CN212590604U - Automatic bandage shoes - Google Patents

Abstract

The utility model discloses an automatic bandage shoe, which comprises a shoe body, a shoe rope and an electric rope retracting mechanism, wherein the shoe body is provided with a sole and a vamp, the sole is provided with a holding cavity at the arch position, the vamp is provided with a first part and a second part along the direction vertical to the oblique length; the first part is fixedly connected with the sole; the electric rope winding and unwinding mechanism is positioned in the accommodating cavity, is connected with the first end of the shoe rope and is used for winding or unwinding the shoe rope; the second end of the shoe rope penetrates out of the accommodating cavity to be connected with the second part so as to drive the second part to be closed or separated from the first part, and then the problem that a user manually ties up or loosens the shoe rope is solved.

Description

Automatic bandage shoes

Technical Field

The utility model relates to a shoes field, concretely relates to automatic bandage shoes.

Background

The traditional shoes with the shoe ropes need to be crossed and arranged in symmetrical through holes arranged on vamps before being worn, when the shoes are worn, users need to bend down and manually adjust the tightness of the shoe ropes, shoelaces are tied in a cross knotting mode to enable the vamps to tightly wrap feet, when the shoes are taken off, the users need to bend down again and manually untie the shoe ropes one by one, the traditional shoe rope tying mode is labor-consuming and time-consuming, the shoe ropes can be scattered in the walking process, and particularly, a plurality of inconveniences can be brought to some disabled persons, children and old people;

in order to solve the technical problems, shoes capable of being automatically strapped exist in the prior art, but the shoes capable of being automatically strapped in the prior art have various problems in the manufacturing, assembling, maintaining and using processes due to the complicated structure, such as complicated shoe manufacturing process, difficulty in mass production, difficulty in assembling, difficulty in maintaining after the shoes break down and the like;

in view of the above, there remains a need for further improvements in prior art self-lacing shoes.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned defect or the problem that exist among the background art, provide an automatic bandage shoes, solve the manual problem of tying up and tie up or the pine takes off the shoes rope of user.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an automatic bandage shoe (first technical scheme) comprises a shoe body, a shoe rope and an electric rope winding and unwinding mechanism, wherein the shoe body is provided with a sole and a vamp, the sole is provided with an accommodating cavity at the arch part, and the electric rope winding and unwinding mechanism is arranged on the sole; the vamp is provided with a first part and a second part along the direction vertical to the shoe length; the first part is fixedly connected with the sole; the electric rope winding and unwinding mechanism is positioned in the accommodating cavity, is connected with the first end of the shoe rope and is used for winding or unwinding the shoe rope; the second end of the shoe rope penetrates through the accommodating cavity to be connected with the second part so as to drive the second part to be closed or separated from the first part.

Based on the first technical scheme, a second technical scheme is further provided, wherein in the second technical scheme, the first part is provided with a first shoe buckle; a first through hole is arranged in the first shoe buckle; a second shoe buckle and a third shoe buckle are arranged on one side of the second part close to the first part along the length direction of the second part; a second through hole is arranged in the second shoe buckle; the second end of the shoe rope penetrates through the accommodating cavity and then sequentially penetrates through the second through hole and the first through hole, and is fixed on the third shoe buckle.

Based on the second technical scheme, still be equipped with the third technical scheme, in the third technical scheme, be equipped with the third through-hole that is loudspeaker in the third shoe buckle.

Based on the first technical scheme, a fourth technical scheme is further provided, and in the fourth technical scheme, the electric rope retracting mechanism is detachably arranged on the sole; the outer wall of the electric rope winding and unwinding mechanism is provided with a buckle with a downward opening; the buckle is matched with the accommodating cavity.

Based on the fourth technical scheme, a fifth technical scheme is further provided, wherein in the fifth technical scheme, a fourth shoe buckle is arranged on one side, close to the first part, of the second part; a fourth through hole is arranged in the fourth shoe buckle; the second end of the shoe rope penetrates through the accommodating cavity, then penetrates through the fourth through hole and is fixed at the buckle.

Based on the fifth technical scheme, a sixth technical scheme is further provided, wherein in the sixth technical scheme, the sole is provided with a shoe rope guide groove communicated with the accommodating cavity; the partial outer wall of the shoe rope arranged in the shoe rope guide groove is sleeved with a guide pipe.

