CN215876143U

CN215876143U - Walking robot

Info

Publication number: CN215876143U
Application number: CN202121327730.4U
Authority: CN
Inventors: 胡一凡; 戚均敏; 万余; 王一磊; 屈思恒
Original assignee: Panasonic Appliances China Co Ltd
Current assignee: Panasonic Appliances China Co Ltd
Priority date: 2021-06-15
Filing date: 2021-06-15
Publication date: 2022-02-22
Anticipated expiration: 2031-06-15

Abstract

The utility model discloses a walking robot, which belongs to the technical field of walking auxiliary equipment and comprises a supporting device, a walking device, a handle device and a battery, wherein the supporting device comprises a support, a supporting rod arranged on the support in a lifting mode and an electric push rod used for driving the supporting rod to lift, the electric push rod is arranged on the support and electrically connected to the battery, the electric push rod comprises a push rod, the bottom end of the supporting rod is connected with the top end of the push rod through a connecting seat, the walking device is arranged at the bottom end of the support, and the handle device is arranged at the top end of the supporting rod. Electric putter can drive branch and go up and down, makes strutting arrangement's height carry out appropriate adjustment according to user's height to make handle device's height can with user's height adaptation, be favorable to improving the comfort level that the user gripped handle device and suitably reduce the application of force of user's upper limbs, be favorable to improving the training effect that uses experience and supplementary walking.

Description

Walking robot

Technical Field

The utility model relates to the technical field of walking auxiliary equipment, in particular to a walking robot.

Background

The walking assisting robot comprises three modes of walking assisting training, fixed frame walking training and exoskeleton assisting walking training, wherein the walking assisting training is to improve the motor function of lower limbs by assisting walking, and combines walking and rehabilitation training to achieve the purpose of improving and recovering normal walking ability. With the deepening of the aging degree of China, the lower limb health problems caused by aging are more and more prominent. The mobility of lower limbs of the elderly is continuously reduced due to the decline of physiological functions, and in addition, patients with lower limb motility disorders caused by various diseases such as spinal cord injury and cerebral apoplexy are also remarkably increased, so that the problem that how to meet the requirement of assisting walking training of the elderly or the patients is urgently needed to be solved is solved. The existing apparatus for assisting walking training mostly adopts a frame type structure, the upper limbs of a user are supported to a certain degree through the apparatus, so that the stress of the lower limbs is reduced, the bottom of the apparatus is provided with rollers, and the rollers rotate to enable the apparatus to move synchronously when the user walks. However, the support height of the existing frame-type walking auxiliary training apparatus is generally fixedly arranged, and the apparatus cannot be properly adjusted according to the specific height of a user, cannot well meet the training requirements, and can affect the training effect.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects in the prior art, the utility model provides a walking robot, and the height of the robot body can be correspondingly adjusted according to the height of a user.

In order to achieve the technical purpose, the walking robot provided by the utility model comprises a supporting device, a walking device, a handle device and a battery, wherein the supporting device comprises a support, a supporting rod arranged on the support in a lifting mode and an electric push rod used for driving the supporting rod to lift, the electric push rod is arranged on the support and is electrically connected to the battery, the electric push rod comprises a push rod, the bottom end of the supporting rod is connected with the top end of the push rod through a connecting seat, the walking device is arranged at the bottom end of the support, and the handle device is arranged at the top end of the supporting rod.

Preferably, the top end of the push rod is inserted into the connecting seat and is fixed with the connecting seat through a fastener; and/or the bottom end of the supporting rod is inserted into the connecting seat and is fixed with the connecting seat through a fastener.

Preferably, the top of the support is provided with a limiting seat, the limiting seat is provided with a limiting hole matched with the support rod, and the support rod penetrates through the limiting hole.

Preferably, the supporting device comprises a frame cover arranged on the side part of the support, and the electric push rod and the connecting seat are arranged between the frame cover and the support.

Preferably, the side part of the bracket is provided with a limit frame for installing the battery, and the battery is inserted into the limit frame and is positioned on one side of the bracket cover back to the bracket.

Preferably, the walking robot is including locating the display device at strutting arrangement top, and display device includes the base, locates the display screen on the base and locates the bedplate in the base, and the top of branch stretches into in the base and is equipped with a supporting bench, bedplate and a supporting bench fixed connection.

