阅读说明：本技术 自支撑自充气自适应轮胎装置及方法 (Self-supporting self-inflating adaptive tire apparatus and method ) 是由 崔晓宏 于 2021-08-08 设计创作，主要内容包括：一种滑板车用自支撑自充气自适应轮胎装置,采用真空轮胎结构,至少在一边的胎唇处设置充气用的蠕动泵。所述蠕动泵是一种如同竹节一样的或杯形弹性管制成,一段一段的密封长管,在每个竹节气管节处开斜口,形成单向通气的舌阀。泵管环绕轮胎一周布置。蠕动泵的管口用作进气口,通向轮圈外口；管尾装有单向充气阀通向胎腔。轮胎是根据骑手的体重来实现滚动碾压式充气,这样充气压力自动调节,不会产生充气太足的现象,也不会产生欠压的情况,这一“自适应”巧妙地解决了滑板车的颠簸和兼顾降低滚动阻力的性能,提升了电动滑板车10%的续行里程,完美实现了自支撑、自充气、自适应三大功能。(A self-supporting self-inflating self-adaptive tire device for a scooter adopts a vacuum tire structure, and a peristaltic pump for inflating is arranged at least at one tire bead. The peristaltic pump is made of a bamboo-joint-like or cup-shaped elastic tube, a section of long sealed tube is arranged, and an inclined opening is formed at each bamboo throttle tube joint to form a one-way ventilating flapper valve. The pump tube is arranged around the circumference of the tire. The pipe orifice of the peristaltic pump is used as an air inlet and leads to the outer opening of the rim; the tube tail is provided with a one-way inflation valve which leads to the tire cavity. The tire is according to the weight of the rider realizes that roll rolling type is aerifyd, and inflation pressure automatically regulated like this can not produce and aerify too sufficient phenomenon, also can not produce the under-pressure condition, and this "self-adaptation" has solved the jolting of scooter ingeniously and has compromise the performance that reduces rolling resistance, has promoted electric scooter 10% continuation of the journey mileage, and perfect realization is self-supporting, self-inflating, three major functions of self-adaptation.)

1. A method for installing a self-supporting, self-inflating and self-adapting tire for a scooter is characterized by comprising the following steps: the self-supporting self-inflating tire device is characterized in that a first layer of stress structure is formed by a vacuum tire, a second layer of stress structure is formed by a support ring in a tire cavity, a third layer of stress structure is formed by a peristaltic pump pipe on a tire bead, the three layers are overlapped to form the self-supporting self-inflating tire device, and the inflating quantity can be adjusted in a self-adaptive mode according to the weight of a rider.

2. The method of claim 1, wherein the self-supporting, self-inflating, self-adapting tire assembly for a skateboard vehicle comprises: the support ring is made of elastic material, the outer diameter of the support ring is located at 1/3 between the maximum outer diameter of the rim and the maximum outer diameter of the inner cavity of the tire, and the support ring and the peristaltic pump tube are overlapped to form a shock-absorbing stress structure, so that normal running of the tire can be guaranteed when the tire is under-pressure.

3. The utility model provides a self-supporting self-inflating self-adaptation tire device, includes tire, wheel rim, lock ring, peristaltic pump which characterized in that: the tire bead is provided with a peristaltic pump, the inner sleeve of the tire cavity is provided with a support ring and then is arranged on a wheel ring, the wheel load pressure is transferred from the support ring to act on the peristaltic pump, so that the peristaltic pump is flattened, closed and rolled to inflate the tire cavity, and the inflation amount can be adjusted in a self-adaptive manner according to the load of the wheel.

4. A self supporting, self inflating, adaptive tire apparatus according to claim 3, wherein: the supporting ring axially supports tire lips on two sides of the tire to enable the tire lips to abut against the rim to form a sealing cavity, and the supporting ring and the peristaltic pump elastic tube body form a two-stage elastic stress structure, so that the shock absorption performance of the tire under pressure is improved, and self-supporting is formed.