Based on the second or fifth technical scheme, a seventh technical scheme is further provided, wherein in the seventh technical scheme, the electric rope winding and unwinding mechanism comprises a shell, and a power supply, a motor, a controller and a capacitance sensor which are arranged in the shell; the power supply is used for supplying power to the motor, the controller and the capacitance sensor; the capacitance sensor is arranged on one side of the shell facing the sole and used for sensing the approach of the foot and sending a capacitance change value to the controller when the foot extends into the shoe body; the controller receives the capacitance change value and controls the motor to rotate forwards or backwards when the capacitance change value meets the control condition.

Based on the seventh technical scheme, an eighth technical scheme is further provided, in the eighth technical scheme, the power supply in the seventh technical scheme is a rechargeable battery; one side that the shell is close to ground is equipped with wireless charging coil.

Based on the eighth technical scheme, a ninth technical scheme is further provided, wherein in the ninth technical scheme, the outer surface of the shoe body is provided with a control button; the control button comprises a pressing piece arranged on the outer surface of the shoe body and a pressure sensor arranged on the side part of the shell and corresponding to the pressing piece; the pressing piece is used for acting on the pressure sensor while receiving the operation; the pressure sensor is used for sending a pressure value to the controller when acted by the pressing piece; the controller correspondingly controls the motor to rotate forwards or backwards when receiving the pressure value.

Based on the ninth technical scheme, a tenth technical scheme is further provided, wherein in the tenth technical scheme, the pressing piece is convexly arranged on the outer surface of the shoe body and is made of silica gel; the pressing piece is provided with a guide post extending towards the direction of the pressure sensor; the guide post is abutted to the pressure sensor.

Based on the tenth technical scheme, the device is further provided with an eleventh technical scheme, wherein the device further comprises a manual releasing assembly; the manual release assembly comprises a pull rope and an elastic piece; the electric rope winding and unwinding mechanism further comprises a winding shaft; the winding shaft is arranged in the shell and used for winding the first end of the shoe rope; the output shaft of the motor is in transmission connection with the winding shaft; the motor rotates forwards or backwards to drive the winding shaft to wind or release the shoe rope; one end of the pull rope is positioned on the vamp, and the other end of the pull rope penetrates into the accommodating cavity and the shell and is connected with the winding shaft or the motor or a transmission device between the winding shaft and the motor; one end of the elastic piece is propped against the shell, and the other end of the elastic piece is propped against an object connected with the pull rope.

Based on the eleventh technical scheme, a twelfth technical scheme is further provided, wherein in the twelfth technical scheme, an LED lamp connected with the controller is further arranged on one side, close to the heel, of the shell; the controller controls the LED lamp to light when controlling the motor to rotate forwards or backwards.

Based on the twelfth technical scheme, a thirteenth technical scheme is further provided, and in the thirteenth technical scheme, a bluetooth module is arranged in the controller; the Bluetooth module is communicated to the mobile terminal, and the controller is controlled by the mobile terminal.

As can be seen from the above description of the present invention, compared with the prior art, the present invention has the following advantages:

1. according to the first technical scheme, the first end of the shoe rope is connected with the electric rope winding and unwinding mechanism arranged in the accommodating cavity of the sole, the second end of the shoe rope penetrates out of the accommodating cavity to be connected with the second part of the vamp, and the shoe rope is wound or released through the electric rope winding and unwinding mechanism, so that the problem of manually loosening the shoe rope is solved; the principle for realizing the technical effect is as follows: because the second end of shoes rope is worn out the holding chamber and is connected with the second part after, consequently when electronic receipts rope mechanism of putting convolutes the shoes rope, the second end of shoes rope can drive the second part and close with the first part, when electronic receipts rope mechanism of putting releases the shoes rope, the second end of shoes rope can drive the second part and separate with the first part.

2. The second technical scheme is based on the first technical scheme and provides a structure of the shoe body, so that the first part and the second part of the shoe upper are closed or separated under the driving of the shoe rope; according to the technical scheme, the first shoe buckle with the first through hole is arranged inside the first part, the second shoe buckle and the third shoe buckle are arranged on one side, close to the first part, of the second part along the length direction of the first part, and the second through hole is arranged in the second shoe buckle, so that the second end of the shoe rope penetrates out of the accommodating cavity and then can sequentially penetrate through the second through hole and the first through hole and is connected with the first part and the second part of the vamp in a mode of being fixed on the third shoe buckle.

