CN214305120U - Energy-recoverable stepless variable transmission device - Google Patents

Abstract

The utility model provides an energy-recoverable stepless speed change transmission device, which comprises a fixed shell, an input mechanism, a magnetic transmission mechanism, a mixing mechanism, a coupling mechanism, a transmission mechanism, an output mechanism, an electric energy output mechanism and a turning output mechanism; the input mechanism comprises an input shaft and a primary sun gear; the magnetic transmission mechanism comprises a primary gear ring combined frame, a primary inner gear ring, a secondary sun gear, a transmission connecting shaft, a connecting disc and an inner power generation rotor; the adjusting mechanism comprises a primary gear shaft bracket assembly, a secondary gear shaft bracket assembly and an external connecting rack; the coupling transmission mechanism comprises a second-stage inner gear ring, a third-stage hollow sun gear and a second-stage gear ring combined frame; the transmission mechanism comprises a fixed support frame, a three-level gear shaft and a three-level planetary gear. The device is small in size, large in range of a torque value of a speed change ratio, large in torque, free of a clutch device, capable of changing speed timely by self-sensing of an input end along with a feedback value of an output end, capable of generating self-adaptive stepless-adaptation torque value transmission, and capable of recycling part of energy.

Description

Energy-recoverable stepless variable transmission device

Technical Field

The utility model provides a infinitely variable transmission especially relates to one kind and adopts electromagnetic drive and gear combination transmission to infinitely variable transmission that can retrieve partial energy belongs to transmission variable speed technical field.

Background

The speed variator is used to change the ratio of torque transmission from engine to motor or other power source to generate optimal adaptation, and can change the transmission ratio between input end and output end in fixed speed ratio and stepped or stepless speed ratio to ensure the stable running of external carrier. The present commonly used speed change device is basically composed of a speed change mechanism and a control operation mechanism, most of the commonly used speed change transmission mechanisms adopt a common double-axis manual-shift multi-stage gear fixed ratio transmission mode, and have the modes of planetary gear axis differential transmission, hydraulic stepless transmission, CVT belt stepless transmission, AT automatic-shift transmission and the like, and the currently known speed change transmission modes include gear type, planetary gear combination type, toothed chain type, multi-disc type, steel ball type, cone type, V-shaped adhesive tape type, V-shaped steel belt type, hydraulic type, electromagnetic type, electronic variable frequency speed regulation type and the like.

The shifting modes currently used by transmission vehicles or other carriers can be classified into stepped transmissions and stepless transmissions. Step-variable transmissions, which are the most widely used ones, employ gear transmissions having several fixed gear ratios. According to the different gear trains, there are two kinds of axial fixed ordinary speed variator and axial planetary gear differential automatic speed variator. The common multi-stage fixed gear speed changing device usually has 3 to 5 forward gears and one reverse gear on light and medium vehicles, and has more gears on heavy vehicles, and the speed changing device has the defects that the gear contact surface is less, the teeth are easy to break, the size is large, the operation is complicated, the misoperation is easy, the energy consumption is wasted, and the like. The axial line planetary gear differential automatic speed change device has the defects of high manufacturing difficulty, high cost, complex control, large volume, high energy consumption and the like. When the speed changing devices work, reliable clutch devices must be configured, and therefore stable operation of the speed changing devices is guaranteed.

The stepless speed change device is a system device which can make an external carrier run by the ratio torque value required by each resistance period of the external carrier through the continuous stepless ratio torque value generated by the speed change system with low power, low torque value and high revolution of the power device to reduce or increase the difference value of the ratio torque with the output end so as to reduce the revolution lifting torque transmission or reduce the torque lifting revolution transmission.

The common types of the continuously variable transmission on the market at present comprise a hydraulic mechanical continuously variable transmission and an electric control frequency conversion continuously variable transmission, and the friction continuously variable transmission is commonly used in a V-shaped metal belt type continuously variable transmission which is less than cvT for short, a V-shaped belt type continuously variable transmission and the like. The hydraulic stepless speed changer has the advantages and disadvantages of complex structure, low transmission efficiency, high energy consumption, large manufacturing difficulty, high cost and limited application range, and can remotely transmit. The friction type speed changer has the advantages of small volume, simple theory and easy manufacture, and has the disadvantages of easy abrasion, high energy consumption, limited torque bearing, small gear ratio range, difficult manufacture of individual types of CVT steel belts, complex control, small torque and limited use range, and the like. The electrically controlled variable frequency stepless speed variator has the advantages of simple manufacture, easy operation, great rotation speed change, etc. and the demerits of small torque change generated by single speed ratio and limited use range.

SUMMERY OF THE UTILITY MODEL

The utility model provides an it is not enough among the above-mentioned prior art, provide an energy recovery formula infinitely variable transmission, this infinitely variable transmission is small, the gear ratio turns round the value scope big, turn round big, need not clutch, the input is presented the value from the perception timely variable speed along with the output to the value transmission is turned round to the ratio that produces self-adaptation stepless adaptation, and partial energy is recoverable simultaneously.

Realize the utility model discloses the technical scheme that above-mentioned purpose adopted does:

an energy-recoverable stepless variable transmission device at least comprises a fixed shell, an input mechanism, a magnetic transmission mechanism, a blending mechanism, a combined transmission mechanism, a variable transmission mechanism, an output mechanism, an electric energy output mechanism and a direction-changing output mechanism;

the input mechanism comprises an input shaft and a primary sun gear arranged at the top end of the input shaft, the other top end of the input shaft is provided with a connecting shaft tooth, and the input shaft is connected with a power source through the connecting shaft tooth; the magnetic transmission mechanism comprises a primary gear ring combined frame, a primary inner gear ring, a secondary sun gear, a transmission connecting shaft, a connecting disc and an inner power generation rotor, wherein the primary inner gear ring and the secondary sun gear are connected together by the gear ring combined frame, and the primary gear ring combined frame, the transmission connecting shaft, the connecting disc and the inner power generation rotor are sequentially and fixedly connected into a whole; the adjusting mechanism comprises a primary gear shaft frame assembly, a secondary gear shaft frame assembly and an external connecting rack which fixedly connects and combines the primary gear shaft frame assembly and the secondary gear shaft frame assembly together, wherein the primary gear shaft frame assembly comprises a primary planet carrier, a primary gear shaft fixed on the primary planet carrier and a primary planet gear movably arranged on the shaft, and the secondary gear shaft frame assembly comprises a secondary planet carrier, a secondary gear shaft fixed on the secondary planet carrier and a secondary planet gear movably arranged on the shaft; the joint transmission mechanism comprises a second-stage inner gear ring, a third-stage hollow sun gear and a second-stage gear ring combined rack, and the second-stage inner gear ring and the third-stage hollow sun gear are connected and fixed into a whole by the second-stage gear ring combined rack; the transmission mechanism comprises a fixed supporting frame, a three-level gear shaft fixedly assembled on the fixed supporting frame and a three-level planetary gear movably assembled on the three-level gear shaft; the output mechanism comprises a three-level inner gear ring, a three-level gear ring combined rack, an outer power generation rotor, a connecting shell and a four-level output sun gear, the three-level inner gear ring and the connecting shell are fixedly connected by the three-level gear ring combined rack, the outer power generation rotor is fixed on the inner wall of the connecting shell, and the four-level output sun gear is fixed at the center of the top of the connecting shell; the electric energy output mechanism comprises an electric energy output circuit, a carbon brush frame, a carbon brush ring fixing cover and a carbon brush electricity transmission ring, the carbon brush electricity transmission ring is fixed on the carbon brush ring fixing cover, the carbon brush ring fixing cover is hollow and cylindrical, and a four-stage output sun gear extends out of the carbon brush ring fixing cover; the direction-changing output mechanism comprises an output shaft, an output connecting gear, a four-stage planet carrier, stop external teeth, a four-stage gear shaft, a four-stage planetary gear, a four-stage inner gear ring, a locking inner gear ring, a control shifting fork and a four-stage gear ring combined rack, wherein the four-stage gear shaft is fixed on the four-stage planet carrier, the four-stage planetary gear is arranged on the four-stage gear shaft, the four-stage gear ring combined rack connects and fixes the four-stage inner gear ring and the output shaft, and the output connecting gear is positioned at the top end of the output shaft; the locking outer teeth are arranged in three groups and are respectively positioned outside the four-stage inner gear ring, outside the four-stage planet carrier and inside the fixed shell from top to bottom, the three groups of locking outer teeth are positioned on the same cylindrical surface, the locking inner gear ring can slide up and down by controlling the shifting fork and is mutually meshed with the locking outer teeth, and the rotating direction of the output shaft can be controlled by the up-and-down sliding of the locking inner gear ring;

the first-stage sun gear, the first-stage inner gear ring and the first-stage planetary gear, the second-stage sun gear, the second-stage inner gear ring and the second-stage planetary gear, the third-stage hollow sun gear, the third-stage inner gear ring and the third-stage planetary gear, the fourth-stage output sun gear, the fourth-stage inner gear ring and the fourth-stage planetary gear are all connected with one another to form a planetary gear transmission mechanism; the transmission connecting shaft penetrates out of the three-stage hollow sun gear.

The fixed casing comprises an upper casing and a lower casing, the fixed support frame is fixedly connected with the lower casing, the bottom of the connecting casing in the output mechanism is connected with the fixed support frame through a bearing, the top of the connecting casing is connected with the upper casing through a bearing, the fixed cover of the carbon brush ring is fixed at the bottom opening of the upper casing, and the turning output mechanism is located in the upper casing and the output shaft extends out of the top opening of the upper casing.

The top opening of the upper shell is inwards provided with a cylindrical output shaft support frame, and the output shaft is arranged in the output shaft support frame through a bearing.

When the locking inner gear ring slides to an upper station, the external locking teeth outside the four-stage inner gear ring and the external locking teeth outside the four-stage planet carrier are simultaneously meshed with the locking inner gear ring, the four-stage inner gear ring and the four-stage planet carrier synchronously rotate, and the rotation direction of the output shaft is the same as that of the four-stage output sun gear; when the locking inner gear ring slides to a lower station, the external locking teeth outside the four-stage planetary carrier and the external locking teeth in the fixed shell are simultaneously meshed with the locking inner gear ring, the four-stage planetary carrier is connected and fixed with the fixed shell, and the rotation direction of the output shaft is opposite to that of the four-stage output sun gear.

Compared with the prior art, the utility model provides an energy recovery formula infinitely variable transmission has following advantage:

the utility model discloses enable various power supplies when the transmission, can both follow the revolution and the resistance feedback numerical value of each load period height change of output and be the benchmark to turn round the value transmission along with presenting the ratio that the value was regarded as benchmark input adaptation by the device input, the device is inside a plurality of mechanisms's relay automatic allotment depend on multiple function infinitely variable such as mutually, and random self-adaptation turns round the value with the stepless ratio of phase-match and passes to the output. The device is composed of a plurality of independently rotatable mechanisms, each mechanism is formed by cross-stepped connection and combination of different components, each component of each mechanism has multiple functions, the components of each mechanism are self-adaptive to stepless speed change by taking the fed value of each component of each mechanism as a reference, and the fed values are transmitted comprehensively in different directions with different specific torque values and with multiple functions of assisting in mutual dependence and the like.

The utility model mainly adopts the working principle of the permanent magnet generator and the working principle of the planetary wheel set as thinking, can generate the same feedback value under the restriction of any external changed resistance when transmitting the rotating force, and inputs the corresponding specific torque value along with the feedback value from the input end according to the force-to-resistance low-difference transmission mechanism and the principle of the thinking and the mechanism, and is modulated by a tooth difference receiving modulation and magnetic feed value proper value difference transmission modulation, and mainly drives the special inner and outer power generation rotors in the device to independently rotate in the same direction at intervals along with respective mechanisms, when the inner power generation rotor overruns in the same direction and the outer power generation rotor overruns, the magnetic field is cut to generate power and different electromagnetic torque values are generated at the same time, thus the overrunning power generator can not only perform overruns, but also generate different electric energy to be recycled, and different magnetic feed values are generated to be used as main speed generation and auxiliary speed change sources of the device, so that the respective multi-stage gear sets of each mechanism are driven by a comprehensive ratio torque value matched in high and low.

