CN112587871A

CN112587871A - Walking machine with adjustable power generation intensity

Info

Publication number: CN112587871A
Application number: CN202110015108.8A
Authority: CN
Inventors: 蒋春贞
Original assignee: Nanjing Nazhichuan Trading Co ltd
Current assignee: Nanjing Nazhichuan Trading Co ltd
Priority date: 2021-01-06
Filing date: 2021-01-06
Publication date: 2021-04-02

Abstract

The invention discloses a walking machine capable of adjusting power generation strength, which comprises a walking machine base, wherein two closed power generation cavities are arranged in the walking machine base, the two power generation cavities are symmetrical left and right, the power generation and gear shifting device is arranged in the power generation cavity and comprises a gear adjusting shell, two reciprocating pedals are arranged in the power generation and gear shifting device, the power generation and gear shifting device can convert the work of a human body during exercise into mechanical energy, therefore, the invention is further used for generating power, the built-in multi-gear adjusting power generation device can change the generating power by adjusting gears, and can feedback and adjust the exercise intensity, the invention fully utilizes the energy paid by the human body during exercise, converts the energy into electric energy through a series of processes, and can adjust the exercise intensity at the same time, namely, the function of adjusting the exercise intensity in multiple steps is realized, and the scene of exercising the body is fully utilized for generating electricity.

Description

Walking machine with adjustable power generation intensity

Technical Field

The invention relates to the field of fitness equipment, in particular to a walking machine capable of adjusting power generation intensity.

Background

The walking machine is mainly a leg exerciser designed by simulating leg movement of climbing steps and mountaineering, the traditional walking machine controls the exercise intensity by a hydraulic device, the exercise intensity is controlled by the hydraulic device, the work done during the exercise is not generated for production, the energy is consumed directly and is wasted, some fitness equipment also needs extra electric power to obtain the resistance in the exercise, the exercise intensity is adjusted, and the electric energy is wasted and the work done by the exerciser is not utilized.

Disclosure of Invention

The invention aims to provide a walking machine capable of adjusting the power generation intensity, and overcomes the problems.

The invention is realized by the following technical scheme.

The invention relates to a walking machine capable of adjusting power generation intensity, which comprises a walking machine base, wherein two closed power generation cavities are arranged in the walking machine base, the two power generation cavities are bilaterally symmetrical, a power generation gear shifting device is arranged in each power generation cavity, each power generation gear shifting device comprises a gear adjusting shell, a closed gear adjusting cavity is arranged in each gear adjusting shell, a driven shaft is rotatably arranged in each gear adjusting cavity, the driven shaft is rotatably arranged in the lower side wall of each gear adjusting cavity, penetrates through the lower side wall of each gear adjusting cavity, a power generation module is arranged on the lower side of each driven shaft, the power generation module is fixedly arranged at the lower end of each gear adjusting shell, the driven shaft is rotatably arranged at the upper end of each power generation module, a sliding barrel is slidably arranged on the driven shaft, a first driven gear is fixedly arranged on the sliding barrel, a second driven gear is arranged on the lower side of the, the second driven gear is fixedly arranged on the sliding barrels, a third driven gear is arranged on the lower side of the second driven gear, the third driven gear is fixedly arranged on the sliding barrels, a transverse sliding chute is arranged on one side, away from each other, of each of the two sliding barrels, a transverse sliding block is arranged in the transverse sliding chute in a sliding mode, a transverse electromagnet is arranged on one side, away from the driven shaft, of the transverse sliding block, the transverse electromagnet is fixedly arranged on the inner wall of one side, away from the driven shaft, of the transverse sliding chute, the transverse electromagnet is connected with the transverse sliding block through a transverse sliding spring, a transverse sliding connecting block is fixedly arranged at the upper end of the transverse sliding block, a driving shaft is rotatably arranged at the upper end of the transverse sliding connecting block, a first driving gear is fixedly arranged on the driving shaft, a second driving gear is arranged, a third driving gear is arranged on the lower side of the second driving gear and fixedly arranged on the driving shaft;

