CN116616531B - Skid resistance detection device and detection method for rubber soles of sports shoes - Google Patents

Abstract

The invention provides a detection device and a detection method for the skid resistance of a rubber sole of a sports shoe, belonging to the technical field of detection of the skid resistance of soles; including the frame, the inside of frame is provided with the pivot, both ends all rotate through the inner wall of bearing with the frame around the pivot and be connected, the surface left side fixedly connected with mounting panel of pivot, the upper surface of mounting panel is provided with the test floor through spacing subassembly, the one end below that the pivot was kept away from to the mounting panel is provided with adjusting part, two curb plates of the left and right sides fixedly connected with of frame upper surface, two be provided with movable frame between the curb plate, pressure sensor is installed to movable frame's interior roof. According to the invention, different test floors can be replaced through the limiting assembly, the situation of tiles or rougher ground is simulated, the friction coefficient of the sole under different gradients can be detected, the detection accuracy is improved, the safety is improved when the detection operation is carried out, the working efficiency is higher, and meanwhile, the detection is simpler.

Description

Skid resistance detection device and detection method for rubber soles of sports shoes

Technical Field

The invention relates to the technical field of detection of the skid resistance of soles, in particular to a detection device and a detection method for the skid resistance of rubber soles of sports shoes.

Background

The sole has quite complex structure, and in a broad sense, the sole can comprise all materials constituting the bottom, such as an outsole, a midsole and a heel, and in a narrow sense, the sole material only has the common characteristics of wear resistance, water resistance, oil resistance, heat resistance, pressure resistance, impact resistance, good elasticity, easy adaptation to feet, difficult deformation after shaping, heat preservation, easy absorption of moisture and the like, and the sole is matched with various conditions, such as the braking effect is not caused to slip and easy stopping when the user walks to change feet, and the sole needs to be subjected to an anti-skid property test after the sole is manufactured to detect whether the anti-skid property of the sole is qualified.

At present, when detecting sole skid resistance, generally the experimenter wears shoes, then presses and promotes the sole on different ground, if can't promote the sole then skid resistance is better, if promote the sole comparatively easy then skid resistance is relatively poor, but this kind of mode needs to walk to different ground environment and just can detect the sole, and very waste time and energy has very big danger after the experimenter slides in addition.

Disclosure of Invention

The invention aims to solve the technical problems that the anti-skid property detection device and the detection method for the rubber soles of the sports shoes are provided to solve the problems that when the anti-skid property of the soles is detected at present, shoes are generally put on, then the soles are pressed and pushed on different grounds, if the soles cannot be pushed, the anti-skid property is good, if the soles are pushed easily, the anti-skid property is poor, but an experimenter is required to walk to different ground environments to detect the soles, time and labor are wasted, and the experimenter has great danger after slipping.

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides an antiskid nature detection device of sports shoe rubber sole, includes the frame, the inside of frame is provided with the pivot, both ends all rotate through the inner wall of bearing with the frame around the pivot and be connected, the surface left side fixedly connected with mounting panel of pivot, the upper surface of mounting panel is provided with the test floor through spacing subassembly, the one end below that the pivot was kept away from to the mounting panel is provided with adjusting part, two of the left and right sides fixedly connected with curb plate of frame upper surface, two be provided with the movable frame between the curb plate, pressure sensor is installed to the interior roof of movable frame, the inside of movable frame is provided with the fly leaf, install electric putter on the fly leaf, electric putter's flexible end runs through movable frame and fixedly connected with montant, the bottom of montant is provided with the shoe tree through rotating assembly.

Preferably, the adjusting component comprises a movable rod arranged inside the frame, a motor is fixedly connected to the left inner wall of the frame, a screw rod is fixedly connected to the output end of the motor, the right end of the screw rod penetrates through the movable rod and is fixedly connected with a limiting block, the screw rod is in threaded connection with the movable rod, connecting rods are respectively connected to the front side and the rear side of the upper surface of the movable rod in a rotating mode through pin shafts, and one end of each connecting rod is connected with the mounting plate in a rotating mode through the pin shafts.