Drawings

Fig. 1 is a schematic view of the overall structure of the energy recovery type continuously variable transmission provided by the present invention;

FIG. 2 is a schematic structural diagram of a fixed housing and a transmission mechanism and an electric energy output mechanism;

FIG. 3 is a schematic structural diagram of an input mechanism;

FIG. 4 is a schematic structural view of a dispensing mechanism;

FIG. 5 is a schematic structural view of a magnetic mechanism;

FIG. 6 is a schematic structural view of the linkage mechanism;

FIG. 7 is a schematic structural view of an output mechanism;

FIG. 8 is a schematic structural view of a direction-changing output mechanism;

in the figure: 1-an input shaft, 2-a primary sun gear, 3-a connecting shaft gear, 4-a primary ring gear combined rack, 5-a primary ring gear, 6-a secondary sun gear, 7-a transmission connecting shaft, 8-a connecting disc, 9-an internal power generation rotor, 10-an external connecting rack, 11-a primary planet carrier, 12-a primary gear shaft, 13-a primary planet gear, 14-a secondary planet carrier, 15-a secondary gear shaft, 16-a secondary planet gear, 17-a secondary ring gear, 18-a tertiary hollow sun gear, 19-a secondary ring gear combined rack, 20-a fixed support rack, 21-a tertiary gear shaft, 22-a tertiary planet gear, 23-a tertiary ring gear, 24-a tertiary ring gear combined rack, 25-an external power generation rotor, 26-connecting shell, 27-four-stage output sun gear, 28-carbon brush ring fixing cover, 29-carbon brush transmission ring, 30-output shaft, 31-output connecting gear, 32-four-stage planet carrier, 33-stopping external teeth, 34-four-stage gear shaft, 35-four-stage planetary gear, 36-four-stage internal gear, 37-locking internal gear, 38-control shifting fork, 39-four-stage gear ring combined frame, 40-upper shell, 41-lower shell and 42-output shaft supporting frame.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments, but the scope of the present invention is not limited to the following embodiments.

The utility model provides an energy recovery formula infinitely variable transmission's overall structure is shown in figure 1, including fixed casing and input mechanism, magnetic drive mechanism, allotment mechanism, antithetical couplet biography mechanism, change biography mechanism, output mechanism, electric energy output mechanism and diversion output mechanism.

The fixed shell comprises an upper shell 40 and a lower shell 41, the transmission mechanism comprises a fixed supporting frame 20, a three-level gear shaft 21 fixedly assembled on the fixed supporting frame and a three-level planetary gear 22 movably assembled on the fixed supporting frame, and as shown in fig. 2, the fixed supporting frame is fixedly connected with the lower shell. The electric energy output mechanism comprises an electric energy output circuit, a carbon brush frame, a carbon brush ring fixing cover and a carbon brush electricity transmission ring 29, the carbon brush electricity transmission ring is fixed on the carbon brush ring fixing cover 28, the carbon brush ring fixing cover is in a hollow cylindrical shape, the carbon brush ring fixing cover is fixed at the bottom opening of the upper shell, and a cylindrical output shaft support frame 42 is arranged inwards at the top opening of the upper shell.

The structure of the input mechanism is shown in fig. 3, and comprises an input shaft 1 and a primary sun gear 2 arranged at the top end of the input shaft, wherein the other top end of the input shaft is provided with a connecting shaft tooth 3, and the input shaft is connected with a power source through the connecting shaft tooth.

The structure of the magnetic mechanism is shown in fig. 5, and the magnetic mechanism comprises a primary gear ring combined frame 4, a primary gear ring 5, a secondary sun gear 6, a transmission connecting shaft 7, a connecting disc 8 and an inner power generation rotor 9, wherein the primary gear ring and the secondary sun gear are connected together by the gear ring combined frame, and the primary gear ring combined frame, the transmission connecting shaft, the connecting disc and the inner power generation rotor are sequentially and fixedly connected into a whole. The transmission connecting shaft penetrates out of the three-stage hollow sun gear.

The structure of the adjusting mechanism is shown in fig. 4, and comprises a primary gear shaft frame assembly and a secondary gear shaft frame assembly, and an external connecting frame 10 which fixedly connects and combines the primary gear shaft frame assembly and the secondary gear shaft frame assembly together, wherein the primary gear shaft frame assembly comprises a primary planet carrier 11, a primary gear shaft 12 fixed on the primary gear shaft frame assembly, and a primary planet gear 13 movably arranged on the primary gear shaft, and the secondary gear shaft frame assembly comprises a secondary planet carrier 14, a secondary gear shaft 15 fixed on the secondary gear shaft frame assembly, and a secondary planet gear 16 movably arranged on the secondary gear shaft.

The structure of the coupling transmission mechanism is shown in fig. 6, and the coupling transmission mechanism comprises a second-stage inner gear ring 17, a third-stage hollow sun gear 18 and a second-stage gear ring combined rack 19, wherein the second-stage gear ring and the third-stage hollow sun gear are connected and fixed into a whole by the second-stage gear ring combined rack.

The structure of the output mechanism is shown in fig. 7, and the output mechanism comprises a three-level inner gear ring 23, a three-level gear ring combined rack 24, an outer power generation rotor 25, a connecting shell 26 and a four-level output sun gear 27, wherein the three-level gear ring combined rack connects and fixes the three-level inner gear ring and the connecting shell, the outer power generation rotor is fixed on the inner wall of the connecting shell, and the four-level output sun gear is fixed at the center of the top of the connecting shell; the four-stage output sun gear extends out of the carbon brush ring fixing cover. The bottom of the connecting shell is connected with the fixed support frame through a bearing, and the top of the connecting shell is connected with the upper shell through a bearing.

The structure of the direction-changing output mechanism is shown in fig. 8, and the direction-changing output mechanism comprises an output shaft 30, an output connecting gear 31, a four-stage planet carrier 32, stop external teeth 33, a four-stage gear shaft 34, a four-stage planet gear 35, a four-stage inner gear ring 36, a locking inner gear ring 37, a control shifting fork 38 and a four-stage gear ring combined frame 39, wherein the direction-changing output mechanism is positioned in the upper shell, the output shaft extends out of an opening at the top of the upper shell, and the output shaft is installed in an output shaft supporting frame through a bearing. A four-stage gear shaft is fixed on a four-stage planet carrier, a four-stage planet gear is arranged on the four-stage gear shaft, a four-stage gear ring combined rack connects and fixes a four-stage inner gear ring and an output shaft, and an output connecting gear is positioned at the top end of the output shaft; the locking outer teeth are provided with three groups, the three groups of locking outer teeth are respectively located on the outer portion of the four-stage inner gear ring, the outer portion of the four-stage planet carrier and the inner portion of the fixed shell from top to bottom, the three groups of locking outer teeth are located on the same cylindrical surface, the locking inner gear ring can slide up and down through the control shifting fork and is meshed with the locking outer teeth, and the rotation direction of the output shaft can be controlled through the up-down sliding of the locking inner gear ring. When the locking inner gear ring slides to an upper station, the external locking teeth outside the four-stage inner gear ring and the external locking teeth outside the four-stage planet carrier are simultaneously meshed with the locking inner gear ring, the four-stage inner gear ring and the four-stage planet carrier synchronously rotate, and the rotation direction of the output shaft is the same as that of the four-stage output sun gear; when the locking inner gear ring slides to a lower station, the external locking teeth outside the four-stage planetary carrier and the external locking teeth in the fixed shell are simultaneously meshed with the locking inner gear ring, the four-stage planetary carrier is connected and fixed with the fixed shell, and the rotation direction of the output shaft is opposite to that of the four-stage output sun gear.

The first-stage sun gear, the first-stage inner gear ring and the first-stage planetary gear, the second-stage sun gear, the second-stage inner gear ring and the second-stage planetary gear, the third-stage hollow sun gear, the third-stage inner gear ring and the third-stage planetary gear, the fourth-stage output sun gear, the fourth-stage inner gear ring and the fourth-stage planetary gear are all connected with one another to form a planetary gear transmission mechanism.

The applicant explains the function of each mechanism of the present invention and the working mechanism thereof in detail, and explains the operation mode in practical use in combination with practical use conditions. For convenience of description, the following abbreviations are used hereinafter: the input mechanism is called input end or input end for short, the adjusting mechanism is called adjustment for short, the magnetic mechanism is called magnetism for short, the output mechanism is called output end or output end for short, the primary planetary gear is called one tooth for short, the primary gear shaft is called one shaft for short, the primary ring gear is called one circle for short, the secondary sun gear is called two wheels for short, the secondary gear shaft is called two shafts for short, the secondary planetary gear is called two teeth for short, the secondary ring gear is called two circles for short, and so on.

The abbreviations referred to hereinafter have the following specific meanings:

(1) the forward and reverse directions of the device are referred to herein as forward rotation or forward transmission, and the respective components of the mechanism from the first rotation direction to the second rotation direction are referred to as forward direction, and the respective components of the mechanism from the second rotation direction to the first rotation direction are referred to as reverse direction. The following expressions are made for short in the forward and reverse directions.

(2) The numerical values are referred to herein mainly to express that the rotation number or force or value generated by the resistance value, the feedback value, the torque force, the rotating force, the transmission force, the electromagnetic torque force, the electric energy value, the differential connection, the differential transmission, the differential connection and the like when the respective components of the mechanism of the device operate can be collectively referred to as the numerical values, and the numerical values are referred to as the numerical values for the convenience of the following description.

(3) The term "reference value" is used herein to mean that, when the output mechanism is limited by any resistance of the external carrier, the resistance and the rotation number of the output mechanism are changed accordingly and can generate the same feedback value, and the feedback value is used as the mechanism of the automatic speed change transmission of each mechanism based on the reference value.

(4) The term "cyclically alternating" as used herein means that the modulation and the magnet generate different feedback values when the two axes of the modulation and the magnet are in differential transmission with the two wheels and the inner power generation rotor. When the difference between the feed value of the tone and the feed value of the magnet is transmitted, the tone is transmitted by the difference between the magnetic feed value generated by the feed value during magnetic transmission and the magnetic feed value generated by the magnetic feed value during transmission, so that the tone and the magnet are transmitted by the difference between the downward self-component and other mechanisms which are cyclically and alternately dependent.

(5) The transmission of force to low resistance means that the tone and the magnet can be mechanisms which can rotate independently, the feedback resistance values generated when the tone and the magnet are transmitted along with the feed value are different, the required input transmission ratio is different, so that the rotation numerical value of the input end can be divided into two strands of numerical value difference transmission by a tooth difference mechanism, and the mechanism of the transmission of the resistance feed value of the tone and the magnet to low resistance by a tooth according to the force to low resistance difference is considered, and the mechanism of the transmission of the rotation numerical value of the input end to the mechanism with low resistance feed value is automatically considered by a tooth according to the height of the resistance feed value of the tone and the magnet.

(6) The term "differential to differential" and "differential transmission" as used herein refers to a magnetic modulating element in which one tooth revolves in the opposite direction, rotating in the forward direction, and the number of revolutions at the input end is divided into two different numbers. One shaft receives the numerical value transmitted by a tooth difference in a differential mode, and drives the mechanism of differential transmission of the self mechanism. The two teeth receive two numerical values transmitted by the two-shaft two-wheel difference in a differential mode and integrate the two numerical values into a numerical transmission mechanism. Therefore, the mechanism for expressing each component in the following description is simply referred to as differential-to-differential.

(7) The dynamic generation-assisting point is mainly a mechanism that when two shafts of a regulating shaft and two wheels of a magnetic ring run respectively, the rotating transmission force points of the components can be depended on the generation speed of the synchronous transmission.

(8) The forward generation assisting point is used in the text to mean that when the components and the magnetic components are operated in mutual assistance, syngenesis and simultaneous limitation, the principle that the two axes of the adjusting shaft are used as the syngenesis and syngenesis co-transmission points by the forward force point to enable the magnetic syngenesis and syngenesis to be mutually coexisted and reversely operated is mainly referred to.

(9) The reverse generation assisting point is used for the magnetic parts and the regulating parts to operate in the same-generation and same-transmission same-limitation mode, and mainly refers to a mechanism that the regulating and same-generation and same-transmission co-exist and operate in the forward direction by taking the reverse force point as the same-generation and same-transmission point in one magnetic circle and two magnetic circles.

(10) Relay is used herein to mean that each member of the mechanism receives force directly from the input or between the input and the output.

