CN115251527A - Diabetic foot shoes based on sole pressure distribution - Google Patents

Abstract

The invention belongs to the field of diabetic feet, and particularly relates to a pair of diabetic foot shoes based on sole pressure distribution, which comprises shoe bodies and shoe soles; the bottom end of the shoe body is provided with a sole, and a dispersion buffer mechanism is arranged between the shoe body and the sole; the dispersing buffer mechanism comprises a connecting layer, a sleeve groove, a buffer air cushion, a main air cushion, a fixing groove, a connecting pipeline and an auxiliary buffer assembly, the connecting layer is arranged between the bottom end of a shoe body and the top end of a shoe sole, the sleeve groove is arranged at the two ends of the connecting layer, the buffer air cushion is arranged in the sleeve groove, the main air cushion is arranged in the fixing groove in a sleeved mode, the fixing groove is arranged at the position, close to the center, of the connecting layer, the connecting pipeline is arranged between the buffer air cushion and the main air cushion, the auxiliary buffer assembly is arranged on the front side and the rear side of the main air cushion, the pressure applied to the foot sole is uniformly dispersed through the dispersing buffer mechanism, and the function that the foot sole is locally applied to overlarge pressure is prevented.

Description

Diabetic foot shoes based on sole pressure distribution

Technical Field

The invention relates to the field of diabetic feet, in particular to diabetic foot shoes based on sole pressure distribution.

Background

Diabetic foot is a foot infection, ulcer and deep tissue destruction caused by lower limb distal nerve abnormality and different degrees of vasculopathy in diabetic patients, and diabetic foot shoes are usually used for protecting the diabetic foot patients.

Sufficient shoes of diabetes play the effect of protecting diabetes patient's foot through adopting soft material to wrap up patient's foot completely, cushion the impact that receives through adopting comparatively soft material, and the impact that the sufficient patient foot of diabetes received is reduced to sugar, and then plays the probability that reduces the sufficient patient foot of diabetes infection, ulcer and deep tissue destruction.

Most of the existing diabetic foot shoes do not have the function of balancing and dispersing the pressure of the soles, and when the impact on a certain part of the soles is large, the situation that the pressure on the local part of the soles of a patient is overlarge can be caused; therefore, the diabetic foot shoes based on the sole pressure distribution are provided for solving the problems.

Disclosure of Invention

In order to make up for the defects of the prior art, most of the existing diabetic foot shoes do not have the function of balancing and dispersing the sole pressure, and the problem that when the impact on a certain part of the sole is large, the situation that the pressure on the local part of the sole of a patient is overlarge can be caused.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a pair of diabetic foot shoes based on plantar pressure distribution, which comprises a shoe body and a shoe sole; the bottom end of the shoe body is provided with a sole, and a dispersion buffer mechanism is arranged between the shoe body and the sole;

the dispersing and buffering mechanism comprises a connecting layer, a sleeve groove, a buffering air cushion, a main air cushion, fixing grooves, connecting pipelines and auxiliary buffering assemblies, the connecting layer is arranged between the bottom end of a shoe body and the top end of a shoe sole, the sleeve groove is formed in the two ends of the connecting layer, the buffering air cushion is arranged in the sleeve groove in a sleeved mode, the main air cushion is arranged in the fixing grooves in a sleeved mode, the fixing grooves are arranged in the position, close to the center, of the connecting layer in an arranged mode, the connecting pipelines are arranged between the buffering air cushion and the main air cushion, and the auxiliary buffering assemblies are arranged on the front side and the rear side of the main air cushion.

Preferably, the buffer air cushions are provided with a front group and a rear group, and the front group and the rear group are provided with eight buffer air cushions.

Preferably, the buffer air cushion is made of rubber, and the two ends of the buffer air cushion are designed in an arc shape.

Preferably, a connecting pipeline is arranged between each two buffer air cushions and communicated with the buffer air cushions, and the main air cushion is also communicated with the buffer air cushions through the connecting pipelines.