Preferably, the front side and the rear side of the movable rod are fixedly connected with sliding blocks, and sliding grooves matched with the sliding blocks are formed in the inner walls of the front side and the rear side of the frame.

Preferably, the limiting assembly comprises a fixed plate fixedly connected to the right side of the upper surface of the mounting plate, two screws are fixedly connected to the left side of the upper surface of the mounting plate, a pressing plate is arranged on the left side of the test floor, and the top ends of the screws penetrate through the pressing plate and are fixedly connected with nuts.

Preferably, the front side and the rear side of the movable frame are fixedly connected with movable blocks, the left side is fixedly connected with a guide rod on the right side of the side plate, the right end of the guide rod penetrates through the movable blocks and is fixedly connected with the right side plate, and the guide rod is in sliding connection with the movable blocks.

Preferably, the outer surface of the guide rod is fixedly connected with a fixed ring, and the right side of the fixed ring is contacted with the movable block.

Preferably, the inner top wall of the movable frame is fixedly connected with two sliding rods, the bottom ends of the sliding rods penetrate through the movable plate and are fixedly connected with the inner bottom wall of the movable frame, and the sliding rods are in sliding connection with the movable plate.

Preferably, the lower surface of the movable frame is provided with a through hole, and the diameter of the through hole is larger than that of the electric push rod.

Preferably, the rotary component includes the rotary rod of fixed connection in the montant bottom, the cavity has been seted up to the inside of shoe tree, the rotary rod is located the inside and the surface fixedly connected with worm wheel of cavity, both ends are rotated with the front and back both sides inner wall of cavity through the bearing respectively around the rotary rod, the worm wheel meshing is connected with the worm, the right-hand member of worm runs through shoe tree and fixedly connected with handle, the worm passes through the bearing and rotates with the shoe tree to be connected, the round hole that is greater than the montant diameter has been seted up to the upper surface of shoe tree.

A detection method of an anti-skid property detection device of a rubber sole of a sports shoe comprises the following steps:

step one, put test floor on the mounting panel, then put the clamp plate on test floor, then screw up the nut and fix test floor, thereby can change different test floors, simulate the ceramic tile or comparatively coarse ground's condition, then start motor drive lead screw rotatory, because lead screw and movable rod threaded connection, and avoid the movable rod rotatory through the cooperation of slider and spout, the lead screw can drive the movable rod at this moment and remove right at rotatory in-process, the movable rod passes through the connecting rod at the in-process of removal and drives the mounting panel rotatory around the pivot, thereby make the mounting panel drive test floor rotatory to certain slope.

Step two, the rotating handle drives the worm to rotate, the worm can drive the rotating rod to rotate with the worm wheel in the rotating process, and the shoe tree is rotated around the rotating rod and parallel to the test floor at the moment because the rotating rod is rotationally connected with the inner wall of the cavity through the bearing, and then the shoe is mounted on the shoe tree.

Step three, move the movable frame left along the guide bar and contact with the fixed ring, then start electric putter extension drive montant downwardly moving, the montant can drive shoe tree and the sole of test and the contact of test floor at the in-process that removes, electric putter drives the fly leaf and upwards slides along the slide bar and contact with pressure sensor this moment, if pressure sensor reaches the pressure of settlement back movable frame and does not move along the guide bar right and explain that the skid resistance of sole is better, if pressure sensor reaches the pressure of settlement back, the movable frame moves along the guide bar right and explains that the skid resistance of sole is relatively poor.

Compared with the prior art, the invention has at least the following beneficial effects:

in the above-mentioned scheme, can change different test floors through spacing subassembly, simulate the condition on ceramic tile or comparatively coarse ground to the starter motor drives the lead screw rotatory, because lead screw and movable rod threaded connection, the in-process that the lead screw was rotatory can drive the movable rod and remove right this moment, and the movable rod passes through the connecting rod at the in-process that removes and drives the mounting panel and revolute the rotation of axes, thereby makes the mounting panel drive test floor rotatory to certain slope, can detect the coefficient of friction of sole under the different slopes, improves the accuracy of detection.