(11) The mechanism for assisting the same birth and limiting the same transmission of the two shafts and the two wheels is mainly characterized in that the two shafts and the two wheels respectively operate by a self opposite direction difference force transmission point, the same birth and limiting the same transmission mechanism, the two shafts and the two wheels operate by a mechanism of assisting the generation speed difference transmission of the two wheels to assist the generation speed difference transmission of the two wheels, the resistance and the generated feed value of the two shafts during the transmission of the two shafts are transmitted by an acceleration ratio and a full operation time period are higher than the resistance and the generated feed value of the two wheels during the reduction ratio transmission, therefore, the whole magnet can only increase the overdrive value according to the mechanism, the resistance and the generated feed value of the two shafts can be equal to each other only by adjusting the overdrive value, and the rule of the adjustment with value transmission and the magnetic overdrive can be realized according to the two mechanisms.

Therefore, when the resistance at the output end rises suddenly or gradually and is indirectly fed back to two circles according to the mechanism, when two wheels and two shafts transmit in opposite directions and simultaneously assist the same-generation same-transmission same-limitation transmission by respective reverse force points, the two teeth are simultaneously driven to rotate in the forward direction and revolve in the forward direction to passively and differentially transmit in two circles, and simultaneously, the resistance at the output end is limited by the proper resistance when the resistance is transmitted to two circles. At the moment, according to the mechanism property of opposite differential transmission of the two wheels and the two shafts, when two circles of resistance and two-shaft acceleration ratio torque limits are received in the two-wheel reverse transmission time, the two-wheel reverse reduction ratio torque can simultaneously force the two-gear forward revolution value to be reduced, namely the two-shaft acceleration ratio torque and the two-shaft acceleration ratio torque for adjusting the transmission direction to the two circles are forced to be reduced along with the two-gear revolution. Meanwhile, the two-tooth forward rotation value is forced to rise, namely, the ratio torque of two wheels is increased by two circles and the output end, and the two-tooth forward rotation value is also driven by the mechanism that the self-deceleration torque and the electromagnetic torque of the inner power generation rotor increase the magnetic integral excess transmission ratio along with the rise of the two-tooth rotation. When the two shafts drive the two teeth to revolve clockwise, the two shafts are limited by the resistance of two circles of sudden rise or gradual rise and the suitable deceleration and repulsive force of the sudden rise or gradual rise of the two wheels, at the moment, the two shafts and the two teeth are forced to synchronously reduce the speed, but the two shafts always have partial force to drive the two teeth to revolve and also always have partial force to assist the two wheels to drive the two teeth to rotate, so the two shafts can only indirectly and synchronously move along with the output end revolution under the influence of the factors. And simultaneously adjusting the resistance received by the magnet and the generated feed value until the magnetic and component overdrive rotation ratio and the output end reduced rotation value are increased until the difference between the two values is increased to be equal to the feed value generated by the magnetic resistance and the feed value generated by the modulation resistance, and adjusting the difference between the rotation ratio of the magnet and the output end to be stable and stable without changing and integrating the transmission mechanism rule.

Thus, when the two wheels and the two shafts are simultaneously assisted by the two wheels and simultaneously limited for simultaneous transmission according to the mechanism, when the resistance feedback value at the output end is suddenly reduced or gradually reduced and fed back to the two circles, various numerical values generated by the two wheels and the two shafts respectively and numerical values generated by the power generation rotor in the two-tooth two circles operate according to a numerical mechanism rule which is positive opposite to the numerical values.

The rotation ratio of the modulation and magnetic co-generation co-restriction co-transmission change is mainly the magnetic field torque force and the feed value generated when the internal generating rotor is in the excess transmission state as the main speed source, the two shafts and the two wheels are mainly in the combined transmission of various numerical values generated by self serving as the force point and co-generation co-transmission co-restriction,

(12) the magnetic feed value is referred to in the text, which mainly means that when the magnetic integral transmission is exceeded, the magnetic integral transmission is simultaneously limited by different resistances of the power generation rotor outside the output mechanism and the adjusting secondary shaft, and the magnetic feed value is referred to in the text to cooperate with the adjusting operation.

(13) The feedback adjusting value is mainly limited by the resistance transmitted to two circles between the output mechanisms and the different resistances of the two magnetic wheels when the adjusting body is transmitted along with the value, and the feedback value with the same value is generated when the resistance received by the adjusting body is high, and the adjusting value is matched with the mechanism assisting the magnetic mechanism to operate.

(14) The following value transmission is mainly that the modulator is indirectly transmitted with the ascending and descending along with the ascending and descending of the numerical value of the output end as a reference, the modulator is indirectly limited by the numerical value of the output end during operation and is indirectly transmitted with the value, the reverse force of the ascending and descending of the magnetic two wheels is limited, the electromagnetic torque generated by the magnetic inner power generation rotor is mutually assisted and is transmitted with the value, and the device is a main speed regulation and generation assisting mechanism matched with the device. The modulation mainly can generate various numerical values when the modulation is carried out along with value transmission, and can generate various numerical values for inverse matching when the modulation is matched with magnetic over-value transmission, so that the two are interdependent and simultaneously contribute to the function comprehensive transmission such as the generation and restriction.

(15) The over-value transmission is mainly a mechanism that the magnetic and self-component transmission properties are different and can exceed the rotation number value of the output end and the regulation when the device runs in the whole time period, and is a main speed generation and speed change source of the device.

(16) The rotation number is mainly used for indicating the rotation value of each part of each mechanism of the device, and the operation mechanism of each part of each mechanism is expressed in short, and the rotation speed is different from the rotation speed in short.

(17) The magnetic transmission is called magnetic transmission mechanism for short, and the magnetic transmission is mainly used for generating different electromagnetic torque forces by a differential cutting magnetic field to drive an outer power generation rotor to rotate in the same direction when the inner magnetic power generation rotor and the outer power generation rotor are subjected to same-direction air-separation over direct transmission, and simultaneously generating the same feedback magnetic resistance value which is used as a main co-generation source to enable the device to normally operate.

(18) The term "adjustment" is used herein to refer to a feedback value that can sense the change of adjustment and magnetic level when adjusting a gear difference transmission, and to use the feedback value as a reference, and to transmit the adjustment difference of the rotation number from the input end according to the difference transmission mechanism of force to the resistance low, and to use a gear to adjust the difference of the adjustment of the feedback value of adjustment and magnetic level to the magnetic sum adjustment mechanism, and to name the adjustment mechanism for short.

(19) The term "differential transmission" as used herein means that two teeth are received in a forward revolving manner from their rotation and forward revolving manner, and are forced to receive two data streams from the magnetic difference and transmitted in different directions and with different rotation ratios, and are combined into a single data stream to drive two circles and its own mechanism to revolve in a forward revolving manner.

(20) The meaning of setting limit or setting is as follows, mainly refers to that when the inner generating rotor and the outer generating rotor are in transmission with the feed value exceeding, the two same-direction spaced differential cutting magnetic fields generate electromagnetic torque force, so that the source power is not limited to the holding-down machine as the upper limit reference when in transmission with the highest power, and the phenomenon that the inner mechanism rotates from the rotation to the non-rotation of the output end when in transmission is avoided, and the set electromagnetic energy value is used for ensuring the normal operation of the device.

(21) The rotation ratio is referred to as the mechanism that the feeding value of tone and magnetism is high and low when one tooth is in differential transmission, the rotation of the input end is divided into two numerical values, and the two numerical values respectively obtain the rotation ratio and the differential transmission of the input end with different time and place.

(22) The adaptive value adjustment is referred to herein as "differential transmission", which means that the input rotation number is divided into two numbers according to the difference between the input rotation number and the output rotation number, and the output rotation number is stable and equal, and the difference between the output rotation number and the output rotation number is stable and unchanged, and the adaptive rotation number and the output rotation number is integrated with the adaptive rotation number.

(23) The high specific torque is referred to herein as "high specific torque", and means that different super transmission values can be generated at all times along with a feed value when the magnetic component two wheels and the inner power generation rotor are integrally and synchronously driven, wherein the magnetic component two wheels are indirectly driven to an output end by changing high specific value into high torque, and the magnetic inner power generation rotor is directly driven to the outer power generation rotor by the electromagnetic torque which is increased by the rise of the super transmission difference value, so that the magnetic components can be generally referred to as "magnetic components" which operate by a high specific torque mechanism.

(24) The low-medium ratio torque is mainly transmitted in a mode that a first-stage gear shaft frame set drives a second-stage gear shaft frame set to accelerate in a speed reduction mode during transmission. When the magnetic motor runs at the same rotation number, the subtracting-one-adding transmission property is mainly that the resistance and the generated feed value when the two shafts drive the two teeth to revolve in the forward direction are higher than those of the magnetic generator when the rotation number is the same. Therefore, the adjustment is a comprehensive medium-low torque transmission mechanism.

Through the definition and explanation of the above terms, the overall design idea and the function and principle of each mechanism in the utility model are as follows:

1. the device is composed of a plurality of independent cross-rotating mechanisms, each part of each mechanism has multiple functions to assist the realization of stepless speed change transmission, the feedback resistance value of the output end is used as the reference when each mechanism automatically matches the speed for transmission, the input end inputs the matched transmission numerical value along with the feedback value as the reference, the driving magnet and the adjusting are transmitted along with the difference of the rotation number of the respective proper value by a gear differential transmission mechanism, and the output end automatically adapts the input rotation number ratio required by the rotation of each resistance value time period to be transmitted along with the feedback value.

When the input end of the device is used for actively inputting kinetic energy, and when a gear is in differential connection and differential transmission, different feedback resistance values indirectly fed back from the sensing output end act on a modulation magnetic shaft and a circle of component, and the device revolves in a forward direction along with reverse rotation by a gear differential transmission mechanism, a rotation value of the input end is divided into two strands of numerical values to be modulated and differentially transmitted along with a feedback value adaptive value of the magnetic component, the magnetic component and the phase modulation are respectively and circularly driven to rotate in an alternating mode, respective secondary components are driven to synchronously transmit along with the same assistance and the same transmission, the comprehensive transmission is simultaneously limited, and the modulation and magnetic feedback values are comprehensively transmitted to the linkage transmission mechanism according to an over value and a differential transmission ratio adaptive to the over value and the differential transmission ratio. The forward driving transmission mechanism drives the three-stage annular gear to rotate reversely through speed reduction and direction change, and the forward driving transmission mechanism and the internal power generation rotor have the same transmission direction, the two numerical values are integrated into one comprehensive numerical value by the output end part, the output end is driven to rotate reversely and transmit to the direction change mechanism, and the direction change mechanism is controlled to change the direction and generate the effect of transmitting to an external carrier in the forward and backward directions.

The mechanisms all use the resistance of lifting of an external carrier as a reference, force the output end to change the self resistance and the revolution number by the reference, and serve as the speed change reference when other mechanisms automatically transmit, and enable the mechanisms to jointly adjust and cooperate with each other, synchronously generate, simultaneously assist, differentially transmit and depend on the other mechanisms to change the speed, so that the action mechanisms of adaptive stepless speed change transmission and partial energy recycling are achieved.

2. The input mechanism is connected with various power sources for transmission, takes a feedback value with random height change as a speed change reference, and drives the output end to rotate for a required revolution value for transmission along with the input of the feedback value.

When the source power drives a wheel to actively drive forward, the gear mechanism is in differential connection and differential transmission, the gear mechanism is in mutual assistance with a shaft and a circle, the gear differential transmission mechanism divides the rotation value of the input end into two values, the three mechanisms are respectively and simultaneously adaptive to modulation and magnetism, the two mechanisms are enabled to obtain different required revolution ratio differential transmission along with the feedback value, the two mechanisms are simultaneously assisted in the same generation and the same transmission with the value following and the over value transmission mode and are limited to operate dependently, and when the two mechanisms simultaneously drive the two shafts and the two wheels to perform opposite differential transmission, the two shafts and the two wheels are comprehensively differentially transmitted in the special mode of simultaneously assisting in the same generation and the same transmission and limiting each other, and the two gear differential transmission mechanism integrates the values into a comprehensive stepless ratio and two strands of torque values and transmits the output end action mechanism.

