 1 is a side view of the vehicle.
圖2係引擎之一部分之剖視圖。 Figure 2 is a cross-sectional view of a portion of the engine.
圖3係垂直於凸輪軸之平面中之汽缸頭之剖視圖。 Figure 3 is a cross-sectional view of the cylinder head in a plane perpendicular to the camshaft.
圖4係凸輪軸組裝體之放大剖視圖。 4 is an enlarged cross-sectional view of the camshaft assembly.
圖5係凸輪軸組裝體之立體圖。 Figure 5 is a perspective view of a camshaft assembly.
圖6係凸輪軸組裝體之分解圖。 Figure 6 is an exploded view of the camshaft assembly.
圖7係表示閉合狀態之配重體之圖。 Fig. 7 is a view showing a weight body in a closed state.
圖8係表示打開狀態之配重體之圖。 Fig. 8 is a view showing a weight body in an open state.
圖9(A)、(B)係排氣凸輪之放大圖。 9(A) and (B) are enlarged views of the exhaust cam.
圖10係凸輪軸組裝體之側視圖。 Figure 10 is a side view of the camshaft assembly.
圖11係表示自凸輪軸線方向觀察之凸輪軸組裝體之圖。 Fig. 11 is a view showing the cam shaft assembly viewed from the cam axis direction.
圖12係表示自凸輪軸線方向觀察之配重體之圖。 Fig. 12 is a view showing the weight body viewed from the direction of the cam axis.
圖13係配重體之立體圖。 Figure 13 is a perspective view of the weight body.
圖14係自圖10之箭頭XIV之方向觀察之凸輪軸組裝體之側視圖。 Fig. 14 is a side view of the camshaft assembly viewed from the direction of the arrow XIV of Fig. 10.
圖15係表示自凸輪軸線方向觀察之凸緣、配重體、及回復彈簧之圖。 Fig. 15 is a view showing the flange, the weight body, and the return spring viewed from the direction of the cam axis.
圖16係表示將頭蓋拆除後之狀態之汽缸頭之圖。 Fig. 16 is a view showing a cylinder head in a state in which the head cover is removed.
圖17係表示第1變化例之配重體之圖。 Fig. 17 is a view showing a weight body of a first modification.
圖18係表示第2變化例之配重體之圖。 Fig. 18 is a view showing a weight body of a second modification.
圖19係表示第3變化例之配重體之圖。 Fig. 19 is a view showing a weight body of a third modification.
圖20係表示第4變化例之配重體之圖。 Fig. 20 is a view showing a weight body of a fourth modification.
以下,參照圖式,對實施形態之車輛1進行說明。圖1係車輛1之側視圖。車輛1係速克達(scooter)型機車。車輛1包含車輛本體2、前輪3、後輪4、把手5、及座部6。車輛本體2包含平坦腳踏板2a。車輛本體2支持前輪3及後輪4。把手5與座部6安裝於車輛本體2。平坦腳踏板2a配置於座部6之前方且下方。 Hereinafter, the vehicle 1 of the embodiment will be described with reference to the drawings. 1 is a side view of the vehicle 1. The vehicle 1 is a scooter type locomotive. The vehicle 1 includes a vehicle body 2, a front wheel 3, a rear wheel 4, a handle 5, and a seat portion 6. The vehicle body 2 includes a flat footboard 2a. The vehicle body 2 supports the front wheel 3 and the rear wheel 4. The handle 5 and the seat portion 6 are attached to the vehicle body 2. The flat footboard 2a is disposed in front of and below the seat portion 6.
車輛1包含實施形態之引擎7。圖2係引擎7之一部分之剖視圖。如圖2所示,引擎7包含曲軸11、曲軸箱12、汽缸體13、汽缸頭14、及頭蓋19。汽缸體13連接於曲軸箱12。汽缸體13可與曲軸箱12為一體,或亦可與曲軸箱12分開。汽缸體13收納活塞15。活塞15經由連桿16連結於曲軸11。曲軸11連接於變速箱8。 The vehicle 1 includes an engine 7 of an embodiment. 2 is a cross-sectional view of a portion of the engine 7. As shown in FIG. 2, the engine 7 includes a crankshaft 11, a crankcase 12, a cylinder block 13, a cylinder head 14, and a head cover 19. The cylinder block 13 is coupled to the crankcase 12. The cylinder block 13 may be integral with the crankcase 12 or may be separate from the crankcase 12. The cylinder block 13 houses the piston 15. The piston 15 is coupled to the crankshaft 11 via a connecting rod 16 . The crankshaft 11 is connected to the gearbox 8.
汽缸頭14連接於汽缸體13。汽缸頭14包含燃燒室17。於汽缸頭 14安裝有火星塞18。火星塞18之前端部面向燃燒室17而配置。頭蓋19安裝於汽缸頭14。 The cylinder head 14 is coupled to the cylinder block 13. The cylinder head 14 includes a combustion chamber 17. On the cylinder head 14 installed with Mars plug 18. The front end of the Mars plug 18 is disposed facing the combustion chamber 17. The head cover 19 is mounted to the cylinder head 14.
引擎7包含閥動機構25及凸輪軸26。閥動機構25與凸輪軸26收納於汽缸頭14。凸輪軸26藉由與閥動機構25接觸,而驅動閥動機構25。 The engine 7 includes a valve mechanism 25 and a camshaft 26. The valve mechanism 25 and the cam shaft 26 are housed in the cylinder head 14. The camshaft 26 drives the valve actuation mechanism 25 by contact with the valve actuation mechanism 25.
凸輪軸26支持於汽缸頭14。汽缸頭14包含第1支持壁141及第2支持壁142。第1支持壁141與第2支持壁142沿凸輪軸26之軸線方向(以下稱為「凸輪軸線方向」)並排配置。第1支持壁141支持凸輪軸26。第1支持壁141經由第1軸承27支持凸輪軸26。第2支持壁142支持凸輪軸26。第2支持壁142經由第2軸承28支持凸輪軸26。第1軸承27與第2軸承28將凸輪軸26可旋轉地支持於汽缸頭14。第1軸承27之外徑大於第2軸承28之外徑。再者,第1支持壁141亦可不經由第1軸承27而支持凸輪軸26。第2支持壁142亦可不經由第2軸承28而支持凸輪軸26。 The camshaft 26 is supported by the cylinder head 14. The cylinder head 14 includes a first support wall 141 and a second support wall 142. The first support wall 141 and the second support wall 142 are arranged side by side in the axial direction of the cam shaft 26 (hereinafter referred to as "cam axis direction"). The first support wall 141 supports the cam shaft 26. The first support wall 141 supports the cam shaft 26 via the first bearing 27 . The second support wall 142 supports the cam shaft 26. The second support wall 142 supports the cam shaft 26 via the second bearing 28 . The first bearing 27 and the second bearing 28 rotatably support the cam shaft 26 to the cylinder head 14. The outer diameter of the first bearing 27 is larger than the outer diameter of the second bearing 28. Further, the first support wall 141 can support the cam shaft 26 without passing through the first bearing 27 . The second support wall 142 can also support the cam shaft 26 without passing through the second bearing 28 .
凸輪軸26包含第1凸輪軸端部261及第2凸輪軸端部262。第1軸承27配置於在凸輪軸線方向上較第2凸輪軸端部262更靠第1凸輪軸端部261處。第2軸承28配置於在凸輪軸線方向上較第1凸輪軸端部261更靠第2凸輪軸端部262處。 The camshaft 26 includes a first camshaft end 261 and a second camshaft end 262. The first bearing 27 is disposed closer to the first cam shaft end portion 261 than the second cam shaft end portion 262 in the cam axis direction. The second bearing 28 is disposed closer to the second cam shaft end portion 262 than the first cam shaft end portion 261 in the cam axis direction.
於凸輪軸26與曲軸11捲繞有凸輪鏈條29。詳細而言,於凸輪軸26安裝有第1鏈輪31。第1鏈輪31安裝於第1凸輪軸端部261。於曲軸11安裝有第2鏈輪32。凸輪鏈條29捲繞於第1鏈輪31與第2鏈輪32。 A cam chain 29 is wound around the cam shaft 26 and the crankshaft 11. Specifically, the first sprocket 31 is attached to the cam shaft 26 . The first sprocket 31 is attached to the first camshaft end portion 261. A second sprocket 32 is attached to the crankshaft 11. The cam chain 29 is wound around the first sprocket 31 and the second sprocket 32.
曲軸11之旋轉經由凸輪鏈條29傳遞至凸輪軸26,藉此,使凸輪軸26旋轉。凸輪軸26包含進氣凸輪263及排氣凸輪264。進氣凸輪263與排氣凸輪264沿凸輪軸線方向並排配置。藉由凸輪軸26旋轉,而使進氣凸輪263與排氣凸輪264旋轉。進氣凸輪263與排氣凸輪264與閥動機構25接觸,藉由進氣凸輪263與排氣凸輪264旋轉,而驅動閥動機構25。 The rotation of the crankshaft 11 is transmitted to the camshaft 26 via the cam chain 29, whereby the camshaft 26 is rotated. The camshaft 26 includes an intake cam 263 and an exhaust cam 264. The intake cam 263 and the exhaust cam 264 are arranged side by side in the cam axis direction. The intake cam 263 and the exhaust cam 264 are rotated by the rotation of the cam shaft 26. The intake cam 263 and the exhaust cam 264 are in contact with the valve mechanism 25, and the intake cam 263 and the exhaust cam 264 are rotated to drive the valve mechanism 25.