Preferably, a pressure sensor fixed on the seat plate is arranged in the base, and the handle device is connected to the pressure sensor.

Preferably, the walking robot comprises a control device arranged on the support, the display screen and the pressure sensor are connected to the control device and/or the battery through spring wire signals, and the spring wire is arranged in the support rod.

Preferably, the walking robot includes shell structure, and shell structure is including locating the outside casing of strutting arrangement and locating the lid shell at casing top, and the casing is including fixed procapsid and back casing together, and the lid shell is equipped with the through-hole that supplies branch to wear through.

Preferably, one of the housing and the cover housing is provided with a positioning block, and the other is provided with a positioning groove for inserting the positioning block.

After the technical scheme is adopted, the utility model has the following advantages:

1. according to the walking robot provided by the utility model, the electric push rod and the supporting rod are additionally arranged on the supporting device, the electric push rod can drive the supporting rod to lift, so that the height of the supporting device can be properly adjusted according to the height of a user, the height of the handle device can be matched with the height of the user, the comfort level of holding the handle device by the user can be improved, the force application of the upper limb of the user can be properly reduced, and the use experience and the walking assisting training effect can be improved.

2. During the connecting seat was inserted to the top of push rod and the bottom of branch, all locked through the fastener between push rod and the connecting seat, between branch and the connecting seat, realized fixed connection through the connecting seat between the top of push rod and the bottom of branch, rationally set up the connection structure between push rod and the branch, make the push rod can drive branch synchronous lift when going up and down.

3. The supporting rod penetrates through the limiting hole in the limiting seat, the supporting rod is limited when being lifted through the matching of the limiting hole and the supporting rod, and the lifting stability of the supporting rod is improved. In addition, the supporting points for the supporting rods are increased through the matching of the limiting holes and the supporting rods, and the structural stability of the supporting rods after the lifting is finished is improved.

4. Electric putter and connecting seat are located between frame lid and the support, and the cooperation through frame lid and support can make the connecting seat receive spacingly, is favorable to improving the structural stability and the mobility stability of connecting seat to be favorable to improving the stability that electric putter passes through the connecting seat and drives branch lift.

5. The battery is inserted into the support limiting frame and is located on one side, back to the support, of the frame cover, the mounting structure and the setting position of the battery are reasonably arranged, the mounting difficulty of the battery is reduced, and the overall structure is compact. The battery is close to the electric push rod, so that the battery and the electric push rod are conveniently and electrically connected.

6. The display screen of the display device can display training data, and a user can know detailed training conditions. The seat board of the display device is fixedly connected with the supporting table at the top end of the supporting rod, and when the electric push rod drives the supporting rod to lift, the display device is driven to lift, so that the height of the display device can be matched with the height of a user.

7. The handle device is connected to the pressure sensor in the base, and the force application condition of the upper limbs to the handle device in the walking training process of the user can be collected through the pressure sensor, so that the force application condition of the upper limbs and the training condition of the lower limbs in the walking training process of the user can be analyzed.

8. The display screen and the pressure sensor are electrically connected and signal connected through the spring wire, the length of the spring wire can be automatically changed according to the lifting of the supporting rod, and the wiring requirement of an electric component is met. The spring wire is arranged in the supporting rod and is not exposed out of the machine body, so that the appearance of the whole machine is improved, and the abrasion to the spring wire when the supporting rod is lifted can be avoided.

9. The shell structure comprises a shell and a cover shell, the shell is arranged outside the supporting device, the cover shell is arranged at the top of the shell, and the shell structure is favorable for improving the appearance attractiveness of the whole machine and protecting related components.

10. Set up locating piece and constant head tank of mutually supporting between casing and the lid shell, the locating piece is inserted and is located and can be made the lid shell be fixed in the top of casing and receive effectual location in the constant head tank, is favorable to reducing the equipment degree of difficulty between lid shell and the casing and improves the packaging efficiency.

