JP2014118078A - Pneumatic tire - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pneumatic tire which can cope with irregularity or a curved surface of a tire inner surface, absorb impact on running, prevent collapse of a mounted member, improve process reduction and adhesive property when mounting, and simplify device mounting.SOLUTION: The pneumatic tire includes a device mounting member P1 for mounting a device on a tire inner surface T1, the device mounting member P1 is composed of a mounting base A1 and a cushion layer B1, the mounting base A1 is used for mounting a device and bonded to the tire inner surface T1 via the cushion layer B1, the cushion layer B1 is composed of a porous body, and a bonding face to the tire inner surface T1 is a skin layer b3 free from a bubble or irregularity.

Description

  The present invention relates to a pneumatic tire, and more particularly to a pneumatic tire having a device attachment mechanism on the inner surface of the tire.

  Conventionally, in order to improve the performance of a pneumatic tie, it has been proposed to arrange devices having various functions, such as a sound absorbing material, on the inner peripheral surface of a pneumatic tire. Further, when arranging these devices on the inner peripheral surface of the pneumatic tire, various devices have been made so that the devices can be easily mounted.

  In Patent Document 1 below, a pneumatic tire having one of a pair of mechanical fasteners separable into two fasteners on the inner surface of the tire and the other of the pair of mechanical fasteners. An object with a pre-installed tool is shown. In short, it is shown that the one fastener is disposed in a form penetrating the tire member or embedded in the tire inner surface. The purpose is that the engagement force of the object to be attached to the inner surface of the tire is large and there is almost no variation in the size, and the engagement force is less likely to deteriorate or decrease over time, and is desired over a long period of time. This is to maintain the engagement force.

  However, in the pneumatic tire described in Patent Document 1, stress concentrates on the penetrated portion or the embedded portion, and the tire may be destroyed.

  In Patent Document 2 below, a sound absorbing member attached as a sound absorbing layer in a tire includes a sound absorbing surface facing the tire lumen side and an adhesive surface bonded to the tire or rim, and the sound absorbing member is porous. Therefore, the surface has many irregularities, the sound absorbing surface is left as it is, and only the adhesive surface is smoothed, so the contact area is increased during bonding and the adhesion is improved, so the sound absorbing member is strong It has been shown to be adhered to. In short, it is shown that the adhesion surface of the sound absorbing member with the tire is smoothed. The purpose is to increase the adhesion of the sound absorbing member to the tire or rim.

  However, the pneumatic tire described in Patent Document 2 has a drawback that requires a man-hour for smoothing the surface on the tire adhesion side.

  Patent Document 3 listed below is a rubber member attached to an inner sealing rubber inside a tire, the member having a portion that supports the device and a connecting portion that can contact the tire, and the inner sealing rubber is a member. It is shown that a complementary portion connectable to the connecting portion is formed. In short, it is shown that the device attachment mechanism is directly attached to the inner surface of the tire. The purpose is to prevent or delay the separation of the member from the tire inner surface.

  However, in the pneumatic tire described in Patent Document 3, since the unevenness of the tire inner surface cannot be made, there is a possibility that it cannot withstand vibration during running.

JP 2012-25318 A JP 2009-286271 A JP 2002-541003 A

  Usually, the inner surface of a tire is an uneven surface, and the inner surface of a tire to which a device is attached is not necessarily a flat surface, but rather a curved surface in many cases. Adhering a device directly to such an uneven surface or curved surface, or directly adhering a device mounting member, will not be able to adhere to the uneven surface or curved surface, resulting in a non-adhesive part, resulting in sufficient adhesive strength. There is a problem that it cannot be obtained. Therefore, a process such as removing irregularities on the tire inner surface is necessary. In addition, when directly bonded as described above, vibrations and impacts during running of the tire are directly transmitted to the device, which may cause a problem in the device. The configurations shown in the above Patent Documents 1 to 3 do not solve such a problem.

  Therefore, as a result of intensive research, the present inventors have been able to cope with unevenness or curved surfaces of the tire inner surface in a pneumatic tire, absorb the impact during running, and avoid the destruction of the mounting member. We have devised a pneumatic tire that can reduce man-hours and improve adhesion, and can simplify device mounting.

  The pneumatic tire according to claim 1 according to the present invention is a pneumatic tire provided with a device mounting member for mounting a device on the inner surface of the tire, wherein the device mounting member includes a mounting base and a cushion layer. The attachment base is for attaching a device, and is adhered to the tire inner surface via the cushion layer, and the cushion layer is made of a porous body, and the adhesion surface to the tire inner surface has bubbles or irregularities. It is characterized by being a non-skinned skin layer.

  By comprising as mentioned above, since a cushion layer follows the unevenness | corrugation or curved surface shape of a tire inner surface, and deform | transforms and adhere | attaches, the member for device attachment is stably attached to the tire inner surface. In addition, even if the sponge-like porous body constituting the cushion layer deforms following the unevenness or curved surface shape of the tire inner surface, there is little deformation in the width direction accompanying the deformation, so there is little Poisson effect, Adhesiveness is improved by using a skin layer as the bonding surface of the cushion layer bonded to the tire inner surface. Further, by adhering to the tire inner surface through the cushion layer, the cushion layer absorbs impact and vibration during running on the device, so that the life of the device is reduced because the impact on the entire device mounting member including the device is small.

  A pneumatic tire according to a second aspect of the present invention is the pneumatic tire according to the first aspect, wherein the cushion layer is bonded to the mounting base via the adhesive layer, and the bonding surface to the mounting base has no bubbles or irregularities. It is a skin layer. If comprised in this way, adhesion of the attachment base with respect to a cushion layer will become perfect.

  A pneumatic tire according to a third aspect of the present invention is the pneumatic tire according to the first aspect, wherein the mounting base and the cushion layer are integrally formed. If comprised in this way, the process which adhere | attaches an attachment base and a cushion layer can be reduced, and since it is integral molding, it does not isolate | separate.

  A pneumatic tire according to a fourth aspect of the present invention is the pneumatic tire according to any one of the first to third aspects, wherein the cushion layer has a thickness of 0.3 mm to 10.0 mm. It is. When the thickness of the cushion layer is less than 0.3 mm, the cushion layer is too thin to cope with the unevenness or curved surface shape of the tire inner surface. Conversely, if it exceeds 10.0 mm, the mounting stability of the device to the tire inner surface is impaired.

