JP4025720B2 - Elastic wheel - Google Patents

Description

Technical field
The present invention relates to an elastic wheel used for a vehicle wheel. More specifically, the present invention relates to an elastic wheel excellent in ride comfort performance, vibration isolation performance and soundproof performance, and further effectively prevents large deformation at the time of large input. In addition, the present invention relates to an elastic wheel that can be reliably achieved over a long period of time, an elastic wheel having a function of detecting a failure of the elastic wheel during traveling, and an elastic wheel excellent in steering stability.
Background art
An elastic wheel generally includes a disk that is fixed to an axle hub and a rim that supports a tire. An elastic wheel is provided with a vibration isolator between the disk and the rim to improve vibration proof performance and riding comfort. Various proposals have been made so far. For example, Japanese Utility Model Publication No. 59-188701 proposes a tire wheel that uses a spring as a vibration isolator to improve riding comfort.
Further, it is also known that rubber is used as a vibration isolator and this is disposed between a rim and a disk. For example, in Japanese Utility Model Publication No. 57-73203, a rim is interposed via a rubber-like elastic body. An elastic wheel configured to be coupled to a disk has been proposed. Furthermore, Japanese Patent Laid-Open No. 5-338401 discloses an elastic wheel in which a gap is formed between a rim and an elastic wheel, and an anti-vibration rubber is interposed there. Furthermore, WO 98/33666 discloses a wheel barrier assembly in which an annular strip of rubber is disposed between an rim and an inner rim having the same profile as the rim.
However, in a conventional elastic wheel that uses rubber as a vibration isolator and is uniformly disposed between the rim and the disk, vulcanization is performed between the inner peripheral surface of the rim and the outer peripheral surface of the disk. Since a bonded rubber elastic body is provided, the rubber elastic body can accurately suppress vibrations in the axial direction, radial direction and rotational direction transmitted from the rim to the disk. There was a problem that the displacement of the elastic body could not be suppressed. That is, the rubber has a uniform cross section, and it has been difficult to obtain an appropriate vibration preventing characteristic from the time of small input to the time of large input. About this point, even if it used the spring as a vibration isolator, there existed the same problem.
In addition to the above-mentioned anti-vibration performance, etc., especially for the prevention of large deformation at the time of large input, an elastic wheel that can exert a good effect continuously over a long period of time has not been sufficiently studied yet, and it is more durable. Realization of a high-performance elastic wheel excellent in the above has been desired.
Furthermore, in the case of an elastic wheel that obtains an anti-vibration effect by disposing a rubber elastic body between the rim and the disk, fatigue failure of the rubber elastic body due to repeated loads when running while mounted on an actual vehicle becomes a problem. . That is, when the rubber elastic body disposed between the rim and the disk breaks due to fatigue failure during traveling, the desired effect as an elastic wheel by this rubber elastic body is naturally lost, but even in this case, Since the vehicle itself can travel, there is a problem that it is not always easy to detect the failure of the elastic wheel. Until now, there has been little research on means for detecting malfunctions due to malfunctions of such elastic wheels, so that faults can be detected quickly, allowing early replacement, and always exhibiting the expected performance. It has been desired to realize an elastic wheel that can be used in a perfect state.
Furthermore, in the conventional elastic wheel, no consideration is given to the handling stability, and this performance is not necessarily sufficient.
Therefore, the first object of the present invention is to improve riding comfort performance, vibration proof performance and sound proof performance without sacrificing durability and safety from small input to large input, and An object of the present invention is to provide an elastic wheel that is excellent in durability during long-term use.
In addition, the second object of the present invention is to improve riding comfort performance, vibration proof performance and sound proof performance from the time of a small input to a time of a large input without impairing durability and safety, and to detect a failure. It is an object of the present invention to provide an unprecedented elastic wheel that makes it possible to always obtain such performance in a good state.
Furthermore, the third object of the present invention is to improve riding comfort performance, vibration proof performance and sound proof performance without sacrificing durability and safety from small input to large input, and improve steering stability. Another object is to provide an improved elastic wheel.
Disclosure of the invention
As a result of intensive studies to solve the above-mentioned problems, the present inventors have made the best use of the vibration suppression and large deformation prevention effects of the elastic member, and at the same time, prolonging the life by suppressing the wear of the elastic member. Thus, the inventors have found that the first object can be achieved and have completed the present invention.
