阅读说明：本技术 一种发电健身器 (Power generation body builder ) 是由 殷田 于 2020-12-10 设计创作，主要内容包括：本发明涉及健身器材领域,更具体的说是一种发电健身器。可以健身；可以发电；可以能量储存。包括健身装置、发电装置,实现了通过健身时做出的运动能量转化成相应运输皮带的动能,将健身器下部分的水运输到高处储存起来,然后需要发电时就打开阀门使水流过发电机发电,通过调节提水量来实现健身力道的调节,既能健身也能发电还能将能量以水能的方式储存起来。(The invention relates to the field of fitness equipment, in particular to a power generation fitness device. Can be used for body building; electricity can be generated; can be stored with energy. Including body-building device, power generation facility, realized the kinetic energy that the motion energy who makes when passing through the body-building changes corresponding transportation belt into, transport the eminence with the water of body-building ware lower part and store, then just open the valve and make rivers flow through the generator electricity generation when needing the electricity generation, realize the regulation that the body-building power is said through adjusting the water lift, can the body-building also can generate electricity and can store the energy with the mode of hydroenergy.)

1. An electricity generation fitness device, which is characterized in that: comprises a body-building device (1) and a power generation device (2), wherein the body-building device (1) is connected with the power generation device (2).

2. The power generating exercise machine of claim 1, wherein: the fitness device (1) comprises a fitness base (1-1), a first push rod (1-2), a second push rod (1-3), a seat column (1-4), a sliding frame column (1-5), a backrest (1-6), a seat (1-7), a reset load (1-8), a load sliding rod (1-9), a healthy pulley secondary shaft (1-10), a steel wire rope (1-11), a healthy pulley secondary (1-12), a healthy pulley primary (1-13), a damping spring (1-14), an upright column stop block (1-15), a push rod limiting block (1-16), a pin through hole (1-17), a pin rod (1-18), a position adjusting threaded hole (1-19), a cylindrical gear primary (1-20), a gear bar (1-21), an outer one-way gear (1-22), The anti-theft device comprises one-way sheets (1-23), one-way gear interiors (1-24), one-way gear springs (1-25), first buoyancy stopping springs (1-26), buoyancy stopping spring grooves (1-27), buoyancy stopping clamping pin holes (1-28), buoyancy pulling pins (1-29), upright post pin holes (1-30), second buoyancy stopping springs (1-31), second buoyancy stopping spring grooves (1-32) and total clamping pins (1-33), wherein a first push rod (1-2) is rotatably connected to a second push rod (1-3), the second push rod (1-3) is rotatably connected to a sitting post (1-4), the sitting post (1-4) is fixedly connected to a body-building base (1-1), a backrest (1-6) is fixedly connected to the sitting post (1-4), and a seat (1-7) is fixedly connected to the sitting post (1-4), the front end of a steel wire rope (1-11) is fixedly connected to a first push rod (1-2), the rear end of the steel wire rope (1-11) is fixedly connected to a reset load (1-8), the middle end of the steel wire rope (1-11) is connected with a first healthy pulley (1-13), the middle end of the steel wire rope (1-11) is connected with a second healthy pulley (1-12), the second healthy pulley (1-12) is fixedly connected to a second healthy pulley shaft (1-10), the second healthy pulley shaft (1-10) is rotatably connected to a carriage column (1-5), the first healthy pulley (1-13) is rotatably connected to a body-building base (1-1), a pin rod (1-18) is rotatably connected to a pin through hole (1-17), the reset (1-8) is slidably connected to a load slide rod (1-9), the load slide rod (1-9) is fixedly connected to the body-building base (1-1), the damping spring (1-14) is fixedly connected to the body-building base (1-1), the push rod I (1-2) is provided with a pin through hole (1-17), the push rod II (1-3) is provided with a position adjusting threaded hole (1-19), the upright post stop block (1-15) is fixedly connected to the seat post (1-4), the push rod stop block (1-16) is fixedly connected to the push rod II (1-3), the pin rod (1-18) is in threaded connection with the position adjusting threaded hole (1-19), the gear rack (1-21) is fixedly connected to the reset load (1-8), the cylindrical gear I (1-20) is meshed with the gear rack (1-21), the cylindrical gear I (1-20) is rotatably connected to the body-building base (1-1), the cylindrical gear I (1-20) is fixedly connected to the one-way gear (1-24), the outer part (1-22) of the one-way gear is rotationally connected to the inner part (1-24) of the one-way gear, the one-way gear spring (1-25) is fixedly connected to the inner part (1-24) of the one-way gear, the one-way sheet (1-23) is rotationally connected to the inner part (1-24) of the one-way gear, the total bayonet lock (1-33) is slidably connected to the sliding frame column (1-5), the first buoyancy stopping spring (1-26) is fixedly connected to the second buoyancy stopping spring slot (1-27), the second buoyancy stopping spring (1-31) is fixedly connected to the second buoyancy stopping spring slot (1-32), the sliding frame column (1-5) is provided with the second buoyancy stopping spring slot (1-32), the buoyancy pulling pin (1-29) is slidably connected to the upright pin hole (1-30), the buoyancy pull pins (1-29) are connected to the buoyancy stop clamping pin holes (1-28) in a sliding mode, the buoyancy stop clamping pin holes (1-28) are formed in the main clamping pins (1-33), and the upright post pin holes (1-30) are formed in the sliding frame posts (1-5).