the pedal device is characterized in that two trampling cavities are arranged on two sides of the power generation cavity, the two trampling cavities are bilaterally symmetrical and are arranged in the walking machine base, the opening of the trampling cavity faces upwards, a trampling motion device is arranged in the trampling cavity and comprises a pedal rotating shaft, the pedal rotating shaft is rotatably arranged between the inner walls of the left side and the right side of the trampling cavity, a pedal is fixedly arranged on the pedal rotating shaft, a pedal cavity with a downward opening is arranged in the pedal, two pedal sliding grooves are arranged in the pedal cavity, the two pedal sliding grooves are bilaterally symmetrical, roller sliders are arranged in the pedal sliding grooves in a sliding manner, a roller shaft is rotatably arranged between the two roller sliders, a roller is fixedly arranged on the roller shaft, the roller and the inner wall of the upper side of the pedal cavity, two curb plate bilateral symmetry, the curb plate rotates to set up on the gyro wheel axle, two the fixed trace that is equipped with of curb plate lower extreme, the trace is close to electricity generation cavity one side is equipped with the linkage spout, the linkage spout sets up trample the cavity and be close to in the electricity generation cavity lateral wall, it is equipped with the linkage slider to slide in the linkage spout, the linkage slider with fixed connection between the trace, the linkage slider is close to electricity generation cavity one end is fixed and is equipped with the linkage connecting block.

Preferably, the driven shaft is kept away from driving shaft one side is equipped with the shift spout, the shift spout sets up the gear is adjusted the cavity and is kept away from in the driving shaft lateral wall, it is equipped with the shift slider to slide in the shift spout, the shift slider is close to the fixed shift connecting block that is equipped with of driven shaft one end, the shift connecting block is close to the fixed bottom plate that is equipped with of driven shaft one end, the bottom plate is close to the fixed two shift forks that are equipped with of driven shaft one end, two shift fork longitudinal symmetry, the shift fork is close to driven shaft one end is equipped with the shift fork opening, shift fork opening upper and lower opening, the driven shaft can pass through the shift fork opening, the slide cartridge can not.

Preferably, the shift fork opening can promote the slide cartridge slides from top to bottom, the third driving gear with third driven gear initial state is the engaged state, the slide cartridge upwards slides one centimetre, the driven shaft with the third driving gear breaks away from the meshing, second driven gear with the same level of second driving gear, the slide cartridge upwards slides two centimetres, first driven gear with the same level of first driving gear, second driven gear with the second driving gear is not at same level, third driven gear with the third driving gear is not at same level.

Preferably, the fixed interlock piece that is equipped with in driving shaft upper end, interlock piece upside is equipped with even axle cavity, even axle cavity sets up in the lateral wall on the gear adjustment cavity, even axle cavity opening down, even axle cavity lateral wall internal rotation is equipped with the transmission axle on the side wall, the transmission axle runs through even axle cavity upper side wall, the fixed linkage shell that is equipped with of transmission axle lower extreme, be equipped with the linkage cavity that open side down in the linkage shell, it is equipped with down the briquetting to slide in the linkage cavity, the briquetting upside is equipped with the linkage electro-magnet down, the linkage electro-magnet is fixed to be set up on the linkage cavity upside inner wall, the linkage electro-magnet with pass through linkage spring coupling between the briquetting down, down the briquetting with when the interlock piece meshes, the briquetting with the interlock piece keeps synchronous rotation down.

Preferably, a linkage rotating shaft is arranged on the upper side of the linkage connecting block, the linkage rotating shaft is rotatably arranged on the inner wall of the power generation cavity close to one side of the treading cavity, a chain wheel is fixedly arranged on the treading cavity, a traction block is arranged at the lower side of the linkage connecting block, the traction block is connected with the inner wall of the lower side of the power generation cavity through a traction spring, the traction block is connected with the linkage connecting block through a chain, the chain is in meshing transmission with the chain wheel, a driving bevel gear is arranged on one side of the chain wheel, which is far away from the treading cavity, the driving bevel gear is fixedly arranged on the linkage rotating shaft, and one side of the driving bevel gear, which is far away from the chain wheel, is provided with a driven bevel gear, the driven bevel gear is fixedly arranged at the upper end of the transmission shaft, and the driven bevel gear and the driving bevel gear are in meshing transmission.

Preferably, the fixed pole setting that is equipped with in walking machine base upper end, the fixed panel that is equipped with in pole setting upper end, the fixed first button that is equipped with in panel upper end, first button left side is equipped with the second button, the second button is fixed to be set up the panel upper end, second button left side is equipped with the third button, the third button is fixed to be set up the panel upper end.