That is, the elastic wheel of the present invention includes a disk fixed to an axle hub and a rim for supporting a tire, a pair of guides fixed in an annular shape on the inner peripheral surface of the rim, and an outer peripheral surface of the disk. A protruding portion that protrudes annularly outward in the radial direction of the wheel, and the elastic member extends to at least both sides in the wheel axial direction with a gap between the protruding portion and the inner peripheral surface of the rim. An elastic wheel fixed in an annular shape and having both end portions of the elastic member extending on both sides in the axial direction fixed to both side surfaces facing the wheel axial direction of the pair of guides, the elastic member, The wear reduction material is annularly interposed between the inner peripheral surface of the rim and the elastic member, and is integrally provided over the entire width in the wheel axial direction between the pair of guides. is there.
As a result, vibration can be absorbed by the shear deformation of the elastic member interposed between the rim and the disk, and in particular, it is possible to improve riding comfort performance, vibration proof performance and sound proof performance for small inputs, An elastic member installed on the outer peripheral surface of the disk in the radial direction of the wheel serves as a stopper and can effectively suppress a large deformation with respect to a large input. In addition, the wear reducing material disposed on the inner peripheral surface of the rim effectively suppresses the wear of the elastic member of the stopper portion caused by contact with the inner peripheral surface of the rim at the time of large deformation. Can be obtained over a long period of time, and an elastic wheel excellent in durability can be obtained. Furthermore, the soundproofing performance is extremely effective for soundproofing in a high frequency region of 100 Hz or higher.
In the present invention, it is preferable that the wear reducing material is disposed on the inner peripheral surface of the rim with a gap between the elastic member and the elastic member. In addition, it is preferable that the wear reducing material is present at least between the inner peripheral surface of the rim and a region of the elastic member facing the protruding portion. Thereby, the arrangement | positioning location of an abrasion reduction material can be optimized suitably, and the desired abrasion reduction effect can be acquired more appropriately.
The wear reducing material is preferably a stainless steel plate. Furthermore, it is preferable that a fluororesin coating as the wear reducing material is provided on the inner peripheral surface of the rim, and more preferably, the fluororesin is polytetrafluoroethylene. As a result, the wear reduction performance of the wear reducing material can be optimized, and the durability improvement effect can be best obtained.
In addition, as a result of intensive studies to solve the above-mentioned problems, the present inventors have found that the second object can be achieved by the following configuration, and have completed the present invention.
That is, the elastic wheel of the present invention includes a disk fixed to an axle hub and a rim for supporting a tire, a pair of guides fixed in an annular shape on the inner peripheral surface of the rim, and an outer peripheral surface of the disk. A protruding portion that protrudes annularly outward in the radial direction of the wheel, and the elastic member extends to at least both sides in the wheel axial direction with a gap between the protruding portion and the inner peripheral surface of the rim. Both ends of the elastic member fixed in an annular shape and extending on both sides in the axial direction are elastic wheels fixed on both side surfaces facing the wheel axial direction of the pair of guides, respectively, The pair of guides are integrally provided over the entire width in the wheel axis direction, and the protrusion has irregularities in the wheel radial direction.
As a result, vibration can be absorbed by the shear deformation of the elastic member interposed between the rim and the disk, and in particular, it is possible to improve riding comfort performance, vibration proof performance and sound proof performance for small inputs, An elastic member installed on the outer peripheral surface of the disk in the radial direction of the wheel serves as a stopper and can effectively suppress a large deformation with respect to a large input. Further, when the elastic member breaks, the convex portion formed on the outer peripheral surface of the disk collides with the inner peripheral surface of the rim, thereby reflecting an impact on the running feeling, that is, generating a vibration, thereby prompting a failure. Detection is possible. Furthermore, the soundproofing performance is extremely effective for soundproofing in a high frequency region of 100 Hz or higher.
In the present invention, it is preferable that the unevenness is appropriately provided at equal intervals along the circumferential direction, and it is also preferable that the unevenness is appropriately provided at irregular intervals along the circumferential direction. Thereby, arrangement | positioning of an unevenness | corrugation can be optimized and it becomes possible to acquire the said effect best according to various conditions, such as a wheel size to apply.