3. The power generating exercise machine of claim 1, wherein: the power generation device (2) comprises a power generation base (2-1), a power generation lower water tank (2-2), a power generation upper water tank (2-3), a steering cylindrical gear I (2-4), a steering cylindrical gear II (2-5), a steering cylindrical gear II shaft (2-6), an electrodynamic force belt pulley I (2-7), an electric power input power belt (2-8), an electrodynamic force belt pulley I (2-9), an electric power input shaft (2-10), a power generation upright post (2-11), a power generator (2-12), a power generator water inlet pipe II (2-13), a power generator water inlet pipe valve (2-14), a power generator water inlet pipe I (2-15), a power generator water outlet pipe (2-16), a power generation spiral vane shaft (2-17), a water lifting water cup (2-18), A water cup fixing shaft (2-19), a fixing belt pulley (2-20), a belt pulley tension spring (2-21), a belt tightening mechanism (2-22), a main conveying belt (2-23), a force adjusting arm (2-24), a force adjusting through hole (2-25), a force adjusting screw (2-26), a floating rod (2-27), a floating barrel (2-28), a pull rope (2-29), a pull rope pulley (2-30), an electric driving belt pulley (2-31), a tightening wheel I (2-32), a tightening wheel II (2-33), an upper belt pulley (2-34), a force adjusting wheel I (2-35), a water cup fixing shaft II (2-36), a backstop belt pulley (2-37), a backstop spring (2-38), a backstop sheet (2-39), The anti-backlash power generation device comprises a retaining belt pulley inner wheel (2-40), a power generation lower water tank (2-2) is fixedly connected to a power generation base (2-1), a power generation upright post (2-11) is fixedly connected to the power generation lower water tank (2-2), the power generation upright post (2-11) is fixedly connected to a power generation upper water tank (2-3), a steering cylindrical gear I (2-4) is meshed with a steering cylindrical gear II (2-5), the steering cylindrical gear II (2-5) is fixedly connected to a steering cylindrical gear II shaft (2-6), the steering cylindrical gear II shaft (2-6) is fixedly connected to an electric power belt pulley I (2-7), the steering cylindrical gear II shaft (2-6) is rotatably connected to the power generation base (2-1), and the steering cylindrical gear I (2-4) is rotatably connected to the power generation base (2-1), the electric power belt wheel I (2-9) is fixedly connected to the electric power inlet shaft I (2-10), the electric power inlet shaft I (2-10) is rotatably connected to the power generation lower water tank I (2-2), one end of the electric power inlet belt I (2-8) is connected with the electric power belt wheel I (2-9), the other end of the electric power inlet belt I (2-8) is connected with the electric power belt wheel I (2-7), one end of the generator water inlet pipe I (2-15) is connected with the power generation upper water tank I (2-3), the other end of the generator water inlet pipe I (2-15) is connected with the generator water inlet pipe valve (2-14), one end of the generator water inlet pipe II (2-13) is connected with the generator water inlet pipe valve (2-14), and the other end of the generator water inlet pipe II (2-13) is connected with the, the water outlet pipe (2-16) of the generator is fixedly connected to the generator (2-12), the generator (2-12) is fixedly connected to the lower water generating tank (2-2), the spiral generating blade shaft (2-17) is fixedly connected to the transmission shaft of the generator (2-12), the cup fixing shaft (2-19) is fixedly connected to the main conveying belt (2-23), the cup fixing shaft II (2-36) is fixedly connected to the main conveying belt (2-23), the water lifting cup (2-18) is rotatably connected to the cup fixing shaft (2-19), the water lifting cup (2-18) is connected to the cup fixing shaft II (2-36), the tightening wheel I (2-32) is rotatably connected to the belt tightening mechanism (2-22), the tightening wheel II (2-33) is rotatably connected to the belt tightening mechanism (2-22), the belt tightening mechanism (2-22) is rotationally connected to the lower power generation water tank (2-2), one end of a belt pulley tension spring (2-21) is connected with the belt tightening mechanism (2-22), the other end of the belt pulley tension spring (2-21) is connected with the power generation base (2-1), a first tension pulley (2-32) is connected with a main conveying belt (2-23), a second tension pulley (2-33) is connected with the main conveying belt (2-23), a fixed belt pulley (2-20) is connected with the main conveying belt (2-23), an electric driving belt pulley (2-31) is connected with the main conveying belt (2-23), an upper belt pulley (2-34) is connected with the main conveying belt (2-23), the upper belt pulley (2-34) is rotationally connected to the upper power generation water tank (2-3), the fixed belt pulley (2-20) is rotatably connected to the lower power generation water tank (2-2), the electric driving belt pulley (2-31) is fixedly connected to the electric input shaft (2-10), the first force adjusting wheel (2-35) is rotatably connected to the force adjusting arm (2-24), the first force adjusting wheel (2-35) is connected with the main conveying belt (2-23), the force adjusting arm (2-24) is rotatably connected to the lower power generation water tank (2-2), the lower power generation water tank (2-2) is provided with a force adjusting through hole (2-25), the force adjusting screw (2-26) is in threaded connection with the force adjusting arm (2-24), the force adjusting screw (2-26) is rotatably connected to the force adjusting through hole (2-25), the buoy (2-28) is fixedly connected to the floating rod (2-27), and the floating rod (2-27) is in sliding connection with the lower power generation water tank (2-2), a pull rope (2-29) is connected with a pull rope pulley (2-30), one end of the pull rope (2-29) is connected with a floating rod (2-27), the pull rope pulley (2-30) is rotationally connected with a lower power generation water tank (2-2), the other end of the pull rope (2-29) is connected with a buoyancy pull pin (1-29), a cylindrical gear I (1-20) is meshed with a steering cylindrical gear I (2-4), a power generation base (2-1) is fixedly connected with a body-building base (1-1), an inner wheel (2-40) of a stopping belt pulley is fixedly connected with an upper power generation water tank (2-3), a stopping belt pulley (2-37) is rotationally connected with an inner wheel (2-40) of the stopping belt pulley, a main conveying belt (2-23) is connected with the stopping belt pulley (2-37), the anti-return sheet (2-39) is rotationally connected to the anti-return belt pulley inner wheel (2-40), and the anti-return spring (2-38) is fixedly connected to the anti-return sheet (2-39).

