CN109974927B - Ankle wearing type intelligent device based on riparian gas-liquid mixing pressure detection - Google Patents

Abstract

The invention discloses ankle-wearing intelligent equipment based on riparian gas-liquid mixing pressure detection, which structurally comprises: the invention realizes the matching of the frame banding seat and the two-position pointer plate by using the frame banding seat, the pneumatic stress spherical surface and the hydraulic stress horizontal plane of the upper floating ball folding rod and the lower floating plate column are erected in the square shell groove, the dislocation effect of transmission between the gear conveyor belt and the dislocation wheel carrier seat is achieved, the rear side air pressure difference of the large pointer of the double-position pointer disc and the front side hydraulic pressure difference of the small pointer rotation are formed, the pressure meter disc is made to form double-ring data, the stress of squeezing and resisting pressure in equipment is also brought to enable the trapezoidal arc top groove efficient unloading of the rubber belt, the ankle binding belt floats up and down along with the transmission rack to form a linkage effect when being worn, the ankle integral convex bone is wrapped by the left arc top groove plate and the right arc top groove plate, and the intelligent collocation pressure of the binding belt is conveniently detected to form a comfortable effect of pressing.

Description

Ankle wearing type intelligent device based on riparian gas-liquid mixing pressure detection

Technical Field

The invention discloses ankle-wearing intelligent equipment based on riparian gas-liquid mixing pressure detection, and belongs to the field of intelligent wearing.

Background

The intelligent equipment that pressure detected is the collection of the different molecular impact volume of solid state, liquid state, gaseous state forms pressure data and types the device, and common solid state detection is more convenient, and the weighing machine is the equipment that popularizes widely, and liquid state and gaseous state's molecular clearance is big, and the shape is changeable, so need match the manometer and carry out the reading, and the public shortcoming of treating optimizing of prior art has:

pressure check out test set generally is single hydraulic pressure detection or atmospheric pressure detects, it is easy disorderly to the mixed deviation value that the liquid level difference and the pressure differential of riverside formed, cause the manometer pointer to continuously deflect the condition of indefinite value, when leading to people to step on riverside, the ankle receives the atmospheric pressure and subsides, it floats to receive hydraulic pressure again to enter the surface of water, form counterpoint pressure from top to bottom, let the ankle bear the load, receive the interact power when also making half naked air of check out test set and half bubble water detect, and offset the accurate value of pressure, form the initial position condition that the pointer does not deflect, the pressure check out test set that leads to staff's shank to wear is malfunctioning and the slip friction skin that soaks, lead to the ankle to have uncomfortable and press and rub the sense.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide ankle-wearing intelligent equipment based on riparian gas-liquid mixed pressure detection so as to solve the problems that the pressure detection equipment is generally single hydraulic detection or air pressure detection, the detection of the mixed deviation value formed by the liquid level difference and the gas pressure difference at the bank side is easy to be disturbed, which causes the situation that the pointer of the pressure gauge continuously deflects and has no fixed value, when people step on the river bank, the ankles are settled by air pressure and float hydraulically after entering the water surface, so that the upper and lower alignment pressure is formed, the ankles bear load, half of the exposed air of the detection equipment is subjected to interaction force when being soaked in water for detection, and offset the accurate value of pressure, formed the pointer and do not have the initial position condition of deflecting, lead to the staff intensity of pressure check out test set that the shank was worn malfunctioning and soak and slide and rub skin, lead to the ankle to have the uncomfortable problem of rubbing the sense.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an ankle formula smart machine of wearing based on bank side gas-liquid mixture pressure detects, its structure includes: the front end of the frame bundling belt seat is arranged on the rear side of the square shell groove, the upper side and the lower side of the frame bundling belt seat are respectively mechanically connected with the floating ball folding rod and the floating plate column, the rear side of the front end cover is nested on the front side of the square shell groove, the floating ball folding rod and the floating plate column are respectively inserted and embedded on the upper side and the lower side of the square shell groove, the snap spring keys are inserted and embedded in the front end cover, the double-position disc is tightly attached to the front side of the front end cover, the frame bundling belt seat is provided with a rubber bundling belt, a clamping plate seat, a gear transmission belt, a pointer shaft rod, a bearing ring needle, a belt and a dislocation wheel carrier seat, the left end of the rubber bundling belt is buckled with the concave groove of the clamping plate seat, the gear transmission belt and the bearing ring needle are in clearance fit, and the pointer shaft rod is inserted and embedded on the left side of the clamping plate seat, the pointer shaft lever is mechanically connected with the dislocation wheel carrier seat through a belt, the belt is nested at the upper left corner of the dislocation wheel carrier seat, the bearing ring needle is movably connected with the pointer shaft lever, the rubber belt is arranged at the top of the pointer shaft lever, a gear of the rubber belt is meshed with a bevel gear at the bottom end of the floating ball folding rod, the right side of the clamping plate seat is tightly attached to the inside of the square shell groove, and the right side of the dislocation wheel carrier seat is mechanically connected with the top end of the floating plate column.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the rubber binding belt comprises a trapezoid arc top groove, a gel pad tube, two sponge bumps and a rubber pasting plate, wherein the frame of the trapezoid arc top groove is tightly attached to the outer surface of the gel pad tube and is positioned on the same vertical plane, the trapezoid arc top groove and the gel pad tube are respectively arranged on the left side and the right side of the sponge bumps, and the sponge bumps are vertically tightly attached to the front side of the rubber pasting plate.