圖3係垂直於凸輪軸26之平面中之汽缸頭14之剖視圖。如圖3所 示,引擎7包含排氣閥23及進氣閥24。汽缸頭14包含與燃燒室17連通之進氣埠21及排氣埠22。排氣閥23與進氣閥24收納於汽缸頭14。進氣閥24使進氣埠21打開及閉合。排氣閥23使排氣埠22打開及閉合。閥動機構25使進氣閥24與排氣閥23打開及閉合。 3 is a cross-sectional view of the cylinder head 14 in a plane perpendicular to the camshaft 26. As shown in Figure 3 The engine 7 includes an exhaust valve 23 and an intake valve 24. The cylinder head 14 includes an intake port 21 and an exhaust port 22 that communicate with the combustion chamber 17. The exhaust valve 23 and the intake valve 24 are housed in the cylinder head 14. The intake valve 24 opens and closes the intake port 21. The exhaust valve 23 opens and closes the exhaust port 22. The valve actuation mechanism 25 opens and closes the intake valve 24 and the exhaust valve 23.
於進氣閥24安裝有進氣閥彈簧241。進氣閥彈簧241將進氣閥24向進氣閥24閉合進氣埠21之方向彈壓。於排氣閥23安裝有排氣閥彈簧231。排氣閥彈簧231將排氣閥23向排氣閥23閉合排氣埠22之方向彈壓。 An intake valve spring 241 is attached to the intake valve 24. The intake valve spring 241 biases the intake valve 24 toward the intake valve 24 in the direction of closing the intake port 21. An exhaust valve spring 231 is attached to the exhaust valve 23. The exhaust valve spring 231 biases the exhaust valve 23 in the direction in which the exhaust valve 23 closes the exhaust port 22.
閥動機構25包含排氣搖動軸33及排氣搖動臂34。排氣搖動軸33與凸輪軸26平行地配置。排氣搖動軸33支持於汽缸頭14。排氣搖動臂34能夠以排氣搖動軸33為中心搖動地支持於排氣搖動軸33。排氣搖動臂34設置為可使排氣閥23動作。排氣搖動臂34包含臂本體341、排氣輥342、及排氣閥推壓部343。 The valve actuation mechanism 25 includes an exhaust swing shaft 33 and an exhaust swing arm 34. The exhaust rocking shaft 33 is disposed in parallel with the cam shaft 26. The exhaust rocker shaft 33 is supported by the cylinder head 14. The exhaust swing arm 34 is slidably supported by the exhaust swing shaft 33 around the exhaust swing shaft 33. The exhaust swing arm 34 is provided to operate the exhaust valve 23. The exhaust swing arm 34 includes an arm body 341, an exhaust roller 342, and an exhaust valve pressing portion 343.
臂本體341可搖動地支持於排氣搖動軸33。臂本體341之一端將排氣輥342可旋轉地支持。臂本體341之另一端支持排氣閥推壓部343。排氣輥342與排氣凸輪264接觸,且藉由排氣凸輪264之旋轉而旋轉。排氣閥推壓部343之前端與排氣閥23之桿端232相對向。 The arm body 341 is rockably supported by the exhaust rocking shaft 33. One end of the arm body 341 rotatably supports the exhaust roller 342. The other end of the arm body 341 supports the exhaust valve pressing portion 343. The exhaust roller 342 is in contact with the exhaust cam 264 and is rotated by the rotation of the exhaust cam 264. The front end of the exhaust valve pressing portion 343 faces the rod end 232 of the exhaust valve 23.
若藉由排氣凸輪264上推排氣輥342,則排氣搖動臂34搖動,藉此,排氣閥推壓部343下壓排氣閥23之桿端232。藉此,下壓排氣閥23而打開排氣埠22。當不藉由排氣凸輪264上推排氣輥342時,藉由排氣閥彈簧231上推排氣閥23,而閉合排氣埠22。 When the exhaust roller 342 is pushed up by the exhaust cam 264, the exhaust swing arm 34 is rocked, whereby the exhaust valve pressing portion 343 presses the rod end 232 of the exhaust valve 23. Thereby, the exhaust valve 23 is depressed to open the exhaust port 22. When the exhaust roller 342 is not pushed up by the exhaust cam 264, the exhaust valve 22 is closed by the exhaust valve spring 231 pushing up the exhaust valve 23.
閥動機構25包含進氣搖動軸35及進氣搖動臂36。進氣搖動軸35與凸輪軸26平行而配置。進氣搖動軸35支持於汽缸頭14。進氣搖動臂36能夠以進氣搖動軸35為中心搖動地支持於進氣搖動軸35。進氣搖動臂36設置為可使進氣閥24動作。進氣搖動臂36包含臂本體361、進氣輥362、及進氣閥推壓部363。 The valve actuation mechanism 25 includes an intake swing shaft 35 and an intake swing arm 36. The intake rocking shaft 35 is disposed in parallel with the cam shaft 26. The intake rocking shaft 35 is supported by the cylinder head 14. The intake swing arm 36 is slidably supported by the intake swing shaft 35 about the intake swing shaft 35. The intake swing arm 36 is arranged to operate the intake valve 24. The intake swing arm 36 includes an arm body 361, an intake roller 362, and an intake valve pressing portion 363.
臂本體361可搖動地支持於進氣搖動軸35。臂本體361之一端將進氣輥362可旋轉地支持。臂本體361之另一端支持進氣閥推壓部363。進氣輥362與進氣凸輪263接觸,且藉由進氣凸輪263之旋轉而旋轉。進氣閥推壓部363之前端與進氣閥24之桿端242相對向。 The arm body 361 is rockably supported by the intake rocking shaft 35. One end of the arm body 361 rotatably supports the intake roller 362. The other end of the arm body 361 supports the intake valve pressing portion 363. The intake roller 362 is in contact with the intake cam 263 and is rotated by the rotation of the intake cam 263. The front end of the intake valve pressing portion 363 is opposed to the rod end 242 of the intake valve 24.
若進氣凸輪263上推進氣輥362,則進氣搖動臂36搖動,藉此,進氣閥推壓部363下壓進氣閥24之桿端。藉此,下壓進氣閥24而打開進氣埠21。當不藉由進氣凸輪263上推進氣輥362時,藉由進氣閥彈簧241上推進氣閥24,而閉合進氣埠21。 When the air roller 362 is pushed up on the intake cam 263, the intake swing arm 36 is rocked, whereby the intake valve pressing portion 363 presses down the rod end of the intake valve 24. Thereby, the intake valve 24 is depressed to open the intake port 21. When the air roller 362 is not propelled by the intake cam 263, the intake valve 21 is closed by pushing the air valve 24 on the intake valve spring 241.
如圖2所示,引擎7包含減壓機構40。圖4係凸輪軸26、減壓機構40、及第1軸承27之組裝體(以下稱為「凸輪軸組裝體」)之放大圖。減壓機構40於凸輪軸線方向上配置於第1凸輪軸端部261與第2凸輪軸端部262之間。減壓機構40配置於汽缸頭14之第1支持壁141與第2支持壁142之間。 As shown in FIG. 2, the engine 7 includes a pressure reducing mechanism 40. 4 is an enlarged view of an assembly of the camshaft 26, the pressure reducing mechanism 40, and the first bearing 27 (hereinafter referred to as a "camshaft assembly"). The pressure reducing mechanism 40 is disposed between the first cam shaft end portion 261 and the second cam shaft end portion 262 in the cam axis direction. The pressure reducing mechanism 40 is disposed between the first support wall 141 of the cylinder head 14 and the second support wall 142.
圖5係凸輪軸組裝體之立體圖。圖6係凸輪軸組裝體之分解圖。如圖5及圖6所示,減壓機構40包含凸緣41、配重體42、減壓凸輪43、減壓銷44、及回復彈簧45。 Figure 5 is a perspective view of a camshaft assembly. Figure 6 is an exploded view of the camshaft assembly. As shown in FIGS. 5 and 6, the pressure reducing mechanism 40 includes a flange 41, a weight body 42, a pressure reducing cam 43, a pressure reducing pin 44, and a return spring 45.
如圖6所示,凸緣41與凸輪軸26分開,且固定於凸輪軸26。詳細而言,凸緣41包含孔411。於凸緣41之孔411插入有凸輪軸26,凸緣41藉由壓入而固定於凸輪軸26。凸緣41於凸輪軸線方向上,配置於配重體42與排氣凸輪264之間。 As shown in FIG. 6, the flange 41 is separated from the cam shaft 26 and is fixed to the cam shaft 26. In detail, the flange 41 includes a hole 411. A cam shaft 26 is inserted into the hole 411 of the flange 41, and the flange 41 is fixed to the cam shaft 26 by press fitting. The flange 41 is disposed between the weight body 42 and the exhaust cam 264 in the cam axis direction.
