ADJUSTER, FRAME AND VEHICLE
A golf cart includes a frame, an adjuster, and a pair of suspension assemblies that reduce changes in camber angles in a pair of wheels caused by an adjustment of a ground clearance. The adjuster includes a pair of first adjusting portions and a pair of second adjusting portions. Each of the first adjusting portions includes a first upper hole and a first lower hole. Each of the second adjusting portions includes a second upper hole and a second lower hole. Each suspension assembly includes a damper and an arm portion. When the golf cart is set to a high ground clearance, the first adjusting portions are installed between the frame and the dampers, and the second adjusting portions are installed between the frame and the arm portions.
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1. Field of the Invention
The present invention relates to an adjuster, a frame and a vehicle, and more specifically to an adjuster, a frame and a vehicle capable of adjusting a positional relationship between the frame and suspension assemblies.
2. Description of the Related Art
There have been proposals for four-wheel vehicles having a ground clearance adjusting capability.
For example, US 2007/0267837 A1 discloses a golf cart, which includes a pair of front wheels, a support arm extending in the vehicle's width direction, a pair of frame members extending in the fore-aft direction, and a pair of sub-suspension assemblies. The support arm is placed above front end portions of the frame members, and is supported by the frame members via a pair of structural members.
Each of the sub-suspension assemblies includes a damper (strut assembly), a knuckle bracket and an arm. Each of the front wheels is rotatably supported by one of the knuckle brackets.
The pair of dampers in the pair of suspension assemblies have their upper end portions pivotably supported by two end portions of the support arm. The pair of dampers have their other lower end portions connected to their respective knuckle brackets.
The pair of arms in the pair of suspension assemblies have their inner end portions, in the vehicle's width direction, pivotably supported by front end portions of the pair of frame members via U-shaped members, etc. The pair of arms have their other outer end portions, in the vehicle's width direction, connected to their respective knuckle brackets.
The support arm includes a first hole and a second hole at each of their two end portions to support an end portion of the damper. The second holes are located at a lower position than the first holes. Therefore, if the second holes are used to support the dampers, it is possible to increase the vehicle's ground clearance, i.e., a height of the frame members from the ground surface, as compared to the case in which the first holes are used. With such an arrangement as the above, it is possible to adjust the golf cart's ground clearance by selecting from the first holes and the second holes depending on the front wheel diameter.
As described above, according to the golf cart disclosed in US 2007/0267837 A1, the ground clearance is adjustable by changing the position at which the pair of dampers are installed in the support arm. However, changing the position at which the dampers are installed sometimes significantly changes camber angles of the front wheels (tires). In this case, wheel alignment settings must be changed accordingly.
SUMMARY OF THE INVENTIONIn order to overcome the problems described above, preferred embodiments of the present invention provide an adjuster, a frame and a vehicle capable of reducing changes in camber angles in a pair of wheels caused by adjustment of ground clearance.
According to a preferred embodiment of the present invention, an adjuster is arranged to adjust a ground clearance of a vehicle. The adjuster can be applied to a vehicle that includes a pair of strut suspension assemblies each including a damper, an arm portion, and a knuckle portion, for example. The adjuster includes a pair of first adjusting portions each including a first upper hole and a first lower hole. The first adjusting portions are arranged to be installed between the dampers and a frame of the vehicle to adjust a position of the frame with respect to the dampers. The adjuster further includes a pair of second adjusting portions each including a second upper hole and a second lower hole. The second adjusting portions are arranged to be installed between the arm portions and the frame at a height lower than the first adjusting portions to adjust a position of the frame with respect to the arm portions.
Generally, a vehicle which includes strut suspension assemblies includes a frame that includes holes to support the dampers (hereinafter, these holes will be referred to as upper supporting holes), and holes to support the arm portions (hereinafter, these holes will be referred to as lower supporting holes). The lower supporting holes are located at a lower height than the upper supporting holes. With the above, each of the dampers is pivotably supported by a support member (e.g., a bolt) inserted through the upper supporting hole, whereas each of the arm portions is pivotably supported by a support member (e.g., a bolt) inserted through the lower supporting hole. In such a vehicle, it is possible to adjust the vehicle's ground clearance by installing an adjuster according to preferred embodiments of the present invention between the frame and the suspension assemblies. Specifically, for example, each connecting member (e.g., a bolt) is inserted through the upper supporting hole and the first upper hole so as to connect the frame with the first adjusting portions, whereas each connecting member is inserted through the lower supporting hole and the second upper hole so as to connect the frame with the second adjusting portions. In this step, the first adjusting portions and the second adjusting portions are fixed to the frame such that the first lower holes are located at a lower height than the first upper holes and the second lower holes are located at a lower height than the second upper holes. Each support member inserted through the first lower hole of the first adjusting portion supports the damper pivotably, whereas each support member inserted through the second lower hole of the second adjusting portion supports the arm portion pivotably. The steps described above move the frame upward with respect to the dampers and also with respect to the arm portions as compared to the case before the adjuster is installed. As a result, it is possible to increase the ground clearance. As described above, when increasing the ground clearance by using the adjuster according to a preferred embodiment of the present invention, the frame is moved upward with respect to the dampers and with respect to the arm portions as well. In other words, it is possible to move both the dampers and the arm portions downward with respect to the frame. In this case, it is possible to reduce positional changes between the dampers and the arm portions before and after the adjuster is installed. Specifically, it is possible to reduce attitude changes of the suspension assemblies before and after the ground clearance adjustment. As a result, it is possible to reduce changes in the camber angles of the wheels supported by the suspension assemblies.