4. The power generating exercise machine of claim 2, wherein: the number of the load sliding rods (1-9) is two, the number of the damping springs (1-14) is two, and the number of the pin through holes (1-17) is seven.

5. The power generating exercise machine of claim 3, wherein: the number of the power generation upright posts (2-11) is four, the number of the fixing belt pulleys (2-20) and the number of the force adjusting wheels I (2-35) are two, the number of the water lifting cups (2-18) is five, the number of the cup fixing shafts (2-19) and the number of the cup fixing shafts II (2-36) are five, and the number of the force adjusting through holes (2-25) is five.

Technical Field

The invention relates to the field of fitness equipment, in particular to a power generation fitness device.

Background

The existing body-building device has few power generation functions, and a large amount of manpower energy is wasted.

Disclosure of Invention

The invention relates to the field of fitness equipment, in particular to a power generation fitness device which can generate power for fitness; and (4) energy storage.

In order to solve the technical problems, the invention relates to the field of fitness equipment, in particular to a power generation fitness device which comprises a fitness device and a power generation device, wherein the fitness device is connected with the power generation device.

As a further optimization of the technical scheme, the body-building device of the power generation body-building device comprises a body-building base, a first push rod, a second push rod, a seat post, a sliding frame post, a backrest, a seat, a reset load, a load slide rod, a second shaft of a strong pulley, a steel wire rope, a second strong pulley, a first strong pulley, a damping spring, a stand column stop block, a push rod stop block, a pin through hole, a pin rod, a position adjusting threaded hole, a first cylindrical gear, a gear strip, a one-way gear, a one-way sheet, a one-way gear spring, a first buoyancy stop spring, a buoyancy stop spring groove, a buoyancy stop pin hole, a buoyancy pull pin, a stand column pin hole, a second buoyancy stop spring groove and a general clamping pin, wherein the first push rod is rotatably connected to the second push rod is rotatably connected to the seat post, the seat post is fixedly, the seat is fixedly connected on the seat column, the front end of the steel wire rope is fixedly connected on the first push rod, the rear end of the steel wire rope is fixedly connected on a reset load, the middle end of the steel wire rope is connected with the first body-building pulley, the middle end of the steel wire rope is connected with the second body-building pulley, the second body-building pulley is fixedly connected on the second body-building pulley, the second body-building pulley is rotatably connected on the carriage column, the first body-building pulley is rotatably connected on the body-building base, the pin rod is rotatably connected on the pin through hole, the load-building slide rod is fixedly connected on the body-building base, the reset load is slidably connected on the load-building slide rod, the damping spring is fixedly connected on the body-building base, the first push rod is provided with the pin through hole, the second push rod is provided with a position adjusting threaded hole, the stand, cylindrical gear rotates to be connected on the body-building base, cylindrical gear fixed connection is on one-way gear is interior, one-way gear rotates outward and connects on one-way gear is interior, one-way gear spring fixed connection is on one-way gear is interior, one-way piece rotates to be connected on one-way gear is interior, total round pin sliding connection is on the carriage post, buoyancy stops spring fixed connection on buoyancy and stops the spring groove, buoyancy stops two fixed connection on buoyancy and stops the spring groove two, be equipped with buoyancy on the carriage post and stops the spring groove, be equipped with buoyancy on the carriage post and stop the spring groove two, buoyancy is pulled out round pin sliding connection on the stand pinhole, buoyancy is pulled out round pin sliding connection on buoyancy and stops the card pinhole, be equipped with buoyancy on the total round pin and stops the card pinhole, be.