  A pneumatic tire according to a fifth aspect of the present invention is the pneumatic tire according to any one of the first to fourth aspects, wherein the thickness of the cushion layer is adjusted to the unevenness or curved surface of the tire inner surface to which the cushion layer is bonded. It has a non-uniform thickness. If comprised in this way, since the expansion-contraction by the unevenness | corrugation or curved surface of a tire inner surface with respect to a cushion layer decreases, since the load to a cushion layer is reduced, the appropriate moderate cushioning property is obtained.

The pneumatic tire of claim 6 of the present invention, said the in the above any one of claims 1 to 5, the density of the cushion layer ^is 30kg / ^{m 3} ~600kg / m 3 To do.

  A pneumatic tire according to a seventh aspect of the present invention is characterized in that, in any one of the first to sixth aspects, the cushion layer has a 25% compression hardness (JIS K6254) of 10 kPa to 1000 kPa. To do.

According to the sixth and seventh aspects of the present invention, the cushion layer follows the unevenness of the tire inner surface and the shape of the curved surface. Is done. In addition, when the density of a cushion layer is less than 30 kg / m < ³ >, the intensity | strength of the cushion layer with respect to installation cannot be ensured. In the case of exceeding 600 kg / m ³ , the adhesiveness is lowered because swelling in multiple directions is generated as the tire inner surface is followed by unevenness and curved surfaces. If the cushion layer has a 25% compression hardness (JIS K6254) of less than 10 kPa, it will be too soft and the device will be unstable. If it exceeds 1000 kPa, the cushion layer will be too hard to follow the irregularities and curved surface of the tire inner surface. It cannot be done and the adhesiveness decreases.

  A pneumatic tire according to an eighth aspect of the present invention is the pneumatic tire according to any one of the first to seventh aspects, wherein the cushion layer is disposed between the upper surface of the cushion layer on which the mounting base is installed and the installation surface of the mounting base. The upper surface has the same shape as the mounting surface of the mounting base or is larger than the mounting surface of the mounting base. By comprising in this way, the installation with respect to the cushion layer of a mounting base becomes stable, and installation property improves. On the contrary, if the upper surface of the cushion layer is smaller than the installation surface of the mounting base, the mounting base becomes unstable, and the installation property deteriorates.

  A pneumatic tire according to a ninth aspect of the present invention is the pneumatic tire according to any one of the first to eighth aspects, wherein the mounting base and the device are provided with a detachable fixing structure. It is. With this configuration, when it is necessary to replace the device, the device can be easily replaced simply by removing the device from the device mounting member and mounting a new device, so that workability is good.

  A pneumatic tire according to a tenth aspect of the present invention is characterized in that, in any one of the first to eighth aspects, the mounting base and the device are fixed in a non-removable manner. . If comprised in this way, the fixing degree of an attachment base and a device will increase.

  A pneumatic tire according to an eleventh aspect of the present invention is the pneumatic tire according to any one of the first to eighth aspects, further comprising a tightening structure for tightening the device to the mounting base. . In the case of such a configuration, there is an advantage that it can be easily attached / detached even if the device side is not provided with an attaching / detaching structure for the attachment base.

  Since the pneumatic tire of the present invention is configured as described above, it can cope with the unevenness or curved surface of the tire inner surface, absorbs impact during running, avoids breaking of the mounting member, and reduces man-hours during mounting. The adhesion can be improved and the device can be easily attached.

It is a schematic diagram of the member for device attachment (Cushion body and attachment base are adhere | attached) which concerns on the 1st Embodiment of this invention. It is a schematic sectional drawing which shows the state which adhered the member for device attachment (adhesion | attachment of a cushion body and an attachment base) which concerns on the 1st Embodiment of this invention to the flat tire inner surface. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic cross-sectional view showing a state in which a device attachment member (adhering a cushion body and an attachment base) according to a first embodiment of the present invention is adhered to an inner surface of a tire having an uneven surface. It is a schematic sectional drawing which shows the state which adhered the member for device attachment (adhering a cushion body and an attachment base) which concerns on the 1st Embodiment of this invention to the tire inner surface which has a concave curved surface. It is a schematic sectional drawing which shows the state which adhered the member for device attachment (bonding | attaching a cushion body and a mounting base) which concerns on the 1st Embodiment of this invention to the tire inner surface which has a convex curve surface. It is a schematic diagram of the device attachment member (a cushion body and an attachment base are integrally formed) according to a second embodiment of the present invention. It is a schematic sectional drawing which shows the state which adhere | attached the member for device attachment which concerns on the 2nd Embodiment of this invention (a cushion body and an attachment base are integrally molded) on the tire inner surface which has a concave curved surface. It is a schematic sectional drawing of the member for non-uniform | heterogenous device attachment which concerns on the 3rd Embodiment of this invention (The thickness of a cushion body is comprised unevenly according to the uneven surface of a tire inner surface). It is a 1st modification of the member for non-uniform | heterogenous device attachment which concerns on the 3rd Embodiment of this invention, Comprising: Device for attachment (The thickness of a cushion body is comprised unevenly according to the concave curved surface of a tire inner surface) FIG. It is the 2nd modification of the member for non-uniform | heterogenous device attachment which concerns on the 3rd Embodiment of this invention, Comprising: Device attachment member (The thickness of a cushion body is comprised unevenly according to the convex curved surface of a tire inner surface. FIG. The latch-type device attachment member (disk fitting) side (male side) and device side (female side) attachment / detachment structure according to the fourth embodiment of the present invention are schematically shown, and FIG. In the figure, (b) is a perspective view. It is the 1st modification of the latch type device attachment member concerning a 4th embodiment of the present invention, Comprising: A latch type device attachment member (disc fitting) side (female side), a device side (male side), It is sectional drawing which shows the outline | summary of the attachment / detachment structure. It is the 2nd modification of the latch type device attachment member which concerns on the 4th Embodiment of this invention, Comprising: Between the latch type device attachment member (sphere fitting) side (male side) and the device side (female side) An outline of the detachable structure is shown, in which (a) is a sectional view and (b) is a perspective view. It is a 3rd modification of the latch type device attachment member which concerns on the 4th Embodiment of this invention, Comprising: Between the latch type device attachment member (sphere fitting) side (female side) and the device side (male side) It is sectional drawing which shows the outline | summary of a detachable structure. The state which fits a vertical type device to the latch type device attachment member (sphere fitting) side (female side) in the 3rd modification of the latch type device attachment member which concerns on the 4th Embodiment of this invention is shown. In the figure, (a) is an exploded view, and (b) in the figure is a completed drawing. It is a 4th modification of the latch type device attachment member which concerns on the 4th Embodiment of this invention, Comprising: Between a device attachment member (screwing latch type) side (female side) and a device side (male side) An outline of the detachable structure is shown, in which (a) is a sectional view and (b) is a perspective view. The state which fits a vertical type device to the device attachment member (screwing latch type) side (female side) in the 4th modification of the latch type device attachment member which concerns on the 4th Embodiment of this invention is shown. In the figure, (a) is an exploded view, and (b) in the figure is a completed drawing. It is a 5th modification of the latch type device attachment member which concerns on the 4th Embodiment of this invention, Comprising: Between a device attachment member (screwing latch type) side (male side) and a device side (female side) It is sectional drawing which shows the outline | summary of a detachable structure. It is a perspective view which shows the outline | summary of the attachment / detachment structure of the screw-type device attachment member side and device side which concern on the 5th Embodiment of this invention. It is a perspective view which shows the state which fixed the dome shape device to the plate-type device attachment member which concerns on the 6th Embodiment of this invention. The outline | summary of the belt-type device attachment member which concerns on the 7th Embodiment of this invention is shown, (a) is sectional drawing, (b) is a perspective view in the figure. The state which attaches a horizontal type device to the belt type device attachment member which concerns on the 7th Embodiment of this invention is shown, (a) is an exploded view, (b) is a completion figure in the figure. It is a 1st modification of the member for belt type device attachment concerning a 7th embodiment of the present invention, and (a) is a schematic perspective view showing the state where a belt was removed, and (b) in the figure. FIG. 3 is a schematic sectional view showing a state where a belt is attached. It is a 2nd modification of the belt-type device attachment member which concerns on the 7th Embodiment of this invention, Comprising: (a) is a schematic perspective view, (b) is a schematic sectional drawing. It is a 3rd modification of the belt-type device attachment member which concerns on the 7th Embodiment of this invention, Comprising: In the figure, (a) is a schematic perspective view, (b) is a schematic sectional drawing. A latch-type or screw-type device attachment member is bonded in a tire, and a vertical device is attached. (A) is a schematic sectional view in the tire width direction, (b) in the figure. It is a schematic sectional drawing of a tire peripheral direction. The state which attached the member for belt type device attachment in the tire, and attached the horizontal type device is shown, (a) is a schematic sectional view of the tire width direction, and (b) in the figure is a tire peripheral direction It is a schematic sectional drawing. 1 shows a state in which a latch-type device attachment member is bonded in a tire and a horizontal device is attached, in which (a) is a schematic sectional view in the tire width direction, and (b) is a tire circumferential direction in the drawing. It is a schematic sectional drawing.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, a preferred embodiment of a device mounting member that adheres to an inner surface of a tire according to the invention will be described in detail with reference to the accompanying drawings. In each embodiment, when representing a device, a sound absorbing material is used as an example, but the device is not limited to the sound absorbing material.