Preferably, both ends of the main air cushion are designed in an arc shape, and the interiors of the main air cushion and the buffer air cushion are filled with air.

Preferably, supplementary buffering subassembly includes extrusion groove, extrusion piece, cushion chamber, friction pad, baffle, shifting chute and buffer spring, both sides around main air cushion are seted up to the extrusion groove, the one end and the extrusion groove butt of extrusion piece, and the other pot head of extrusion piece establishes the inside in cushion chamber, both sides around the fixed slot is seted up to the cushion chamber is inside, the friction pad is glued in the extrusion piece and is close to the bottom of cushion chamber one side, and the friction pad is kept away from the one end of extrusion piece and the inner wall laminating of cushion chamber, baffle fixed connection is on the top of cushion chamber inner wall, and baffle sliding connection is in the inside of shifting chute, the top at the extrusion piece is seted up to the shifting chute, buffer spring sets up the inside at the shifting chute.

Preferably, one side of the buffer spring close to the baffle is fixedly connected with the baffle, and one side of the buffer spring far from the baffle is fixedly connected with the inner wall of the movable groove.

Preferably, the cushion pad is glued on one side of the extrusion block away from the extrusion groove, and the cushion pad and the friction pad are both made of rubber materials.

The invention has the advantages that:

1. the invention realizes the function of uniformly dispersing the pressure on the soles and preventing the excessive pressure on the local parts of the soles through the structural design of the dispersing and buffering mechanism, and can extrude the air in one buffering air cushion when the pressure on the buffering air cushion is excessive through the combination of the buffering air cushions, the main air cushion and the connecting pipelines, so that the air can move to the interiors of other buffering air cushions and the main air cushion through the connecting pipelines, thereby achieving the effect of dispersing the pressure, and solving the problems that most of the existing diabetic foot shoes do not have the function of balancing and dispersing the pressure on the soles, and the situation that the pressure on the local parts of the soles of the feet of a patient is possibly excessive when the impact on a certain part of the soles is large.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic perspective view of a first embodiment;

FIG. 2 is a schematic diagram of an exploded structure according to the first embodiment;

FIG. 3 is an enlarged schematic view of a portion A of FIG. 2 according to the first embodiment;

FIG. 4 is a schematic top view of a cross-sectional structure according to an embodiment;

fig. 5 is an enlarged structural diagram of a portion B in fig. 4 according to the first embodiment.

In the figure: 1. a shoe body; 2. a sole; 31. a connection layer; 32. sleeving a groove; 33. a buffer air cushion; 34. a main air cushion; 35. fixing grooves; 36. connecting a pipeline; 37. extruding a groove; 38. extruding the block; 39. a buffer chamber; 41. a cushion pad; 42. a friction pad; 43. a baffle plate; 44. a moving groove; 45. a buffer spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1-5, a diabetic foot shoe based on plantar pressure distribution comprises a shoe body 1 and a shoe sole 2; the bottom end of the shoe body 1 is provided with a sole 2, and a dispersing and buffering mechanism is arranged between the shoe body 1 and the sole 2;

the dispersing and buffering mechanism comprises a connecting layer 31, a sleeve groove 32, a buffering air cushion 33, a main air cushion 34, fixing grooves 35, connecting pipelines 36 and auxiliary buffering assemblies, wherein the connecting layer 31 is arranged between the bottom end of the shoe body 1 and the top end of the shoe sole 2, the sleeve grooves 32 are formed in two ends of the connecting layer 31, the buffering air cushion 33 is sleeved in the sleeve groove 32, the main air cushion 34 is sleeved in the fixing grooves 35, the fixing grooves 35 are formed in the connecting layer 31 at positions close to the center, the connecting pipelines 36 are arranged between the buffering air cushion 33 and the main air cushion 34, and the auxiliary buffering assemblies are arranged on the front side and the rear side of the main air cushion 34;

