CN211038944U - Chord energy generator - Google Patents

Abstract

The utility model relates to a string can generator, it includes a plurality of power bodies, drive unit and generator triplex. The power body comprises a string tightening motor, a string tightening pinion at the output end of the string tightening motor is meshed with a string tightening gearwheel fixedly connected to a rotating shaft, a string strip, a non-return gear, a string belt gear and a string tightening gearwheel are coaxially mounted on the rotating shaft from bottom to top, the string strip is wound at the lower end of the rotating shaft, the inner end of the string strip is fixedly connected with the rotating shaft, the outer end of the string strip is movably sleeved on a setting column to ensure that the string strip has a moving space, the non-return gear is fixedly connected to the rotating shaft, the string belt gear is supported on the non-return gear, a certain beam of the string belt gear is provided with a non-return small tooth, and the non-return small tooth is pressed. The power generated by the string strip drives the chordal gear to rotate through the rotating shaft and the non-return gear, and the chordal gear is transmitted to the main generator through the transmission unit to generate power. The utility model discloses carry out cascaded average arrangement to the tight string time of each power body to guarantee the steady output of main generator electric quantity, voltage.

Description

Chord energy generator

Technical Field

The utility model belongs to the technical field of the generator and specifically relates to a string can generator.

Background

The utility model discloses a mechanical equipment that converts the energy of string kinetic energy form to electric energy, it makes the string produce string after self electric quantity string tightly with the energy of string kinetic energy form and can turn into mechanical energy and pass to the generator, converts the electric energy into by the generator again, realizes that string can generate electricity.

The novel energy-saving gas-fired boiler changes the original energy such as kerosene, steam and water power, thoroughly eliminates a large amount of harmful gas, dust, garbage, sewage and the like generated by fuel combustion for the traditional technology of energy, greatly reduces the trouble of erecting electric wire circuits in the air, realizes environmental protection in the power generation industry, is unique and simple, eliminates most of circuit investment and labor, thereby driving economic development and being particularly beneficial to people. The method is more responsive to the national policy of developing new energy and promotes the new revolution of energy in China and the world.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to remedy prior art not enough, provide a string can generator.

For solving the above technical problem, the utility model discloses technical scheme does:

a chord energy generator comprises a plurality of power bodies, a transmission unit and a generator. The power body comprises a string tightening motor, a string tightening pinion at the output end of the string tightening motor is meshed with a string tightening gearwheel fixedly connected to a rotating shaft, a string strip, a non-return gear, a string belt gear and a string tightening gearwheel are coaxially mounted on the rotating shaft from bottom to top, the string strip is wound at the lower end of the rotating shaft, the inner end of the string strip is fixedly connected with the rotating shaft, the outer end of the string strip is movably sleeved on a setting column to ensure that the string strip has a moving space, the non-return gear is fixedly connected to the rotating shaft, the string belt gear is supported on the non-return gear, a non-return small tooth is arranged on a beam of the string belt gear, and the non-return small tooth is pressed on the non-. The power generated by the chord strip drives the chordal gear to rotate through the rotating shaft and the non-return gear, and then the power is transmitted to the main generator through the transmission unit by the chordal gear to generate power.

A string tightening big gear above the string belt gear is meshed with a string tightening small gear at the output end of the string tightening motor to form a small and large string tightening mode; when the string is in the allowed most loose state, the string can be in point contact with the touch point of the touch timing switch to trigger the control circuit to control the string tightening strip on the string tightening motor, and the string tightening motor can be driven by electric energy generated by the generator and can guarantee string tightening of the string through a timing power-on mode; the transmission unit is a transmission mechanism between each power body and the generator, and transmits the energy sequentially output by each power body to the generator for generating electricity.