Drawings

FIG. 1 is a schematic overall side view of a walking robot according to an embodiment;

FIG. 2 is a schematic top view of a walking robot according to an embodiment;

FIG. 3 is a first exploded view of some of the components of an embodiment of a walking robot;

FIG. 4 is a second exploded view of some of the components of an embodiment of a walking robot;

FIG. 5 is a third exploded view of some of the components of an embodiment of a walking robot;

FIG. 6 is an exploded view of a display device and pressure sensors in an embodiment of a walking robot;

FIG. 7 is a schematic diagram of a cover shell in the housing structure of a walking robot in accordance with an embodiment;

fig. 8 is an exploded view of the housing of the bumper assembly of the embodiment of a walking robot.

In the figure, 100-supporting device, 110-bracket, 111-fixed platform, 112-limit frame, 120-strut, 121-supporting platform, 130-electric push rod, 131-push rod, 140-connecting seat, 150-limit seat, 151-limit hole, 160-frame cover, 200-walking device, 210-front foot, 220-rear foot, 230-front caster, 240-rear caster, 250-connecting plate, 300-handle device, 310-handle shell, 320-handle, 321-mounting groove, 330-handle sleeve, 400-battery, 500-display device, 510-base, 511-seat shell, 512-top cover, 513-rear cover, 520-display screen, 530-seat plate, 610-control device, 620-frame plate, 630-pressure sensor, 640-spring wire, 650-wire clip, 660-antenna, 700-shell structure, 710-machine shell, 711-front shell, 712-rear shell, 713-positioning rib, 720-cover shell, 721-through hole, 730-foot shell, 731-inner shell, 732-outer shell, 741-positioning block, 742-positioning groove, 800-buffer device, 810-cover shell, 811-front cover body, 812-rear cover body, 813-convex column, 814-inserted column, 815-clamping groove, 816-convex rib, 817-convex ring, 817 a-front ring body, 817 b-rear ring body, 818-shallow groove, 820-foot sleeve, 831-positioning convex edge, 832-positioning groove, 833-positioning buckle and 834-positioning clamping groove.

Detailed Description

The utility model is further described with reference to the following figures and specific examples. It is to be understood that the following terms "upper," "lower," "left," "right," "longitudinal," "lateral," "inner," "outer," "vertical," "horizontal," "top," "bottom," and the like are used merely to indicate an orientation or positional relationship relative to one another as illustrated in the drawings, merely to facilitate describing and simplifying the utility model, and are not intended to indicate or imply that the device/component so referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore are not to be considered limiting of the utility model.

Example one

As shown in fig. 1 to 8, a walking robot provided by an embodiment of the present invention includes a supporting device 100, a walking device 200, a handle device 300 and a battery 400, wherein the supporting device 100 includes a bracket 110, a supporting rod 120 disposed on the bracket 110 in a lifting manner, and an electric push rod 130 for driving the supporting rod 120 to lift, the electric push rod 130 is disposed on the bracket 110 and electrically connected to the battery 400, the electric push rod 130 includes a push rod 131, a bottom end of the supporting rod 120 is connected to a top end of the push rod 131 through a connecting seat 140, the walking device 200 is disposed at a bottom end of the bracket 110, and the handle device 300 is disposed at a top end of the supporting rod 120.

Electric putter can drive branch and go up and down, makes strutting arrangement's height carry out appropriate adjustment according to user's height to make handle device's height can with user's height adaptation, be favorable to improving the comfort level that the user gripped handle device and suitably reduce the application of force of user's upper limbs, be favorable to improving the training effect that uses experience and supplementary walking.

In this embodiment, the connecting seat 140 is provided with a hole matching with the top end of the push rod 131, the top end of the push rod 131 is inserted into the hole, and the top end of the push rod 131 and the connecting seat 140 are fixed together by a screw. The connecting seat 140 is further provided with a hole matched with the bottom end of the supporting rod 120, the bottom end of the supporting rod 120 is inserted into the hole, and the bottom end of the supporting rod 120 and the connecting seat 140 are fixed together through a screw.

In order to improve the structural stability and the lifting stability of the supporting rod 120, the supporting device 100 further includes a limiting seat 150 disposed at the top of the supporting frame 110, the limiting seat 150 is provided with a limiting hole 151 matched with the supporting rod 120, and the supporting rod 120 penetrates through the limiting hole 151. In this embodiment, the top of the bracket 110 is bent to form a fixing platform 111, and the limiting seat 150 is inserted into the fixing platform 111 and locked with the fixing platform 111 by a screw.

