CN110711349A

CN110711349A - Indoor running training machine and using method thereof

Info

Publication number: CN110711349A
Application number: CN201910987945.XA
Authority: CN
Inventors: 周伟
Original assignee: Yancheng Vocational Institute of Industry Technology
Current assignee: Yancheng Vocational Institute of Industry Technology
Priority date: 2019-10-17
Filing date: 2019-10-17
Publication date: 2020-01-21
Anticipated expiration: 2039-10-17
Also published as: CN110711349B

Abstract

The invention discloses an indoor running training machine which comprises a running platform with the front end tilted upwards, wherein a running belt is arranged on the running platform; a motor in the running platform can drive the running belt to run; the two sides of the bottom of the tail end of the running platform are provided with rollers; a horizontal hard platform pad is arranged below the running platform, and the roller is in rolling fit with the hard platform pad; the front seat is fixedly arranged at the front end of the hard platform cushion and comprises a left front seat and a right front seat which are bilaterally symmetrical, and two vertical handrail frames are fixedly connected to the upper sides of the left front seat and the right front seat respectively; the upper end of each armrest frame is fixedly connected with an armrest extending backwards; the damping air chamber has a simple structure, and the damping air chamber is adopted, so that the damping process is more stable; the rebound process is softer; the vibration intensity is reduced; meanwhile, part of the impact energy is used for continuously supplementing air to the air bag, and the air blowing effect on the sportsman is further achieved.

Description

Indoor running training machine and using method thereof

Technical Field

The invention belongs to the field of treadmills.

Background

The damping mechanism of the treadmill can effectively protect the knees of a sporter from being impacted, and the existing damping mechanism has the problems of unstable damping force and overlarge resilience force of the damping plate; and certain impact energy can be generated in the shock absorption process, and the existing running machine does not utilize the energy.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the prior art, the invention provides an indoor running training machine with better and stable damping effect and a using method thereof.

The technical scheme is as follows: in order to achieve the purpose, the indoor running training machine comprises a running platform with the front end upwards tilted, wherein a running belt is arranged on the running platform; a motor in the running platform can drive the running belt to run;

the two sides of the bottom of the tail end of the running platform are provided with rollers; a horizontal hard platform pad is arranged below the running platform, and the roller is in rolling fit with the hard platform pad; the front seat is fixedly arranged at the front end of the hard platform cushion and comprises a left front seat and a right front seat which are bilaterally symmetrical, and two vertical handrail frames are fixedly connected to the upper sides of the left front seat and the right front seat respectively; the upper end of each handrail frame is fixedly connected with a handrail which extends backwards.

Furthermore, a dial is fixedly connected between the upper ends of the two handrail frames through a support.

Furthermore, the left front seat and the right front seat are fixedly connected through a horizontal base.

Furthermore, a transverse hollow cylinder is arranged in the middle between the left front seat and the right front seat, the left end of the hollow cylinder is coaxially connected with a cylindrical left sliding rod, and the right end of the hollow cylinder is coaxially connected with a cylindrical right sliding rod; the left end of the left sliding rod is fixedly connected with the left front seat, and the right end of the right sliding rod is fixedly connected with the right front seat; the lower end of the hollow column body is fixedly supported and connected with the base through a plurality of supporting columns; the upper side of the middle part of the hollow column body is fixedly connected with a guide column which vertically extends upwards;

a horizontal damping plate is arranged above the hollow column body, and the strip-shaped damping plate extends towards the left and right directions; a guide hole is vertically arranged in the middle of the damping plate in a penetrating manner, and the guide pillar upwards and coaxially movably penetrates through the guide hole;

the lower end of the guide pillar is also coaxially provided with a spring baffle disc, a first return spring is arranged between the spring baffle disc and the damping plate, and the first return spring is sleeved on the guide pillar;

the front end fixedly connected with length direction of running platform is along controlling the banding connecting plate body that extends, the connecting plate body passes through the articulated shock attenuation board in connection the place ahead of articulated elements.

