Elastic high-heeled shoes with variable coefficientsTechnical Field
The invention relates to the field of shoes, in particular to an elastic high-heeled shoe with a variable coefficient.
Background
The high-heeled shoes are integrated into the job site and life of modern women, and the beauty of the women can be better reflected when the high-heeled shoes are worn, but the high-heeled shoes are easy to cause foot fatigue and damage to the heel part after being worn for a long time, the vibration of the foot is transmitted to the head part through the spine and causes spinal muscle strain, and the reason for eye vibration is mainly that the root part of the high-heeled shoes is higher and hard, and the foot is lack of buffering when touching the ground. In addition, most of the prior high-heeled shoes are in a thin and high cylindrical shape, so that the wear resistance is poor, the pressure area of the heel is small, the stability is poor, and the heel is easy to sink into the ground when encountering softer occasions such as muddy road surfaces, thereby bringing inconvenience to the wearer and being difficult to meet the demands of people.
Disclosure of Invention
In order to solve the technical problems, the elastic high-heeled shoe with the variable coefficient is provided, the contact area between the heel part and the ground is large, the shock absorption performance is good, the stability is strong, the height can be adjusted, the elastic high-heeled shoe has better resilience force, and foot sprain is not easy to cause.
In order to achieve the above purpose, the technical scheme of the invention is as follows:
The elastic high-heeled shoe with the variable coefficient comprises a high-heeled shoe vamp and a high-heeled shoe sole which gradually rises from front to back, wherein the bottom surface of the high-heeled shoe sole is provided with a forefoot and a sole heel, the forefoot is horizontally arranged below the front part of the bottom surface of the high-heeled shoe sole, and the sole heel comprises a sole, a front arc-shaped elastic support piece, a rear arc-shaped elastic support piece and a connecting piece; the connecting piece is fixedly arranged at the rear half part of the bottom surface of the sole of the high-heeled shoe, the upper end of the front arc-shaped elastic supporting piece is fixedly arranged at the front end of the bottom surface of the connecting piece, the lower end of the front arc-shaped elastic supporting piece is fixedly connected with the front end of the top surface of the heel of the shoe, the upper end of the rear arc-shaped elastic supporting piece is fixedly arranged at the rear end of the bottom surface of the connecting piece, and the lower end of the rear arc-shaped elastic supporting piece is fixedly connected with the rear end of the top surface of the heel of the shoe; the front end of the shoe heel is fixedly connected with the rear end of the shoe heel, the shoe heel and the shoe heel are positioned on the same plane after being connected, and the bottom surface of the shoe heel are contacted with the ground when the shoe is worn; when the pressure of the sole of the high-heeled shoe is gradually increased, the front arc-shaped elastic supporting piece is bent backwards and is gradually increased, the rear arc-shaped elastic supporting piece is bent forwards and is gradually increased, the middle parts of the front arc-shaped elastic supporting piece and the rear arc-shaped elastic supporting piece are gradually close to each other until the front arc-shaped elastic supporting piece and the rear arc-shaped elastic supporting piece are contacted, at the moment, the elastic coefficient of the elastic high-heeled shoe is increased, increased supporting force is provided, and the elastic high-heeled shoe continues to have elasticity; the front arc-shaped elastic support piece and the rear arc-shaped elastic support piece are elastic, the installation position of the front arc-shaped elastic support piece is in arc-shaped backward bending arrangement, the installation position of the rear arc-shaped elastic support piece is in arc-shaped forward bending arrangement, and the heights of the top ends of the front arc-shaped elastic support piece and the top ends of the rear arc-shaped elastic support piece can move downwards after being pressed by heavy load; when the pressure is reduced, the heights of the top ends of the front arc-shaped elastic support piece and the rear arc-shaped elastic support piece can be moved upwards until the original shape is restored; an upper shock absorption block and a lower shock absorption block which are made of elastic materials are further arranged between the front arc-shaped elastic supporting piece and the rear arc-shaped elastic supporting piece, and the length of the lower shock absorption block is consistent with the width of the sole of the shoe; the upper shock absorption block is transversely arranged at the upper part of a gap between the front arc-shaped elastic support piece and the rear arc-shaped elastic support piece, and the lower shock absorption block is transversely arranged at the lower part of the gap between the front arc-shaped elastic support piece and the rear arc-shaped elastic support piece; the upper shock absorption block and the lower shock absorption block are made of rubber, soft plastic or springs with elastic characteristics, and the sizes and the shapes of the upper shock absorption block and the lower shock absorption block can be adjusted and replaced according to the required elastic change requirement; the upper damping block is fixedly arranged on the upper fixing piece and is fixedly connected with the upper movable blocking piece; the lower shock-absorbing block is characterized in that two sides of the lower shock-absorbing block are respectively provided with a lower fixing plate and a lower movable blocking plate, the bottom end of the lower fixing plate is fixed on one side upper side of the shoe heel, the bottom end of the lower movable blocking plate is hinged on the other side upper side of the shoe heel, and the lower shock-absorbing block is blocked between the lower fixing plate and the lower movable blocking plate.
