阅读说明：本技术 一种远程选鞋系统 (Remote shoe selecting system ) 是由 鲍广喜 刘涛 生芳 杨彩凤 韦梦龙 孙马杰 孙玉雯 于 2019-09-25 设计创作，主要内容包括：本发明揭示了一种远程选鞋系统,包括模拟鞋单元和模型脚单元,模拟鞋单元和模型脚单元通过多个感应间距位置的测机构,获取脚和鞋子的尺寸,本发明的优点在于方便远程挑选鞋子的系统,能够对鞋子和脚进行多参数测量,从而方便、准确判断鞋子是否合脚,提高远程购买鞋子的成功率。(The invention discloses a remote shoe selecting system which comprises a shoe simulating unit and a model foot unit, wherein the shoe simulating unit and the model foot unit acquire the sizes of feet and shoes through a plurality of measuring mechanisms for sensing the positions of intervals.)

1. A remote shoe selection system is characterized in that: comprises a simulation shoe unit and a model foot unit;

The shoe simulation unit comprises: the foot-placing device is provided with a bottom plate for placing feet, a heel baffle is arranged at the rear end of the bottom plate, supporting beams are arranged on two sides and the front end of the base, an eighth distance measuring mechanism and a ninth distance measuring mechanism which extend to the direction of the heel baffle for distance measurement are arranged on the supporting beam at the front part side by side, a tenth distance measuring mechanism and an eleventh distance measuring mechanism which extend to the opposite direction for distance measurement are arranged on the supporting beam at the two sides, and a twelfth distance measuring mechanism and a thirteenth distance measuring mechanism which extend to the opposite direction for distance measurement are arranged at the upper rear parts of;

The shoe simulation unit comprises: the shoe heel measuring device comprises a supporting beam with a long strip shape, wherein the rear end of the supporting beam is provided with a heel supporting plate for supporting the heel of a shoe to be measured, the front end of the supporting beam is provided with a first distance measuring mechanism and a second distance measuring mechanism which extend forwards for distance measurement side by side, the front part of the supporting beam is provided with a third distance measuring mechanism and a fourth distance measuring mechanism which extend for distance measurement to two sides, and the rear part of the supporting beam is provided with a fifth distance measuring mechanism and a sixth distance measuring mechanism which extend for distance measurement to two sides.

2. The remote shoe selection system of claim 1, wherein: the lower surface of the supporting beam is a plane, and the bottom plate is a flat plate.

3. The remote shoe selection system of claim 2, wherein: and a seventh distance measuring mechanism which extends upwards for measuring distance is arranged between the front part and the rear part of the shoe simulating unit.

4. The remote shoe selection system of claim 3, wherein: the bottom plate is provided with a supporting beam extending to the position above the center of the bottom plate, and a fourteenth distance measuring mechanism extending downwards for distance measurement is fixed on the supporting beam.

5. The remote shoe selection system according to claim 4, wherein: the shoe simulation device is characterized in that the shoe simulation unit is provided with a battery jar, a controller and a display, batteries for supplying power to all distance measuring mechanisms of the shoe simulation unit are fixed in the battery jar, all the distance measuring mechanisms of the shoe simulation unit are connected with the controller of the shoe simulation unit through signal lines, and the controller of the shoe simulation unit is connected with the display of the shoe simulation unit through the signal lines.

6. The remote shoe selection system of claim 5, wherein: the model foot is provided with a battery jar, a controller and a display, a battery for supplying power to all distance measuring mechanisms of the model foot unit is fixed in the battery jar, all the distance measuring mechanisms of the model foot unit are connected with the controller of the model foot unit through signal lines, and the controller of the model foot unit is connected with the display of the model foot unit through the signal lines.

7. The remote shoe selection system according to claim 4, 5 or 6, wherein: the structure of first range finding mechanism to fourteenth range finding mechanism is the same, including fixing the guide pin bushing of both ends open-ended on a supporting beam, be equipped with in the guide pin bushing along the gliding nut of guide pin bushing, step motor passes through on the support fixed support beam, the rigid coupling has the lead screw on step motor's the output shaft, the lead screw has guide pin bushing one end to stretch into with the nut cooperation, the rigid coupling has the extension rod on the nut, the extension rod is stretched out by the guide pin bushing other end, the tip rigid coupling of extension rod has pressure sensor, the last rigid coupling of pressure sensor has the template, pressure sensor passes through signal line connection director, step motor is connected to the controller passing signal line.