In this embodiment, the vertical portion of the bracket 110 is substantially plate-shaped, and the electric push rod 130 and the connecting seat 140 are disposed at the front side of the bracket 110. In order to improve the stability of the connection seat 140 and the electric push rod 130, the supporting device 100 further includes a frame cover 160, the frame cover 160 is fixed to the front side of the bracket 110 by screws, and the electric push rod 130 and the connection seat 140 are disposed between the frame cover 160 and the bracket 110. The connection seat 140 is effectively limited by the matching of the frame cover 160 and the support 110, which is beneficial to improving the structural stability and the moving stability of the connection seat 140, thereby being beneficial to improving the stability of the electric push rod 130 driving the support rod 120 to lift through the connection seat 140.

In order to mount the battery 400, the bracket 110 is provided at a side thereof with a limiting frame 112 for mounting the battery 400, and the battery 400 is inserted into the limiting frame 112. In this embodiment, the position limiting frame 112 is disposed on the front side of the bracket 110, and the battery 400 is disposed on the front side of the bracket cover 160.

Referring to fig. 6, the walking robot includes a display device 500 disposed on the top of the supporting device 100, the display device 500 includes a base 510, a display screen 520 disposed on the base 510, and a seat plate 530 disposed in the base 510, the top end of the supporting rod 120 extends into the base 510 and is provided with a supporting platform 121, and the seat plate 530 is locked on the top of the supporting platform 121 by screws. In this embodiment, the base 510 is a split structure, and includes a seat shell 511, a top cover 512 and a rear cover 513, wherein the top cover 512 is fixed on the top of the seat shell 511, the display screen 520 is embedded in the top cover 512, the rear cover 513 is fixedly connected to the rear side of the seat shell 511 by screws, and the top end of the supporting rod 120 extends into the rear side of the base 510.

The base 510 is provided with a pressure sensor 630 at the rear side of the display screen 520, the pressure sensor 630 is fixed on the seat plate 530, the handle device 300 is connected to the pressure sensor 630, and the display device 500 is located below the handle device 300. In this embodiment, the handle device 300 is a split structure, and includes a handle case 310, a handle 320 and a handle sleeve 330, the handle 320 is connected to the top end of the supporting device 100 through a pressure sensor 630, the handle case 310 is fixed to the bottom of the handle 320 through a screw, and the handle sleeve 330 covers the handle 320. Specifically, the handle 320 is fixedly connected to the pressure sensor 630 through a screw.

The walking robot further comprises a control device 610, wherein the control device 610 is arranged at the rear side of the support 110 through a frame plate 620, the display screen 520 and the pressure sensor 630 are in signal connection with the control device 610, and meanwhile, the display screen 520 and the pressure sensor 630 are electrically connected with the battery 400. In order to simplify the wiring, the display 520 and the pressure sensor 630 are electrically connected to the battery 400 and the control device 610 through the spring wire 640, the spring wire 640 includes an electric connection wire and a signal wire, and both ends of the spring wire 640 are fixed by the wire clamp 650. In order to hide the spring wire 640, the support rod 120 is configured to be axially hollow, and the spring wire 640 is disposed inside the support rod 120.

In order to improve the stability of the machine body, the supporting device 100 is arranged obliquely relative to the vertical direction, the top end of the supporting device 100 is inclined backwards relative to the bottom end, and the lifting direction of the supporting rod 120 is consistent with the length direction of the supporting device 100. In order to better satisfy the training requirements of the user, the plane direction of the display device 500 is preferably perpendicular to the ascending and descending direction of the rod 120, the handle device 300 is also substantially perpendicular to the ascending and descending direction of the rod 120, the handle device 300 is disposed obliquely with respect to the horizontal direction, and the front portion of the handle device 300 is higher than the rear portion. In this embodiment, the plane direction of the rear portion of the handle device 300 is substantially perpendicular to the lifting direction of the strut 120, and the front portion of the handle device 300 is tilted upward with respect to the rear portion. An included angle alpha is arranged between the rear part of the handle device 300 and the horizontal direction, and alpha is more than or equal to 15 degrees and less than or equal to 30 degrees. The upward tilting angle of the front part of the handle device 300 relative to the rear part is beta, and beta is more than or equal to 20 degrees and less than or equal to 40 degrees. In this embodiment, an angle α between the rear portion of the handle device 300 and the horizontal direction means an angle between a tangential direction of a center line of the rear portion of the handle device and the horizontal direction, and an angle β of the front portion of the handle device 300 tilted upward with respect to the rear portion means an angle between a tangential direction of a center line of the front portion of the handle device and a tangential direction of a center line of the rear portion of the handle device. Specifically, α is preferably set to 22 °, and β is preferably set to 34 °.