凸緣41包含第1凸部412及第2凸部413。於第1凸部412安裝有樞銷46。於第2凸部413設置有孔414。於第2凸部413之孔414插入有減壓凸輪43。 The flange 41 includes a first convex portion 412 and a second convex portion 413. A pivot pin 46 is attached to the first convex portion 412. A hole 414 is provided in the second convex portion 413. A pressure reducing cam 43 is inserted into the hole 414 of the second convex portion 413.
配重體42於凸輪軸線方向上,配置於第1軸承27與凸緣41之間。配重體42相對於凸輪軸26可於閉合狀態與打開狀態之間旋轉地受到支持。 The weight body 42 is disposed between the first bearing 27 and the flange 41 in the cam axis direction. The weight body 42 is rotatably supported relative to the camshaft 26 between a closed state and an open state.
圖7及圖8係圖4中之A-A剖視圖。圖7係表示閉合狀態之配重體42。圖8係表示打開狀態之配重體42。 7 and 8 are cross-sectional views taken along line A-A of Fig. 4. Fig. 7 shows the weight body 42 in a closed state. Fig. 8 shows the weight body 42 in an open state.
減壓凸輪43可旋轉地支持於凸緣41。詳細而言,配重體42經由樞銷46可旋轉地支持於凸緣41。配重體42藉由以樞銷46為中心旋轉,而切換成閉合狀態與打開狀態。 The pressure reducing cam 43 is rotatably supported by the flange 41. In detail, the weight body 42 is rotatably supported by the flange 41 via the pivot pin 46. The weight body 42 is switched to a closed state and an open state by being rotated about the pivot pin 46.
減壓凸輪43經由減壓銷44與配重體42連接。藉此,減壓凸輪43隨著配重體42之旋轉而旋轉。 The pressure reducing cam 43 is connected to the weight body 42 via a pressure reducing pin 44. Thereby, the decompression cam 43 rotates as the weight body 42 rotates.
詳細而言,如圖4及圖6所示,減壓凸輪43包含頭部431及軸部432。軸部432插入至凸緣41之孔414。頭部431配置於凸緣41與配重體42之間。頭部431之外徑大於凸緣41之孔414之內徑。頭部431包含槽部433。槽部433具有自頭部431之端面凹陷之形狀。槽部433自頭部431之外周面朝頭部431之內側延伸。減壓銷44之端部配置於槽部433內。再者,於本實施形態中,內側係指徑向上之內側。又,外側係指徑向上之外側。 Specifically, as shown in FIGS. 4 and 6 , the decompression cam 43 includes a head portion 431 and a shaft portion 432 . The shaft portion 432 is inserted into the hole 414 of the flange 41. The head portion 431 is disposed between the flange 41 and the weight body 42. The outer diameter of the head 431 is larger than the inner diameter of the bore 414 of the flange 41. The head 431 includes a groove portion 433. The groove portion 433 has a shape recessed from the end surface of the head portion 431. The groove portion 433 extends from the outer peripheral surface of the head portion 431 toward the inner side of the head portion 431. The end of the decompression pin 44 is disposed in the groove portion 433. Further, in the present embodiment, the inner side refers to the inner side in the radial direction. Further, the outer side means the outer side in the radial direction.
軸部432包含凸輪部434。排氣凸輪264包含凹部265。凹部265具有自排氣凸輪264之外周面朝排氣凸輪264之內側凹陷之形狀。圖9係排氣凸輪264之放大圖。圖10係凸輪軸組裝體之側視圖。 The shaft portion 432 includes a cam portion 434. The exhaust cam 264 includes a recess 265. The recess 265 has a shape recessed from the outer peripheral surface of the exhaust cam 264 toward the inner side of the exhaust cam 264. FIG. 9 is an enlarged view of the exhaust cam 264. Figure 10 is a side view of the camshaft assembly.
凸輪部434配置於排氣凸輪264之凹部265內。凸輪部434之截面具有一部分切缺之圓形之形狀。如上所述,減壓凸輪43隨著配重體42之旋轉而旋轉。圖9(A)係表示配重體42打開狀態時之減壓凸輪43。圖9(B)係表示配重體42閉合狀態時之減壓凸輪43。減壓凸輪43隨著配重體42之旋轉,切換成與閥動機構25之排氣輥342之接觸之狀態、及不與排氣輥342接觸之狀態。 The cam portion 434 is disposed in the recess 265 of the exhaust cam 264. The cross section of the cam portion 434 has a partially rounded shape. As described above, the decompression cam 43 rotates as the weight body 42 rotates. Fig. 9(A) shows the decompression cam 43 when the weight body 42 is in an open state. Fig. 9(B) shows the decompression cam 43 when the weight body 42 is in the closed state. The decompression cam 43 is switched to a state of being in contact with the exhaust roller 342 of the valve actuation mechanism 25 and not in contact with the exhaust roller 342 as the weight body 42 rotates.
詳細而言,當配重體42為打開狀態時,如圖9(A)所示,減壓凸輪43之凸輪部434之整體配置於凹部265內。即,當配重體42為打開狀態時,凸輪部434成為不自排氣凸輪264之外周面朝外側突出之狀態。藉 此,當配重體42為打開狀態時,減壓凸輪43不與排氣輥342接觸。 Specifically, when the weight body 42 is in the open state, as shown in FIG. 9(A), the entire cam portion 434 of the pressure reducing cam 43 is disposed in the concave portion 265. In other words, when the weight body 42 is in the open state, the cam portion 434 does not protrude outward from the outer peripheral surface of the exhaust cam 264. borrow Thus, when the weight body 42 is in the open state, the pressure reducing cam 43 is not in contact with the exhaust roller 342.
當配重體42為閉合狀態時,如圖9(B)所示,減壓凸輪43之凸輪部434之一部分配置於凹部265外。即,當配重體42為閉合狀態時,凸輪部434之一部分成為自排氣凸輪264之外周面朝外側突出之狀態。藉此,當配重體42為閉合狀態時,減壓凸輪43與排氣輥342接觸。 When the weight body 42 is in the closed state, as shown in FIG. 9(B), one of the cam portions 434 of the pressure reducing cam 43 is disposed outside the concave portion 265. In other words, when the weight body 42 is in the closed state, one of the cam portions 434 is in a state of protruding outward from the outer circumferential surface of the exhaust cam 264. Thereby, when the weight body 42 is in a closed state, the pressure reducing cam 43 comes into contact with the exhaust roller 342.
回復彈簧45以使配重體42自打開狀態恢復至閉合狀態之方式對該配重體42彈壓。於本實施形態中,回復彈簧45係螺旋彈簧。但是,回復彈簧45亦可為其他種類之彈簧。如圖6所示,回復彈簧45包含第1彈簧端部451及第2彈簧端部452。第1彈簧端部451沿凸輪軸線方向延伸。第2彈簧端部452沿與凸輪軸線方向交叉之方向延伸。第2彈簧端部452沿回復彈簧45之周向延伸。第1彈簧端部451卡止於凸緣41。第2彈簧端部452卡止於配重體42。 The return spring 45 biases the weight body 42 in such a manner that the weight body 42 is restored from the open state to the closed state. In the present embodiment, the return spring 45 is a coil spring. However, the return spring 45 can also be other types of springs. As shown in FIG. 6, the return spring 45 includes a first spring end portion 451 and a second spring end portion 452. The first spring end portion 451 extends in the cam axis direction. The second spring end portion 452 extends in a direction crossing the cam axis direction. The second spring end portion 452 extends in the circumferential direction of the return spring 45. The first spring end portion 451 is locked to the flange 41. The second spring end portion 452 is locked to the weight body 42.
繼而,對配重體42之構造進行詳細說明。如圖7所示,自凸輪軸線方向觀察,將通過凸輪軸26之旋轉中心C1與配重體42之旋轉中心C2之直線設為縱軸Y。將與縱軸Y正交、且通過凸輪軸26之旋轉中心C1之直線設為橫軸X。將平行於縱軸Y之方向中之自凸輪軸26之旋轉中心C1朝向配重體42之旋轉中心C2之方向設為第1縱方向y1。將與第1縱方向y1相反之方向設為第2縱方向y2。將平行於橫軸X之方向中之一者設為第1橫方向x1。將與第1橫方向x1相反之方向設為第2橫方向x2。 Next, the configuration of the weight body 42 will be described in detail. As shown in Fig. 7, the straight line passing through the center of rotation C1 of the cam shaft 26 and the center of rotation C2 of the weight body 42 is defined as the vertical axis Y as viewed in the direction of the cam axis. A straight line orthogonal to the vertical axis Y and passing through the rotation center C1 of the cam shaft 26 is referred to as a horizontal axis X. The direction from the rotation center C1 of the cam shaft 26 toward the rotation center C2 of the weight body 42 in the direction parallel to the longitudinal axis Y is referred to as the first longitudinal direction y1. The direction opposite to the first longitudinal direction y1 is referred to as the second longitudinal direction y2. One of the directions parallel to the horizontal axis X is set to the first horizontal direction x1. The direction opposite to the first lateral direction x1 is referred to as the second lateral direction x2.