When the input end and each mechanism transmit to the output end, when the output end feels that the external resistance is low and the rotation number needs to be increased for transmission, the output end and each mechanism generate adaptive low-torque high-rotation number, and the output end is driven to change the low-torque into the high-rotation number for external transmission along with the low feed value. When the output end is subjected to high external resistance during transmission, the high-revolution speed of the output end is changed into high-torsion force by the output end and each mechanism, and the output end is driven to transmit the high-torsion force at low revolution speed to the outside along with the high feed value.

3. The working principle and the function of each part of the magnetic transmission combined mechanism are as follows:

(1) the magnetic mechanism is characterized in that the magnetic mechanism is integrally transmitted in a reverse direction by taking the feedback values of the outer generating rotor at the output end and the three-stage inner gear ring as a reference, the magnetic mechanism is mainly driven to rotate in a reverse direction by a tooth to drive a circle and then drive the whole magnetic mechanism to reversely transmit the circle, the higher the overdrive value transmitted to the output end is, the higher the generated torque is, the inner generating rotor can be directly transmitted in a full-resistance limit period by electromagnetic torque in a way of separating from the air in the same direction and surpassing the rotating speed of the outer generating rotor in a way of exceeding the grade, the same value can be simultaneously transmitted to reduce the resistance received by the gear set during transmission, and the recyclable electric energy can be simultaneously generated, two wheels can be synchronously transmitted to the three-stage inner gear ring in a way of high-ratio torque deceleration property in the full-resistance limit period, and the whole magnetic mechanism forms two comprehensive overdrive values with different properties when the overdrive value is synchronously changed in the same direction to the output end, the two parts of the output end combine two forces into one comprehensive force to drive the output end to reversely drive, and at the same time, the magnetic drive is blocked to generate a high feed value, the magnetic feed value is used as a main speed-generating speed-changing source of the device, and the magnetic feed value can assist one tooth to drive the forward drive and generate the same feed value, and the feed resistance values generated by the two parts are used for assisting the same drive and the same dependence to infinitely circulate to the output end to comprehensively drive. Reference is made to FIG. 5 of FIG. 1

(2) The first-stage inner gear ring has the mechanism action that a gear is driven to actively drive the main part of the whole reverse transmission of the self mechanism by reverse rotation, the first-stage inner gear ring is a main relay force transmission assisting carrier part with various numerical values generated by the magnetic whole during transmission, the first-stage inner gear ring can be used for assisting a gear to adjust the transmission revolution number of an input end according to the level of each feedback value of the gear and the adjusting shaft by taking a feedback value generated by the self mechanism as a supporting point of the same assisting force, the first-stage inner gear ring drives the magnetic to transmit in an over-value mode and drives the adjusting to transmit in a follow-up value mode, the adjusting and the magnetic follow-up value are comprehensively transmitted in a self-adaptive stepless ratio-torque value mode, and the action mechanism of the stepless speed transmission is jointly realized.

The action mechanism of the primary ring gear can be simply called primary ring gear or a ring mechanism in the detailed description. Reference is made to FIG. 5 of FIG. 1

(3) The mechanism action of the second-stage sun gear is that the second-stage sun gear mainly acts as a main component which can be used for carrying out over-value transmission at any output end limited time period with high specific torque speed reduction property. The reverse torque force can be mainly used for driving the two shafts to rotate towards the two circles as a fulcrum when the two shafts drive the two gears to revolve in the forward direction, and mainly used for reacting the repulsive force of the two shafts and the resistance of the two circles when the two shafts are blocked to rotate towards the two circles by means of the two shafts, so that the higher the blocking limit of the two shafts is, the lower the transmission revolution number is, the higher the feedback resistance value fed back to the one shaft is, and the main transmission rule is adjusted. The feed value generated when the transmission is blocked is a partial feed resistance value source when the transmission is adjusted, and the feed value is a main high-torque deceleration value transmission source when the output end is blocked.

When the rotor is reversely and simultaneously in over-value transmission with the inner power generation rotor to the output end, the rotor and the inner power generation rotor are in a transmission rule that the higher the over-transmission revolution number is, the higher the generated torsion is and the higher the generated feed resistance value is, and the rotor are mainly used for changing the high revolution number of the input end into the high-ratio torsion and transmitting the high-ratio torsion to the output end.

When the two-shaft counter-rotating transmission drives the two-gear comprehensive transmission by respective rotation ratio, and the two-shaft counter-rotating transmission operates by a mechanism that the respective counter-rotating transmission is taken as a fulcrum to assist the same transmission and limit the mutual dependence, the two-gear counter-rotating transmission and the two-shaft counter-rotating transmission are in a special mode to force the two gears to revolve in the forward direction and rotate in the forward direction to integrate two specific torques with different rotation ratios in the two different directions into one specific torque value matched in height and comprehensively transmit the two specific torques to two circles, and drive the linkage transmission mechanism to drive the transmission mechanism in the forward direction to drive the output end to reversely transmit the two specific torques in the same direction through speed reduction and transmission, and generate a mechanism effect of one rotation with the transmission direction of the inner power generation rotor.

The mechanism of action of the secondary sun gear may be referred to herein simply as the secondary sun gear or the two-wheel mechanism. Reference is made to FIG. 5 of FIG. 1

(4) The permanent magnet inner power generation rotor mainly cuts a magnetic field in the same direction with an outer power generation rotor to generate magnetic torque over-value transmission, is driven by an inner rotor outward coil power generation rotor set according to the principle idea of a permanent magnet generator, and is a special permanent magnet generator which can independently rotate along with respective mechanisms together with the outer power generation rotor. The differential transmission type electromagnetic torque cutting machine is mainly in differential transmission with the electromagnetic torque generated by the electromagnetic torque and the external power generation rotor in the same-direction overrunning cutting magnetic field at a set electromagnetic power and in the different-direction overrunning cutting magnetic field, and is in operation rule transmission with the torque, the magnetic feed value and the electric energy generated by the higher the differential transmission overrunning revolution number is, and the torque, the magnetic feed value and the electric energy generated by the lower the overrunning revolution number is, on the contrary, the lower the overrunning revolution number is, the lower the torque, the magnetic feed value and the electric energy is.

In order to ensure that the rotor and an external power generation rotor can normally operate in a set electromagnetic power value, when the rotor and the external power generation rotor are in transmission with the set electromagnetic torque force in the highest output end blocking limit period, when the rotor and the magnetic motor are simultaneously in output end comprehensive transmission, the phenomenon that the power of the magnetic torque is too high to cause the shutdown and jamming of a power device to be set as an upper limit reference when the power is in over-limit transmission is avoided, and the phenomenon that the set magnetic torque power is not in top value transmission when the output end blocking limit value is not reached, the regulating body is blocked from reversely rotating along with the two magnetic wheels, and the output end is not rotated is used as a lower limit reference to set the electromagnetic power, and the set adaptive electromagnetic power is used for ensuring the normal operation of the device.

The magnetic torque force is transmitted to the power generation rotor outside the output end in a step-by-step direct transmission mode in a synchronous way, the power of the set electromagnetic torque can ensure the power generation rotor to be transmitted to the output end in a synchronous way along with the feed value in all time, the power generation rotor can be transmitted along with the feed value in a stepless electromagnetic torque force mode, the power generation rotor can be lifted along with the feed resistance value, the power generation rotor can be driven along with the magnetic torque generated by the lifting of the same-direction differential speed, the same-value resistance borne by the magnetic torque and the power generation rotor during the transmission to the output end can be indirectly reduced at the same time, and the magnetic feed value and the power generated by the power generation rotor can also be lifted along with the resistance of the output end. The magnetic feed value source generated by a tooth difference transmission mechanism can be used for automatically adjusting the numerical value proper value of the input end to the modulation, and simultaneously the modulation can generate different torque force, rotation number and feed value, and the modulation can also assist the magnetic integral transmission by the generated modulation feed value, so that the modulation and the infinite circulation generated by the magnetism respectively and the simultaneous transmission and the dependent feed value are generated by the magnetic resistance feed value.

When the external power generation rotor transmits electricity in the same direction and in different directions, an external charge recovery and storage device is required to generate electromagnetic torque force, a magnetic torque feedback value and electric energy to be transmitted in a special mode, so that the external charge recovery and storage device is a main mechanism rule for whether the device can realize stepless speed change transmission or not and is a main electric energy recovery, storage and reutilization device. Since the electric energy recovery and storage device is easy to implement in the technology that is well-established and commonly used in modern technology, the technical description of the external charge recovery and storage device is not referred to herein. Reference is made to FIG. 5 of FIG. 1

(5) The overall speed-changing transmission working principle of the magnetic transmission mechanism is that the mechanism can rotate reversely and independently as a whole, one gear rotates reversely to drive one circle to drive two wheels and an inner power generation rotor to rotate reversely as a whole, the two wheels and the inner power generation rotor are driven to rotate reversely as a whole by the difference of the revolution speed and the over-value of the two different transmission properties which exceed the output end in the same direction, and the mechanism is driven to the output end by changing different over-transmission difference values into high-ratio torque value.

When the output end is in the resistance limit full time period when the external carrier is subjected to height change and the resistance limit value of the output end is higher than the minimum electromagnetic torque value time period set by the internal power generation rotor, the magnetic internal power generation rotor performs homodromous over-value transmission to the external power generation rotor in a step-by-step direct transmission mode, the magnetic internal power generation rotor performs homodromous differential cutting magnetic field with proper value set electromagnetic power, and simultaneously generates a main mutual-assisting magnetic torque feed value generation speed source and recoverable electric energy. The electromagnetic torque generated by the electromagnetic torque differential transmission device can be transmitted with the electromagnetic torque differential speed increased along with the increase of the feed value, the resistance borne by the gear set during transmission can be reduced indirectly with the same value in the whole time period, the generated magnetic torque feed value and the feed resistance values of the two wheels are mutually dependent with the feed value generated by adjustment, the synchronous generation and synchronous transmission comprehensive operation can be assisted, and the synchronous electric energy can be recycled, stored and reused.

When the internal power generation rotor and the two-wheel reverse integral transmission are synchronously driven, because the resistance value of the part is lower than the regulated resistance value when the part is driven by two properties of electromagnetic torque force and high specific torque force, the transmission property can synchronously drive the part to synchronously surpass the rotation speed transmission of the output end, and the magnetic feed value formed by torque conversion of the accumulative rise of the surpassed rotation speed is equal to the regulated feed value generated by regulation, and the rotation speed of the regulated rotation speed and the magnetic change can be operated regularly along with the stable and changed output end feed resistance value.

When the magnetic two-wheel drives the two-wheel and the two-adjusting shaft to simultaneously perform opposite differential transmission, and the opposite repulsive force of the respective opposite differential transmission is used as a supporting point for the two-wheel and the two-adjusting shaft to drive the two teeth to perform two-circle transmission, the two-wheel and the two-circle transmission are acted on a two-tooth resistance limit value when the magnetic two-wheel is transmitted by the speed reduction ratio torsion property, the two-wheel and the two-circle resistance value when the magnetic two-wheel is transmitted by the acceleration ratio torsion property are lower than the two-tooth resistance limit value when the magnetic two-adjusting shaft is transmitted by the acceleration ratio torsion property, and the feed resistance value generated by the magnetic two-adjusting shaft at any time is higher than the feed resistance value generated by the magnetism, so that the feed value generated by the magnetism and the adjusting feed value are equal to balance, and the output end can obtain the required comprehensive ratio torsion value transmission at any limited time.

The magnetic mechanism is mainly in variable-speed transmission in an integral over-value transmission mode, mainly takes a dependent regulation feed value as a fulcrum, is driven by a tooth difference transmission to drive the magnetic mechanism to integrally run, mainly takes a magnetic torque feed value generated when a power generation rotor in a component excessively transmits as a main torque generation speed change source, mainly takes two wheels in speed reduction high-ratio torque over-value transmission, is a main component of the device requiring high-ratio torque value transmission, and mainly realizes stepless variable-speed comprehensive transmission with various numerical values generated by regulation in an infinite loop inter-dependent mechanism. Reference is made to FIG. 5 of FIG. 1

4. The working principle and the function of each part of the allocation combination mechanism are as follows:

the mechanism is a mechanism which is fixedly connected by two-stage gear shaft frame groups and can integrally and independently rotate, and mainly has a one-gear special differential transmission mechanism which can divide the revolution number of an input end into two rotation number ratios, and the two rotation number ratios are distributed to a mechanism and a magnet of the mechanism along with a feed value proper value, so that the functions of differential transmission in different directions of the two-stage gear group and an inner power generation rotor of the transmission and the magnetic tape drive are realized, and the two forces are integrated into a comprehensive ratio torque value through a two-gear joint differential transmission mechanism and are transmitted to an output end.