Furthermore, as a result of earnestly examining the relationship between the installation structure of the elastic member in the elastic wheel and the contribution to the rigidity in the turning direction, the inventors have found that the third object can be achieved by the following configuration. The headline and the present invention were completed.
That is, the elastic wheel of the present invention includes a disk fixed to an axle hub and a rim for supporting a tire, a pair of guides fixed in an annular shape on the inner peripheral surface of the rim, and an outer peripheral surface of the disk. And a protruding portion that protrudes annularly outward in the radial direction of the wheel, and the elastic member extends to at least both the left and right sides in the wheel axial direction with a gap between the protruding portion and the inner peripheral surface of the rim. An elastic wheel fixed in an annular shape and having both end portions of the elastic member extending on both left and right sides in the axial direction fixed to both side surfaces facing the wheel axial direction of the pair of guides, The rigidity is different between the elastic members extending on both the left and right sides in the axial direction. In this case, the elastic member is preferably made of a rubber elastic body.
As a result, the rigidity of the elastic member is made asymmetric between the elastic members extending on both the left and right sides in the axial direction, so that vibration is absorbed by shear deformation, and ride comfort performance, vibration proof performance and sound proof performance, especially for small inputs. The moment component is shared between the elastic member that contributes to the improvement of the vehicle and the elastic member that improves the steering rigidity and contributes to the improvement of the steering stability, improving the driving stability as well as the riding comfort performance, anti-vibration performance and soundproof performance. Made possible. In other words, by sharing the moment component and increasing the rigidity in the rolling direction, in addition to improving ride comfort performance, vibration proof performance, and sound proof performance, it has also improved straight running performance and responsiveness during lane changes. The soundproofing performance is extremely effective for soundproofing in a high frequency region of 100 Hz or higher.
In the present invention, the thickness in the wheel radial direction can be different between the elastic members extending on both the left and right sides in the axial direction, whereby the above-described effects can be obtained satisfactorily. Further, particularly preferably, the difference in thickness in the radial direction of the wheel is within a range of 10 to 50%, so that it is possible to optimize ride comfort performance, vibration proof performance, sound proof performance and steering stability. it can.
Further, in the present invention, the rigidity of the rubber elastic body itself may be different between elastic members extending on both the left and right sides in the axial direction, and the above-described effects can be obtained satisfactorily. it can.
Furthermore, in this invention, it is preferable that the said elastic member is integrally interposed over the full width of the wheel axial direction between said pair of guides. Thereby, in addition to the said effect, the large deformation at the time of a large input can be prevented favorably.
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of the present invention will be described below.
An elastic wheel according to an embodiment of the present invention shown in FIG. 1 includes a disk 1 fixed to an axle hub (not shown) and a rim 2 for supporting a tire. A rubber elastic body 3 as an elastic member is interposed in an annular shape between the surface and the outer peripheral surface of the disk 1.
In the preferred example shown in FIG. 1, the outer peripheral surface of the disk 1 is integrally formed with a protruding portion 4 that protrudes annularly outward in the wheel radial direction. An elastic member 3, for example, a rubber elastic body that extends on both sides in the wheel axial direction is formed in the protrusion 4 with an appropriate gap between the inner peripheral surface of the rim 2, for example, by vulcanization bonding or the like. It is fixed.
On the other hand, a pair of guides 5a and 5b are annularly provided on the inner peripheral surface of the rim 2, and both ends in the axial direction of the rubber elastic body 3 are opposed to the wheel axial direction of the pair of guides 5a and 5b. The rim 2 and the disk 1 are connected via the rubber elastic body 3 by being fixed to both side surfaces by vulcanization adhesion or the like. The guides 5a and 5b may be fixed to the inner peripheral surface of the rim 2 by means such as welding or screwing, or may be provided integrally with the rim.
If the rubber elastic body 3 extends at least on both sides in the wheel axial direction, it can exhibit a vibration isolating function as an elastic wheel due to its shear strain. However, in the present invention, the effect of preventing large deformation at the time of large input is further achieved. Therefore, as shown in the drawing, the rubber elastic body 3 is also interposed between the inner peripheral surface of the rim 2 and the protruding portion 4 of the disk 1. That is, the rubber elastic body 3 is integrally provided over the entire width in the wheel axis direction between the pair of guides 5a and 5b, so that the effect of suppressing and preventing small deformation at the time of small input can be obtained. A function as a stopper for avoiding a collision between the projecting portion 4 and the inner peripheral surface of the rim 2 at the time of a large input in a portion continuously present on the outer surface in the wheel radial direction of the projecting portion 4 of the elastic body 3 Can be made.
