阅读说明：本技术 机械设备用同轴自动调径机械装置 (Coaxial automatic diameter-adjusting mechanical device for mechanical equipment ) 是由 孔繁士 胡洋 杨宗睿 马赫远 于 2020-05-04 设计创作，主要内容包括：本发明涉及机械式再生能源装置,具体为一种机械设备用同轴自动调径机械装置。其特点是：左上平衡滑块与左下平衡滑块连接,所述的左下平衡滑块底平面与所述的立门连接；左下平衡滑块与平推连杆连接,所述的平推连杆经平推连杆小轴与立摆连杆连接,所述的立摆连杆经小连杆轴与小连杆连接,所述的小连杆经第2分轴与导杆连接,所述的导杆与右摇臂连接,所述的右摇臂与拉伸弹簧上端连接。本发明的技术效果在于结构简单、成本低廉、操作使用快捷、准确,安全可靠,能源型的一种可变半径轴承组装置。可使机械能耗降80％左右。可应用在汽车用,发电机,电动车上面。(The invention relates to a mechanical renewable energy device, in particular to a coaxial automatic diameter-adjusting mechanical device for mechanical equipment. The method is characterized in that: the left upper balance sliding block is connected with the left lower balance sliding block, and the bottom plane of the left lower balance sliding block is connected with the vertical door; the left lower balance sliding block is connected with a horizontal pushing connecting rod, the horizontal pushing connecting rod is connected with a vertical swinging connecting rod through a horizontal pushing connecting rod small shaft, the vertical swinging connecting rod is connected with the small connecting rod through a small connecting rod shaft, the small connecting rod is connected with a guide rod through a 2 nd sub shaft, the guide rod is connected with a right rocker arm, and the right rocker arm is connected with the upper end of an extension spring. The invention has the technical effects of simple structure, low cost, quick and accurate operation and use, safety, reliability and energy type. The mechanical energy consumption can be reduced by about 80%. Can be applied to automobiles, generators and electric vehicles.)

1. The utility model provides a mechanical equipment is with coaxial automatic mechanical device that transfers footpath, it contains the box, extension spring, the sprocket, a bearing, a motor, main shaft sprocket, a generator, the chain, be equipped with extension spring, the sprocket, 1 st minute axle, little crank arm, left rocking arm, little crank arm axle, left spherical adjusting wire, upper left thrust groove, upper left balance slider, lower left balance slider, upright door, horizontal push connecting rod staff, upright pendulum connecting rod, little connecting rod axle, little connecting rod, 2 nd minute axle, a bearing, a motor, a main shaft, main shaft sprocket, a generator, crank arm staff, connecting rod, guide arm, chain, right rocking arm, upper right thrust groove, right spherical adjusting wire, upper right balance slider, lower right balance slider, its characterized in that: the upper end of a tension spring is connected with a right rocker arm, the right rocker arm is connected with a right upper stress application groove through a right spherical adjusting wire, the inner side of the right upper stress application groove is connected with the upper end plane of a right upper balance slide block, the right upper balance slide block is connected with a right lower balance slide block, the bottom plane of the right lower balance slide block is connected with a vertical door, the right lower balance slide block is connected with a crank arm small shaft and a crank arm through a connecting rod, the crank arm is connected with a main shaft through a bearing, and the main shaft is respectively connected with a motor and a generator; the main shaft chain wheel is connected with the chain wheel through a chain, the chain wheel is connected with a 1 st split shaft, one end of the 1 st split shaft is connected with a small crank arm, and the small crank arm is connected with a small crank arm shaft;

the other part is as follows: the right rocker arm is connected with a second branch shaft through a guide rod, a second branch shaft is connected with a vertical swing connecting rod through a small connecting rod and a small connecting rod shaft, the vertical swing connecting rod is connected with a horizontal push connecting rod through a small horizontal push connecting rod shaft, the horizontal push connecting rod is connected with a left lower balance sliding block, the left lower balance sliding block is connected with a left upper balance sliding block, and the upper end plane of the left upper balance sliding block is connected with the inner side of a left upper stress application groove; the main shaft chain wheel is connected with the chain wheel through a chain, the chain wheel is fixedly connected with a 1 st split shaft, the other end of the 1 st split shaft is connected with a left rocker arm through a small crank arm and a small crank arm shaft, the left rocker arm is connected with an upper left stress application groove through a left spherical adjusting wire, the inner side of the upper left stress application groove is connected with an upper left balance sliding block, the upper left balance sliding block is connected with a lower left balance sliding block, and the bottom plane of the lower left balance sliding block is connected with the vertical door.