(1) The mechanism action of the primary gear shaft frame is that a plurality of shafts are fixedly connected to the rack, and the shafts can perform the transmission action of the shaft center pivot when the same number of gears rotate, and jointly form a primary gear shaft frame assembly, and are fixedly connected with the outer connecting frame and are connected with the secondary gear shaft frame into a whole to synchronously rotate. Reference is made to FIG. 4 of FIG. 1

(2) The function mechanism of the first-stage planetary gear is that it is composed of several hollow gears which can be independently rotated, and are assembled on a shaft with same number and used as axle centre pivot point to make self-rotation transmission, and is meshed with one wheel of input end as centre to make relay transmission, and make it reversely self-rotate and drive a ring of reverse transmission, and make it revolve forward to drive a shaft forward transmission, and can regulate difference transmission according to the regulation and magnetic feed value.

Specifically, when one wheel of driving forward drives the wheel to drive, the difference transmission can sense the feedback of the end to the different resistance values of the shaft and the magnetic ring, the respective resistance values of the shaft and the magnetic ring are matched with the difference transmission at the same boosting point, the rotating force of the input end is divided into two numerical values to be adjusted to be transmitted in difference, the shaft and the magnetic ring are driven to be differed by respective mechanisms and depended by the same boosting point to drive respective mechanisms to comprehensively transmit difference, the whole forward follow-up transmission is driven by the forward revolution of the shaft, and the whole reverse over-value transmission is driven by the reverse rotation of the shaft.

The main mechanism is that when the output end is limited by the external resistance from low to sudden rise, the output end needs to adjust the rotation torque value of the input end according to the respective mechanism rules of magnetism, so as to improve the rotation ratio and change the torque to adapt to the external torque transmission at the time. The torque is automatically transmitted to the output end by the torque of which the reverse rotation drives the magnetic reverse direction to be increased timely and properly and the torque is automatically transmitted to the output end by the torque of which the forward rotation drives the torque to be increased timely and properly and decreased timely and the torque is automatically transmitted to the output end along with the value.

When the external resistance is gradually reduced or suddenly reduced from high, the torque is reduced at the output end to make the regulating magnet generate gradually increased or suddenly increased adaptive rotation transmission time interval, its mechanism is that it automatically uses forward revolution to drive the regulating magnet to make proper-time increased rotation number and uses the torque whose value is reduced to make transmission, and its mechanism is that it automatically uses reverse self-rotation to drive the magnet to make proper-time decreased rotation number and uses the torque whose value is reduced to make transmission.

It can be seen from the above that when the opposite differential transmission of the modulation and the magnetic is driven by a tooth, the modulation and the magnetic transmission are different in property, so that the modulation and the magnetic transmission are different in any blocked time period, and naturally, the modulation and the magnetic transmission are jointly and comprehensively transmitted by using opposite rotation numbers, different transmission ratios and the same torsion, and meanwhile, the value generated in the full-resistance period is transmitted along with the ascending and descending value of the output end and indirectly transmitted along with the ascending and descending operation rule, and the rotation number generated in the full-resistance period is transmitted by exceeding the rotation number of the output end.

The primary planetary gear mainly drives the main component of the speed regulating system and the magnetic system to be twisted along with the difference of the suitable values of the feed resistance in the high-low state, and the primary planetary gear can drive the speed regulating system and the magnetic system to generate the adaptive specific torque value transmission by the special mechanism no matter how high the resistance is at the output end in the full resistance period.

The primary planetary mechanism may also be referred to herein simply as the primary planetary gear or the one-tooth mechanism. Reference is made to FIG. 4 of FIG. 1

(3) The function mechanism of the first-stage gear shaft is that a tooth is mainly used for synchronously driving a self mechanism in a forward direction and reversely driving a circle of transmission by an axis fulcrum, and the rotation number from an input end is divided into two numerical values by a self feeding force point and a circle of self feeding force point, and the respective feeding force points and the auxiliary function are matched with a tooth, and the two numerical values are respectively and differentially driven to indirectly transmit the rotation number, the circle of mechanism and the self mechanism to an output end. Therefore, when the two-shaft transmission is synchronously driven, the two-shaft transmission is indirectly limited by a feed value indirectly fed back to the two circles from the output end and a reverse repulsion force of the two wheels, and the feed value is fed back to the two wheels when the two shafts are blocked to a high degree, and at the moment, one tooth reversely rotates by taking the feed value as an axis pivot to drive one circle of reverse rotation transmission.

When the gear is driven by a circle of driving mechanism, the gear is driven in a stepless way by the feed value of the gear and the feed value of the gear, so that the gear and the feed value automatically obtain the number of revolutions to be transmitted, and the feed value of the gear are operated regularly when the feed value of the output end is stable or the feed value of the output end is indirectly stable and equal.

When the output end feed value is suddenly reduced or gradually reduced from stable, a tooth mechanism can automatically sense that the original feed value is lower than a circle of original magnetic feed value, so that the adjusted original revolution number is increased and the original revolution number is reduced, and the stepless transmission is suitable for the mechanism rule at the moment.

When the resistance of the output end rises suddenly or gradually from the stability, a tooth mechanism can automatically sense that the original feed value is higher than the original magnetic feed value of a circle, so that a tooth can transmit a speed system torque according to the difference between the original feed value and the original magnetic feed value, and the operation rule of adjusting the original rotation number, reducing the variable-rise torque force and increasing the original magnetic rotation number to the high-rise torque force is suitable for stepless transmission.

The two are respectively suitable for being indirectly transmitted to the output end difference in different directions, opposite rotation numbers and the same torsion force in the full resistance limit time period by the gear mechanism, and the torsion force and the feed value generated by the rotation number difference can be equal until the output end resistance feed value is stable, namely the torsion force and the feed value are adjusted and magnetism can be continuously and comprehensively transmitted to the output end proper value by various numerical values which are timely, suitable, stable and not changed. And the torque transmission with the ascending rotation number and the descending rotation number is obtained when the output end blocking limit is reduced, and the operation rule with the torque transmission with the descending rotation number and the ascending rotation number is obtained when the output end blocking limit is increased. Note that detailed explanation of the action of the one-tooth mechanism in the upper section is referred to

The mechanism of action of the primary gear shaft may also be referred to herein in more detail as the primary gear shaft or shaft mechanism. Reference is made to FIG. 1, FIG. 4

(4) The second-stage gear shaft frame is used for fixedly connecting the two shafts, plays a role of an axis pivot when the two shafts are used for two-gear differential transmission, is combined into a second-stage gear shaft frame assembly together, is fixedly connected with the outer connecting frame, and is connected with the first-stage gear shaft frame and plays a role of integral transmission. Reference is made to FIG. 4 of FIG. 1

(5) The function mechanism of the second-stage planetary gear is that the second-stage planetary gear is a main part which is driven by a plurality of hollow gears and takes two shafts with the same number as a central pivot to be in differential transmission, the second-stage planetary gear is a main part which is mainly used for driving all parts of the second-stage gear set to run in a linkage and meshing manner and is a main part which is mainly used for driving the second-stage planetary gear to run in a passive differential transmission manner by combining two forces transmitted by the differences of the two shafts and the two gears into one comprehensive force to drive the second-stage planetary gear to run.

When the two shafts and the two wheels are driven to transmit along with the difference of the mechanisms, the two shafts and the two wheels are driven to transmit along with the mutual assistance of opposite forces as mutual assistance fulcrums, the two shafts are driven to revolve along the same direction by the forward following value of the two shafts, the two wheels are driven to rotate along the same direction by the reverse exceeding value of the two wheels, and the two shafts form different blocked comprehensive values with different directions, different numbers of revolutions, different transmission ratios and different accelerating and decelerating transmission properties by the two wheels.

The secondary planetary mechanism may be referred to herein simply as a secondary planetary gear or a two-tooth mechanism. Reference is made to FIG. 4 of FIG. 1

(6) The function mechanism of the secondary gear shaft is that the two gears are mainly used for realizing the effect of the axle center fulcrum joint difference unified transmission, the effect of driving the two gears to rotate forwards for two circles by means of the two-gear reverse torque fulcrum, and the effect of assisting the two gears to drive the two gears to rotate forwards for two circles by means of the self-forward torque fulcrum. The transmission is mainly driven by low-specific-torque acceleration property, and is a main comprehensive transmission component when the output end needs low-torque high-speed transmission.

Specifically, when the mechanism is driven along with the self mechanism in the forward direction, the driving two-tooth forward revolution is driven to two circles by taking two wheels as a driving fulcrum, and the driving two-tooth forward revolution is driven by the low-specific-torque acceleration property, so that the number of revolutions generated when the driving is limited is lower than the number of revolutions generated when the magnetic whole is limited at any time, and the number of high feed values generated when the driving is limited is fed back to a shaft at the same time to serve as the fulcrum force to assist one tooth to drive the magnetic whole to drive.

When the two-gear forward revolution transmission is driven by the two-gear reverse torque as a fulcrum, the two-gear forward revolution transmission is driven to rotate for two circles by the aid of the two-gear reverse torque as the fulcrum, the two-gear forward rotation transmission is driven to rotate with the forcibly-reduced torque and the forcibly-increased feed resistance value by the aid of the two-gear reverse torque as the fulcrum, one part of the forcibly-increased torque is driven to rotate for two circles by the two wheels, one part of the forcibly-increased torque is used as the fulcrum to assist the two wheels to drive the two-gear forward self-steering for two circles for transmission, and the generated feed resistance value is fed back to a rule that a shaft is matched with the regeneration feed resistance value of the magnetic whole transmission to operate in a mutually-dependent cycle.

When the rotation number is required to be increased and the torque transmission time interval is reduced from high to low at the output end, the resistance of the rotation number increase is forced to be naturally reduced, the resistance is naturally transmitted along with the resistance reduction at the increased rotation number, and the generated proper feed resistance value is fed back to a shaft to be matched with the magnetic integral transmission to generate the feed resistance value with the same value to operate according to a mutually-dependent cycle rule.

The two gears can simultaneously interact with each other to transmit counter-repulsion force in opposite direction difference, and the counter-repulsion force is used as a mechanism of comprehensive transmission of respective co-assisted co-transmission co-limited torsion fulcrums, and the two gears are jointly transmitted in two different directions with different rotation values and different torsion differences, so that the two gears are forced to uniformly transmit in a forward direction self-rotation forward direction common rotation difference, and simultaneously the two gears integrate the two forces into a high-low matched comprehensive value to indirectly transmit to an output end.

The mechanism of action of the secondary gear shaft may be referred to herein simply as the secondary gear shaft or the biaxial mechanism. Reference is made to FIG. 4 of FIG. 1

(7) The outer connecting frame of the allocation mechanism has the functions of fixedly connecting the first-stage gear shaft frame assembly and the second-stage gear shaft frame assembly together and transmitting the whole with the transmission. Reference is made to FIG. 4 of FIG. 1

(8) The adjusting body mainly has the functions that one tooth differential transmission mechanism can divide the rotating force of an input end into two numerical values, the two numerical values of the two axial and magnetic wheels are adjusted to the respective mechanisms according to the adaptive values of the respective feed values of the one axial and magnetic circles, and when one tooth respectively drives the two axial and magnetic circles to rotate integrally and drive the respective secondary gear sets to perform differential transmission, the two numerical values of the two axial and magnetic wheels are mainly integrated into a comprehensive numerical value to be transmitted to an output end through the two-tooth differential transmission mechanism. Reference is made to the above-mentioned working mechanism of the primary planetary gear and the secondary planetary gear

The main function of the transmission is that the transmission and the magnetic field are operated in the interdependent relationship of the functions of mutual generation, transmission and restriction and the like according to the respective resistance value variation standards, and the transmission is carried out according to the law that different naturally generated rotation numbers are formed by different resistances in opposite directions, the same torsion and different acceleration and deceleration transmission ratio properties.

