US20150308572A1 - Speed change apparatus of vehicle - Google Patents
Speed change apparatus of vehicle Download PDFInfo
- Publication number
- US20150308572A1 US20150308572A1 US14/261,669 US201414261669A US2015308572A1 US 20150308572 A1 US20150308572 A1 US 20150308572A1 US 201414261669 A US201414261669 A US 201414261669A US 2015308572 A1 US2015308572 A1 US 2015308572A1
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- Prior art keywords
- shift lever
- shift
- detent
- shaft
- recess
- Prior art date
- Legal status (The legal status 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 status listed.)
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- 230000008859 change Effects 0.000 title claims abstract description 17
- 230000005540 biological transmission Effects 0.000 claims abstract description 55
- 230000007246 mechanism Effects 0.000 claims abstract description 45
- 230000002093 peripheral effect Effects 0.000 claims description 8
- 230000007935 neutral effect Effects 0.000 description 20
- 210000000078 claw Anatomy 0.000 description 13
- 230000000694 effects Effects 0.000 description 3
- 230000009471 action Effects 0.000 description 2
- 238000005452 bending Methods 0.000 description 2
- 239000002184 metal Substances 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000001681 protective effect Effects 0.000 description 1
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H59/00—Control inputs to control units of change-speed-, or reversing-gearings for conveying rotary motion
- F16H59/02—Selector apparatus
- F16H59/0278—Constructional features of the selector lever, e.g. grip parts, mounting or manufacturing
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H63/00—Control outputs from the control unit to change-speed- or reversing-gearings for conveying rotary motion or to other devices than the final output mechanism
- F16H63/02—Final output mechanisms therefor; Actuating means for the final output mechanisms
- F16H63/30—Constructional features of the final output mechanisms
- F16H63/38—Detents
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60K—ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
- B60K20/00—Arrangement or mounting of change-speed gearing control devices in vehicles
- B60K20/02—Arrangement or mounting of change-speed gearing control devices in vehicles of initiating means
- B60K20/08—Dashboard means
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H61/00—Control functions within control units of change-speed- or reversing-gearings for conveying rotary motion ; Control of exclusively fluid gearing, friction gearing, gearings with endless flexible members or other particular types of gearing
- F16H61/26—Generation or transmission of movements for final actuating mechanisms
- F16H61/36—Generation or transmission of movements for final actuating mechanisms with at least one movement being transmitted by a cable
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H61/00—Control functions within control units of change-speed- or reversing-gearings for conveying rotary motion ; Control of exclusively fluid gearing, friction gearing, gearings with endless flexible members or other particular types of gearing
- F16H61/24—Providing feel, e.g. to enable selection
- F16H2061/242—Mechanical shift gates or similar guiding means during selection and shifting
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H63/00—Control outputs from the control unit to change-speed- or reversing-gearings for conveying rotary motion or to other devices than the final output mechanism
- F16H63/02—Final output mechanisms therefor; Actuating means for the final output mechanisms
- F16H63/30—Constructional features of the final output mechanisms
- F16H2063/3076—Selector shaft assembly, e.g. supporting, assembly or manufacturing of selector or shift shafts; Special details thereof
Definitions
- the present invention relates to a speed change apparatus of a vehicle including a gear transmission, a shift lever device arranged in a zone where a driver on a driver's seat can operate the shift lever device, and an operation force transmission mechanism for transmitting an operation force of the shift lever device to the gear transmission.
- FIG. 12 shows a shift lever device according to a conventional art described in JP Laid-open Publication No. 2006-082737.
- a shift lever 301 is turnable in a forward and rearward direction and in a right and left direction by two lever shafts 310 , 311 .
- the two lever shafts 310 , 311 are at right angles to one another.
- the shift lever 301 is connected to a shift device in a gear transmission (not shown) through a push pull cable 302 .
- the shift device in the transmission is provided with a detent mechanism for holding a shift shaft at a shift position.
- FIG. 13 shows a plan view of the shift panel 303 of FIG. 12 , a shift groove 305 is formed in a shape having a plurality of bended portions.
- the shift groove 305 is provided with a plurality of engaging recesses 305 a for engaging with the shift lever 301 .
- the engaging recesses 305 a are formed at a reverse position (R), a neutral position (N), a forward traveling high-speed position (H), and a forward traveling low-speed position (L).
- shift lever 301 In the case that the shift lever 301 is positioned and held at each of the shift positions only by the shape of the shift groove 305 , it is required that the shift lever 301 is turnable in the two directions. Therefore, shift lever device becomes large and complex.
- a push pull cable is provided as an operation force transmission mechanism, even if a detent mechanism is provided in the shift device, a difference will easily occur between the a turning position of the shift lever and a moving position of the shift shaft in the transmission. Therefore, it is required to make the shape of the shift groove complex as mentioned above. Moreover, it takes time and effort to adjust the turn position of the shift lever 301 .
- the present invention has been devised in view of the above-mentioned problems.
- An object thereof is to provide a speed change apparatus of a vehicle in which an adjustment for a turn position of the shift lever becomes easy, an arrangement flexibility of the shift lever increases, or the shift lever becomes compact.
- the first subject matter of the present invention provides a speed change apparatus of a vehicle comprising: a gear transmission; a shift lever device arranged in a zone where a driver on a driver's seat can operate the shift lever device; and an operation force transmission mechanism for transmitting an operation force of the shift lever device to the gear transmission, wherein the shift lever device is provided with a detent mechanism for positioning and holding the shift lever at each shift position, and an operation force transmission mechanism is constituted by a push pull cable.
- the operation force transmission mechanism is constituted by the push pull cable
- a layout flexibility for the push pull cable between the shift lever device and the transmission increases, and an arrangement flexibility for the transmission and the shift lever device increase. Therefore, a design of the vehicle becomes facilitated.
- the detent mechanism is provided in the shift lever device which is located near the driver's hand, it becomes easy to adjust the shift lever device.
- the first subject matter may preferably employ the following configurations.
- the shift lever device is arranged on a dashboard located in front of the driver's seat.
- the transmission is arranged in a rear portion of the vehicle.
- the shift lever device includes a shift panel.
- the shift panel is provided with a shift groove of an approximately straight line shape through which the shift lever passes.
- the shift lever device since the shift lever can turn around an axis of only one shaft, the shift lever device becomes compact and simple.
- the second subject matter of the present invention provides a speed change apparatus of a vehicle comprising: a gear transmission; a shift lever device arranged in a zone where a driver on a driver's seat can operate the shift lever device; and an operation force transmission mechanism for transmitting an operation force of the shift lever device to the gear transmission, wherein the shift lever device is provided with a detent mechanism for positioning and holding the shift lever at each shift position, the detent mechanism includes a recess-formed member having a plurality of recesses, and a detent member biased toward the recess-formed member by an elastic member, each of the recesses corresponds to each of the shift positions, the recess-formed member is arranged on the shift lever which is turnable around a center of the shift lever shaft, and the detent member and the elastic member are arranged on a lever holder for holding the shift lever.