3. The third technical scheme provides a specific structure of a third shoe buckle on the basis of the second technical scheme, so that the second end of the shoe rope can be fixed on the third shoe buckle; the principle for realizing the technical effect is as follows: because the third shoe buckle is internally provided with the horn-shaped third through hole, the second end of the shoe rope can penetrate through the end with the larger aperture of the third through hole and penetrate out of the end with the smaller aperture, and the second end of the shoe rope can not be separated from the third shoe buckle in a knotting mode at the end with the smaller aperture, so that the effect that the second end of the shoe rope can be fixed on the third shoe buckle is realized.

4. According to the fourth technical scheme, the electric rope winding and unwinding mechanism is detachably arranged on the sole, and a buckle matched with the accommodating cavity is arranged on the outer wall of the electric rope winding and unwinding mechanism, so that the shoe body can be quickly assembled and secondarily disassembled; the principle for realizing the effect is as follows: according to the scheme, the accommodating cavity for the electric rope winding and unwinding mechanism is directly arranged at the arch part of the sole, so that the structure is simple, the shoe making process is simplified, and the productivity is improved; the outer wall of the electric rope winding and unwinding mechanism is provided with the buckle matched with the accommodating cavity, so that after the shoes are molded, the electric rope winding and unwinding mechanism can be rapidly installed in the accommodating cavity through the matching of the buckle and the accommodating cavity, and the electric rope winding and unwinding mechanism is detachably fixed in the accommodating cavity and is not easy to fall out of the accommodating cavity due to the arrangement of the buckle; because the electric rope winding and unwinding mechanism is detachably arranged on the sole, the shoes can be disassembled and assembled for the second time, and the after-sale maintenance is convenient.

5. The fifth technical scheme provides another shoe body structure on the basis of the fourth technical scheme, so that the first part and the second part of the vamp are closed or separated under the driving of the shoe rope; according to the technical scheme, the fourth shoe buckle is arranged on one side, close to the first part, of the second part, and the fourth through hole is formed in the fourth shoe buckle, so that the second end of the shoe rope penetrates out of the accommodating cavity and then penetrates through the fourth through hole, and is fixed at the buckle, and the first part and the second part can be connected.

6. According to the sixth technical scheme, the shoe rope guide groove communicated with the accommodating cavity is formed in the sole, and the guide pipe is sleeved on the partial outer wall of the shoe rope arranged in the shoe rope guide groove, so that the situation that the shoe rope cannot be smoothly stretched due to the fact that the shoe rope is blocked and the like because the friction force between the shoe rope and the vamp is too large or the shoe rope is wound on the sole in the process of winding or releasing the shoe rope by the electric rope winding and unwinding mechanism is avoided; this setting has ensured the smoothness degree of shoes rope when driving second part and first part closure or separation, is favorable to improving user's experience and feels.

7. The seventh technical scheme provides a concrete structure of the electric rope retracting mechanism, a power supply, a motor, a controller and a capacitance sensor are integrated in a shell, the capacitance sensor is arranged on one side, facing the sole, of the shell to sense the approach of the foot, a capacitance change value is sent to the controller when the foot extends into a shoe body, the controller controls the motor to rotate forwards or backwards according to the received capacitance change value, the structure in the shoe body is simplified, and the effect of automatically tightening or loosening the foot is achieved; the principle of achieving this effect is as follows: because the power supply, the motor, the controller and the capacitive sensor are all integrated in the shell, the shell is only required to be integrally arranged in the accommodating cavity during assembly, and the arrangement not only simplifies the shoe making process and is beneficial to mass production, but also simplifies the process of assembling or maintaining the shoes; because what adopt is capacitive sensor, and capacitive sensor sets up and the shell is close to one side of sole, therefore the foot as long as one is close to capacitive sensor's capacitance value will change, the controller can be timely and sensitive more to the control of motor, and then improves user experience and feels, avoids the user at the in-process that uses, and the vamp is wrapped up in tightly automatically or the reaction lag when taking off, and waste time influences the condition that user experience felt.

8. According to the eighth technical scheme, the power supply is set to be the rechargeable battery, and the wireless charging coil is arranged on one side, close to the ground, of the shell, so that when a user needs to charge the rechargeable battery, the user only needs to put the shoe on the wireless charging device, and the wireless charging coil can charge the rechargeable battery after receiving electric energy; in addition, because electronic shoes all can have power consumptive fast problem, consequently should be close to the setting on the surface of ground one side with the setting of wireless charging coil and shell, can make its area of induction bigger, the speed of charging is faster to satisfy the user along with walking along with filling, and the demand of filling soon.

9. Ninth technical scheme is through the mode that sets up control button at shoes body surface for the user can control the degree of tying up and getting loose the shoes through controlling control button.