Further, as shown in the figure, on the inner peripheral surface of the rim 2, the wear reducing material 6 exists in an annular shape with a gap between the rubber elastic body 3. Thereby, even in the case where the inner peripheral surface of the rim 2 and the portion serving as the stopper function of the rubber elastic body 3 are in direct contact with each other due to a large input during acceleration / deceleration or turning of the vehicle, The stopper portion comes into contact with the wear reducing material 6 having a smaller friction than the inner peripheral surface of the rim 2, and as a result, the wear of the rubber elastic body 3 can be minimized. That is, the effect of the wear reducing material 6 can prevent the stopper function from being deteriorated due to wear of the rubber elastic body 3, improve the durability, and allow the function to be exhibited well over a long period of time.
The wear reducing material 6 is not limited to being provided on the inner peripheral surface of the rim 2 as shown in the figure, and may be present between the inner peripheral surface of the rim 2 and the rubber elastic body 3. Wear of the elastic body 3 can be appropriately suppressed. Further, the region where the wear reducing material 6 exists is not particularly limited. For example, a substantially cylindrical shape includes an inner peripheral surface of the rim 2 and a region extending over the entire width of the rubber elastic body 3 in the wheel axis direction as illustrated. Alternatively, it may be present between the inner peripheral surface of the rim 2 and the region of the rubber elastic body 3 facing the protruding portion 4 (not shown).
The material of the wear reducing material 6 is not particularly limited as long as it can satisfactorily suppress wear of the rubber elastic body 3, but preferably has a small surface roughness value and is lightweight. And use a stainless steel plate. In this case, for example, a stainless steel plate may be directly affixed to the inner peripheral surface of the rim using an adhesive or the like, and there is appropriate play between the wear reducing material 6 and the inner peripheral surface of the rim 2. The wear reducing material 6 may be loosely fitted to the inner periphery of the rim 2 without using a fixing means such as an adhesive. Further, as the wear reducing material 6, it is also preferable to apply a fluororesin coating on the inner peripheral surface of the rim 2, particularly a coating with polytetrafluoroethylene as the fluororesin.
Next, an elastic wheel according to another embodiment of the present invention shown in FIG. 2 includes a disk 101 fixed to an axle hub (not shown) and a rim 102 for supporting a tire. A rubber elastic body 103 as an elastic member is interposed between the inner peripheral surface of 102 and the outer peripheral surface of the disk 101 in an annular shape.
In the preferred example shown in FIG. 2, the outer peripheral surface of the disk 101 is integrally formed with a protruding portion 104 that protrudes annularly outward in the wheel radial direction. An elastic member 103 extending on both sides in the wheel axial direction, for example, a rubber elastic body, is provided on the protrusion 104 in an annular shape with an appropriate gap between the inner peripheral surface of the rim 102, for example, by vulcanization bonding or the like. It is fixed.
On the other hand, a pair of guides 105a and 105b are annularly fixed on the inner peripheral surface of the rim 102, and both ends in the axial direction of the rubber elastic body 103 are opposed to the wheel axial direction of the pair of guides 105a and 105b. The rim 102 and the disk 101 are connected via the rubber elastic body 103 by being fixed to both side surfaces by vulcanization adhesion or the like. The guides 105a and 105b may be fixed to the inner peripheral surface of the rim 102 by means such as welding or screwing, or may be provided by integral molding with the rim.
If the rubber elastic body 103 extends at least on both sides in the wheel axial direction, it can exhibit a vibration isolating function as an elastic wheel due to its shear strain. However, in the present invention, the effect of preventing large deformation at the time of large input is further achieved. Therefore, as shown in the figure, the rubber elastic body 103 is also interposed between the inner peripheral surface of the rim 102 and the protruding portion 104 of the disk 101. In other words, by integrally interposing the rubber elastic body 103 over the entire width in the wheel axis direction between the pair of guides 105a and 105b, an effect of suppressing and preventing small deformation at the time of small input can be obtained. A function as a stopper for avoiding a collision between the protruding portion 104 and the inner peripheral surface of the rim 102 at the time of a large input in a portion continuously existing on the outer surface in the wheel radial direction of the protruding portion 104 of the elastic body 103. Can be made.