First embodiment

  1 to 5 are device attachment members having a structure in which the cushion body and the attachment base according to the first embodiment are bonded, and P1 shown in FIG. 1 is for attaching the device to the tire inner surface of the pneumatic tire. This is a device mounting member. Therefore, the pneumatic tire is provided with the device attachment member P1 bonded to the tire inner surface, and a sound absorbing material can be attached to the device attachment member P1 as an example of the device. The device mounting member P1 includes a mounting base A1 and a cushion layer B1. The shape of the device mounting member P1 shown in the drawing is not limited to this.

  The mounting base A1 is made of a hard synthetic resin and is used for mounting a device. For example, the device is mounted using an engagement hole a1 provided in the upper center. As shown in FIG. 2, the mounting base A1 is bonded to the tire inner surface T1 via the cushion layer B1.

  The cushion layer B1 is made of a sponge-like porous body, and a cushion layer body b1 having elasticity is disposed in the middle portion. The upper surface of the cushion layer B1 is formed with a bubble or an uneven skin layer b2. A skin layer b3 having no irregularities is formed. The skin layer b3 on the lower surface is bonded to the tire inner surface T1 via the adhesive layer c1. Further, the mounting base A1 is bonded to the upper skin layer b2 of the cushion layer B1 via the adhesive layer c2, thereby completing the bonding of the mounting base A1 to the cushion layer B1.

  By configuring as described above, the cushion layer body b1 in the cushion layer B1 follows the unevenness or curved surface shape of the tire inner surface T1 and is deformed and bonded, so that the device mounting member P1 is stable on the tire inner surface T1. Can be installed well. FIG. 2 shows a case where the tire inner surface is a flat surface. FIG. 3 shows a case where the tire inner surface T1 is an uneven surface, and the cushion layer body b1 in the cushion layer B1 deforms following the uneven shape of the tire inner surface T1, so that the skin of the tire inner surface T1 and the cushion layer B1 The layer b3 is bonded with no gap through the adhesive layer c1. FIG. 4 shows a case where the tire inner surface T1 is a concave curved surface, and the cushion layer body b1 in the cushion layer B1 is deformed following the concave curved surface, so that the tire inner surface T1 and the cushion layer B1 are deformed. The skin layer b3 is bonded without a gap through the adhesive layer c1. FIG. 5 shows a case where the tire inner surface T1 is a convex curved surface, and the cushion layer body b1 in the cushion layer B1 is deformed following the convex curved surface. The skin layer b3 of the layer B1 is bonded with no gap through the adhesive layer c1.

  Further, even if the sponge-like porous body constituting the cushion layer body b1 in the cushion layer B1 is deformed following the unevenness or curved surface shape of the tire inner surface T1, there is little deformation in the width direction accompanying the deformation. For this reason, the Poisson effect is small, and the adhesiveness of the cushion layer B1 bonded to the tire inner surface T1 is improved by using the skin layer b3. Further, by attaching the mounting base A1 to the tire inner surface T1 via the cushion layer B1, the cushion layer B1 absorbs impact and vibration during travel on the device mounted on the mounting base A1, so that devices including devices are mounted. Since the influence on the entire member P1 is small, the life is extended.

  In the present embodiment, the cushion layer B1 has a thickness of 1.5 mm. The thickness of the cushion layer B1 is preferably 0.3 mm to 10.0 mm. If the thickness of the cushion layer B1 is less than 0.3 mm, the cushion layer B1 is too thin to cope with the unevenness or curved surface shape of the tire inner surface. Conversely, if it exceeds 10.0 mm, the mounting stability of the device to the tire inner surface is impaired. More preferably, the thickness of the cushion layer B1 is 1.0 mm to 5.0 mm.