As a further improvement of the invention, the trapezoidal arc top groove consists of an arc top groove plate, an I-shaped piston rod, a pneumatic cylinder and a hydraulic cylinder, wherein the pneumatic cylinder and the hydraulic cylinder are respectively nested at the upper end and the lower end of the I-shaped piston rod, and the arc top groove plate, the pneumatic cylinder and the hydraulic cylinder are of an integrated structure and are positioned on the same vertical surface.

The invention further improves the structure that the dislocation wheel frame seat consists of a wheel shell seat, a traction wheel frame, a rear axle wheel and a sleeve, wherein the wheel shell seat and the sleeve are nested into a whole, the traction wheel frame is inserted into the sleeve, the rear axle wheel is tightly attached to the rear side of the wheel shell seat, and the axle centers of the wheel shell seat, the traction wheel frame, the rear axle wheel and the sleeve are collinear.

As a further improvement of the invention, the traction wheel frame consists of a torsion bar, a buckle wheel, a vertical plate and a square grooved drum, the torsion bar is buckled with the buckle wheel, and the buckle wheel and the square grooved drum are respectively welded on the upper side and the lower side of the vertical plate.

As a further improvement of the invention, the gel cushion tube is of a composite pipeline structure with the top bent arc side vertical, the cavity pipeline is matched with a unique hook buckling shape, the extrusion reserved activity space is realized, and the gel cushion tube is soft in texture and avoids the situation of friction and skin breaking.

As a further improvement of the invention, the sponge bump is of a ladder cotton block structure with a corrugated soft surface at the front end of the through hole on the vertical side, and the pressurized water cotton core isolation pad effect is effectively achieved when the ankle moves after the bridle is soaked in water.

As a further improvement of the invention, the buckling wheel is of a wheel ring structure internally provided with a cross buckling block, the upper end, the lower end, the left end and the right end in the wheel ring are buckled to form a cross splicing and meshing effect, the ninety-degree angle limiting is efficient, the pulling linkage matching degree is strong, and the loosening and slipping are prevented.

As a further improvement of the invention, the square grooved drum is of an embedded block structure with a square solid block center annular hollowed, the square blocks are embedded into the inner wall of the wheel cavity, and then the hollowed cylindrical grooves facilitate the communication of the inner shaft to reserve a rotating gap, so that the effects of solid balance weight and flexible matching transmission are achieved.

