阅读说明：本技术 输入输出装置 (Input/output device ) 是由 王洪南 于 2020-05-17 设计创作，主要内容包括：一种输入输出装置,属于能把之前的动力扩大的一种机械。它是利用一个圆的周长大于这个圆直径1.5倍的原理,用这个圆周长做一个链带套在两个小链轮上把圆周运转改为横向(上下或左右)运转。在通过多次组合(输入、输出)能把第一次的动力扩大很多倍。优点：可以把之前的动力扩大,又不会对环境造成污染。(An input and output device belongs to a machine capable of expanding previous power. The principle that the circumference of a circle is 1.5 times larger than the diameter of the circle is utilized, and the circumference is used as a chain belt to be sleeved on two small chain wheels, so that the circumferential operation is changed into the transverse (up-down or left-right) operation. The first power can be expanded by multiple times through multiple combination (input and output). The advantages are that: the former power can be enlarged, and the environment can not be polluted.)

1. The super power is characterized in that the principle that the circumference of a circle is larger than the diameter of the circle is utilized, a chain belt (12) is sleeved on two small chain wheels (13) by using the circumference of the circle, and the circular operation is changed into the transverse operation to expand the previous power. A frame (1) is arranged, and an air storage tank (2), an air pump, a motor (3), an air storage tank main valve (4), an air pipe joint (5), an air pipe (6) and a pneumatic push rod (22) are utilized. Comprises a large chain wheel (7), a chain (8), a force arm (9) and a central shaft (11) of a rotation-assisted arm (10), and a chain belt (12), a small chain wheel (13) and a chain belt long shaft (15) which are combined by two circumferences of a circle to change circumferential operation into transverse operation. The sports car comprises a square rod (16), a clamping groove (17), a sports car body (18), a sports car long shaft (19), two chains (20), a frame long shaft (21), a pneumatic push rod (22), a hook (23), a reed (24) between the pneumatic push rod (22) and the front end of the hook, a chain wheel (25) on the push rod and a long shaft (26) on the frame, a motor (27) for inputting power for the first time and a generator (28) for outputting after multiple times of combination. To achieve the power before expansion.

2. The super power according to claim 1, characterized in that the two circumferences of the big chain wheel (7) are used as chain belts (12) which are sleeved on the two small chain wheels (3) for transverse push-pull operation. In order to achieve the requirement of 1.5 times enlargement, because the small chain wheel (13) occupies the circumference of the circle when in use, two circumferences of the circle are required to be used as the chain belt (12), two long shafts (15) are arranged on the chain belt (12), the length of each long shaft (15) is larger than the width of the chain belt (12), and the positions of the two long shafts (15) are arranged at the position of each circumference. The use of two circumferential chain belts (12) not only can achieve the purpose of expanding by 1.5 times, but also can use a small chain wheel (13) with larger diameter and a small chain wheel central shaft (14). The use position of the chain belt is that after the chain belt (12) and the small chain wheels (13) are combined, the start point of use is the position between the two small chain wheels, and the end point is the surface of the small chain wheels. In order not to affect the use of the chain belt (12) after the subsequent combined power expansion, a double chain belt (12) and a double small chain wheel (13) are required to realize normal operation.

3. The super power according to claim 1, characterized in that the two chains (20) are fixed at one end to the frame long axis (21) (fixed point) and at the other end to the sports car long axis (19) (moving point) by using (moving pulley operating characteristic F is 1/2G), and the two chains (20) pull the sprocket (25) on the pneumatic push rod (22) between the two (moving pulley). Due to the working characteristics of the movable pulley, the input power can be reduced, and the thrust of the pneumatic push rod (22) can be increased (expanded).

4. The ultra-power according to claim 1, characterized in that the big chain wheel (7) is used by combining the input power downwards through the chain (8), and the input power is expanded through the force arms (9) which are arranged on both sides of the big chain wheel (7) and are larger than 1.5 times of the diameter of the big chain wheel (7). [ expand input power ]. The input power can be expanded once by once combination. The position (distance) where the pneumatic push rod (22) can not push can be completed to play a role of rotation assistance through the inertia (inertia force) of the rotation assistance arm (10) and the push force of the pneumatic push rod (22).

5. The super power according to claim 1, characterized in that the square bar (16) is used for a sports car (18) for a sports car raceway, the square bar (16) is fixed on the frame (1) through a clamping groove (17), the sports car (18) is pulled through a long shaft (15) on a chain belt, and a pneumatic push rod (22) is pulled backwards after the sports car long shaft (19) is jointed with two chains (20). Can be used for pulling the pneumatic push rod (22).