The invention has the beneficial effects that: the built-in multi-gear adjusting power generation device can change the power generation power by adjusting gears and can adjust the exercise intensity in a feedback manner.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the embodiment of the present invention in the direction of A-A in FIG. 1;

FIG. 3 is an enlarged schematic view of the embodiment of the present invention at B in FIG. 1;

FIG. 4 is an enlarged schematic view of the embodiment of the present invention at C in FIG. 1;

FIG. 5 is an enlarged view of the embodiment of the present invention at D in FIG. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The walking machine capable of adjusting the power generation intensity comprises a walking machine base 10, two closed power generation cavities 11 are arranged in the walking machine base 10, the two power generation cavities 11 are bilaterally symmetrical, a power generation gear shifting device 81 is arranged in each power generation cavity 11, each power generation gear shifting device 81 comprises a gear adjusting shell 26, a closed gear adjusting cavity 36 is arranged in each gear adjusting shell 26, a driven shaft 53 is rotatably arranged in each gear adjusting cavity 36, the driven shaft 53 is rotatably arranged in the lower side wall of each gear adjusting cavity 36, the driven shaft 53 penetrates through the lower side wall of each gear adjusting cavity 36, a power generation module 27 is arranged on the lower side of each driven shaft 53, the power generation module 27 is fixedly arranged at the lower end of each gear adjusting shell 26, the driven shaft 53 is rotatably arranged at the upper end of the power generation module 27, a sliding barrel 60 is slidably arranged on the driven shaft 53, a first driven gear 61 is fixedly arranged on the sliding barrel 60, a second driven gear 62 is arranged on the lower side of the first driven gear 61, the second driven gear 62 is fixedly arranged on the sliding barrel 60, a third driven gear 63 is arranged on the lower side of the second driven gear 62, the third driven gear 63 is fixedly arranged on the sliding barrel 60, a transverse sliding groove 48 is arranged on one side, away from each other, of the two sliding barrels 60, a transverse sliding block 49 is arranged in the transverse sliding groove 48 in a sliding manner, a transverse electromagnet 50 is arranged on one side, away from the driven shaft 53, of the transverse sliding block 49, the transverse electromagnet 50 is fixedly arranged on the inner wall of one side, away from the driven shaft 53, of the transverse sliding groove 48, the transverse electromagnet 50 is connected with the transverse sliding block 49 through a transverse spring 51, a transverse connecting block 52 is fixedly arranged at the upper end of the transverse sliding block 49, and a driving shaft 44 is, a first driving gear 45 is fixedly arranged on the driving shaft 44, a second driving gear 46 is arranged on the lower side of the first driving gear 45, the second driving gear 46 is fixedly arranged on the driving shaft 44, a third driving gear 47 is arranged on the lower side of the second driving gear 46, and the third driving gear 47 is fixedly arranged on the driving shaft 44;

the two sides of the power generation cavity 11 are provided with two trampling cavities 28, the two trampling cavities 28 are bilaterally symmetrical, the two trampling cavities 28 are arranged in the walking machine base 10, the openings of the trampling cavities 28 face upwards, trampling motion devices 82 are arranged in the trampling cavities 28, each trampling motion device 82 comprises a pedal rotating shaft 29, each pedal rotating shaft 29 is rotatably arranged between the inner walls of the left side and the right side of the trampling cavity 28, a pedal 12 is fixedly arranged on each pedal rotating shaft 29, a pedal cavity 30 with a downward opening is arranged in each pedal 12, two pedal sliding grooves 31 are arranged in each pedal cavity 30, the two pedal sliding grooves 31 are bilaterally symmetrical, roller sliding blocks 35 are arranged in each pedal sliding groove 31 in a sliding mode, a roller shaft 34 is rotatably arranged between the two roller sliding blocks 35, a roller 33 is fixedly arranged on each roller shaft 34, and the, the utility model discloses a power generation cavity, including gyro wheel 33, gyro wheel 33 left and right sides is equipped with two curb plates 32, two curb plate 32 bilateral symmetry, curb plate 32 rotates and sets up on the gyro wheel axle 34, two the fixed trace 13 that is equipped with of curb plate 32 lower extreme, the trace 13 is close to power generation cavity 11 one side is equipped with linkage spout 15, linkage spout 15 sets up trample cavity 28 and be close to in the lateral wall of power generation cavity 11, it is equipped with linkage slider 16 to slide in the linkage spout 15, linkage slider 16 with fixed connection between the trace 13, linkage slider 16 is close to power generation cavity 11 one end is fixed and is equipped with linkage connecting block 17.