10. The tenth technical scheme sets up the protruding shoes body surface of locating through setting up the pressing piece to set up the mode of guide pillar between pressure sensor and pressing piece, make the user can be more laborsaving when pressing control button, conveniently control.

11. Eleventh technical scheme is through setting up the mode that sets up manual pine and take off the subassembly for the user when shoes do not have the electricity, the accessible pulling stay cord promptly takes off shoes, in order to avoid the shoes can't take off the condition of shoes when not having the electricity.

12. The twelfth technical scheme is through setting up the LED lamp of being connected with the controller in the shell is close to one side of heel to make the user can light at the in-process LED lamp of manipulating shoes, and its light can pierce through the sole and be seen, should set up the effect that plays pleasing to the eye and suggestion, so that the user knows that the electronic receipts in the shoes put up the rope mechanism and be in operating condition.

13. The thirteenth technical scheme is that the Bluetooth module is arranged in the controller, so that a user can control the shoes through mobile terminals such as a mobile phone, and therefore the user does not need to bend down to press a control button in the process of putting on or taking off the shoes, and the user can directly control the shoes through the mobile phone.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic perspective view of an automatic strap-binding shoe according to a first embodiment of the present invention;

FIG. 2 is a schematic view of a shoe cord of the automatic bandaging shoe according to the first embodiment of the present invention;

fig. 3 is an exploded perspective view of an automatic strap-binding shoe according to a first embodiment of the present invention;

fig. 4 is a schematic view of the front internal structure of the electric rope winding and unwinding mechanism according to the first embodiment of the present invention;

fig. 5 is a schematic structural view of the reverse side of the electric rope retracting mechanism according to the first embodiment of the present invention;

fig. 6 is a schematic perspective view of an automatic strap-binding shoe according to a second embodiment of the present invention;

fig. 7 is a schematic view of the automatic bandaging shoe according to the second embodiment of the present invention;

fig. 8 is an exploded perspective view of a pair of shoes with automatic straps according to a second embodiment of the present invention;

fig. 9 is a schematic perspective view of a sole according to a second embodiment of the present invention.

Description of the main reference numerals:

the shoe comprises a shoe body 1, a sole 11, an accommodating cavity 111, a vamp 12, a first part 121, a first shoe buckle 1211, a second part 122, a second shoe buckle 1221, a third shoe buckle 1222, a fourth shoe buckle 1223, a control button 13, a pressing piece 131, a first pressing piece 1311, a second pressing piece 1312, a pressure sensor 132, a first pressure sensor 1321, a second pressure sensor 1322, a shoe cord 2, an electric cord retracting mechanism 3, a motor 31, a controller 32, a capacitance sensor 33, a winding shaft 34, a wireless charging coil 35, a transmission device 36, a first gear 361, a second gear 362, a third gear 363, a fourth gear 364, a buckle 37, a manual releasing assembly 4, a pull cord 41, an elastic piece 42, a reversing wheel 43, a sponge block 5 and an LED lamp 6.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are preferred embodiments of the invention and should not be considered as excluding other embodiments. Based on the embodiment of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention.

In the claims, the specification and the drawings, unless otherwise expressly limited, the terms "first," "second," or "third," etc. are used for distinguishing between different elements and not for describing a particular sequence.

In the claims, the specification and the drawings, unless otherwise expressly limited, to the extent that directional terms such as "center", "lateral", "longitudinal", "horizontal", "vertical", "top", "bottom", "inner", "outer", "upper", "lower", "front", "rear", "left", "right", "clockwise", "counterclockwise" and the like are used, the positional or orientational relationships illustrated in the drawings are based on the positional and orientational relationships illustrated in the drawings and are merely for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element so referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore should not be construed as limiting the scope of the present invention in any way.

In the claims, the description and the drawings of the present application, unless otherwise expressly limited, the term "fixedly connected" or "fixedly connected" is used, which is to be understood broadly, that is, any connection mode without displacement relation or relative rotation relation between the two, that is, including non-detachably fixed connection, integrated connection and fixed connection through other devices or elements.

In the claims, the specification and the drawings, the terms "including", "comprising" and variations thereof, if used, are intended to be inclusive and not limiting.

