Tire sensor installation structure and a manufacturing method thereof

What is claimed is: 1. A sensor installation structure configured for installing a sensor module for collecting data associated with a state of a tire at an installation position of an inner side of the tire, the installation structure comprising: a sensor module housing configured to accommodate a sensor module; and two or more sensor patches, wherein each of the two or more sensor patches comprises a bonding portion configured to attach to the inner side of the tire and a pressing portion configured to place and maintain the sensor module housing in contact with the inner side of the tire, or an inner liner of the tire when present, at the installation position, wherein the pressing portion is configured to apply a downward pressure on a top portion of the sensor module housing by elastically extending and contracting, wherein the sensor module housing has a fixing projection having a predetermined shape formed on the top, wherein each of the two or more sensor patches has a fixing hole configured for inserting the fixing projection, and wherein the fixing hole and the fixing projection are configured to be coupled to each other such that the sensor module housing is prevented from laterally separating out of the installation position, and wherein the two or more sensor patches are arranged to cross each other and the pressing portion of each of the two or more sensor patches is arranged over the installation position. 2. The installation structure of claim 1 , wherein each of the two or more sensor patches is a band having a rectangular or an elliptical shape, and the bonding portion is formed at both sides of the band. 3. The installation structure of claim 1 , wherein each of the two or more sensor patches is formed of one or more homopolymers, copolymers or monomers selected from a group of consisting of ethylene vinyl acetate (EVA), synthetic resin, natural resin, and urethane. 4. The installation structure of claim 1 , wherein the structure is formed on the inner liner of the tire. 5. The installation structure of claim 4 , wherein each of the two or more sensor patches has a thickness between about 20% and about 120% of a thickness of the inner liner. 6. The installation structure of claim 4 , wherein each of the two or more sensor patches is formed of the same material as the inner liner. 7. The installation structure of claim 1 , wherein the bonding portion and the inner side of the tire are attached to each other using a bonding process or a fusing process such that a bonded interface or a fused interface is formed therebetween. 8. The installation structure of claim 1 , wherein the bonding portion and the inner side of the tire are attached by vulcanization such that a vulcanized interface is formed therebetween, and an anti-pressing portion-tire attachment structure is provided under the pressing portion before the vulcanization to prevent the surface of the pressing portion and the inner side of the tire from being attached to each other during the vulcanization. 9. The installation structure of claim 8 , wherein the anti-pressing portion-tire attachment structure is made of a high-temperature polymer that does not melt at a temperature of the vulcanization. 10. The installation structure of claim 8 , wherein the anti-pressing portion-tire attachment structure has a thickness that is between about 20% and about 120% of a thickness of a sensor patch. 11. The installation structure of claim 8 , wherein the anti-pressing portion-tire attachment structure has an ejector configured to be held with a hand for easy removal of the anti-pressing portion-tire attachment structure. 12. A method of using the tire sensor installation structure of claim 1 , the method comprising: extending upward each of the two or more sensor patches by applying a force to the pressing portion; placing the sensor module housing under the pressing portion; coupling the fixing hole with the fixing projection; removing the force extending the sensor patch such that each of the two or more sensor patches contracts and presses down the sensor module housing; and maintaining the sensor module housing in close contact with the inner side of the tire using each of the two or more sensor patches. 13. The method of claim 12 , further comprising applying a temporary or a permanent adhesive to a portion of the sensor module housing. 14. A tire comprising the tire sensor installation structure of claim 1 . 15. The tire of claim 14 , comprising a plurality of the tire sensor installation structures.