The worm is driven to rotate through the rotating handle, the worm can drive the rotating rod to rotate through cooperation of the worm wheel in the rotating process, and the rotating rod is connected with the inner wall of the cavity through the bearing in a rotating mode, so that the shoe tree is parallel to the test floor around the rotating rod, and then the shoe is arranged on the shoe tree, so that the sole is better pressed on the test floor, and the detection accuracy is improved.

Through with the movable frame along the guide bar left side remove and with solid fixed ring contact, then start electric putter extension drive montant downwardly moving, the montant can drive shoe tree and the sole of test and the contact of test floor at the in-process that removes, electric putter drives the fly leaf and upwards slides along the slide bar and contact with pressure sensor this moment, if pressure sensor reaches the pressure of settlement after the movable frame move to the right side along the guide bar and explain the skid resistance of sole better, if pressure sensor reaches the pressure of settlement after, the movable frame moves to the right side along the guide bar and explains that the skid resistance of sole is better poor, thereby make the device need not the experimenter to put on shoes and detect, comparatively safe when detecting the operation, and work efficiency is higher, it is comparatively simple to detect simultaneously.

Drawings

The accompanying drawings, which are incorporated herein and form a part of the specification, illustrate embodiments of the present disclosure and, together with the description, further serve to explain the principles of the disclosure and to enable a person skilled in the pertinent art to make and use the disclosure.

FIG. 1 is a schematic view of the entire structure of an anti-slip property detecting device of a rubber sole of an athletic shoe;

FIG. 2 is a schematic side perspective view of an anti-slip property detection device of a rubber sole of an athletic shoe;

FIG. 3 is a schematic cross-sectional elevation view of the slip resistance detecting device of the rubber sole of the sports shoe;

FIG. 4 is an enlarged schematic view of the structure of the skid resistance detecting device of the rubber sole of the sports shoe at A in FIG. 3;

FIG. 5 is a schematic view of the installation structure of a test floor of the slip resistance detection device of the rubber sole of the sports shoe;

FIG. 6 is a schematic view of the structure of a movable rod of the slip resistance detection device of the rubber sole of the sports shoe;

fig. 7 is a schematic structural view of a movable frame of the slip resistance detecting device of the rubber sole of the sports shoe.

[ reference numerals ]

1. A frame; 2. a rotating shaft; 3. a mounting plate; 4. testing the floor; 5. a side plate; 6. a movable frame; 7. a pressure sensor; 8. a movable plate; 9. an electric push rod; 10. a vertical rod; 11. a last; 101. a movable rod; 102. a motor; 103. a screw rod; 104. a limiting block; 105. a connecting rod; 106. a slide block; 107. a chute; 301. a fixing plate; 302. a screw; 303. a pressing plate; 304. a screw cap; 601. a movable block; 602. a guide rod; 603. a fixing ring; 604. a slide bar; 605. a through hole; 1001. a rotating rod; 1002. a cavity; 1003. a worm wheel; 1004. a worm; 1005. a handle; 1006. and a round hole.

While particular structures and devices are shown in the drawings to enable a clear implementation of embodiments of the invention, this is for illustrative purposes only and is not intended to limit the invention to the particular structures, devices and environments, which may be modified or adapted by those of ordinary skill in the art, as desired, and which remain within the scope of the appended claims.

Detailed Description

The invention provides a device and a method for detecting the skid resistance of a rubber sole of a sports shoe, which are described in detail below with reference to the accompanying drawings and specific embodiments. While the invention has been described herein in terms of the preferred and preferred embodiments, the following embodiments are intended to be more illustrative, and may be implemented in many alternative ways as will occur to those of skill in the art; and the accompanying drawings are only for the purpose of describing the embodiments more specifically and are not intended to limit the invention specifically.

It should be noted that references in the specification to "one embodiment," "an example embodiment," "some embodiments," etc., indicate that the embodiment described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Further, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is submitted that it is within the knowledge of one skilled in the relevant art to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.