- the shift lever since the recess-formed member having the detent recess is arranged on the shift lever which is turnable, the shift lever becomes compact while securing the stroke of the shift lever, i.e. the stroke of the cable connecting point.
- the second subject matter may preferably employ the following configurations.
- the shift lever device includes a shift panel.
- the shift panel is provided with a shift groove of approximately straight line shape through which the shift lever passes.
- the plurality of the recesses is formed on an outer peripheral end of the recess-formed member in the radial direction of the shift lever shaft, and the detent member is biased toward inside from outside of the shift lever shaft in the radial direction.
- the suppress force of the detent member due to the elastic member applies the shift lever, the suppress force does not act the shift lever to bend the shift lever as a bending load. Therefore, on operating the shift lever, the shift lever is not rickety.
- the detent member is composed of a cylindrical roller pin parallel to the shift lever shaft.
- the operation force transmission mechanism is constituted by a push pull cable.
- the operation force transmission mechanism is constituted by the push pull cable
- a layout flexibility for the push pull cable between the shift lever device and the transmission increases, and an arrangement flexibility for the transmission and the shift lever device increase. Therefore, a design of the vehicle becomes facilitated.
- the detent mechanism is provided in the shift lever device which is located near the driver's hand, it becomes easy to adjust the shift lever device.
- FIG. 1 is a left side view of a utility vehicle including a speed change apparatus according to the present invention
- FIG. 2 is a perspective view showing a vehicle body frame and the speed change apparatus shown in FIG. 1 ;
- FIG. 3 is a longitudinal sectional view of a shift lever device of the utility vehicle shown in FIG. 1 ;
- FIG. 4 is a plan view of a shift panel of the shift lever device shown in FIG. 3 ;
- FIG. 5 is a rear elevation of the shift lever device shown in FIG. 3 ;
- FIG. 6 is a perspective view showing a detent mechanism of the shift lever in FIG. 5 ;
- FIG. 7 is a partially plan view of the transmission in FIG. 1 ;
- FIG. 8 is a sectional enlarged view taken along in FIG. 7 ;
- FIG. 9 is a sectional view taken along line IX-IX in FIG. 8 ;
- FIG. 10 is a bottom view of the shift shaft shown in FIG. 8 ;
- FIG. 11 is a sectional view taken along line XI-XI in FIG. 10 ;
- FIG. 12 is a sectional view of a conventional example.
- FIG. 13 is a plan view of a shift panel shown in FIG. 12 .
- FIGS. 1 to 11 show a speed change apparatus according to the present invention and a utility vehicle including the speed change apparatus. Then, an embodiment of the present invention is described below with reference to these drawings.
- a forward traveling direction of the utility vehicle will be described as a “front side or forward” of the utility vehicle and respective components
- a right and left direction viewed from a driver will be described as a “right and left direction” of the utility vehicle and the respective components.
- a pair of right and left front wheels 2 is provided in a front portion of a vehicle body frame 1 of the utility vehicle, and a pair of right and left rear wheels 3 is provided in a rear portion of the vehicle body frame 1 .
- a riding space S formed between the front wheels 2 and the rear wheels 3 is surrounded by a ROPS 5 , where the ROPS 5 is an abbreviation of a rollover protective structure.
- a bench type front seat 6 is arranged in a front half portion of the riding space S and a bench type rear seat 7 is arranged in a rear half portion of the riding space S.
- a cargo bed 8 is provided on a rearward side of the rear seat 7 .
- a screen 9 is arranged between the bench type rear seat 7 and the cargo bed 8 .
- a bonnet 13 is provided in front of the riding space S and a dashboard 14 is provided in an upper rearward end portion of the bonnet 13 .
- a steering wheel device 21 and a shift lever device 22 are provided in the dashboard 14 .
- the steering wheel device 21 and the shift lever device 22 are located in a zone where a driver on a driver's region 6 a of the bench type front seat 6 can operate the shift lever device 22 and the steering wheel device 21 .
- An engine 10 is arranged under the rear seat 7 , and a gear transmission 11 is arranged behind the engine 10 .
- An input shaft 16 of the gear transmission 11 is connected to a crankshaft 15 of the engine 10 through a V-belt type continuously variable transmission 12 .
- the V-belt type continuously variable transmission 12 is attached such as to extend from a left side surface of the engine 10 to a left side surface of a front portion of the gear transmission 11 .
- the vehicle body frame 1 includes a mainframe 1 a having a rectangular shape elongated in a forward and rearward direction in a plan view, a bonnet frame 1 b formed in a front end portion of the mainframe 1 a , and a dashboard frame 1 c formed in an upper rearward end portion of the bonnet frame 1 b .
- a bracket 23 of the steering wheel device 21 and a lever holder (a bracket) 24 of the shift lever device 22 are fixed to the dashboard frame 1 c .
- the driver's region 6 a is located in a left end portion of the bench type front seat 6 .
- the steering wheel device 21 and the shift lever device 22 are arranged at a forward position relative to the driver's region 6 a , that is, in a left side portion of the utility vehicle.
- the gear transmission 11 arranged in a rear end portion of the mainframe 1 a and the shift lever device 22 attached to the dashboard frame 1 c are connected to each other through a push-pull cable 25 so as to transmit a shift operation force.
- the push-pull cable 25 serves as an example of an operation force transmission mechanism described in the claims of the present application.
- the push-pull cable 25 extends downward from the shift lever device 22 , reaches the front end portion of the mainframe 1 a , then extends right rearward on the mainframe 1 a approximately along a propeller shaft 27 for front wheels, and then reaches an upper portion of the gear transmission 11 .
- the shift lever device 22 includes a shift lever 31 , a shift panel 32 having a shift groove 32 a , and a first detent mechanism 33 .
- the shift lever 31 is provided with a base 31 a in sheet metal, a rod 31 b , and a knob 31 c .
- the base 31 a is supported by the lever holder (a bracket) 24 through a shift lever shaft 34 so as to be turnable or rotatable around a center line of the shift lever shaft 34 .
- the rod 31 b is extended from a rear upper end portion of the base 31 a , passes throughout the shift groove 32 a , and then projects rearward and upward.
- the base 31 a integrally has a connecting arm 31 d projecting forward.
- the connecting arm 31 d enters a bonnet room 13 a .
- a front end portion of the connecting arm 31 d is connected to an inner cable 25 a of the push pull cable 25 at an upper end thereof.
- the inner cable 25 a is inserted in an outer cable 25 b .
- the inner cable 25 a and the outer cable 25 b are extended downward together.
- the first detent mechanism 33 includes a recess formed member 35 provided on the shift lever 31 , a spring case 39 provided on the lever holder 24 , a first detent spring 36 in the spring case 39 , and a first detent pin 37 in the spring case 39 .
- the first detent spring 36 is an example of the elastic member described in the claims
- the first detent pin 37 is an example of the detent member described in the claims.
- the spring case 39 is arranged in the vicinity of an upper portion in an inner space of the dashboard 14 , and is extended along an upper and down direction.
- the spring case 39 is fixed to an upper end portion of the lever holder 24 by means of two bolts 39 b .
- the spring case 39 has a lower end opening portion facing recess-formed member 35 from above.