As a further optimization of the technical scheme, the power generation device of the power generation body builder comprises a power generation base, a power generation lower water tank, a power generation upper water tank, a steering cylindrical gear I, a steering cylindrical gear II, an electric power belt pulley I, an electric power input shaft, a power generation upright post, a power generator water inlet pipe II, a power generator water inlet pipe valve, a power generator water inlet pipe I, a power generator water outlet pipe, a power generation spiral blade shaft, a water lifting water cup, a water cup fixing shaft, a fixing belt pulley, a belt pulley tension spring, a belt tensioning mechanism, a main conveying belt, a force adjusting arm, a force adjusting through hole, a force adjusting screw, a floating rod, a floating pontoon, a pull rope pulley, an electric driving belt pulley, a tensioning wheel I, a tensioning wheel II, an upper belt pulley, a force adjusting wheel I, a water cup fixing shaft II, a stopping sheet, an inner wheel of a stopping belt pulley, a lower power generation water tank is fixedly connected to a power generation base, a power generation upright post is fixedly connected to the lower power generation water tank, the power generation upright post is fixedly connected to an upper power generation water tank, a first steering cylindrical gear is meshed with a second steering cylindrical gear, the second steering cylindrical gear is fixedly connected to a second steering cylindrical gear shaft, the second steering cylindrical gear shaft is fixedly connected to a first electric power belt pulley, the second steering cylindrical gear shaft is rotatably connected to the power generation base, the first electric power belt pulley is fixedly connected to an electric power shaft, the electric power shaft is rotatably connected to the lower power generation water tank, one end of an electric power belt is connected with the first electric power belt pulley, the other end of the electric power belt is connected with the first electric power belt pulley, one end of a water inlet pipe of a power generator is connected with the upper power generation water tank, and the other end, one end of a generator water inlet pipe two is connected with a generator water inlet pipe valve, the other end of the generator water inlet pipe two is connected with a generator, a generator water outlet pipe is fixedly connected with the generator, the generator is fixedly connected with a power generation lower water tank, a power generation spiral blade shaft is fixedly connected with a generator transmission shaft, a water cup fixing shaft is fixedly connected with a main conveying belt, a water cup fixing shaft two is fixedly connected with the main conveying belt, a water lifting water cup is rotatably connected with the water cup fixing shaft, the water lifting water cup is connected with the water cup fixing shaft two, a tightening wheel one is rotatably connected with a belt tightening mechanism, the tightening wheel two is rotatably connected with the belt tightening mechanism, the belt tightening mechanism is rotatably connected with the power generation lower water tank, one end of a belt pulley tightening spring is connected with the belt tightening mechanism, the other end of the belt pulley tightening spring is connected with a power generation base, the tightening wheel one is, the fixed belt pulley is connected with the main conveying belt, the electric driving belt pulley is connected with the main conveying belt, the upper belt pulley is rotatably connected with the power generation upper water tank, the fixed belt pulley is rotatably connected with the power generation lower water tank, the electric driving belt pulley is fixedly connected with the electric input shaft, the force adjusting wheel I is rotatably connected with the force adjusting arm, the force adjusting wheel I is connected with the main conveying belt, the force adjusting arm is rotatably connected with the power generation lower water tank, the power generation lower water tank is provided with a force adjusting through hole, the force adjusting screw is in threaded connection with the force adjusting arm, the force adjusting screw is rotatably connected with the force adjusting through hole, the buoy is fixedly connected with the floating rod, the floating rod is slidably connected with the power generation lower water tank, the pull rope is connected with the pull rope pulley, one end of the pull rope is connected with the floating rod pulley, the other end, the power generation base is fixedly connected to the body-building base, the inner wheel of the stopping belt pulley is fixedly connected to the power generation water supply tank, the stopping belt pulley is rotatably connected to the inner wheel of the stopping belt pulley, the main conveying belt is connected with the stopping belt pulley, the stopping sheet is rotatably connected to the inner wheel of the stopping belt pulley, and the stopping spring is fixedly connected to the stopping sheet.

As the further optimization of the technical scheme, the number of the load sliding rods of the power generation body builder is two, the number of the damping springs is two, and the number of the pin through holes is seven.

As a further optimization of the technical scheme, the power generation body builder is provided with four power generation stand columns, two fixing belt pulleys and two force adjusting wheels I, five water lifting water cups, five water cup fixing shafts and five water cup fixing shafts II, and five force adjusting through holes.

The power generation body builder has the beneficial effects that:

the utility model provides a power generation fitness equipment, has realized that the kinetic energy who makes when passing through body-building converts the kinetic energy of corresponding transportation belt into, transports the eminence with the water of fitness equipment lower part and stores, then just opens the valve and makes rivers flow through the generator electricity generation when needing the electricity generation, realizes the regulation that the body-building power is said through adjusting the water lift volume, can the body-building also can generate electricity and can store the energy with the mode of hydroenergy.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a first schematic structural diagram of the exercise device of the present invention.