Generally, the terminology may be understood, at least in part, from the use of context. For example, the term "one or more" as used herein may be used to describe any feature, structure, or characteristic in a singular sense, or may be used to describe a combination of features, structures, or characteristics in a plural sense, depending at least in part on the context. In addition, the term "based on" may be understood as not necessarily intended to convey an exclusive set of factors, but may instead, depending at least in part on the context, allow for other factors that are not necessarily explicitly described.

It will be understood that the meanings of "on … …", "over … …" and "over … …" in this disclosure should be interpreted in the broadest sense so that "on … …" means not only "directly on" but also includes meaning "directly on" something with intervening features or layers therebetween, and "over … …" or "over … …" means not only "on" or "over" something, but also may include its meaning "on" or "over" something without intervening features or layers therebetween.

Furthermore, spatially relative terms such as "under …," "under …," "lower," "above …," "upper," and the like may be used herein for ease of description to describe one element or feature's relationship to another element or feature as illustrated in the figures. Spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. The device may be otherwise oriented and the spatially relative descriptors used herein may similarly be interpreted accordingly.

As shown in fig. 1-7, an embodiment of the invention provides an anti-slip property detection device for a rubber sole of a sports shoe, which comprises a frame 1, wherein a rotating shaft 2 is arranged in the frame 1, the front end and the rear end of the rotating shaft 2 are both rotatably connected with the inner wall of the frame 1 through bearings, a mounting plate 3 is fixedly connected to the left side of the outer surface of the rotating shaft 2, a test floor 4 is arranged on the upper surface of the mounting plate 3 through a limiting component, an adjusting component is arranged below one end, far away from the rotating shaft 2, of the mounting plate 3, two side plates 5 are fixedly connected to the left side and the right side of the upper surface of the frame 1, a movable frame 6 is arranged between the two side plates 5, a pressure sensor 7 is arranged on the inner top wall of the movable frame 6, a movable plate 8 is arranged in the movable frame 6, an electric push rod 9 is arranged on the movable plate 8, the telescopic end of the electric push rod 9 penetrates through the movable frame 6 and is fixedly connected with a vertical rod 10, and the bottom end of the vertical rod 10 is provided with a shoe tree 11 through a rotating component.

As shown in fig. 1 and 3, in this embodiment, the adjusting component includes a movable rod 101 disposed inside a frame 1, a motor 102 is fixedly connected to an inner wall of a left side of the frame 1, an output end of the motor 102 is fixedly connected to a screw rod 103, a right end of the screw rod 103 penetrates through the movable rod 101 and is fixedly connected to a limiting block 104, the screw rod 103 is in threaded connection with the movable rod 101, two sides of an upper surface of the movable rod 101 are both rotatably connected with a connecting rod 105 through a pin shaft, and one end of the connecting rod 105 is rotatably connected with the mounting plate 3 through a pin shaft.

The starting motor 102 is arranged to drive the screw rod 103 to rotate, and the screw rod 103 is in threaded connection with the movable rod 101, so that the screw rod 103 can drive the movable rod 101 to move rightwards in the rotating process, and the movable rod 101 drives the mounting plate 3 to rotate around the rotating shaft 2 through the connecting rod 105 in the moving process, so that the mounting plate 3 drives the test floor 4 to rotate to a certain gradient, and the friction coefficient of soles under different gradients can be detected.

As shown in fig. 3 and 6, in this embodiment, the front and rear sides of the movable rod 101 are fixedly connected with a sliding block 106, and the inner walls of the front and rear sides of the frame 1 are provided with sliding grooves 107 adapted to the sliding block 106.

The sliding block 106 is matched with the sliding groove 107 to prevent the movable rod 101 from rotating, so that the movable rod 101 moves more stably.

As shown in fig. 1 and 5, in this embodiment, the limiting component includes a fixing plate 301 fixedly connected to the right side of the upper surface of the mounting plate 3, two screws 302 are fixedly connected to the left side of the upper surface of the mounting plate 3, a pressing plate 303 is disposed on the left side of the test floor 4, and the top ends of the screws 302 penetrate through the pressing plate 303 and are fixedly connected with nuts 304.

