Adhesive bonding and miscellaneous chemical manufacture – Surface bonding means and/or assembly means therefor – Tire body building type
Reexamination Certificate
1999-03-03
2002-09-17
Knable, Geoffrey L. (Department: 1733)
Adhesive bonding and miscellaneous chemical manufacture
Surface bonding means and/or assembly means therefor
Tire body building type
C156S119000, C156S289000, C156S500000, C425S104000
Reexamination Certificate
active
06451162
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a tire tube and an apparatus for manufacturing the tire tube, and particularly to a tire tube including an air chamber filled with air and a sealant chamber filled with a sealant and an apparatus for manufacturing the tire tube.
2. Description of Related Art
FIG. 1
is a transverse sectional view of a wheel mounted with a tube containing tire including a sealant chamber;
FIG. 5
is a flow chart showing steps of manufacturing a tube; and
FIG. 6
is a partial perspective view of an extrusion-molding machine for extrusion-molding a tube material.
As shown in
FIG. 1
, a rim R of a motorcycle wheel is connected to a hub (not shown) via wire spokes (not shown). A tube containing tire T including a tire
1
and a tube
2
contained in the tire
1
is mounted on the rim t The tube
2
includes a peripheral wall
4
and a partition wall
5
for partitioning the inside surrounded by the peripheral wall
4
into two parts. The peripheral wall
4
is composed of an air chamber peripheral wall
41
positioned radially inward of the tube
2
, and a sealant chamber peripheral wall
40
positioned radially outward of the tube
2
. The partition wall
5
is molded integrally with the peripheral wall
4
.
An air chamber
3
, which is surrounded by the air chamber peripheral wall
41
and the partition wall
5
in an approximately circular shape in cross-section, is filled with air. A sealant chamber
7
, which is surrounded by the sealant chamber peripheral wall
40
and the partition wall
5
in an approximately arcuate shape, is filled with a known liquid sealant
8
. The air chamber peripheral wall
41
has an air valve
6
for filling the air chamber
3
with air.
As shown in
FIG. 5
, a process of manufacturing the tube
2
includes a material kneading step, a tube material extrusion-molding step, a cutting step, an air valve mounting step, a joining step, and the like.
A material composed of a crude rubber kneaded during the material kneading step is extrusion-molded into a tube material
2
′ by an extrusion-molding machine during the tube material extrusion-molding step. The tube material
2
′ is cut into a specific length during the cutting step; an air valve
6
is mounted at a suitable position on the air chamber peripheral wall
41
during the air valve mounting step; and both ends of the tube material
2
′ are joined to each other during the joining step. After that, the material
2
′ is subjected to a vulcanizing step and a sealant filling step to obtain a finished tire tube.
As shown in
FIG. 6
, a nozzle
12
of an extrusion-molding machine
11
has surface lubricant delivery ports
14
a
and
14
b
and surface lubricant suction ports
13
a
and
13
b
for supplying and discharging a surface lubricant such as talc into the air chamber
3
and the sealant chamber
7
, respectively.
The general sealing performance of a tire is improved by increasing the charged amount of a sealant
8
into the sealant chamber
7
, thereby increasing the thickness “t” of the sealant
8
; however, when the charged amount of the sealant
8
is increased, the weight of the tire tube
2
is increased to thereby degrade the durability of the tire tube
2
at the contact surface with a tire
1
.
In this way, since the durability of the tire tube
2
is incompatible with the sealing performance of the tire tube
2
, the thickness “t” in the diameter direction of the sealant
8
in the sealant chamber
7
is required to be specified when considering the sealing performance and durability. According to the related art; however, the relationship between the thickness “t” of the sealant
8
in the sealant chamber
7
and the sealing performance/durability has failed to be examined. Therefore, in the tires of the related art, the thickness of the sealant
8
has not been suitably determined. Therefore, it is difficult to make the sealing performance compatible with the durability of the tire.
In the above described related art extrusion-molding machine
11
, while talc is delivered in regions forming the air chamber
3
and the sealant chamber
7
from the different surface lubricant delivery ports
14
a
and
14
b
respectively, delivery means such as a pump for imparting a delivery pressure is common to the surface lubricant delivery ports
14
a
and
14
b
. Accordingly, if a delivery load at one of the surface lubricant delivery ports becomes larger than that at the other surface lubricant delivery port due to some external cause, the delivery force applied by the pump is concentrated on the other surface lubricant delivery port side. As a result, while the surface lubricant in an excessively larger amount is delivered from the latter surface lubricant delivery port with the small delivery load, the amount of the surface lubricant delivered from the former surface lubricant delivery port with the large delivery load becomes insufficient because a specific deliver pressure is not applied to the delivery port.
As shown in
FIG. 6
, for example, when extrusion-molding is performed when the delivery port
14
a
is located on the upper side and the delivery port
14
b
is located on the lower side, a delivery load at the upper delivery port
14
a
is larger than that at the lower delivery port
14
b
due to gravity applied to the tube. As a result, while the surface lubricant is delivered in a large amount from the lower delivery port
14
b
, the surface lubricant is not delivered in a sufficient amount from the upper delivery port
14
a.
SUMMARY OF THE INVENTION
A first object of the present invention is to provide a tire tube having increased sealing performance and durability. A second object of the present invention is to provide a tire tube manufacturing apparatus capable of improving the manufacturing yield and durability of a tire tube by preventing adhesive bonding between a peripheral wall and a partition wall of the tube during a vulcanizing step and the like.
To achieve the above objects, the present invention provides the following:
(1) A tire tube including a sealant chamber filled with a sealant on an outer peripheral side thereof, wherein the thickness, in the diameter direction, of the sealant charged in the sealant chamber is in a range of 0.5 to 1.5 mm.
(2) A tire tube manufacturing apparatus for extrusion-molding a tire tube material in which the inside of a peripheral wall having an approximately circular cross-section is partitioned by a partition wall into an outer peripheral side sealant chamber and an inner peripheral side air chamber, wherein the apparatus includes a nozzle plane having a peripheral wall forming gap through which a peripheral wall portion of the tire tube material is extruded, and a partition wall forming gap through which a partition wall portion of the tire tube material is extruded; a first surface lubricant delivery port opened in the nozzle plane at an area partitioned by one side of the partition wall forming gap and the peripheral wall forming gap; a second surface lubricant delivery port opened in the nozzle plane at an area partitioned by the other side of the partition wall forming gap and the peripheral wall forming gap; first delivering means for pressingly supplying a surface lubricant into the first surface lubricant delivery port; and second delivering means for pressingly supplying the surface lubricant into the second surface lubricant delivery port.
With the configuration (1) above, even though incompatible with each other in terms of physical properties, the durability and sealing performance of a tube with the thickness “t” in the diameter direction of the sealant taken as a parameter can be substantially compatible with each other as a matter of practicality.
With the configuration (2) above, since the delivery means for generating a delivery pressure is provided for each of the surface lubricant delivery ports, even if a delivery load at the first surface lubricant delivery port is increased, the delivery pressure applied by the first d
Birch & Stewart Kolasch & Birch, LLP
Honda Giken Kogyo Kabushiki Kaisha
Knable Geoffrey L.
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