According to another preferred embodiment of the present invention, an adjuster is arranged to adjust a ground clearance of a vehicle. The adjuster can be applied to a vehicle that includes a pair of strut suspension assemblies each including a damper, an arm portion, and a knuckle portion, for example. The vehicle includes a frame including a pair of first adjusting portions to support the pair of dampers. Each of the pair of first adjusting portions includes a first upper hole and a first lower hole which is located at a height lower than the first upper hole, to support the damper. The adjuster includes a pair of second adjusting portions each including a second upper hole and a second lower hole. The second adjusting portions are arranged to be installed between the arm portions and the frame at a height lower than the first adjusting portions to adjust a position of the frame with respect to the arm portions.
When setting the ground clearance to low in a vehicle that includes a frame including the first upper holes and the first lower holes, the dampers are, for example, pivotably supported by support members inserted through the first upper holes. The arm portions are, for example, pivotably supported similar to the vehicle described above, by support members (e.g., bolts) inserted through the lower supporting holes in the frame. On the other hand, when setting the ground clearance to high, the dampers are, for example, pivotably supported by support members inserted through the first lower holes. The arm portions are supported by the frame similar to the vehicle described above, via the second adjusting portions. Specifically, connecting members inserted through the lower supporting holes and the second upper holes connect the frame with the second adjusting portions, whereas support members inserted through the second lower holes pivotably support the arm portions. Since the first lower holes are located at a lower position than the first upper holes, the dampers are moved downward with respect to the frame. Also similar to the vehicle described above, installing the second adjusting portions between the arm portions and the frame move the arm portions downward with respect to the frame. Specifically, when setting the ground clearance to high by using the adjuster according to a preferred embodiment of the present invention, it is possible to move not only the dampers but also the arm portions downward with respect to the frame. According to this arrangement, it is possible to reduce changes in a positional relationship between the dampers and the arm portions before and after the ground clearance adjustment. As a result, it is possible to reduce changes in the camber angles of the wheels supported by the suspension assemblies.
Preferably, the pair of first adjusting portions are integral with each other and are included in a first adjusting member. In this case, it is possible to fix the first adjusting member to the frame at least at two positions (e.g., the pair of first adjusting portions). This prevents the first adjusting member from rotating with respect to the frame. In other words, the arrangement prevents the pair of first adjusting portions from rotating with respect to the frame. This eliminates arrangements which are otherwise necessary to prevent rotation of the first adjusting portions, and makes it possible to reduce the number of parts required to install the adjuster to the frame. Also, the first adjusting member reinforces the frame.
Further preferably, the pair of second adjusting portions are integral with each other and are included in a second adjusting member. In this case, it is possible to fix the second adjusting member to the frame at least at two positions (e.g., the pair of second adjusting portions). This prevents the second adjusting member from rotating with respect to the frame. In other words, the arrangement prevents the pair of second adjusting portions from rotating with respect to the frame. This eliminates arrangements which are otherwise necessary to prevent rotation of the second adjusting portions, and makes it possible to reduce the number of parts required to install the adjuster to the frame. Also, the second adjusting member reinforces the frame.
According to still another preferred embodiment of the present invention, a vehicle frame is arranged to support a pair of strut suspension assemblies each including a damper, an arm portion and a knuckle portion. The frame includes a pair of first adjusting portions each including a first upper hole and a first lower hole and arranged to support the damper, and a pair of second adjusting portions each including a second upper hole and a second lower hole and arranged to support the arm portion at a height lower than the first adjusting portion.