The test floor 4 is placed on the mounting plate 3, the pressing plate 303 is placed on the test floor 4, and the nuts 304 are screwed to fix the test floor 4, so that different test floors 4 can be replaced, and the situation of ceramic tiles or rough ground is simulated.

As shown in fig. 1 and 2, in this embodiment, the front and rear sides of the movable frame 6 are fixedly connected with the movable block 601, the right side of the left side plate 5 is fixedly connected with the guide rod 602, the right end of the guide rod 602 penetrates through the movable block 601 and is fixedly connected with the right side plate 5, the guide rod 602 is slidably connected with the movable block 601, and thus the movable frame 6 is arranged to move along the guide rod 602, so that the anti-slip performance of the sole is better detected.

As shown in fig. 2 and 7, in the present embodiment, a fixed ring 603 is fixedly connected to an outer surface of the guide bar 602, and a right side of the fixed ring 603 is in contact with the movable block 601.

The fixed ring 603 contacts the movable block 601 during detection, and the movable block 601 is far away from the fixed ring 603 after the pressure sensor 7 reaches the set pressure, so that the skid resistance of the sole is poor.

As shown in fig. 1 and 7, in the present embodiment, two sliding rods 604 are fixedly connected to the inner top wall of the movable frame 6, the bottom ends of the sliding rods 604 penetrate through the movable plate 8 and are fixedly connected to the inner bottom wall of the movable frame 6, and the sliding rods 604 are slidably connected to the movable plate 8, so that the movable plate 8 moves up and down more stably, and the phenomenon of tilting and locking is avoided.

As shown in fig. 7, in the present embodiment, a through hole 605 is provided on the lower surface of the movable frame 6, and the diameter of the through hole 605 is larger than that of the electric putter 9.

The vertical rod 10 is arranged to move downwards to drive the shoe tree 11 and the sole to be contacted with the test floor 4, and the electric push rod 9 drives the movable plate 8 to slide upwards along the sliding rod 604 and be contacted with the pressure sensor 7.

As shown in fig. 3 and 4, in this embodiment, the rotating assembly includes a rotating rod 1001 fixedly connected to the bottom end of the vertical rod 10, a cavity 1002 is formed in the interior of the shoe tree 11, the rotating rod 1001 is located in the cavity 1002 and fixedly connected with worm wheels 1003 on the outer surface, the front end and the rear end of the rotating rod 1001 are respectively rotatably connected to the inner walls of the front side and the rear side of the cavity 1002 through bearings, the worm wheels 1003 are engaged with and connected with a worm 1004, the right end of the worm 1004 penetrates through the shoe tree 11 and is fixedly connected with a handle 1005, the worm 1004 is rotatably connected with the shoe tree 11 through bearings, and a round hole 1006 larger than the diameter of the vertical rod 10 is formed in the upper surface of the shoe tree 11.

The setting of rotating handle 1005 drives worm 1004 rotatory like this, and worm 1004 cooperates with worm wheel 1003 at rotatory in-process and can drive rotary rod 1001 rotatory, because rotary rod 1001 passes through the inner wall rotation of bearing and cavity 1002 to be connected, shoe tree 11 is rotatory parallel with test floor 4 around rotary rod 1001 this moment to make the better compress tightly on test floor 4 of sole, improve the accuracy of detecting.

A detection method of an anti-skid property detection device of a rubber sole of a sports shoe comprises the following steps:

step one, put test floor 4 on mounting panel 3, then put clamp plate 303 on test floor 4, then screw up nut 304 is fixed with test floor 4, thereby can change different test floors 4, simulate the condition on ceramic tile or comparatively coarse ground, then start motor 102 drive lead screw 103 rotatory, because lead screw 103 and movable rod 101 threaded connection, and avoid movable rod 101 rotatory through the cooperation of slider 106 and spout 107, lead screw 103 can drive movable rod 101 and remove rightwards at this moment in rotatory in-process, movable rod 101 passes through connecting rod 105 and drives mounting panel 3 and revolute 2 rotation in the in-process of removing, thereby make mounting panel 3 drive test floor 4 rotatory to certain slope.