8. The remote shoe selection system of claim 7, wherein: the pressure sensor is connected with the shaping plate through a rubber pad.

9. The remote shoe selection system of claim 8, wherein: the device comprises a lead screw, a guide sleeve, a lead screw, a contactor, a signal wire and a controller, wherein the guide sleeve is provided with a contactor for sensing the position of the nut towards one end of the stepping motor, a sensing head of the contactor is positioned in a gap between the guide sleeve and the lead screw, and the contactor is connected with the controller through the signal wire.

Technical Field

the invention relates to a shoe size and foot size matched measurement technology.

Background

with the continuous development of network technology and computer technology, people can carry out online shopping through computer networks, but the defects of online shopping are that the online shopping can not be tried out like in a physical store, especially the size, the weight and the like of shoes can not be determined only by the calibrated size, because some shoes with the same size of a merchant are larger or smaller than the standard size, and are fat or thin, the shoes cannot be purchased properly, and the goods have to be returned, so that the energy and the money are wasted.

disclosure of Invention

The invention aims to solve the technical problem of realizing a system capable of simultaneously measuring multi-dimensional parameters of shoes and feet and providing a system capable of remotely selecting shoes with success rate and accuracy.

In order to achieve the purpose, the invention adopts the technical scheme that: a remote shoe selection system comprises a simulated shoe unit and a model foot unit;

The shoe simulation unit comprises: the foot-placing device is provided with a bottom plate for placing feet, a heel baffle is arranged at the rear end of the bottom plate, supporting beams are arranged on two sides and the front end of the base, an eighth distance measuring mechanism and a ninth distance measuring mechanism which extend to the direction of the heel baffle for distance measurement are arranged on the supporting beam at the front part side by side, a tenth distance measuring mechanism and an eleventh distance measuring mechanism which extend to the opposite direction for distance measurement are arranged on the supporting beam at the two sides, and a twelfth distance measuring mechanism and a thirteenth distance measuring mechanism which extend to the opposite direction for distance measurement are arranged at the upper rear parts of;

The shoe simulation unit comprises: the device comprises a long strip-shaped supporting beam, wherein the rear end of the supporting beam is provided with a heel supporting plate for supporting the heel of a shoe to be measured, the front end of the supporting beam is provided with a first distance measuring mechanism and a second distance measuring mechanism which extend forwards for distance measurement side by side, the front part of the supporting beam is provided with a third distance measuring mechanism and a fourth distance measuring mechanism which extend towards two sides for distance measurement, and the rear part of the supporting beam is provided with a fifth distance measuring mechanism and a sixth distance measuring mechanism which extend towards two sides for distance measurement;

the lower surface of the supporting beam is a plane, and the bottom plate is a flat plate.

And a seventh distance measuring mechanism which extends upwards for measuring distance is arranged between the front part and the rear part of the shoe simulating unit.

The bottom plate is provided with a supporting beam extending to the position above the center of the bottom plate, and a fourteenth distance measuring mechanism extending downwards for distance measurement is fixed on the supporting beam.

The shoe simulation device is characterized in that the shoe simulation unit is provided with a battery jar, a controller and a display, batteries for supplying power to all distance measuring mechanisms of the shoe simulation unit are fixed in the battery jar, all the distance measuring mechanisms of the shoe simulation unit are connected with the controller of the shoe simulation unit through signal lines, and the controller of the shoe simulation unit is connected with the display of the shoe simulation unit through the signal lines.

The model foot unit is provided with a battery jar, a controller and a display, a battery for supplying power to all distance measuring mechanisms of the model foot unit is fixed in the battery jar, all the distance measuring mechanisms of the model foot unit are connected with the controller of the model foot unit through signal lines, and the controller of the model foot unit is connected with the display of the model foot unit through the signal lines.

The structure of first range finding mechanism to fourteenth range finding mechanism is the same, including fixing the guide pin bushing of both ends open-ended on a supporting beam, be equipped with in the guide pin bushing along the gliding nut of guide pin bushing, step motor passes through on the support fixed support beam, the rigid coupling has the lead screw on step motor's the output shaft, the lead screw has guide pin bushing one end to stretch into with the nut cooperation, the rigid coupling has the extension rod on the nut, the extension rod is stretched out by the guide pin bushing other end, the tip rigid coupling of extension rod has pressure sensor, the last rigid coupling of pressure sensor has the template, pressure sensor passes through signal line connection director, step motor is connected to the controller passing signal line.