Example one

Referring to fig. 1 to 5, a pair of shoes with automatic bandage is disclosed in the first embodiment of the present invention, which comprises a shoe body 1, a shoe rope 2, an electric rope retracting mechanism 3 and a manual releasing assembly 4;

the shoe body 1 comprises a sole 11 and a vamp 12; the sole 11 is provided with an accommodating cavity 111 at the arch position, and a shoe rope 2 guide groove and a pull rope 41 guide groove which are communicated with the accommodating cavity 111; the upper 12 is provided with a first part 121 and a second part 122 along the direction vertical to the length of the shoe, and the first part 121 is fixedly connected with the sole 11; the outer surface of the shoe body 1 is provided with a control button 13 which is electrically connected with the electric rope reeling and unreeling mechanism 3; in this embodiment, the sole 11 is made of TPU;

wherein, the first part 121 is provided with a first buckle 1211, and the first buckle 1211 is provided with a first through hole; a second shoe buckle 1221 and a third shoe buckle 1222 are arranged on one side of the second part 122 close to the first part 121 along the length direction of the second part, a second through hole is arranged in the second shoe buckle 1221, in this embodiment, the first through hole is a through groove with a downward opening, and in other embodiments, the first through hole is also a through hole with a complete peripheral wall;

the first end of the shoe rope 2 is connected with the electric rope retracting mechanism 3, and the second end of the shoe rope penetrates through the accommodating cavity 111 to be connected with the second part 122 so as to drive the second part 122 to be closed or separated from the first part 121; in this embodiment, the second end of the shoe cord 2 penetrates through the accommodating cavity 111, sequentially penetrates through the second through hole and the first through hole, and is fixed to the third buckle 1222; in this embodiment, a third through hole in a horn shape is provided in the third buckle 1222, and the second end of the shoe cord 2 penetrates through the larger end of the third through hole and penetrates out of the smaller end of the third through hole, and is fixed to the third buckle 1222 by knotting; the shoe rope 2 is arranged in the shoe rope 2 guide groove, and the guide pipe is sleeved on the outer wall of the part, arranged in the shoe rope 2 guide groove, of the shoe rope 2, so that the fluency of the shoe rope 2 when the second part 122 and the first part 121 are driven to close or separate is ensured, and the experience of a user is improved;

the electric rope reeling and unreeling mechanism 3 is detachably arranged on the sole 11 and is positioned in the accommodating cavity 111, a buckle 37 with a downward opening is arranged on the outer wall of the electric rope reeling and unreeling mechanism 3, and the buckle 37 is matched with the accommodating cavity 111; in this embodiment, a magic tape is disposed at a position of the sole 11 close to the sole corresponding to the accommodating cavity 111, so that the electric rope retracting mechanism 3 can be detachably mounted on the sole 11, and the arrangement is favorable for secondary after-sale and maintenance of shoes;

in this embodiment, two opposite sides of the outer wall of the electric rope reeling and unreeling mechanism 3 are respectively provided with two buckles 37, and the buckles 37 are matched with the accommodating cavity 111, so that the electric rope reeling and unreeling mechanism 3 can be fixed in the accommodating cavity 111 and is not easy to be separated, and the arrangement is favorable for secondary disassembly and assembly; in this embodiment, a sponge block 5 matched with the accommodating cavity 111 and the outer wall of the electric rope retracting mechanism 3 is further arranged between the electric rope retracting mechanism 3 and the magic tape, so as to avoid the condition that the comfort of the sole of a foot is affected by the electric rope retracting mechanism 3 arranged on the sole 11;

the electric rope reeling and unreeling mechanism 3 comprises a shell, a power supply, a motor 31, a controller 32, a capacitance sensor 33, a winding shaft 34 and a transmission device 36, wherein the power supply, the motor 31, the controller 32, the capacitance sensor 33, the winding shaft 34 and the transmission device 36 are arranged in the shell;

the shell is used for accommodating a power supply, the motor 31, the controller 32, the capacitance sensor 33, the winding shaft 34 and the transmission device 36, one side of the outer surface of the shell, which is close to the heel, is provided with the LED lamp 6 which is electrically connected with the controller 32, and the buckle 37 is arranged at the side part of the shell;

the power supply is used for supplying power to the motor 31, the controller 32 and the capacitance sensor 33; in the embodiment, the power supply is a rechargeable battery, and the wireless charging coil 35 is arranged on one side of the shell close to the ground, so that the induction area of the wireless charging coil 35 is increased, the charging speed is increased, and the charging requirement of a user along with walking is met;

the motor 31 is provided with an output shaft, the motor 31 rotates forwards, the winding shaft 34 winds the shoe rope 2 tightly, the motor 31 rotates backwards, and the winding shaft 34 loosens the shoe rope 2;