Fig. 4 is a schematic structural diagram of the exercise device of the present invention.

Fig. 5 is a third schematic structural diagram of the exercise device of the present invention.

Fig. 6 is a fourth schematic structural diagram of the exercise apparatus of the present invention.

Fig. 7 is a schematic structural diagram of the exercise device of the present invention.

Fig. 8 is a sixth schematic structural view of the exercise device of the present invention.

Fig. 9 is a seventh schematic structural diagram of the exercise device of the present invention.

Fig. 10 is a schematic structural diagram eight of the exercise apparatus of the present invention.

Fig. 11 is a schematic structural diagram nine of the exercise apparatus of the present invention.

Fig. 12 is a first schematic structural diagram of the power generation device of the present invention.

Fig. 13 is a schematic structural diagram of a power generation device according to the present invention.

Fig. 14 is a third schematic structural diagram of the power generation device of the present invention.

Fig. 15 is a fourth schematic structural diagram of the power generation device of the present invention.

Fig. 16 is a schematic structural diagram of a power generation device according to the present invention.

Fig. 17 is a sixth schematic structural view of the power generation device of the present invention.

Fig. 18 is a seventh schematic structural diagram of the power generation device of the present invention.

Fig. 19 is an eighth schematic structural view of the power generation device of the present invention.

Fig. 20 is a schematic structural diagram nine of the power generation device of the present invention.

Fig. 21 is a schematic structural diagram of a power generation device according to the present invention.

In the figure: an exercise apparatus 1; 1-1 of a body-building base; a first push rod 1-2; a second push rod 1-3; 1-4 of a seat post; 1-5 of a sliding frame column; 1-6 of a backrest; seats 1-7; resetting the load for 1-8 times; 1-9 weight slide bars; 1-10 of a double shaft of a healthy pulley; 1-11 parts of steel wire rope; 1-12 parts of Jian pulley II; 1-13 of a healthy pulley I; damping springs 1-14; upright post stop blocks 1-15; a push rod limiting block 1-16; pin through holes 1-17; 1-18 parts of a pin rod; position adjusting threaded holes 1-19; 1-20 parts of a cylindrical gear I; 1-21 of a gear rack; 1-22 parts of a one-way gear; 1-23 of unidirectional sheets; 1-24 parts of one-way gear; 1-25 of one-way gear spring; a first buoyancy stop spring 1-26; buoyancy stop spring slots 1-27; buoyancy stop snap pin holes 1-28; 1-29 of buoyancy pull pins; column pin holes 1-30; a second buoyancy stopping spring 1-31; a second buoyancy stop spring groove 1-32; the total clamping pins are 1 to 33; a power generation device 2; a power generation base 2-1; a power generation lower water tank 2-2; 2-3 of a power generation upper water tank; 2-4 parts of a steering cylindrical gear I; 2-5 parts of a steering cylindrical gear II; 2-6 of a steering cylindrical gear shaft; 2-7 parts of an electric power belt pulley; electrifying the power belt 2-8; 2-9 parts of an electric power belt pulley; 2-10 of an electric input shaft; 2-11 of a power generation upright post; 2-12 of a generator; 2-13 parts of a water inlet pipe of the generator; 2-14 parts of a generator water inlet pipe valve; a first generator water inlet pipe is 2-15; a water outlet pipe 2-16 of the generator; 2-17 parts of a power generation spiral blade shaft; 2-18 parts of water lifting cup; 2-19 parts of a water cup fixing shaft; 2-20 parts of a fixed belt pulley; belt pulley collapse springs 2-21; belt tightening mechanisms 2-22; main conveyor belts 2-23; 2-24 of an adjusting arm; force-adjusting through holes 2-25; 2-26 of force adjusting screws; 2-27 parts of floating rod; 2-28 of a buoy; 2-29 of a pull rope; 2-30 parts of a rope pulling pulley; electric drive pulleys 2-31; 2-32 parts of a first tensioning wheel; 2-33 parts of tensioning wheel II; upper belt pulleys 2-34; 2-35 of a force adjusting wheel I; a second water cup fixing shaft 2-36; 2-37 of a backstop belt pulley; 2-38 parts of a backstop spring; 2-39 parts of an anti-retrogressive tablet; 2-40 parts of inner wheel of the retaining belt pulley.