5. A self supporting, self inflating, adaptive tire apparatus according to claim 3, wherein: the thickness of the tire bead is less than 2 mm.

6. A method for self-supporting, self-inflating, self-adapting tire apparatus as claimed in claim 3, wherein: the peristaltic pump pipe is connected with a one-way inflation valve at the tail and communicated with the fetal chamber, and the inflation pressure is automatically adjusted according to the weight of a rider to form self-adaptation.

7. A method for self-supporting, self-inflating, self-adapting tire apparatus as claimed in claim 3, wherein: the tube of the peristaltic pump is arranged in a plurality of circles around the fetal lip, so that each circle of the peristaltic pump tube is compressed to the ground, the air pressure of each circle of the peristaltic pump is gradually increased, the fetal cavity is inflated, and the inflation efficiency and the inflation pressure are improved.

8. The utility model provides a self-supporting self-inflating self-adaptation tire device, includes tire, wheel rim, lock ring, bamboo joint trachea 10, its characterized in that: the tire bead is provided with a bamboo joint air pipe 10, a support ring is sleeved in the tire cavity and then arranged on the wheel rim, and the pipe orifice of the bamboo joint air pipe 10 is used as an air inlet and communicated to the outer opening of the wheel rim; the tube tail is communicated with the tire cavity, an inclined opening 11 is formed at the joint 10 of the bamboo joint air tube to form a one-way flapper valve, and the tire cavity is inflated by rolling under wheel-load pressure.

9. A self-supporting self-inflating self-adaptive tire device comprises a tire, a rim, a support ring and a cup-shaped tube 12, and is characterized in that: a cup-shaped tube 12 is arranged at the tire lip, a support ring is arranged in the tire cavity, and an air inlet 6 of the cup-shaped tube 12 leads to the outer opening of the rim; the tube tail is communicated with the tire cavity, an inclined opening 11 is formed at the tube bottom of the cup-shaped tube 12 to form a one-way flapper valve, and the tire cavity is inflated by rolling under wheel-load pressure.

10. A self-supporting, self-inflating, adaptive tire apparatus according to any one of claims 1 to 9, wherein: the rim is imperforate.

Technical Field

The present invention relates to pneumatic tires and more particularly to an adaptive self-inflating tire assembly for a scooter.

Background

Personal vehicles in the market are mainly two-wheeled vehicles, such as bicycles and scooters. Particularly, the social conservation of the scooter is rapidly increased, and a large number of the scooter are electric scooters, and the adopted tires are mainly divided into two categories; one is an inflatable tire, which needs to be inflated frequently and is very complicated; the second type is exempted from pneumatic tire, is solid core child, also useful expanded material or hollow out construction, but its rolling resistance is big, and weight is heavy, and it is poor to move away to avoid possible earthquakes the effect, and the resistance of sliding is big, and user experience is not good.

The air tightness of the vacuum tire is good, but the common vacuum tire usually needs a tire with a thickened tire bead in order to ensure the self-sealing performance of self-expanding installation; if the thickness of the bead exceeds 4mm or more, the dielectric loss of rolling deformation increases, the resistance is large, and the running distance of the electric scooter is shortened by about 10%.

If need raise the efficiency, reduce rolling resistance, just need very thin bead tire, if thickness is less than 2mm, if make vacuum tire, will meet the outside holding power of bead and be not enough, the initial condition after the installation can't guarantee self sealedly nature, just can not realize initial inflation function.

Moreover, the scooter and the bicycle have small tire volume, less air in the tire volume, frequent air supplement and additional inflator configuration, which brings inconvenient pain points to users.

And electric scooter no matter what pneumatic tire is adopted, because wheel hub has been occupied the space by the motor, just there is not the position that traditional air cock was laid at all. In addition, the scooter has small wheel diameter, and the scooter jolts when being inflated enough at one time and rides immovably under the condition of underpressure. Moreover, riders with different weights can ensure the matched shock-absorbing performance by different corresponding air pressures.