When the modulation and magnetic transmission is carried out according to the feeding value high-low reference of the interdependent circulation, the two secondary gear sets and the inner power generation rotor respectively generate different feeding values to serve as respective speed generation and speed change references, and the mechanism law that the rising and falling rotation ratio of the two secondary gear sets and the inner power generation rotor is comprehensively transmitted to the output end is automatically changed according to the feeding value high-low reference of the two secondary gear sets and the inner power generation rotor in a matched and interdependent regular circulation alternating mode according to the feeding value high-low reference of the two secondary gear sets. The torque force for adjusting the output end resistance and the rotation number along with the output end are indirectly transmitted with the ascending and descending rotation number along with the value, and the magnetic proper value is transmitted by the torque force for exceeding the rotation number value of the output end and timely adaptively changing the ascending and descending resistance of the output end.

How the regulating magnet is regularly changed and transmitted by respective numerical values according to the numerical value standard of the output end change is as follows:

the mechanism of the respective components of the adjusting and the magnetism is basically and fully understood, the respective changed numerical values during the adjusting and the magnetism transmission are generated under the influence of a plurality of factors, and the comprehensive transmission of the respective numerical values is mainly changed under the influence of a plurality of factors during the transmission of the two secondary gear set components. When the two shafts and the two magnetic wheels drive the two teeth to transmit to the two circles simultaneously by taking the respective opposite force transmission as the mutual supporting point, the two shafts are simultaneously limited by the resistance of the two circles feedback acting on the two teeth to generate different corresponding numerical values, and the two gears can be simultaneously driven to transmit by the respective opposite force transmission, and the two shafts are naturally and simultaneously fed back to the feed resistance value of the one shaft to be higher than the feed resistance value of the one magnetic circle when the two shafts are blocked by the acceleration ratio torque transmission and higher than the resistance value of the two magnetic wheels when the two magnetic wheels are twisted by the reduction ratio transmission, so that the mechanism of transmitting torque force to the low position by one gear mechanism can be automatically realized by the torque force, the rotation number of the input end is naturally lower than that of the magnetic input end, and the high rotation transmission time period is required when the resistance of the output end is the lowest, the speed ratio of the input end is adjusted to be equal to that of the magnetic end only in the period, the speed ratio is forced to be reduced gradually from the lowest speed to the highest speed by the resistance of the output end, and the speed ratio of the input end is adjusted to be in variable transmission according to a rule formed by the speed ratio of the full resistance time lower than that of the magnetic end.

The summary is mainly that the acceleration ratio torque of the two-axis adjusting device can be a main part for providing high revolution to the external transmission when the output end is blocked in a low period, the reduction ratio torque of the two-axis magnetic wheel can be a main part for providing rising-variable over-transmission revolution cumulative-rising torque when the output end is blocked in a high period so that the output end transmits to the external, and the electromagnetic torque of the rotor with the magnetic internal generation can be a main part for enabling the output end to obtain proper revolution and torque to transmit to the external at any blocked period. And the operation rules generated by the three are mainly generated by feeding back the resistance value of the magnetic torque generated when the inner power generation rotor is subjected to multistage direct transmission to one magnetic circle, so that when one tooth is prevented from rotating to one circle of transmission, one tooth is naturally forced to generate revolution to drive one shaft to drive the two shafts downwards to drive the two shafts to revolve again to drive the two shafts to rotate again to be prevented from transmission, the torque force pressed by the two shafts to the two teeth is naturally converted into the fulcrum to assist the two wheels to drive the two gears to rotate for two circles of transmission, and the two wheels are indirectly limited by the resistance of the two circles, so that the torque force transmitted to the two gears is naturally converted into the fulcrum force to assist the two shafts to drive the two shafts to rotate for two circles of transmission, therefore, the known resistance value received during transmission can be converted into the resistance value fed back to one shaft, and the fulcrum is used to assist the one tooth to drive the magnetic overall transmission and generate the rule of the circulating magnetic feedback value to assist the adjustment of the secondary operation, the inner generating rotor is the main speed-generating and speed-changing source of the device, and realizes stepless speed-changing transmission by adjusting and magnetically generating infinite cycles and mutually taking advantage of various adaptive numerical values of length and length. Reference is made to FIG. 4 of FIG. 1

5. The coupling transmission mechanism has the main functions that the force of either one of the magnetism and the force of the other one can be transmitted to the two rings of the coupling transmission mechanism through the two gear systems, the coupling transmission mechanism and the three-stage sun gear are integrally transmitted in the forward direction, the three-stage planetary gear of the transmission mechanism is driven to rotate in the reverse direction, the three-stage inner gear ring is driven to transmit in the reverse direction in a speed reduction and direction change mode, the transmission direction of the coupling transmission mechanism is consistent with that of the magnetic inner power generation rotor, and the coupling transmission mechanism and the three-stage planetary gear of the transmission mechanism drive the output mechanism in the same direction.

6. The transmission mechanism mainly has the advantages that the transmission directions of the magnetic internal power generation rotor and the gear set to the output mechanism are different, and the external power generation rotor and the three-stage inner gear ring of the output mechanism need to be transmitted in the same direction finally.

Therefore, when the three-stage sun gear of the coupling transmission mechanism drives the three-stage planetary gear to reversely rotate by the forward force, the three-stage gear shaft is taken as a fixed shaft center point, and the three-stage inner gear ring and the self mechanism are driven to reversely and integrally rotate by the set deceleration value and the direction-changing transmission mode. The transmission direction of the gear set is consistent with the transmission direction of the inner power generation rotor, and the gear set and the inner power generation rotor jointly drive the output mechanism to integrally rotate in the same direction.

7. The output mechanism is also referred to as an output end in the text, and mainly has the main functions of receiving electromagnetic torque transmitted by the excess value of the inner power generation rotor in the same direction at intervals by the outer power generation rotor of the output mechanism, receiving comprehensive specific torque transmitted by the adjusting and magnetic gear set by the three-stage inner gear ring, reducing and reversing the transmission by the three-stage gear set, enabling the gear set to be consistent with the transmission direction of the inner power generation rotor, and enabling the gear set to rotate in the same direction and in the reverse direction and have the transmission function.

When the magnetic and the adjusting are respectively transmitted in the same direction, two feedback resistance values with different properties are generated along with the resistance and are respectively and indirectly fed back to one tooth together.

When the inner power generation rotor drives the outer power generation rotor to rotate reversely along with the resistance in different torque space equidirectional directions, different equidirectional overrunning differential speeds and electric energy are generated along with the resistance, and the generated electric energy is transmitted to an outer power storage device through a power transmission line and a carbon brush of the inner power generation rotor.

The resistance and the revolution number of the mechanism which are changed along with the resistance of the external carrier are taken as the reference, and other mechanisms automatically and randomly drive the mechanism to reversely transmit to the external carrier according to the adaptive specific torque value by the reference.

And when the sun wheel rotates reversely, the sun wheel drives the four-stage sun wheel to transfer kinetic energy to the direction changing mechanism.

8. The carbon brush ring fixing cover is used for fixedly assembling the bearing, the oil seal and the carbon brush ring, providing a channel for an output circuit and fixedly assembling the dustproof and waterproof ring, wherein the bearing is used for providing a rotating axis fulcrum for the output mechanism, the oil seal is used for preventing lubricating oil of the steering mechanism from entering the space of the carbon brush chamber, and the carbon brush ring is used for receiving electric energy generated by an external power generation rotor and transmitting the electric energy to an external power storage and recovery device.

9. The four-stage planet carrier and the four-stage inner gear ring are independently rotatable parts, the outer diameter of the four-stage planet carrier and the four-stage inner gear ring are provided with stop outer gear rings, the stop inner gear rings can be shifted by the control shifting fork to be meshed and connected together, the four-stage sun gear drives the four-stage planet carrier and the four-stage inner gear ring to synchronously rotate in the same direction in a reverse direction, and the final output shaft is driven to reversely rotate in the same direction.

When the four-stage planet carrier and the locking outer gear ring fixed on the carbon brush ring cover are meshed and fixedly connected together by controlling the shifting fork to shift the locking inner gear ring, the four-stage sun gear drives the four-stage planetary gear to rotate clockwise at the moment of reverse transmission, and drives the four-stage inner gear ring and the final output shaft to rotate clockwise and transmit at a deceleration value, and the working principle of direction-changing, deceleration and forward transmission is realized, and the backward direction is planned.

In summary of the mechanism functions of the respective components of each mechanism of the continuously variable transmission device, the principle of how the device integrally realizes the continuously variable transmission when the device is operated at the random full load resistance period is as follows:

1. when the device drives an input end to perform active forward transmission by a dynamic energy source, feedback resistance values with the same value are generated when the output end is subjected to different resistance values of external carrier height changes, and the feedback resistance values are used as a reference for realizing stepless speed change transmission of each mechanism, wherein the reference for the feedback values at the output end can be called as a follow-up feedback value for short, and each mechanism automatically generates different torque values according to the reference for the feedback values to adapt to the stepless torque value transmission required by the output end.

2. Specifically, when one gear actively drives a gear to differentially connect and differentially transmit, the sensing end indirectly feeds back to a regulating shaft and a magnetic ring with different feeding values respectively, a gear divides the rotating force of the input end into two different transmission ratio differential transmissions in a reverse rotation forward revolution mode, the regulating shaft and the magnetic ring are simultaneously used as the same auxiliary force point to differentially generate speed by taking the respective feeding values as the two, a gear mechanism is used for regulating according to the difference of the feeding values, a gear forward revolution drives the regulating shaft to forwardly drive the regulating integral transmission, a gear reverse rotation drives the magnetic ring to reversely drive the magnetic integral transmission, the regulating and magnetic integral obtains the transmission ratio differential transmissions required by the two gear integral transmission respectively, the regulating two shaft forward differential transmissions are respectively driven to drive the two gear forward revolution transmissions to drive the two gear self-turning transmissions, the magnetic two gear reverse differential transmissions are driven to drive the two gear forward self-turning transmissions, and the two gear differential transmissions are respectively driven to regulate two different values of the two shafts and the two gear by a two gear differential transmission mechanism, the integration is a mechanism law that a comprehensive specific torque force drives the transmission mechanism to transmit forwards, and drives the transmission mechanism to drive the output end to rotate reversely after changing direction and reducing speed, and the transmission direction of the magnetic inner power generation rotor reaches one direction.

And when the magnetic synchronization drives the inner generating rotor to reversely skip the stage and directly transmit, and the same-direction overrunning outer generating rotor cuts the magnetic field to generate different electromagnetic torque force to drive the outer generating rotor to reversely transmit, different same-direction overrunning differential values are generated along with the feed value, different electromagnetic torque values are generated at the same time, especially different magnetic feed values are generated at the same time to be used as main speed-generating variable-speed sources of the respective parts of the mechanisms of the device, and recyclable electric energy is generated and is a main energy-saving source of the device. The inner power generation rotor can perform different electromagnetic torque force transmission in an excessive mode, can reduce resistance force applied to the gear set during transmission at the same value, and can realize stepless speed change transmission together with the gear set.

3. When the tape drives two wheels to reversely transfer and simultaneously transfers with the adjusting two shafts to reversely transfer, the two wheels mutually use the self-opposite rotation torsion as the mutual aid and mutual dependence and same limiting force points, and respectively transfer force with two differences to the mutual opposite coexistent force points, so that two teeth are forced to revolve in the same direction and rotate in the same direction, and the two forces matched with each other in different properties are combined into a comprehensive specific torsion to drive the two rings and the self mechanism to rotate in the same direction, and the variable transmission mechanism is driven to drive the output end to reversely rotate through speed reduction and direction change, and forms the transmission direction of the internal generating rotor to be the same direction, and is jointly synthesized with the action mechanism of adaptive stepless specific torsion value transmission.

When the adjusting magnet and the magnet are subjected to numerical value limitation of output end high-low change and change, the principle of how the adjusting magnet and the magnet generate different numerical values with different transmission properties and how various different operation rules realize stepless specific torque value transmission to the output end is as follows:

1. the output end is connected with the input end, the output end is connected with the magnetic proper value, and the output end is connected with the magnetic proper value. When the external resistance is increased and the output end is needed to reduce the revolution to obtain high torque to transmit to the external carrier, the high revolution is input properly at the input end, and the transmission ratio is increased to high torque through adjusting the magnetic proper value and changing the speed to high torque, so that the output end obtains adaptive low revolution and high torque to transmit to the external carrier.