In the present embodiment, the density of the cushion layer B1 is 250 kg / m ³ . Preferably the density of the cushion layer B1 is ^{30kg / m 3 ~600kg / m 3} , even more preferably from ^{100kg / m 3 ~400kg / m 3} .

  In the present embodiment, the cushion layer B1 has a 25% compression hardness (JIS K6254) of 100 kPa. The 25% compression hardness (JIS K6254) of the cushion layer B1 is preferably 10 kPa to 1000 kPa, and more preferably 25% compression hardness (JIS K6254) 50 kPa to 300 kPa.

When the density and elastic modulus of the cushion layer B1 are set as described above, the cushion layer B1 follows the unevenness and curved surface shape of the tire inner surface T1, so that the device to be attached does not cause multi-directional swelling due to the follow-up. The strength to maintain is ensured. In addition, when the density of a cushion layer is less than 30 kg / m < ³ >, the intensity | strength of the cushion layer with respect to installation cannot be ensured. In the case of exceeding 600 kg / m ³ , the adhesiveness is lowered because swelling in multiple directions is generated as the tire inner surface is followed by unevenness and curved surfaces. If the cushion layer has a 25% compression hardness (JIS K6254) of less than 10 kPa, it will be too soft and the device will be unstable. If it exceeds 1000 kPa, the cushion layer will be too hard to follow the irregularities and curved surface of the tire inner surface. It cannot be done and the adhesiveness decreases. The area of the upper surface of the cushion layer B1 on which the mounting base A1 is installed is 40 mm in diameter, the area of the installation surface of the mounting base A1 is 30 mm in diameter, and the upper surface of the cushion layer B1 is larger than the installation surface of the mounting base A1. ing. The area ratio between the upper surface of the cushion layer B1 and the installation surface of the mounting base A1 is preferably in the range of 100% to 200%. If comprised in this way, the installation with respect to cushion layer B1 of attachment base A1 will become stable, and installation property will improve. On the other hand, if the upper surface of the cushion layer B1 is smaller than the installation surface of the mounting base A1, the mounting base becomes unstable, and the installation property deteriorates.

Second embodiment

  6 and 7 show a device mounting member in which the cushion body and the mounting base according to the second embodiment are formed by integral molding, and other configurations are the same as those of the first embodiment. The same reference numerals as those used in the embodiment refer to the description of the first embodiment, and the description in the present embodiment is omitted.

  The device attachment member P2 shown in FIGS. 6 and 7 is for attaching the device to the tire inner surface of the pneumatic tire, and is configured by integrally forming the attachment base A2 and the cushion layer B2. Therefore, the process of adhering the attachment base A2 and the cushion layer B2 can be reduced, and since it is integrally formed, it is not separated. The shape of the device mounting member P2 shown in the figure is not limited to this. FIG. 7 shows a case where the tire inner surface T1 is a concave curved surface, and the cushion layer body b1 in the cushion layer B2 is deformed following the concave curved surface. The skin layer b3 of the layer B2 is bonded with no gap through the adhesive layer c1.

  Although illustration is omitted, the tire inner surface T1 and the cushion are deformed following the shape regardless of whether the tire inner surface T1 is an uneven surface or a convex curved surface, as in the first embodiment. The skin layer b3 of the layer B2 is bonded with no gap through the adhesive layer c1. Moreover, the effect based on the structure of 1st Embodiment except having comprised mounting base A2 and cushion layer B2 in this embodiment by integral molding is the same also in this embodiment.

Third embodiment

  FIG. 8 is a device mounting member according to the third embodiment, in particular, a device mounting member in which the thickness of the cushion body is configured to be uneven in accordance with the uneven surface of the tire inner surface. Since it is the same as that of 1st Embodiment, the code | symbol same as the code | symbol used in 1st Embodiment uses the description of 1st Embodiment, and abbreviate | omits description in this embodiment.

  The device attachment member P3 shown in FIG. 8 is for attaching a device to the inner surface of a pneumatic tire, and is obtained by bonding a cushion layer B3 to the attachment base A1. The shape of the device mounting member P3 shown in the figure is not limited to this. As for cushion layer B3, the unevenness | corrugation matched with the uneven surface of the tire inner surface is formed in the bottom face b4 which consists of the skin layer b3. If comprised in this way, since expansion / contraction by the unevenness | corrugation of a tire inner surface with respect to cushion layer B3 will decrease, since the load to cushion layer B3 is reduced, the appropriate | suitable moderate cushioning property is obtained. In addition, the effect based on the structure of 1st Embodiment other than the structure which formed the unevenness | corrugation matched with the uneven surface of the tire inner surface in the bottom face b4 of cushion layer B3 in this embodiment is the same also in this embodiment.

[First Modification of Third Embodiment]
FIG. 9 shows a first modification of the device mounting member according to the third embodiment. The device mounting member P31 in the modified example is configured such that the thickness of the cushion body is nonuniform in conformity with the concave curved surface of the tire inner surface. That is, the device attachment member P31 shown in FIG. 9 is for attaching the device to the tire inner surface of the pneumatic tire, and is obtained by bonding the cushion layer B31 to the attachment base A1. The shape of the device mounting member P31 shown in the figure is not limited to this. In the cushion layer B31, a convex curved surface is formed on the bottom surface b41 made of the skin layer b3 so as to match the concave curved surface of the tire inner surface. With this configuration, since the expansion / contraction caused by the concave curved surface of the tire inner surface with respect to the cushion layer B31, for example, the expansion / contraction generated in the peripheral portion of the cushion layer B31 is reduced, the load on the cushion layer B31 is reduced. Excellent cushioning can be obtained. Note that the operational effects based on the configuration of the first embodiment other than the configuration in which the convex curved surface matching the concave curved surface of the tire inner surface is formed on the bottom surface b41 of the cushion layer B31 in the present embodiment are also the present embodiment. It is the same.