The market urgently needs a scooter pneumatic wheel, can keep the atmospheric pressure that suitably matches throughout, neither jolt, not under-pressure, still need not specially go the vacuum tire of tonifying qi.

Disclosure of Invention

The present invention aims to solve the above problems: a self-supporting self-inflating self-adaptive tire device and a method are particularly applied to a scooter. The invention is characterized in that a solid core tire is sleeved in a cavity of a pneumatic tire and then is arranged on a rim. Thus, the normal operation of the wheel can be ensured no matter whether the tire has air pressure or not. The combination of the two structures has the advantages of the pneumatic tire and the non-pneumatic tire, avoids the defects of the two schemes, well reduces the running resistance of the scooter and obtains good shock-absorbing effect.

The invention adopts a vacuum tire structure, the tire side adopts an ultrathin design, and the thickness is controlled to be less than 2 mm. In order to ensure the initial state of installation to realize air tightness, the invention arranges a support ring in the tire cavity. The support ring is used as a solid tire and adopts an I-shaped structure which is laid down.

The solid tyre generates a shock-absorbing supporting stress structure through the hollow tube at the tyre lip and the wheel rim. The self-supporting self-inflating tire device is characterized in that a first layer of stress structure is formed by a vacuum tire, a second layer of stress structure is formed by a support ring in a tire cavity, a third layer of stress structure is formed by a peristaltic pump pipe on a tire bead, the three layers are overlapped to form the self-supporting self-inflating tire device, and the inflating quantity can be adjusted in a self-adaptive mode according to the weight of a rider.

The invention at least sets a peristaltic pump for inflating on the tire lip of one side, and the pump tube is arranged around the tire lip. The pipe orifice of the peristaltic pump is used as an air inlet and leads to the outer opening of the rim; the pipe tail plugging part is provided with a one-way valve which is used as a one-way inflation valve to be communicated with the tire cavity, and the tire cavity is inflated by the high-pressure gas after rolling and compressing.

A support ring is arranged in the tire cavity and sleeved on the peristaltic pump to form a radial support stress structure for under-pressure support, wheel load pressure is transmitted by the support ring to act on the peristaltic pump, the peristaltic pump is flattened, closed and rolled to inflate the tire cavity, and inflation amount can be adjusted in a self-adaptive mode according to load of wheels.

The tube arm of the peristaltic pump has certain supporting elasticity, and can be supported even if the tire pressure is sufficient, so that a pipeline has a space. The hollow tube also plays a role in cushioning the support ring, so that the shock-absorbing performance of the solid core tire is improved.

Furthermore, the tube of the peristaltic pump is arranged in a plurality of circles around the fetal lip, so that each circle of the peristaltic pump tube is compressed to the ground, and the air pressure of each circle of the peristaltic pump is gradually increased to inflate the fetal cavity, so that the inflation efficiency and the inflation pressure are improved.

Furthermore, the peristaltic pump is made of an elastic tube like bamboo joints, a section of long sealed tube is arranged, and an inclined opening is formed at each bamboo throttle joint to form a one-way ventilating tongue valve. The air in the bamboo joint peristaltic pump pipe can only be sucked through the air inlet, and then the tire cavity is inflated through the wheel-pressing rolling.

Furthermore, the cup-shaped pipe is provided with an oblique opening at the bottom of the pipe to form a one-way ventilating tongue valve. The cup-shaped pipe is in a taper shape, and the plurality of cup-shaped pipes and the pipe sleeves are connected to form the peristaltic pump.

The peristaltic pump formed by connecting the plurality of bamboo joint air pipes or the cup-shaped pipes in series can only enable air to flow into the tire cavity through the pump, and a one-way inflation valve can be omitted.

The rim is a complete ring without a nozzle hole structure, and the nozzle hole structure is not needed, so that the steel performance of the rim is ensured, and the processing cost is reduced. The rim is imperforate.