- An adjust bolt 39 a is screwed in an upper end portion of the spring case 39 .
- the first detent spring 36 is located in the spring case 39 so as to be compressible and expandable in the upper and down direction (a vertical direction).
- the first detent pin 37 is made of a cylindrical member, and is laterally arranged in parallel with the shift lever shaft 34 .
- the first detent pin 37 is housed within the lower end opening portion of the spring case 39 , and is movable in the upper and down direction.
- the detent pin 37 contacts with a lower end of the first detent spring 36 .
- the first detent pin 37 is pressed from above against an upper end surface of the recess-formed member 35 by an elastic force of the first detent spring 36 .
- the recess-formed member 35 is made of an elongated member in the forward and rearward direction, and is fixed to a mounting portion 31 e formed on an upper end portion of the base 31 a by means of a pair of bolts 38 .
- the upper end surface of the recess-formed member 35 is formed in an arc-shape along a circle centered at a center line of the shift lever shaft 35 .
- the upper end surface of the recess-formed member 35 is divided four detent recesses 35 a , 35 b , 35 c , and 35 d by three protrusions 35 e , 35 f , and 35 g .
- the detent recesses 35 a , 35 b , 35 c , and 35 d are formed in a partial-arc shape, and are, in the order from front to rear, a reverse detent recess 35 a , a neutral detent recess 35 b , a high detent recess 35 c for forward traveling high-speed, and a low detent recess 35 d for forward traveling low-speed.
- the four detent recesses 35 a , 35 b , 35 c , and 35 d are formed in the partial-arc shape, a front end of the reverse detent recess 35 a on the front end side is opened forward, and a rear end of the low detent recess 35 d on the rearmost side is opened rearward.
- the shift groove 32 a is formed in a straight line shape extending from an upper forward end portion of the shift panel 32 to a lower rearward end portion thereof. Then, the shift lever 31 moves in a straight line in an inside of the shift groove 32 a so that four shift positions are switched.
- the four shift positions are, in the order from the upper forward end to the lower rearward end, a forward traveling low-speed position (L), a forward traveling high-speed position (H), a neutral position (N), and a reverse position (R).
- the lever holder 24 integrally has right and left side walls 24 a , 24 a , and the base 31 a of the shift lever 31 is located between both the side walls 24 a , 24 a.
- a rear end portion of the inner cable 25 a of the push pull cable 25 is connected to an outer lever 41 arranged above a transmission case 11 a .
- the outer lever 41 is fixed to an upper end portion of the lever shaft 42 extending approximately vertically.
- the lever shaft 42 is located in an approximately center portion in the forward and rearward direction of the transmission case 11 a , then passes through an upper wall boss portion 11 b of the transmission case 11 a in the upper and down direction, and then is free-rotatably supported by the upper wall boss portion 11 b .
- An inner lever 43 arranged in the transmission case 11 a is fixed to a lower end portion of the lever shaft 42 , and then extends forward in an approximately horizontal direction from the lever shaft 42 , and then reaches a space under the shift shaft 50 .
- the shift shaft 50 is arranged in front of the lever shaft 42 and extends in the right and left direction.
- the gear transmission 11 is housed in a space on a front side of the shift shaft 50 , and includes the input shaft 16 of the gear transmission 11 , a counter shaft 62 , a reverse idler shaft 63 , and an output shaft 64 for the front wheels are arranged.
- An intermediate output shaft 65 for the rear wheels and a final gear mechanism 67 for the rear wheels are housed in a space on a rear side of the shift shaft 50 .
- FIG. 10 shows a bottom view of the shift shaft 50 , the shift fork 51 is fit on an outer peripheral surface of the shift shaft 50 so as to be movable within a range of a predetermined stroke S 1 in an axial direction.
- the shift fork 51 is connected to the inner lever 43 of the lever shaft 42 through a waiting mechanism 40 so as to transmit the shift operation force.
- the waiting mechanism 40 includes a spring holder 45 arranged on a left side (in an arrow A 4 b direction side) of the shift fork 51 with a predetermined stroke S 1 in between, and a coil spring 46 provided between the spring holder 45 and the shift fork 51 so as to be compressible and expandable in the axial direction.
- the coil spring 46 is arranged on a forward side of the shift shaft 50 .
- An engagement groove 47 extending in the forward and rearward direction is formed in a lower surface of the spring holder 45 . Then, a rearward end of the engagement groove 47 is opened.
- a front end portion of the inner lever 43 fixed to the lower end portion of the lever shaft 42 is provided with an engaging pin 44 .
- the engaging pin 44 engages with the engagement groove 47 so as to be movable forward and rearward.
- FIG. 11 is a sectional view taken along line XI-XI in FIG. 10 , where the engaging pin 44 of the inner lever 43 protrudes upward and then engages with the engagement groove 47 of the spring holder 45 from below.
- the shift shaft 50 is supported by right and left, side walls of the transmission case 11 a so as to be slidable in the axial direction.
- a shift sleeve 90 is spline-fit onto a center portion in the axial direction of the counter shaft 62 so as to be movable in the axial directional.
- An outer periphery circular groove 90 a is formed with the shift sleeve 90 , and a two-pronged portion of the shift fork 51 is engaged with the outer peripheral circular groove 90 a.
- a counter low gear 72 for forward traveling low-speed and a counter high gear 73 for forward traveling high-speed are arranged in the order from right to left.
- an output gear 75 and a counter reverse gear 76 are arranged in the order from left to right.
- the output gear 75 is formed integrally with the counter shaft 62 .
- the counter reverse gear 76 is fit onto the counter shaft 62 so as to be free-rotatable around the counter shaft 62 and not to be movable in the axial direction.
- the counter low gear 72 is spline-fit onto an outer peripheral surface of a boss member 78 so as to rotate integrally with the boss member 78 .
- the boss portion 78 is formed separately from the counter low gear 72 .
- the counter high gear 73 is fit onto the outer peripheral surface of the boss member 78 with a needle bearing 80 in between so as to be free-rotatable relative to the boss portion 78 .
- the boss member 78 is fit onto the outer peripheral surface of the counter shaft 62 with a pair of needle bearings 81 in between so as to be free-rotatable relative to the counter shaft 62 .
- a left end portion of the boss member 78 is provided with low-speed dog claws 83 and the counter high gear 73 is provided with high-speed dog claws 84 .
- the high-speed dog claws 84 is extend leftward beyond the low-speed dog claws 83 .
- the counter reverse gear 76 is provided with reverse dog claws 86 .
- the counter low gear 72 and the counter high gear 73 engage respectively with an input low gear 93 and an input high gear 94 . Further, the counter reverse gear 76 engages with an idle reverse gear 95 and the output gear 75 engages with a second output gear 96 .
- the input low gear 93 and the input high gear 94 are arranged on the input shaft 16 shown in FIG. 8 .
- the idle reverse gear 95 is fit onto the reverse idler shaft 63 and engages with the input reverse gear 97 of the input shaft 16 .
- FIG. 9 shows a situation that the shift sleeve 90 is at a neutral position.
