阅读说明：本技术 一种累加双向力差速器式功率放大动力机 (Accumulated bidirectional differential mechanism type power amplification power machine ) 是由 侯惜之 于 2021-10-22 设计创作，主要内容包括：本发明涉及一种累加双向力差速器式功率放大动力机,解决常规能源短缺和由这类能源利用带来环境污染问题；其解决的技术方案是:包括壳体,电动机,差速器总成,电动机经锥齿轮与壳体相连,差速器总成安装在壳体内,差速器总成包括伞形齿轮和行星齿轮,两个行星齿轮之间有行星齿轮轴,所述的伞形齿轮的外侧均有动力输出轴,位于右侧的动力输出轴上安装有位于壳体外的工作轮；所述的壳体的前后两侧均安装有一个弹簧支架,每个所述的行星齿轮的外端均安装有一个槽轮,槽轮位于弹簧支架内,每个所述的槽轮上均缠绕有软绳,所述的软绳的末端经弹簧安装在所述的弹簧支架上；本发明构思新颖,结构巧妙,实用性强。(The invention relates to an accumulated bidirectional differential power amplifying power machine, which solves the problems of conventional energy shortage and environmental pollution caused by the utilization of the conventional energy; the differential mechanism assembly comprises a bevel gear and a planetary gear, a planetary gear shaft is arranged between the two planetary gears, power output shafts are arranged on the outer sides of the bevel gear, and a working wheel positioned outside the shell is arranged on the power output shaft positioned on the right side; the front side and the rear side of the shell are respectively provided with a spring support, the outer end of each planetary gear is provided with a grooved wheel which is positioned in the spring support, each grooved wheel is wound with a soft rope, and the tail end of each soft rope is arranged on the spring support through a spring; the invention has novel conception, smart structure and strong practicability.)

1. The accumulated bidirectional differential power amplification power machine is characterized by comprising a shell (1), an electric motor (2) and a differential assembly (3), wherein the electric motor (2) is connected with the shell (1) through a pair of bevel gears, the differential assembly (3) is installed in the shell (1), the differential assembly (3) comprises two bevel gears (301) and two planetary gears (302), a planetary gear (302) shaft is installed between the two planetary gears (302), the outer side of the planetary gear (302) shaft is connected with the shell (1) through a bearing, a horizontal power output shaft (4) is fixed on the outer side of each bevel gear (301), the outer end of the power output shaft (4) penetrates through the shell (1) and is located on the outer side of the shell (1), a working wheel (5) positioned outside the shell (1) is arranged on the power output shaft (4) positioned on the right side; the front side and the rear side of the shell (1) are respectively provided with a spring support (6), each outer end of the planetary gear (302) is respectively provided with a grooved pulley (7), each grooved pulley (7) is positioned in the spring support (6), each grooved pulley (7) is wound with a soft rope (8), and the tail end of each soft rope (8) is installed on the spring support (6) through a spring (9).

2. A cumulative two-way differential power amplification motor according to claim 1, characterized in that the bevel gear on the housing (1) and connected to the electric motor (2) is fixedly connected to the housing (1).

3. The power machine of claim 1, wherein the bevel gear (301) is installed in the housing (1) and located at the left and right sides, the planetary gear (302) is installed in the housing (1) and located at the upper and lower sides, and the bevel gear (301) is engaged with the planetary gear (302).

4. The additive bidirectional differential power amplification power machine of claim 1, it is characterized in that each power output shaft (4) is provided with a transmission gear (10), a rack (11) meshed with the transmission gear (10) is arranged on the shell (1), the rack (11) is connected with the shell (1) in a sliding way, the upper side and the lower side of the differential assembly (3) are respectively provided with a turning transmission shaft (12), the turning transmission shaft (12) is arranged in an inclined shape, the rear end of the rack (11) positioned on the right side is provided with an engagement hole (13), the front end of the rack (11) positioned on the left side is provided with an engagement hole (13), the tail ends of the direction-changing transmission shafts (12) are respectively positioned in the connecting holes (13) and can slide in the connecting holes (13); a vertical rod (14) is installed in the shell (1), the axis of the lower end of the vertical rod (14) is located at the axis intersection point of the planetary gear (302) shaft and the power output shaft (4), and the turning transmission shaft (12) is rotatably connected with the vertical rod (14).