the capacitance sensor 33 is arranged on one side of the shell facing the sole of the foot, and is used for sensing the approach of the foot and sending a capacitance change value to the controller 32 when the foot extends into the shoe body 1; the arrangement enables the controller 32 to control the motor 31 more timely and sensitively, so that the vamp 12 can gradually wrap the foot when the foot of the user extends into the shoe and is not completely stepped into the shoe, thereby improving the speed of wearing the shoe by the user, saving time and being beneficial to further improving the experience of the user;

the controller 32 is configured to receive the capacitance change value and control the motor 31 to rotate forward or backward when the capacitance change value satisfies a control condition; in the embodiment, the controller 32 is internally provided with the bluetooth module which is communicated to the mobile terminal, and the controller 32 is controlled by means of the mobile terminal so as to realize automatic binding and loosening of the shoe rope 2, so that the intelligence of the shoe is further improved, and the tightness degree of the shoe can be finely adjusted by the mobile terminal such as a mobile phone when a user is inconvenient to bend down; in the embodiment, the controller 32 controls the LED lamp 6 to light up while controlling the motor 31 to rotate forward or backward, and in other embodiments, the controller 32 may also light up when the shoes are charged or the feet are close to the shoes, so as to achieve the effects of prompting and beautifying;

the winding shaft 34 is used for winding the first end of the shoe rope 2, the output shaft of the motor 31 is in transmission connection with the winding shaft 34, and the winding shaft 34 is driven to wind up or release the shoe rope 2 by the forward rotation or the reverse rotation of the motor 31;

the transmission device 36 includes a first gear 361 fixed to the output shaft of the motor 31, a second gear 362 and a third gear 363 coaxially connected to each other, and a fourth gear 364 coaxially connected to the winding shaft 34, the main function of the transmission device 36 is to reduce the speed, and any device capable of producing a speed reduction effect can be used as the transmission device 36;

the control button 13 comprises a pressing piece 131 arranged on the outer surface of the shoe body 1 and a pressure sensor 132 arranged on the side part of the shell and corresponding to the pressing piece 131; the pressing piece 131 is used for acting on the pressure sensor 132 while receiving manipulation; the pressure sensor 132 is used to send a pressure value to the controller 32 when acted upon by the presser 131; the controller 32 controls the motor 31 to rotate forward or backward correspondingly when receiving the pressure value; in this embodiment, the shoe comprises two pressing pieces 131 and two pressure sensors 132, namely a first pressing piece 1311, a second pressing piece 1312, a first pressure sensor 1321 and a second pressure sensor 1322, wherein the pressing piece 131 is made of a silicone material and is convexly disposed on the outer surface of the shoe body 1, and the pressing piece 131 is provided with a guide pillar extending towards the pressure sensor 132, and the guide pillar abuts against the pressure sensor 132, so that the user can save more effort and is convenient to operate and control when pressing the control button 13;

the manual releasing assembly 4 comprises a pull rope 41, an elastic piece 42 and a reversing wheel 43; one end of the pull rope 41 is positioned on the vamp 12, and the other end penetrates into the accommodating cavity 111 and the shell, and is connected with the motor 31 after being changed by the reversing wheel 43; the elastic member 42 is a spring, and is abutted between the housing and the motor 31; pulling the pull rope 41, withdrawing the motor 31 against the elastic force of the elastic member 42, disengaging the first gear 361 and the second gear 362, and disengaging the output shaft of the motor 31 from the winding shaft 34, so that the shoe rope 2 can be released; the pulling rope 41 is loosened, under the action of the elastic element 42, the first gear 361 and the second gear 362 establish a meshing relationship, and the output shaft of the motor 31 and the winding shaft 34 establish a transmission connection relationship; of course, the pulling rope 41 can be connected to any one of the winding shaft 34 or the transmission device 36, and in this case, the elastic member 42 should be disposed between the housing and the object connected to the pulling rope 41, which is the same as the present embodiment; the manual loosening component 4 is arranged, so that a user can manually pull the pull rope 41 to realize the emergency loosening of the shoe rope 2 when the shoe is not powered;

during specific assembly, the electric rope winding and unwinding mechanism 3 is integrally installed in the accommodating cavity 111 and is matched with the inner wall of the accommodating cavity 111 through the buckle 37, so that the electric rope winding and unwinding mechanism 3 is fixed in the accommodating cavity 111;