Advantageous effects

The invention relates to ankle-wearing intelligent equipment based on riparian gas-liquid mixed pressure detection, which is characterized in that a pressure detector at the riparian side holds a square shell groove and a front end cover, bends down to pull open a rubber belt of a frame belt seat, so that an ankle penetrates through the equipment, then a trapezoidal arc top groove and a gel cushion tube wrap a convex bone of the ankle, a sponge bump is tightly attached to a moving end of heel muscle, then a rubber flitch is tightly attached to the ankle, a worker walks on the riparian side and gradually steps into a shallow water surface, different position data acquisition motion effects during detection are formed for a floating ball folding rod and a floating plate column, then an I-shaped piston rod in an arc top groove plate can be pushed up and down to a standing value in a pneumatic cylinder and a hydraulic cylinder, at the moment, the air pressure and the hydraulic acting force on the ankle are balanced and unloaded, the load of the ankle joint is reduced, the motion function of a human body leg is protected, and the detection operation, then when the floating ball folding rod is subjected to air pressure reduction and is meshed with the friction of a gear conveyor belt to push a bearing ring needle to rotate, the fixed value data after air pressure intensity detection can be read and recorded through a rear side dial plate of a two-position pointer disc, then when a sole of a foot is stepped on the water surface, the condition that half of the equipment is generally immersed in water and is exposed in air can be formed, the pressure drop of the floating ball folding rod is still not interfered by hydraulic pressure, the detection data is unchanged, then a floating plate column is lifted to a dislocation wheel frame seat along with the buoyancy lifting hydraulic pressure of the water surface, a traction wheel frame in a wheel frame seat is subjected to friction traction at the top end of the floating plate column in a sleeve, a belt is wound around a rear shaft wheel, so that a transmission pointer shaft rod moves on the front side of the pointer seat, the front side dial plate of the two-position pointer disc is used for displaying the liquid level pressure intensity value, then a snap spring button is pressed to prop the, the square groove barrel is driven to rotate around the sleeve to push transmission action, so that different values of the gas-liquid pressure at the riverside can be acquired, and the transmission pressure which is staggered up and down and does not interfere with each other can be acquired, so that the equipment can acquire the gas pressure and the hydraulic pressure data at the up and down positions flexibly in a short time.

The invention has the following advantages after operation:

the utility model discloses an ankle binding belt, including the frame.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of ankle-worn intelligent equipment based on bank-side gas-liquid mixture pressure detection according to the present invention.

Fig. 2 is a detailed schematic side sectional view of the frame belt seat of the present invention.

Fig. 3 is a schematic side view of the belt seat of the stand according to the present invention.

FIG. 4 is a front view of the rubber band of the present invention.

Fig. 5 is a schematic view of a three-dimensional internal view structure of the trapezoidal arc top groove in the working state of the invention.

Fig. 6 is a schematic cross-sectional front view of the dislocated wheel-frame seat according to the present invention.

Fig. 7 is a perspective structural diagram of the traction wheel frame in the working state.

Description of reference numerals: a frame band seat-1, a square shell groove-2, a floating ball folding rod-3, a front end cover-4, a double-position pointer disc-5, a snap spring button-6, a floating plate column-7, a rubber band-11, a clamp plate seat-12, a gear transmission belt-13, a pointer shaft rod-14, a bearing ring needle-15, a belt-16, a dislocation wheel carrier seat-17 and a trapezoidal arc top groove-111, gel pad tube-112, sponge bump-113, rubber pasting plate-114, arc top groove plate-1111, I-shaped piston rod-1112, pneumatic cylinder-1113, hydraulic cylinder-1114, wheel shell seat-171, traction wheel frame-172, rear axle wheel-173, sleeve-174, torsion bar-1721, buckle wheel-1722, vertical plate-1723 and square groove cylinder-1724.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 7, the present invention provides an ankle wearable intelligent device based on bank side gas-liquid mixing pressure detection, which includes: the device comprises a rack belt seat 1, a square shell groove 2, a floating ball folding rod 3, a front end cover 4, a two-position pointer disc 5, a clamp spring button 6 and a floating plate column 7, wherein the front end of the rack belt seat 1 is arranged at the rear side of the square shell groove 2, the upper side and the lower side of the rack belt seat 1 are respectively mechanically connected with the floating ball folding rod 3 and the floating plate column 7, the rear side of the front end cover 4 is nested at the front side of the square shell groove 2, the floating ball folding rod 3 and the floating plate column 7 are respectively inserted and embedded at the upper side and the lower side of the square shell groove 2, the clamp spring button 6 is inserted and embedded in the front end cover 4, the two-position pointer disc 5 is tightly attached to the front side of the front end cover 4, the rack belt seat 1 is provided with a rubber belt 11, a clamp plate seat 12, a gear conveyor belt 13, a pointer shaft lever 14, a bearing ring needle 15, a belt 16 and a staggered wheel carrier seat 17, the left end of the rubber belt 11 is buckled with the concave groove of the clamp plate seat 12, the pointer shaft lever 14 is inserted and embedded in the left side of the clamping plate seat 12, the pointer shaft lever 14 is mechanically connected with the dislocation wheel frame seat 17 through a belt 16, the belt 16 is embedded and embedded in the upper left corner of the dislocation wheel frame seat 17, the bearing ring needle 15 is movably connected with the pointer shaft lever 14, the rubber belt 11 is arranged at the top of the pointer shaft lever 14, a gear of the rubber belt 11 is meshed with a bevel gear at the bottom end of the floating ball folding rod 3, the right side of the clamping plate seat 12 is tightly attached to the inside of the square shell groove 2, and the right side of the dislocation wheel frame seat 17 is mechanically connected with the top end of the floating plate column 7.