Detailed Description

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

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

in order to solve the technical problems, the invention relates to the field of fitness equipment, and more particularly to a power generation fitness device which comprises a fitness device 1 and a power generation device 2, wherein the fitness device 1 is connected with the power generation device 2.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-21, and the embodiment will be further described, wherein the exercise device 1 comprises an exercise base 1-1, a first push rod 1-2, a second push rod 1-3, a seat post 1-4, a carriage post 1-5, a backrest 1-6, a seat 1-7, a reset load 1-8, a load slide rod 1-9, a second body-building pulley shaft 1-10, a steel wire rope 1-11, a second body-building pulley 1-12, a first body-building pulley 1-13, a damping spring 1-14, an upright post block 1-15, a push rod stopper 1-16, a pin through hole 1-17, a pin rod 1-18, a position adjusting threaded hole 1-19, a first cylindrical gear 1-20, a gear rack 1-21, and a unidirectional gear outside 1-22, 1-23 parts of one-way sheet, 1-24 parts of one-way gear, 1-25 parts of one-way gear spring, 1-26 parts of buoyancy stop spring, 1-27 parts of buoyancy stop spring groove, 1-28 parts of buoyancy stop clamping pin hole, 1-29 parts of buoyancy pull pin, 1-30 parts of upright post pin hole, 1-31 parts of buoyancy stop spring, 1-32 parts of buoyancy stop spring groove and 1-33 parts of total clamping pin, wherein the first part of push rod 1-2 is rotationally connected to the second part of push rod 1-3, the second part of push rod 1-3 is rotationally connected to the sitting post 1-4, the sitting post 1-4 is fixedly connected to the body-building base 1-1, the backrest 1-6 is fixedly connected to the sitting post 1-4, the seat 1-7 is fixedly connected to the sitting post 1-4, and the front end of the steel wire rope 1-, the rear end of a steel wire rope 1-11 is fixedly connected to a reset load 1-8, the middle end of the steel wire rope 1-11 is connected with a key pulley 1-13, the middle end of the steel wire rope 1-11 is connected with a key pulley two 1-12, the key pulley two 1-12 is fixedly connected to a key pulley two shaft 1-10, the key pulley two shaft 1-10 is rotatably connected to a carriage column 1-5, the key pulley one 1-13 is rotatably connected to a body-building base 1-1, a pin rod 1-18 is rotatably connected to a pin through hole 1-17, a load slide bar 1-9 is fixedly connected to the body-building base 1-1, a damping spring 1-14 is fixedly connected to the body-building base 1-1, a pin through hole 1-17 is arranged on a push rod one 1-2, a position adjusting threaded hole 1-19 is arranged on, upright post stoppers 1-15 are fixedly connected on a seat post 1-4, push rod limiting blocks 1-16 are fixedly connected on a push rod II 1-3, pin rods 1-18 are in threaded connection with position adjusting threaded holes 1-19, gear strips 1-21 are fixedly connected on reset loads 1-8, the reset loads 1-8 are in sliding connection with load sliding rods 1-9, cylindrical gears 1-20 are meshed with the gear strips 1-21, the cylindrical gears 1-20 are in rotary connection with a fitness base 1-1, the cylindrical gears 1-20 are in fixed connection with a one-way gear inner 1-24, one-way gear outer 1-22 is in rotary connection with the one-way gear inner 1-24, one-way gear springs 1-25 are fixedly connected with the one-way gear inner 1-24, one-way plates 1-23 are in rotary connection with the one-way gear inner 1-24, the main bayonet lock 1-33 is connected to the sliding frame column 1-5 in a sliding mode, the buoyancy stopping spring I1-26 is fixedly connected to the buoyancy stopping spring groove 1-27, the buoyancy stopping spring II 1-31 is fixedly connected to the buoyancy stopping spring groove II 1-32, the sliding frame column 1-5 is provided with the buoyancy stopping spring groove 1-27, the sliding frame column 1-5 is provided with the buoyancy stopping spring groove II 1-32, the buoyancy pulling pin 1-29 is connected to the upright post pin hole 1-30 in a sliding mode, the buoyancy pulling pin 1-29 is connected to the buoyancy stopping clamping pin hole 1-28 in a sliding mode, the main bayonet lock 1-33 is provided with the buoyancy stopping clamping pin hole 1-28, the sliding frame column 1-5 is provided with the upright post pin hole 1-30, and the steel wire rope 1-11 is pulled by pushing the push rod I, then the steel wire rope 1-11 pulls the reset load 1-8, the gear rack 1-21 is pulled because the gear rack 1-21 is fixedly connected to the reset load 1-8, then the cylindrical gear 1-20 is meshed with the gear rack 1-21, and the one-way gear outer 1-22 and the one-way gear inner 1-24 jointly act to result in one-way rotation.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-21, and the embodiment will be further described, wherein the power generation device 2 comprises a power generation base 2-1, a power generation lower water tank 2-2, a power generation upper water tank 2-3, a steering cylindrical gear I2-4, a steering cylindrical gear II 2-5, a steering cylindrical gear II 2-6, an electric power belt pulley I2-7, an electric power belt 2-8, an electric power belt pulley I2-9, an electric power shaft 2-10, a power generation upright post 2-11, a power generator 2-12, a power generator water inlet pipe II 2-13, a power generator water inlet pipe valve 2-14, a power generator water inlet pipe I2-15, a power generator water outlet pipe 2-16, a power generation spiral vane shaft 2-17, a water lifting cup 2-18, 2-19 parts of a water cup fixing shaft, 2-20 parts of a fixing belt pulley, 2-21 parts of a belt pulley tension spring, 2-22 parts of a belt tension mechanism, 2-23 parts of a main conveying belt, 2-24 parts of a force adjusting arm, 2-25 parts of a force adjusting through hole, 2-26 parts of a force adjusting screw, 2-27 parts of a floating rod, 2-28 parts of a buoy, 2-29 parts of a pull rope, 2-30 parts of a pull rope pulley, 2-31 parts of an electric driving belt pulley, 2-32 parts of a tension wheel I, 2-33 parts of a tension wheel II, 2-34 parts of an upper belt pulley, 2-35 