又,將相對於橫軸X位於第1縱方向y1、並且相對於縱軸Y位於第1橫方向x1之區域設為第1區域A1。將相對於橫軸X位於第2縱方向y2、並且相對於縱軸Y位於第1橫方向x1之區域設為第2區域A2。自凸輪軸線方向觀察,將相對於橫軸X位於第2縱方向y2、並且相對於縱軸Y位於第2橫方向x2之區域設為第3區域A3。將相對於橫軸X位於第1縱方向y1、並且相對於縱軸Y位於第2橫方向x2之區域設為第4區域 A4。 Further, a region located in the first longitudinal direction y1 with respect to the horizontal axis X and located in the first lateral direction x1 with respect to the vertical axis Y is referred to as a first region A1. A region located in the second longitudinal direction y2 with respect to the horizontal axis X and located in the first lateral direction x1 with respect to the vertical axis Y is referred to as a second region A2. The region located in the second longitudinal direction y2 with respect to the horizontal axis X and in the second lateral direction x2 with respect to the vertical axis Y is referred to as the third region A3 as viewed in the cam axis direction. A region located in the first longitudinal direction y1 with respect to the horizontal axis X and located in the second lateral direction x2 with respect to the vertical axis Y is referred to as a fourth region. A4.
再者,圖7係表示於凸輪軸線方向上自第1凸輪軸端部261側觀察之配重體42。因此,上述方向x1、x2、y1、y2及區域A1~A4係於在凸輪軸線方向上自第1凸輪軸端部261側觀察之情形時所定義,但亦可於在凸輪軸線方向上自第2凸輪軸端部262側觀察之情形時定義上述方向x1、x2、y1、y2及區域A1~A4。 Further, Fig. 7 shows the weight body 42 viewed from the side of the first cam shaft end portion 261 in the cam axis direction. Therefore, the above-described directions x1, x2, y1, y2 and the regions A1 to A4 are defined when viewed from the side of the first camshaft end portion 261 in the cam axis direction, but may be in the direction of the cam axis. When the camshaft end 262 side is viewed, the directions x1, x2, y1, and y2 and the areas A1 to A4 are defined.
如圖7所示,配重體42具有沿凸輪軸26之周向延伸之形狀。配重體42於第1區域A1、第2區域A2、及第4區域A4配置於凸輪軸26之周圍。配重體42具有於凸輪軸26之周向上跨及第1~第4區域A1~A4中之複數個區域之形狀。自凸輪軸線方向觀察,配重體42並不具有配置於第3區域A3之部分。 As shown in FIG. 7, the weight body 42 has a shape that extends in the circumferential direction of the cam shaft 26. The weight body 42 is disposed around the cam shaft 26 in the first area A1, the second area A2, and the fourth area A4. The weight body 42 has a shape that straddles the circumferential direction of the cam shaft 26 and a plurality of regions in the first to fourth regions A1 to A4. The weight body 42 does not have a portion disposed in the third region A3 as viewed in the cam axis direction.
詳細而言,配重體42包含第1配重體部47及第2配重體部48。第1配重體部47自配重體42之旋轉中心C2沿凸輪軸26之周向且第1橫方向x1延伸。第1配重體部47之周向上之端部471相對於縱軸Y位於第1橫方向x1。即,第1配重體部47之整體相對於縱軸Y位於第1橫方向x1。自凸輪軸線方向觀察,第1配重體部47之端部471配置於第2區域A2。 Specifically, the weight body 42 includes the first weight body portion 47 and the second weight body portion 48 . The first weight body portion 47 extends from the rotation center C2 of the weight body 42 in the circumferential direction of the cam shaft 26 and in the first lateral direction x1. The circumferential end portion 471 of the first weight portion 47 is located in the first lateral direction x1 with respect to the vertical axis Y. In other words, the entire first weight body portion 47 is located in the first lateral direction x1 with respect to the vertical axis Y. The end portion 471 of the first weight body portion 47 is disposed in the second region A2 as viewed in the cam axis direction.
第2配重體部48自配重體42之旋轉中心C2沿凸輪軸26之周向且第2橫方向x2延伸。第2配重體部48之周向上之端部481相對於縱軸Y位於第2橫方向x2。即,第2配重體部48之整體相對於縱軸Y位於第2橫方向x2。自凸輪軸線方向觀察,第2配重體部48之端部481配置於第4區域A4。 The second weight body portion 48 extends from the rotation center C2 of the weight body 42 in the circumferential direction of the cam shaft 26 and in the second lateral direction x2. The circumferential end portion 481 of the second weight portion 48 is located in the second lateral direction x2 with respect to the vertical axis Y. That is, the entire second weight body portion 48 is located in the second lateral direction x2 with respect to the vertical axis Y. The end portion 481 of the second weight body portion 48 is disposed in the fourth region A4 as viewed in the cam axis direction.
於凸輪軸26之周向上,第1配重體部47較第2配重體部48長。即,繞凸輪軸26之旋轉中心C1之配重體42之旋轉中心C2至第1配重體部47之端部471之角度大於配重體42之旋轉中心C2至第2配重體部48之端部481之角度。 The first weight body portion 47 is longer than the second weight body portion 48 in the circumferential direction of the cam shaft 26. That is, the angle from the rotation center C2 of the weight body 42 around the rotation center C1 of the cam shaft 26 to the end portion 471 of the first weight body portion 47 is larger than the rotation center C2 to the second weight body portion 48 of the weight body 42. The angle of the end 481.
第1配重體部47包含第1部分421及第2部分422。自凸輪軸線方向 觀察,第1部分421配置於第1區域A1。自凸輪軸線方向觀察,第2部分422配置於第2區域A2。第2配重體部48配置於第4區域A4。 The first weight body portion 47 includes a first portion 421 and a second portion 422. From the cam axis direction It is observed that the first portion 421 is disposed in the first area A1. The second portion 422 is disposed in the second region A2 as viewed in the cam axis direction. The second weight body portion 48 is disposed in the fourth region A4.
配重體42包含樞銷支持部423。樞銷支持部423跨第1部分421與第2部分422而配置。樞銷46安裝於樞銷支持部423。 The weight body 42 includes a pivot pin support portion 423. The pivot pin support portion 423 is disposed across the first portion 421 and the second portion 422. The pivot pin 46 is mounted to the pivot pin support portion 423.
排氣凸輪264包含朝較基圓266更靠外側突出之凸輪凸部267(cam lobe)。自凸輪軸線方向觀察,樞銷46之一部分並不與凸輪凸部267重疊。即,自凸輪軸線方向觀察,樞銷46之一部分位於較排氣凸輪264之外周面更靠外側處。又,樞銷46包含自凸輪軸線方向觀察位於較基圓266更靠內側之部分。 The exhaust cam 264 includes a cam lobe 267 that protrudes further outward than the base circle 266. One portion of the pivot pin 46 does not overlap the cam projection 267 as viewed in the direction of the cam axis. That is, one portion of the pivot pin 46 is located further outward than the outer peripheral surface of the exhaust cam 264 as viewed in the direction of the cam axis. Further, the pivot pin 46 includes a portion located further inside than the base circle 266 as viewed from the direction of the cam axis.
減壓銷44連接於第1配重體部47。詳細而言,減壓銷44連接於第2部分422。自凸輪軸線方向觀察,減壓銷44配置於第2區域A2。自凸輪軸線方向觀察,配重體42之旋轉中心C2與減壓銷44之間之距離為配重體42之旋轉中心C2與凸輪軸26之旋轉中心C1之間之距離以上。 The decompression pin 44 is connected to the first weight body portion 47. Specifically, the decompression pin 44 is connected to the second portion 422. The decompression pin 44 is disposed in the second region A2 as viewed in the cam axis direction. The distance between the rotation center C2 of the weight body 42 and the decompression pin 44 is greater than the distance between the rotation center C2 of the weight body 42 and the rotation center C1 of the cam shaft 26 as viewed in the cam axis direction.
圖11係表示自凸輪軸線方向觀察之凸輪軸組裝體之圖。如圖11所示,自凸輪軸線方向觀察,凸緣41之外形包含大於第1軸承27之外形之部分。詳細而言,第1凸部412朝較第1軸承27之外周面更靠外側突出。 Fig. 11 is a view showing the cam shaft assembly viewed from the cam axis direction. As shown in Fig. 11, the outer shape of the flange 41 includes a portion larger than the outer shape of the first bearing 27 as viewed in the direction of the cam axis. Specifically, the first convex portion 412 protrudes outward from the outer circumferential surface of the first bearing 27 .