Furthermore, a coaxial piston hollow movable column cavity is arranged in the hollow column body, and a left piston disc and a right piston disc are symmetrically arranged in the piston hollow movable column cavity in a left-right mode with the same axis;

in the hollow movable piston cylinder cavity, a damping air chamber is formed between the left piston disc and the right piston disc, a left air inlet cavity is formed on the left side of the left piston disc, and a right air inlet cavity is formed on the right side of the right piston disc;

a left spring support and a right spring support are coaxially and bilaterally symmetrically arranged in the damping air chamber, and are respectively and fixedly connected with the left piston disc and the right piston disc through a left connecting rod and a right connecting rod; a second return spring is coaxially arranged in the damping air chamber, and two ends of the second return spring are coaxially propped in the left spring support and the right spring support respectively;

a left check valve is arranged on the left piston disc, and gas in the left gas inlet cavity can be guided into the damping air chamber through the left check valve; a right one-way valve is arranged on the right piston disc, and gas in the right gas inlet cavity can be guided into the damping air chamber through the right one-way valve;

a first air guide channel is coaxially arranged in the guide pillar, the lower end of the first air guide channel is communicated with the damping air chamber, and a one-way valve with an upward conduction direction is arranged in the first air guide channel; a flow limiting cylinder is coaxially embedded in the first air guide channel, a flow limiting channel which is communicated up and down is arranged on the inner side of the flow limiting cylinder, and the inner diameter of the flow limiting channel is smaller than that of the first air guide channel;

the outer edges of the left piston disc and the right piston disc are respectively integrated and coaxially provided with a left cylinder body and a right cylinder body, the outer wall of the left cylinder body is coaxially provided with a plurality of rings of left piston sealing rings, and the outer edge of each left piston sealing ring is in sliding fit with the inner wall of the hollow movable column cavity of the piston; the outer wall of the right cylinder body is coaxially provided with a plurality of rings of right piston sealing rings, and the outer edge of each right piston sealing ring is in sliding fit with the inner wall of the hollow movable column cavity of the piston;

a left air inlet channel and a right air inlet channel are respectively arranged in the left sliding rod and the right sliding rod coaxially, and are respectively communicated with the left air inlet cavity and the right air inlet cavity coaxially; a left piston push rod and a right piston push rod are coaxially arranged in the left air inlet channel and the right air inlet channel respectively; one end of the left piston push rod is fixedly connected with the left piston disc with the same axis, and one end of the right piston push rod is connected with the right piston disc with the same axis;

the left sliding rod and the right sliding rod are respectively sleeved with two sliding rings in a coaxial sliding manner, the upper sides of the left sliding rod and the right sliding rod are symmetrically hollowed along the length direction to form two air grooves, a connecting piece is movably arranged in each air groove, and the two sliding rings are respectively fixedly connected with the other end of the left sliding rod and the other end of the right sliding rod through the two connecting pieces;

two ends of the bottom of the damping plate are symmetrically provided with two first hinge seats respectively; the two sliding rings are respectively and fixedly provided with a second hinge seat; the connecting rod mechanism further comprises two connecting rods which are bilaterally symmetrical and the lower ends of which are inclined inwards, the upper end of each connecting rod is hinged with the first hinged seat, and the lower end of each connecting rod is hinged with the second hinged seat; the downward displacement of the damping plate enables the two connecting rods to drive the two sliding rings to respectively move to gradually approach the hollow column body;

further, an air bag box body is arranged in the middle between the two handrail frames, and two sides of the air bag box body are fixedly supported with the handrail frames through a plurality of transverse supports; an elastic pressure-accumulating air bag is arranged in the air bag box body, an air bag expansion cavity is arranged in the elastic pressure-accumulating air bag, and a plurality of balance holes are hollowed in the wall surface of the air bag box body; the upper end and the lower end of the elastic pressure-accumulating air bag are respectively provided with an upper joint and a lower joint, the lower joint is fixedly connected with the guide pillar, and the lower joint is communicated with the upper end of the first air guide channel;

the upper side of the air bag box body is fixedly connected with a vertical air guide pipe, an air guide channel is coaxially arranged in the air guide pipe, a pressure release valve is arranged in the air guide channel, and the lower end of the air guide channel is communicated with the upper joint; the upper end of the air guide pipe is fixedly connected with an air box in an inclined state, an air collecting cavity is formed in the air box, the upper end of the air guide channel is communicated with the air collecting cavity in the air box, and a plurality of air outlet holes are uniformly distributed and hollowed on one side face, close to the running platform, of the air box.

Furthermore, each left piston sealing ring and each right piston sealing ring are made of rubber flexible materials.