Beneficially, one side of the driving shaft 44, which is far away from the driven shaft 53, is provided with a gear shifting chute 54, the gear shifting chute 54 is arranged in the gear adjusting cavity 36, which is far away from one side wall of the driving shaft 44, a gear shifting slider 55 is slidably arranged in the gear shifting chute 54, the gear shifting slider 55 is close to one end of the driven shaft 53, a gear shifting connecting block 56 is fixedly arranged at one end of the driven shaft 53, the gear shifting connecting block 56 is close to one end of the driven shaft 53, a bottom plate 57 is fixedly arranged at one end of the driven shaft 53, two shifting forks 58 are fixedly arranged at one end of the driven shaft 53, the two shifting forks 58 are vertically symmetrical, a shifting fork opening 59 is arranged at one end of the driven shaft 53, the shifting fork opening 59 is vertically opened, the driven shaft 53 can.

Advantageously, the shift fork opening 59 may push the sliding barrel 60 to slide up and down, the third driving gear 47 and the third driven gear 63 are initially engaged, the sliding barrel 60 slides up by one centimeter, the driven shaft 53 is disengaged from the third driving gear 47, the second driven gear 62 is at the same level as the second driving gear 46, the sliding barrel 60 slides up by two centimeters, the first driven gear 61 is at the same level as the first driving gear 45, the second driven gear 62 is not at the same level as the second driving gear 46, and the third driven gear 63 is not at the same level as the third driving gear 47.

Advantageously, the upper end of the driving shaft 44 is fixedly provided with a bite block 43, the upper side of the bite block 43 is provided with a connecting shaft cavity 37, the connecting shaft cavity 37 is arranged in the upper side wall of the gear adjusting cavity 36, the opening of the connecting shaft cavity 37 faces downwards, a transmission shaft 25 is rotatably arranged on the upper side wall of the connecting shaft cavity 37, the transmission shaft 25 penetrates through the upper side wall of the connecting shaft cavity 37, a linkage shell 38 is fixedly arranged at the lower end of the transmission shaft 25, a linkage cavity 39 with a downward opening is arranged in the linkage shell 38, a lower pressing block 42 is arranged in the linkage cavity 39 in a sliding manner, a linkage electromagnet 40 is arranged on the upper side of the lower pressing block 42, the linkage electromagnet 40 is fixedly arranged on the inner wall of the upper side of the linkage cavity 39, the linkage electromagnet 40 is connected with the lower pressing block 42 through a linkage spring 41, when the lower pressing block 42 is engaged with the engaging block 43, the lower pressing block 42 and the engaging block 43 keep rotating synchronously.

Beneficially, a linkage rotating shaft 18 is arranged on the upper side of the linkage connecting block 17, the linkage rotating shaft 18 is rotatably arranged on the inner wall of the power generation cavity 11 close to the tread cavity 28, a chain wheel 19 is fixedly arranged on the tread cavity 28, a traction block 22 is arranged on the lower side of the linkage connecting block 17, the traction block 22 is connected with the inner wall of the lower side of the power generation cavity 11 through a traction spring 23, the traction block 22 is connected with the linkage connecting block 17 through a chain 20, the chain 20 is in meshing transmission with the chain wheel 19, a drive bevel gear 21 is arranged on the side, away from the tread cavity 28, of the chain wheel 19, the drive bevel gear 21 is fixedly arranged on the linkage rotating shaft 18, a driven bevel gear 24 is arranged on the side, away from the chain wheel 19, of the drive bevel gear 21 is fixedly arranged on the upper end of the transmission, the driven bevel gear 24 and the driving bevel gear 21 are in meshing transmission.

Beneficially, the upper end of the walking machine base 10 is fixedly provided with a vertical rod 64, the upper end of the vertical rod 64 is fixedly provided with a panel 65, the upper end of the panel 65 is fixedly provided with a first button 66, the left side of the first button 66 is provided with a second button 67, the second button 67 is fixedly arranged at the upper end of the panel 65, the left side of the second button 67 is provided with a third button 68, and the third button 68 is fixedly arranged at the upper end of the panel 65.