Moreover, in the elastic wheel of this invention, as shown in the cross-sectional view cut | disconnected in the circumferential direction along the AA line in FIG. 3 in FIG. 3, the protrusion part 104 follows along the circumferential direction. It has irregularities in the wheel radial direction. As a result, as shown in FIG. 4A, even when the elastic member 103 disposed between the rim 102 and the disk 101 breaks and the elastic wheel fails, as shown in FIG. The convex portion 106 of the protruding portion 104 collides with the inner peripheral surface of the rim when the wheel rolls to reflect the impact on the running feeling, that is, a constant vibration is generated, so that the occupant can quickly detect the occurrence of the failure. Is possible. As shown in FIG. 4, in this case as well, the rubber elastic body 103 interposed on the outer peripheral surface of the convex portion 106 serves as a stopper, so that the convex portion 106 and the inner peripheral surface of the rim 102 It is possible to avoid a direct collision, and to reduce the impact at the time of traveling as the elastic wheel failure detection means, so that it is possible to maintain a feeling of riding comfort at the time of failure.
There is no particular limitation on how to provide the unevenness as long as it causes an impact (feeling of unevenness) to the extent that the occupant can detect when the tire is rolling in a state where the rubber elastic body 103 is broken. The level difference and the distance between them can be appropriately determined according to the type and size of the tire to be applied. For example, as shown in FIG. 3, the convex portions 106 and the concave portions 107 may be provided at an equal interval pitch along the circumferential direction, or may be an irregular pitch (not shown). If there is at least one convex portion 106, the effect of the present invention can be obtained, and conversely, the concave portion 107 can be formed only in a part, but the above-mentioned elastic wheel failure detection function can be surely exhibited. is important.
Note that the rubber elastic body 103 is fixed to the projections and depressions of the protrusion 104 as shown in FIGS. 2 and 3 with the diameter of the minimum diameter portion of the rubber elastic body 103 and the recess of the protrusion 104. Even if the outer diameter is matched, that is, a recess corresponding to the protrusion 106 of the protrusion 104 is provided on the inner peripheral surface of the rubber elastic body 103, and the protrusion 106 is fitted in this recess. Well, although not shown, the diameter of the minimum diameter portion of the rubber elastic body 103 is made smaller than the outer diameter of the concave portion of the protruding portion 104, that is, the rubber elastic body 103 is formed with unevenness of the protruding portion 104. It may extend further inward in the wheel radial direction than the portion.
The elastic wheel of another preferred embodiment of the present invention shown in FIG. 5 includes a disk 201 fixed to an axle hub (not shown) and a rim 202 for supporting a tire. A rubber elastic body 203 as an elastic member is interposed between the peripheral surface and the outer peripheral surface of the disk 201 in an annular shape.
In the preferred example shown in FIG. 5, the outer peripheral surface of the disk 201 is integrally formed with a protruding portion 204 that protrudes annularly outward in the wheel radial direction. An elastic member 203, for example, a rubber elastic body that extends on both sides in the wheel axial direction is formed in the protrusion 204 in an annular shape with an appropriate gap between the inner peripheral surface of the rim 202, for example, by vulcanization bonding or the like. It is fixed.
On the other hand, a pair of guides 205a and 205b are annularly provided on the inner peripheral surface of the rim 202, and both axial ends of the rubber elastic body 203 are opposed to the wheel axial direction of the pair of guides 205a and 205b. The rim 202 and the disc 201 are connected via the rubber elastic body 203 by being fixed to both side surfaces by vulcanization adhesion or the like. The guides 205a and 205b may be fixed to the inner peripheral surface of the rim 202 by means such as welding or screwing, or may be provided integrally with the rim.
As long as the rubber elastic body 203 extends at least on both sides in the wheel axial direction, the elastic elastic body 203 can exhibit a function as an elastic wheel due to the shear strain. However, as shown in the figure, the rubber elastic body 203 is placed between a pair of guides 205a and 205b. The rubber elastic body 203 is interposed between the inner peripheral surface of the rim 202 and the protruding portion 204 of the disk 201 so as to be able to cope with a large input. It becomes possible. That is, in this case, the portion of the rubber elastic body 203 that is continuously present on the outer surface in the radial direction of the wheel of the protruding portion 204 is for avoiding a collision between the protruding portion 204 and the inner peripheral surface of the rim 202 during a large input. It functions as a stopper.