於閉合狀態下,配重體42之第1部分421包含第1突出部424。自凸輪軸線方向觀察,第1突出部424朝較第1軸承27之外周面更靠外側突出。自凸輪軸線方向觀察,第2部分422之外周面位於較第1軸承27之外周面更靠內側處。自凸輪軸線方向觀察,第2配重體部48之外周面位於較第1軸承27之外周面更靠內側處。 In the closed state, the first portion 421 of the weight body 42 includes the first protruding portion 424. The first protruding portion 424 protrudes outward from the outer peripheral surface of the first bearing 27 as viewed in the cam axis direction. The outer peripheral surface of the second portion 422 is located further inward than the outer peripheral surface of the first bearing 27 as viewed in the cam axis direction. The outer peripheral surface of the second weight body portion 48 is located further inward than the outer peripheral surface of the first bearing 27 as viewed in the cam axis direction.
樞銷支持部423包含突出部425,自凸輪軸線方向觀察,該突出部425朝較第1軸承27之外周面更靠外側突出。突出部425之突出長度之最大值大於第1突出部424之突出長度之最大值。即,突出部425較第1突出部424更大幅地朝第1軸承27之徑向突出。再者,突出長度係 指於第1軸承27之徑向上自第1軸承27之外周面之突出長度。 The pivot pin support portion 423 includes a protruding portion 425 that protrudes outward from the outer peripheral surface of the first bearing 27 as viewed in the cam axis direction. The maximum value of the protruding length of the protruding portion 425 is larger than the maximum value of the protruding length of the first protruding portion 424. In other words, the protruding portion 425 protrudes more strongly in the radial direction of the first bearing 27 than the first protruding portion 424. Furthermore, the length is The length from the outer circumferential surface of the first bearing 27 in the radial direction of the first bearing 27 is referred to.
如圖11所示,第1軸承27包含內輪271及外輪272。內輪271接觸於凸輪軸26。外輪272接觸於汽缸頭14之第1支持壁141。如圖7所示,配重體42包含內輪接觸部426。內輪接觸部426於凸輪軸線方向上與內輪271並排配置。內輪接觸部426自鄰接於第1軸承27之配重體42之表面朝內輪271突出。 As shown in FIG. 11, the first bearing 27 includes an inner ring 271 and an outer ring 272. The inner wheel 271 is in contact with the camshaft 26. The outer wheel 272 is in contact with the first support wall 141 of the cylinder head 14. As shown in FIG. 7, the weight body 42 includes an inner wheel contact portion 426. The inner wheel contact portion 426 is arranged side by side with the inner wheel 271 in the cam axis direction. The inner wheel contact portion 426 protrudes toward the inner ring 271 from the surface of the weight body 42 adjacent to the first bearing 27.
如圖11所示,內輪接觸部426位於較外輪272之內周面更靠內側處。再者,無論配重體42處於閉合狀態及打開狀態中之何種狀態,內輪接觸部426均位於較外輪272之內周面更靠內側處。自凸輪軸線方向觀察,內輪接觸部426之至少一部分配置於較凸輪軸26之旋轉中心C1更靠近配重體42之旋轉中心C2。自凸輪軸線方向觀察,內輪接觸部426位於配重體42之旋轉中心C2與凸輪軸26之間。如圖4所示,於內輪接觸部426接觸於內輪271之狀態下,配重體42之其他部分並不接觸於外輪272。 As shown in FIG. 11, the inner wheel contact portion 426 is located further inside than the inner circumferential surface of the outer wheel 272. Furthermore, regardless of the state in which the weight body 42 is in the closed state and the open state, the inner wheel contact portion 426 is located further inward than the inner circumferential surface of the outer wheel 272. At least a portion of the inner wheel contact portion 426 is disposed closer to the rotation center C2 of the weight body 42 than the rotation center C1 of the cam shaft 26 as viewed in the cam axis direction. The inner wheel contact portion 426 is located between the center of rotation C2 of the weight body 42 and the cam shaft 26 as viewed in the direction of the cam axis. As shown in FIG. 4, in a state where the inner wheel contact portion 426 is in contact with the inner ring 271, the other portion of the weight body 42 does not contact the outer wheel 272.
詳細而言,當配重體42為閉合狀態,內輪接觸部426跨及第4區域A4、第1區域A1、及第2區域A2而配置。內輪接觸部426包含第1接觸部426a、第2接觸部426b、及第3接觸部426c。當配重體42為閉合狀態,第1接觸部426a配置於第1區域A1。當配重體42為閉合狀態,第2接觸部426b配置於第2區域A2。當配重體42為閉合狀態,第3接觸部426c配置於第4區域A4。自凸輪軸線方向觀察,第1接觸部426a之面積大於第2接觸部426b之面積。自凸輪軸線方向觀察,第1接觸部426a之面積大於第3接觸部426c之面積。 Specifically, when the weight body 42 is in the closed state, the inner wheel contact portion 426 is disposed across the fourth region A4, the first region A1, and the second region A2. The inner wheel contact portion 426 includes a first contact portion 426a, a second contact portion 426b, and a third contact portion 426c. When the weight body 42 is in the closed state, the first contact portion 426a is disposed in the first region A1. When the weight body 42 is in the closed state, the second contact portion 426b is disposed in the second region A2. When the weight body 42 is in the closed state, the third contact portion 426c is disposed in the fourth region A4. The area of the first contact portion 426a is larger than the area of the second contact portion 426b as viewed in the cam axis direction. The area of the first contact portion 426a is larger than the area of the third contact portion 426c as viewed in the cam axis direction.
圖12中之G1係表示配重體42之重心之位置。G2係表示無第1突出部424之情形時之配重體42之重心之位置。再者,於圖12中,對第1突出部424標註有影線。「無第1突出部424之情形時」係指將於圖12中標註有影線之部分去除之後之狀態。又,於圖12中,以二點鏈線表示第 1軸承27之外周面。如圖12所示,自凸輪軸線方向觀察,配重體42之重心G1配置於第1區域A1。配重體42之重心G1與凸輪軸26之旋轉中心C1之間之距離大於配重體42之重心G1與配重體42之旋轉中心C2之間之距離。自凸輪軸線方向觀察,第1突出部424包含:較近之部分424a,其於第1軸承27之周向上,較無第1突出部424時之配重體42之重心G2之位置更靠近配重體42之旋轉中心C2;及較遠之部分424b,其於第1軸承27之周向上,較無第1突出部424時之配重體42之重心G2之位置更遠離配重體42之旋轉中心C2。關於自第1軸承27之外周面朝外側之突出量,較近之部分424a大於較遠之部分424b。 G1 in Fig. 12 indicates the position of the center of gravity of the weight body 42. G2 indicates the position of the center of gravity of the weight body 42 when the first protruding portion 424 is absent. Further, in FIG. 12, the first protruding portion 424 is hatched. "When there is no first protruding portion 424" means a state after the portion marked with hatching in Fig. 12 is removed. In addition, in FIG. 12, the two-point chain line indicates 1 bearing 27 outside the circumference. As shown in FIG. 12, the center of gravity G1 of the weight body 42 is disposed in the first area A1 as viewed in the cam axis direction. The distance between the center of gravity G1 of the weight body 42 and the center of rotation C1 of the cam shaft 26 is greater than the distance between the center of gravity G1 of the weight body 42 and the center of rotation C2 of the weight body 42. The first protruding portion 424 includes a relatively proximal portion 424a which is closer to the center of gravity G2 of the weight body 42 than the first protruding portion 424 when viewed from the cam axis direction. The rotation center C2 of the weight 42 and the farther portion 424b are located farther from the weight body 42 in the circumferential direction of the first bearing 27 than the center of gravity G2 of the weight body 42 when the first protrusion 424 is absent. Rotate center C2. Regarding the amount of protrusion from the outer peripheral surface of the first bearing 27 toward the outer side, the closer portion 424a is larger than the farther portion 424b.
又,自凸輪軸線方向觀察,於內輪接觸部426中較配重體42之重心G1更靠近配重體42之旋轉中心C2的部分大於在內輪接觸部426中較配重體42之重心G1更遠離配重體42之旋轉中心C2的部分。例如,凸輪軸26之徑向上之第1接觸部426a之最大寬度大於凸輪軸26之徑向上之第2接觸部426b之最大寬度。 Further, as seen from the direction of the cam axis, the portion of the inner wheel contact portion 426 that is closer to the center of rotation C2 of the weight body 42 than the center of gravity G1 of the weight body 42 is larger than the center of gravity of the weight portion 42 of the inner wheel contact portion 426. G1 is further away from the portion of the center of rotation C2 of the weight body 42. For example, the maximum width of the first contact portion 426a in the radial direction of the cam shaft 26 is larger than the maximum width of the second contact portion 426b in the radial direction of the cam shaft 26.
圖13係表示配重體42之第2凸輪軸端部262側之表面之立體圖。圖14係於圖10中自箭頭XIV之方向觀察之凸輪軸組裝體之側視圖。如圖13所示,凸輪軸線方向上之第1部分421之最大厚度大於凸輪軸線方向上之第2部分422之最大厚度。凸輪軸線方向上之第2配重體部48之最大厚度大於凸輪軸線方向上之第2部分422之最大厚度。 Fig. 13 is a perspective view showing the surface of the second cam shaft end portion 262 side of the weight body 42. Figure 14 is a side elevational view of the camshaft assembly viewed from the direction of arrow XIV in Figure 10; As shown in Fig. 13, the maximum thickness of the first portion 421 in the cam axis direction is larger than the maximum thickness of the second portion 422 in the cam axis direction. The maximum thickness of the second weight portion 48 in the cam axis direction is greater than the maximum thickness of the second portion 422 in the cam axis direction.