2. When the output end feedback value of the adjusting magnet changes along with the height of the output end is used as the reference variable speed transmission, the variable speed transmission mechanism which is respectively regular along with the output end feedback value reference is as follows.

The magnetic modulation and magnetic modulation operation is performed under various complex mechanism rule factors, various different numerical values are generated simultaneously during modulation and magnetic automatic feedback value reference transmission, and the functions of co-generation and co-dependence are regularly and comprehensively transmitted by the respective numerical values.

The regulating and magnetic body is mainly driven by the resistance of the output end which changes in height as a reference, the regulating and output end transmission relation is mainly characterized in that the indirect difference value of the revolution torque values fed back to two circles along with the output end in different directions and the revolution torque value of the lifting self regularly run along with the value, and the regulating and output end transmission relation is called 'follow-up value transmission' and is mainly a kinetic energy source which can indirectly enable the output end to need high revolution transmission when the resistance is low by an acceleration value. The magnetic and output end transmission relation is mainly a mechanism which is driven by the torque force of the output end always higher than the torque force of the output end in the same direction and with the opposite rotation number of lifting, and the mechanism is indirectly transmitted by the power generation rotor in the self part through direct transmission at intervals and two wheels synchronously with high specific torque speed reduction property, and the mechanism can convert the rotation number value of the output end in the same direction during the period of total resistance limit to regularly transmit the torque force, namely the mechanism is called as the transmission with the excess value, and the magnetic and output end transmission relation is adjusted to regularly operate in the opposite direction, the opposite rotation number, the different transmission ratio torque and the different resistance value.

(1) The mechanism rule of the transmission of the number of revolution torque value, in which the modulation indirect difference value changes along with the same rise and fall of the output end, is that the modulation follow-up value transmission mechanism is mainly influenced by the property that two shafts of the modulation follow-up value transmission mechanism are accelerated by low torque, the reverse repulsion of two magnetic wheels and the limitation of the feedback resistance value fed back to two circles by the output end are both the mechanism rule of the follow-up value transmission formed by the modulation under the transmission of the two-gear dynamic coupling difference system.

When the adjusting shaft drives the adjusting body to reversely transmit by the deceleration property, enough torque transmission can be provided for the two shafts, and when the two shafts are synchronously driven to drive the two teeth to clockwise rotate to two circles by the acceleration low specific torque, the two shafts are driven to rotate to two circles by taking the reverse transmission torque which depends on the two wheels, is assisted and limited as a fulcrum, and the two shafts are limited by the high specific torque deceleration repulsive force of the two wheels which are reacted on the two shafts at the same time, and the resistance which is transmitted to the two circles at the output end is limited at proper time, so that the adjusting body can not be in over-value transmission and can only transmit with the rotation number resistance value indirect difference value of the output end and the lifting rotation number value under the condition that the time is limited.

When the feed resistance value reference transmission stable along with the whole time of the output end is adjusted, the adjustment shaft is in low-specific-torque acceleration property transmission, the resistance of the adjustment transmission property is higher than that of the adjustment shaft in the whole operation time of the resistance, and the generated revolution number is lower than that of the magnetic generation in the whole resistance limit time. Therefore, when the transmission of the two-shaft property driving the two-tooth clockwise male steering two-ring is blocked, when the transmission of the two-wheel property driving the two-tooth clockwise self-steering two-ring is blocked, and when the transmission of the two-shaft and the two-wheel mutually drives the two-tooth clockwise two-ring by taking the transmission force with different properties of the two-wheel as a fulcrum, the two-shaft adjusting and the two-wheel magnetic can be simultaneously and indirectly limited by the resistance fed back to the two teeth by the two-ring, and the two-shaft adjusting and the two-wheel magnetic can be mutually limited when the two-shaft adjusting accelerating property transmission is carried out to the two-ring by taking the respective reverse torque fulcrum, because the limited force is higher than the limited force when the two-shaft adjusting accelerating property transmission is carried out to the two-wheel decelerating property transmission, the transmission property of the two-shaft adjusting and the magnetic integral part can ensure that the full resistance adjusting period is higher than the magnetic resistance, the rotation limit value can be reduced when the two-shaft adjusting is blocked, and the generated feed value can be reduced to adapt to the transmitted rotation number and the output end. The magnetic field can be increased only by increasing the limited value of the revolution number, the generated feed value can be the same as the adjusting feed value, and the revolution number and the torsion force which are required by the output end are adapted, so that the operating mechanism of the specific torsion value transmission required by the output end in the whole time can be adapted only by adjusting the suitable reduced revolution number and increasing the magnetic field by a gear mechanism.

(2) The numerical value transmission mechanism rule of the magnetic integral homodromous overrunning output end is as follows.

The magnetic over-value transmission mechanism rule is based on the feed resistance value of the high-low change of the output end, can be transmitted by exceeding the rotation number of the output end in the same direction in the full-resistance limit period, and is transmitted by different properties of opposite direction, different specific torque value, opposite rotation number and resistance, and is operated by a mechanism rule that a one-tooth mechanism drives the modulation and the magnetic cycle to simultaneously assist and limit the simultaneous transmission and the dependence according to the feed resistance height of the modulation and the magnetism.

Because the properties of the two wheels of the magnet and the inner power generation rotor during synchronous transmission are different, when the output end is forced to reduce the revolution number and change the torque transmission when being limited by external resistance in all time, the magnet is mainly forced to increase the conversion of the overdrive revolution number and accumulate the torque to adapt to the transmission of the required torque value of the output end, and the difference between the forced increase and the adjustment of the magnetic transmission revolution number when being limited enables the magnetic feedback to the feedback value of one circle, and the magnetic feedback and the feedback value of the adjustment of the feedback to one axis are equal, so that the magnetic transmission can be comprehensively carried out with the stable torque value.

When the magnetic inner power generation rotor is driven by different electromagnetic torque forces, magnetic feed values and recoverable electric energy, and simultaneously when the magnetic two wheels and the two adjusting shafts are simultaneously assisted and limited to be driven to the output end, the inner power generation rotor can drive the output end to reversely drive at different rotation numbers by the electromagnetic torque force which is transmitted in a multistage and direct mode in the same direction at the full-resistance time limit period, and can indirectly reduce the resistance force received during the adjustment and the transmission of the magnetic gear set in the same value. The magnetic feed value generated by the inner power generation rotor and the overdrive feed value generated during the two-wheel high-ratio torque transmission are integrated into a comprehensive magnetic feed value and fed back to a circle, the magnetic feed value is used as a fulcrum to assist a tooth revolution to drive the forward transmission, the modulation generates various numerical values, the magnetism generates various numerical values to operate in dependence, and the feed value capable of generating infinite circulation with the magnetism and the operation rule capable of assisting in transmission in dependence are used together to realize the mechanism of stepless speed change transmission.

3. The regulation magnet runs regularly when the regulation magnet drops suddenly or gradually and rises suddenly or gradually based on the output end feedback resistance value.

(1) When the input end needs to transmit with the suddenly-rising or gradually-rising specific torque value under the limitation of the external suddenly-rising or gradually-rising unstable resistance at the output end, when the resistance of the tooth sensing output end which is unstably increased in the period is fed back to the feed value of the adjusting shaft, the tooth sensing output end is suddenly increased or gradually increased and is higher than the feed value generated by the magnetic whole in the simultaneous period, this is because the secondary shaft is limited by the resistance transmitted to the two rings at the output end and the reverse repulsion of the two wheels, and the resistance of the secondary shaft at the low specific torque transmission is higher than the resistance of the whole magnet, therefore, the feed value generated when the transmission of the whole body is blocked is adjusted to be higher than that generated when the magnetic whole body is blocked, therefore, in the time interval, the differential transmission speed ratio which can be adjusted to be timely reduced and the differential transmission speed ratio which can be adjusted to be timely increased are determined according to the feed value by a tooth mechanism, and the differential transmission speed ratios are transmitted to the output end together in a mode of comprehensively adapting the stepless speed ratio and torque value of I.

The specific operation mechanism of the device in the period is that when the speed is adjusted and the magnetic integral opposite differential transmission is carried out, various complex mechanisms generated when the device is used for two-stage gear set transmission are mainly used for comprehensively realizing stepless speed change. When one tooth drives the adjusting shaft to drive the two-shaft acceleration differential transmission and the magnetic ring to drive the two-wheel deceleration differential transmission respectively based on the sudden rise or gradual rise of the resistance value generated by the adjustment and magnetic resistance in the period, the opposite direction, the opposite number and the opposite acceleration and deceleration transmission property are respectively used for opposite differential transmission, the two shafts and the two wheels simultaneously drive the two teeth to transmit to the two rings by taking the opposite pair transmission as a fulcrum through two teeth, the two shafts and the two wheels are simultaneously limited by the sudden rise or gradual rise of the resistance value of the two rings, and the two shafts and the two wheels are simultaneously limited by two teeth to change the respective corresponding transmission revolution number, at the moment, because the two shafts are transmitted by the property of enabling the two rings to rotate in an acceleration mode by a low specific torque, and are transmitted by the property of enabling the two rings to rotate in a deceleration mode by a high specific torque, and when the two shafts and the two wheels are transmitted together by the opposite transmission property, the property that the limited force of the two shafts is higher than the limited force of the two wheels in the same period, therefore, according to the known mechanism of the feed value which is generated by increasing the resistance, the feed value which is fed back to the adjusting shaft by the adjusting two shafts in the time period is higher than the feed value generated by the whole magnet, so that according to the force-to-resistance low-position difference transmission mechanism, the rotation number value of the input end can be automatically adjusted to the adjusting position by one tooth in the time period and adjusted to be less than the adjusting position to be more than the magnetic position, the rotation number which is reduced by external resistance and the resistance which is increased by forcing can be adapted by adjusting the time period and the torque which is increased by forcing until the feed value generated by the rotation number which is transmitted by the magnet and the feed value generated by the adjusted rotation number which is transmitted by the magnet are equal, the high-ratio torque which is required by the end to be blocked to rise or rise gradually in the whole time period can be adapted by adjusting the rotation number which is increased by forcing and converting the torque which is increased by forcing, and the proper rise or rise gradually stepless ratio torque value in the time period can be used for driving the output end to the external carrier transmission mechanism rule.

(2) When the output end is limited by resistance which is suddenly reduced or gradually reduced from high to low and the transmission torque which is suitable for reducing the proper value at the time of output end is changed to increase the transmission revolution number for proper transmission, a tooth mechanism can sense that the output end is suitable for suddenly reducing or gradually reducing when being fed back to the original feed resistance value of the adjusting shaft and is suitable for suddenly reducing or gradually reducing when being lower than the original feed value of the output end which is fed back to one magnetic circle, because the resistance which is suitable for being indirectly acted on the outer generating rotor and the three-stage inner gear ring is properly reduced at the time of external resistance at the time, the resistance force which is suitable for acting on the inner generating rotor and the two wheels is reduced at the time, the inner generating rotor is in the mode of more-level direct transmission by the original magnetic torque difference transmission ratio, the original magnetic torque value of the generating rotor can be properly higher than the resistance of the outer generating rotor at the time, and the original magnetic torque value of the inner generating rotor is properly transmitted by the higher than the resistance of the outer generating rotor, and the outer generating rotor is properly transmitted by increasing the revolution number when the original magnetic torque difference transmission ratio is reduced, therefore, the generating rotor can transmit the same-value resistance which is applied to the output end and can indirectly reduce the secondary gear set in time in the period, and simultaneously the magnetic second wheel which is synchronously transmitted with the inner generating rotor is applied with two circle resistance value and is simultaneously applied with two circles to reduce in time, namely the resistance of the two wheels and two circles limiting adjusting shaft is simultaneously applied with two circles to reduce, the feeding value which is fed back to the adjusting shaft is generated by the adjusting shaft to reduce in time, and the feeding value which is suddenly reduced or gradually reduced is applied to the adjusting shaft and is fed back to one circle is generated by the whole body of the magnet to operate by being lower than the feeding value of the magnet, therefore, according to the force to resistance low difference transmission mechanism, a tooth mechanism can automatically and timely transmit the rotation number of the input end to the adjusting position proper value difference for adjustment, and properly increases and decreases when the rotation number is adjusted along with the transmission, the magnetic time is properly reduced to operate in a regular transmission mode compared with the difference of the adjusting and the output end, and the feeding value and the magnetic feeding value can be adjusted equally until the feeding value generated by the resistance limit of the output end is stable, and the difference transmission ratio of the magnetic and the modulation output end can be stable and not changed any more.