Further, in the present embodiment, as shown in the drawing, the rubber elastic body 203 is formed so as to have different thicknesses on the left and right sides in the wheel axial direction. That is, as shown in the drawing, the thickness of the rubber elastic body 203 is reduced by reducing the thickness of the rubber elastic body 203 in the radial direction of the wheel in the portion 203a extending inwardly of the portion 203b extending outward in the wheel axial direction. The large portion 203b has a function of suppressing the bending deformation between the rim 202 and the disk 201, while the small thickness portion 203a has a vibration isolating function that mainly absorbs and suppresses vibration by shear deformation.
In this case, the ratio of the difference in thickness in the wheel radial direction on both sides in the axial direction can be appropriately selected depending on the type of tire to be applied, various characteristics of the elastic member used, and the like. It is preferable that the thickness is 10 to 50% smaller than the thickness of the thick portion 203b. If this difference is less than 10%, a sufficient rolling rigidity improvement effect cannot be obtained. On the other hand, if it exceeds 50%, the burden on the portion 203a having a small thickness is excessively large, and the elastic wheel is likely to fail.
FIG. 6 shows still another preferred example of the elastic wheel of the present invention. In the illustrated example, the rubber elastic body 203 interposed between the rim 202 and the disk 201 is made of a material having different rigidity between the portion 203a extending inward in the axial direction and the portion 203b extending outward. Is formed. In this case, as the rigidity of the rubber elastic body 203 itself, the portion 203a extending inward in the axial direction is made lower than the portion 203b extending outward, thereby obtaining the same rigidity improvement effect as in the preferred example. be able to. Note that the rubber elastic body 203 interposed between the inner peripheral surface of the rim 202 and the protruding portion 204 of the disk 201 is not limited as long as it can function as a stopper against a large input. 203 may be interposed. Also, the method of joining the rubber elastic bodies 203 made of different materials may be any suitable bonding means such as vulcanization bonding, and is not particularly limited.
In the present invention, the elastic member 203 is not limited to the case where the illustrated rubber elastic body is used, and for example, a spring material can also be used. In this case, for example, a plurality of spring materials can be extended from the protruding portion 204 to both sides in the axial direction at appropriate intervals in the circumferential direction to form the elastic member 203. By changing the number or material of the spring materials, for example, The above-described rolling rigidity improvement effect can be obtained. Accordingly, the type, shape, location, and the like of the elastic member 203 may be appropriately selected according to the application, and are not particularly limited.
The disks 1, 101, 201 may be spoke wheels, mesh wheels, or the like combined with a support such as spokes or meshes. The material of the disk may be any material such as steel, aluminum, magnesium, titanium, and synthetic resin. However, aluminum, titanium, or synthetic resin is preferable when focusing on weight reduction.
Further, the protrusions 4, 104, 204 are not limited to the example shown in the figure, and a base rim is provided on the outer peripheral surface of each of the disks 1, 101, 201, and extends radially outward at least on both sides in the wheel axial direction. You may provide by adhering the annular member which can adhere an elastic member. In the elastic wheel of the present invention, the structure of the rim 2, 102, 202 itself is not particularly limited. For example, in order to facilitate the rim assembly, a drop portion may be provided as shown in the figure. Good.
As the rubber elastic body that can be used in the present invention, those known as anti-vibration rubber can be used, and natural rubber and synthetic rubber, for example, diene rubber such as butadiene rubber, styrene butadiene copolymer rubber, butyl rubber, etc. It can be prepared by appropriately blending a compounding agent such as sulfur, a vulcanization accelerator, an anti-aging agent, and carbon black. The rubber elastic body has a JIS-A hardness (Hd) of preferably 30 to 80 ° from the viewpoint of vibration absorption characteristics and durability, and an elastic modulus of 1 × 10. ³ ~ 1x10 ⁵ N / cm ² It is.
Industrial applicability
As described above, according to the elastic wheel of the present invention, from the time of a small input to the time of a large input, the ride comfort performance, vibration proof performance and sound proof performance are improved without impairing durability and safety. It is possible to achieve excellent durability that can maintain the expected performance even during long-term use, and it is possible to easily and quickly detect a failure of the elastic wheel during traveling, Excellent steering stability can also be obtained.