To facilitate a user's viewing of the display on the display screen 520 during exercise, the handle assembly 300 is provided with a wrap, with at least a portion of the display screen 520 positioned below the inner wrap of the handle assembly 300. Preferably, the display screen 520 is located right below the inner ring of the handle device 300 along the lifting direction of the support rod 120, so that the handle device can avoid the visual obstruction of the display screen.

In order to facilitate the user to control the body through the mobile terminal, the walking robot is further provided with a wireless communication module, and the wireless communication module is in signal connection with the mainboard of the display screen 520. The wireless communication module comprises an antenna 660, i.e. the antenna 660 is a constituent element of the wireless communication module. To avoid adverse effects on the user carrying the pacemaker, the antenna 660 is provided inside the front side of the handle device 300. In this embodiment, the front side of the handle 320 is provided with a mounting groove 321 far away from the supporting rod, and the antenna 660 is disposed in the mounting groove 321. The mobile terminal can establish bidirectional wireless communication connection with the display screen 520 through the wireless communication module, which is beneficial to improving the intelligence of the body.

Running gear 200 includes preceding stabilizer blade 210, back stabilizer blade 220, locate preceding caster 230 of preceding stabilizer blade 210 bottom and locate the back truckle 240 of back stabilizer blade 220 bottom, in this embodiment, preceding stabilizer blade 210 all is equipped with two and is located strutting arrangement 100's the left and right sides respectively with back stabilizer blade 220, correspondingly, preceding caster 230 also respectively is equipped with two with back truckle 240, two preceding caster 230 symmetric distribution in strutting arrangement 100's the left and right sides, two back truckles 240 also symmetric distribution in strutting arrangement 100's the left and right sides. One end of the front leg 210 is fixedly connected to the bracket 110, and one end of the rear leg 220 is fixedly connected to the bracket 110 and located above the connecting end of the front leg 210. The front caster 230 is preferably a universal wheel with a foot brake, and the front caster 230 is horizontally and rotatably connected to the front leg 210, so that a user can adjust the moving direction in time according to the training environment when walking training is performed by using the machine body. The rear caster 240 is rotatably provided at the distal end of the rear leg 220 via a link plate 250. In order to improve the use safety of the body, a resistance motor is arranged in the rear caster 240, and when a user performs walking training, the resistance motor rotates to enable the rear caster 240 to bear resistance opposite to the rotating direction, so that the body can be braked in time when the user stops walking. The resistance motor is electrically connected to the battery 400 through a power line, and is also connected to the control device 610 through a signal line.

When the user walked through the vigorous walking robot of this embodiment and trained, the user was located the rear side of organism, avoided the user to step on when walking the training and touch the condition that back truckle 240 leads to falling down, and the distance between two back truckles 240 is greater than the distance between two preceding truckles 230, makes the distance between two back truckles satisfy the requirement of the required activity space of user's low limbs.

In order to improve the use safety of the body, the vertical projection plane of the handle device 300 is located between the front caster 230 and the rear caster 240, and the vertical acting force applied by the user holding the handle device during training is located in the range of the walking device 200, so that the use risk of the user caused by the body turning over due to the fact that the vertical acting force is located outside the range of the walking device is effectively avoided. Specifically, referring to fig. 2, the vertical plane of projection of the handle assembly 100 is located between the distal ends of the front leg 210 and the rear leg 220.