Further, the use method and the working principle of the indoor running training machine are as follows:

when no sporter exists on the running platform, the front end of the running platform tilts upwards by a preset gradient under the rebounding action of the first return spring and the second return spring;

when the sporter runs on the running belt, when the sporter pedals the running belt downwards by feet, the front end of the running platform can downwards drive the damping plate to downwards displace for a certain distance together under the impact of pedals of the sporter, and when the sporter is separated from the running belt, the front end of the running platform can upwards tilt again for a preset gradient under the rebounding action of the first return spring and the second return spring; meanwhile, the roller at the tail end of the running platform can roll on the hard platform cushion in a self-adapting manner;

according to the rule, when the sporter runs on the running belt, the damping plate can periodically move downwards and rebound upwards;

the damping plate is impacted by the pedal to move downwards, the downwards movement of the damping plate enables the two connecting rods to drive the two sliding rings to respectively move to be gradually close to the hollow cylinder, the mutual close movement of the two sliding rings enables the right piston push rod and the left piston push rod to respectively drive the right piston disc and the left piston disc to move to be mutually close, the mutual close movement between the right piston disc and the left piston disc enables the gas in the damping air chamber to be rapidly compressed, the compressed gas in the damping air chamber cannot instantly enter the elastic air bag through the first gas guide channel due to the effect of the flow limiting cylinder, and then the rebound force of the right piston disc and the left piston disc is formed in the damping air chamber, the trend that the right piston disc and the left piston disc are continuously close to each other is buffered, and the downward movement of the damping plate is buffered, because the gas in the damping air chamber is gradually compressed, part of compressed gas can enter the elastic air bag through the first gas guide channel, and due to the existence of the one-way valve, the gas in the elastic air bag can not flow back to the damping air chamber, so that the effect of continuously weakening the resilience of the damping air chamber to the right piston disc and the left piston disc is achieved, the phenomenon that the resilience is larger and larger after the damping air chamber is compressed is effectively prevented, and the damping and buffering process of the damping plate is more stable; when the damping plate moves upwards, the right piston disc and the left piston disc start to move away from each other under the resilience action of the first return spring and the second return spring, negative pressure is formed in the damping air chamber due to the increase of the volume, the resilience speed of the springs is weakened, the resilience vibration strength is reduced, and meanwhile, under the action of the negative pressure, air in the left air inlet cavity is guided into the damping air chamber through the left one-way valve; the air in the right air inlet cavity is guided into the damping air chamber through the right one-way valve, and the normal pressure state in the damping air chamber is maintained; meanwhile, external air can be supplemented into the left air inlet cavity and the right air inlet cavity through the vent grooves, the left air inlet channel and the right air inlet channel;

along with the continuous progress of the running sportsman, the air is continuously introduced into the elastic air bag, so that the elastic air bag gradually expands, after the elastic air bag gradually expands to a preset size, the air pressure in the air bag cavity can reach the pressure relief threshold value of the pressure relief valve, and the pressure relief valve can be continuously opened due to the continuous air inlet in the air bag cavity, so that the air in the air bag cavity with relatively constant expansion size can continuously flow into the air collecting cavity in the air box through the air guide channel, and further the stable positive pressure is formed in the air collecting cavity, and the elastic air bag structure can avoid the phenomenon that the air pressure in the air collecting cavity is unstable because the first air guide channel is directly connected with the air collecting cavity; finally, the pressure-accumulating gas in the wind collecting cavity is blown to the chest of the runner in a wind mode through the plurality of air outlet holes, and then the wind blowing effect on the sportsman is achieved.

Has the advantages that: the damping air chamber has a simple structure, and the damping air chamber is adopted, so that the damping process is more stable; the rebound process is softer; the vibration intensity is reduced; meanwhile, part of the impact energy is used for continuously supplementing air to the air bag, and the air blowing effect on the sportsman is further achieved.

Drawings

FIG. 1 is a first overall structural schematic of the treadmill;

FIG. 2 is a second overall schematic of the treadmill;

FIG. 3 is an enlarged schematic view of the treadmill at the hinge;

FIG. 4 is a side view of the treadmill at the hinge;

FIG. 5 is a schematic structural view of a hollow column;

FIG. 6 is a schematic view of a cut-away structure within a hollow column;

FIG. 7 is a schematic view of a partial structure at a connecting rod;

FIG. 8 is a schematic structural view of an airbag case;

FIG. 9 is a schematic sectional view of the inside of the airbag housing.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The indoor running training machine as shown in fig. 1 to 9 comprises a running platform 61 with an upward tilted front end, wherein a running belt 62 is mounted on the running platform 61; a motor in the running platform 61 can drive the running belt 62 to run;

two sides of the bottom of the tail end of the running platform 61 are provided with rollers 63; a horizontal hard platform pad 82 is arranged below the running platform, and the rollers 63 are in rolling fit with the hard platform pad 82; the front seat 83 is fixedly arranged at the front end of the hard platform pad 82, the front seat 83 comprises a left front seat 91 and a right front seat 73 which are bilaterally symmetrical, and two vertical handrail frames 84 are respectively and fixedly connected to the upper sides of the left front seat 91 and the right front seat 73; an upper end of each of the armrest frames 84 is fixedly connected with an armrest 86 extending rearward.

A dial 85 is fixedly connected between the upper ends of the two armrest frames 84 through a bracket.