parts of a force adjusting wheel I, 2-36 parts of a water cup fixing shaft II, 2-37 parts of a retaining belt pulley, 2-38 parts of a retaining spring, 2-39 parts of a retaining belt pulley inner wheel, 2-40 parts of a power generation lower water tank 2-2 is fixedly connected on a power, the power generation upright post 2-11 is fixedly connected to a power generation upper water tank 2-3, a steering cylindrical gear I2-4 is meshed with a steering cylindrical gear II 2-5, the steering cylindrical gear II 2-5 is fixedly connected to a steering cylindrical gear II 2-6, the steering cylindrical gear II 2-6 is fixedly connected to an electric power belt pulley I2-7, the steering cylindrical gear II 2-6 is rotatably connected to a power generation base 2-1, the steering cylindrical gear I2-4 is rotatably connected to the power generation base 2-1, an electric power belt pulley I2-9 is fixedly connected to an electric power shaft 2-10, the electric power shaft 2-10 is rotatably connected to a power generation lower water tank 2-2, one end of an electric power belt 2-8 is connected with the electric power belt pulley I2-9, the other end of the electric power belt 2-8 is connected with the electric power belt pulley I2-7, one end of a first generator water inlet pipe 2-15 is connected with a first power generation water tank 2-3, the other end of the first generator water inlet pipe 2-15 is connected with a first generator water inlet pipe valve 2-14, one end of a second generator water inlet pipe 2-13 is connected with a second generator water inlet pipe valve 2-14, the other end of the second generator water inlet pipe 2-13 is connected with a second generator 2-12, a second generator water outlet pipe 2-16 is fixedly connected with a second generator 2-12, the second generator 2-12 is fixedly connected with a second power generation water tank 2-2, a second power generation spiral blade shaft 2-17 is fixedly connected with a transmission shaft of the second generator 2-12, a second water cup fixing shaft 2-19 is fixedly connected with a main transmission belt 2-23, a second water cup fixing shaft 2-36 is fixedly connected with the, the water lifting cup 2-18 is connected to a cup fixing shaft II 2-36, the tightening wheel I2-32 is rotatably connected to the belt tightening mechanism 2-22, the tightening wheel II 2-33 is rotatably connected to the belt tightening mechanism 2-22, the belt tightening mechanism 2-22 is rotatably connected to the power generation lower water tank 2-2, one end of a belt pulley tightening spring 2-21 is connected with the belt tightening mechanism 2-22, the other end of the belt pulley tightening spring 2-21 is connected with the power generation base 2-1, the tightening wheel I2-32 is connected with the main conveying belt 2-23, the tightening wheel II 2-33 is connected with the main conveying belt 2-23, the fixing belt pulley 2-20 is connected with the main conveying belt 2-23, the electric driving belt pulley 2-31 is connected with the main conveying belt 2-23, an upper belt pulley 2-34 is connected with a main conveying belt 2-23, the upper belt pulley 2-34 is rotationally connected with a power generation upper water tank 2-3, a fixed belt pulley 2-20 is rotationally connected with a power generation lower water tank 2-2, an electric driving belt pulley 2-31 is fixedly connected with an electric input shaft 2-10, a force adjusting wheel I2-35 is rotationally connected with a force adjusting arm 2-24, a force adjusting wheel I2-35 is connected with the main conveying belt 2-23, the force adjusting arm 2-24 is rotationally connected with a power generation lower water tank 2-2, a force adjusting through hole 2-25 is arranged on the power generation lower water tank 2-2, a force adjusting screw 2-26 is in threaded connection with the force adjusting arm 2-24, a force adjusting screw 2-26 is rotationally connected with the force adjusting through hole 2-25, and a float 2-28 is fixedly connected with a float rod 2-27, a floating rod 2-27 is connected on a lower water tank 2-2 of the power generation in a sliding way, a pull rope 2-29 is connected with a pull rope pulley 2-30, one end of the pull rope 2-29 is connected with the floating rod 2-27, the pull rope pulley 2-30 is connected on the lower water tank 2-2 of the power generation in a rotating way, the other end of the pull rope 2-29 is connected with a buoyancy pull pin 1-29, a cylindrical gear 1-20 is meshed with a steering cylindrical gear 2-4, a power generation base 2-1 is fixedly connected on a body-building base 1-1, an inner wheel 2-40 of a backstop belt pulley is fixedly connected on an upper water tank 2-3 of the power generation, a backstop belt pulley 2-37 is connected on an inner wheel 2-40 of the backstop belt pulley in a rotating way, a main transmission belt 2-23 is connected with a backstop belt pulley 2-37, the anti-return springs 2-38 are fixedly connected to the anti-return plates 2-39, power of the body-building device is input through the first steering cylindrical gear 2-4, the power is transmitted into the electric input shaft 2-10 through the second steering cylindrical gear 2-5, the first electric power belt pulley 2-7 and the first electric power belt pulley 2-9, the power of the electric input shaft 2-10 is transmitted into the electric driving belt pulley 2-31, and then the electric driving belt pulley 2-31 drives the main transmission belt 2-23 to rotate.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 21, and the present embodiment further describes the second embodiment, in which there are two load sliding bars 1 to 9, two damping springs 1 to 14, and seven pin through holes 1 to 17.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 21, and the present embodiment further describes the third embodiment, where the number of the power generating columns 2 to 11 is four, the number of the fixing belt pulleys 2 to 20 and the number of the force adjusting wheels one 2 to 35 are two, the number of the water lifting cups 2 to 18 is five, the number of the cup fixing shafts 2 to 19 and the number of the cup fixing shafts two 2 to 36 are five, and the number of the force adjusting through holes 2 to 25 is five.