5. The power machine of claim 1, wherein the grooved wheels (7) are fixedly connected to the corresponding planetary gears (302).

6. The power machine of claim 1, wherein the spring support (6) has spring hooks (15) at its upper and lower ends, the right spring hook (15) is located below and the left spring hook (15) is located above, the spring support (6) has a fixed pulley (16) mounted thereon, the right fixed pulley (16) is located above and the left fixed pulley (16) is located below, and the soft rope (8) is reversed by the fixed pulley (16) and then connected to the corresponding spring hook (15) via a spring (9).

7. A cumulative two-way differential power amplifying motor according to claim 1, wherein a generator (17) is installed on the power output shaft (4) on the left side.

Technical Field

The invention relates to the field of power machinery, in particular to an accumulated bidirectional differential mechanism type power amplification power machine.

Background

The spring kinetic energy and the permanent magnet kinetic energy are huge potential energy sources, and have the characteristics of stability, safety, cleanness, convenience and the like, and the development and utilization of the spring kinetic energy and the permanent magnet kinetic energy resources can be broken through only by changing concepts, developing ideas and creating bold innovation; along with the development of civilization and social progress, the demand for energy is more and more great; there is an ongoing effort to find clean, efficient energy sources for human beings due to anxiety about resource exhaustion and concern about deterioration of the environment. The spring kinetic energy and the permanent magnet kinetic energy are energy capable of doing work, so that the functions of the spring body and the permanent magnet can be fully exerted, and various products suitable for production and life of people, even a spring power machine and a permanent magnet power machine, can be manufactured; thus, first it can save many valuable mineral resources; secondly, the product is clean and has no pollution to the environment; thirdly, the fire-extinguishing agent is safe, can not catch fire, can not hurt people by electric shock, has no radioactivity and can not hurt human bodies; and fourthly, the spring power machine and the permanent magnet are used as power without carrying an oil tank or dragging an electric wire, so that the device can adapt to various working environments in the air, on the ground, underground and underwater. The spring power machine and the permanent magnet are used as power, so that a large amount of mineral resources such as petroleum, coal and the like can be saved, the economic benefit is huge, waste gas and waste materials are not discharged, and the ecological benefit is huge. So as to solve the problems of conventional energy shortage and environmental pollution caused by the utilization of the energy.

Disclosure of Invention

In view of the above situation, the present invention provides an additive bidirectional differential power amplifier to solve the problems of conventional energy shortage and environmental pollution caused by the utilization of such energy.

The technical scheme for solving the problem is as follows: the differential mechanism assembly comprises two bevel gears and two planetary gears, a planetary gear shaft is arranged between the two planetary gears, the outer sides of the planetary gear shafts are connected with the shell through bearings, a horizontal power output shaft is fixed on the outer side of each bevel gear, the outer end of each power output shaft penetrates through the shell and is positioned on the outer side of the shell, and a working wheel positioned outside the shell is arranged on the power output shaft positioned on the right side; the spring support is installed on the front side and the rear side of the shell, a grooved wheel is installed at the outer end of each planetary gear, the grooved wheels are located in the spring support, a soft rope is wound on each grooved wheel, and the tail end of each soft rope is installed on the spring support through a spring.

Preferably, a bevel gear which is positioned on the housing and connected with the motor is fixedly connected with the housing.

Preferably, the bevel gears are installed in the shell and are respectively positioned at the left side and the right side, the planet gears are installed in the shell and are respectively positioned at the upper side and the lower side, and the bevel gears are meshed with the planet gears.