Referring to fig. 4, the rubber band 11 is composed of a trapezoidal arc top groove 111, a gel pad tube 112, a sponge protrusion 113, and a rubber pad plate 114, wherein a frame of the trapezoidal arc top groove 111 is tightly attached to an outer surface of the gel pad tube 112 and is located on the same vertical plane, two trapezoidal arc top grooves 111 and two gel pad tubes 112 are respectively installed on the left and right sides of the sponge protrusion 113, the sponge protrusion 113 is vertically tightly attached to a front side of the rubber pad plate 114, the gel pad tube 112 is a composite tube structure with a top curved side and a vertical side, a cavity tube is matched with a unique hook buckle shape, a squeezing reserved activity space is realized, the sponge protrusion 113 is soft, a trapezoidal table cotton block structure with a corrugated soft surface at a front end of a through hole on the vertical side, and a pressurized water cotton core spacer effect when an ankle moves after the band is soaked in water, press close to the protruding bone of ankle through terraced word arc top groove 111, let joint inflection department hug closely sponge lug 113, when making the shank soak the rivers on riverside limit, can have the activity space, and not the cunning takes off, and it is high-efficient to continuously walk the pressurized-water drainage effect.

Referring to fig. 5, the trapezoidal arc top groove 111 is composed of an arc top groove plate 1111, an i-shaped piston rod 1112, a pneumatic cylinder 1113 and a hydraulic cylinder 1114, the pneumatic cylinder 1113 and the hydraulic cylinder 1114 are respectively nested at the upper end and the lower end of the i-shaped piston rod 1112, the arc top groove plate 1111, the pneumatic cylinder 1113 and the hydraulic cylinder 1114 are integrated and located on the same vertical plane, and the i-shaped piston rod 1112 balances the gas-liquid pressure balance values in the pneumatic cylinder 1113 and the hydraulic cylinder 1114 up and down to form an unloading movement effect on the ankle joint skeleton.

Referring to fig. 6, the misplacement wheel frame seat 17 is composed of a wheel shell seat 171, a dragging wheel frame 172, a rear axle wheel 173 and a sleeve 174, the wheel shell seat 171 and the sleeve 174 are nested into a whole, the dragging wheel frame 172 is inserted into the sleeve 174, the rear axle wheel 173 is tightly attached to the rear side of the wheel shell seat 171, the axle centers of the wheel shell seat 171, the dragging wheel frame 172, the rear axle wheel 173 and the sleeve 174 are collinear, the dragging wheel frame 172 is inserted into the sleeve 174 to be in butt joint with the rear axle wheel 173, a double-wheel transmission receiving and fixed-axle linkage effect is formed, and the pressure of the lower liquid level can be effectively increased and transmitted to the pointer plate 5 to display data.

Referring to fig. 7, the dragging wheel frame 172 is composed of a torsion bar 1721, a fastening wheel 1722, a vertical plate 1723 and a square grooved cylinder 1724, the torsion bar 1721 and the fastening wheel 1722 are fastened together, the fastening wheel 1722 and the square grooved cylinder 1724 are respectively welded on the upper and lower sides of the vertical plate 1723, the square grooved cylinder 1724 is an inner embedded block structure with a square solid block center annularly hollowed, the square block is embedded in the inner wall of a bonding wheel cavity, then the hollowed cylindrical groove facilitates the inner shaft to be communicated and reserved with a rotating gap, so as to achieve the effect of solid counterweight and flexible matching transmission, the fastening wheel 1722 is a wheel ring structure with a cross fastening block inside, the upper and lower and left ends inside the wheel ring are fastened to form a cross insertion and engagement effect, ninety-degree limit is efficient, traction and matching linkage is strong, so as to prevent loosening and slipping, the dragging square grooved cylinder 1724 is fastened with the fastening wheel 1722 through the torsion bar 1721, so that the top end of the floating plate column 7 is bonded to the wheel, the lifting displacement is matched with the rotation to achieve the uniform stress effect of dislocation transmission.