- the shift sleeve 90 moves rightward (in an arrow A 4 a direction) from the neutral position, first, the forward traveling dog claws 85 of the shift sleeve 90 engage with the high-speed dog claws 84 of the counter high gear 73 so that the gear transmission 11 goes into the forward traveling high-speed state. Further, when the shift sleeve 90 moves in the arrow A 4 a direction, the forward traveling dog claws 85 of the shift sleeve 90 pass a neutral state and then engage with the low-speed dog claws 83 of the boss member 78 so that the gear transmission 11 goes into the forward traveling low-speed state.
- the shift device is further provided with a second detent mechanism 100 formed in a right side portion in the axial direction of the shift shaft 50 and a third detent mechanism 200 formed in a left side portion of the shift shaft 50 .
- the second detent mechanism 100 includes four detent recesses 101 , 102 , 103 , and 104 formed in an upper end surface of the shift shaft 50 , a second detent ball 110 arranged on the upper surface of the shift shaft 50 , and a second detent spring 111 for pressing the second detent ball 110 against the upper surface of the shift shaft 50 .
- the four detent recesses 101 , 102 , 103 , and 104 are, in the order from right to left, a reverse detent recess 101 , a neutral detent recess 102 , a high detent recess 103 for forward traveling high-speed, and a low detent recess 104 for forward traveling low-speed.
- a basic configuration of the third detent mechanism 200 is similar to that of the second detent mechanism 100 , and includes four detent recesses 201 , 202 , 203 , and 204 , a third detent ball 210 , and a third detent spring 211 .
- the four detent recesses 201 , 202 , 203 , and 204 are, in the order from right to left, a reverse detent recess 201 , a neutral detent recess 202 , a high detent recess 203 for forward traveling high-speed, and a low detent recess 204 for forward traveling low-speed.
- the protrusion 35 f which is located at a second position from front pushes up the first detent pin 37 and passes over the first detent pin 37 , and then the detent recess 35 c for forward traveling high-speed engages with the first detent pin 37 .
- the shift lever 31 is positioned at the forward traveling high-speed position (H) and hold.
- the operation force transmission mechanism is constituted by the push pull cable 25 , compared with a connecting rod type, a layout flexibility for the push pull cable 25 between the shift lever device 22 and the transmission 11 increases, and an arrangement flexibility for the transmission 11 and the shift lever device 22 increase. Therefore, a design of the vehicle becomes facilitated.
- the first detent mechanism 33 is provided in the shift lever device 22 which is positioned near the driver's hand, it becomes easy to adjust the shift lever device 22 .
- the shift lever 31 can turn around only the axis of the pivot shaft 34 . Therefore the shift lever device 22 becomes compact and simple.
- the shift lever device 22 is provided with the first detent mechanism 33 .
- the recess-formed member 35 of the first detent mechanism 33 is arranged on the shift lever 22 which is rotatable around the center of the shift lever shaft 34 , while the first detent spring 36 and the first detent ball 37 are arranged the lever holder 24 fixed to the dashboard frame 1 c . Therefore, the shift lever 31 becomes compact while securing the stroke of the shift lever, i.e. the stroke of the cable connecting point of the inner cable 25 a .
- the shift lever device 22 can be housed within the dashboard 14 without expanding the inner space of the dashboard 14 .
- the recess-formed member 35 having the detent recesses 35 a , 35 b , 35 c , 35 d is provided on the outer peripheral end of the recess-formed member 35 in the radial direction of the shift lever shaft 34 , and the first detent pin 37 is biased toward inside from outside of the shift lever shaft 34 in the radial direction. Therefore, although the suppress force of the first detent pin 37 due to the first detent spring 36 applies the shift lever 31 , the suppress force does not act the shift lever 31 to bend the shift lever 31 as a bending load. As a result, on operating the shift lever 31 , the shift lever 31 is not rickety in the axial direction.
- the first detent mechanism 33 has the detent pin 37 composed of a cylindrical roller pin parallel to the shift lever shaft 34 , it is possible to eliminate the rickety of the shift lever 31 is not in the axial direction.
- the detent mechanism (the first detent mechanism 33 ) may be provided with a detent ball instead to the cylindrical detent pin 37 .
- the detent mechanism (the first detent mechanism 33 ) may be provided with a detent leaf spring, a plurality of disc springs, or an elastic rubber instead of the first detent coil spring, as the elastic member.
- the present invention is not limited to the speed change apparatus of the utility vehicle, and the invention can be applied also to the speed change apparatus of a different-type four-wheeled vehicle or a motorcycle.
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- General Engineering & Computer Science (AREA)
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- Transportation (AREA)
- Arrangement Or Mounting Of Control Devices For Change-Speed Gearing (AREA)
Abstract
Description
- 1. Field of the Invention
- The present invention relates to a speed change apparatus of a vehicle including a gear transmission, a shift lever device arranged in a zone where a driver on a driver's seat can operate the shift lever device, and an operation force transmission mechanism for transmitting an operation force of the shift lever device to the gear transmission.
- 2. Description of the Prior Art
-
FIG. 12 shows a shift lever device according to a conventional art described in JP Laid-open Publication No. 2006-082737. Ashift lever 301 is turnable in a forward and rearward direction and in a right and left direction by twolever shafts lever shafts shift lever 301 is connected to a shift device in a gear transmission (not shown) through apush pull cable 302. The shift device in the transmission is provided with a detent mechanism for holding a shift shaft at a shift position.FIG. 13 shows a plan view of theshift panel 303 ofFIG. 12 , ashift groove 305 is formed in a shape having a plurality of bended portions. Theshift groove 305 is provided with a plurality ofengaging recesses 305 a for engaging with theshift lever 301. Theengaging recesses 305 a are formed at a reverse position (R), a neutral position (N), a forward traveling high-speed position (H), and a forward traveling low-speed position (L). - In the case that the
shift lever 301 is positioned and held at each of the shift positions only by the shape of theshift groove 305, it is required that theshift lever 301 is turnable in the two directions. Therefore, shift lever device becomes large and complex. In particular, in the case that a push pull cable is provided as an operation force transmission mechanism, even if a detent mechanism is provided in the shift device, a difference will easily occur between the a turning position of the shift lever and a moving position of the shift shaft in the transmission. Therefore, it is required to make the shape of the shift groove complex as mentioned above. Moreover, it takes time and effort to adjust the turn position of theshift lever 301. - The present invention has been devised in view of the above-mentioned problems. An object thereof is to provide a speed change apparatus of a vehicle in which an adjustment for a turn position of the shift lever becomes easy, an arrangement flexibility of the shift lever increases, or the shift lever becomes compact.
- In order to achieve the above-mentioned object, the first subject matter of the present invention provides a speed change apparatus of a vehicle comprising: a gear transmission; a shift lever device arranged in a zone where a driver on a driver's seat can operate the shift lever device; and an operation force transmission mechanism for transmitting an operation force of the shift lever device to the gear transmission, wherein the shift lever device is provided with a detent mechanism for positioning and holding the shift lever at each shift position, and an operation force transmission mechanism is constituted by a push pull cable.