The self-supporting self-inflating self-adaptive tire device can effectively solve three problems:

first, "self-supporting": a support ring is arranged in the tire cavity, and the support ring axially supports tire lips on two sides of the tire to enable the tire lips to abut against the rim to form a sealing cavity; the method can provide supporting force to the radial direction and the axial direction, so that the ultra-thin tire does not depend on the outward supporting force of the tire bead but depends on the axial supporting force provided by the supporting ring, the tire bead is attached and sealed with the rim in the initial installation state of the tire, and the initial inflation condition can be ensured. Only a small supporting force needs to be provided in the axial direction; and a large supporting force is required in the radial direction for supporting the weight of the human body.

Second, "self-inflating": the invention adopts a support ring, a peristaltic pump and a one-way valve, wherein the support ring is arranged in the tire and is pressed and fixed on the outer sleeve of the peristaltic pump in a ring type; when the tire is under-pressure, the support ring transmits the upward pressure to the peristaltic pump in a rolling manner, so that the peristaltic pump pumps air into the inner cavity of the tire for one circle, and the self-inflation method is realized.

Third, "adaptive": the invention adopts the supporting ring arranged in the tire cavity, and the inflation pressure is used for inflating the tire cavity by acting the supporting ring on the peristaltic pump according to the wheel-borne gravity, so as to form self-adaptation. The outer diameter of the support ring is smaller than the maximum outer diameter of the inner cavity of the tire; the outer diameter of the support ring is larger than the maximum outer diameter of the rim; the outer diameter of the support ring is between the maximum outer diameter of the rim and the maximum outer diameter of the inner cavity of the tire. The support ring is made of elastic material, the outer diameter of the support ring is located at 1/3 between the maximum outer diameter of the rim and the maximum outer diameter of the inner cavity of the tire, and the support ring and the peristaltic pump tube are overlapped to form a shock-absorbing stress structure, so that normal running of the tire under pressure is guaranteed.

The support ring has compressed properties under high pressure, such as PU polyurethane. The support ring and the peristaltic pump elastic tube body form a two-stage elastic stress structure, so that the shock absorption performance of the tire under pressure is improved, and self-support is formed. The hollow tube body of the peristaltic pump is the air bag, so that the shock-absorbing performance of the tire under-pressure is improved, and the tire is prevented from being crushed by the rim.

The peristaltic pump pipe is connected with a one-way inflation valve at the tail and communicated with the fetal chamber, and the inflation pressure is automatically adjusted according to the weight of a rider to form self-adaptation. The inflation pressure can be automatically and adaptively adjusted according to the weight of the rider. The weight of the rider is the tire load.

Therefore, the inflation pressure of the tire is automatically adjusted, so that the phenomenon of over-sufficient inflation can not be generated, and the condition of under-pressure can not be generated. The self-adaptive self-inflation perfectly solves the problems of reducing the jolt and reducing the rolling resistance of the inflatable wheel scooter.

Take a push down arrow representing one rider half the body weight as an example: two arrows press on a tire, namely an inflated state; the four arrows represent jolts encountering strong impact forces, requiring shock absorption.

When the scooter is applied to the scooter, the two feet of a rider stand in front of and behind the pedal, and the stability of standing riding is kept by matching with the handlebar. When sliding, the rider can conveniently distribute the gravity centers on the front wheel or the rear wheel respectively; when substantially all of the person's weight is placed on the rear wheel, approximately all of the rider's weight pressure is provided to the rear wheel, which is operating in a self-inflating state, and vice versa. The invention makes use of the fact that the rider can freely distribute the weight to the front or rear wheels, and realizes the 'self-adaptive' inflation method.

The invention adopts the ultrathin tire, so that the rolling resistance is small, the running resistance is reduced, and the continuous mileage of the electric vehicle can be increased by about 10 percent.