The pressure sensor is connected with the shaping plate through a rubber pad.

The device comprises a lead screw, a guide sleeve, a lead screw, a contactor, a signal wire and a controller, wherein the guide sleeve is provided with a contactor for sensing the position of the nut towards one end of the stepping motor, a sensing head of the contactor is positioned in a gap between the guide sleeve and the lead screw, and the contactor is connected with the controller through the signal wire.

the invention has the advantages that the system for selecting shoes is convenient for remote selection, and multi-parameter measurement can be carried out on the shoes and the feet, so that whether the shoes fit the feet or not can be conveniently and accurately judged, and the success rate of purchasing the shoes remotely is improved.

Drawings

The following is a brief description of the contents of each figure and the symbols in the figures in the description of the invention:

FIG. 1 is a schematic diagram of a simulation foot unit structure;

FIG. 2 is a schematic view of a modular shoe unit construction;

FIG. 3 is a schematic structural view of a distance measuring mechanism;

the labels in the above figures are: 1. a support beam; 2. a first distance measuring mechanism; 3. a second distance measuring mechanism; 4. a third distance measuring mechanism; 5. a fourth ranging mechanism; 6. a fifth distance measuring mechanism; 7. a sixth distance measuring mechanism; 8. a seventh ranging mechanism; 9. a heel support plate; 10. a base plate; 11. a heel baffle; 12. an eighth ranging mechanism; 13. a ninth ranging mechanism; 14. a tenth ranging mechanism; 15. an eleventh ranging mechanism; 16. a twelfth distance measuring mechanism; 17. a thirteenth distance measuring mechanism; 18. a fourteenth distance measuring mechanism; 19. a screw rod; 20. a stepping motor; 21. a nut; 22. a guide sleeve; 23. an extension pole; 24. a pressure sensor; 25. a rubber pad; 26. a template; 27. a contactor is provided.

Detailed Description

The following description of the embodiments with reference to the drawings is provided to describe the embodiments of the present invention, and the embodiments of the present invention, such as the shapes and configurations of the components, the mutual positions and connection relationships of the components, the functions and working principles of the components, the manufacturing processes and the operation and use methods, etc., will be further described in detail to help those skilled in the art to more completely, accurately and deeply understand the inventive concept and technical solutions of the present invention.

The remote shoe selecting system is composed of two components, namely a simulation shoe unit and a model foot unit, two components are used in a matched mode, one component is used for measuring the size of a foot, the other component is used for measuring the size of the shoe, the user records the size after measuring the size of the foot, and when selecting the shoe, the user can conveniently select the shoe which fits the foot after observing the size of the shoe measured by the model foot unit.

The simulated shoe unit and the model foot unit measure either the left foot (shoe) or the right foot (shoe), the directional terms used are all based on the right foot, and the measurement system of the right foot is described in detail below.

As shown in fig. 2, bottom plate 10 for putting the foot has, bottom plate 10 is a flat board, place the foot on bottom plate 10 during the use, bottom plate 10's rear end has heel baffle 11, heel baffle 11 is vertical convex arc, with the laminating of the right heel that awaits measuring, as the measuring benchmark, the both sides and the front end of base are equipped with a supporting beam 1, be equipped with two eighth distancer mechanism 12 and the ninth distancer mechanism 13 that extend the range finding to heel baffle 11 direction on the supporting beam 1 of front portion side by side, eighth distancer mechanism 12 measures the distance of big toe tip to heel, ninth distancer mechanism 13 measures the distance of little toe tip to heel. The upper front parts of the supporting beams 1 on the two sides are provided with a tenth distance measuring mechanism 14 and an eleventh distance measuring mechanism 15 which extend in opposite directions for distance measurement, the tenth distance measuring mechanism 14 and the eleventh distance measuring mechanism 15 are matched to obtain the width of the front sole, the upper rear parts of the supporting beams 1 on the two sides are provided with a twelfth distance measuring mechanism 16 and a thirteenth distance measuring mechanism 17 which extend in opposite directions for distance measurement, and the twelfth distance measuring mechanism 16 and the thirteenth distance measuring mechanism 17 are matched to obtain the width of the rear sole. The bottom plate 10 is provided with a support beam 1 extending to the upper part of the central position of the bottom plate 10, a fourteenth distance measuring mechanism 18 extending downwards for distance measurement is fixed on the support beam 1, and the fourteenth distance measuring mechanism 18 obtains the thickness information of the instep.