- According to the first subject matter of the present invention, since the operation force transmission mechanism is constituted by the push pull cable, a layout flexibility for the push pull cable between the shift lever device and the transmission increases, and an arrangement flexibility for the transmission and the shift lever device increase. Therefore, a design of the vehicle becomes facilitated. In addition, since the detent mechanism is provided in the shift lever device which is located near the driver's hand, it becomes easy to adjust the shift lever device.
- In addition to the above-mentioned the first subject matter, the first subject matter may preferably employ the following configurations.
- (a) The shift lever device is arranged on a dashboard located in front of the driver's seat.
- According to the above-mentioned configuration (a), it becomes possible to make efficient use of a space in front of the driver, and the driver can check the shift position of the shift lever even when the driver looks forward.
- (b) The transmission is arranged in a rear portion of the vehicle.
- According to the above-mentioned configuration (b), it becomes possible to separately place the transmission from the shift lever device while exerting above the effects of the present invention.
- (c) The shift lever device includes a shift panel. The shift panel is provided with a shift groove of an approximately straight line shape through which the shift lever passes.
- According to the above-mentioned configuration (c), since the shift lever can turn around an axis of only one shaft, the shift lever device becomes compact and simple.
- In order to achieve the above-mentioned object, the second subject matter of the present invention provides a speed change apparatus of a vehicle comprising: a gear transmission; a shift lever device arranged in a zone where a driver on a driver's seat can operate the shift lever device; and an operation force transmission mechanism for transmitting an operation force of the shift lever device to the gear transmission, wherein the shift lever device is provided with a detent mechanism for positioning and holding the shift lever at each shift position, the detent mechanism includes a recess-formed member having a plurality of recesses, and a detent member biased toward the recess-formed member by an elastic member, each of the recesses corresponds to each of the shift positions, the recess-formed member is arranged on the shift lever which is turnable around a center of the shift lever shaft, and the detent member and the elastic member are arranged on a lever holder for holding the shift lever.
- According to the second subject matter, since the recess-formed member having the detent recess is arranged on the shift lever which is turnable, the shift lever becomes compact while securing the stroke of the shift lever, i.e. the stroke of the cable connecting point.
- In addition to the above-mentioned the second subject matter, the second subject matter may preferably employ the following configurations.
- (d) The shift lever device includes a shift panel. The shift panel is provided with a shift groove of approximately straight line shape through which the shift lever passes.
- According to the above-mentioned configuration (d), since the operation of the shift lever becomes linier, the operation of the shift lever becomes simple.
- (e) The plurality of the recesses is formed on an outer peripheral end of the recess-formed member in the radial direction of the shift lever shaft, and the detent member is biased toward inside from outside of the shift lever shaft in the radial direction.
- According to the above-mentioned configuration (e), although the suppress force of the detent member due to the elastic member applies the shift lever, the suppress force does not act the shift lever to bend the shift lever as a bending load. Therefore, on operating the shift lever, the shift lever is not rickety.
- (f) The detent member is composed of a cylindrical roller pin parallel to the shift lever shaft.
- (g) The operation force transmission mechanism is constituted by a push pull cable.
- According to the above-mentioned configuration (g), since the operation force transmission mechanism is constituted by the push pull cable, a layout flexibility for the push pull cable between the shift lever device and the transmission increases, and an arrangement flexibility for the transmission and the shift lever device increase. Therefore, a design of the vehicle becomes facilitated. In addition, since the detent mechanism is provided in the shift lever device which is located near the driver's hand, it becomes easy to adjust the shift lever device.
- The above and other objects, features and advantages of the present invention will become more apparent from the following description taken in connection with the accompanying drawings, in which:
-
FIG. 1 is a left side view of a utility vehicle including a speed change apparatus according to the present invention; -
FIG. 2 is a perspective view showing a vehicle body frame and the speed change apparatus shown inFIG. 1 ; -
FIG. 3 is a longitudinal sectional view of a shift lever device of the utility vehicle shown inFIG. 1 ; -
FIG. 4 is a plan view of a shift panel of the shift lever device shown inFIG. 3 ; -
FIG. 5 is a rear elevation of the shift lever device shown inFIG. 3 ; -
FIG. 6 is a perspective view showing a detent mechanism of the shift lever inFIG. 5 ; -
FIG. 7 is a partially plan view of the transmission inFIG. 1 ; -
FIG. 8 is a sectional enlarged view taken along inFIG. 7 ; -
FIG. 9 is a sectional view taken along line IX-IX inFIG. 8 ; -
FIG. 10 is a bottom view of the shift shaft shown inFIG. 8 ; -
FIG. 11 is a sectional view taken along line XI-XI inFIG. 10 ; -
FIG. 12 is a sectional view of a conventional example; and -
FIG. 13 is a plan view of a shift panel shown inFIG. 12 . -
FIGS. 1 to 11 show a speed change apparatus according to the present invention and a utility vehicle including the speed change apparatus. Then, an embodiment of the present invention is described below with reference to these drawings. For convenience of description, a forward traveling direction of the utility vehicle will be described as a “front side or forward” of the utility vehicle and respective components, and a right and left direction viewed from a driver will be described as a “right and left direction” of the utility vehicle and the respective components. - In
FIG. 1 , a pair of right and leftfront wheels 2 is provided in a front portion of avehicle body frame 1 of the utility vehicle, and a pair of right and leftrear wheels 3 is provided in a rear portion of thevehicle body frame 1. A riding space S formed between thefront wheels 2 and therear wheels 3 is surrounded by aROPS 5, where theROPS 5 is an abbreviation of a rollover protective structure. A bench typefront seat 6 is arranged in a front half portion of the riding space S and a bench type rear seat 7 is arranged in a rear half portion of the riding space S.A cargo bed 8 is provided on a rearward side of the rear seat 7. Ascreen 9 is arranged between the bench type rear seat 7 and thecargo bed 8. Abonnet 13 is provided in front of the riding space S and adashboard 14 is provided in an upper rearward end portion of thebonnet 13. Asteering wheel device 21 and ashift lever device 22 are provided in thedashboard 14. Thesteering wheel device 21 and theshift lever device 22 are located in a zone where a driver on a driver'sregion 6 a of the bench typefront seat 6 can operate theshift lever device 22 and thesteering wheel device 21. - An
engine 10 is arranged under the rear seat 7, and agear transmission 11 is arranged behind theengine 10. Aninput shaft 16 of thegear transmission 11 is connected to a crankshaft 15 of theengine 10 through a V-belt type continuouslyvariable transmission 12. The V-belt type continuouslyvariable transmission 12 is attached such as to extend from a left side surface of theengine 10 to a left side surface of a front portion of thegear transmission 11. - In