the conduit is sleeved on the outer walls of the shoe ropes 2 and the pull ropes 41; fixing the first end of the shoe rope 2 to the winding shaft 34, making the second end of the shoe rope 2 penetrate out of the first part 121 along the guide groove of the shoe rope 2, penetrate out of the accommodating cavity 111, sequentially penetrate through the second through hole and the first through hole, and fix the second end of the shoe rope 2 to the third shoe buckle 1222 in a mode of knotting at the end with a smaller opening of the third through hole after penetrating through the third through hole;

in practical use, when a user stretches a foot into a shoe, the capacitance value of the capacitance sensor 33 changes along with the approach of the foot, the controller 32 controls the motor 31 to rotate forward according to the capacitance change value, the shoe rope 2 is wound up, the second end of the shoe rope 2 drives the second part 122 to close with the first part 121, and the shoe upper 12 tightly wraps the foot;

if a user needs to adjust the fitting degree of the upper 12, the user can finely adjust the upper by pressing the control button 13, when the user presses the first pressing piece 1311, the first pressing piece 1311 abuts against the first pressure sensor 1321, the first pressure sensor 1321 sends a pressure value to the controller 32 when being acted by the first pressing piece 1311, and the controller 32 correspondingly controls the motor 31 to rotate forwards when receiving the pressure value, so that the foot is bound more tightly;

similarly, when the user presses the second pressing piece 1312, the controller 32 controls the motor 31 to rotate reversely so that the foot is more loosely bound; in addition, the user can also communicate with the mobile terminal through the Bluetooth module, and the controller 32 is controlled to work by the mobile terminal, so that the action of bending down and pressing the control button 13 is omitted;

when the user needs to take off the shoes, the motor 31 can be controlled to rotate reversely by pressing the second pressing piece 131 for a long time or by connecting the mobile terminal with the Bluetooth module;

when the shoe is not powered and the user is not in time to charge, the user can pull the pull rope 41 to disengage the first gear 361 and the second gear 362, so that the shoe can be taken off, and after the pull rope 41 is loosened, the first gear 361 and the second gear 362 are restored to be engaged under the action of the restoring force of the spring; wherein, in the process of positive rotation or reverse rotation of the motor 31, the LED lamp 6 can be lighted up, and because the sole 11 is made of TPU material, the light in the sole 11 can be transmitted to the sole 11;

example two

Referring to fig. 6 to 9, the automatic strap binding shoe of the second embodiment comprises a shoe body 1, a shoe rope 2, an electric rope winding and unwinding mechanism 3 and a manual loosening assembly 4; the shoe body 1 comprises a sole 11 and a vamp 12, wherein the sole 11 is provided with an accommodating cavity 111 at the arch part, the vamp 12 is provided with a first part 121 and a second part 122 along the direction vertical to the length of the shoe, and the first part 121 is fixedly connected with the sole 11; the electric rope reeling and unreeling mechanism 3 is positioned in the accommodating cavity 111, is connected with the first end of the shoe rope 2 and is used for reeling or unreeling the shoe rope 2; the second end of the shoe rope 2 penetrates through the accommodating cavity 111 to be connected with the second part 122 so as to drive the second part 122 to close or separate from the first part 121;

the difference between the second embodiment and the first embodiment in the specific structure is that: in the second embodiment, the first buckle 1211 is not disposed on the first portion 121 of the upper 12, the second buckle 1221 and the third buckle 1222 are not disposed on the second portion 122 of the upper 12, but a fourth buckle 1223 is disposed on a side of the second portion 122 close to the first portion 121, and a fourth through hole is disposed in the fourth buckle 1223; the second end of the shoe rope 2 penetrates through the accommodating cavity 111 and then penetrates through the fourth through hole, and is fixed at the buckle 37; in this embodiment, the second end of the shoe cord 2 is fixed to the buckle 37 by knotting and hooking the buckle 37; the structure of the rest of the second embodiment is the same as that of the first embodiment, and is not described herein again;

wherein, the second embodiment has the same use mode as the first embodiment;

to sum up, the utility model provides an automatic bandage shoes has solved the user effectively and has needed manual tying up to tie up or loose the problem that takes off shoes rope 2.

The description of the above specification and examples is intended to illustrate the scope of the invention, but should not be construed as limiting the scope of the invention. Modifications, equivalents and other improvements which may be made to the embodiments of the invention or to some of the technical features thereof by a person of ordinary skill in the art through logical analysis, reasoning or limited experimentation in light of the above teachings of the invention or the above embodiments are intended to be included within the scope of the invention.