The working process is as follows: when a pressure detector at the riverside holds the square shell groove 2 and the front end cover 4, bends down to pull open the rubber binding band 11 of the frame binding band seat 1, so that an ankle penetrates, then the trapezoidal arc top groove 111 and the gel pad tube 112 wrap a convex bone of the ankle, the sponge lug 113 is tightly attached to the motion end of the heel muscle, then the rubber attachment plate 114 is tightly attached to the ankle, and a worker walks ashore and gradually steps on the shallow water surface to form different position data acquisition motion effects during detection for the floating ball folding rod 3 and the floating plate column 7, then the I-shaped piston rod 1112 in the arc top groove plate 1111 is pushed up and down to a standing value in the pneumatic cylinder 1113 and the hydraulic cylinder 1114, so that the pneumatic pressure and the hydraulic acting force on the ankle are balanced and unloaded up and down, the load of the ankle joint is reduced, the leg motion function of a human body is protected, the detection operation is not interfered, and then when the floating ball folding rod 3 is rubbed by the air pressure falling meshing gear conveyor belt 13 to push the bearing ring needle 15 to rotate, the fixed value data after the air pressure detection can be read and recorded through the rear dial plate of the two-position pointer disc 5, then when the sole of a foot steps into the water surface, the condition that half of the equipment is generally immersed in water and is exposed in air is formed, at the moment, the pressure drop of the floating ball folding rod 3 is still not interfered by hydraulic pressure, the detection data is unchanged, then the floating plate column 7 gives the dislocated wheel frame seat 17 along with the buoyancy lifting hydraulic pressure of the water surface, the dragging wheel frame 172 in the wheel shell seat 171 is dragged by the top end of the floating plate column 7 in the sleeve 174 in a friction way, the belt 16 is wound around the rear shaft wheel 173, the pointer shaft rod 14 is driven to move in front of the clamping plate seat 12, the pointer disc at the front side of the two-position pointer disc 5 displays the liquid level pressure value, then the dragging step pushes the vertical plate 1723 to push the vertical plate 1723 through the torsion rod 1721 in a twisting step during the period that the circlip key 6 is pressed against the floating plate column, the aim of acquiring different values of the gas-liquid pressure at the riverside is achieved, and the transmission pressure which is staggered up and down and does not interfere with each other is achieved, so that the equipment can acquire the air pressure and the hydraulic pressure data at the upper position and the lower position flexibly in a short time.

The invention achieves the effect of dislocation of the gear conveyor belt 13 and the dislocation wheel frame seat 17 in insertion transmission by mutually combining the components, achieves the effect of efficiently unloading the trapezoid arc top groove 111 of the rubber binding belt 11 by erecting the air pressure stress spherical surface and the hydraulic stress horizontal surface of the upper floating ball folding rod 3 and the lower floating plate column 7 in the square shell groove 2 and forming the rear side air pressure difference of the large pointer and the front side hydraulic pressure difference of the small pointer of the double-position pointer plate 5 to make the pressure meter plate form double-ring data, is convenient for people to observe, effectively processes the condition of gradually offsetting the upper and lower opposite top pressures, carries out layered display effect, brings the stress of internal extrusion and compression resistance to equipment to make the trapezoid arc top groove 111 of the rubber binding belt 11 efficiently unload, achieves the effect of linkage formed by the upper and lower floating of the ankle binding belt along with the transmission frame when being worn, the left and right ankle arc top groove plates 1111 wrap the whole convex bone, and is convenient for intelligent matching pressure detection of the binding belt to form comfortable ankle function, the problem that pressure detection equipment generally is single hydraulic pressure detection or atmospheric pressure detection is solved with this, it is easy to be disorderly to detect the mixed deviation value that the liquid level difference and the atmospheric pressure difference of riparian limit formed, cause the manometer pointer to continuously deflect the condition of indefinite value, when leading to people to step on riparian limit, the ankle receives atmospheric pressure and subsides, it floats to receive hydraulic pressure again to enter the surface of water, counterpoint pressure from top to bottom forms, let the ankle bear the load, receive the interact power when also making half naked air of detection equipment and half bubble water detection, and offset the accurate value of pressure, form the initial position condition that the pointer does not deflect, the pressure detection equipment that leads to staff's shank to wear is out and soaks the slip friction skin, lead to the ankle to have uncomfortable and rub the sense of pressing against.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (5)