When setting the ground clearance to low in a vehicle that includes a frame according to a preferred embodiment of the present invention, the dampers are, for example, pivotably supported by support members inserted through the first upper holes. The arm portions are, for example, pivotably supported by support members inserted through the second upper holes. On the other hand, when setting the ground clearance to high, the dampers are, for example, pivotably supported by support members inserted through the first lower holes. The arm portions are, for example, pivotably supported by support members inserted through the second lower holes. The first lower holes are located at a lower position than the first upper holes, whereas the second lower holes are located at a lower position than the second upper holes. Therefore, it is possible to move both the dampers and the arm portions downward with respect to the frame when setting the ground clearance to high. According to this arrangement, it is possible to reduce changes in a positional relationship between the dampers and the arm portions before and after the ground clearance adjustment. As a result, it is possible to reduce changes in the camber angles of the wheels supported by the suspension assemblies.
Preferably, each of the first lower holes is located outward of a location of the corresponding first upper hole and each of the second lower holes is located outward of a location of the corresponding second upper hole in the vehicle's width direction. In this case, since it is possible to move each of the suspension assemblies to an outer side of the vehicle when increasing the ground clearance, it is possible to move the wheels away from the vehicle frame. Thus, even if the wheels have an increased width, it is possible to prevent the wheels from making contact with the frame. As a result, this arrangement allows the use of larger wheels.
In a vehicle that includes a pair of strut suspension assemblies, it is preferable to reduce changes in camber angles of the wheels caused by a ground clearance adjustment. Therefore, the adjuster or the frame according to a preferred embodiment of the present invention, which reduces changes in camber angles of the wheels caused by a ground clearance adjustment, is suitably applied to vehicles.
Preferably, the vehicle further includes an operation controller, a pair of tie rods working in association with the operation controller and connected to the pair of knuckle portions in the pair of suspension assemblies, and a pair of spacers each placed between the tie rod and the knuckle portion. With this arrangement, each of the knuckle portions includes a connecting portion to connect to the tie rod, and each of the tie rods is connected to the connecting portion via the spacer. In this case, use of the pair of spacers enables height adjustment of tie rod end portions which are closer to the knuckles, depending on the ground clearance. This makes it possible to reduce curvature deformation of the tie rods when increasing the ground clearance. As a result, this arrangement makes it possible to transmit operations made to the operation controller smoothly to the wheels (knuckle portions).
The above and other elements, features, steps, characteristics and advantages of the present invention will become more apparent from the following detailed description of the preferred embodiments with reference to the attached drawings.
Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. The description will use a golf cart 10 as a non-limiting example of a vehicle which includes an adjuster 14 according to a preferred embodiment of the present invention. The terms front and rear, right and left, up and down as used in describing the golf cart 10 are determined from the driver's position on a seat 62 of the golf cart 10, with the driver sitting while facing toward a steering wheel 64. Also, the term “outer side” will be used to mean an outer side of the golf cart 10 in terms of the left-right direction (width direction) of the vehicle when used without specific qualifying phrases.
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The suspension unit 16 includes a pair of strut suspension assemblies 16a, 16b (see
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Without going into details, the main frame member 24 has a shape that is left-right symmetrical to the main frame member 22, and includes a first portion 24a, a second portion 24b, a third portion 24c and a fourth portion 24d.
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The support frame member 28 has a shape that is left-right symmetrical to the support frame member 26, and is placed at a front end portion of the main frame member 24 (first portion 24a). The support frame member 28 includes a pair of lower supporting holes 28a.
The support frame member 30 includes a substantially U-shaped section opening toward an outer side of the golf cart 10. The support frame member 30 is located at a position that is farther rearward than the support frame member 26 and extends upward from the main frame member 22 (first portion 22a). In the present preferred embodiment, the support frame member 30 extends upward while tilting rearward in a side view and tilting outward of the golf cart 10 in a front view. The support frame member 30 includes an upper end portion and a lower end portion protruding outward of the golf cart 10. The support frame member 30 includes a pair of upper supporting holes 30a opposed to each other in a fore-aft direction at its upper end portion, and a pair of lower supporting holes 30b opposed to each other in a fore-aft direction at its lower end portion.
The support frame member 32 has a shape that is left-right symmetrical to the support frame member 30. The support frame member 32 is located at a position that is farther rearward than the support frame member 28 and extends upward from the main frame member 24 (first portion 24a). The support frame member 32 includes a pair of upper supporting holes 32a (only a front upper supporting hole 32a is shown) at its upper end portion, and a pair of lower supporting holes 32b (only a front lower supporting hole 32b is shown) at its lower end portion.
In the present preferred embodiment, the support frame members 26, 30 are fixed to the main frame member 22, by welding, for example. Likewise, the support frame members 28, 32 are fixed to the main frame member 24, by welding, for example.
A cross member 34 connects the front end portion of the main frame member 22 and the front end portion of the main frame member 24 with each other. The cross member 34 is fixed to the main frame member 22, 24, by welding, for example.