6. The super power according to claim 1, characterized in that the pneumatic push rod (22) is used to push (power) the pneumatic push rod (22) by atmospheric pressure. The air pump and the motor (3) of the air storage tank (2) are connected with the air pipe (6) of the air pipe joint (5) through the main valve (4), and each pneumatic push rod (22) is used. The advantage can expand the thrust of pneumatic push rod (22) at will, and the thrust of pneumatic push rod (22) expands according to the power size of each combination input, increases the square area (m2) of pneumatic push rod (22) and expands the thrust of pneumatic push rod (22). The position pushed by the pneumatic push rod (22) is the optimal position in the middle of the central balance line of the rotation of the force arm (9). The above is a double-arm (arm 9) and double-rod (pneumatic push rod 22) combined structure. In order to input and output power uniformly, a multi-arm (arm 9) and multi-rod (pneumatic push rod 22) combined structure can be used. The multi-arm and multi-rod structure is two to six force arms (9) and a pneumatic push rod (22), power can be input and output uniformly, and normal operation can be realized as long as 3 times of power (an electric motor 27) is used at the position where power is input for the first time. The magnification factor (1.5 fold) was constant at each subsequent combination. [ see figure 4 of the attached drawings of the specification ].

7. The super power according to claim 1, characterized in that the hook (23) arranged on the pneumatic push rod (22) is used for controlling the pneumatic push rod (22). When the front force arm (9) does not swing to the front of the pneumatic push rod (22), the pneumatic push rod (22) is controlled not to be pushed forwards, when the front force arm (9) swings to the front of the pneumatic push rod (22), the front end of a hook arranged in front of the pneumatic push rod (22) is pressed by the force arm (9), the hook (23) is pressed to open a switch (23), at the moment, the pneumatic push rod (22) can be pushed forwards, when the pneumatic push rod (22) is pulled back to the front position, the front end of the hook is jacked by a reed (24) to enable the hook (23) to be combined with (hung on) a long shaft (26) of a frame, when the front force arm (9) rotates to the front of the pneumatic push rod (22) for the next time, the hook (23) is pressed to be opened (switched), and the pneumatic push rod (22) forwards for the next time.

8. The super power according to claim 1, wherein the multiple combined input and output is used by the motor (27) as the input power at the first time, and the input power at the second time and later is input directly to the next combined input without using the motor (27), and the required power is reached [ in order to achieve the expanded output power and remove the power consumed by itself, only 3 times of the input power is used at the first input power (motor) ]. Then a generator (28) is assembled at the last time of combining the output power to be used as the output power. The last combined output power can also be directly connected with the machinery requiring power for use.

The technical field is as follows:

the invention relates to an input/output device machine which can enlarge the original power by many times.

Background art:

the existing industry is well developed, various machines are fully available, and the rapid development is brought to the production of people. They all require a supply of energy (energy) to function properly. In the future, disposable energy sources (oil and natural gas) are used up in one day. Natural energy sources (wind energy, water energy, solar energy) are limited by natural conditions. Therefore, a new type of mechanical power is needed to provide more power for us.

The invention content is as follows:

the invention aims to provide an input/output device which can enlarge the existing power by multiple times.

The input and output device uses the principle that the circumference of each circle is larger than the diameter of each circle, uses a chain to replace the circumference of the circle to be combined with a small chain wheel to perform push-pull operation, and then uses a long shaft arranged on the chain belt to be combined with a sports car to push a force arm 1.5 times larger than the diameter of the circle (a large chain wheel) to expand the previous power.