the during operation, current diabetes foot shoes do not mostly have the function of balancing and dispersing sole pressure, the too big circumstances of pressure that probably leads to the patient to produce the sole part and receive when the impact that a certain position of sole received is great, buffer air cushion 33 produces elastic deformation and extrudees its inside air of filling when the pressure that receives arbitrary buffer air cushion 33 is too big, make the inside air that receives the great buffer air cushion 33 of extrusion force remove to the inside of other buffer air cushions 33 and main air cushion 34 through connecting line 36, thereby play and disperse the effect of the pressure that the buffering sole received to pressure, reduce the pressure that sole single position received, the pressure that single position received disperses and shifts to whole sole, play the effect of better protecting patient's foot and supporting the patient.

Furthermore, the two front and rear groups of buffer air cushions 33 are provided, and eight buffer air cushions 33 are provided in the two front and rear groups;

when the sole buffer cushion works, two groups of sixteen buffer cushions 33 are arranged to achieve better effects of buffering and restraining the impact on the soles.

Further, the buffer air cushions 33 are made of rubber, and both ends of the buffer air cushions 33 are designed in an arc shape;

during operation, buffer air cushion 33 plays and makes buffer air cushion 33 can produce elastic deformation and cushion pressure when receiving the extrusion through adopting the rubber material, can carry out the extruded effect to the air that inside was filled simultaneously.

Furthermore, a connecting pipeline 36 is arranged between each buffer air cushion 33, the connecting pipeline 36 is communicated with the buffer air cushion 33, and the main air cushion 34 is also communicated with the buffer air cushion 33 through the connecting pipeline 36;

when the air cushion is in work, the front and rear groups of the plurality of buffer air cushions 33 and the main air cushion 34 are connected in series through the connecting pipelines 36, when any one of the buffer air cushions is subjected to higher pressure, the air inside the buffer air cushion can be extruded out and filled into other buffer air cushions 33 and the main air cushion 34, and the effects of uniformly dispersing and buffering the pressure are achieved.

Furthermore, both ends of the main air cushion 34 are designed in an arc shape, and the insides of the main air cushion 34 and the cushion air cushion 33 are filled with air;

during operation, the effect of making main air cushion 34 and buffer air cushion 33 change and produce elastic deformation when receiving the extrusion through adopting both ends to be main air cushion 34 and buffer air cushion 33 of arc design, extrudees its inside air, makes the air flow in to other not receive pressure or receive the less inside of buffer air cushion 33 of pressure, disperses the pressure that receives to whole sole uniformly.

Further, the auxiliary buffer assembly comprises a pressing groove 37, a pressing block 38, a buffer cavity 39, a friction pad 42, a baffle plate 43, a moving groove 44 and a buffer spring 45, wherein the pressing groove 37 is formed in the front side and the rear side of the main air cushion 34, one end of the pressing block 38 abuts against the pressing groove 37, the other end of the pressing block 38 is sleeved in the buffer cavity 39, the buffer cavity 39 is formed in the front side and the rear side of the fixed groove 35, the friction pad 42 is glued to the bottom end of the side, close to the buffer cavity 39, of the pressing block 38, one end, far away from the pressing block 38, of the friction pad 42 is glued to the inner wall of the buffer cavity 39, the baffle plate 43 is fixedly connected to the top end of the inner wall of the buffer cavity 39, the baffle plate 43 is connected to the inside of the moving groove 44 in a sliding manner, the moving groove 44 is formed in the top end of the pressing block 38, and the buffer spring 45 is arranged inside the moving groove 44;