Step two, the handle 1005 is rotated to drive the worm 1004 to rotate, the worm 1004 cooperates with the worm wheel 1003 in the rotating process to drive the rotating rod 1001 to rotate, and the rotating rod 1001 is rotatably connected with the inner wall of the cavity 1002 through a bearing, so that the shoe tree 11 rotates around the rotating rod 1001 to be parallel to the test floor 4, and then the shoe is mounted on the shoe tree 11.

Step three, the movable frame 6 moves leftwards along the guide rod 602 and contacts with the fixed ring 603, then the electric push rod 9 is started to extend to drive the vertical rod 10 to move downwards, the vertical rod 10 can drive the shoe tree 11 and the tested sole to contact with the test floor 4 in the moving process, at the moment, the electric push rod 9 drives the movable plate 8 to slide upwards along the slide rod 604 and contact with the pressure sensor 7, if the pressure sensor 7 reaches the set pressure, the movable frame 6 does not move rightwards along the guide rod 602 to indicate that the anti-skid property of the sole is better, and if the pressure sensor 7 reaches the set pressure, the movable frame 6 moves rightwards along the guide rod 602 to indicate that the anti-skid property of the sole is worse.

The invention is intended to cover any alternatives, modifications, equivalents, and variations that fall within the spirit and scope of the invention. In the following description of preferred embodiments of the invention, specific details are set forth in order to provide a thorough understanding of the invention, and the invention will be fully understood to those skilled in the art without such details. In other instances, well-known methods, procedures, flows, components, circuits, and the like have not been described in detail so as not to unnecessarily obscure aspects of the present invention.

Those of ordinary skill in the art will appreciate that all or a portion of the steps in implementing the methods of the embodiments described above may be implemented by a program that instructs associated hardware, and the program may be stored on a computer readable storage medium, such as: ROM/RAM, magnetic disks, optical disks, etc.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (1)

1. The anti-skid property detection device for the rubber soles of the sports shoes is characterized by comprising a frame (1), wherein a rotating shaft (2) is arranged in the frame (1), the front end and the rear end of the rotating shaft (2) are rotationally connected with the inner wall of the frame (1) through bearings, a mounting plate (3) is fixedly connected to the left side of the outer surface of the rotating shaft (2), a test floor (4) is arranged on the upper surface of the mounting plate (3) through a limiting component, and an adjusting component is arranged below one end, far away from the rotating shaft (2), of the mounting plate (3);

the novel electric shoe comprises a frame (1), wherein two side plates (5) are fixedly connected to the left side and the right side of the upper surface of the frame, a movable frame (6) is arranged between the two side plates (5), a pressure sensor (7) is arranged on the inner top wall of the movable frame (6), a movable plate (8) is arranged in the movable frame (6), an electric push rod (9) is arranged on the movable plate (8), a telescopic end of the electric push rod (9) penetrates through the movable frame (6) and is fixedly connected with a vertical rod (10), and a shoe last (11) is arranged at the bottom end of the vertical rod (10) through a rotating assembly;