The invention is realized by firstly arranging a frame 1. An air storage tank 2 is arranged beside. An air pump and a motor 3 are arranged on the air storage tank. A main valve 4 of the gas storage tank. The air storage tank is provided with a plurality of air pipe joints 5. And a gas pipe 6. A large chain wheel 7 is arranged in front of the frame. The chain 8 is arranged on the big chain wheel. The two sides of the big chain wheel and the frame are respectively provided with a moment arm 9 which is 1.5 times larger than the diameter of the big chain wheel (7). Opposite the two arms 9, a pivoting arm 10 is arranged. The two arm arms 9 and the rotation-assisted arms 10 are connected with the middle large chain wheel 7 by a shaft 11. Then, a chain belt 12 is formed by using the circumference of the large sprocket 7. Two circumferences of the large sprocket 7 are used as a chain belt 12, so that the two circumferences of the large sprocket 7 are used as the chain belt 12 without affecting the expansion of power by 1.5 times, and [ two circumferences of the large sprocket 7 are used as the chain belt 12 because the small sprocket 13 occupies the circumference of the large sprocket 7 when in use ], and a long chain belt shaft 15 is arranged at each circumference. That is, two long shafts 15 are provided on the chain belt 12 and are sleeved on two small chain wheels 13. The chain belt 12 is used, because the chain belt 12 made of two circumferences of the large chain wheel 7 is used, the length of only one half of the circumference of the large chain wheel 7 is one fourth of the chain belt 12, namely after the two small chain wheels 13 are combined with the chain belt 12, the starting point is the position between the two small chain wheels 13, and the end point is the time when the chain belt reaches the small chain wheels 13, at this time, the long chain belt shaft 15 can be automatically separated from the running vehicle 18, meanwhile, the long chain belt shaft 15 is positioned on the balance line at the center of the small chain wheels 13, the other long chain belt shaft 15 is positioned on the balance line at the center of the other small chain wheel 13, when the pneumatic push rod 22 is pushed forwards to a specified position, at this time, the chain belt 12 rotates the previous long chain belt shaft 15 to the middle of the two small chain wheels 13, and the running vehicle 18 also returns to the middle of the two small chain wheels 13. And starting the next push-pull operation. The two small chain wheels 13 are respectively composed of two shafts 14. Two small chain wheels 13 and a chain belt 12 are also arranged on the other surface of the frame after penetrating through the frame, and a small chain wheel 13 is arranged in the middle of a rear shaft 14 for inputting power. Through many times of experiments, use two girths of big sprocket 7 to make chain belt 12, not only can reach and enlarge 1.5 times, can also use the bigger little sprocket 13 of diameter and little sprocket center pin 14, because power can enlarge many times after the combination many times, little sprocket 13 diameter is too little can not bear more power, the big multiple that can influence the expansion, so use two girths of big sprocket 7 to make chain belt 12 ], establish a square pole 16 on this chain belt 12. The square bar 16 is fixed to the frame 1 by a slot 17. A sports car 18 is arranged in the middle of the square bar 16, and a long shaft 19 is arranged on the sports car 18. Two chains 20 are provided on both sides of the square bar 16 and the sports car 18. One end is combined with a long shaft 19 on the sports car, and the other end is fixed on a long shaft 21 of the frame. A pneumatic push rod 22 is arranged in the middle of the two chains 20. Two chain wheels 25 are respectively arranged on two sides of the pneumatic push rod 22 for two chains. A switch hook 23 is arranged in front of the pneumatic push rod 22. The front of the hook is provided with a spring ornament 24. The front of the hook 23 is longer than the pneumatic push rod 22, the back is combined with the long shaft 26 arranged on the frame, when the long shaft 15 of the chain belt pulls the sports car 18 to pull the pneumatic push rod 22 to the position, the hook 23 arranged on the front can be automatically combined with the long shaft 26 on the frame. When the long shaft 26 hooked on the frame rotates to the position in front of the pneumatic push rod 22, the force arm 9 arranged in front of the long shaft is larger than 1.5 times of the diameter of the circle, the front end of the hook 23 arranged in front of the pneumatic push rod 22 is pressed down by the force arm 9, at the moment, the hook 23 is pressed up and opened, meanwhile, the pneumatic push rod 22 is pushed forwards, when the pneumatic push rod is pushed to a specified position, the sports car 18 is pulled by the long shaft 15 arranged on the chain belt 12, the pneumatic push rod 22 is pulled backwards to the previous position through the two chains 20, at the moment, the hook 23 is combined with the long shaft 26 on the frame again, the hook 23 is turned back (opened) for the second time when the arm 9 larger than 1.5 times of the diameter of the circle in front is waited, and the force arm 9 arranged in front is pushed for the second time to rotate. The structure and the operation process of one surface are described above, the other surface is the same as the above, and the two surfaces are alternately pushed forwards and backwards. The above is a combined structure process. The next combination is the same as the combination described above, and the output power of this combination is used for the next combination input. Through the above, multiple combinations, input and output can be performed, so that effective power is achieved. The first combined input power uses motor 27. After multiple combinations, the generator 28 is assembled at the output power. After the required power is achieved, a generator is assembled at the position of the last power output. Or can be directly used in connection with a machine requiring power input. The structure of double arms (arm of force) 9 and double rods (pneumatic push rod) 22 is as above. Referring to the attached figure 5 of the specification, a plurality of arms (force arms) 9 and a plurality of rods (pneumatic push rods) 22 can be used, the advantages of the arms (force arms) 9 and the pneumatic push rods 22 are two to six, and the arms (force arms) and the rods can input and output power uniformly, and the purpose can be achieved only by using 3 times of power (motors) 27 at the position of power input for the first time. The magnification factor (1.5 fold) of each subsequent combination is constant ]. The above is a schematic structural diagram of an embodiment of the input/output device. Fig. 1 is a diagram of first input and output power of an input and output device, fig. 2 is a diagram of second input and output power of the input and output device, fig. 3 is a diagram of a chain belt long axis starting point and ending point, fig. 4 is a diagram of a double small chain wheel and a double chain belt, fig. 5 is a diagram of double arms and double rods, and fig. 6 is a diagram of 6 arms and 6 rods.