[Second Modification of Third Embodiment]
FIG. 10 is a second modification of the device mounting member according to the third embodiment. The device mounting member P32 in the modified example is configured such that the thickness of the cushion body is non-uniformly matched with the convex curved surface of the tire inner surface. That is, the device attachment member P32 shown in FIG. 10 is for attaching the device to the tire inner surface of the pneumatic tire, and is obtained by bonding the cushion layer B32 to the attachment base A1. Note that the shape of the device mounting member P32 shown in the figure is not limited to this. The cushion layer B32 is formed with a concave curved surface matching the convex curved surface of the tire inner surface on the bottom surface b42 formed of the skin layer b3. If comprised in this way, since the expansion-contraction by the convex curved surface of a tire inner surface with respect to cushion layer B32, for example, the expansion-contraction produced in the center part of cushion layer B32, decreases, the load to cushion layer B32 is reduced, and it is balanced. Excellent cushioning properties can be obtained. In addition, the effect based on the structure of 1st Embodiment other than the structure which formed the convex curved surface matched with the concave curved surface of the tire inner surface in the bottom face b42 of cushion layer B32 in this embodiment is also in this embodiment. It is the same.

Fourth embodiment

  The fourth embodiment shows an example of a detachable fixing structure between the mounting base on the device mounting member side and the device side, in particular, a latch-type fixing structure.

  As shown in FIGS. 11 (a) and 11 (b), the mounting base A4 has a truncated cone shape with a concave portion a2 provided at the center, and is formed with a convex portion having a disk a3 at the upper end in the center of the concave portion a2. A fitting male part a4 is formed. Although illustration is omitted, the cushion layer described in the first to third embodiments (including modified examples) is disposed on the bottom surface of the mounting base A4. The attachment end D4 of the device fitted into the attachment base A4 is provided with a hole-like fitting female part d4 that matches the fitting male part a4 at the center thereof. The fitting male part a4 and the fitting female part d4 have a latch-type fixing structure. Then, when the device attachment end D4 is pushed into the attachment base A4, the fitting female portion d4 of the device attachment end D4 is fitted into the fitting male portion a4 of the attachment base A4. The attachment end D4 of the device will be attached. It should be noted that the shapes of the mounting base A4 and the mounting end D4 of the device are not limited to this.

  With this configuration, when it is necessary to replace the device, the device can be removed by pulling out the device mounting end D4 from the mounting base A4 of the device mounting member. Thereafter, the device has the mounting end D4. Since a new device can be installed by pushing it in, the replacement work can be easily performed.

[First Modification of Fourth Embodiment]
FIG. 12 shows a first modification of the detachable fixing structure between the mounting base on the device mounting member side and the device side according to the fourth embodiment. The mounting base A41 and the device mounting end D41 in the modification are obtained by reversing the mounting base A4 and the device mounting end D4 in the fourth embodiment.

  That is, as shown in FIG. 12, the attachment end portion D41 of the device has a concave portion d21 at the center portion, and a fitting male portion d41 made of a convex portion having a disk d31 at the upper end at the center of the concave portion d21. It is formed. The attachment base A41 fitted into the attachment end D41 of the device has a truncated cone shape, and a hole-like fitting female part a41 that matches the fitting male part d41 is provided at the center thereof. Although illustration is omitted, the cushion layer described in the first to third embodiments (including modified examples) is disposed on the bottom surface of the mounting base A41. The fitting male part d41 and the fitting female part a41 have a latch-type fixing structure. Then, when the device attachment end D41 is pushed into the attachment base A41, the fitting male portion d41 of the device attachment end D41 is fitted into the fitting female portion a41 of the attachment base A41. The attachment end D41 of the device is attached. Note that the shapes of the mounting base A41 and the mounting end D41 of the device shown in the figure are not limited thereto.

  With this configuration, when the device needs to be replaced, the device can be removed by pulling out the device mounting end D41 from the device mounting member mounting base A41. Thereafter, the device has a mounting end D41. Since a new device can be installed by pushing it in, the replacement work can be easily performed.

[Second Modification of Fourth Embodiment]
FIG. 13 shows a second modification of the detachable fixing structure between the mounting base on the device mounting member side and the device side according to the fourth embodiment. The mounting base A42 and the mounting end D42 of the device in the modified example are obtained by changing the circular plate a3 at the upper end of the fitting male part a4 made of a convex portion in the mounting base A4 in the fourth embodiment, The attachment end D4 of the device is changed to a hole shape matched with the sphere.

  That is, as shown in FIGS. 13 (a) and 13 (b), the mounting base A42 has a truncated cone shape with a concave portion a22 provided at the central portion, and a convex portion having a spherical body a32 at the upper end at the center of the concave portion a22. The fitting male part a42 to be formed is formed. Although illustration is omitted, the cushion layer described in the first to third embodiments (including modified examples) is disposed on the bottom surface of the mounting base A42. A mounting end D42 of the device to be fitted into the mounting base A42 is provided with a hole-shaped fitting female portion d42 that matches the fitting male portion a42 at the center thereof. The fitting male part a42 and the fitting female part d42 have a latch-type fixing structure. When the device attachment end D42 is pushed into the attachment base A42, the fitting female portion d42 of the device attachment end D42 is fitted into the fitting male portion a42 of the attachment base A42, so that the attachment base A42 is fitted. The attachment end D42 of the device will be attached. Note that the shapes of the mounting base A42 and the mounting end D42 of the device shown in the figure are not limited thereto.

  With this configuration, when it is necessary to replace the device, the device can be removed by pulling out the device mounting end D42 from the device mounting member mounting base A42. Thereafter, the device has a mounting end D42. Since a new device can be installed by pushing it in, the replacement work can be easily performed.

[Third Modification of Fourth Embodiment]
FIG. 14 shows a third modification of the detachable fixing structure between the mounting base on the device mounting member side and the device side according to the fourth embodiment. The mounting base A43 and the device mounting end D43 in the modified example are obtained by reversing the mounting base A42 and the device mounting end D42 in the second modified example of the fourth embodiment.

  That is, as shown in FIG. 14, the mounting end portion D43 of the device has a concave portion d23 at the center, and a fitting male portion d43 made of a convex portion having a spherical body d33 at the upper end is formed at the center of the concave portion d23. It has been done. A mounting base A43 fitted into the mounting end D43 of the device has a truncated cone shape, and a hole-shaped fitting female part a43 that matches the fitting male part d43 is provided at the center thereof. Although illustration is omitted, the cushion layer described in the first to third embodiments (including modified examples) is disposed on the bottom surface of the mounting base A43. The fitting male part d43 and the fitting female part a43 have a latch-type fixing structure. When the device mounting end D43 is pushed into the mounting base A43, the fitting male portion d43 of the device mounting end D43 is fitted into the fitting female portion a43 of the mounting base A43, so that the mounting base A43 is fitted. The attachment end D43 of the device is attached. Note that the shapes of the mounting base A43 and the mounting end D43 of the device shown in the figure are not limited thereto.