In the initial state, the lifting spring 14 is in a normal state, the traverse electromagnet 50 is not energized, the traverse spring 51 is in a normal state, the shift slider 55 is at the lowermost side, the interlocking electromagnet 40 is not energized, the interlocking spring 41 is in a normal state, and the lower pressing block 42 is engaged with the engaging block 43.

In an initial state, the first button 66 is pressed by default, at the moment, the third driving gear 47 and the third driven gear 63 are in a meshed state, when the second button 67 is pressed, the first button 66 pops up, the linkage electromagnet 40 is electrified to generate attraction, the linkage electromagnet 40 attracts the lower pressing block 42 to slide upwards, the lower pressing block 42 is disengaged from the meshing block 43, the transverse electromagnet 50 is electrified to generate attraction, the transverse electromagnet 50 attracts the transverse sliding block 49 to move leftwards, the transverse sliding block 49 drives the driving shaft 44 to move leftwards through the transverse connecting block 52, then the gear shifting sliding block 55 slides upwards for one centimeter, the gear shifting sliding block 55 drives the bottom plate 57 to move upwards for one centimeter through the gear shifting connecting block 56, the bottom plate 57 drives the sliding cylinder 60 to slide upwards for one centimeter through the two shifting forks 58, the sliding cylinder 60 drives the first driven gear 61, the second driven gear 62 and the third driven gear 63 to move upwards for one centimeter, at the moment, the third driven gear 63 and the third, the second driven gear 62 and the second driving gear 46 are at the same horizontal height, the first driven gear 61 and the first driving gear 45 are not at the same horizontal height, then the transverse electromagnet 50 is powered off, the transverse moving spring 51 pushes the transverse moving slide block 49 to return to the initial position due to the elastic potential energy of the transverse moving spring 51, the second driving gear 46 is meshed with the second driven gear 62, the sliding cylinder 60 is powered off, the linkage spring 41 pushes the lower pressing block 42 to slide downwards due to the elastic potential energy of the linkage spring 41, and the lower pressing block 42 is meshed with the meshing block 43;

when the third button 68 is pressed, the second button 67 pops up, the linkage electromagnet 40 is electrified to generate attraction, the linkage electromagnet 40 attracts the lower pressing block 42 to slide upwards, the lower pressing block 42 is disengaged from the engaging block 43, the transverse electromagnet 50 is electrified to generate attraction, the transverse electromagnet 50 attracts the transverse sliding block 49 to move leftwards, the transverse sliding block 49 drives the driving shaft 44 to move leftwards through the transverse connecting block 52, then the gear shifting sliding block 55 slides upwards for one centimeter, the gear shifting sliding block 55 drives the bottom plate 57 to move upwards for one centimeter through the gear shifting connecting block 56, the bottom plate 57 drives the sliding barrel 60 to slide upwards for one centimeter through the two shifting forks 58, the sliding barrel 60 drives the first driven gear 61, the second driven gear 62 and the third driven gear 63 to move upwards for one centimeter again, at the moment, the third driven gear 63 and the third driving gear 47 are not at the same horizontal height, the second driven gear 62 and the second driving gear 46 are not at the same, the first driven gear 61 and the first driving gear 45 are at the same horizontal height, then the transverse electromagnet 50 is powered off, the transverse moving spring 51 pushes the transverse moving slide block 49 to return to the initial position due to the elastic potential energy of the transverse moving spring 51, the first driven gear 61 is meshed with the first driving gear 45, the sliding cylinder 60 is powered off, the linkage spring 41 pushes the lower pressing block 42 to slide downwards due to the elastic potential energy of the linkage spring 41, and the lower pressing block 42 is meshed with the meshing block 43;