A cross member 36 connects an upper portion of the support frame member 30 and an upper portion of the support frame member 32 with each other. In the present preferred embodiment, the cross member 36 is provided by a platy member which has a shape of a letter M (or E in general) when viewed from a side. The cross member 36 is fixed to the support frame members 30, 32, by welding, for example.
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A pair of support frame members 44, 46 extend obliquely upward and forward from the cross member 38. The support frame members 44, 46 have their lower end portions fixed to the cross member 38, by welding, for example.
The upper end portions of the support frame members 44, 46 support a cross member 48, which extends in a left-right direction. The cross member 48 is fixed to the support frame members 44, 46, by welding, for example.
The cross member 36 and the cross member 48 are connected to each other by connection frame members 50, 52, 54. The connection frame member 50 extends from a left end portion of the cross member 36 in an obliquely leftward and rearward direction and is connected to the cross member 48. The connection frame member 52 extends from a right end portion of the cross member 36 in an obliquely rightward and rearward direction and is connected to the cross member 48. The connection frame member 54 extends rearward from the cross member 36 between the connection frame member 50 and the connection frame member 52 and is connected to the cross member 48. The connection frame members 50, 52, 54 are fixed to the cross members 36, 48, by welding, for example.
The third portion 22c and the third portion 24c are connected to each other by a support frame member 56, whereas the fourth portion 22d and the fourth portion 24d are connected to each other by support frame members 58, 60. Each of the support frame members 56, 58, 60 has a shape of an inverted letter U when viewed from the front. The support frame members 56, 58, 60 are fixed to the main frame members 22, 24, by welding, for example.
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Without going into details, a drive-power source (not illustrated) is below the seat 62. The drive-power source is provided by an engine or an electric motor, for example. In the present preferred embodiment the drive-power source generates a driving force, which rotates the rear wheels 20, for example, and thereby moves the golf cart 10.
Next, the adjuster 14 will be described in detail.
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The first adjusting member 72 includes a pair of first adjusting portions 72a, 72b. In the present preferred embodiment, the first adjusting portion 72a includes the first end portion 76a and the connecting portion 78, whereas the first adjusting portion 72b includes the second end portion 76b and the connecting portion 80.
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The second adjusting member 74 includes a pair of second adjusting portions 74a, 74b. In the present preferred embodiment, the second adjusting portion 74a includes the first end portion 102a and the connecting portion 104, whereas the second adjusting portion 74b includes the second end portion 102b and the connecting portion 106.
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The platy portion 104a includes a rearwardly bent portion 108 in its generally central region. Referring to
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The cylindrical portion 104c penetrates the platy portions 104a, 104b in a fore-aft direction and is supported by the platy portions 104a, 104b. The cylindrical portion 104c is welded, for example, to the platy portions 104a, 104b. The cylindrical portion 104c includes a second upper hole 114a extending in a fore-aft direction. The cylindrical portion 104c is supported by the platy portions 104a, 104b at a position higher than the second lower holes 110a, 112a. Therefore, the second lower holes 110a, 112a are located at a lower position than the second upper hole 114a. In the present preferred embodiment, the second lower holes 110a, 112a are located on an outer side that is outward of a location of the second upper hole 114a in the width direction of the golf cart 10. Specifically, the second lower holes 110a, 112a are located obliquely below the second upper hole 114a. Referring to
Without getting into details, the connecting portion 106 is left-right symmetrical to the connecting portion 104 in its shape, and includes a pair of platy portions 106a, 106b and a cylindrical portion 106c. Referring to
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The damper 120 includes a cylinder 120a and a piston rod 120b. Referring to
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The arm portion 122 is provided by an A-arm, for example, and includes a first arm 122a, a second arm 122b (see
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The knuckle portion 124 includes a generally cylindrical main body portion 124a, a generally columnar wheel shaft portion 124b extending from the main body portion 124a toward an outer side of the golf cart 10, and a platy connecting portion 124c extending rearward from the main body portion 124a. The main body portion 124a is supported pivotably by the bracket portion 128 using a bolt 146 and a nut 148. The wheel shaft portion 124b rotatably supports the front wheel 18 via unillustrated bearings, etc.
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Without going into details, the suspension assembly 16b is left-right symmetrical to the suspension assembly 16a in its configuration, and includes a damper 158, an arm portion 160, a knuckle portion 162, a bracket portion 164, a bracket portion 166 and a spring 168.
Without going into details, the damper 158 is supported like the damper 120, pivotably by the first adjusting portion 72b (see
Without going into details, the arm portion 160 includes a pair of connecting portions (not illustrated) which are similar to the connecting portions 122c, 122d (see
The right front wheel 18 is rotatably supported by the knuckle portion 162. The knuckle portion 162 is essentially identical with the knuckle portion 124 (see
Hereinafter, functions and advantages of the golf cart 10 will be described.