如圖13所示,第1部分421包含內徑部421a及外徑部421b。內徑部421a位於外徑部421b之內側。凸輪軸線方向上之外徑部421b之厚度大於凸輪軸線方向上之內徑部421a之厚度。外徑部421b包含上述第1突出部424。因此,凸輪軸線方向上之第1突出部424之最大厚度大於凸輪軸線方向上之第2部分422之最大厚度。凸輪軸線方向上之第1突出部424之最大厚度大於凸輪軸線方向上之第2配重體部48之最大厚度。凸輪軸線方向上之第1突出部424之厚度大於凸輪軸線方向上之樞銷支 持部423之厚度。 As shown in FIG. 13, the first portion 421 includes an inner diameter portion 421a and an outer diameter portion 421b. The inner diameter portion 421a is located inside the outer diameter portion 421b. The thickness of the outer diameter portion 421b in the cam axis direction is larger than the thickness of the inner diameter portion 421a in the cam axis direction. The outer diameter portion 421b includes the first protruding portion 424 described above. Therefore, the maximum thickness of the first protruding portion 424 in the cam axis direction is larger than the maximum thickness of the second portion 422 in the cam axis direction. The maximum thickness of the first protruding portion 424 in the cam axis direction is larger than the maximum thickness of the second weight portion 48 in the cam axis direction. The thickness of the first protrusion 424 in the direction of the cam axis is larger than the pivot pin in the direction of the cam axis The thickness of the holding portion 423.
如圖10所示,自凸輪軸26之徑向觀察,配重體42之一部分與凸緣41重疊。詳細而言,自凸輪軸26之徑向觀察,第1部分421之外徑部421b與凸緣41重疊。第2凸輪軸端部262側之第2配重體部48之表面及內徑部421a之表面與第1凸輪軸端部261側之凸緣41之表面相對向。於第2部分422與凸緣41之間配置有上述減壓凸輪43之頭部431。 As shown in FIG. 10, one portion of the weight body 42 overlaps the flange 41 as viewed in the radial direction of the cam shaft 26. Specifically, the outer diameter portion 421b of the first portion 421 is overlapped with the flange 41 as viewed in the radial direction of the cam shaft 26. The surface of the second weight portion 48 on the second cam shaft end portion 262 side and the surface of the inner diameter portion 421a face the surface of the flange 41 on the first cam shaft end portion 261 side. A head portion 431 of the decompression cam 43 is disposed between the second portion 422 and the flange 41.
如圖13所示,樞銷支持部423包含收納部423a及凸座部423b。凸座部423b自收納部423a朝凸輪軸線方向突出。凸輪軸線方向上之收納部423a之厚度小於凸輪軸線方向上之第1部分421及第2配重體部48之厚度。因此,收納部423a具有自配重體42之表面朝凸輪軸線方向凹陷之形狀。 As shown in FIG. 13, the pivot pin support portion 423 includes a housing portion 423a and a boss portion 423b. The boss portion 423b protrudes from the housing portion 423a in the cam axis direction. The thickness of the accommodating portion 423a in the cam axis direction is smaller than the thickness of the first portion 421 and the second weight portion 48 in the cam axis direction. Therefore, the accommodating portion 423a has a shape that is recessed from the surface of the weight body 42 in the cam axis direction.
圖15係自第2凸輪軸端部262側觀察凸緣41、配重體42、及回復彈簧45之圖。如圖15所示,收納部423a收納回復彈簧45。凸座部423b插入至上述回復彈簧45。於凸座部423b設置有孔423c。於凸座部423b之孔423c插入有樞銷46。 Fig. 15 is a view of the flange 41, the weight body 42, and the return spring 45 as seen from the second cam shaft end portion 262 side. As shown in FIG. 15, the accommodating part 423a accommodates the return spring 45. The boss portion 423b is inserted into the above-described return spring 45. A hole 423c is provided in the boss portion 423b. A pivot pin 46 is inserted into the hole 423c of the boss portion 423b.
如圖13及圖15所示,配重體42包含第2卡止部42b。第2卡止部42b卡止於回復彈簧45之第2彈簧端部452。第2卡止部42b包含於第1部分421。詳細而言,第2卡止部42b係第1部分421中之相對於樞銷支持部423而形成之階部。 As shown in FIGS. 13 and 15, the weight body 42 includes a second locking portion 42b. The second locking portion 42b is locked to the second spring end portion 452 of the return spring 45. The second locking portion 42b is included in the first portion 421. Specifically, the second locking portion 42 b is a step formed in the first portion 421 with respect to the pivot pin supporting portion 423 .
如圖14及圖15所示,凸緣41包含第1卡止部42a。第1卡止部42a卡止於回復彈簧45之第1彈簧端部451。詳細而言,第1卡止部42a係第1凸部412之一部分。第1卡止部42a一體地成型於凸緣41。例如,凸緣41包含第1卡止部42a,利用燒結、鍛造、或鑄造等製法而一體地成形。 As shown in FIGS. 14 and 15, the flange 41 includes a first locking portion 42a. The first locking portion 42 a is locked to the first spring end portion 451 of the return spring 45 . Specifically, the first locking portion 42 a is a portion of the first convex portion 412 . The first locking portion 42a is integrally molded to the flange 41. For example, the flange 41 includes the first locking portion 42a, and is integrally molded by a method such as sintering, forging, or casting.
圖16係表示將頭蓋19拆除後之狀態之汽缸頭14之圖。如圖16所示,汽缸頭14包含第1軸承支持孔143。第1軸承支持孔143支持第1軸 承27。第1軸承支持孔143設置於第1支持壁141。第1軸承支持孔143包含第1凹部144、第2凹部145、及第3凹部146。第1凹部144、第2凹部145、及第3凹部146位於相對於第1軸承支持孔143之中心與曲軸11為相反的一側。第1凹部144具有可使第1突出部424及進氣凸輪263通過之形狀。第2凹部145具有可使排氣凸輪264通過之形狀。第3凹部146具有可使樞銷支持部423通過之形狀。再者,亦可使第1凹部144之一部分位於相對於第1軸承支持孔143之中心與曲軸11為相反的一側,其他部分位於相對於第1軸承支持孔143之中心與曲軸11為相同的一側。或,亦可使第2凹部145之一部分位於相對於第1軸承支持孔143之中心與曲軸11為相反的一側,其他部分位於相對於第1軸承支持孔143之中心與曲軸11為相同的一側。 Fig. 16 is a view showing the cylinder head 14 in a state in which the head cover 19 is removed. As shown in FIG. 16, the cylinder head 14 includes a first bearing support hole 143. The first bearing support hole 143 supports the first shaft Cheng 27. The first bearing support hole 143 is provided in the first support wall 141. The first bearing support hole 143 includes a first recess 144 , a second recess 145 , and a third recess 146 . The first recessed portion 144 , the second recessed portion 145 , and the third recessed portion 146 are located on the opposite side of the crankshaft 11 from the center of the first bearing support hole 143 . The first recess 144 has a shape in which the first protrusion 424 and the intake cam 263 can pass. The second recess 145 has a shape that allows the exhaust cam 264 to pass therethrough. The third recess 146 has a shape that allows the pivot pin support portion 423 to pass therethrough. Further, one of the first recessed portions 144 may be located on the opposite side of the crankshaft 11 from the center of the first bearing support hole 143, and the other portion may be located at the same center as the crankshaft 11 with respect to the center of the first bearing support hole 143. One side. Alternatively, one of the second recesses 145 may be located on the opposite side of the crankshaft 11 from the center of the first bearing support hole 143, and the other portion may be located at the same center as the crankshaft 11 with respect to the center of the first bearing support hole 143. One side.
於本實施形態之引擎中,第1配重體部47之周向端部471相對於縱軸Y位於第1橫方向x1。即,第1配重體部47以不沿第2橫方向x2跨越縱軸Y之方式而延伸。因此,與第1配重體部47自相對於縱軸Y位於第1橫方向x1之區域延伸至沿第2橫方向x2跨越縱軸Y之位置之情形相比,可使配重體42之重心G1遠離凸輪軸26之旋轉中心C1。因此,若凸輪軸26之旋轉速度相同,則施加至配重體42之離心力變大。藉此,可增大回復彈簧45之彈力,故而無需使設定轉數上升,便可抑制重力所引起之配重體42之打開。 In the engine of the present embodiment, the circumferential end portion 471 of the first weight body portion 47 is located in the first lateral direction x1 with respect to the vertical axis Y. That is, the first weight body portion 47 extends so as not to straddle the vertical axis Y in the second lateral direction x2. Therefore, compared with the case where the first weight body portion 47 extends from the region in the first lateral direction x1 with respect to the vertical axis Y to the position in the second lateral direction x2 across the vertical axis Y, the weight body 42 can be made. The center of gravity G1 is away from the center of rotation C1 of the camshaft 26. Therefore, if the rotational speed of the cam shaft 26 is the same, the centrifugal force applied to the weight body 42 becomes large. Thereby, the elastic force of the return spring 45 can be increased, so that the opening of the weight body 42 due to gravity can be suppressed without increasing the set number of revolutions.