the adjusting component comprises a movable rod (101) arranged in the frame (1), a motor (102) is fixedly connected to the inner wall of the left side of the frame (1), a screw rod (103) is fixedly connected to the output end of the motor (102), the right end of the screw rod (103) penetrates through the movable rod (101) and is fixedly connected with a limiting block (104), the screw rod (103) is in threaded connection with the movable rod (101), connecting rods (105) are respectively connected to the front side and the rear side of the upper surface of the movable rod (101) through pin shafts in a rotating mode, and one end of each connecting rod (105) is connected with the mounting plate (3) through pin shafts in a rotating mode; the sliding blocks (106) are fixedly connected to the front side and the rear side of the movable rod (101), and sliding grooves (107) matched with the sliding blocks (106) are formed in the inner walls of the front side and the rear side of the frame (1); the limiting assembly comprises a fixed plate (301) fixedly connected to the right side of the upper surface of the mounting plate (3), two screws (302) are fixedly connected to the left side of the upper surface of the mounting plate (3), a pressing plate (303) is arranged on the left side of the test floor (4), and the top ends of the screws (302) penetrate through the pressing plate (303) and are fixedly connected with nuts (304); the movable block (601) is fixedly connected to the front side and the rear side of the movable frame (6), the guide rod (602) is fixedly connected to the right side of the side plate (5) on the left side, the right end of the guide rod (602) penetrates through the movable block (601) and is fixedly connected with the side plate (5) on the right side, and the guide rod (602) is in sliding connection with the movable block (601); the outer surface of the guide rod (602) is fixedly connected with a fixed ring (603), and the right side of the fixed ring (603) is contacted with the movable block (601); the inner top wall of the movable frame (6) is fixedly connected with two sliding rods (604), the bottom ends of the sliding rods (604) penetrate through the movable plate (8) and are fixedly connected with the inner bottom wall of the movable frame (6), and the sliding rods (604) are in sliding connection with the movable plate (8); the lower surface of the movable frame (6) is provided with a through hole (605), and the diameter of the through hole (605) is larger than that of the electric push rod (9); the rotary assembly comprises a rotary rod (1001) fixedly connected to the bottom end of a vertical rod (10), a cavity (1002) is formed in the shoe tree (11), the rotary rod (1001) is located in the cavity (1002) and fixedly connected with worm wheels (1003) on the outer surface, the front end and the rear end of the rotary rod (1001) are respectively connected with the inner walls of the front side and the rear side of the cavity (1002) in a rotary mode through bearings, the worm wheels (1003) are connected with a worm (1004) in a meshed mode, the right end of the worm (1004) penetrates through the shoe tree (11) and is fixedly connected with a handle (1005), the worm (1004) is connected with the shoe tree (11) in a rotary mode through bearings, and round holes (1006) larger than the diameter of the vertical rod (10) are formed in the upper surface of the shoe tree (11);

the detection method of the anti-skid property detection device of the rubber sole of the sports shoe comprises the following steps:

step one, a test floor (4) is placed on a mounting plate (3), then a pressing plate (303) is placed on the test floor (4), then nuts (304) are screwed to fix the test floor (4), so that different test floors (4) can be replaced, the situation of ceramic tiles or rough ground is simulated, then a motor (102) is started to drive a screw rod (103) to rotate, the screw rod (103) is in threaded connection with a movable rod (101), the movable rod (101) is prevented from rotating through the cooperation of a sliding block (106) and a sliding groove (107), at the moment, the screw rod (103) can drive the movable rod (101) to move rightwards in the rotating process, and the movable rod (101) drives the mounting plate (3) to rotate around a shaft (2) through a connecting rod (105), so that the mounting plate (3) drives the test floor (4) to rotate to a certain gradient;

step two, a handle (1005) is rotated to drive a worm (1004) to rotate, the worm (1004) is matched with a worm wheel (1003) in the rotating process to drive a rotating rod (1001) to rotate, and the rotating rod (1001) is rotationally connected with the inner wall of a cavity (1002) through a bearing, so that a shoe tree (11) rotates around the rotating rod (1001) to be parallel to a test floor (4), and then a shoe is arranged on the shoe tree (11);

step three, move movable frame (6) left along guide bar (602) and with solid fixed ring (603) contact, then start electric putter (9) extension drive montant (10) downwardly moving, montant (10) can drive shoe tree (11) and the sole of test and test floor (4) contact at the in-process that removes, electric putter (9) drive movable plate (8) upwards slide and contact with pressure sensor (7) along slide bar (604) this moment, if pressure sensor (7) reach behind the pressure of settlement movable frame (6) do not move to the right along guide bar (602) and indicate that the skid resistance of sole is better, if pressure sensor (7) reach behind the pressure of settlement movable frame (6) move to the right along guide bar (602) and indicate that the skid resistance of sole is relatively poor.