FIG. 2 , thevehicle body frame 1 includes amainframe 1 a having a rectangular shape elongated in a forward and rearward direction in a plan view, abonnet frame 1 b formed in a front end portion of themainframe 1 a, and adashboard frame 1 c formed in an upper rearward end portion of thebonnet frame 1 b. Abracket 23 of thesteering wheel device 21 and a lever holder (a bracket) 24 of theshift lever device 22 are fixed to thedashboard frame 1 c. In the present embodiment, the driver'sregion 6 a is located in a left end portion of the bench typefront seat 6. Thus, thesteering wheel device 21 and theshift lever device 22 are arranged at a forward position relative to the driver'sregion 6 a, that is, in a left side portion of the utility vehicle. Thegear transmission 11 arranged in a rear end portion of themainframe 1 a and theshift lever device 22 attached to thedashboard frame 1 c are connected to each other through a push-pull cable 25 so as to transmit a shift operation force. The push-pull cable 25 serves as an example of an operation force transmission mechanism described in the claims of the present application. The push-pull cable 25 extends downward from theshift lever device 22, reaches the front end portion of themainframe 1 a, then extends right rearward on themainframe 1 a approximately along apropeller shaft 27 for front wheels, and then reaches an upper portion of thegear transmission 11. - In
FIG. 3 , theshift lever device 22 includes ashift lever 31, ashift panel 32 having a shift groove 32 a, and afirst detent mechanism 33. Theshift lever 31 is provided with a base 31 a in sheet metal, arod 31 b, and aknob 31 c. The base 31 a is supported by the lever holder (a bracket) 24 through ashift lever shaft 34 so as to be turnable or rotatable around a center line of theshift lever shaft 34. Therod 31 b is extended from a rear upper end portion of the base 31 a, passes throughout the shift groove 32 a, and then projects rearward and upward. The base 31 a integrally has a connectingarm 31 d projecting forward. The connectingarm 31 d enters a bonnet room 13 a. A front end portion of the connectingarm 31 d is connected to aninner cable 25 a of the push pullcable 25 at an upper end thereof. Theinner cable 25 a is inserted in anouter cable 25 b. Theinner cable 25 a and theouter cable 25 b are extended downward together. - The
first detent mechanism 33 includes a recess formedmember 35 provided on theshift lever 31, aspring case 39 provided on thelever holder 24, afirst detent spring 36 in thespring case 39, and afirst detent pin 37 in thespring case 39. Thefirst detent spring 36 is an example of the elastic member described in the claims, and thefirst detent pin 37 is an example of the detent member described in the claims. - The
spring case 39 is arranged in the vicinity of an upper portion in an inner space of thedashboard 14, and is extended along an upper and down direction. Thespring case 39 is fixed to an upper end portion of thelever holder 24 by means of twobolts 39 b. Thespring case 39 has a lower end opening portion facing recess-formedmember 35 from above. An adjustbolt 39 a is screwed in an upper end portion of thespring case 39. Thefirst detent spring 36 is located in thespring case 39 so as to be compressible and expandable in the upper and down direction (a vertical direction). Thefirst detent pin 37 is made of a cylindrical member, and is laterally arranged in parallel with theshift lever shaft 34. Thefirst detent pin 37 is housed within the lower end opening portion of thespring case 39, and is movable in the upper and down direction. Thedetent pin 37 contacts with a lower end of thefirst detent spring 36. Thefirst detent pin 37 is pressed from above against an upper end surface of the recess-formedmember 35 by an elastic force of thefirst detent spring 36. - In
FIG. 6 , the recess-formedmember 35 is made of an elongated member in the forward and rearward direction, and is fixed to a mountingportion 31 e formed on an upper end portion of the base 31 a by means of a pair ofbolts 38. The upper end surface of the recess-formedmember 35 is formed in an arc-shape along a circle centered at a center line of theshift lever shaft 35. The upper end surface of the recess-formedmember 35 is divided fourdetent recesses protrusions reverse detent recess 35 a, aneutral detent recess 35 b, ahigh detent recess 35 c for forward traveling high-speed, and alow detent recess 35 d for forward traveling low-speed. Although the fourdetent recesses reverse detent recess 35 a on the front end side is opened forward, and a rear end of thelow detent recess 35 d on the rearmost side is opened rearward. - In
FIG. 4 , the shift groove 32 a is formed in a straight line shape extending from an upper forward end portion of theshift panel 32 to a lower rearward end portion thereof. Then, theshift lever 31 moves in a straight line in an inside of the shift groove 32 a so that four shift positions are switched. The four shift positions are, in the order from the upper forward end to the lower rearward end, a forward traveling low-speed position (L), a forward traveling high-speed position (H), a neutral position (N), and a reverse position (R). - In
FIG. 5 , thelever holder 24 integrally has right and leftside walls shift lever 31 is located between both theside walls - In
FIG. 7 , a rear end portion of theinner cable 25 a of the push pullcable 25 is connected to anouter lever 41 arranged above atransmission case 11 a. Theouter lever 41 is fixed to an upper end portion of thelever shaft 42 extending approximately vertically. - In
FIG. 8 , thelever shaft 42 is located in an approximately center portion in the forward and rearward direction of thetransmission case 11 a, then passes through an upper wall boss portion 11 b of thetransmission case 11 a in the upper and down direction, and then is free-rotatably supported by the upper wall boss portion 11 b. Aninner lever 43 arranged in thetransmission case 11 a is fixed to a lower end portion of thelever shaft 42, and then extends forward in an approximately horizontal direction from thelever shaft 42, and then reaches a space under theshift shaft 50. Theshift shaft 50 is arranged in front of thelever shaft 42 and extends in the right and left direction. - The
gear transmission 11 is housed in a space on a front side of theshift shaft 50, and includes theinput shaft 16 of thegear transmission 11, acounter shaft 62, a reverse idler shaft 63, and an output shaft 64 for the front wheels are arranged. An intermediate output shaft 65 for the rear wheels and a final gear mechanism 67 for the rear wheels are housed in a space on a rear side of theshift shaft 50. -
FIG. 10 shows a bottom view of theshift shaft 50, theshift fork 51 is fit on an outer peripheral surface of theshift shaft 50 so as to be movable within a range of a predetermined stroke S1 in an axial direction. Theshift fork 51 is connected to theinner lever 43 of thelever shaft 42 through awaiting mechanism 40 so as to transmit the shift operation force. - The waiting
mechanism 40 includes aspring holder 45 arranged on a left side (in an arrow A4 b direction side) of theshift fork 51 with a predetermined stroke S1 in between, and acoil spring 46 provided between thespring holder 45 and theshift fork 51 so as to be compressible and expandable in the axial direction. Thecoil spring 46 is arranged on a forward side of theshift shaft 50. Anengagement groove 47 extending in the forward and rearward direction is formed in a lower surface of thespring holder 45. Then, a rearward end of theengagement groove 47 is opened. A front end portion of theinner lever 43 fixed to the lower end portion of thelever shaft 42 is provided with an engagingpin 44. The engagingpin 44 engages with theengagement groove 47 so as to be movable forward and rearward. -