The left front seat 91 and the right front seat 73 are fixedly connected through a horizontal base 40.

A transverse hollow cylinder 30 is arranged in the middle between the left front seat 91 and the right front seat 73, the left end of the hollow cylinder 30 is coaxially connected with a cylindrical left sliding rod 35, and the right end of the hollow cylinder 30 is coaxially connected with a cylindrical right sliding rod 23; the left end of the left sliding rod 35 is fixedly connected with the left front seat 91, and the right end of the right sliding rod 23 is fixedly connected with the right front seat 73; the lower end of the hollow column 30 is fixedly supported and connected with the base 40 through a plurality of supporting columns 38; the upper side of the middle part of the hollow column 30 is fixedly connected with a guide post 25 which extends vertically and upwards;

a horizontal damping plate 27 is arranged above the hollow column 30, and the strip-shaped damping plate 27 extends in the left-right direction; a guide hole 24 is vertically arranged in the middle of the damping plate 27 in a penetrating manner, and the guide post 25 axially and movably penetrates through the guide hole 24;

a spring stop disc 33 is coaxially arranged at the lower end of the guide post 25, a first return spring 34 is arranged between the spring stop disc 33 and the damping plate 27, and the first return spring 34 is sleeved on the guide post 25;

the front end of the running platform 61 is fixedly connected with a strip-shaped connecting plate body 64 extending left and right along the length direction, and the connecting plate body 64 is hinged with the front shock absorption plate 27 through a hinge 65.

The hollow cylinder 30 is internally provided with a coaxial piston hollow movable cylinder cavity, and a left piston disc 29 and a right piston disc 20 are symmetrically arranged in the piston hollow movable cylinder cavity along the same axis in a left-right mode;

in the hollow movable piston cylinder cavity, a damping air chamber 4 is formed between the left piston disc 29 and the right piston disc 20, a left air inlet cavity 13 is formed on the left side of the left piston disc 29, and a right air inlet cavity 7 is formed on the right side of the right piston disc 20;

a left spring support 32 and a right spring support 22 are coaxially and bilaterally symmetrically arranged in the damping air chamber 4, and the left spring support 32 and the right spring support 22 are respectively and fixedly connected with the left piston disc 29 and the right piston disc 20 through a left connecting rod 31 and a right connecting rod 21; a second return spring 3 is coaxially arranged in the damping air chamber 4, and two ends of the second return spring 3 are coaxially pressed in the left spring support 32 and the right spring support 22 respectively;

the left piston disc 29 is provided with a left check valve 1, and gas in the left air inlet cavity 13 can be led into the damping air chamber 4 through the left check valve 1; a right check valve 8 is arranged on the right piston disc 20, and gas in the right air inlet cavity 7 can be led into the damping air chamber 4 through the right check valve 8;

a first air guide channel 26 is coaxially arranged in the guide post 25, the lower end of the first air guide channel 26 is communicated with the damping air chamber 4, and a one-way valve 103 with an upward conduction direction is arranged in the first air guide channel 26; a flow-limiting cylinder 100 is coaxially embedded in the first air guide channel 26, a flow-limiting channel 101 which is through up and down is arranged on the inner side of the flow-limiting cylinder 100, and the inner diameter of the flow-limiting channel 101 is smaller than that of the first air guide channel 26;

the outer edges of the left piston disc 29 and the right piston disc 20 are respectively integrally and coaxially provided with a left cylinder body 14 and a right cylinder body 5, the outer wall of the left cylinder body 14 is coaxially provided with a plurality of rings of left piston sealing rings 2, and the outer edge of each left piston sealing ring 2 is in sliding fit with the inner wall of the hollow movable column cavity of the piston; a plurality of rings of right piston sealing rings 6 are coaxially arranged on the outer wall of the right cylinder 5, and the outer edge of each right piston sealing ring 6 is in sliding fit with the inner wall of the hollow movable column cavity of the piston;

a left air inlet channel 36 and a right air inlet channel 9 are coaxially arranged inside the left sliding rod 35 and the right sliding rod 23 respectively, and the left air inlet channel 36 and the right air inlet channel 9 are coaxially communicated with the left air inlet cavity 13 and the right air inlet cavity 7 respectively; a left piston push rod 15 and a right piston push rod 17 are coaxially arranged in the left air inlet channel 36 and the right air inlet channel 9 respectively; one end of the left piston push rod 15 is coaxially and fixedly connected with the left piston disc 29, and one end of the right piston push rod 17 is coaxially connected with the right piston disc 20;