2. The coaxial automatic diameter-adjusting mechanical device for the mechanical equipment according to claim 1, characterized in that: the left lower balance slide block is connected with a horizontal pushing connecting rod, the horizontal pushing connecting rod is connected with a vertical swinging connecting rod through a horizontal pushing connecting rod small shaft, the vertical swinging connecting rod is connected with a small connecting rod through a small connecting rod shaft, the small connecting rod is connected with a guide rod through a 2 nd sub shaft, the guide rod is connected with a right rocker arm, and the right rocker arm is connected with the upper end of an extension spring.

The technical field is as follows: the invention relates to a mechanical renewable energy device, in particular to a coaxial automatic diameter-adjusting mechanical device for mechanical equipment.

Background art: at present, mechanical technology diameter change is realized by changing rotating speed, the output rotating speed is adjusted by taking a shaft as a center to obtain corresponding output power, the advantage is that the rotating speed adjusting range is wide, and the defect is that no innovation or technical design breakthrough exists no matter how the rotating speed is adjusted by the traditional machinery. With the development of scientific technology, the mechanical design and manufacture also need to be innovated, and the traditional mechanical design and manufacture cannot meet the requirements of energy conservation and emission reduction in the future. According to the law of conservation of energy, energy and machinery need to be separated from the traditional axial speed regulation to innovate the speed regulation technology along the shaft, so that the mechanical structure and power are combined and redistributed more scientifically, the input shaft and the output shaft realize automatic speed regulation according to the design according to the requirements of equipment, and then the input shaft and the output shaft return to the traditional mechanical diameter-changing technology for conversion, the innovation breaks through the conversion mode of the traditional mechanical energy, simultaneously breaks through the traditional simple new technology of utilizing springs, solves the worldwide problem of using the springs as energy for hundreds of years, and the future steel is forged to become a new primary renewable energy. The innovative mechanical transmission technology is matched with the traditional mechanical transmission technology for use, future machines are in a cross-over type, energy is saved, emission is reduced, efficiency is improved, energy is saved, environment is protected, and once the social energy consumption is comprehensively popularized, the multiple is reduced. The novel mechanical transmission design and manufacturing technology is innovated, two novel mechanical devices are provided in the future, one is a mechanical device which is additionally provided with a spring (potential energy) and can be used as renewable energy, and the other is a high-efficiency energy-saving environment-friendly mechanical device which is safe, easy to process and manufacture and has good social benefit and economic benefit.

The invention content is as follows: the invention aims to provide a coaxial automatic diameter-adjusting mechanical device for mechanical equipment, which has the advantages of simple structure, low cost, quick and accurate operation and use, safety, reliability and energy. The purpose of the invention is realized as follows: the utility model provides a mechanical equipment is with coaxial automatic mechanical device that transfers footpath, it contains the box, extension spring, the sprocket, a bearing, a motor, main shaft sprocket, a generator, the chain, be equipped with extension spring, the sprocket, 1 st minute axle, little crank arm, left rocking arm, little crank arm axle, left spherical adjusting wire, upper left thrust groove, upper left balance slider, lower left balance slider, upright door, horizontal push connecting rod staff, upright pendulum connecting rod, little connecting rod axle, little connecting rod, 2 nd minute axle, a bearing, a motor, a main shaft, main shaft sprocket, a generator, crank arm staff, connecting rod, guide arm, chain, right rocking arm, upper right thrust groove, right spherical adjusting wire, upper right balance slider, lower right balance slider, its characterized in that: the upper end of a tension spring is connected with a right rocker arm, the right rocker arm is connected with a right upper stress application groove through a right spherical adjusting wire, the inner side of the right upper stress application groove is connected with the upper end plane of a right upper balance slide block, the right upper balance slide block is connected with a right lower balance slide block, the bottom plane of the right lower balance slide block is connected with a vertical door, the right lower balance slide block is connected with a crank arm small shaft and a crank arm through a connecting rod, the crank arm is connected with a main shaft through a bearing, and the main shaft is respectively connected with a motor and a generator; the main shaft chain wheel is connected with the chain wheel through a chain, the chain wheel is connected with the 1 st split shaft, one end of the 1 st split shaft is connected with the small crank arm, and the small crank arm is connected with the small crank arm through a shaft.