Preferably, a transmission gear is mounted on each power output shaft, a rack meshed with the transmission gear is mounted on the casing, the rack is connected with the casing in a sliding manner, turning transmission shafts are mounted on the upper side and the lower side of the differential assembly, the turning transmission shafts are arranged in an inclined manner, an engagement hole is formed in the rear end of the rack on the right side, an engagement hole is formed in the front end of the rack on the left side, and the tail ends of the deformed gear shafts are respectively located in the engagement holes and can slide in the engagement holes; the casing in install a montant, the fulcrum of the axis of montant lower extreme be located planetary gear axle and power output shaft's axis intersect, the diversion transmission shaft with the montant between rotate and be connected.

Preferably, the grooved wheel is fixedly connected with the corresponding planetary gear.

Preferably, spring bracket's upper and lower both ends all install spring hanger, the spring hanger that is located the right side is located the below, is located left spring hanger and is located the top, spring bracket on install the fixed pulley, the fixed pulley that is located the right side is close to the top, is located left fixed pulley and is close to the below, the flexible rope link to each other through the spring and the spring hanger that corresponds the side after the fixed pulley switching-over.

Preferably, the power output shaft on the left side is provided with a generator, and the power generated by the generator is used by a storage battery.

The device has the following advantages:

1, by arranging the spring and the grooved pulley, the elasticity of the spring can be automatically adjusted in time when the external force of the power output shaft is changed, and the device has the advantages of simple structure, low manufacturing cost and convenient operation;

2, the output energy is pollution-free, and power machines with various specifications can be produced by Hen according to market demands and can be widely used in various places needing power;

3, the problems of conventional energy shortage and environmental pollution caused by the utilization of the energy can be effectively solved, and the method has great social efficiency and economic benefits.

Drawings

FIG. 1 is a front sectional view of the present invention in use.

Fig. 2 is a cross-sectional view a-a of fig. 1 in accordance with the present invention.

FIG. 3 is a top view of the connection of the direction-changing drive shaft and the rack in accordance with the present invention.

Detailed Description

The following describes in further detail embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1 to 3, the present invention includes a housing 1, an electric motor 2, and a differential assembly 3, wherein the electric motor 2 is connected to the housing 1 through a pair of bevel gears, the differential assembly 3 is installed in the housing 1, the differential assembly 3 includes two bevel gears 301 and two planetary gears 302, a planetary gear 302 shaft is installed between the two planetary gears 302, the outer side of the planetary gear 302 shaft is connected to the housing 1 through a bearing, a horizontal power output shaft 4 is fixed to the outer side of each bevel gear 301, the outer end of the power output shaft 4 penetrates through the housing 1 and is located outside the housing 1, and a working wheel 5 located outside the housing 1 is installed on the power output shaft 4 located on the right side; the front side and the rear side of the shell 1 are respectively provided with a spring support 6, the outer end of each planetary gear 302 is provided with a grooved pulley 7, the grooved pulleys 7 are positioned in the spring supports 6, each grooved pulley 7 is wound with a soft rope 8, and the tail end of each soft rope 8 is arranged on the spring supports 6 through a spring 9.

And a bevel gear which is positioned on the shell 1 and is connected with the motor 2 is fixedly connected with the shell 1.

The bevel gear 301 is installed in the housing 1 and located on the left and right sides, the planetary gear 302 is installed in the housing 1 and located on the upper and lower sides, and the bevel gear 301 is engaged with the planetary gear 302.

Each power output shaft 4 is provided with a transmission gear 10, the housing 1 is provided with a rack 11 meshed with the transmission gear 10, the rack 11 is connected with the housing 1 in a sliding manner, the upper side and the lower side of the differential assembly 3 are respectively provided with a turning transmission shaft 12, the turning transmission shaft 12 is inclined, the rear end of the rack 11 on the right side is provided with an engagement hole 13, the front end of the rack 11 on the left side is provided with an engagement hole 13, and the tail end of the turning transmission shaft 12 is respectively positioned in the engagement holes 13 and can slide in the engagement holes 13; a vertical rod 14 is installed in the shell 1, a fulcrum of an axis at the lower end of the vertical rod 14 is located at an axis intersection point of the planetary gear 302 shaft and the power output shaft 4, and the direction-changing transmission shaft 12 is rotatably connected with the vertical rod 14.