the left sliding rod 35 and the right sliding rod 23 are respectively coaxially and slidably sleeved with two sliding rings 10, the upper sides of the left sliding rod 35 and the right sliding rod 23 are symmetrically provided with two air grooves 18 in a hollow manner along the length direction, a connecting piece 11 is movably arranged in each air groove 18, and the two sliding rings 10 are respectively fixedly connected with the other end of the left sliding rod 35 and the other end of the right sliding rod 23 through the two connecting pieces 11;

two ends of the bottom of the damping plate 27 are respectively and symmetrically provided with two first hinge seats 16; the two sliding rings 10 are respectively and fixedly provided with a second hinge seat 12; the two connecting rods 28 are symmetrical left and right, the lower ends of the two connecting rods 28 incline inwards, the upper end of each connecting rod 28 is hinged with the first hinged seat 16, and the lower end of each connecting rod 28 is hinged with the second hinged seat 12; the downward displacement of the damping plate 27 causes the two connecting rods 28 to drive the two sliding rings 10 to respectively move to gradually approach the hollow column 30;

an air bag box body 41 is arranged in the middle between the two armrest frames 84, and two sides of the air bag box body 41 are fixedly supported with the armrest frames 84 through a plurality of transverse supports; an elastic pressure accumulation air bag 42 is arranged in the air bag box body 41, an air bag expansion cavity 49 is formed in the elastic pressure accumulation air bag 42, and a plurality of balance holes 50 are hollowed in the wall surface of the air bag box body 41; the upper end and the lower end of the elastic pressure accumulating air bag 42 are respectively provided with an upper joint 47 and a lower joint 48, the lower joint 48 is fixedly connected with the guide post 25, and the lower joint 48 is communicated with the upper end of the first air guide channel 26;

a vertical air guide pipe 70 is fixedly connected to the upper side of the air bag box body 41, an air guide channel 44 is coaxially arranged in the air guide pipe 70, a pressure release valve 46 is arranged in the air guide channel 44, and the lower end of the air guide channel 44 is communicated with the upper joint 47; the upper end of the air guide pipe 70 is fixedly connected with an air box 69 in an inclined state, an air collecting cavity is arranged inside the air box 69, the upper end of the air guide channel 44 is communicated with the air collecting cavity in the air box 69, and a plurality of air outlet holes 68 are uniformly distributed and hollowed on one side surface of the air box 69, which is close to the running platform 61.

Each left piston sealing ring 2 and each right piston sealing ring 6 are made of rubber flexible materials.

The working principle and the energy utilization process of the damping mechanism of the treadmill are as follows:

when no sporter is on the running platform 61, under the rebounding action of the first return spring 34 and the second return spring 3, the front end of the running platform 61 tilts upwards by a preset gradient;

when the sporter runs on the running belt 62, when the sporter pedals the running belt 62 downwards with his feet, the front end of the running platform 61 will drive the damping plate 27 downwards to displace a certain distance together under the impact of the feet of the sporter, and when the sporter is separated from the running belt 62, the front end of the running platform 61 will tilt upwards again by a predetermined slope under the resilience of the first return spring 34 and the second return spring 3; meanwhile, the rollers 63 at the tail end of the running platform 61 can roll on the hard platform pad 82 in an adaptive manner;

according to the above rule, when the sporter runs on the running belt 62, the damping plate 27 will periodically displace downwards and spring back upwards;

when the damping plate 27 is displaced downwards due to the impact of foot pedal, the two connecting rods 28 are driven by the downward displacement of the damping plate 27 to drive the two sliding rings 10 to respectively move to gradually approach the hollow cylinder 30, the mutual approaching motion of the two sliding rings 10 causes the right piston push rod 17 and the left piston push rod 15 to respectively drive the right piston disc 20 and the left piston disc 29 to move to mutually approach, the mutual approaching motion between the right piston disc 20 and the left piston disc 29 causes the gas in the damping air chamber 4 to be rapidly compressed, due to the action of the flow limiting cylinder 100, the compressed gas in the damping air chamber 4 cannot instantly enter the elastic air bag 42 through the first air guide channel 26, so that the damping air chamber 4 forms the bounce force to the right piston disc 20 and the left piston disc 29, and plays a role in buffering and inhibiting the tendency that the right piston disc 20 and the left piston disc 29 continue to approach each other, and further plays a role in buffering the downward movement of the damping plate 27, because the gas in the damping air chamber 4 is gradually compressed, part of the compressed gas can enter the elastic air bag 42 through the first gas guide channel 26, and because of the existence of the one-way valve 103, the gas in the elastic air bag 42 can not flow back to the damping air chamber 4, so as to play a role in continuously weakening the resilience of the damping air chamber 4 to the right piston disc 20 and the left piston disc 29, effectively prevent the phenomenon that the resilience of the damping air chamber 4 is increasingly larger after being compressed, and further enable the damping and buffering process of the damping plate 27 to be more stable; when the damping plate 27 moves upwards, under the rebounding action of the first return spring 34 and the second return spring 3, the right piston disc 20 and the left piston disc 29 start to move away from each other, at this time, a negative pressure is formed in the damping air chamber 4 due to the increase of the volume, the rebounding speed of the springs is weakened, the rebounding vibration strength is reduced, and meanwhile, under the action of the negative pressure, the gas in the left air inlet cavity 13 is guided into the damping air chamber 4 through the left check valve 1; the gas in the right gas inlet cavity 7 is introduced into the damping gas chamber 4 through the right one-way valve 8, and the normal pressure state in the damping gas chamber 4 is maintained; meanwhile, external air is supplemented into the left air inlet cavity 13 and the right air inlet cavity 7 through the vent grooves 18, the left air inlet channel 36 and the right air inlet channel 9;