According to the golf cart 10, the ground clearance can be reduced by removing the adjuster 14 and installing the suspension unit 16 directly to the frame 12. Hereinafter, description will be made with reference to the drawings.
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As described above, according to the golf cart 10, it is possible, by removing the adjuster 14, to move the frame 12 to a lower position with respect to the dampers 120, 158 while moving it also to a lower position with respect to the arm portions 122, 160 as well. In other words, it is possible to move the dampers 120, 158 and the arm portions 122, 160 as well, to an upper position with respect to the frame 12. In this case, the arrangement reduces positional changes between the damper 120 and the arm portion 122, and positional changes between the damper 158 and the arm portion 160 as well, before and after the adjuster 14 is removed. Specifically, it is possible to reduce attitude changes of the suspension assemblies 16a, 16b before and after the ground clearance adjustment of the golf cart 10. As a result, the arrangement reduces changes in the camber angles of the front wheels 18 which are supported by the suspension assemblies 16a, 16b. In particular, when the distance D1 (see
If the ground clearance of the golf cart 10, from which the adjuster 14 has been removed, needs to be increased, then this will be achieved by simply re-installing the adjuster 14 between the dampers 120, 158 and the frame 12, and between the arm portions 122, 160 and the frame 12. More specifically, it will be achieved simply by installing the first adjusting portion 72a between the damper 120 and the support frame member 30; installing the first adjusting portion 72b between the damper 158 and the support frame member 32; installing the pair of second adjusting portions 74a between the arm portion 122 and the support frame members 26, 30; and installing the pair of second adjusting portions 74b between the arm portion 160 and the support frame members 28, 32. With this set of operations, it is possible to increase the ground clearance of the golf cart 10.
It should be noted that relative movement of the frame 12 and the suspension unit 16 when installing the adjuster 14 between the frame 12 and the suspension unit 16 is the reverse of the movement of the frame 12 and the suspension unit 16 when removing the adjuster 14. Therefore, according to the golf cart 10, it is possible, by installing the adjuster 14, to move the frame 12 to a higher position with respect to the dampers 120, 158 while moving it also to a higher position with respect to the arm portions 122, 160 as well. In other words, it is possible to move the dampers 120, 158 and the arm portions 122, 160 as well, to a lower position with respect to the frame 12. In this case, it is possible to reduce changes in the positional relationship between the damper 120 and the arm portion 122 and changes in the positional relationship between the damper 158 and the arm portion 160, before and after the adjuster 14 is installed. Specifically, it is possible to reduce attitude changes in the suspension assemblies 16a, 16b before and after the ground clearance adjustment of the golf cart 10. As a result, it is possible to reduce changes in the camber angles of the front wheels 18 which are supported by the suspension assemblies 16a, 16b. In particular, if the distance D1 and the distance D3 are equal to each other and the distance D2 and the distance D4 are equal to each other as well, there is no change in the positional relationship between the damper 120 and the arm portion 122, nor between the damper 158 and the arm portion 160 before and after the adjuster 14 is installed. Thus, it is possible to prevent changes in the camber angles of the front wheels 18.
The first adjusting portions 72a, 72b are preferably integral with each other and included in the first adjusting member 72. In this case, it is possible to fix the first adjusting member 72 to the frame 12 at least at two positions (the first adjusting portions 72a, 72b). This prevents the first adjusting member 72 from rotating with respect to the frame 12. In other words, the arrangement prevents the first adjusting portions 72a, 72b from rotating with respect to the frame 12. This eliminates arrangements which are otherwise necessary to prevent rotation of the first adjusting portions 72a, 72b, and makes it possible to reduce the number of parts required to install the adjuster 14 to the frame 12. Also, the first adjusting member 72 reinforces the frame 12.
The second adjusting portions 74a, 74b are preferably integral with each other and included in the second adjusting member 74. In this case, it is possible to fix the second adjusting member 74 to the frame 12 at least at two positions (the second adjusting portions 74a, 74b). This prevents the second adjusting member 74 from rotating with respect to the frame 12. In other words, the arrangement prevents the second adjusting portions 74a, 74b from rotating with respect to the frame 12. This eliminates arrangements which are otherwise necessary to prevent rotation of the second adjusting portions 74a, 74b, and makes it possible to reduce the number of parts required to install the adjuster 14 to the frame 12. Also, the second adjusting member 74 reinforces the frame 12.
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In the preferred embodiments described above, the pair of first adjusting portions 72a, 72b are preferably integral with each other and included in the first adjusting member 72; and the pair of second adjusting portions 74a, 74b are preferably integral with each other and included in the second adjusting member 74. However, the configuration of the pair of first adjusting portions or the configuration of the pair of second adjusting portions is not limited to those in the preferred embodiments described above. For example, the pair of first adjusting portions need not necessarily be integral with each other. The pair of second adjusting portions need not necessarily be integral with each other, either.