In order to improve the appearance of the body, the walking robot further includes a housing structure 700, and the housing structure 700 includes a housing 710 disposed outside the supporting device 100, a cover 720 disposed on the top of the housing 710, and a foot shell 730 disposed outside the rear foot 220. In this embodiment, the housing 710 has a split structure, and includes a front housing 711 and a rear housing 712 fixed together by screws, where the front housing 711 is disposed at the front side of the support frame 110, and the rear housing 712 is disposed at the rear side of the support frame 110. Referring to fig. 7, the cover 720 is fixed to the top of the housing 710 by a snap fit, a through hole 721 matched with the rod 120 is formed in the cover 720, and the rod 120 is inserted through the through hole 721.

In order to ensure the stability of the cover shell 720, an inwardly protruding positioning block 741 is disposed on an inner wall of the top side of the housing 710, a positioning groove 742 for inserting the positioning block 741 is disposed in the circumferential direction of the cover shell 720, and the positioning block 741 is inserted into the positioning groove 742, so that the cover shell 720 is axially and circumferentially limited.

In this embodiment, the foot casing 730 includes an inner casing 731 and an outer casing 732 fixed together by screws, the inner casing 731 is disposed inside the corresponding rear leg 220, the outer casing 732 is disposed outside the corresponding rear leg 220, and one end of the foot casing 730 facing the housing 710 is smoothly fitted with the housing by means of a groove edge.

In order to avoid the situation that the body is brought down by too large impact caused by collision, the walking robot further comprises a buffer device 800, the buffer device 800 is arranged at least partially outside the supporting device 100 and at least partially outside the walking device 200, and the buffer device 800 is flexible. In this embodiment, the buffering device 800 includes a housing 810 and a leg sleeve 820, the housing 810 is disposed outside the lower end of the supporting device 100, the leg sleeve 820 is disposed outside the front leg 210, one end of the leg sleeve 820 is connected to the housing 810, and the other end is engaged with the front caster 230.

The cover 810 is disposed at the bottom of the housing 710, and the top end of the cover 810 is connected to the bottom end of the housing 710. Referring to fig. 8, the housing 810 includes a front housing 811 and a rear housing 812 fixed together by screws, a hollow post 813 is disposed on an inner wall of the front housing 810, a hollow insertion post 814 is disposed on an inner wall of the rear housing 810, a hole on the post 813 is a stepped hole, the insertion post 814 is inserted into the post 813, and a screw passes through the post 813 and is screwed into the insertion post 814 to fix the front housing 811 and the rear housing 812 together. The outer walls of the top sides of the front cover body 811 and the rear cover body 812 are provided with clamping grooves 815, and after the front cover body 811 and the rear cover body 812 are assembled, the two clamping grooves 815 are combined to form a circle. Positioning ribs 713 protruding inwards are arranged on the bottom sides of the front shell 711 and the rear shell 712, and after the chassis 710 is assembled, the positioning ribs 713 are embedded in the positioning grooves 742, so that the top side of the housing 810 is connected with the bottom side of the chassis 710.

In order to improve the structural stability of the housing 810, a positioning and matching structure is provided between the front housing 811 and the rear housing 812. Specifically, the positioning matching structure comprises a positioning convex edge 831 arranged on the front cover body 811 and a positioning groove 832 arranged on the rear cover body 812, the positioning convex edge 831 is arranged on the end face of the front cover body 811 facing one side of the rear cover body 812 and is provided with a plurality of positioning grooves at intervals, the positioning groove 832 is arranged on the inner wall of the rear cover body 812 facing one side of the front cover body 811 and is distributed in one-to-one correspondence with the positioning convex edge 831, and the positioning convex edge 831 is positioned in the positioning groove 832. The positioning matching structure further comprises a positioning buckle 833 arranged on the rear cover body 812 and a positioning clamping groove 834 arranged on the front cover body 811, the positioning buckle 833 is arranged on the end face of the rear cover body 812 facing one side of the front cover body 811, a plurality of positioning clamping grooves 834 are arranged at intervals, the positioning clamping grooves 834 are arranged on the inner wall of the front cover body 811 facing one side of the rear cover body 812 and are distributed in one-to-one correspondence with the positioning buckle 833, and the positioning buckle 833 is clamped in the positioning clamping groove 834. The positioning and matching structure can realize the positioning and matching between the front cover body 811 and the rear cover body 812 when the front cover body 811 and the rear cover body 812 are assembled, can also improve the structural stability of the matching part between the front cover body 811 and the rear cover body 812, and avoids the situations that the front cover body 811 and the rear cover body 812 are dislocated and separated due to the collision stress of the housing 810.