As shown in figure 1, the simulation shoe unit is provided with a long-strip-shaped supporting beam 1, the lower surface of the supporting beam 1 is a plane and is used for being placed in a shoe, the rear end of the supporting beam 1 is provided with a heel supporting plate 9 for supporting the heel of the shoe to be measured, the heel supporting plate 9 is also an arc-shaped plate and is supported at the rear part of the shoe to be measured, as a measuring reference, the front end of the supporting beam 1 is provided with a first distance measuring mechanism 2 and a second distance measuring mechanism 3 which extend forwards for distance measurement, the first distance measuring mechanism 2 and the second distance measuring mechanism 3 can be fixed by building a cross beam, the first distance measuring mechanism 2 and the second distance measuring mechanism 3 respectively measure the distance to the position of the big toe and the distance to the position of the small toe of the shoe, the front part of the supporting beam 1 is provided with a third distance measuring mechanism 4 and a fourth distance measuring mechanism 5 which extend for distance, interference can be avoided through a vertically staggered mode, the width of the front sole of the shoe is obtained through a spacing signal obtained by matching the third distance measuring mechanism 4 and the fourth distance measuring mechanism 5, and the rear part of the support beam 1 is provided with a fifth distance measuring mechanism 6 and a sixth distance measuring mechanism 7 which extend to two sides for measuring distance; the fifth distance measuring mechanism 6 and the sixth distance measuring mechanism 7 obtain the width of the sole of the foot behind the shoe through the matching acquired distance signals, a seventh distance measuring mechanism 8 which extends upwards for measuring distance is arranged between the front part and the rear part of the simulation shoe unit, and the seventh distance measuring mechanism 8 obtains the thickness information of the instep position inside the shoe.

Simulation shoes unit and model foot unit all are equipped with an independent control mechanism, constitute an organic whole piece, by the battery jar, controller and display, also can set up control button as required, control button sends control command to the controller, the battery has all been placed in the battery jar and has been supplied power for whole simulation shoes unit and model foot unit, the controller acquires parameter information, and output drive signal, the display can show the parameter information who acquires, because the sensor acquires the demonstration of signal, and the drive of device, all be current technique, therefore control mechanism can utilize current device (including control program) to build, control mechanism is similar to a remote controller, be connected to simulation shoes unit or model foot unit through the wire, make things convenient for handheld operation and data observation.

As shown in fig. 3, the first distance measuring mechanism 2 to the fourteenth distance measuring mechanism 18 have the same structure, including a guide sleeve 22 fixed on the support beam 1 and having openings at both ends, a nut 21 sliding along the guide sleeve 22 is provided in the guide sleeve 22, the stepping motor 20 is fixed on the support beam 1 through a bracket, a lead screw 19 is fixedly connected to an output shaft of the stepping motor 20, one end of the lead screw 19 having the guide sleeve 22 extends into and cooperates with the nut 21, an extension rod 23 is fixedly connected to the nut 21, the extension rod 23 extends out from the other end of the guide sleeve 22, so as to form a telescopic structure, the stepping motor 20 can accurately control the number of rotations, so as to obtain the distance for pushing the extension rod 23, and since the fixed position of the distance measuring mechanism is determined, the required parameter data can be obtained by obtaining the pushing distance.

In order to conveniently control the start and stop of the extension rod 23, a pressure sensor 24 is fixedly connected to the end portion of the extension rod 23 and used for judging whether the extension rod reaches the forward limit or not, a template 26 is fixedly connected to the pressure sensor 24 and used for contacting an area to be detected, the pressure sensor 24 is connected with the template 26 through a rubber pad 25 and can protect the pressure sensor 24 and the template 26 from extrusion deformation, a contactor 27 for sensing the position of the nut 21 is arranged at one end, facing the stepping motor 20, of the guide sleeve 22, a sensing head of the contactor 27 is located in a gap between the guide sleeve 22 and the screw rod 19 and used for judging whether the extension rod reaches the backward limit or not and serves as a starting point for movement of the nut 21, the contactor 27 is connected with a controller through a signal line, the pressure sensor 24 is connected with the controller through a.

The invention has been described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the specific implementation in the above-described manner, and it is within the scope of the invention to apply the inventive concept and solution to other applications without substantial modification.