when the first button 66 is pressed, the third button 68 pops up, the linkage electromagnet 40 is electrified to generate attraction, the linkage electromagnet 40 attracts the lower pressing block 42 to slide upwards, the lower pressing block 42 is disengaged from the engaging block 43, the transverse electromagnet 50 is electrified to generate attraction, the transverse electromagnet 50 attracts the transverse sliding block 49 to move leftwards, the transverse sliding block 49 drives the driving shaft 44 to move leftwards through the transverse connecting block 52, then the gear shifting sliding block 55 slides downwards for two centimeters, the gear shifting sliding block 55 drives the bottom plate 57 to slide downwards for two centimeters through the gear shifting connecting block 56, the bottom plate 57 drives the sliding barrel 60 to move downwards for two centimeters through the two shifting forks 58, the sliding barrel 60 drives the first driven gear 61, the second driven gear 62 and the third driven gear 63 to move downwards for two centimeters, at the moment, the third driven gear 63 and the third driving gear 47 are at the same horizontal height, the second driven gear 62 and the second driving gear 46 are not at the, the first driven gear 61 and the first driving gear 45 are not at the same horizontal height, then the transverse electromagnet 50 is powered off, the transverse moving spring 51 pushes the transverse moving slide block 49 to return to the initial position due to the elastic potential energy of the transverse moving spring 51, the third driving gear 47 is meshed with the third driven gear 63, the sliding cylinder 60 is powered off, the linkage spring 41 pushes the lower pressing block 42 to slide downwards due to the elastic potential energy of the linkage spring 41, and the lower pressing block 42 is meshed with the meshing block 43;

when the pedal 12 is stepped downwards, because the front and back positions of the linkage rod 13 are kept unchanged, the roller 33 rolls from back to front in the pedal cavity 30, the pedal 12 drives the roller slider 35 to move downwards, the roller slider 35 drives the roller shaft 34 to move downwards, the roller shaft 34 drives the linkage rod 13 to move downwards through the two side plates 32, the linkage rod 13 drives the linkage slider 16 to slide downwards, the linkage slider 16 drives the linkage connecting block 17 to move downwards, the linkage connecting block 17 pulls the head end of the chain 20 downwards, the chain 20 drives the chain wheel 19 to rotate through tooth meshing transmission, the chain wheel 19 drives the linkage rotating shaft 18 to rotate, the linkage rotating shaft 18 drives the drive bevel gear 21 to rotate, the drive bevel gear 21 drives the driven bevel gear 24 to rotate through gear meshing transmission, the driven bevel gear 24 drives the transmission shaft 25 to rotate, the transmission shaft 25 drives the linkage shell 38 to rotate, and the linkage shell 38 drives the lower pressing, the lower pressing block 42 drives the meshing block 43 to rotate, the meshing block 43 drives the driving shaft 44 to rotate, the driving shaft 44 drives the first driving gear 45, the second driving gear 46 and the third driving gear 47 to rotate, so that the third driven gear 63, the second driven gear 62 or the first driven gear 61 is driven to rotate through gear meshing transmission, the sliding barrel 60 is driven to rotate, the driven shaft 53 is driven to rotate by the sliding barrel 60, and the driven shaft 53 generates electric energy through the power generation module 27;

when the linkage sliding block 16 moves upwards, at the moment, because the traction spring 23 has elastic potential energy, the traction spring 23 pulls the traction block 22 downwards, the traction block 22 pulls the tail end of the chain 20 downwards, so as to drive the chain wheel 19 to rotate reversely, finally, the transmission shaft 25 is driven to rotate reversely, at the moment, the linkage electromagnet 40 is electrified, the lower pressing block 42 moves upwards, the lower pressing block 42 is not meshed with the meshing block 43, so that the driving shaft 44 does not rotate, the transmission shaft 25 does not receive reaction force, and the pedal 12 can deflect upwards through the thrust of the lifting spring 14.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an adjustable generation intensity's machine of walking with vigorous strides, includes the walking with vigorous strides base, its characterized in that: the walking machine is characterized in that two closed power generation cavities are arranged in the walking machine base and are bilaterally symmetrical, a power generation gear shifting device is arranged in the power generation cavity and comprises a gear adjusting shell, a closed gear adjusting cavity is arranged in the gear adjusting shell, a driven shaft is rotationally arranged in the gear adjusting cavity and is rotationally arranged in the lower side wall of the gear adjusting cavity, the driven shaft penetrates through the lower side wall of the gear adjusting cavity, a power generation module is arranged on the lower side of the driven shaft and is fixedly arranged at the lower end of the gear adjusting shell, the driven shaft is rotationally arranged at the upper end of the power generation module, a sliding barrel is arranged on the driven shaft in a sliding manner, a first driven gear is fixedly arranged on the sliding barrel, a second driven gear is arranged on the lower side of the first driven gear, and is fixedly arranged on the sliding barrel, a third driven gear is arranged below the second driven gear, the third driven gear is fixedly arranged on the sliding barrels, a transverse sliding chute is arranged at one side, away from each other, of each of the two sliding barrels, a transverse sliding block is arranged in the transverse sliding chute in a sliding manner, a transverse electromagnet is arranged at one side, away from the driven shaft, of the transverse sliding chute, the transverse electromagnet is fixedly arranged on the inner wall of one side, away from the driven shaft, of the transverse sliding chute, the transverse electromagnet is connected with the transverse sliding block through a transverse sliding spring, a transverse sliding connecting block is fixedly arranged at the upper end of the transverse sliding block, a driving shaft is rotatably arranged at the upper end of the transverse sliding connecting block, a first driving gear is fixedly arranged on the driving shaft, a second driving gear is arranged below the first driving gear, the second driving gear is fixedly arranged, the third driving gear is fixedly arranged on the driving shaft;