  FIGS. 15A and 15B show a state in which the device VD in which the vertical sound absorbing material V is arranged at the mounting end D43 of the device is mounted on the mounting base A43.

  With this configuration, when the device VD needs to be replaced, the device VD can be removed by pulling out the device mounting end D43 from the device mounting member mounting base A43. Since a new device VD having can be installed by being pushed in, replacement work can be easily performed.

[Fourth Modification of Fourth Embodiment]
FIG. 16 shows a fourth modification of the detachable fixing structure between the mounting base on the device mounting member side and the device side according to the fourth embodiment. The mounting base A44 and the mounting end D44 of the device in the modified example have a latch-type screwing structure instead of the fitting type shown in the fourth embodiment and the first to third modified examples thereof.

  That is, as shown in FIGS. 16 (a) and 16 (b), the mounting base A44 has a truncated cone shape with a concave portion a24 provided in the central portion, and a female step a44 is partially provided in the circumferential direction on the inner wall of the concave portion a24. Is formed. Although illustration is omitted, the cushion layer described in the first to third embodiments (including modified examples) is disposed on the bottom surface of the mounting base A44. A male side step d44 that meshes with a female side step a44 formed on the mounting base A44 is partially formed in the circumferential direction at the mounting end D44 of the device that is screwed into the mounting base A44. The female side step a44 and the male side step d44 have a latch-type fixing structure. And the part in which the male side level | step difference d44 in the attachment end part D44 of a device is formed can be inserted in the part in which the female side level difference a44 in the attachment base A44 is not formed. When the portion D44 is rotated, the female side step a44 in the mounting base A44 and the male side step d44 in the device mounting end D44 mesh with each other, and the device mounting end D44 is mounted on the mounting base A44. Note that the shapes of the mounting base A44 and the mounting end D44 of the device shown in the figure are not limited thereto.

  17 (a) and 17 (b) show a state in which a device VD in which a vertical sound absorbing material V is arranged at the attachment end D44 of the device is attached to the attachment base A44.

  With this configuration, when the device VD needs to be replaced, the device VD can be removed by rotating the device mounting end D44 from the device mounting member mounting base A44 and pulling it out. Since the new device VD having the end portion D44 can be mounted by being pushed in and rotated, the replacement work can be easily performed.

[Fifth Modification of Fourth Embodiment]
FIG. 18 is a fifth modification of the detachable fixing structure between the mounting base on the device mounting member side and the device side according to the fourth embodiment. The attachment base A45 and the attachment end D45 of the device in the modified example are obtained by inverting the attachment base A44 and the attachment end D44 of the device in the fourth modification of the fourth embodiment.

  That is, as shown in FIG. 18, the attachment end D45 of the device has a recess d25 at the center, and a female step d45 is partially formed in the circumferential direction on the inner wall of the recess d25. The mounting base A45 that is screwed into the mounting end D45 of the device has a male side step a45 that partially engages with the female step d45 formed on the device mounting end D45 on the outer wall in the circumferential direction. It is. Although illustration is omitted, the cushion layer described in the first to third embodiments (including modified examples) is disposed on the bottom surface of the mounting base A45. The female step d45 and the male step a45 have a latch-type fixing structure. A portion of the mounting base A45 where the male step a45 is not formed can be inserted into the portion of the device mounting end D45 where the female step d45 is formed. When the portion D45 is rotated, the male side step a45 in the attachment base A45 and the female side step d45 in the device attachment end D45 mesh with each other, and the device attachment end D45 is attached to the attachment base A45. Note that the shapes of the mounting base A45 and the mounting end D45 of the device shown in the figure are not limited thereto.

  With this configuration, when the device needs to be replaced, the device can be removed by rotating the device mounting end D45 from the device mounting member mounting base A45 and pulling it out. Since a new device having D45 can be mounted by being pushed in and rotated, replacement work can be easily performed.

Fifth embodiment

  The fifth embodiment shows an example of a detachable fixing structure between the mounting base on the device mounting member side and the device side, particularly a screw type fixing structure.

  As shown in FIG. 19, the mounting base A5 has a truncated cone shape and is formed by forming a female screw portion a5 at the center of the upper surface thereof. Although illustration is omitted, the cushion layer described in the first to third embodiments (including modified examples) is disposed on the bottom surface of the mounting base A5. The mounting end D5 of the device to be screwed to the mounting base A5 is provided with a male screw part d5 to be screwed to the female screw part a5 of the mounting base A5 at the center of the lower surface of the disc body. Then, when the male screw part d5 of the device attachment end D5 is rotated and screwed into the female screw part a5 of the attachment base A5, the device attachment end D5 is attached to the attachment base A5. The shapes of the mounting base A5 and the mounting end D5 of the device are not limited to this.

  With this configuration, when the device needs to be replaced, the device can be removed by reversely pulling the device mounting end D5 from the device mounting base A5 of the device mounting member. Since the new device having the part D5 can be mounted by rotating and screwing, the replacement work can be easily performed.

  In the fourth embodiment and the fifth embodiment (including the modified example), since it is a type that is separated or coupled by fitting or screwing, it is confirmed that it is engaged by a fitting sound or a feel at the time of mounting. This improves usability. Moreover, since attachment and detachment can be repeated, it is excellent in cost and only an attachment object such as a device can be exchanged. Furthermore, by using a latch mechanism in only one direction, there is an advantage that it cannot be easily removed and is difficult to come off, so safety and safety against dropping are improved.

Sixth embodiment

  The fifth embodiment shows an example in which the mounting base on the device mounting member side and the device are fixed so as not to be removable.

  In FIG. 20, A6 indicates a plate-type mounting base made of a rectangular flat plate, and a device DD made of a dome-type sound absorbing material is bonded to the mounting base A6. Although illustration is omitted, the cushion layer described in the first to third embodiments (including modified examples) is disposed on the bottom surface of the mounting base A6. The shape of the mounting base A6 shown in the figure is not limited to this. If comprised in this way, the fixed degree of attachment base A6 and device DD will increase. Note that the fixing structure shown in the fourth to fifth embodiments (including modified examples) may be adopted for the mounting base A6 and the device DD so that the device DD can be attached to and detached from the mounting base A6.

Seventh embodiment

  In the seventh embodiment, a fastening structure for fastening the device is provided on the mounting base on the device mounting member side.