According to the technical scheme, the high-heeled shoe upper and the high-heeled shoe sole which gradually rises from front to back are arranged on the bottom surface of the high-heeled shoe sole, the bottom surface of the high-heeled shoe sole is provided with the half sole and the sole heel, the half sole is arranged below the front part of the bottom surface of the high-heeled shoe sole in a flat mode, and the sole heel comprises the half sole, the front arc-shaped elastic supporting piece, the rear arc-shaped elastic supporting piece and the connecting piece; the connecting piece is fixedly arranged at the rear half part of the bottom surface of the sole of the high-heeled shoe, the upper end of the front arc-shaped elastic supporting piece is fixedly arranged at the front end of the bottom surface of the connecting piece, the lower end of the front arc-shaped elastic supporting piece is fixedly connected with the front end of the top surface of the heel of the shoe, the upper end of the rear arc-shaped elastic supporting piece is fixedly arranged at the rear end of the bottom surface of the connecting piece, and the lower end of the rear arc-shaped elastic supporting piece is fixedly connected with the rear end of the top surface of the heel of the shoe; the front end of the shoe heel is fixedly connected with the rear end of the shoe heel, the shoe heel and the shoe heel are positioned on the same plane after being connected, and the bottom surface of the shoe heel are contacted with the ground when the shoe is worn. The shoe sole is characterized in that prestress is applied in the production and processing process, so that when the shoe sole is worn, the front arc-shaped elastic support piece and the rear arc-shaped elastic support piece slightly deform along with the compression of the shoe, the cushion and the shock absorption effect are achieved, the arc-shaped elastic support piece is stressed and bent to deform when the body of the wearer leans backwards, the height of the arc-shaped elastic support piece is reduced, the height of the arc-shaped elastic support piece is adjusted, the total height of the shoe sole after the wearer wears the shoe is further adjusted, in addition, the contact area between the heel part of the shoe and the ground is increased due to the fact that the bottom surface of the sole and the bottom surface of the sole are contacted with the ground, the shoe sole is high in stability and comfortable to wear, the ankle of the wearer is effectively protected, the safety of the wearer is guaranteed, the shock absorption performance is good, the height can be adjusted, good resilience force is achieved, and foot sprain is not easy to cause.
Drawings
In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a front view of a variable coefficient resilient high-heeled shoe in accordance with the disclosed embodiments of the invention;
FIG. 2 is a rear view of a variable coefficient resilient high-heeled shoe in accordance with the disclosed embodiments of the present invention;
FIG. 3 is a schematic view of a variable coefficient resilient high-heeled shoe constructed in accordance with one embodiment of the present invention as the wearer leans forward;
FIG. 4 is a schematic diagram of a variable coefficient resilient high-heeled shoe constructed in accordance with one embodiment of the present invention as the wearer leans back.
Corresponding part names are indicated by numerals and letters in the drawings:
1. High-heeled shoe upper 2, high-heeled shoe sole 3, forefoot 41, heel 42, rear arc-shaped elastic support 43, connecting piece 44, front arc-shaped elastic support 5, upper shock absorber 51, upper fixing piece 52, upper movable barrier 6, ground 7, lower shock absorber 71, lower fixing piece 72, lower movable barrier
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
The present invention will be described in further detail with reference to examples and embodiments.