又,可使配重體42之重心G1靠近配重體42之旋轉中心C2,故而可減小作用於配重體42之重力所引起之力矩。因此,可抑制重力所引起之配重體42之打開。 Further, the center of gravity G1 of the weight body 42 can be brought closer to the rotation center C2 of the weight body 42, so that the moment caused by the gravity acting on the weight body 42 can be reduced. Therefore, the opening of the weight body 42 caused by gravity can be suppressed.
進而,減壓銷44連接於較第2配重體42部長之第1配重體部47。因此,與減壓銷44連接於第2配重體42部之情形相比,可增大減壓銷44與配重體42之旋轉中心C2之間之距離。藉此,使減壓銷44相對於配重體42之旋轉角度之移動量變大。換言之,可減小用以將配重體42 自閉合狀態切換至打開狀態之配重體42之旋轉角度。藉此,可減小配重體42為閉合狀態時與為打開狀態時之配重體42之重心G1位置之移位。又,藉由使配重體42之旋轉角度變小,而易於避免配重體42與周圍之構件之干涉。藉此,配重體42之形狀之自由度較高。 Further, the decompression pin 44 is connected to the first weight portion 47 which is smaller than the second weight body 42. Therefore, the distance between the decompression pin 44 and the rotation center C2 of the weight body 42 can be increased as compared with the case where the decompression pin 44 is connected to the second weight body 42. Thereby, the amount of movement of the decompression pin 44 with respect to the rotation angle of the weight body 42 is increased. In other words, it can be reduced to use the weight body 42 The angle of rotation of the weight body 42 is switched from the closed state to the open state. Thereby, the displacement of the center of gravity G1 of the weight body 42 when the weight body 42 is in the closed state and in the open state can be reduced. Further, by making the rotation angle of the weight body 42 small, it is easy to avoid interference between the weight body 42 and the surrounding members. Thereby, the degree of freedom of the shape of the weight body 42 is high.
此處,配重體42為打開狀態時之配重體42之重心G1與凸輪軸26之旋轉中心C1之間的距離變得大於配重體42為閉合狀態時之配重體42之重心G1與凸輪軸26之旋轉中心C1之間的距離。因此,配重體42為閉合狀態時與為打開狀態時之配重體42之重心G1之位置之移位越大,則配重體42越難以恢復至閉合狀態。 Here, the distance between the center of gravity G1 of the weight body 42 and the center of rotation C1 of the cam shaft 26 when the weight body 42 is in the open state becomes larger than the center of gravity G1 of the weight body 42 when the weight body 42 is in the closed state. The distance from the center of rotation C1 of the camshaft 26. Therefore, the greater the displacement of the position of the center of gravity G1 of the weight body 42 when the weight body 42 is in the closed state and the open state, the more difficult it is for the weight body 42 to return to the closed state.
然而,於本實施形態之引擎中,如上所述,可減小配重體42為閉合狀態時與為打開狀態時之配重體42之重心G1之位置之移位,故而配重體42易於恢復至閉合狀態。 However, in the engine of the present embodiment, as described above, the displacement of the position of the center of gravity G1 of the weight body 42 when the weight body 42 is in the closed state and in the open state can be reduced, so that the weight body 42 is easy. Return to the closed state.
如上所述,於本態樣之引擎中,易於避免當起動時配重體42打開之狀態,故而可提高引擎7之起動性。 As described above, in the engine of the present aspect, it is easy to avoid the state in which the weight body 42 is opened at the time of starting, so that the startability of the engine 7 can be improved.
自凸輪軸線方向觀察,第1配重體部47之端部471配置於第2區域A2。因此,與第1配重體部47自相對於縱軸Y位於第1橫方向x1之區域延伸至沿第2橫方向x2跨越縱軸Y之位置之情形相比,可使配重體42之重心G1遠離凸輪軸26之旋轉中心C1。又,與第1配重體部47之端部471配置於第1區域A1之情形相比,易於將減壓銷44遠離配重體42之旋轉中心C2而配置。 The end portion 471 of the first weight body portion 47 is disposed in the second region A2 as viewed in the cam axis direction. Therefore, compared with the case where the first weight body portion 47 extends from the region in the first lateral direction x1 with respect to the vertical axis Y to the position in the second lateral direction x2 across the vertical axis Y, the weight body 42 can be made. The center of gravity G1 is away from the center of rotation C1 of the camshaft 26. Further, it is easier to arrange the decompression pin 44 away from the rotation center C2 of the weight body 42 than when the end portion 471 of the first weight body portion 47 is disposed in the first region A1.
自凸輪軸線方向觀察,減壓銷44配置於第2區域A2。因此,可自凸輪軸線方向觀察,將第1配重體部47之端部471配置於第2區域A2。 The decompression pin 44 is disposed in the second region A2 as viewed in the cam axis direction. Therefore, the end portion 471 of the first weight body portion 47 can be disposed in the second region A2 as viewed in the cam axis direction.
自凸輪軸線方向觀察,配重體42之旋轉中心C2與減壓銷44之間之距離為配重體42之旋轉中心C2與凸輪軸26之旋轉中心C1之間之距離以上。因此,可增大減壓銷44與配重體42之旋轉中心C2之間之距離。 The distance between the rotation center C2 of the weight body 42 and the decompression pin 44 is greater than the distance between the rotation center C2 of the weight body 42 and the rotation center C1 of the cam shaft 26 as viewed in the cam axis direction. Therefore, the distance between the decompression pin 44 and the center of rotation C2 of the weight body 42 can be increased.
配重體42並不具有自凸輪軸線方向觀察配置於第3區域A3之部分。因此,可使配重體42之重心G1進一步遠離凸輪軸26之旋轉中心C1。又,可使配重體42之旋轉中心C2與配重體42之重心G1進一步靠近。 The weight body 42 does not have a portion disposed in the third region A3 as viewed from the cam axis direction. Therefore, the center of gravity G1 of the weight body 42 can be further moved away from the rotation center C1 of the cam shaft 26. Further, the center of rotation C2 of the weight body 42 and the center of gravity G1 of the weight body 42 can be further brought closer.
自凸輪軸線方向觀察,第2配重體42部之端部481配置於第4區域A4。因此,可使配重體42之旋轉中心C2與配重體42之重心G1靠近。 The end portion 481 of the second weight 42 portion is disposed in the fourth region A4 as viewed in the cam axis direction. Therefore, the center of rotation C2 of the weight body 42 can be brought closer to the center of gravity G1 of the weight body 42.
以上,對本發明之一實施形態進行了說明,但本發明並不限定於上述實施形態,可於不脫離發明之主旨之範圍內進行各種變更。 The embodiment of the present invention has been described above, but the present invention is not limited to the embodiment described above, and various modifications can be made without departing from the spirit and scope of the invention.
配重體42之形狀並不限於上述實施形態之形狀,亦可進行變更。例如,圖17係表示第1變化例之配重體42之圖。如圖17所示,亦可使第2部分422包含第2突出部427。自凸輪軸26之軸線方向觀察,第2突出部427朝較第1軸承27之外周面更靠外側突出。第1突出部424之體積大於第2突出部427之體積。於此情形時,與上述實施形態同樣地,可使配重體42之重心G1進一步遠離凸輪軸26之旋轉中心C1。又,與第2突出部427之體積大於第1突出部424之體積之情形相比,可使配重體42之重心G1之位置靠近配重體42之旋轉中心C2。 The shape of the weight body 42 is not limited to the shape of the above embodiment, and may be changed. For example, Fig. 17 is a view showing the weight body 42 of the first modification. As shown in FIG. 17, the second portion 422 may be included in the second portion 427. The second protruding portion 427 protrudes outward from the outer peripheral surface of the first bearing 27 as viewed in the axial direction of the cam shaft 26. The volume of the first protruding portion 424 is larger than the volume of the second protruding portion 427. In this case, as in the above embodiment, the center of gravity G1 of the weight body 42 can be further moved away from the rotation center C1 of the cam shaft 26. Further, the position of the center of gravity G1 of the weight body 42 can be made closer to the rotation center C2 of the weight body 42 than when the volume of the second protrusion portion 427 is larger than the volume of the first protrusion portion 424.
或,亦可使配重體之周向長度較上述實施形態之配重體42短。例如,亦可將第1配重體部47之周向端部471配置於第1區域A1。 Alternatively, the circumferential length of the weight body may be shorter than the weight body 42 of the above embodiment. For example, the circumferential end portion 471 of the first weight body portion 47 may be disposed in the first region A1.