Further, another part: the right rocker arm is connected with a second split shaft through a guide rod, the 2 nd split shaft is connected with a vertical pendulum connecting rod through a small connecting rod and a small connecting rod shaft, the vertical pendulum connecting rod is connected with a horizontal push connecting rod through a horizontal push connecting rod small shaft, the horizontal push connecting rod is connected with a left lower balance sliding block, the left lower balance sliding block is connected with a left upper balance sliding block, and the upper end plane of the left upper balance sliding block is connected with the inner side of a left upper stress application groove.

Furthermore, the main shaft chain wheel is connected with the chain wheel through a chain, the chain wheel is fixedly connected with the 1 st split shaft, the other end of the 1 st split shaft is connected with a left rocker arm through a small crank arm and a small crank arm shaft, the left rocker arm is connected with an upper left stress application groove through a left spherical adjusting wire, the inner side of the upper left stress application groove is connected with an upper left balance slide block, the upper left balance slide block is connected with a lower left balance slide block, and the bottom plane of the lower left balance slide block is connected with the vertical door.

Further, the lower left balance slide block is connected with a horizontal pushing connecting rod, the horizontal pushing connecting rod is connected with a vertical swinging connecting rod through a small horizontal pushing connecting rod shaft, the vertical swinging connecting rod is connected with the small connecting rod through a small connecting rod shaft, the small connecting rod is connected with a guide rod through a 2 nd branch shaft, the guide rod is connected with a right rocker arm, and the right rocker arm is connected with the upper end of an extension spring. The invention has the technical effects of simple structure, low cost, quick and accurate operation and use, safety, reliability and energy type. The mechanical energy consumption can be reduced by about 80%. Can be applied to automobiles, generators and electric vehicles.

Description of the drawings: fig. 1 is a schematic view of the structural principle of the present invention.