along with the continuous progress of the running sportsman, the air is continuously introduced into the elastic air bag 42, so that the elastic air bag 42 gradually expands, after the elastic air bag 42 gradually expands to a preset size, the air pressure in the air bag cavity 49 can reach the pressure relief threshold value of the pressure relief valve 46, because the air can continuously enter the air bag cavity 49, the pressure relief valve 46 can be continuously opened, so that the air in the air bag cavity 49 with relatively constant expansion size can continuously flow into the air collecting cavity in the air box 69 through the air guide channel 44, so that the stable positive pressure is formed in the air collecting cavity, and the structure of the elastic air bag 42 can avoid the phenomenon that the first air guide channel 26 is directly connected with the air collecting cavity, so that the air pressure in the air collecting cavity is unstable; finally, the pressure-accumulating gas in the wind collecting cavity is blown to the chest position of the runner in a wind mode through the plurality of air outlet holes 68, and then the wind blowing effect on the sportsman is achieved.

The above description is only of the preferred embodiments of the present invention, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the invention and these are intended to be within the scope of the invention.

Claims

1. An indoor running training machine comprises a running platform (61) with the front end tilted upwards, wherein a running belt (62) is arranged on the running platform (61); a motor in the running platform (61) can drive the running belt (62) to run;

the method is characterized in that: two sides of the bottom of the tail end of the running platform (61) are provided with rollers (63); a horizontal hard platform pad (82) is arranged below the running platform, and the rollers (63) are in rolling fit with the hard platform pad (82); a front seat (83) is fixedly arranged at the front end of the hard platform pad (82), the front seat (83) comprises a left front seat (91) and a right front seat (73) which are bilaterally symmetrical, and two vertical handrail frames (84) are respectively and fixedly connected to the upper sides of the left front seat (91) and the right front seat (73); the upper end of each armrest frame (84) is fixedly connected with an armrest (86) extending backwards.

2. An indoor running trainer as claimed in claim 1 wherein: a dial (85) is fixedly connected between the upper ends of the two handrail frames (84) through a bracket.

3. An indoor running trainer as claimed in claim 2 wherein: the left front seat (91) and the right front seat (73) are fixedly connected through a horizontal base (40).

4. An indoor running trainer as claimed in claim 3 wherein: a transverse hollow cylinder (30) is arranged in the middle between the left front seat (91) and the right front seat (73), the left end of the hollow cylinder (30) is coaxially connected with a cylindrical left sliding rod (35), and the right end of the hollow cylinder (30) is coaxially connected with a cylindrical right sliding rod (23); the left end of the left sliding rod (35) is fixedly connected with the left front seat (91), and the right end of the right sliding rod (23) is fixedly connected with the right front seat (73); the lower end of the hollow column (30) is fixedly supported and connected with the base (40) through a plurality of supporting columns (38); the upper side of the middle part of the hollow column body (30) is fixedly connected with a guide post (25) which extends vertically and upwards;

a horizontal damping plate (27) is arranged above the hollow column (30), and the strip-shaped damping plate (27) extends in the left-right direction; a guide hole (24) is vertically arranged in the middle of the damping plate (27) in a penetrating manner, and the guide post (25) upwards coaxially and movably penetrates through the guide hole (24);

the lower end of the guide post (25) is also coaxially provided with a spring stop disc (33), a first return spring (34) is arranged between the spring stop disc (33) and the damping plate (27), and the first return spring (34) is sleeved on the guide post (25);

the front end fixedly connected with length direction of running platform (61) is along controlling banding connecting plate body (64) that extends, connecting plate body (64) pass through articulated elements (65) articulated shock attenuation board (27) in connection the place ahead.