Therefore, the proportion of the differential transmission ratio revolution generated by the phase adjustment ratio torque is increased, and the proportion is the acceleration ratio torque transmission value required by the output of the phase adjustment ratio torque, and the proportion of the differential transmission ratio revolution generated by the magnetic height ratio torque is reduced, and the operation rule that the torque value is reduced and the revolution value is increased is required by the output of the phase adjustment ratio torque. The output end can be driven by the stepless torque value which is suitable for increasing the revolution number and suitable value at the output end through the two parts together.

4. To summarize, when the input end of the device drives the modulator and the magnetic output end to transmit comprehensively, the special function of one tooth is to drive the modulator and the magnet to rotate in opposite directions by two forces of forward revolution and reverse rotation under the drive of one tooth, and the modulator and the magnet are enabled to rotate alternately and regularly by means of mutual dependence, assistance, transmission and restriction cycles, and realize stepless ratio-torque value variable transmission. The regulation is mainly carried out along with the transmission numerical value of the output end, is indirectly transmitted with the lifting and descending along with the value, is mainly a feed resistance value generated when the resistance of the output end is transmitted with the self-lifting transmission torsion and the blocked time limit in the whole time period, assists the magnetic generation speed to exceed the transmission of the rotating number value of the output end, enables the magnetic generation speed to be transmitted with the lifting and descending self-transmission torsion in the whole time period along with the resistance value of the output end in the exceeding value, is mainly carried out by regulating the respective mechanisms of the regulation and the magnetism in opposite directions, different ratios, opposite rotation numbers and different blocked operation rules, and automatically generates various numerical values to enable the output end to be transmitted to an external carrier in the adaptive stepless ratio torsion value.

The device mainly comprises an inner power generation rotor, a magnetic feed value generator, a speed changing device and a power generation device, wherein the inner power generation rotor can perform full-time transmission along with the feed value, can reduce resistance applied to gear set transmission with the same value, can generate different magnetic feed values as main speed changing sources of the device in full time, can generate different recyclable electric energy in full time, can assist gear sets to perform mutual dependent transmission with a comprehensive complex operation rule by using the magnetic feed values in full time, and can jointly realize self-adaptive stepless transmission of a specific torque value to an output end and an external carrier.

The principle of how to realize clutch and change direction transmission when the device is used for unidirectional power source transmission and bidirectional power source transmission is as follows:

1. in the process that the dynamic energy drives the input end to transmit to the output end, the driving of the output end is realized by stepless electromagnetic torque moment excessive transmission generated when the inner and outer generating rotors cut magnetic fields, and stepless magnetic resistance values which can be subjected to height change of the outer generating rotor during transmission of the inner generating rotor are used for enabling the inner generating rotor to simultaneously generate magnetic feedback values with the same value and serve as a necessary symbiotic variable speed source during running of each mechanism.

Therefore, when an output circuit of an outer power generation rotor of the output mechanism is closed, no electromagnetic resistance torsion is generated between the inner power generation rotor and the outer power generation rotor, and no generation-assisting variable-speed magnetic feed value is generated. And similarly, the magnetic feeding value cannot be generated by the magnetic mechanism as a whole, and the magnetic feeding value cannot exist simultaneously with the speed change source to force the adjusting mechanism to rotate in the forward direction. Therefore, the resistance transmitted to the two rings of the coupling transmission mechanism between the resistances of the output ends is larger than the transmission force of the magnet and the adjustment in the whole time period, the force of the input end can slightly drive the magnet to reversely rotate through the primary planet gear, and the reverse differential speed adjustment overrunning idling can be simultaneously driven by the two magnetic wheels in the same direction, so the force for driving the output mechanism to rotate is not generated at the moment, and the clutch effect can be realized. Therefore, the function of the clutch can be realized, and the function of changing forward and reverse gear transmission for the direction changing mechanism can be realized.

2. When the input end of the device uses a bidirectional power source, namely, the motor transmission, the transmission direction of the output end can be changed only by switching the forward and reverse rotation circuit switch of the motor, a clutch circuit switch device and a direction change mechanism are not needed, and if the direction change mechanism is used, the forward and reverse gear and the forward and reverse rotation mechanism of the motor can be utilized, so that the high and low gear transmission ratio and the forward and reverse transmission direction can be realized.

When the motor is used for transmission, such as a light-load vehicle or other low-resistance devices, high-low gear transmission and a switching circuit clutch device are not needed, and a direction-changing mechanism and a switching clutch device can be omitted so as to reduce the manufacturing process, the cost and the volume. The device can be used as a heavy-duty vehicle or other high-load-resistant devices, and can be provided with a direction-changing mechanism and a switch circuit clutch device according to the situation, so that the device can be ensured to normally operate and use under special conditions.

3. If the input end uses a one-way power source for transmission, a clutch circuit switch device and a direction-changing mechanism must be installed, and when the direction needs to be changed, the function of changing the transmission direction can be realized by only disconnecting the circuit switch device, realizing clutch and then switching the forward and reverse gears of the direction-changing mechanism.

The device is when vehicle load work full-time section and deceleration section and downhill path, and the principle that one-way power supply and two-way power supply realize electric energy recovery when working is as follows:

1. under the condition of ensuring safety in the vehicle deceleration section and the downhill section. If the power source is one-way power source transmission, only the speed regulating pedal needs to be loosened, and the dual-purpose speed reducing brake pedal is stepped, note that the speed reducing brake pedal means that the pedal device capable of braking is fully stepped on and the speed can be reduced by drag when the front half section is stepped on. When the front half section is stepped on, the inertia of the vehicle immediately and actively drives the one-way power device and the inner power generation rotor, the one-way power device and the inner power generation rotor are forced to rotate to carry out drag reduction by respective self anti-drag force, and meanwhile, the electric energy generated by the inner power generation rotor and the electric energy generated by the outer power generation rotor can be recycled. Braking can be carried out when the second half of the meal needs to be stepped on.

2. If the bidirectional power source motor is used for driving, namely the motor which can be used for two purposes, namely the motor which can be used for driving and can be used for generating power passively, the electric speed regulation pedal is only needed to be loosened and the dual-purpose speed reduction brake pedal is stepped down when the vehicle runs in a speed reduction section and a downhill section under the condition of ensuring safety, the inertia of the vehicle actively drives the motor and the inner power generation rotor immediately when the front half section of the pedal is stepped down, the motor and the inner power generation rotor are forced to rotate, the motor and the inner power generation rotor are respectively and simultaneously subjected to drag speed reduction by respectively generated reluctance hysteresis force, and the generated electric energy is simultaneously recycled. The brake can be performed when the rear half section of the pedal needs to be stepped.

Claims (4)

1. An energy-recoverable stepless variable transmission device at least comprises a fixed shell, an input mechanism, a magnetic transmission mechanism, a blending mechanism, a combined transmission mechanism, a variable transmission mechanism, an output mechanism, an electric energy output mechanism and a direction-changing output mechanism;

the input mechanism comprises an input shaft and a primary sun gear arranged at the top end of the input shaft, the other top end of the input shaft is provided with a connecting shaft tooth, and the input shaft is connected with a power source through the connecting shaft tooth; the magnetic transmission mechanism comprises a primary gear ring combined frame, a primary inner gear ring, a secondary sun gear, a transmission connecting shaft, a connecting disc and an inner power generation rotor, wherein the primary inner gear ring and the secondary sun gear are connected together by the gear ring combined frame, and the primary gear ring combined frame, the transmission connecting shaft, the connecting disc and the inner power generation rotor are sequentially and fixedly connected into a whole; the adjusting mechanism comprises a primary gear shaft frame assembly, a secondary gear shaft frame assembly and an external connecting rack which fixedly connects and combines the primary gear shaft frame assembly and the secondary gear shaft frame assembly together, wherein the primary gear shaft frame assembly comprises a primary planet carrier, a primary gear shaft fixed on the primary planet carrier and a primary planet gear movably arranged on the shaft, and the secondary gear shaft frame assembly comprises a secondary planet carrier, a secondary gear shaft fixed on the secondary planet carrier and a secondary planet gear movably arranged on the shaft; the joint transmission mechanism comprises a second-stage inner gear ring, a third-stage hollow sun gear and a second-stage gear ring combined rack, and the second-stage inner gear ring and the third-stage hollow sun gear are connected and fixed into a whole by the second-stage gear ring combined rack; the transmission mechanism comprises a fixed supporting frame, a three-level gear shaft fixedly assembled on the fixed supporting frame and a three-level planetary gear movably assembled on the three-level gear shaft; the output mechanism comprises a three-level inner gear ring, a three-level gear ring combined rack, an outer power generation rotor, a connecting shell and a four-level output sun gear, the three-level inner gear ring and the connecting shell are fixedly connected by the three-level gear ring combined rack, the outer power generation rotor is fixed on the inner wall of the connecting shell, and the four-level output sun gear is fixed at the center of the top of the connecting shell; the electric energy output mechanism comprises an electric energy output circuit, a carbon brush frame, a carbon brush ring fixing cover and a carbon brush electricity transmission ring, the carbon brush electricity transmission ring is fixed on the carbon brush ring fixing cover, the carbon brush ring fixing cover is hollow and cylindrical, and a four-stage output sun gear extends out of the carbon brush ring fixing cover; the direction-changing output mechanism comprises an output shaft, an output connecting gear, a four-stage planet carrier, stop external teeth, a four-stage gear shaft, a four-stage planetary gear, a four-stage inner gear ring, a locking inner gear ring, a control shifting fork and a four-stage gear ring combined rack, wherein the four-stage gear shaft is fixed on the four-stage planet carrier, the four-stage planetary gear is arranged on the four-stage gear shaft, the four-stage gear ring combined rack connects and fixes the four-stage inner gear ring and the output shaft, and the output connecting gear is positioned at the top end of the output shaft; the locking outer teeth are arranged in three groups and are respectively positioned outside the four-stage inner gear ring, outside the four-stage planet carrier and inside the fixed shell from top to bottom, the three groups of locking outer teeth are positioned on the same cylindrical surface, the locking inner gear ring can slide up and down by controlling the shifting fork and is mutually meshed with the locking outer teeth, and the rotating direction of the output shaft can be controlled by the up-and-down sliding of the locking inner gear ring;

the first-stage sun gear, the first-stage inner gear ring and the first-stage planetary gear, the second-stage sun gear, the second-stage inner gear ring and the second-stage planetary gear, the third-stage hollow sun gear, the third-stage inner gear ring and the third-stage planetary gear, the fourth-stage output sun gear, the fourth-stage inner gear ring and the fourth-stage planetary gear are all connected with one another to form a planetary gear transmission mechanism; the transmission connecting shaft penetrates out of the three-stage hollow sun gear.

2. The energy-recoverable continuously variable transmission of claim 1, wherein: the fixed casing comprises an upper casing and a lower casing, the fixed support frame is fixedly connected with the lower casing, the bottom of the connecting casing in the output mechanism is connected with the fixed support frame through a bearing, the top of the connecting casing is connected with the upper casing through a bearing, the fixed cover of the carbon brush ring is fixed at the bottom opening of the upper casing, and the turning output mechanism is located in the upper casing and the output shaft extends out of the top opening of the upper casing.

3. The energy recoverable continuously variable transmission of claim 2, wherein: the top opening of the upper shell is inwards provided with a cylindrical output shaft support frame, and the output shaft is arranged in the output shaft support frame through a bearing.

4. The energy-recoverable continuously variable transmission of claim 1, wherein: when the locking inner gear ring slides to an upper station, the external locking teeth outside the four-stage inner gear ring and the external locking teeth outside the four-stage planet carrier are simultaneously meshed with the locking inner gear ring, the four-stage inner gear ring and the four-stage planet carrier synchronously rotate, and the rotation direction of the output shaft is the same as that of the four-stage output sun gear; when the locking inner gear ring slides to a lower station, the external locking teeth outside the four-stage planetary carrier and the external locking teeth in the fixed shell are simultaneously meshed with the locking inner gear ring, the four-stage planetary carrier is connected and fixed with the fixed shell, and the rotation direction of the output shaft is opposite to that of the four-stage output sun gear.

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