Examples
As shown in fig. 1, 2, 3 and 4, the elastic high-heeled shoe with variable coefficient comprises a high-heeled shoe vamp 1 and a high-heeled shoe sole 2 which gradually rises from front to back, wherein the bottom surface of the high-heeled shoe sole 2 is provided with a half sole 3 and a sole heel, the half sole 3 is horizontally arranged below the front part of the bottom surface of the high-heeled shoe sole 2, and the sole heel comprises a shoe heel 41, a rear arc-shaped elastic support 42, a connecting piece 43 and a front arc-shaped elastic support 44; the connecting piece 43 is fixedly arranged at the rear half part of the bottom surface of the high-heeled shoe sole 2, the upper end of the front arc-shaped elastic supporting piece 44 is fixedly arranged at the front end of the bottom surface of the connecting piece 43, the lower end of the front arc-shaped elastic supporting piece is fixedly connected with the front end of the top surface of the shoe heel 41, the upper end of the rear arc-shaped elastic supporting piece 42 is fixedly arranged at the rear end of the bottom surface of the connecting piece 43, and the lower end of the rear arc-shaped elastic supporting piece is fixedly connected with the rear end of the top surface of the shoe heel 41; the front end of the shoe heel 41 is fixedly connected with the rear end of the shoe heel 3, the shoe heel 41 and the shoe heel 3 are positioned on the same plane after being connected, and the bottom surface of the shoe heel 3 and the bottom surface of the shoe heel 41 are contacted with the ground 6 when the shoe is worn; when the sole of the high-heeled shoe is pressed and gradually increased, the front arc-shaped elastic support piece 44 is bent backwards and gradually increased, the rear arc-shaped elastic support piece 42 is bent forwards and gradually increased, and the middle parts of the front arc-shaped elastic support piece 44 and the rear arc-shaped elastic support piece 42 are gradually close to each other until the front arc-shaped elastic support piece 44 and the rear arc-shaped elastic support piece 42 are contacted, at the moment, the elastic coefficient of the elastic high-heeled shoe is obviously increased, and obviously increased supporting force is provided and elasticity is continuously provided.
The front arc-shaped elastic support piece 44 and the rear arc-shaped elastic support piece 42 are elastic, the installation position of the front arc-shaped elastic support piece 44 is in arc-shaped backward bending arrangement, the installation position of the rear arc-shaped elastic support piece 42 is in arc-shaped forward bending arrangement, and the top heights of the front arc-shaped elastic support piece 44 and the rear arc-shaped elastic support piece 42 can move downwards after being pressed by heavy pressure.
In addition, an upper damper 5 and a lower damper 7 made of elastic materials are further arranged between the front arc-shaped elastic support 44 and the rear arc-shaped elastic support 42, the length of the upper damper 5 is consistent with the width of the connecting piece 43, and the length of the lower damper 7 is consistent with the width of the sole 41; the upper damper 5 is transversely arranged at the upper part of the gap between the front arc-shaped elastic support 44 and the rear arc-shaped elastic support 42, so that the upper damper can absorb vibration impulse from the upper part when being pressed and can increase the strength of the upper damper, and the lower damper 7 is transversely arranged at the lower part of the gap between the front arc-shaped elastic support 44 and the rear arc-shaped elastic support 42, so that the lower damper 7 can absorb vibration impulse of the front and rear of a wearer during severe movement and can play a role in supporting the front arc-shaped elastic support 44 and the rear arc-shaped elastic support 42 and strengthen the strength of the upper damper. The upper shock absorber 5 and the lower shock absorber 7 are made of rubber, soft plastic or springs with elastic characteristics, and the sizes and the shapes of the upper shock absorber 5 and the lower shock absorber 7 can be adjusted and replaced according to the required elastic change requirement.
Meanwhile, two sides of the upper shock absorber block 5 are respectively provided with an upper fixing plate 51 and an upper movable blocking plate 52, the top end of the upper fixing plate 51 is fixed on one side of the connecting piece 43, the top end of the upper movable blocking plate 52 is hinged on the other side of the connecting piece 43, and the upper shock absorber block 5 is blocked between the upper fixing plate 51 and the upper movable blocking plate 52. The two sides of the lower shock absorber 7 are respectively provided with a lower fixing plate 71 and a lower movable blocking plate 72, the bottom end of the lower fixing plate 71 is fixed on the upper side edge of one side of the heel 41, the bottom end of the lower movable blocking plate 72 is hinged on the upper side edge of the other side of the heel 41, and the lower shock absorber 7 is blocked between the lower fixing plate 71 and the lower movable blocking plate 72. The design of this structure is to take out the upper damper block 5 and the lower damper block 7 by opening the upper movable barrier 52 and the lower movable barrier 72 if the wearer is light or wants to reduce the overall weight of the high-heeled shoe, and to put them on again if necessary.