2. The walking machine with adjustable power generation intensity as claimed in claim 1, wherein: the driven shaft is kept away from driving shaft one side is equipped with the shift spout, the shift spout sets up the gear is adjusted the cavity and is kept away from in the driving shaft lateral wall, it is equipped with the shift slider to slide in the shift spout, the shift slider is close to the fixed shift connecting block that is equipped with of driven shaft one end, the shift connecting block is close to the fixed bottom plate that is equipped with of driven shaft one end, the bottom plate is close to the fixed two shift forks that are equipped with of driven shaft one end, two the shift fork longitudinal symmetry, the shift fork is close to driven shaft one end is equipped with the shift fork opening, shift fork opening longitudinal opening, the driven shaft can pass through the shift fork opening, the slide cartridge can not.

3. The walking machine with adjustable power generation intensity as claimed in claim 2, wherein: the shift fork opening can promote the slide cartridge slides from top to bottom, the third driving gear with third driven gear initial state is the engaged state, the slide cartridge upwards slides one centimetre, the driven shaft with the third driving gear breaks away from the meshing, second driven gear with the same level of second driving gear, the slide cartridge upwards slides two centimetres, first driven gear with the same level of first driving gear, second driven gear with the second driving gear is not at same level, third driven gear with the third driving gear is not at same level.

4. The walking machine with adjustable power generation intensity as claimed in claim 1, wherein: the fixed interlock piece that is equipped with in driving shaft upper end, interlock piece upside is equipped with even axle cavity, even axle cavity sets up in the lateral wall on the gear adjustment cavity, even axle cavity opening down, even axle cavity goes up the lateral wall internal rotation and is equipped with the transmission axle, the transmission axle runs through even axle cavity goes up the lateral wall, the fixed linkage shell that is equipped with of transmission axle lower extreme, be equipped with the linkage cavity that open face down in the linkage shell, it is equipped with down the briquetting down to slide in the linkage cavity, the briquetting upside is equipped with the linkage electro-magnet down, the linkage electro-magnet is fixed to be set up on the inner wall of linkage cavity upside, the linkage electro-magnet with pass through linkage spring coupling between the briquetting down, down the briquetting with when the interlock piece meshing, down the briquetting with the interlock piece keeps synchronous rotation.

5. The walking machine with adjustable power generation intensity as claimed in claim 1, wherein: linkage connecting block upside is equipped with the linkage pivot, the linkage pivot rotates to set up the electricity generation cavity is close to trample on the inner wall of cavity one side, trample the fixed sprocket that is equipped with on the cavity, linkage connecting block downside is equipped with the traction block, the traction block with connect through traction spring between the electricity generation cavity downside inner wall, the traction block with connect through the chain between the linkage connecting block, the chain with through the meshing transmission between the sprocket, the sprocket is kept away from trample cavity one side and be equipped with drive bevel gear, drive bevel gear is fixed to be set up in the linkage pivot, drive bevel gear keeps away from sprocket one side is equipped with driven bevel gear, driven bevel gear is fixed to be set up transmission axle upper end, driven bevel gear with through the meshing transmission between the drive bevel gear.

6. The walking machine with adjustable power generation intensity as claimed in claim 1, wherein: the fixed pole setting that is equipped with in walking machine base upper end, the fixed panel that is equipped with in pole setting upper end, the fixed first button that is equipped with in panel upper end, first button left side is equipped with the second button, the second button is fixed to be set up the panel upper end, second button left side is equipped with the third button, the third button is fixed to be set up the panel upper end.