5. An indoor running trainer as claimed in claim 4 wherein: the hollow cylinder (30) is internally provided with a coaxial piston hollow movable cylinder cavity, and a left piston disc (29) and a right piston disc (20) are symmetrically arranged in the piston hollow movable cylinder cavity in a left-right manner with the same axis;

in the piston hollow movable column cavity, a damping air chamber (4) is formed between the left piston disc (29) and the right piston disc (20), a left air inlet cavity (13) is formed on the left side of the left piston disc (29), and a right air inlet cavity (7) is formed on the right side of the right piston disc (20);

a left spring support (32) and a right spring support (22) are coaxially and bilaterally symmetrically arranged in the damping air chamber (4), and the left spring support (32) and the right spring support (22) are respectively and fixedly connected with the left piston disc (29) and the right piston disc (20) through a left connecting rod (31) and a right connecting rod (21); a second return spring (3) is coaxially arranged in the damping air chamber (4), and two ends of the second return spring (3) are coaxially pressed in the left spring support (32) and the right spring support (22) respectively;

a left check valve (1) is arranged on the left piston disc (29), and gas in the left air inlet cavity (13) can be led into the damping air chamber (4) through the left check valve (1); a right one-way valve (8) is arranged on the right piston disc (20), and gas in the right air inlet cavity (7) can be led into the damping air chamber (4) through the right one-way valve (8);

a first air guide channel (26) is coaxially arranged in the guide post (25), the lower end of the first air guide channel (26) is communicated with the damping air chamber (4), and a one-way valve (103) with an upward conduction direction is arranged in the first air guide channel (26); a flow limiting cylinder (100) is coaxially embedded in the first air guide channel (26), a flow limiting channel (101) which is communicated up and down is arranged on the inner side of the flow limiting cylinder (100), and the inner diameter of the flow limiting channel (101) is smaller than that of the first air guide channel (26);

the outer edges of the left piston disc (29) and the right piston disc (20) are respectively integrated and coaxially provided with a left cylinder body (14) and a right cylinder body (5), the outer wall of the left cylinder body (14) is coaxially provided with a plurality of rings of left piston sealing rings (2), and the outer edge of each left piston sealing ring (2) is in sliding fit with the inner wall of the hollow movable column cavity of the piston; the outer wall of the right cylinder body (5) is coaxially provided with a plurality of rings of right piston sealing rings (6), and the outer edge of each right piston sealing ring (6) is in sliding fit with the inner wall of the hollow movable column cavity of the piston;

a left air inlet channel (36) and a right air inlet channel (9) are respectively and coaxially arranged inside the left sliding rod (35) and the right sliding rod (23), and the left air inlet channel (36) and the right air inlet channel (9) are respectively and coaxially communicated with the left air inlet cavity (13) and the right air inlet cavity (7); a left piston push rod (15) and a right piston push rod (17) are coaxially arranged in the left air inlet channel (36) and the right air inlet channel (9) respectively; one end of the left piston push rod (15) is fixedly connected with the left piston disc (29) with the same axle center, and one end of the right piston push rod (17) is connected with the right piston disc (20) with the same axle center;

the left sliding rod (35) and the right sliding rod (23) are respectively sleeved with two sliding rings (10) in a coaxial sliding mode, the upper sides of the left sliding rod (35) and the right sliding rod (23) are symmetrically provided with two air through grooves (18) in a hollowed mode along the length direction, a connecting piece (11) is movably arranged in each air through groove (18), and the two sliding rings (10) are fixedly connected with the other end of the left sliding rod (35) and the other end of the right sliding rod (23) through the two connecting pieces (11) respectively;

two ends of the bottom of the damping plate (27) are respectively and symmetrically provided with two first hinge seats (16); the two sliding rings (10) are respectively and fixedly provided with a second hinge seat (12); the connecting rod hinge structure further comprises two connecting rods (28) which are bilaterally symmetrical and the lower ends of which are inclined inwards, the upper end of each connecting rod (28) is hinged with the first hinge seat (16), and the lower end of each connecting rod (28) is hinged with the second hinge seat (12); the downward displacement of the damping plate (27) enables the two connecting rods (28) to drive the two sliding rings (10) to respectively move to gradually approach the hollow column body (30).