The chord strip is made of manganese steel or a material with better flexibility and elasticity than the manganese steel, the power of the chord strip is influenced by the material, bandwidth, thickness and other factors of the chord strip, specifically, the wider the bandwidth and the thicker the thickness of the chord strip are, the larger the force of the chord strip is, but the chord strip cannot be driven by a string tightening motor to be matched with the string tightening motor; the length of the chord is a main condition for determining the length of the self-tightening time to the releasing time of the power body chord, and no selection is made.

The utility model discloses carry out cascaded average arrangement to the tight chord time of each power body to make each power body the phenomenon of taking an idling not appear, thereby ensure that main generator obtains balanced power, guarantee the steady output of electric quantity, voltage.

The utility model discloses a string can be established to horizontal type and circle and arranges the type two kinds. The horizontal arrangement type can be provided with more than 3 power bodies according to actual needs, is relatively practical, and can design the number of the power bodies according to the demand of electric quantity; the power body used by the circular-row design is not too many, and is only suitable for families.

The utility model discloses the beneficial effect who has: the technical scheme can realize the electricity generation by the string kinetic energy, is energy-saving and environment-friendly, can meet the power utilization desire of plateaus and remote areas, and realizes the independent power utilization of individual users.

Drawings

FIG. 1 is a schematic structural view of example 1;

FIG. 2 is a schematic structural view of example 2;

FIG. 3 is a schematic structural view of a power body of the present invention;

FIG. 4 is a structural position relationship diagram of a non-return gear, a chordal belt gear, a non-return small tooth and a non-return tooth spring on the power body of the utility model;

in the figure, 1 power body, 1-1 string bar, 1-2 non-return gear, 1-3 string belt gear, 1-4 string big gear, 1-5 string small gear, 1-6 string motor, 1-7 touch timing switch, 1-8 setting post, 1-9 non-return small gear, 1-10 non-return gear spring, 2 transmission unit, 2-1 transmission chain wheel I, 2-2 chain, 2-3 transmission chain wheel II, 2-4 variable gear and 3 generator.

Detailed Description

The present invention will be further described with reference to the following specific embodiments.

Example 1

As shown in the attached drawing 1, the embodiment adopts a horizontal structure layout, 8 power bodies 1 are distributed in a horizontal manner, the transmission unit 2 adopts a chain transmission consisting of a transmission chain wheel I2-1, a transmission chain wheel II 2-3 and a chain 2-2, and a chordal belt gear (chain wheel) 1-3 of each power body 1 is output through the chain transmission in sequence and is transmitted to the generator 3 through a speed change gear 2-4 to realize power generation.

As shown in attached figures 3 and 4, a power body 1 comprises a tightening motor 1-6, a tightening pinion 1-5 at the output end of the tightening motor and a tightening gearwheel 1-4 fixedly connected on a rotating shaft, the rotating shaft is provided with a string bar 1-1, a non-return gear 1-2, a string belt gear 1-3 and a tightening gearwheel 1-4 which are coaxially arranged from bottom to top, the string bar is wound on the lower end of the rotating shaft, the inner end of the string bar 1-1 is fixedly connected with the rotating shaft, the outer end of the string bar 1-1 is movably sleeved on a setting column 1-8 (the setting column is fixed), a non-return gear 1-2 is fixedly connected on the rotating shaft, the non-return gear 1-2 supports the string belt gear 1-3, a non-return pinion 1-9 is arranged on a beam of the string belt gear 1-3, the non-return pinion 1-9 is pressed on the non-return gear 1-2 under the elastic force of a non-return gear spring 1, the power generated by the chord bar 1-1 drives the chordal gear 1-3 to rotate through the rotating shaft and the non-return gear 1-2, and then the power is transmitted to the generator 3 through the transmission unit by the chordal gear 1-3 to generate power.