FIG. 11 is a sectional view taken along line XI-XI inFIG. 10 , where the engagingpin 44 of theinner lever 43 protrudes upward and then engages with theengagement groove 47 of thespring holder 45 from below. - In
FIG. 9 , theshift shaft 50 is supported by right and left, side walls of thetransmission case 11 a so as to be slidable in the axial direction. Ashift sleeve 90 is spline-fit onto a center portion in the axial direction of thecounter shaft 62 so as to be movable in the axial directional. An outer peripherycircular groove 90 a is formed with theshift sleeve 90, and a two-pronged portion of theshift fork 51 is engaged with the outer peripheralcircular groove 90 a. - In a right end portion of the
counter shaft 62, a counterlow gear 72 for forward traveling low-speed and a counterhigh gear 73 for forward traveling high-speed are arranged in the order from right to left. Then, in the left end portion of thecounter shaft 62, anoutput gear 75 and acounter reverse gear 76 are arranged in the order from left to right. Theoutput gear 75 is formed integrally with thecounter shaft 62. Thecounter reverse gear 76 is fit onto thecounter shaft 62 so as to be free-rotatable around thecounter shaft 62 and not to be movable in the axial direction. - The counter
low gear 72 is spline-fit onto an outer peripheral surface of aboss member 78 so as to rotate integrally with theboss member 78. Theboss portion 78 is formed separately from the counterlow gear 72. The counterhigh gear 73 is fit onto the outer peripheral surface of theboss member 78 with aneedle bearing 80 in between so as to be free-rotatable relative to theboss portion 78. Theboss member 78 is fit onto the outer peripheral surface of thecounter shaft 62 with a pair ofneedle bearings 81 in between so as to be free-rotatable relative to thecounter shaft 62. A left end portion of theboss member 78 is provided with low-speed dog claws 83 and the counterhigh gear 73 is provided with high-speed dog claws 84. The high-speed dog claws 84 is extend leftward beyond the low-speed dog claws 83. Thecounter reverse gear 76 is provided withreverse dog claws 86. - The counter
low gear 72 and the counterhigh gear 73 engage respectively with an inputlow gear 93 and an inputhigh gear 94. Further, thecounter reverse gear 76 engages with anidle reverse gear 95 and theoutput gear 75 engages with asecond output gear 96. - The input
low gear 93 and the inputhigh gear 94 are arranged on theinput shaft 16 shown inFIG. 8 . Theidle reverse gear 95 is fit onto the reverse idler shaft 63 and engages with the input reverse gear 97 of theinput shaft 16. -
FIG. 9 shows a situation that theshift sleeve 90 is at a neutral position. When theshift sleeve 90 moves rightward (in an arrow A4 a direction) from the neutral position, first, the forward travelingdog claws 85 of theshift sleeve 90 engage with the high-speed dog claws 84 of the counterhigh gear 73 so that thegear transmission 11 goes into the forward traveling high-speed state. Further, when theshift sleeve 90 moves in the arrow A4 a direction, the forward travelingdog claws 85 of theshift sleeve 90 pass a neutral state and then engage with the low-speed dog claws 83 of theboss member 78 so that thegear transmission 11 goes into the forward traveling low-speed state. On the contrary, when theshift sleeve 90 moves leftward (in an arrow A4 b direction) from the neutral position, thereverse dog claws 87 of theshift sleeve 90 engage with thereverse dog claws 86 of thecounter reverse gear 76 so that thegear transmission 11 goes into the rearward traveling state. - The shift device is further provided with a
second detent mechanism 100 formed in a right side portion in the axial direction of theshift shaft 50 and athird detent mechanism 200 formed in a left side portion of theshift shaft 50. - The
second detent mechanism 100 includes fourdetent recesses shift shaft 50, asecond detent ball 110 arranged on the upper surface of theshift shaft 50, and asecond detent spring 111 for pressing thesecond detent ball 110 against the upper surface of theshift shaft 50. The fourdetent recesses reverse detent recess 101, aneutral detent recess 102, ahigh detent recess 103 for forward traveling high-speed, and alow detent recess 104 for forward traveling low-speed. - A basic configuration of the
third detent mechanism 200 is similar to that of thesecond detent mechanism 100, and includes fourdetent recesses third detent ball 210, and athird detent spring 211. - The four
detent recesses reverse detent recess 201, a neutral detent recess 202, ahigh detent recess 203 for forward traveling high-speed, and a low detent recess 204 for forward traveling low-speed. - The shift operation is described below.
- [Shift from the Neutral State to the Forward Traveling High-Speed State]
- (1) In
FIG. 1 , the driver sitting on the driver'sregion 6 a grips theknob 31 c with his/her right hand, and operates theshift lever 31. Namely, as shown inFIG. 4 , the driver turns theshift lever 31 from the neutral position (N) to the forward traveling high-speed position (H). - (2) In
FIG. 3 , when theshift lever 31 is turned in an arrow A1 a direction from the neutral position (N) to the forward traveling high-speed position (H), theinner cable 25 a of the push pullcable 25 is pushed down in an arrow A2 a direction (downward) in the inside of theouter cable 25 b. On this operation, the recess-formedmember 35 integrally turns in the arrow A1 a direction with theshift lever 31 around a center line of theshift lever shaft 34. Thereby, theprotrusion 35 f which is located at a second position from front pushes up thefirst detent pin 37 and passes over thefirst detent pin 37, and then thedetent recess 35 c for forward traveling high-speed engages with thefirst detent pin 37. As a result, theshift lever 31 is positioned at the forward traveling high-speed position (H) and hold. - (3) In
FIG. 7 , in association with the movement of theinner cable 25 a in the arrow A2 a direction, theouter lever 41 and thelever shaft 42 are turned or rotated about the center line of thelever shaft 42 in an arrow A3 a direction. - (4) In
FIG. 10 , theinner lever 43 is turned integrally with thelever shaft 42 in the arrow A3 a direction. In association with this, theshift shaft 50 and thespring holder 45 move integrally in the arrow A4 a direction (rightward) through the engagingpin 44 and the edge of theengagement groove 47. - (5) In
FIG. 9 , when theshift shaft 50 and thespring holder 45 move in the arrow A4 a direction (rightward), theshift fork 51 also moves in the arrow A4 a direction with thecoil spring 46 in between. - (6) When the
shift shaft 50, thespring holder 45, theshift fork 51, and theshift sleeve 90 move in the arrow A4 a direction from the neutral position to the forward traveling high-speed position, almost at the same time, thesecond detent ball 110 and thethirds detent ball 210 engage respectively with the high detent recesses 103 and 203. - [Shift from the Forward Traveling High-Speed State to the Forward Traveling Low-Speed State]
- (1) In
FIG. 4 , theshift lever 31 is turned upward further from the forward traveling high-speed position (H) to the forward traveling low-speed position (L). - (2) In
FIG. 3 , when theshift lever 31 is turned in an arrow A1 a direction from the forward traveling high-speed position (H) to the forward traveling low-speed position (L), theinner cable 25 a of the push pullcable 25 is pushed down in an arrow A2 a direction (downward) in the inside of theouter cable 25 b. On this operation, theprotrusion 35 g which is located at a third position from front pushes up thefirst detent pin 37 and passes over thefirst detent pin 37, and then thedetent recess 35 d for forward traveling low-speed engages with thefirst detent pin 37. As a result, theshift lever 31 is positioned at the forward traveling low-speed position (L) and hold. An action for transmitting the shift operation force after the push pullcable 25 is similar to an action at the time of shift from the above-mentioned neutral position to the forward traveling high-speed position. - [Shift from the Neutral State to the Rearward Traveling State]