6. An indoor running trainer as claimed in claim 5 wherein: an air bag box body (41) is arranged in the middle between the two armrest frames (84), and two sides of the air bag box body (41) are fixedly supported with the armrest frames (84) through a plurality of transverse supports; an elastic pressure-accumulating air bag (42) is arranged in the air bag box body (41), an air bag expansion cavity (49) is formed in the elastic pressure-accumulating air bag (42), and a plurality of balance holes (50) are hollowed in the wall surface of the air bag box body (41); the upper end and the lower end of the elastic pressure accumulation air bag (42) are respectively provided with an upper joint (47) and a lower joint (48), the lower joint (48) is fixedly connected with the guide post (25), and the lower joint (48) is communicated with the upper end of the first air guide channel (26);

a vertical air guide pipe (70) is fixedly connected to the upper side of the air bag box body (41), an air guide channel (44) is coaxially arranged in the air guide pipe (70), a pressure release valve (46) is arranged in the air guide channel (44), and the lower end of the air guide channel (44) is communicated with the upper joint (47); the upper end of the air guide pipe (70) is fixedly connected with an air box (69) in an inclined state, an air collecting cavity is formed in the air box (69), the upper end of the air guide channel (44) is communicated with the air collecting cavity in the air box (69), and a plurality of air outlet holes (68) are uniformly distributed and hollowed on one side surface, close to the running platform (61), of the air box (69).

7. An indoor running trainer as claimed in claim 6 wherein: each left piston sealing ring (2) and each right piston sealing ring (6) are made of rubber flexible materials.

8. A method of using an indoor treadmill training machine as recited in claim 6, further comprising:

the shock absorption plate (27) can periodically displace downwards and rebound upwards in the process of running on the running belt (62); when the damping plate (27) is impacted by foot pedals to move downwards, the two connecting rods (28) are driven by the downward displacement of the damping plate (27) to drive the two sliding rings (10) to respectively move to gradually approach the hollow cylinder (30), the mutual approaching motion of the two sliding rings (10) enables the right piston push rod (17) and the left piston push rod (15) to respectively drive the right piston disc (20) and the left piston disc (29) to move to mutually approach, the mutual approaching motion between the right piston disc (20) and the left piston disc (29) enables gas in the damping air chamber (4) to be rapidly compressed, and due to the effect of the flow limiting cylinder (100), the compressed gas in the damping air chamber (4) cannot instantly enter the elastic air bag (42) through the first air guide channel (26), so that the damping air chamber (4) forms rebound force for the right piston disc (20) and the left piston disc (29), and the trend of buffering and inhibiting the right piston disc (20) and the left piston disc (29) from continuously approaching each other is achieved, further play the cushioning effect to the damping plate (27) downstream, because the gas in the damping air chamber (4) is in the in-process of being compressed gradually, the gas that partly compressed still can get into in the elasticity gasbag (42) through first air guide passageway (26), and because the existence of check valve (103), the gas in the elasticity gasbag (42) can not flow back to damping air chamber (4), and then play and weaken the effect of resilience of damping air chamber (4) to right piston dish (20) and left piston dish (29) continuously, effectively prevent the phenomenon that the resilience force is bigger and bigger after the damping air chamber (4) is compressed, and then make the damping buffering process of damping plate (27) more steady; when the damping plate (27) moves upwards, under the rebound action of the first return spring (34) and the second return spring (3), the right piston disc (20) and the left piston disc (29) start to move away from each other, at the moment, negative pressure is formed in the damping air chamber (4) due to the increase of the volume, the rebound speed of the springs is weakened, the rebound vibration strength is reduced, and meanwhile, under the action of the negative pressure, air in the left air inlet cavity (13) is guided into the damping air chamber (4) through the left one-way valve (1); the gas in the right gas inlet cavity (7) is introduced into the damping gas chamber (4) through a right one-way valve (8) to maintain the normal pressure state in the damping gas chamber (4); meanwhile, external air can be supplemented into the left air inlet cavity (13) and the right air inlet cavity (7) through the vent grooves (18), the left air inlet channel (36) and the right air inlet channel (9);

along with the continuous progress of the running sportsman, air is continuously introduced into the elastic air bag (42), so that the elastic air bag (42) is gradually expanded, after the elastic air bag (42) is gradually expanded to a preset size, the air pressure in the air bag cavity (49) can reach the pressure relief threshold value of the pressure relief valve (46), the pressure relief valve (46) can be continuously opened due to the continuous air inlet in the air bag cavity (49), so that the air in the air bag cavity (49) with the relatively constant expansion size can continuously flow into the air collecting cavity in the air box (69) through the air guide channel (44), so that the stable positive pressure is formed in the air collecting cavity, and the structure of the elastic air bag (42) can avoid the phenomenon that the first air guide channel (26) is directly connected with the air collecting cavity, so that the air pressure in the air collecting cavity is unstable; finally, the pressure-accumulating gas in the wind collecting cavity is blown to the chest position of the runner in a wind mode through a plurality of air outlet holes (68), and then the wind blowing effect on the sportsman is achieved.