Drawings

FIG. 1 is a cross-sectional view of the adaptive self-inflating vacuum tire of the present invention;

FIG. 2 is a schematic view of a cross-section of an adaptive self-inflating vacuum tire with a partial enlargement and a multi-turn peristaltic pump according to the present invention;

FIG. 3 is a schematic view of the adaptive self-inflating vacuum tire load rolling peristaltic pump of the present invention shown flattened underneath;

FIG. 4 is a schematic cross-sectional view of an adaptive self-inflating vacuum tire peristaltic pump in accordance with the present invention;

FIG. 5 is a schematic diagram showing the comparison of sufficient air pressure, under-pressure and shock absorption of the adaptive self-inflating vacuum tire of the present invention;

FIG. 6 is a schematic cross-sectional view of a bamboo joint air pipe of the self-adaptive self-inflating vacuum tire peristaltic pump of the present invention;

FIG. 7 is a schematic cross-sectional view of a cup-shaped tube of the adaptive self-inflating vacuum tire peristaltic pump of the present invention.

Wherein: 1. a tire; 2. a bead; 3. a fetal lip; 4. a peristaltic pump; 5. a one-way inflation valve; 6. an air inlet; 7. a support ring; 8. Transversely supporting; 9. a rim; 10. a bamboo joint air pipe; 11. a bevel opening; 12. a cup-shaped tube.

Detailed Description

The first embodiment is as follows: as shown in figure 1, the invention adopts a vacuum tire structure, the tire edge 2 adopts an ultrathin design, and the thickness is controlled to be less than 2 mm.

The invention provides a method for providing a supporting force to the radial direction and the axial direction by arranging the supporting ring 7 in the tire cavity, so that the ultra-thin tire does not depend on the outward supporting force of the tire bead 2 but depends on the axial supporting force provided by the transverse support 8 of the supporting ring 7, and the direction can be compressed to ensure the tire installation. In the initial installation state of the tire, under the action of the transverse support 8 of the support ring 7, the ultra-thin tire enables the tire lips 3 on two sides of the tire 1 to approach to and tightly abut against the inner wall steps of the rim 9, so that the tire lips 3 and the rim 9 are attached and sealed, and the initial inflation can be completed.

Example two: as shown in fig. 2, which shows a multi-turn construction of the peristaltic pump, the spiral is arranged around two turns.

The peristaltic pump 4 for inflation is arranged at the tire bead 3, the pump pipe is arranged around the tire bead 3 of the tire, and the opening of the pump pipe is used as an air inlet 6; the tail end of the peristaltic pump 4 is connected with a one-way inflation valve to lead to the fetal cavity. When the tire is under-pressure, the support ring transmits the upward pressure to the peristaltic pump in a rolling manner, so that the peristaltic pump pumps air into the tire cavity for one circle, and the inflation pressure is automatically adjusted according to the weight of a rider to form self-adaptation.

As the tire rolls forward, the flattened tube sections of the peristaltic pump 4 sequentially compress air towards the one-way inflation valve 5, and the peristaltic pump 4 completes one cycle of inflation once the tire is pressed and rolled for one turn.

The peristaltic pump 4 is made of elastic flexible materials, is prefabricated and twinned during tire molding, is extremely low in cost, and is suitable for mass production.

The tire is internally provided with a support ring 7 which is pressed and fixed outside the peristaltic pump 4 in a ring type; when the tire is under-pressure, the support ring 7 transmits the upward pressure to the peristaltic pump 4 in a rolling manner, so that the peristaltic pump 4 pumps air into the tire cavity in a circle, and the self-inflation method is realized.

The invention adopts the supporting ring 7 arranged in the tire, and the outer diameter of the supporting ring 7 is smaller than the maximum outer diameter of the inner cavity of the tire; the outer diameter of the support ring 7 is larger than the maximum outer diameter of the rim; the support ring 7 outer diameter is at 1/3 between the maximum outer diameter of the rim and the maximum outer diameter of the tire cavity.

The support ring 7 is made of a flexible material and has a compressed nature under high pressure, such as PU polyurethane, allowing the tire to run even in the absence of air.

The support ring 7 is rigid enough to radially bear the rider's weight and to collapse when exceeding the weight to absorb the strong impact force from the ground.