when the air cushion device works, when a plurality of buffer air cushions 33 or a plurality of buffer air cushions 33 and a main air cushion 34 are simultaneously subjected to large pressure, a large amount of air flows into the main air cushion 34, so that the main air cushion 34 and the extrusion grooves 37 arranged on the front side and the rear side of the main air cushion 34 are elastically deformed to protrude outwards, the extrusion block 38 is pushed to move towards the inside of the buffer cavity 39, the baffle plates 43 fixedly connected to the inner wall of the buffer cavity 39 slide in the moving grooves 44, the buffer springs 45 arranged in the moving grooves 44 are elastically deformed by extrusion, meanwhile, when the extrusion block 38 moves towards the inside of the buffer cavity 39, friction is generated between the friction pad 42 adhered to the bottom end of the extrusion block 38 and the inner wall of the buffer cavity 39, the extrusion force generated by the extrusion blocks 38 is dispersed and buffered by the inner wall of the extrusion grooves 37 through the friction force between the friction pad 42 and the inner wall of the buffer cavity 39, the reduction oscillation of the buffer springs 45 is suppressed, the accumulation of the friction pad 35 is consumed, the extrusion force generated by the inner wall of the extrusion grooves 37 and the extrusion grooves 38 is prevented from being repeatedly collided, and the extrusion force generated by the extrusion grooves 34, and the impact of the extrusion blocks.

Further, one side of the buffer spring 45 close to the baffle 43 is fixedly connected with the baffle 43, and one side of the buffer spring 45 far from the baffle 43 is fixedly connected with the inner wall of the moving groove 44;

during operation, the effect of accumulating the pressing force of the pressing block 38 by the inner wall of the pressing groove 37 due to the action of the cushion spring 45 is to consume the force accumulated by the cushion spring 45 due to the damping by the friction between the friction pad 42 and the inner wall of the cushion chamber 39.

Furthermore, the buffer pad 41 is glued on the side of the extrusion block 38 away from the extrusion groove 37, and both the buffer pad 41 and the friction pad 42 are made of rubber;

in operation, the cushion pad 41 made of rubber prevents the side of the extrusion block 38 away from the extrusion groove 37 from being damaged due to collision with the inner wall of the cushion chamber 39.

The working principle is as follows: the existing diabetic foot shoes do not have the function of balancing and dispersing the pressure of the sole, when the impact on a certain part of the sole is large, the patient can be caused to generate the condition that the pressure on the part of the sole is too large, when the pressure on any one buffer air cushion 33 is too large, the buffer air cushion 33 generates elastic deformation to extrude the air filled in the buffer air cushion 33, the air in the buffer air cushion 33 with the large extrusion force is enabled to move to the inside of other buffer air cushions 33 and the main air cushion 34 through the connecting pipeline 36, the effect of dispersing and buffering the pressure on the sole by the pressure is achieved, the pressure on the sole at a single part is reduced, the pressure on the sole at a single part is dispersed and transferred to the whole sole, and the effect of better protecting and supporting the foot of the patient is achieved.

When a large pressure is applied to the plurality of cushion cushions 33 or both the plurality of cushion cushions 33 and the main cushion 34, a large amount of air flows into the main cushion 34, the main cushion 34 and the plurality of accommodating members are elastically deformed to protrude outward from the pressing grooves 37 formed on the front and rear sides of the main cushion 34, the pressing blocks 38 are pushed to move into the cushion chamber 39, the stoppers 43 fixedly attached to the inner wall of the cushion chamber 39 slide in the moving grooves 44, the cushion springs 45 disposed in the moving grooves 44 are elastically deformed by being pressed, and when the pressing blocks 38 move into the cushion chamber 39, the friction pads 42 adhered to the bottom ends of the pressing blocks 38 and the inner wall of the cushion chamber 39 rub against each other, the pressing force generated by the pressing blocks 38 is dispersed and buffered by the inner wall of the pressing grooves 37 by the friction force between the friction pads 42 and the inner wall of the cushion chamber 39, and the reduction vibration of the fixing grooves 45 is suppressed by the friction force between the friction pads 42 and the inner wall of the cushion chamber 39, the accumulated pressing force of the pressing blocks 37 and the inner wall of the cushion chamber 39 are consumed, and the pressing force generated by the repeated collision between the pressing blocks 38 and the inner wall of the pressing grooves 34 is prevented from being generated by the collision, and the collision and the main cushion pads 34.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, and such changes and modifications are within the scope of the invention as claimed.