The specific implementation mode is as follows: a coaxial automatic diameter-adjusting mechanical device for mechanical equipment comprises a box body 1, an extension spring 2, a chain wheel 3, a bearing 19, a motor 20, a main shaft chain wheel 22, a generator 23 and a chain 28, the box body 1 is internally provided with a tension spring 2, a chain wheel 3, a 1 st split shaft 4, a small crank arm 5, a left rocker arm 6, a small crank arm shaft 7, a left spherical adjusting wire 8, a left upper stress application groove 9, a left upper balance slide block 10, a left lower balance slide block 11, a vertical door 12, a horizontal push connecting rod 13, a horizontal push connecting rod small shaft 14, a vertical swing connecting rod 15, a small connecting rod shaft 16, a small connecting rod 17, a 2 nd split shaft 18, a bearing 19, a motor 20, a main shaft 21, a main shaft chain wheel 22, a generator 23, a crank arm 24, a crank arm small shaft 25, a connecting rod 26, a guide rod 27, a chain 28, a right rocker arm 29, a right upper stress application groove 30, a right spherical adjusting wire 31, a right upper balance slide block 32 and a right lower balance slide block 33, and is characterized in that: the upper end of the extension spring 2 is connected with a right rocker arm 29, the right rocker arm 29 is connected with a right upper stress application groove 30 through a right spherical adjusting wire 31, the inner side of the right upper stress application groove 30 is connected with the upper end plane of a right upper balance slide block 32, the right upper balance slide block 32 is connected with a right lower balance slide block 33, the bottom plane of the right lower balance slide block 33 is connected with the vertical door 12, the right lower balance slide block 33 is connected with a crank arm small shaft 25 and a crank arm 24 through a connecting rod 26, the crank arm 24 is connected with a main shaft 21 through a bearing 19, and the main shaft 21 is respectively connected with a motor 20 and a generator 23; the main shaft chain wheel 22 is connected with a chain wheel 3 through a chain 28, the chain wheel 3 is connected with a 1 st split shaft 4, one end of the 1 st split shaft 4 is connected with a small crank arm 5, and the small crank arm 5 is connected with a small crank arm shaft 7; the other part is as follows: the right rocker arm 29 is connected with the 2 nd sub-shaft 18 through a guide rod 27, the 2 nd sub-shaft 18 is connected with the vertical swing connecting rod 15 through a small connecting rod 17 and a small connecting rod shaft 16, the vertical swing connecting rod 15 is connected with the horizontal push connecting rod 13 through a horizontal push connecting rod small shaft 14, the horizontal push connecting rod 13 is connected with the left lower balance sliding block 11, the left lower balance sliding block 11 is connected with the left upper left balance sliding block 10, and the upper end plane of the left upper left balance sliding block 10 is connected with the inner side of the left upper stress application groove 9; the main shaft chain wheel 22 is connected with a chain wheel 3 through a chain 28, the chain wheel 3 is fixedly connected with a 1 st split shaft 4, the other end of the 1 st split shaft 4 is connected with a left rocker arm 6 through a small crank arm 5 and a small crank arm shaft 7, the left rocker arm 6 is connected with an upper left stress application groove 9 through a left spherical adjusting wire 8, the inner side of the upper left stress application groove 9 is connected with an upper left balance slide block 10, the upper left balance slide block 10 is connected with a lower left balance slide block 11, and the bottom plane of the lower left balance slide block 11 is connected with the vertical door 12; the left lower balance slide block 11 is connected with a horizontal push connecting rod 13, the horizontal push connecting rod 13 is connected with a vertical swing connecting rod 15 through a horizontal push connecting rod small shaft 14, the vertical swing connecting rod 15 is connected with a small connecting rod 17 through a small connecting rod shaft 16, the small connecting rod 17 is connected with a guide rod 27 through a 2 nd branch shaft 18, the guide rod 27 is connected with a right rocker arm 29, and the right rocker arm 29 is connected with the upper end of an extension spring 2. The working principle and the working process of the invention are detailed in the following with the accompanying drawings: the tension of the extension spring 2 does work. The right rocker arm 29 is pulled by the extension spring 2, the spherical adjusting wire 31 is installed on the right rocker arm 29, power acts on the right upper force application groove 30 through the spherical adjusting wire 31, the power acts on the right upper balance slide block 33 through the right force application groove 30, the right upper balance slide block 33 and the right lower balance slide block 32 are interacted, then the connecting rod 26 is pushed, the crank arm 24 is pushed through the crank arm small shaft 25, the crank arm 24 is fixed on one end of the main shaft 21 to drive the main shaft 21 to rotate, and potential energy of the extension spring 2 does work and is output outwards. When the extension spring 2 works, the right rocker arm 29 is driven, the guide rod 27 is also driven, one end of the guide rod 27 is connected with one end of the 2 nd minute shaft 18, the guide rod 27 drives the other end of the 2 nd minute shaft 18 to be connected with the small connecting rod 17, the small connecting rod 17 is connected with the vertical swing connecting rod 15 through the small connecting rod shaft 16, the vertical swing connecting rod 15 is connected with the horizontal push connecting rod 13 through the small horizontal push connecting rod shaft 14, the horizontal push connecting rod 13 pushes the left lower balance block 11 to push the left upper balance slide block 10, the upper balance slide block and the lower balance slide block shrink simultaneously, the left upper balance slide block 10 pushes the left upper force application groove 9 upwards to a top dead center, and the lower semicircle is treated to work.

The extension spring 2 after doing work is pulled up again to do work. A main shaft chain wheel 22 is fixed on a main shaft 19, a driving chain 28 drives a chain wheel 3 through the chain 28, the chain wheel 3 is fixed on a 1 st minute shaft 4, a small crank arm 5 is fixed on the other end of the 1 st minute shaft, a small crank arm shaft 7 is fixed on the small crank arm 5, the small crank arm shaft 7 applies power to a left rocker arm 6, a left spherical adjusting wire 8 is installed on the left rocker arm 6 and applies power to an upper left force application groove 9, the upper left force application groove 9 applies power to an upper left balance slide block 10 and interacts with a lower left balance slide block 11 to push a horizontal push connecting rod 13 and connect with an upright pendulum connection 15 through a horizontal push connecting rod small shaft 14, the upright pendulum connection 15 is connected with a small connecting rod 17 through a small connecting rod shaft 16, the small connecting rod 17 drives a 2 nd minute shaft 18, the other end of the 2 nd minute shaft 18 is connected with a guide rod 27, the guide rod 27 is connected with one end of a pull-up right rocker arm 29 and connected with one end of a tension spring 2, the right rocker arm 29 is pulled up, and the extension spring is simultaneously extended to the top dead center, and the next half cycle is acted, which is the working process of the extension spring 2.