In the present example, the bottom surface of the high-heeled shoe sole 2 is provided with a forefoot 3 and a sole heel, the forefoot 3 is horizontally arranged below the front part of the bottom surface of the high-heeled shoe sole 2, and the sole heel comprises a heel 41, a rear arc-shaped elastic support piece 42, a connecting piece 43 and a front arc-shaped elastic support piece 44; the connecting piece 43 is fixedly arranged at the rear half part of the bottom surface of the high-heeled shoe sole 2, the upper end of the front arc-shaped elastic supporting piece 44 is fixedly arranged at the front end of the bottom surface of the connecting piece 43, the lower end of the front arc-shaped elastic supporting piece is fixedly connected with the front end of the top surface of the shoe heel 41, the upper end of the rear arc-shaped elastic supporting piece 42 is fixedly arranged at the rear end of the bottom surface of the connecting piece 43, and the lower end of the rear arc-shaped elastic supporting piece is fixedly connected with the rear end of the top surface of the shoe heel 41; the front end of the shoe heel 41 is fixedly connected with the rear end of the shoe heel 3, the shoe heel 41 and the shoe heel 3 are connected on the same plane, the bottom surface of the shoe heel 3 and the bottom surface of the shoe heel 41 are both contacted with the ground 6 when the shoe is worn, prestress is applied in the production and processing process, so that when people wear the shoe, the rear arc-shaped elastic support piece 42 and the front arc-shaped elastic support piece 44 slightly deform along with the compression of the shoe, the cushioning and shock absorption effects are achieved, the shock absorption performance is good, and when the body of a wearer leans backwards, the rear arc-shaped elastic support piece 42 and the front arc-shaped elastic support piece 44 are compressed and bent, so that the height of the shoe is reduced, and the height of the shoe is adjusted, and the total height of the shoe after the wearer wears the shoe is further adjusted. Meanwhile, when the wearer moves violently, the upper damper 5 and the lower damper 7 made of elastic materials can further absorb vibration energy, so that the damping effect is enhanced. In addition, since the bottom surface of the forefoot 3 and the bottom surface of the heel 41 are both in contact with the ground 6, the contact area between the heel of the shoe and the ground 6 is increased, and the ankle of the wearer is effectively protected.
Because the front end of the heel sole 41 and the rear end of the forefoot sole 3 of the high-heeled shoe are elastically connected, the heights of the rear arc-shaped elastic support piece 42 and the front arc-shaped elastic support piece 44 can move downwards after being stressed, so that the front end of the forefoot sole 3 is tilted upwards, namely, the front end of the heel sole can move upwards and downwards, but cannot move leftwards and rightwards, and the stability of the heel is ensured. As further shown in fig. 3, if the wearer wants to look higher and lean forward, the rear arc-shaped elastic support 42 and the front arc-shaped elastic support 44 are less stressed and the height thereof rises, the bottom surface of the forefoot 3 and the bottom surface of the heel 41 are on the same plane and contact with the ground 6, and the stability of the shoe is also ensured. As shown in FIG. 4, if the wearer wants to lean back, the rear arc-shaped elastic support member 42 and the front arc-shaped elastic support member 44 are stressed more, the height thereof is reduced, and the front end of the bottom surface of the forefoot 3 is separated from the ground 6, but the bottom surface of the heel 41 is kept in contact with the ground 6, so that the contact area between the heel of the shoe and the ground is increased, the stability is high, the wearer is comfortable, the ankle of the wearer is effectively protected, the safety of the wearer is ensured, the shock absorption performance is good, the height can be adjusted, the elasticity is better, and the foot sprain is not easily caused.
While there has been described what is at present considered to be the preferred embodiment of the variable modulus resilient high heeled shoe of the present invention, it should be noted that numerous modifications and adaptations can be made by those skilled in the art without departing from the inventive concept herein.