The working principle of the invention is as follows:

the working principle of the power generation body builder is that a first push rod 1-2 and a second push rod 1-3 are combined parts, the motion range of the first push rod 1-3 is limited by a push rod limiting block 1-16 and an upright post stop block 1-15, the change of the height of the first push rod 1-2 is realized by inserting an adjusting pin rod 1-18 into different pin through holes 1-17, the adjustment of the angle of the first push rod 1-2 can adapt to the conditions of people with different heights and different training requirements, the combination effect of a one-way sheet 1-23, a one-way gear outer 1-22, a one-way gear spring 1-25 and a one-way gear inner 1-24 is a one-way gear, the one-way gear inner 1-24 rotates clockwise for a moment and anticlockwise for a moment, and the one-way gear outer 1-22 obtains one-way rotation under the action of the, the outer part 1-22 of the one-way gear is meshed with the first steering cylindrical gear 2-4 to cause the first steering cylindrical gear 2-4 to rotate in one direction, then the power is transmitted to the electricity input shaft 2-10, the power of the electricity input shaft 2-10 is transmitted to the main conveying belt 2-23, five water lifting cups 2-18 are fixedly connected to the main conveying belt 2-23, the water in the electricity generation lower water tank 2-2 is lifted to the electricity generation upper water tank 2-3 under the one-way rotation of the main conveying belt 2-23, the position of the main conveying belt 2-23 on the electricity generation upper water tank 2-3 is flat, so that the water in the water lifting cups 2-18 is completely poured into the electricity generation upper water tank 2-3, when the water lifting cups 2-18 reach the position of the first force adjusting wheel 2-35, the angle of the force adjusting arm 2-24 is adjusted, the angle of the water lifting cup 2-18 can be changed, the angle of the water lifting cup 2-18 can be changed at the position to pour out a part of water in the water lifting cup 2-18, the resistance and the body building force of the whole body building device can be adjusted by adjusting the poured water amount, the angle of the water lifting cup 2-18 is adjusted to be the minimum horizontal force, the angle of the water lifting cup 2-18 is adjusted to be the maximum vertical force, the main conveying belt 2-23 can be loosened when the angle of the force adjusting arm 2-24 is adjusted, so that the belt tightening mechanism 2-22 and the belt pulley tightening spring 2-21 are arranged to keep the main conveying belt 2-23 tensioned all the time, the buoy 2-28 is a buoyancy device, when the water level in the water tank 2-2 falls to the minimum under power generation, the belt tightening mechanism 2-28 descends to drive the floating rod 2-27 to descend and then pulls the pull rope 2-29, the pulling rope 2-29 pulls the buoyancy pulling pin 1-29 again, the buoyancy pulling pin 1-29 clamps the main clamping pin 1-33 in place, once the buoyancy pulling pin 1-29 is pulled out, the clamping state of the main clamping pin 1-33 is relieved, the main clamping pin 1-33 is popped up under the pushing of the buoyancy stopping spring 1-26 and is blocked on the reset load 1-8, so that the reset load 1-8 cannot move, then the whole body builder is in an unusable state, and then an alarm function is played, a user knows that water in the body builder is used up and needs to be processed, only a water inlet pipe valve 2-14 of the generator needs to be opened when power generation is needed, water in a water tank 2-3 on the power generation enters the generator 2-12 through a water inlet pipe 2-15 of the generator and a water inlet pipe 2-13 of the generator and then generates power, water flows through the power generation spiral blade shafts 2-17, then the power generation spiral blade shafts 2-17 are rotated to generate power, water flows back into the power generation lower water tank 2-2, the backstop belt pulleys 2-37, the backstop springs 2-38, the backstop sheets 2-39 and the inner wheels 2-40 of the backstop belt pulleys are combined together to play a role in backstopping, when no person pulls the power generation lower water tank, the phenomenon that the force is not expected to occur is caused by the fact that the gravity main conveying belt 2-23 can retreat, and therefore the backstop device is added, the body building and power generation can be realized only by the movement change that the original consumption is not reported, meanwhile, energy can be stored in a water energy mode, electric energy can be released as required, energy is saved, and the environment is protected.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.