In the preferred embodiments described above, description was made for a case in which the first adjusting member 72 of the adjuster 14 is preferably fixed to the support frame members 30, 32 of the frame 12. However, the configuration of the frame or of the adjuster is not limited to the preferred embodiments described above.
The frame 12a differs from the frame 12 in that it does not include the support frame members 30, 32 but includes support frame members 172, 174 instead. The adjuster 14a differs from the adjuster 14 in that it does not include the first adjusting member 72.
The support frame member 172 differs from the support frame member 30 in its configuration of an upper end portion 172a. The upper end portion 172a of the support frame member 172 includes a pair of first upper holes 172b and a pair of first lower holes 172c. The pair of first lower holes 172c are located at a lower and more outward position relative to the pair of first upper holes 172b. The location of the first upper holes 172b is, for example, equal or substantially equal to the location of the upper supporting holes 30a (see
The support frame member 174 is left-right symmetrical to the support frame member 172 in its configuration. The support frame member 174 differs from the support frame member 32 in its configuration of an upper end portion 174a. The upper end portion 174a of the support frame member 174 includes a pair of first upper holes 174b (the figure shows only one of the first upper holes 174b in the front) and a pair of first lower holes 174c (the figure shows only one of the first lower holes 174c in the front). The pair of first lower holes 174c are located at a lower and more outward position relative to the pair of first upper holes 174b. The location of the first upper holes 174b is, for example, equal or substantially equal to the location of the upper supporting holes 32a (see
In the present preferred embodiment, the upper end portion 172a and the upper end portion 174a each represents the first adjusting portion.
When the ground clearance is set to low in a golf cart which includes the frame 12a, the adjuster 14a is not installed, similar to the adjuster 14 is not installed in the golf cart 10. Then, a damper (not illustrated) of a suspension assembly (not illustrated) which supports a left front wheel (not illustrated) is supported by the upper end portion 172a of the support frame member 172 via a support member (a bolt, for example, not illustrated) inserted through the pair of first upper holes 172b. The suspension assembly includes an arm portion (not illustrated), which is supported by the support frame member 26 and a lower end portion of the support frame member 172 similar to the arm portion 122 (see
When the golf cart's ground clearance is set to high, the pair of second adjusting members 74 are installed to the frame 12a. The damper of the suspension assembly which supports the left front wheel is supported by the upper end portion 172a of the support frame member 172 via a support member (a bolt, for example, not illustrated) inserted through the pair of first lower holes 172c. The arm portion is supported similar to the arm portion 122 (see
In this preferred embodiment, the adjuster 14a is installed when the golf cart's ground clearance is set to high, and the adjuster 14a is removed when the ground clearance is set to low. Also, the first lower holes 172c are located at a lower position than the first upper holes 172b and the first lower holes 174c are located at a lower position than the first upper holes 174b. Therefore, similar to the earlier-described golf cart 10, it is possible to move the pair of dampers and the pair of arm portions to an upper (or a lower) position with respect to the frame 12a when adjusting the golf cart's ground clearance. With this arrangement, it is possible to reduce attitude changes in the pair of suspension assemblies before and after the ground clearance adjustment of the golf cart. As a result, the arrangement reduces changes in the camber angles of the front wheels which are supported by the pair of suspension assemblies.
The first lower holes 172c are located outward of a location of the first upper holes 172b, and the first lower holes 174c are located outward of a location of the first upper holes 174b. Also, as described for the golf cart 10 above, the second lower hole 110a and the second lower hole 112a are located outward of a location of the second upper hole 114a (see
It should be noted that although the details were not described, conventional strut suspension assemblies including dampers, arm portions and knuckle portions, for example, may be utilized in a golf cart which includes the frame 12a and the adjuster 14a. Constituent members of the suspension assemblies may be changed in design according to the shape of the frame 12a.
In the preferred embodiments described above, description was made for a case where the frame 12a preferably includes the pair of first adjusting portions (upper end portions 172a, 174a). However, configuration of the frame is not limited to the preferred embodiments described above.
The frame 12b differs from the frame 12a in that it includes support frame members 176, 178 instead of the support frame members 26, 28; and support frame members 180, 182 instead of the support frame members 172, 174.