  As shown in FIGS. 21 (a) and 21 (b), the mounting base A7 is composed of a base portion A17 having a truncated cone shape and a belt-like tightening belt A27 bonded to the upper surface as a tightening structure. The The mounting base may have a structure in which a tightening belt is passed through the base portion. Although illustration is omitted, the cushion layer described in the first to third embodiments (including modified examples) is disposed on the bottom surface of the base portion A17. The shapes of the base part A17 and the tightening belt A27 shown in the figure are not limited to this. Further, the tightening belt A27 has stretchability, and both end portions thereof are provided with hook-and-loop fasteners that connect the both end portions. Therefore, by using the tightening belt A27, an appropriate device including the sound absorbing material can be tightened and fixed to the mounting base A7. In addition, the hook-and-loop fastener provided at both ends of the tightening belt A27 is not limited to this, and an appropriate connecting tool that joins both ends of the tightening belt A27 may be used. Further, the tightening belt A27 does not necessarily have stretchability.

  FIGS. 22A and 22B show a state in which the horizontal sound absorbing material H is attached to the attachment base in the present embodiment. Note that an attachment base A7 'shown in FIGS. 22A and 22B shows an example in which the tightening belt A27' is passed through the base portion A17 '.

  In such a configuration, the mounting base A7 itself is an integral type of the base portion A14 and the tightening belt A27, and can be molded as a single unit, while processing the device as a target and mounting base A7 on the device side. The device can be easily attached and detached with a mechanism such as a hook-and-loop fastener, and can be easily attached and detached, and can be repeatedly attached and detached. With such a mechanism, it is difficult to come off, and it is easy to fix by tightening, so that it is excellent in terms of cost and moldability. Moreover, since the flexibility is large with respect to the size of the object to be attached, it is excellent in general purpose and adaptability to the object.

[First Modification of Seventh Embodiment]
FIG. 23 is a first modification of the belt-type device mounting member according to the seventh embodiment. As shown in FIGS. 23A and 23B, the belt-type device attachment member A71 in the modified example is configured by adhering an attachment base A171 to the upper surface of the cushion layer B171 adhered to the tire inner surface T1. The tightening belt A271 is inserted into the through hole A171a formed in the mounting base A171, and the device is fixed by the tightening belt A271.

[Second Modification of Seventh Embodiment]
FIG. 24 is a second modification of the belt-type device mounting member according to the seventh embodiment. As shown in FIGS. 24 (a) and 24 (b), the belt type device mounting member A72 in the modified example has the mounting base A172 bonded to the upper surface of the cushion layer B172 bonded to the tire inner surface T1, and the mounting base A172. The fastening belt A272 is bonded to the upper surface of the belt, and the reference numeral A172a is an adhesive layer. The belt-type device mounting member A72 in the modified example has a mechanism for fixing the device by the tightening belt A272 being configured.

[Third Modification of Seventh Embodiment]
FIG. 25 is a third modification of the belt-type device mounting member according to the seventh embodiment. As shown in FIGS. 25 (a) and 25 (b), the belt type device mounting member A73 in the modified example is configured by bonding a mounting base A173 to the upper surface of the cushion layer B173 bonded to the tire inner surface T1. . The attachment base A173 is formed by attaching the tightening belt A273 on the upper surface thereof by integral molding. The belt-type device mounting member A73 in the modified example has a mechanism for fixing the device by the tightening belt A273 being configured.

[Comparison test]
Next, the device attachment member according to the present invention was subjected to a comparative test for the following Examples 1 to 6 and Comparative Examples 1 to 4 under the following conditions.

Test method: Drum running 120km / h, load 6030N
Test tire: 235 / 50R18
At fixed mileage intervals, the attachments were checked, and the mileage at the time of peeling or breaking was compared exponentially. What was directly pasted without providing the cushion layer of Comparative Example 1 was taken as index 100, and the higher the value, the higher the effect.

It has a cushion layer, its thickness is 1.5 mm, its density is 250 kg / m ³ , and the adhesive surface to the mounting base has a skin layer. The attachment type between the attachment base and the device is a latch type. As shown in FIGS. 26 (a) and 26 (b), the type of the sound-absorbing material as the device is a vertical type.

It has a cushion layer, its thickness is 1.5 mm, its density is 250 kg / m ³ , and the adhesive surface to the mounting base has a skin layer. The mounting type between the mounting base and the device is a screw type. The type of the sound absorbing material that is a device is a vertical type, and is attached to the tire inner surface as shown in FIGS.

It has a cushion layer, its thickness is 1.5 mm, its density is 250 kg / m ³ , and the adhesive surface to the mounting base has a skin layer. The attachment type between the attachment base and the device is a belt type. The type of the sound absorbing material as a device is a horizontal type, and is attached to the tire inner surface as shown in FIGS.

It has a cushion layer, its thickness is 10 mm, its density is 250 kg / m ³ , and the adhesive surface to the mounting base has a skin layer. The attachment type between the attachment base and the device is a latch type. The type of the sound absorbing material that is a device is a vertical type, and is attached to the tire inner surface as shown in FIGS.

It has a cushion layer, its thickness is 1.5 mm, its density is 30 kg / m ³ , and the adhesive surface to the mounting base has a skin layer. The attachment type between the attachment base and the device is a latch type. The type of the sound absorbing material that is a device is a vertical type, and is attached to the tire inner surface as shown in FIGS.

It has a cushion layer, its thickness is 1.5 mm, its density is 250 kg / m ³ , and the adhesive surface to the mounting base has a skin layer. The attachment type between the attachment base and the device is a latch type. The type of sound absorbing material that is a device is a horizontal type, and is attached to the inner surface of the tire as shown in FIGS.

[Configuration of Comparative Example 1]
There is no cushion layer. The attachment type between the attachment base and the device is a latch type. The type of the sound absorbing material that is a device is a vertical type, and is attached to the tire inner surface as shown in FIGS.

[Configuration of Comparative Example 2]
It has a cushion layer, its thickness is 1.5 mm, its density is 250 kg / m ³ , and there is no skin layer on the adhesion surface to the mounting base. The attachment type between the attachment base and the device is a latch type. The type of the sound absorbing material that is a device is a vertical type, and is attached to the tire inner surface as shown in FIGS.