- (1) In
FIG. 4 , the driver turns downward theshift lever 31 from the neutral position (N) to the reverse position (R). - (2) In
FIG. 3 , when theshift lever 31 is turned in the arrow A1 b direction from the neutral position (N) to the reverse position (R), theinner cable 25 a of the push-pull cable 25 is pushed up in the arrow A2 b direction (upward) in the inside of theouter cable 25 b. On this operation, the recess-formedmember 35 integrally turns in the arrow A1 b direction with theshift lever 31 around the center line of theshift lever shaft 34. Thereby, theprotrusion 35 e which is located at first position from front pushes up thefirst detent pin 37 and passes over thefirst detent pin 37, and then thereverse detent recess 35 a engages with thefirst detent pin 37. As a result, theshift lever 31 is positioned at the reverse position (R) and hold. - (3) In
FIG. 7 , in association with the movement of theinner cable 25 a in the arrow A2 b direction, theouter lever 41 and thelever shaft 42 are turned or rotated about the lever shaft axis in the arrow A3 b direction. - (4) In
FIG. 10 , theinner lever 43 is turned integrally with thelever shaft 42 in the arrow A3 b direction. In association with this, theshift shaft 50 and thespring holder 45 move integrally in the arrow A4 b direction (leftward) thorough theengaging pin 44 and the edge of theengagement groove 47. - (5) In
FIG. 9 , when theshift shaft 50 and thespring holder 45 move in the arrow A4 b direction (leftward), theshift fork 51 also moves in the arrow A4 b direction with thestopper 53 in between. - (6) In association with the movement of the
shift shaft 50 in the arrow A4 b direction, thesecond detent ball 110 and thethird detent ball 210 escape upward from the neutral detent recesses 102 and 202, respectively. - (7) When the
shift shaft 50, thespring holder 45, theshift fork 51, and theshift sleeve 90 move in the arrow A4 b direction from the neutral position to the reverse position, thereverse dog claws 87 of theshift sleeve 90 engage with thereverse dog claws 86 of thecounter reverse gear 76. Almost at the same time, thesecond detent ball 110 and thethird detent ball 210 engage respectively with the reverse detent recesses 101 and 201. - (8) In the reverse state of the
gear transmission 11, the second and thethird detent balls - Operations to return from the forward traveling high-speed position, the forward traveling low-speed position, and the reverse position to the neutral position are forward traveling basic configuration of the
third detent mechanism 200 are performed in the converse order to mentioned the operations. - [Effects of the Embodiment]
- (1) Since the operation force transmission mechanism is constituted by the push pull
cable 25, compared with a connecting rod type, a layout flexibility for the push pullcable 25 between theshift lever device 22 and thetransmission 11 increases, and an arrangement flexibility for thetransmission 11 and theshift lever device 22 increase. Therefore, a design of the vehicle becomes facilitated. In addition, since thefirst detent mechanism 33 is provided in theshift lever device 22 which is positioned near the driver's hand, it becomes easy to adjust theshift lever device 22. - (2) Since the
shift lever device 22 is arranged on adashboard 14 located in front of the driver'sseat 6 a, it becomes possible to make efficient use of the space in front of the driver, and the driver can check the shift position of theshift lever 31 even when the driver looks forward. - (3) Since the operation force transmission mechanism is constituted by the push pull
cable 25, it becomes possible to separately place thetransmission 11 from theshift lever device 22 while exerting above the effects. - (4) Since the
shift panel 32 has the shift groove 32 a through which theshift lever 31 passes, and the shift groove 32 a is formed in an approximately straight line shape, theshift lever 31 can turn around only the axis of thepivot shaft 34. Therefore theshift lever device 22 becomes compact and simple. - (5) The
shift lever device 22 is provided with thefirst detent mechanism 33. The recess-formedmember 35 of thefirst detent mechanism 33 is arranged on theshift lever 22 which is rotatable around the center of theshift lever shaft 34, while thefirst detent spring 36 and thefirst detent ball 37 are arranged thelever holder 24 fixed to thedashboard frame 1 c. Therefore, theshift lever 31 becomes compact while securing the stroke of the shift lever, i.e. the stroke of the cable connecting point of theinner cable 25 a. In particular, in the case that shiftlever device 22 is located within in thedashboard 14, theshift lever device 22 can be housed within thedashboard 14 without expanding the inner space of thedashboard 14. - (6) Since the shift groove 32 a is formed in the approximately straight line shape, the operation of the
shift lever 31 becomes linier, as a result, the operation of theshift lever 31 becomes simple. - (7) The recess-formed
member 35 having the detent recesses 35 a, 35 b, 35 c, 35 d is provided on the outer peripheral end of the recess-formedmember 35 in the radial direction of theshift lever shaft 34, and thefirst detent pin 37 is biased toward inside from outside of theshift lever shaft 34 in the radial direction. Therefore, although the suppress force of thefirst detent pin 37 due to thefirst detent spring 36 applies theshift lever 31, the suppress force does not act theshift lever 31 to bend theshift lever 31 as a bending load. As a result, on operating theshift lever 31, theshift lever 31 is not rickety in the axial direction. - (8) Since the
first detent mechanism 33 has thedetent pin 37 composed of a cylindrical roller pin parallel to theshift lever shaft 34, it is possible to eliminate the rickety of theshift lever 31 is not in the axial direction. - (1) In the present invention, the detent mechanism (the first detent mechanism 33) may be provided with a detent ball instead to the
cylindrical detent pin 37. Moreover, the detent mechanism (the first detent mechanism 33) may be provided with a detent leaf spring, a plurality of disc springs, or an elastic rubber instead of the first detent coil spring, as the elastic member. - (2) The present invention is not limited to the speed change apparatus of the utility vehicle, and the invention can be applied also to the speed change apparatus of a different-type four-wheeled vehicle or a motorcycle.
- (3) The present invention is not limited to the configuration of the embodiment and includes various kinds of modifications as long as not departing from the contents described in the claims.
Claims (6)
Priority Applications (2)
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US14/261,669 US9175769B1 (en) | 2014-04-25 | 2014-04-25 | Speed change apparatus of vehicle |
CN201510182669.1A CN105042058A (en) | 2014-04-25 | 2015-04-17 | Speed change apparatus of vehicle |
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US14/261,669 US9175769B1 (en) | 2014-04-25 | 2014-04-25 | Speed change apparatus of vehicle |
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US20150308572A1 true US20150308572A1 (en) | 2015-10-29 |
US9175769B1 US9175769B1 (en) | 2015-11-03 |
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US14/261,669 Active US9175769B1 (en) | 2014-04-25 | 2014-04-25 | Speed change apparatus of vehicle |
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US2926762A (en) * | 1958-06-04 | 1960-03-01 | Gen Motors Corp | Control mechanism |
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-
2014
- 2014-04-25 US US14/261,669 patent/US9175769B1/en active Active
-
2015
- 2015-04-17 CN CN201510182669.1A patent/CN105042058A/en active Pending
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CN105042058A (en) | 2015-11-11 |
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