CN211663009U - Support ring for inner support of tire - Google Patents

Abstract

The utility model discloses a support ring for support in tire, the support ring is mutually supported by four support units and is formed annular structure after the equipment, support unit top has the holding surface, support unit top is to the bottom convergence, and the convergence part is the supporting part, the supporting part is kept away from one side of holding surface has the contact surface. The support ring can play a role in run-flat after the tire is broken and leaked, so that the vehicle is not out of control, the vehicle can safely run to a reasonable position and then necessary tire replacement is carried out, meanwhile, the support ring can meet the run-flat requirement of all passenger vehicles, the mounting is simple and convenient, the adaptability is strong, and the traditional tire production process is not influenced.

Description

Support ring for inner support of tire

Technical Field

The utility model relates to a tire field, support piece field, more specifically relate to a support ring that is used for interior support of tire.

Background

The prior run-flat tire adopts the following forms, and various forms are not listed as follows:

thick wall sidewall tire: the tire has poor impact resistance, poor comfort, heavy tire and large rolling resistance data in an inflated state, and is difficult to reach the safety limit in large specification, and the manufacture needs special process and special equipment, so the tire is very complex and has low efficiency; an inner supporting and fixing bracket: the tire installation is influenced, the capability of adapting to different section heights of the tire is poor, the overall structure needs to bear large load, the cost is high, the friction with the tire wall is too large, the early damage is easily caused, the replacement is very difficult, the whole tire can be replaced usually, the maintenance cost is too high, the tire is also easily subjected to friction collision with other parts in the tire, and even the tire is blocked; spraying of the inner wall leakproof glue solution: the side wall can not be effectively protected, the size of the protective broken hole is limited, uniform spraying is not easy to realize, the manufacture is very complicated, and the efficiency is low. Current run-flat tires are generally characterized by being self-heavy, requiring additional components, or using a specially-made wheel hub, which increases the unsprung mass of the vehicle, thereby affecting the handling characteristics of the vehicle. Run-flat tires can also be more expensive than conventional tires when the tires are used to the point of replacement. Moreover, some of the run-flat tires of the structure cannot be repaired after being damaged and can only be replaced, so that the maintenance cost is increased. Due to the thickened tyre wall, the damping effect of the tyre is reduced, and the hub can be deformed in serious conditions.

Accordingly, there is a need for a support ring for use in a tire inner support that overcomes the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a support ring for support in tire with low costs, excellent performance, simple structure, installation are simple and the popularity is wide.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a support ring for an inner support of a tire is assembled by matching four support units to form an annular structure, a supporting surface is arranged at the top of each support unit, the top of each support unit is converged towards the bottom, the convergent part is a supporting part, and a contact surface is arranged on one side, away from the supporting surface, of the supporting part. In the scheme, the supporting surface is used for supporting the inner wall of a tire shoulder, the contact surface is used for being attached and fixed with the inner surface of a tire bead, and the supporting part is used for transmitting force between the supporting surface and the contact surface; the inner surface of the tire bead is provided with the bracket ring, and the bracket units are processed in a circumferential equal division way, so that the problems of fine adjustment of the circumference and symmetrical balance mass are solved; the support unit is separated and independent, so that the manufacturing and the efficiency of the tire are not influenced, and the support unit is only matched and assembled before use, so that the problems of high complexity, low efficiency and high cost in manufacturing the run-flat tire are solved; the problem that the run-flat of the large-size tire can not reach the international standard is solved, and the run-flat of all passenger vehicle tires after breakage is really solved; the contact surfaces of the bracket units designed for the same tire size are the same, and because the small arc lines of the inner surfaces of the tire beads under the same tire size are almost the same at present, the adaptability of the contact surfaces is greatly enhanced, namely, one or two bracket rings (different bracket heights) are selected for the same tire size.

That is to say, the utility model discloses in the support ring is mutually supported by four support units and is assembled the back and form the loop configuration, refers to tire bead internally surface mounting's support ring, and it is the support ring that forms holistic after mutually supporting the equipment by four solitary support units in tire bead actually, then will assemble the whole support ring that forms in the tire and install in tire bead internal surface fixed position.