A large tightening gear 1-4 above the chordal belt gear 1-3 is meshed with a small tightening gear 1-5 at the output end of a tightening motor 1-6 to form a small big tightening mode; a touch timing switch 1-7 is further arranged outside the string 1-1 of the power body, when the string is in the allowed most loose state (namely elastic potential energy is completely released), the string 1-1 can be in contact with the touch point of the touch timing switch 1-7 to trigger a control circuit to control a string tightening motor 1-6 to tighten the string, and the string tightening motor 1-6 can be driven by electric energy generated by the generator 3 and can guarantee string tightening of the string through a timing power-on mode; the transmission unit 2 is a transmission mechanism between each power body and the generator, and transmits the energy sequentially output by each power body to the generator 3 to generate electricity.

The chord 1-1 is a strip made of manganese steel or a material with better flexibility and elasticity than manganese steel, the power of the strip is influenced by the material, bandwidth, thickness and other factors of the chord, and specifically, the wider the bandwidth and the thicker the thickness of the chord, the larger the power of the chord. The string 1-1 is matched with the string tightening motor 1-6 to ensure that the string tightening motor 1-6 is matched with the maximum force required by the string 1-1 when being tightened until the string 1-1 is tightened, and the string tightening motor 1-6 is a motor which needs to be durable.

The tightening time of each power body is averagely arranged in a stepped mode, so that each power body does not have the idling phenomenon, the main generator is ensured to obtain balanced power, and the stable output of electric quantity and voltage is ensured. For the string energy generator with 8 power bodies, the time from string tightening to releasing of a string is averagely divided into eight sections to set the string tightening time, namely, a power body takes 16 minutes from starting to releasing, the string tightening time between the power bodies is set to be two minutes until the string tightening time is averagely proper, so that the string tightening time is averagely distributed, the power output by the power body group is balanced front and back, and the main generator can ensure the permanent and stable output of electric quantity and voltage.

Example 2

As shown in fig. 2, the embodiment adopts a circular structural layout, 6 power bodies 1 are distributed in a circular shape, the transmission unit 2 comprises a large gear positioned in the middle of the 6 power bodies 1 distributed in the circular shape, and the chordal gears 1-3 of each power body 1 are sequentially output through the large gear and are transmitted to the generator 3 through the speed change gears 2-4 to realize power generation.

As shown in attached figures 3 and 4, a power body 1 comprises a tightening motor 1-6, a tightening pinion 1-5 at the output end of the tightening motor and a tightening gearwheel 1-4 fixedly connected on a rotating shaft, the rotating shaft is provided with a string strip 1-1, a non-return gear 1-2, a string belt gear 1-3 and a tightening gearwheel 1-4 which are coaxially arranged from bottom to top, the string strip is wound on the lower end of the rotating shaft, the inner end of the string strip 1-1 is fixedly connected with the rotating shaft, the outer end of the string strip 1-1 is movably sleeved on a setting column 1-8, the non-return gear 1-2 is fixedly connected on the rotating shaft, the non-return gear 1-2 supports the string belt gear 1-3, a beam of the string belt gear 1-3 is provided with a non-return pinion 1-9, the non-return pinion 1-9 is pressed on the non-return gear 1-2 under the elastic force of a non-return tooth spring, the power generated by the chord bar 1-1 drives the chordal gear 1-3 to rotate through the rotating shaft and the non-return gear 1-2, and then the power is transmitted to the generator 3 through the transmission unit by the chordal gear 1-3 to generate power.

A large tightening gear 1-4 above the chordal belt gear 1-3 is meshed with a small tightening gear 1-5 at the output end of a tightening motor 1-6 to form a small big tightening mode; a touch timing switch 1-7 is further arranged outside the string 1-1 of the power body, when the string is in the allowed most loose state (namely elastic potential energy is completely released), the string 1-1 can be in contact with the touch point of the touch timing switch 1-7 to trigger a control circuit to control a string tightening motor 1-6 to tighten the string, and the string tightening motor 1-6 can be driven by electric energy generated by the generator 3 and can guarantee string tightening of the string through a timing power-on mode; the transmission unit 2 is a transmission mechanism between each power body and the generator, and transmits the energy sequentially output by each power body to the generator 3 to generate electricity.