The support frame member 176, which has the shape of the support frame member 26 but is extended further downward, includes a pair of second upper holes 176a and a pair of second lower holes 176b. The second lower holes 176b are located at a lower and more outward position than the second upper holes 176a. The location of the second upper holes 176a is, for example, equal to the location of the lower supporting holes 26a (see
The support frame member 178, which is symmetrical to the support frame member 176 in its shape, includes a pair of second upper holes 178a and a pair of second lower holes 178b (the figure shows only one second lower hole 178b in the front). The second lower holes 178b are located at a lower and more outward position than a location of the second upper holes 178a. The location of the second upper holes 178a is, for example, equal or substantially equal to the location of the lower supporting holes 28a (see
The support frame member 180 differs from the support frame member 172 in its configuration of a lower end portion 180a. The lower end portion 180a of the support frame member 180 includes a pair of second upper holes 180b and a pair of second lower holes 180c. The second lower holes 180c are located at a lower and more outward position than a location of the second upper holes 180b. The location of the second upper holes 180b is, for example, equal or substantially equal to the location of the lower supporting holes 30b (see
The support frame member 182 is left-right symmetrical to the support frame member 180 in its configuration. The support frame member 182 differs from the support frame member 174 in its configuration of a lower end portion 182a. The lower end portion 182a of the support frame member 182 includes a pair of second upper holes 182b (the figure shows only one of the second upper holes 182b in the front) and a pair of second lower holes 182c (the figure shows only one of the second lower holes 182c in the front). The second lower holes 182c are located at a lower and more outward position than a location of the second upper holes 182b. The location of the second upper holes 182b is, for example, equal or substantially equal to the location of the lower supporting holes 32b (see
In the present preferred embodiment, the upper end portion 172a and the upper end portion 174a each represents the first adjusting portion, whereas the support frame member 176, the support frame member 178, the lower end portion 180a and the lower end portion 182a each represents the second adjusting portion.
When setting ground clearance to low in a golf cart which includes the frame 12b, a damper (not illustrated) of the suspension assembly (not illustrated) which supports a left front wheel (not illustrated) is supported by the upper end portion 172a of the support frame member 180 via a support member (a bolt, for example, not illustrated) inserted through the pair of first upper holes 172b. An arm portion (not illustrated) of the suspension assembly is supported by the support frame member 176 via a support member (a bolt, for example, not illustrated) inserted through the pair of second upper holes 176a and by the lower end portion 180a of the support frame member 180 via a support member (a bolt, for example, not illustrated) inserted through the pair of second upper holes 180b. A damper (not illustrated) of the suspension assembly (not illustrated) which supports a right front wheel (not illustrated) is supported by the upper end portion 174a of the support frame member 182 via a support member (a bolt, for example, not illustrated) inserted through the pair of first upper holes 174b. An arm portion (not illustrated) is supported by the support frame member 178 via a support member (a bolt, for example, not illustrated) inserted through the pair of second upper holes 178a and by the lower end portion 182a of the support frame member 182 via a support member (a bolt for example, not illustrated) inserted through the pair of second upper holes 182b.
When a golf cart's ground clearance is set to high, the damper of the suspension assembly which supports the left front wheel is supported by the upper end portion 172a of the support frame member 180 via a support member (a bolt, for example, not illustrated) inserted through the pair of first lower holes 172c. The arm portion is supported by the support frame member 176 via a support member (a bolt, for example, not illustrated) inserted through the pair of second lower holes 176b and by the lower end portion 180a of the support frame member 180 via a support member (a bolt, for example, not illustrated) inserted through the pair of second lower holes 180c. The damper of the suspension assembly which supports the right front wheel is supported by the upper end portion 174a of the support frame member 182 via a support member (a bolt, for example, not illustrated) inserted through the pair of first lower holes 174c. The arm portion is supported by the support frame member 178 via a support member (a bolt, for example, not illustrated) inserted through the pair of second lower holes 178b and by the lower end portion 182a of the support frame member 182 via a support member (a bolt, for example, not illustrated) inserted through the pair of second lower holes 182c.
Again, in this preferred embodiment, the first lower holes 172c are located at a lower position than the first upper holes 172b and the first lower holes 174c are located at a lower position than the first upper holes 174b. The second lower holes 176b are located at a lower position than the second upper holes 176a, and the second lower holes 178b are located at a lower position than the second upper holes 178a. The second lower holes 180c are located at a lower position than the second upper holes 180b, and the second lower holes 182c are located at a lower position than the second upper holes 182b. Therefore, similar to the case of the earlier-described golf cart 10, it is possible to move the pair of dampers and the pair of arm portions to an upper (or a lower) position with respect to the frame 12b when adjusting the golf cart's ground clearance. With this arrangement, it is possible to reduce attitude changes in the pair of suspension assemblies before and after the ground clearance adjustment of the golf cart. As a result, the arrangement reduces changes in the camber angles of the front wheels which are supported by the pair of suspension assemblies.