Claims (8)

1. The utility model provides a diabetes foot shoes based on sole pressure distributes which characterized in that: comprises a shoe body (1) and a sole (2); a sole (2) is arranged at the bottom end of the shoe body (1), and a dispersing and buffering mechanism is arranged between the shoe body (1) and the sole (2);

the dispersing and buffering mechanism comprises a connecting layer (31), a sleeve groove (32), a buffering air cushion (33), a main air cushion (34), a fixing groove (35), a connecting pipeline (36) and an auxiliary buffering assembly, wherein the connecting layer (31) is arranged between the bottom end of a shoe body (1) and the top end of a sole (2), the sleeve groove (32) is formed in two ends of the connecting layer (31), the buffering air cushion (33) is arranged in the sleeve groove (32) in a sleeved mode, the main air cushion (34) is arranged in the fixing groove (35) in a sleeved mode, the fixing groove (35) is arranged at a position, close to the center, of the connecting layer (31), the connecting pipeline (36) is arranged between the buffering air cushion (33) and the main air cushion (34), and the auxiliary buffering assembly is arranged on the front side and the rear side of the main air cushion (34).

2. The diabetic foot shoe based on plantar pressure distribution of claim 1, wherein: the buffer air cushions (33) are provided with a front group and a rear group, and the front group and the rear group of the buffer air cushions (33) are provided with eight.

3. The diabetic foot shoe based on plantar pressure distribution of claim 2, wherein: the buffer air cushion (33) is made of rubber, and two ends of the buffer air cushion (33) are designed in an arc shape.

4. The diabetic foot shoe based on plantar pressure distribution of claim 3, wherein: connecting pipelines (36) are arranged between the buffer air cushions (33), the connecting pipelines (36) are communicated with the buffer air cushions (33), and the main air cushion (34) is also communicated with the buffer air cushions (33) through the connecting pipelines (36).

5. The diabetic foot shoe based on plantar pressure distribution of claim 4, wherein: the two ends of the main air cushion (34) are both arc-shaped, and the insides of the main air cushion (34) and the buffer air cushion (33) are filled with air.

6. The diabetic foot shoe based on plantar pressure distribution of claim 5, wherein: the auxiliary buffer assembly comprises a squeezing groove (37), a squeezing block (38), a buffer cavity (39), a friction pad (42), a baffle plate (43), a moving groove (44) and a buffer spring (45), wherein the squeezing groove (37) is formed in the front side and the rear side of the main air cushion (34), one end of the squeezing block (38) is abutted to the squeezing groove (37), the other end of the squeezing block (38) is sleeved in the buffer cavity (39), the buffer cavity (39) is formed in the front side and the rear side of the inside of the fixing groove (35), the friction pad (42) is glued to the bottom end, close to one side of the buffer cavity (39), of the squeezing block (38) is far away from the friction pad (42), the inner wall of the buffer cavity (39) is attached to one end of the squeezing block (38), the baffle plate (43) is fixedly connected to the top end of the inner wall of the buffer cavity (39), the baffle plate (43) is connected to the inside of the moving groove (44) in a sliding mode, the top end of the squeezing block (38) is formed in the moving groove (44), and the buffer spring (45) is arranged in the inside of the moving groove (44).

7. The diabetic foot shoe based on plantar pressure distribution of claim 6, wherein: one side of the buffer spring (45) close to the baffle (43) is fixedly connected with the baffle (43), and one side of the buffer spring (45) far away from the baffle (43) is fixedly connected on the inner wall of the movable groove (44).

8. The diabetic foot shoe based on plantar pressure distribution of claim 7, wherein: the buffer pad (41) is glued on one side of the extrusion block (38) far away from the extrusion groove (37), and the buffer pad (41) and the friction pad (42) are both made of rubber materials.

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