The utility model discloses in support unit top has the holding surface, support unit top is to the bottom convergence, and the convergence part is the supporting part, the supporting part is kept away from one side of holding surface has the contact surface. When the tire is in a short-air state, the inner surface corresponding to the outer surface of the tire contacting the ground is directly contacted with the supporting surface arranged at the top of the bracket unit, and then the stress of the tire and the ground is sequentially transmitted to the hub contacted with the outer surface of the tire bead through the inner surface corresponding to the outer surface, the supporting surface arranged at the top of the bracket unit, the supporting part arranged on the bracket unit, the contact surface arranged on the bracket unit, the inner surface of the tire bead of the contact surface and the outer surface of the tire bead corresponding to the inner surface of the tire bead. And then realize when the tire is flat to the inside support of tire, and be unlikely to let the tire directly roll on wheel hub, lead to tire bead to drop out of a circle and thoroughly drop off the damage, the vehicle is out of control.

In order to ensure that the assembly structure of the bracket ring is firm and wide in popularity, preferably, the bracket units are mutually matched and fixedly connected with the adjacent bracket units by mortise and tenon structures. In this scheme, the package assembly of support ring is mortise and tenon structure, and the structure is fastened to can do appropriate fine setting according to the size of tire, the commonality is wide, and simple structure, simple to operate is reliable simple. Meanwhile, the single support frame structure is simple and convenient to produce.

In order to enhance the bearing capacity of the support ring and improve the production efficiency, the support part is preferably a bridge arch structure support part. The bearing capacity of the bracket ring is greatly improved by adopting a bridge arch structure and utilizing the mechanical principle of an arch bridge; and the design mode of the bridge arch is favorable for the bracket unit to be more convenient and faster during injection production, higher in efficiency and better in quality, and the damage of an injection mold is small.

For high practicability and high applicability of the stent ring, the stent unit is preferably made of nylon and carbon fiber. In the scheme, the bracket unit is made of nylon-66 and carbon fiber, and the nylon-66 has the following excellent use performance: high strength, good resilience, wear resistance, multiple deformation resistance, fatigue resistance and good temperature absorption, and the carbon fiber has the following excellent service performance: the bracket unit made of the nylon-66 and the carbon fiber has high practicability and applicability due to various excellent performances of the nylon-66 and the carbon fiber, such as high temperature resistance, friction resistance, heat conduction and corrosion resistance.

In order to facilitate the production of the holder unit and to improve the accuracy, it is preferred that the holder unit is made by an injection molding process. In the scheme, the support unit is manufactured by adopting an injection process and is manufactured independently, so that the manufacturing and production efficiency of the tire is not influenced, and the support unit is only assembled in a mutually matched mode before use, so that the problems of multiple manufacturing procedures, complexity, high difficulty, low efficiency and high cost of the run-flat tire are solved, and the support unit is high in production efficiency, good in quality and high in precision.

In order to ensure the stability of the stent ring assembly structure, it is preferable that the contact surface has an adhesive layer formed by an adhesive. In this scheme, the support ring is the arc surface that transmits tire and contact surface through the supporting part after whole atress, and the surface has the gluing agent layer that increases the adhesive force to exist, can effectively guarantee that the support ring receives whole gliding or aversion behind certain perpendicular or the side direction load effect, and that is exactly the contact surface frictional force is greater than decurrent power, and the support ring can not wholly remove or shift to tire central line direction to the direction of atress, has guaranteed the stability of support ring structure when installation, operation.

And the contact surface is at a certain distance from the tire toe, and the distance is based on the condition that the installation and the disassembly of the tire are not influenced. The normal installation and the dismantlement of tire can not be influenced to the support ring installation back. The carrier ring is in contact with the beads of the tire only when the tire is inflated. The bracket ring is fixed on the inner surface of the tire bead under the inflation state, and is not contacted with other parts in the tire, so that the normal running and the original comfortable performance of the tire are not influenced.