The housing 810 is provided with a convex ring 817 which protrudes outwards, an avoiding hole which avoids the front support leg 210 is arranged at the convex ring 817, and one end of the foot sleeve 820 is sleeved outside the convex ring 817. In this embodiment, the left side and the right side of the front cover body 811 are both provided with front ring bodies 817a protruding outward, the left side and the right side of the rear cover body 812 are both provided with rear ring bodies 817b protruding outward, after the front cover body 811 and the rear cover body 812 are assembled, the front ring bodies 817a and the rear ring bodies 817b are combined to form a convex ring 817, and a space enclosed by the front ring bodies 817a and the rear ring bodies 817b forms an avoidance hole through which the front leg 210 passes. One end of the foot sleeve 820 is sleeved outside the convex ring 817 through interference fit with the convex ring 817, and the other end is sleeved on the top of the front caster 230 through interference fit.

In order to make the connection between the foot covers 820 and the housing 810 more beautiful, the outer wall of the housing 810 is provided with a shallow groove 818 positioned at the periphery of the convex ring 817, and the end parts of the foot covers 820 facing the housing 810 are positioned in the shallow groove 818, so that the matching parts between the foot covers 820 and the housing 810 are kept flat.

In order to improve the structural strength of the housing 810, ribs 816 are provided on the inner wall of the housing 810. In this embodiment, a plurality of ribs 816 are disposed on the inner walls of the front housing 811 and the rear housing 812.

When the walking training robot of the present embodiment is used for walking training, the height of the supporting device 100 is adjusted according to the height of the user, so that the heights of the handle device 300 and the display device 500 can be adapted to the height of the user. In the training process, the pressure sensor 630 collects the stress data of the handle device 300 and sends the stress data to the control device 610 for analysis and judgment, and the data of the walking distance, the walking speed and the force application condition of the upper limbs can be displayed on the display screen 520. The user may also use the mobile terminal to send a work instruction to the display 520 through the wireless communication module, or the user may learn the content of the user, such as training data, using the mobile terminal.

It is understood that the top end of the push rod 131 and the connecting seat 140 may be fixedly connected by other means, such as welding.

It is understood that the bottom end of the strut 120 and the connecting seat 140 may be fixedly connected by other means, such as welding.

It will be appreciated that the spacing block 150 may be secured to the bracket 110 by other means, such as welding, screwing, etc.

It is understood that the electric push rod 130, the connecting seat 140, the frame cover 160 and the battery 400 may be disposed at the rear side of the bracket 110, and the control device 610 may be disposed at the front side of the bracket 110.

It is understood that the sleeve 330 may be made of a suitable material such as TPU.

It is understood that the included angle α between the rear portion of the handle device 300 and the horizontal direction may also be set to other reasonable angle values such as 15 °, 18 °, 20 °, 24 °, 27 °, 30 °, and the like.

It is understood that the upturned angle β of the front portion of the handle arrangement 300 relative to the rear portion may also be set to other reasonable angular values of 20 °, 25 °, 28 °, 30 °, 35 °, 38 °, 40 °, etc.

It is understood that the wireless communication module may adopt a bluetooth communication module, a WiFi communication module, a ZigBee communication module, or other wireless communication modules.

It is understood that the entire wireless communication module may be mounted in the mounting groove 321 at the front side of the handle 320.

It can be understood that the mobile terminal may adopt electronic products such as a mobile phone, a tablet computer, and the like.

It can be understood that the mobile terminal may also establish a unidirectional wireless communication connection with the display screen 520 through the wireless communication module, and the mobile terminal may transmit the work instruction to the display screen 520 through the wireless communication module in a unidirectional manner.

It is understood that the positioning blocks 741 on the inner wall of the top side of the housing 710 and the positioning slots 742 on the circumference of the cover 720 can be interchanged.