The grooved pulley 7 is fixedly connected with the corresponding planetary gear 302.

Spring support 6's upper and lower both ends all install spring hanger 15, the spring hanger 15 that is located the right side is located the below, is located left spring hanger 15 and is located the top, spring support 6 on install fixed pulley 16, the fixed pulley 16 that is located the right side is close to the top, be located left fixed pulley 16 and be close to the below, flexible rope 8 link to each other through spring 9 and the spring hanger 15 that corresponds the side after 16 commutations of fixed pulley.

The power output shaft 4 on the left side is provided with a generator 17, and the power generated by the generator 17 is used by a storage battery.

The use process of the device is as follows:

the non-working state of the machine is that the spring 9 and the working wheel 5 are in the powerless state; when the machine is started (under the condition that mechanical friction and air resistance in the machine are both considered as zero), firstly, the storage battery supplies power, and the motor 2 drives the bevel gear and the shell 1 to rotate; in the process, the planetary gear 302, the bevel gear, the grooved pulley 7, the transmission gear 10, the power output shaft 4, the generator 17, the working wheel 5, the spring 9 on the spring bracket 6, the soft rope 8 and the pulley all run synchronously with the motor 2 without autorotation, namely the rotating speeds of the components are not slowed down;

when the motor 2 normally operates and the working wheel 5 is subjected to an external force (power output to the outside), the differential starts to operate, the bevel gears, the power output shafts 4 and the working wheel 5 on the two sides start to slow compared with the speed of the motor 2 and are equal to autorotation, but the transmission gear 10, the bevel gears, the planetary gear 302 and the grooved pulley 7 are also sequentially pushed to rotate, under the autorotation action of the transmission gear 10, the rack 11 and the turning transmission shaft start to rotate along the rotating direction of the power output shaft 4 on one side, the other end of the turning transmission shaft is under the action of a central fulcrum of the turning transmission shaft, the rack 11, the gear, the power output shafts 4 and the bevel gears rotate along the reverse direction of one end, so that the two sides of the grooved pulley 7 are subjected to equal stress and opposite directions, the grooved pulley 7 is pushed to rotate, the grooved pulley 7 enables the soft rope 8 to be wound on the grooved pulley 7, and the spring 9 is stretched, the external force of the extension spring 9 is equal to the external force (external output power) applied to the working wheel 5 and acts on one end of the spring 9, but the other end of the spring 9 simultaneously generates a reverse acting force, and the force points of the reverse acting force are positioned at the spring hooks 15 on the two sides of the bracket (also the force points of the reverse acting force are positioned on the two sides of the power output shaft 4, the force is equal in magnitude and same in direction, so the reverse acting force can not enable the power output shaft 4 to generate rotating force, which is also the purpose of the invention);

when external force (external output power) is not changed during work, the rotation of the working wheel 5, the power output shaft 4 and the bevel gear is stopped, the tension of the spring 9 is stopped to be increased by the motor 2, the retraction force in the spring 9 is not changed, one end of the spring is still at the spring hook 15 on the two sides of the support, the other end of the spring is transmitted to the working wheel 5 through the grooved wheel 7, the planetary gear 302, the bevel gear and the power output shaft 4 for one time, and the working wheel 5 is continuously kept to output power externally. That is to say, as long as the output power of the working wheel 5 is increased, the working wheel 5, the power output shaft 4 and the bevel gear are slowed down and then are accelerated to be equal to the rotating speed of the motor 2, and the motor 2 provides power; the permanent external output power is the retraction force generated after the spring 9 is pressed, and the retraction force of the spring 9 can not be reduced as long as the external force (external output shaft) applied to the working wheel 5 is not reduced.

The device has the following advantages:

1, simple structure, low cost and convenient operation;

2, the output energy is pollution-free, and power machines with various specifications can be produced by Hen according to market demands and can be widely used in various places needing power;

3, the problems of conventional energy shortage and environmental pollution caused by the utilization of the energy can be effectively solved, and the method has great social efficiency and economic benefits.