Thus, taking as an example a down arrow representing half the weight of a rider: two arrows press on a tire, namely an inflated state; the four arrows represent jolts encountering strong impact forces, requiring shock absorption.

The scooter's the state of riding is that both feet stand around the footboard, and the stability of riding is kept to cooperation handlebar. When sliding, people can conveniently distribute the gravity centers on the front wheels or the rear wheels respectively; when the weight of the person is basically all on the rear wheel, nearly all the weight pressure of the rider is provided for the rear wheel, and the invention just utilizes the weight pressure to realize the self-adaptive inflation method.

The inner diameter of the support ring 7 is matched with the peristaltic pump 4 arranged in the tire, a plurality of circles of spiral air pump pipes are arranged in the same circle in the tire tread ring of the tire, which is in rolling contact with the ground, air is fed into the air pump pipes and is positioned on the outer side of the tire, and when the tire is under-pressed and has a load to roll, each circle of spiral pipes are flattened. An air one-way valve is arranged in the spiral multi-circle air pump pipe.

As shown in fig. 5, the left side of the comparison graph shows that the tire pressure is sufficient, assuming that the rider of the two-wheeled vehicle weighs 60 kg, one of the tires bears 30 kg, the ground pressure acts on the pneumatic tire, the graph is marked by an arrow, the air pressure is sufficient, the ground and the rim 9 are at an elevation H, and the rim 9 is fully jacked up by the tire to be in a normal driving state.

In the middle drawing, when the tire is under-pressure, a rider is 60 kilograms and completely presses on the wheel, the tire bears 60 kilograms of pressure, the ground pressure acts on the support ring 7, the two arrows are used for marking in the drawing, the air pressure in the drawing is insufficient, the ground and the rim are at a height h, and the tire is in a rolling inflation state.

On the right side, when the scooter encounters a strong bumpy road condition, the bearing pressure of the tire is far larger than 60 kilograms, the ground pressure acts on the support ring 7 to cause collapse, the four arrows in the drawing indicate the height h' of the ground and the rim 9, the scooter allows the maximum shock and bump absorption, at the moment, the passive stroke absorption of the tire and the support ring 7 is maximized, and the shock absorption performance is improved.

Example three: as shown in fig. 6, the peristaltic pump 4 is an elastic tube prefabricated, like bamboo joints, a section of long sealed tube is provided, an inclined opening 11 is formed at a joint 10 of each bamboo joint air tube, the tube is a micro opening, a blade is inserted from an outer oblique position of the tube, and an air outlet is cut at an eccentric edge of the bamboo joint to form a one-way vent tongue valve. The plurality of bamboo joint peristaltic pumps 4 are connected in series, so that the structure that air can only flow into the tire cavity can omit the one-way inflation valve 5. The air in the tube of the bamboo joint peristaltic pump 4 can only be sucked by the air inlet 6 and then is rolled and pressed into the tire cavity by wheel-load pressure, so that the self-inflating function is realized.

Example four: as shown in fig. 7, a cup-shaped tube 12 is arranged at the tire lip, a supporting ring is arranged in the tire cavity, and an air inlet 6 of the cup-shaped tube 12 is communicated with the outer opening of the wheel rim; the tube tail is communicated with the tire cavity, an inclined opening 11 is formed at the tube bottom of the cup-shaped tube 12 to form a one-way flapper valve, and the tire cavity is inflated by rolling under wheel-load pressure. The plurality of cup-shaped tubes 12 are sleeved and connected in series to form a peristaltic pump.

Furthermore, the peristaltic pump 4 tube formed by the prefabricated bamboo joint air tube 10 or the cup-shaped tube 12 is wrapped in the tire bead 3 of the tire and is sealed, an opening leading to the outer wall of the tube is sealed, and only the one-way tongue valve is reserved. A plurality of one-way flapper valves are connected in series, so that the air can only be pumped to the direction of the tire cavity. The bamboo joint air pipe 10 or the cup-shaped pipe 12 can be wound in the tire bead 3 for multiple circles.