[Brief description of the drawings]
FIG. 1 is an enlarged partial sectional view of an elastic wheel according to an embodiment of the present invention.
FIG. 2 is an enlarged partial sectional view of an elastic wheel according to another embodiment of the present invention.
FIG. 3 is a cross-sectional view taken along the line AA shown in FIG. 2 in the circumferential direction.
FIG. 4 is an explanatory view showing a state when the rubber elastic body of the elastic wheel shown in FIG. 2 is broken.
FIG. 5 is an enlarged partial sectional view of an elastic wheel according to still another embodiment of the present invention.
FIG. 6 is an enlarged partial sectional view of an elastic wheel according to still another embodiment of the present invention.

Claims (15)

A disc fixed to the axle hub; and a rim for supporting the tire; a pair of guides fixed in an annular shape on the inner peripheral surface of the rim; and an annularly outwardly in the wheel radial direction on the outer peripheral surface of the disc An elastic member fixed in an annular shape with a gap between the protruding portion and at least the both sides in the wheel axial direction, with a gap between the protruding portion and the inner peripheral surface of the rim. Both ends of the elastic member extending on both sides are elastic wheels fixed to both side surfaces facing the wheel axial direction of the pair of guides, respectively.
The elastic member is integrally provided over the entire width in the wheel axial direction between the pair of guides, and the wear reducing material exists in an annular shape between the inner peripheral surface of the rim and the elastic member. Characteristic elastic wheel. The elastic wheel according to claim 1, wherein the wear reducing material is disposed on the inner peripheral surface of the rim with a gap between the wear reducing material and the elastic member. The elastic wheel according to claim 1, wherein the wear reducing material is present at least between an inner peripheral surface of the rim and a region of the elastic member facing the protruding portion. The elastic wheel according to claim 1, wherein the wear reducing material is a stainless steel plate. The elastic wheel according to claim 1, wherein a fluororesin coating as the wear reducing material is provided on an inner peripheral surface of the rim. The elastic wheel according to claim 5, wherein the fluororesin is polytetrafluoroethylene. A disc fixed to the axle hub; and a rim for supporting the tire; a pair of guides fixed in an annular shape on the inner peripheral surface of the rim; and an annularly outwardly in the wheel radial direction on the outer peripheral surface of the disc An elastic member fixed in an annular shape with a gap between the protruding portion and at least the both sides in the wheel axial direction, with a gap between the protruding portion and the inner peripheral surface of the rim. Both ends of the elastic member extending on both sides are elastic wheels fixed to both side surfaces facing the wheel axial direction of the pair of guides, respectively.
The elastic wheel, wherein the elastic member is integrally interposed over the entire width in the wheel axial direction between the pair of guides, and the protrusion has irregularities in the wheel radial direction. The elastic wheel according to claim 7, wherein the irregularities are provided at equal intervals along the circumferential direction. The elastic wheel according to claim 7, wherein the irregularities are appropriately provided at irregular pitches along the circumferential direction. A disc fixed to the axle hub; and a rim for supporting the tire; a pair of guides fixed in an annular shape on the inner peripheral surface of the rim; and an annularly outwardly in the wheel radial direction on the outer peripheral surface of the disc An elastic member fixed in an annular shape with a gap between the protrusion and the inner peripheral surface of the rim. An elastic wheel in which both ends of the elastic member extending to the left and right sides are fixed to both side surfaces of the pair of guides facing each other in the wheel axial direction,
The elastic wheel characterized in that the rigidity of the elastic member is different between elastic members extending on the left and right sides in the axial direction. The elastic wheel according to claim 10, wherein the elastic member is made of a rubber elastic body. The elastic wheel according to claim 11, wherein the thickness in the radial direction of the wheel differs between elastic members extending on the left and right sides in the axial direction. The elastic wheel according to claim 12, wherein the difference in thickness in the wheel radial direction is within a range of 10 to 50%. The elastic wheel according to claim 11, wherein rigidity of the rubber elastic body itself is different between elastic members extending on both left and right sides in the axial direction. The elastic wheel according to claim 10, wherein the elastic member is integrally provided over the entire width in the wheel axial direction between the pair of guides.

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