Claims (13)

1. The utility model provides an automatic bandage shoes, includes the shoes body, and it is equipped with sole and vamp, the sole is equipped with holding chamber, its characterized in that in arch of foot position: the shoe-shaped shoe also comprises a shoe rope and an electric rope retracting mechanism; the vamp is provided with a first part and a second part along the direction vertical to the shoe length; the first part is fixedly connected with the sole; the electric rope winding and unwinding mechanism is positioned in the accommodating cavity, is connected with the first end of the shoe rope and is used for winding or unwinding the shoe rope; the second end of the shoe rope penetrates through the accommodating cavity to be connected with the second part so as to drive the second part to be closed or separated from the first part.

2. The automatic strap shoe of claim 1, wherein: the first part is provided with a first shoe buckle; a first through hole is formed in the first shoe buckle; a second shoe buckle and a third shoe buckle are arranged on one side of the second part close to the first part along the length direction of the second part; a second through hole is formed in the second shoe buckle; the second end of the shoe rope penetrates through the accommodating cavity and then sequentially penetrates through the second through hole and the first through hole, and is fixed on the third shoe buckle.

3. The automatic strap shoe of claim 2, wherein: and a third through hole which is a horn is arranged in the third shoe buckle.

4. The automatic strap shoe of claim 1, wherein: the electric rope retracting mechanism is detachably arranged on the sole; the outer wall of the electric rope winding and unwinding mechanism is provided with a buckle with a downward opening; the buckle is matched with the accommodating cavity.

5. The automatic strap shoe of claim 4, wherein: a fourth shoe buckle is arranged on one side of the second part close to the first part; a fourth through hole is formed in the fourth shoe buckle; and the second end of the shoe rope penetrates through the accommodating cavity, then penetrates through the fourth through hole and is fixed at the buckle.

6. The automatic strap shoe of claim 5, wherein: the sole is provided with a shoe rope guide groove communicated with the accommodating cavity; the partial outer wall of the shoe rope arranged in the shoe rope guide groove is sleeved with a guide pipe.

7. An automatic strap-binding shoe as claimed in claim 2 or 5, wherein: the electric rope winding and unwinding mechanism comprises a shell, and a power supply, a motor, a controller and a capacitance sensor which are arranged in the shell; the power supply is used for supplying power to the motor, the controller and the capacitance sensor; the capacitance sensor is arranged on one side of the shell facing the sole and used for sensing the approach of the foot and sending a capacitance change value to the controller when the foot extends into the shoe body; and the controller receives the capacitance change value and controls the motor to rotate forwards or backwards when the capacitance change value meets the control condition.

8. The automatic strap shoe of claim 7, wherein: the power supply is a rechargeable battery; one side that the shell is close to ground is equipped with wireless charging coil.

9. The automatic strap shoe of claim 8, wherein: the outer surface of the shoe body is provided with a control button; the control button comprises a pressing piece arranged on the outer surface of the shoe body and a pressure sensor arranged on the side part of the shell and corresponding to the pressing piece; the pressing piece is used for acting on the pressure sensor while receiving manipulation; the pressure sensor is used for sending a pressure value to the controller when the pressure sensor is acted by the pressing piece; and the controller correspondingly controls the motor to rotate forwards or backwards when receiving the pressure value.

10. The automatic strap shoe of claim 9, wherein: the pressing piece is convexly arranged on the outer surface of the shoe body and is made of silica gel; the pressing piece is provided with a guide post extending towards the direction of the pressure sensor; the guide post is abutted to the pressure sensor.

11. The automatic strap shoe of claim 10 wherein: the manual release assembly is further included; the manual release assembly comprises a pull rope and an elastic piece; the electric rope winding and unwinding mechanism further comprises a winding shaft; the winding shaft is arranged in the shell and used for winding the first end of the shoe rope; the output shaft of the motor is in transmission connection with the winding shaft; the motor rotates forwards or backwards to drive the winding shaft to wind or release the shoe rope; one end of the pull rope is positioned on the vamp, and the other end of the pull rope penetrates through the accommodating cavity and the shell and is connected with the winding shaft or the motor or a transmission device between the winding shaft and the motor; one end of the elastic piece props against the shell, and the other end of the elastic piece props against an object connected with the pull rope.

12. The automatic strap shoe of claim 11 wherein: an LED lamp connected with the controller is further arranged on one side, close to the heel, of the shell; the controller controls the LED lamp to light when controlling the motor to rotate forwards or reversely.

13. The automatic strap shoe of claim 12 wherein: a Bluetooth module is arranged in the controller; the Bluetooth module is communicated to the mobile terminal, and the controller is controlled by the mobile terminal.

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