Compared with the prior art, the utility model discloses following beneficial effect has: the comfort of the tire is consistent with that of a common tire under the normal inflation state, so that the problem of poor comfort is solved; the corresponding weight increase can be effectively reduced, the rolling resistance and the oil consumption are reduced, and the defects of heavy weight and high oil consumption are overcome; the split support unit has strong adaptability to the tires with the same size (one inch can be realized by one or two support rings), and solves the problem of applicability of the support rings to the tires with the same size and different specifications; the problem that the run-flat of a large-size tire cannot meet the international standard is solved, and the run-flat of all passenger vehicle tires after breakage is really solved; because the support unit is manufactured independently, the manufacture and the efficiency of the tire are not influenced, and the support unit is only assembled in a matched manner before use, so that the problems of high complexity, low efficiency and high cost in manufacturing the run-flat tire are solved; the injection process is adopted to manufacture the bracket unit, so the precision is high, and the circumference is equally divided and processed, so the problems of fine adjustment of the circumference and symmetrical balance mass are solved; the support ring can play a role in run-flat after the tire is broken and leaked, so that the vehicle is ensured not to be out of control, the vehicle can safely run to a reasonable position to replace the necessary tire, meanwhile, the support ring can meet the run-flat requirement of all passenger vehicles, is simple and convenient to install, has strong adaptability and does not influence the traditional tire production process; when the support unit needs to be replaced, the support unit only needs to be detached for replacement, and the whole tire does not need to be replaced, so that the maintenance cost is reduced, or after the tire is broken, the support unit only needs to be detached and installed on the repaired tire or a new tire as long as the support unit is not damaged, so that the maintenance cost is reduced.

The invention will become more apparent from the following description when taken in conjunction with the accompanying drawings which illustrate embodiments of the invention.

Drawings

Fig. 1 is a schematic cross-sectional view of a first bracket ring and a second bracket ring which are assembled on two sides in a tire bead of the middle tire and adopt a bridge arch structure.

Fig. 2 is a schematic cross-sectional view of the adjacent bracket units of the first bracket ring of the utility model adopting mortise and tenon structure connection.

Fig. 3 is a schematic cross-sectional view of the first ring of the present invention, wherein the support unit is of a bridge arch structure.

Fig. 4 is a schematic cross-sectional view of the tire supported by the first support ring and the second support ring of the bridge arch structure in the leakage-broken state.

Fig. 5 is a schematic top view of the first ring of the present invention assembled from four stent units.

Fig. 6 is a schematic top view of the present invention in which four stent units are assembled into a second stent ring.

Reference numerals: 1 is the holding surface, 2 is the contact surface, 3 is the supporting part, 4 is the tire, 5a is the first support unit of first support ring, 5b is the second support unit of first support ring, 5c is the third support unit of first support ring, 5d is the fourth support unit of first support ring, 6a is the first support unit of second support ring, 6b is the second support unit of second support ring, 6c is the third support unit of second support ring, 6d is the fourth support unit of second support ring.

Detailed Description

The present invention will be further described with reference to the following examples, which are only some, but not all, of the examples of the present invention. Based on the embodiments in the present invention, other embodiments used by those skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 6, an embodiment of the present invention is shown for illustration purposes, and is not limited to the structure.

As described above, the utility model provides a support ring for support in tire, the support ring is mutually supported by four support units and is formed the loop configuration after the equipment, support unit top has holding surface 1, support unit top is to the bottom convergence, and the convergence part is supporting part 3, supporting part 3 keeps away from one side of holding surface 1 has contact surface 2.

Preferably, the support units and the adjacent support units are mutually matched and fixedly connected by mortise and tenon structures.

Preferably, the support 3 is a bridge arch support 3.

Preferably, the support unit is made of nylon and carbon fiber.

Preferably, the rack unit is a rack unit manufactured by an injection molding process.

Preferably, the contact surface 2 has an adhesive layer formed by an adhesive.

Preferred embodiments: in the embodiment, as shown in fig. 1, the inner surfaces of both sides of the tire bead of the tire 4 are provided with the support rings, as shown in fig. 5 and 6, the support rings are assembled by four support units in a mutually matched manner to form a ring structure, as shown in fig. 2, the assembled structure is a mortise and tenon structure, as shown in fig. 3, the support units are support units adopting an arch bridge structure, as shown in fig. 1, the inner surfaces of both sides of the tire bead of the tire 4 are provided with the support rings assembled by the arch bridge structure support units, as shown in fig. 4, when the tire 4 is broken and leaked, the support surface 1 of the support unit supports the tire shoulder position, so that the tire 4 can be continuously driven for a certain distance and then replaced, the support portion 3 of the support unit is the support portion 3 of the arch bridge structure, the support portion 1 is transferred to the contact surface 2 through the support portion 3 after being stressed, and the contact surface of the, the support unit can be effectively ensured not to integrally move towards the stress direction or move towards the central line direction of the tire 4 after the support unit is subjected to a certain vertical or lateral load, namely, the support ring can be ensured to support the tire 4, so that the tire 4 can continue to normally run for a certain distance. In practical application, the bracket units of the bridge arch structure are selected and assembled into corresponding bracket rings according to actual requirements.