The chord 1-1 is a strip made of manganese steel or a material with better flexibility and elasticity than manganese steel, the power of the strip is influenced by the material, bandwidth, thickness and other factors of the chord, and specifically, the wider the bandwidth and the thicker the thickness of the chord, the larger the power of the chord. The string 1-1 is matched with the string tightening motor 1-6 to ensure that the string tightening motor 1-6 is matched with the maximum force required by the string 1-1 when being tightened until the string 1-1 is tightened, and the string tightening motor 1-6 is a motor which needs to be durable.

The tightening time of each power body is averagely arranged in a stepped mode, so that each power body does not have the idling phenomenon, the main generator is ensured to obtain balanced power, and the stable output of electric quantity and voltage is ensured. For the string energy generator with 6 power bodies, the time from string tightening to releasing of a string is averagely divided into six sections to set the string tightening time, namely, one power body takes 12 minutes from starting to releasing, the string tightening time between the power bodies is set to be two minutes until the string tightening time is averagely proper, so that the string tightening time is averagely distributed, the power output by the power body group is balanced front and back, and the main generator can ensure the stable output of electric quantity and voltage.

The above is only some embodiments of the present invention, the protection scope of the present invention is not limited to the above embodiments, it should be pointed out, for the ordinary skilled in the art, without departing from the present invention, the present invention provides a plurality of improvements and decorations made under the premise of the idea.

Claims (4)

1. A string can generator, characterized by: comprises a power body, a transmission unit and a generator; wherein the number of the power bodies is more than 2, the power bodies comprise string tightening motors, string tightening pinions at the output ends of the string tightening motors are meshed with string tightening large gears fixedly connected on a rotating shaft, string bars are coaxially arranged on the rotating shaft from bottom to top, the string tightening device comprises a non-return gear, a string belt gear and a string tightening big gear, wherein a string strip is wound at the lower end of a rotating shaft, the inner end of the string strip is fixedly connected with the rotating shaft, the outer end of the string strip is movably sleeved on a set column, the non-return gear is fixedly connected to the rotating shaft, the non-return gear supports the string belt gear, a beam of the string belt gear is provided with a non-return small tooth, the non-return small tooth is pressed on the non-return gear under the elastic force action of a non-return tooth spring, power generated by the string strip drives the string belt gear to rotate through the rotating shaft and the non-return gear, the string belt gear transmits the power to a generator through a transmission unit to generate power, and the string tightening big gear above the string belt; a touch timing switch is further arranged outside the string of the power body, when the string is in the allowed loosest state, the string can be in contact with the touch point of the touch timing switch to trigger the control circuit to control the string tightening motor to tighten the string, and the string tightening motor can be driven by electric energy generated by the generator and can guarantee the string tightening of the string through a timing power-on mode; the transmission unit is a transmission mechanism between each power body and the generator and transmits the energy sequentially output by each power body to the generator for generating electricity; the string tightening time of each power body is averagely arranged in a stepped mode, so that the generator obtains balanced power, and stable output of electric quantity and voltage is guaranteed.

2. The string energy generator of claim 1, wherein: the power body is in a horizontal row shape or a circular shape.

3. The string energy generator of claim 2, wherein: when the power bodies adopt a horizontal arrangement structure, the transmission unit adopts chain transmission consisting of a transmission chain wheel I, a transmission chain wheel II and a chain, the output ends of the power bodies are respectively meshed with the chain, and the output ends of the transmission unit drive the generator to generate electricity through the speed change gear.

4. The string energy generator of claim 2, wherein: when the power bodies adopt a circular layout structure, the transmission unit adopts gear transmission comprising large gears, the output ends of the power bodies which are distributed in a circular shape are respectively meshed with the large gears in the middle, and the output ends of the transmission unit drive the generator to generate electricity through the speed change gears.

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