The first lower holes 172c are located outward of a location of the first upper holes 172b, and the first lower holes 174c are located outward of a location of the first upper holes 174b. The second lower holes 176b are located outward of a location of the second upper holes 176a, and the second lower holes 178b are located outward of a location of the second upper holes 178a. The second lower holes 180c are located outward of a location of the second upper holes 180b, and the second lower holes 182c are located outward of a location of the second upper holes 182b. Due to this arrangement, it is possible to dispose each of the suspension assemblies at an outer side so as to be able to locate the front wheels at positions farther from the frame 12b when the golf cart's ground clearance is set to a high setting. Thus, even if the front wheels have an increased width, it is possible to prevent the front wheels from making contact with the frame 12b. As a result, this arrangement allows the use of larger front wheels.
It should be noted here that although details were not described, conventional strut suspension assemblies including dampers, arm portions and knuckle portions, for example, may be utilized in a golf cart which includes the frame 12b. Constituent members of the suspension assembly may be changed in design according to the shape of the frame 12b.
In the preferred embodiments described above, description was made for cases in which the present invention was preferably applied to a configuration to connect a suspension unit which supports a pair of front wheels to a frame. However, preferred embodiments of the present invention are also applicable to a configuration to connect a suspension unit which supports a pair of rear wheels to a frame.
In the preferred embodiments described above, description was made of a golf cart as an example of a vehicle. However, the present invention is also applicable to other vehicles such as personal transportation vehicles (PTV), for example.
While preferred embodiments of the present invention have been described above, it is to be understood that variations and modifications will be apparent to those skilled in the art without departing from the scope and spirit of the present invention. The scope of the present invention, therefore, is to be determined solely by the following claims.
Claims
1. An adjuster for adjusting a ground clearance of a vehicle that includes a pair of strut suspension assemblies each including a damper, an arm portion, and a knuckle portion, the adjuster comprising:
- a pair of first adjusting portions each including a first upper hole and a first lower hole, the pair of first adjusting portions arranged to be installed between the dampers and a frame of the vehicle to adjust a position of the frame with respect to the dampers; and
- a pair of second adjusting portions each including a second upper hole and a second lower hole, the pair of second adjusting portions arranged to be installed between the arm portions and the frame of the vehicle at a height lower than the pair of first adjusting portions to adjust a position of the frame with respect to the arm portions wherein
- a distance between the first upper hole and the first lower hole is equal or substantially equal to a distance between the second upper hole and the second lower hole.
2. (canceled)
3. The adjuster according to claim 1, wherein the pair of first adjusting portions are integral with each other and included in a first adjusting member.
4. The adjuster according to claim 1, wherein the pair of second adjusting portions are integral with each other and included in a second adjusting member.
5. The adjuster according to claim 1, wherein each of the first lower holes is located outward of a location of a corresponding first upper hole in a vehicle width direction, and each of the second lower holes is located outward of a location of a corresponding second upper hole in the vehicle width direction.
6-9. (canceled)
10. A vehicle comprising:
- a pair of strut suspension assemblies each including a damper, an arm portion, and a knuckle portion; and
- the adjuster according to claim 1.
11-12. (canceled)
13. The vehicle according to claim 10, further comprising:
- an operation controller;
- a pair of tie rods working in association with the operation controller and connected to the pair of knuckle portions in the pair of suspension assemblies, respectively; and
- a pair of spacers each located between the tie rod and the knuckle portion; wherein
- each of the knuckle portions includes a connecting portion to connect the knuckle portion to the tie rod; and
- each of the tie rods is connected to the connecting portion via the spacer.
14-15. (canceled)
16. The adjuster according to claim 1, wherein a vertical distance and a horizontal distance between the first upper hole and the first lower hole is equal or substantially equal to a vertical distance and a horizontal distance between the second upper hole and the second lower hole, respectively.
17. The vehicle according to claim 10, wherein the pair of first adjusting portions are connected to the frame of the vehicle at the first upper holes, the dampers are connected to the pair of first adjusting portions at the first lower holes, the pair of second adjusting portions are connected to the frame of the vehicle at the second upper holes, and the arm portions are connected to the pair of second adjusting portions at the second lower holes.
18. The vehicle according to claim 10, wherein the pair of first adjusting portions are connected to the frame of the vehicle at the first lower holes, the dampers are connected to the pair of first adjusting portions at the first upper holes, the pair of second adjusting portions are connected to the frame of the vehicle at the second lower holes, and the arm portions are connected to the pair of second adjusting portions at the second upper holes.
Type: Application
Filed: Jan 22, 2013
Publication Date: Jul 24, 2014
Applicant: Yamaha Motor Power Products Kabushiki Kaisha (Kakegawa-shi)
Inventors: Ryuta INOUE (Shizuoka), Ken ITOU (Shizuoka), Yuya SATO (Newnan, GA)
Application Number: 13/746,750
International Classification: B60G 3/06 (20060101); B62D 21/14 (20060101); B62D 7/08 (20060101);