It is understood that the foot shell 730 may be provided in combination with the cabinet 710, and in particular, the outer shell 732 of the foot shell 730 may be integrally formed with the front shell 711 of the cabinet, and the inner shell 731 of the foot shell 730 may be integrally formed with the rear shell 712 of the cabinet.

It will be appreciated that the top side of the housing 810 and the bottom side of the housing 710 may be connected by a snap fit structure or other suitable structure such as screws.

It is understood that the positions of the positioning flange 831 and the positioning groove 832 can be interchanged.

It can be understood that the positions of the positioning buckle 833 and the positioning slot 834 can be interchanged.

It can be understood that the positioning buckle 833 and the positioning groove 834 can be omitted on the premise that the positioning convex edge 831 and the positioning groove 832 are matched to meet the requirement of positioning matching between the front cover 811 and the rear cover 812.

It can be understood that the positioning convex edge 831 and the positioning groove 832 can be omitted on the premise that the positioning buckle 833 and the positioning buckle groove 834 can meet the positioning and matching requirements between the front cover 811 and the rear cover 812.

It will be appreciated that a clearance fit between the end of the foot cover 720 and the collar 817 may be used where the length of the foot cover 820 and collar 817 is greater.

It will be appreciated that the provision of shallow grooves 818 on the exterior wall of the housing 810 may also be eliminated.

It will be appreciated that the provision of the ribs 816 may be eliminated where the thickness of the housing 810 is greater.

It is understood that the cover 810 and the foot cover 820 may be made of a suitable material such as TPE.

Other embodiments of the present invention than the preferred embodiments described above, and those skilled in the art can make various changes and modifications according to the present invention without departing from the spirit of the present invention, should fall within the scope of the present invention defined in the claims.

Claims

1. The utility model provides a robot of taking a step, its characterized in that, includes strutting arrangement, running gear, handle device and battery, and strutting arrangement includes that support, liftable locate branch on the support and be used for driving the electric putter that branch goes up and down, and electric putter locates on the support and the electricity connect in the battery, and electric putter includes the push rod, and the bottom of branch is passed through the connecting seat and is connected with the top of push rod, and the bottom of support is located to running gear, and the top of branch is located to handle device.

2. The walking robot as claimed in claim 1, wherein the top end of the push rod is inserted into the coupling seat and fixed to the coupling seat by a fastener; and/or the bottom end of the supporting rod is inserted into the connecting seat and is fixed with the connecting seat through a fastener.

3. The walking robot as claimed in claim 1, wherein the top of the frame is provided with a limiting seat, the limiting seat is provided with a limiting hole for engaging with the rod, and the rod passes through the limiting hole.

4. The walking robot as claimed in claim 1, wherein the supporting means comprises a frame cover provided at a side of the frame, and the electric push rod and the connecting base are provided between the frame cover and the frame.

5. The walking robot as claimed in claim 4, wherein the side of the frame is provided with a position-limiting frame for installing the battery, and the battery is inserted into the position-limiting frame and positioned on the side of the frame cover opposite to the frame.

6. The walking robot as claimed in claim 1, wherein the walking robot comprises a display device disposed on the top of the support device, the display device comprises a base, a display screen disposed on the base, and a seat plate disposed in the base, the top end of the rod extends into the base and is provided with a support platform, and the seat plate is fixedly connected to the support platform.

7. The walking robot as claimed in claim 6, wherein a pressure sensor fixed to the seat plate is provided in the base, and the handle unit is connected to the pressure sensor.

8. The walking robot as claimed in claim 6, wherein the walking robot comprises a control device disposed on the support, the display screen and the pressure sensor are connected to the control device via a spring wire and/or electrically connected to a battery, and the spring wire is disposed in the support rod.

9. The walking robot of claim 1, wherein the walking robot comprises a housing structure, the housing structure comprises a housing case disposed outside the supporting device and a cover case disposed on the top of the housing case, the housing case comprises a front housing and a rear housing fixed together, and the cover case is provided with a through hole for the rod to pass through.

10. The walking robot as claimed in claim 9, wherein one of the housing and the cover housing is provided with a positioning block, and the other is provided with a positioning groove into which the positioning block is inserted.