1. The utility model provides an ankle formula smart machine of wearing based on bank side gas-liquid mixture pressure detects, its structure includes: frame banding seat (1), square hull groove (2), floater folding rod (3), front end housing (4), dibit pointer dish (5), jump ring button (6), kickboard post (7), its characterized in that:

the frame banding seat (1) is arranged on the rear side of the square shell groove (2), the upper side and the lower side of the frame banding seat (1) are respectively and mechanically connected with the floating ball folding rod (3) and the floating plate column (7), the front end cover (4) is nested on the front side of the square shell groove (2), the floating ball folding rod (3) and the floating plate column (7) are respectively inserted and embedded on the upper side and the lower side of the square shell groove (2), the clamp spring key (6) is inserted and embedded in the front end cover (4), and the double-position pointer disc (5) is tightly attached to the front side of the front end cover (4);

the machine frame binding belt seat (1) is provided with a rubber binding belt (11), a clamping plate seat (12), a gear conveying belt (13), a pointer shaft lever (14), a bearing ring needle (15), a belt (16) and a dislocation wheel carrier seat (17);

the rubber belt (11) is buckled with the clamp plate seat (12), the gear conveyor belt (13) is matched with a bearing ring needle (15), the pointer shaft rod (14) is inserted and embedded on the left side of the clamp plate seat (12), the pointer shaft rod (14) is mechanically connected with the dislocation wheel frame seat (17) through a belt (16), the belt (16) is nested at the upper left corner of the dislocation wheel frame seat (17), the bearing ring needle (15) is movably connected with the pointer shaft rod (14), the rubber belt (11) is arranged at the top of the pointer shaft rod (14), the rubber belt (11) is mechanically connected with the bottom end of the floating ball folding rod (3), the clamp plate seat (12) is tightly attached to the inside of the square shell groove (2), and the dislocation wheel frame seat (17) is mechanically connected with the top end of the floating plate column (7);

the rubber binding belt (11) is composed of a trapezoid arc top groove (111), a gel pad tube (112), sponge bumps (113) and a rubber pasting plate (114), the trapezoid arc top groove (111) and the gel pad tube (112) are tightly attached together, the trapezoid arc top groove (111) and the gel pad tube (112) are respectively provided with two parts which are respectively arranged at the left side and the right side of the sponge bumps (113), and the sponge bumps (113) are vertically tightly attached to the front side of the rubber pasting plate (114);

the trapezoidal arc top groove (111) is composed of an arc top groove plate (1111), an I-shaped piston rod (1112), a pneumatic cylinder (1113) and a hydraulic cylinder (1114), the pneumatic cylinder (1113) and the hydraulic cylinder (1114) are respectively nested at the upper end and the lower end of the I-shaped piston rod (1112), and the arc top groove plate (1111), the pneumatic cylinder (1113) and the hydraulic cylinder (1114) are of an integrated structure;

the dislocation wheel frame seat (17) consists of a wheel shell seat (171), a traction wheel frame (172), a rear axle wheel (173) and a sleeve (174), the wheel shell seat (171) and the sleeve (174) are nested into a whole, the traction wheel frame (172) is inserted and embedded in the sleeve (174), and the rear axle wheel (173) is tightly attached to the rear side of the wheel shell seat (171);

the traction wheel carrier (172) is composed of a torsion rod (1721), a clamping wheel (1722), a vertical plate (1723) and a square grooved drum (1724), the torsion rod (1721) and the clamping wheel (1722) are clamped together, and the clamping wheel (1722) and the square grooved drum (1724) are respectively welded on the upper side and the lower side of the vertical plate (1723).

2. The ankle-wearing intelligent device based on riparian gas-liquid mixing pressure detection according to claim 1, wherein: the gel pad tube (112) is of a composite pipeline structure with the top bent arc side vertical.

3. The ankle-wearing intelligent device based on riparian gas-liquid mixing pressure detection according to claim 1, wherein: the sponge convex block (113) is a ladder cotton block structure with a corrugated soft surface at the front end of the through hole on the vertical side.

4. The ankle-wearing intelligent device based on riparian gas-liquid mixing pressure detection according to claim 1, wherein: the buckling wheel (1722) is of a wheel ring structure with a cross buckling block arranged inside.

5. The ankle-wearing intelligent device based on riparian gas-liquid mixing pressure detection according to claim 1, wherein: the square grooved drum (1724) is an embedded block structure with a square solid block and a hollow annular center.

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