或,亦可省略配重體42之第1突出部424。即,亦可自凸輪軸線方向觀察,使第1部分421位於較第1軸承27之外周面更靠內側處。 Alternatively, the first protruding portion 424 of the weight body 42 may be omitted. That is, the first portion 421 may be located further inward than the outer peripheral surface of the first bearing 27 as viewed in the cam axis direction.
圖18係表示第2變化例之配重體42之圖。如圖18所示,亦可自凸輪軸線方向觀察,使樞銷支持部423位於較第1軸承27之外周面更靠內側處。 Fig. 18 is a view showing the weight body 42 of the second modification. As shown in FIG. 18, the pivot pin support portion 423 may be located further inward than the outer peripheral surface of the first bearing 27 as viewed in the cam axis direction.
圖19係表示第3變化例之配重體42之圖。如圖19所示,亦可自凸輪軸線方向觀察,使樞銷46位於較排氣凸輪264之基圓266更靠內側處。即,亦可自凸輪軸線方向觀察,使配重體42之旋轉中心C2位於 較排氣凸輪264之基圓266更靠內側處。 Fig. 19 is a view showing the weight body 42 of the third modification. As seen in Fig. 19, the pivot pin 46 can also be located more inward than the base circle 266 of the exhaust cam 264 as viewed in the direction of the cam axis. That is, it can also be viewed from the direction of the cam axis so that the center of rotation C2 of the weight body 42 is located. It is closer to the inner side than the base circle 266 of the exhaust cam 264.
圖20係表示第4變化例之配重體42之圖。如圖20所示,亦可自凸輪軸線方向觀察,使配重體42之旋轉中心C2位於較排氣凸輪264之凸輪凸部267更靠外側處。又,亦可使樞銷46之整體位於較排氣凸輪264之外周面更靠外側處。 Fig. 20 is a view showing the weight body 42 of the fourth modification. As shown in FIG. 20, the center of rotation C2 of the weight body 42 may be located further outward than the cam protrusion 267 of the exhaust cam 264 as viewed in the direction of the cam axis. Further, the entire pivot pin 46 may be located further outward than the outer peripheral surface of the exhaust cam 264.
於上述實施形態中,配重體42係經由凸緣41支持於凸輪軸26,但亦可將配重體42直接支持於凸輪軸26。於上述實施形態中,凸緣41係與凸輪軸26分開,且藉由壓入固定於凸輪軸26,但亦可藉由壓入以外之固定方法而固定。或,亦可使凸緣與凸輪軸26一體地形成。 In the above embodiment, the weight body 42 is supported by the cam shaft 26 via the flange 41, but the weight body 42 may be directly supported by the cam shaft 26. In the above embodiment, the flange 41 is separated from the cam shaft 26 and is fixed to the cam shaft 26 by press fitting, but may be fixed by a fixing method other than press fitting. Alternatively, the flange may be integrally formed with the cam shaft 26.
亦可省略配重體42之內輪接觸部。亦可省略配重體42之收納部。即,亦可將回復彈簧配置於配重體42以外之位置。 The inner wheel contact portion of the weight body 42 may also be omitted. The housing portion of the weight body 42 may also be omitted. That is, the return spring may be disposed at a position other than the weight body 42.
於上述實施形態中,係舉出速克達型機車來作為車輛之例,但本發明之車輛並不限於速克達型,亦可為運動型、越野型、輕型等其他種類之機車。此處,機車並不限於二輪,包含三輪之車輛。又,本發明之車輛較佳為機車、全地形車輛(ALL-TERRAIN VEHICLE)、或雪上摩托車等跨坐型車輛,但亦可為跨坐型車輛以外之車輛。 In the above embodiment, a quick-speed locomotive is used as an example of a vehicle. However, the vehicle of the present invention is not limited to a quick-acting type, and may be other types of locomotives such as a sporty type, an off-road type, and a light type. Here, the locomotive is not limited to the second round, including three-wheeled vehicles. Further, the vehicle of the present invention is preferably a straddle type vehicle such as a locomotive, an all-terrain vehicle (ALL-TERRAIN VEHICLE), or a snowmobile, but may be a vehicle other than a straddle type vehicle.
此處所使用之用語及表達係用以進行說明者,而非用以限定性地進行解釋者。須認識到:亦不排除此處所示且所述之特徵事項之所有均等物,亦容許本發明之申請專利範圍內之各種變化。本發明能夠以許多不同之形態而實現。應將該揭示視為提供本發明之原理之實施形態者。於理解該等實施形態並非意欲將本發明限定於此處所記載且/或圖示之較佳之實施形態者之前提下,將實施形態記載於此。並不限定於此處所記載之實施形態。本發明亦包含業者可基於該揭示而認識到之包含均等之要素、修正、刪除、組合、改良、及/或變更之所有實施形態。申請專利範圍之限定事項應基於該申請專利範圍所使用之用語廣義地進行解釋,不應限定於本說明書或本案之審查過程中所 記載之實施形態。 The terms and expressions used herein are for the purpose of description and are not intended to be construed as limiting. It is to be understood that the invention is not to be construed as a The invention can be implemented in many different forms. This disclosure should be considered as an embodiment of the principles of the invention. The embodiments are not intended to limit the invention to the preferred embodiments described herein and/or illustrated in the drawings. It is not limited to the embodiment described herein. The present invention also includes all embodiments in which the elements, modifications, deletions, combinations, improvements, and/or changes are included in the embodiments. The limitation of the scope of application for patent application shall be interpreted broadly based on the terms used in the scope of patent application, and shall not be limited to the description of this specification or the case. The embodiment described.
27‧‧‧第1軸承 27‧‧‧1st bearing
42‧‧‧配重體 42‧‧‧weights
47‧‧‧第1配重體部 47‧‧‧1st weight body
48‧‧‧第2配重體部 48‧‧‧2nd weight body
272‧‧‧外輪 272‧‧‧Outside
421‧‧‧第1部分 421‧‧‧Part 1
422‧‧‧第2部分 422‧‧‧Part 2
423‧‧‧樞銷支持部 423‧‧‧ pivot support department
424‧‧‧第1突出部 424‧‧‧1st protrusion
424a‧‧‧較近之部分 Closer part of 424a‧‧
424b‧‧‧較遠之部分 424b‧‧‧ farther part
426‧‧‧內輪接觸部 426‧‧‧Internal wheel contact
A1‧‧‧第1區域 A1‧‧‧1st area
A2‧‧‧第2區域 A2‧‧‧2nd area
A3‧‧‧第3區域 A3‧‧‧3rd area
A4‧‧‧第4區域 A4‧‧‧4th area
C1‧‧‧凸輪軸26之旋轉中心 C1‧‧‧Rotation center of camshaft 26
C2‧‧‧配重體42之旋轉中心 C2‧‧‧The center of rotation of the counterweight 42
G1‧‧‧配重體42之重心 G1‧‧‧Center of gravity 42
G2‧‧‧無第1突出部424之情形時之配重體42之重心 G2‧‧‧ Center of gravity of the weight body 42 in the absence of the first protrusion 424
X‧‧‧橫軸 X‧‧‧ horizontal axis
Y‧‧‧縱軸 Y‧‧‧ vertical axis
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JPH0267409A (en) * | 1988-08-31 | 1990-03-07 | Yamaha Motor Co Ltd | Decompressor of engine |
EP1703123A1 (en) * | 2005-02-21 | 2006-09-20 | HONDA MOTOR CO., Ltd. | Decompression system for internal combustion engine |
TW201307670A (en) * | 2011-05-27 | 2013-02-16 | Yamaha Motor Co Ltd | Internal combustion engine and motorcycle equipped with the engine |
Family Cites Families (2)
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JP4887200B2 (en) * | 2006-08-08 | 2012-02-29 | 本田技研工業株式会社 | Engine with decompression device |
JP4540655B2 (en) | 2006-11-24 | 2010-09-08 | 本田技研工業株式会社 | Internal combustion engine with decompression device |
-
2014
- 2014-05-27 JP JP2014108985A patent/JP2015224577A/en active Pending
-
2015
- 2015-04-20 EP EP15164176.8A patent/EP2949891B1/en active Active
- 2015-05-20 TW TW104116114A patent/TWI608161B/en active
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0167691A2 (en) * | 1984-07-10 | 1986-01-15 | Fuji Jukogyo Kabushiki Kaisha | Decompression apparatus for engines |
JPH0267409A (en) * | 1988-08-31 | 1990-03-07 | Yamaha Motor Co Ltd | Decompressor of engine |
EP1703123A1 (en) * | 2005-02-21 | 2006-09-20 | HONDA MOTOR CO., Ltd. | Decompression system for internal combustion engine |
TW201307670A (en) * | 2011-05-27 | 2013-02-16 | Yamaha Motor Co Ltd | Internal combustion engine and motorcycle equipped with the engine |
Also Published As
Publication number | Publication date |
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TW201604382A (en) | 2016-02-01 |
EP2949891A1 (en) | 2015-12-02 |
EP2949891B1 (en) | 2018-06-20 |
JP2015224577A (en) | 2015-12-14 |
CN105275529B (en) | 2018-02-09 |
CN105275529A (en) | 2016-01-27 |
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