A method of mounting a support ring for an inner tire support, comprising the steps of:

a step, preparing a tire 4 cover tire;

b, taking out a first bracket unit 5a of the first bracket ring, and coating adhesive on the contact surface of the contact surface 2 and the inner surface of the tire bead of the tire 4;

c, fitting and installing the contact surface 2 on the inner surface of a tire bead of the tire 4, and enabling the contact surface 2 to have a certain distance from a tire toe, wherein the distance is subject to the condition that the installation and the disassembly of the tire 4 are not influenced;

and d, taking out the second bracket unit 5b of the first bracket ring, the third bracket unit 5c of the first bracket ring and the fourth bracket unit 5d of the first bracket ring, and repeating the mounting operation of the first bracket unit 5a of the first bracket ring to ensure that the four bracket units are sequentially matched and assembled into the first bracket ring in a ring shape, namely the first bracket ring is mounted on one side in the tire bead of the tire 4.

And e, taking out the first bracket unit 6a of the second bracket ring, the second bracket unit 6b of the second bracket ring, the third bracket unit 6c of the second bracket ring and the fourth bracket unit 6d of the second bracket ring, and referring to the mounting step of the first bracket ring, so that the four bracket units of the second bracket ring are sequentially matched and assembled into the second bracket ring in a ring shape, namely, the second bracket ring is mounted on the other side in the tire bead of the tire 4.

The contact surface 2 is away from the bead toe of the tire 4 by a certain distance, the distance is determined on the premise that the installation and the disassembly of the tire 4 are not influenced, the normal installation and the disassembly of the tire 4 cannot be influenced after the support ring is installed, the support ring is only contacted with the bead of the tire 4 in the inflation state of the tire 4, the support ring is fixed on the inner surface of the bead in the inflation state and is not contacted with other parts in the bead of the tire 4, and the normal running and the comfort performance of the tire 4 are not influenced. In the installation, the method for installing or disassembling the outer tire belongs to the existing mature technology and is not described.

Wherein, in order to further strengthen the structural stability of the bracket ring, the mortise and tenon structure which is vertically embedded can be designed into a mortise and tenon structure which is obliquely embedded by 30 degrees.

The utility model discloses in, the support unit of support ring is the support unit of the components of a whole that can function independently stand alone type of independent production, only need before the use with tire 4 cooperation installation can, so in practical application, can be different according to the demand, different according to tire 4's specification model size, choose for use the support unit of bridge arch structure, choose for use not the support of co-altitude to assemble into support ring collocation separately, be applicable to all the run-flat requirement of taking advantage of and using the vehicle.

The above-mentioned embodiments are provided for illustration and not for limitation, and the changes of the examples and the replacement of equivalent elements should be understood as belonging to the scope of the present invention.

From the above detailed description, it will be apparent to those skilled in the art that the present invention can achieve the above objects, and the present invention is in accordance with the provisions of the patent statutes and is now filed for patent.

Claims (6)

1. The support ring for the inner support of the tire is characterized in that the support ring is formed into an annular structure after being assembled by matching four support units, the top of each support unit is provided with a support surface, the top of each support unit is converged towards the bottom, the convergent part is a support part, and one side, away from the support surface, of each support part is provided with a contact surface.

2. The support ring for the inner support of the tire as claimed in claim 1, wherein the support unit is fixedly connected with the adjacent support unit by means of mortise and tenon structure.

3. A support ring for internal supports of tires according to claim 1, wherein the support portion is a bridge arch support portion.

4. The support ring for the inner support of the tire as claimed in claim 1, wherein the support unit is made of nylon and carbon fiber.

5. A carrier ring for use in a tire inner support as in claim 1, wherein said carrier elements are injection molded carrier elements.

6. A support ring for use in a tire inner support as in claim 1, wherein said contact surface has an adhesive layer formed thereon.

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