[Configuration of Comparative Example 3]
It has a cushion layer, its thickness is 1.5 mm, its density is 1000 kg / m ³ , and there is no skin layer on the adhesive surface to the mounting base. The attachment type between the attachment base and the device is a latch type. The type of the sound absorbing material that is a device is a vertical type, and is attached to the tire inner surface as shown in FIGS.

[Configuration of Comparative Example 4]
It has a cushion layer, its thickness is 20 mm, its density is 250 kg / m ³ , and there is no skin layer on the adhesion surface to the mounting base. The attachment type between the attachment base and the device is a latch type. The type of the sound absorbing material that is a device is a vertical type, and is attached to the tire inner surface as shown in FIGS.

[Results of comparative test]
About the said Example 1, the density was also adjusted and the balance of the deformation | transformation for following intensity | strength was taken. The skin layer also provided sufficient adhesion.

  In Example 2, the contact area of the engagement could be secured by fixing with the screw type, and the durability was slightly better than the latch type.

  In Example 3, the holding force was high in the belt type because the entire device was fixed. Also, it was able to handle the size of the device. It turned out to be dependent on the strength of the device.

  About Example 4 above, although the durability of the cushion layer was lowered compared to Example 1, it was a numerical value without a problem.

  About Example 5 above, although the durability of the cushion layer was lowered compared to Example 1, it was a numerical value without a problem.

  In Example 6, the length of the device could be accommodated by bending. Durability was improved by having two attachment points.

  About the said comparative example 1, it was not able to track the unevenness | corrugation of a tire inner surface. Peeling occurred due to insufficient adhesive strength. Destruction occurred due to the heavy load on the mounting part.

  About the said comparative example 2, since there was no skin layer in a cushion layer, peeling occurred with insufficient adhesive force.

  About the said comparative example 3, since the density was large, it was not able to follow the unevenness | corrugation of a tire inner surface. Moreover, peeling occurred due to insufficient adhesive force.

  About the said comparative example 4, since the thickness of the cushion layer was too large, fixation of a device became unstable and destruction occurred in the cushion layer.

  As a result of the above comparative tests, good results were obtained for the configurations of Examples 1 to 6 that fall within the scope of the present invention. The results of Comparative Examples 1 to 4 that do not fall within the scope of the present invention were not good.

  In addition, although some embodiment of this invention was described, these embodiment is shown as an example and is not intending limiting the range of invention. These embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. These embodiments and their modifications are included in the scope and gist of the invention, and are also included in the invention described in the claims and the equivalents thereof.

P1 ...... Device mounting member T1 ...... Tire inner surface A1 ...... Mounting base a1 ...... Engagement hole B1 ...... Cushion layer b1 ...... Cushion layer body b2 …… Skin layer b3 …… Skin layer c1 ...... Adhesive layer c2: Adhesive layer P2 ... Device mounting member A2 ... Mounting base B2 ... Cushion layer P3 ... Device mounting member B3 ... Cushion layer b4 ... Bottom surface P31 of skin layer ... Device mounting member B31 ... Cushion layer b41 ... Skin layer bottom surface P32 ... Device mounting member B32 ... Cushion layer b42 ... Skin layer bottom surface A4 ... Mounting base a2 ... Recess a3 ... Disc a4 ... Fitting male part D4 ... Mounting end d4 ... fitting female part A41 ... mounting base D41 ... device mounting end d21 ... recess d31 ... disc d41 ... fitting male part a41 ... fitting female part A42 ... mounting base D42 ... Device mounting end a22 ... Recessed portion a32 ... Sphere a42 ... Fitting male portion d42 ... Fitting female portion A43 ... Mounting base D43 ... Device mounting end d23 ... Recessed d33 ... Sphere d43 ... Fitting male portion a43 ... Fitting female part V ... Vertical sound absorbing material VD ... Device A44 ... Mounting base D44 ... Mounting end a24 ... Recessed part a44 ... Female side step d44 ... Male side step A45 ... Mounting base D45 ... Mounting end d25 ... Concavity d45 ... Female side step a45 ... Male side step A5 ... Mounting base a5 ... Female screw part D5 ... Device mounting end D5
d5 ...... Male screw part A6 ...... Mounting base DD ...... Device A7 ...... Mounting base A17 ...... Base part A27 ... Fastening belt A71 ... Belt type device mounting member A71
A171 ... Mounting base A171a ... Through hole A271 ... Fastening belt B171 ... Cushion layer A72 ... Belt type device mounting member A172 ... Mounting base A172a ... Adhesive layer A272 ... Fastening belt B172 ... Cushion layer A73 ... Belt type device mounting member A173 ... Mounting base A273 ... tightening belt B173 ... cushion layer H ... ... horizontal sound absorbing material

Claims (11)

In a pneumatic tire provided with a device mounting member for mounting a device on the tire inner surface,
The device mounting member is composed of a mounting base and a cushion layer,
The mounting base is for mounting a device, and is bonded to the tire inner surface through the cushion layer,
The pneumatic tire is characterized in that the cushion layer is made of a porous body or a nonwoven fabric, and a skin layer having no bubbles or irregularities is formed on the inner surface of the tire.   The pneumatic tire according to claim 1, wherein the cushion layer is bonded to the mounting base via an adhesive layer, and an adhesive surface to the mounting base is a skin layer without bubbles or irregularities.   The pneumatic tire according to claim 1, wherein the mounting base and the cushion layer are integrally formed.   The pneumatic tire according to any one of claims 1 to 3, wherein the cushion layer has a thickness of 0.3 mm to 10.0 mm.   The pneumatic tire according to any one of claims 1 to 4, wherein a thickness of the cushion layer is a non-uniform thickness according to an unevenness or a curved surface of the tire inner surface to which the cushion layer is bonded. The pneumatic tire according to any one of claims 1 to 5, wherein the density of the cushioning layer ^is a ^{30kg / m 3 ~600kg / m 3} .   The pneumatic tire according to any one of claims 1 to 6, wherein the cushion layer has a 25% compression hardness of 10 kPa to 1000 kPa.   8. The upper surface of the cushion layer on which the mounting base is installed and the installation surface of the mounting base, the upper surface of the cushion layer has the same shape as the installation surface of the mounting base or is larger than the installation surface of the mounting base. The pneumatic tire according to any one of the above.   The pneumatic tire according to any one of claims 1 to 8, wherein the mounting base and the device are provided with a detachable fixing structure.   The pneumatic tire according to claim 1, wherein the mounting base and the device are fixed so as not to be removable.   The pneumatic tire according to claim 1, further comprising a tightening structure for tightening the device on the mounting base.

Images