KR20200133166A - A small clean energy power generation base station - Google Patents

Abstract

The present invention provides a small clean energy power generation base station which comprises a cylinder, a base and a disc, wherein the cylinder is rotationally installed at the top end of the base. Two sets of supporting columns are symmetrically installed at peripheries of left and right sides of the base. One ends of lower portions of the supporting columns are fixed to a circumferential outer wall of the base, and the other ends of the supporting columns are fixed to a periphery of the disc. The cylinder is located at a lower portion of the disc. A fixed column is fixedly installed on a left side surface of the cylinder. Two groups of fixed rods which are symmetrically installed up and down are fixedly installed on the fixed column. One end of the fixed rod is fixedly connected with a sweep. Two groups of circular cavities which are symmetrically installed in a left-right direction are provided in the cylinder. A solar cell panel can face the sunlight all the time, through a design of the sweep, a fan can face a wind direction all the time, through opposite rotation of a power generation magnet and a power generation coil, a power generation speed is enabled to be higher, and power generation efficiency is further improved.

Description

A small clean energy power generation base station.

The present invention relates to the field of power generation technology, and more particularly, to a kind of small eco-friendly energy source power generation base station.

Currently, traditional power generation base stations are mostly coal-fired, so this power generation method can cause some degree of pollution to the air environment, and traditional eco-friendly energy source power generation base stations are larger and less suitable for use at home. Since the fan generated using energy or the panel generated using sunlight is fixed and cannot be moved, the time for direct sunlight to be directly irradiated to the panel is relatively short, reducing the power generation efficiency, and the wind blows in a certain direction. In addition, a fan using wind energy is operated to generate electricity.

It is an object of the present invention to overcome the above-described defects in the existing technology by providing a kind of small eco-friendly energy source power generation base station.

A kind of small eco-friendly energy source power generation base station includes a columnar body, a base and a disk, the columnar body is rotatably installed on the uppermost end of the base, and two groups of supports are symmetrically installed on the left and right sides of the base, and the support One end of the bottom of the base is fixed to the outer wall in the circumferential direction of the base, the other end of the support is fixed to the outer circumference of the disk, and the cylinder is located at the bottom of the disk, and a fixing rod is provided on the left side of the cylinder. It is fixedly installed, and two groups of fixed rods that are installed symmetrically up and down are fixedly installed on the fixing table, and one end of the fixing rod is fixedly connected to the sweep, and two groups of ring cavities are installed symmetrically left and right in the cylinder body. And a fan shaft that is installed to extend left and right is rotatably installed in the right wall of the ring cavity located on the right side, and a right extension portion of the fan shaft extends out of the cylinder, and a fan is fixedly installed at the end of the fan. When this blows, the sweep can be driven so that the cylinder body rotates, so that the fan faces the direction in which the wind blows from beginning to end, and a power mechanism is installed in the cylinder body, and the bottom of the cylinder body is close. A power generation mechanism is installed at the position, a rotating block is rotated on the top end surface of the disk, a column is fixedly installed at the top of the rotating block, a stable rod is fixedly installed on the outer circumference of the column, and The lower end is fixed to the rotating block, the stabilizing rod serves to fix the pillar, a solar panel is further fixedly installed on the outer axis of the pillar at the top of the stabilizing rod, and the solar panel converts electric energy into light energy. And a photosensitive sensor is fixedly installed at the top of the column, an uppermost cavity is provided in the disk on the left side of the rotating block, and a motor is inserted and fixedly installed in the bottom wall of the uppermost cavity. A direction change gear is dynamically connected to the top of the motor, and the direction change gear and the rotation block The outer periphery is installed in mesh, the photosensitive sensor and the motor are electrically connected, the transmission mechanism includes two groups of driven cavities provided in the cylindrical body, and the two groups of the driven cavities are installed to be symmetrical left and right, The driven cavities of the second group are located between the ring cavities of the second group, a double-sided rack is rotatably installed in the ring cavity, a power gear is fixedly installed at one end of the fan shaft located in the ring cavity, and the power The gear and the uppermost end of the double-sided rack are engaged and installed, and a power shaft that is installed to extend left and right is rotated between the ring cavity and the driven cavity, and an extension part of one side of the power shaft is extended into the ring cavity and the ring cavity It is connected to be rotationally matched with one end wall of the power shaft, and the other extension part of the power shaft extends into the driven cavity so that its end is rotationally matched with the inner wall of one side of the driven cavity, Is fixedly installed, the driven gear and the bottom end of the double-sided rack are engaged, a large bevel gear is fixedly installed on the outer circumference of the power shaft located in the driven cavity, and the diameter of the large bevel gear is greater than the diameter of the driven gear Big.

More technically, a driving groove is provided on the bottom wall of the driven cavity, a bottom cavity is provided in the cylindrical body of the bottom of the transmission groove, and all vertically extending between the bottom cavity and the transmission groove A vertical shaft is rotatably installed, and the uppermost extension portion of the vertical shaft extends into the transmission groove, and a small bevel gear is fixedly installed at the uppermost end of the vertical shaft, and the small bevel gear and the large bevel gear are engaged and installed, and the vertical shaft The bottom extension portion of the bottom portion extends into the bottom cavity and a power bevel gear is fixedly installed at the end thereof, and the power generation mechanism includes a power generation cavity provided between the two groups of the bottom cavity, and the power generation cavity and the bottom of both left and right sides Power generation shafts are rotated between the cavities, and the power generation shafts of the two groups are all installed to extend left and right, and one side of the power generation shaft has an extended end extending into the bottom cavity, and one side of the power generation shaft located within the bottom cavity A driven bevel gear is fixedly installed at the end, the driven bevel gear and the power bevel gear are meshedly installed, a power generation coil is fixedly installed at the other end of the power generation shaft located on the left side, and the other end of the power generation shaft located on the right side A power generation magnet is fixedly installed in the power generation coil, the power generation may be generated through electromagnetic induction between the power generation coil and the power generation magnet, and an electric conduction block is fixedly installed on the rear wall of the power generation cavity, and the power generation shaft located on the left side is the electricity. Passing through the conduction block, the power generation coil and the electric conduction block are in contact, a storage battery is fixedly installed in the cylinder body at the top of the power generation cavity, and the storage battery and the electricity conduction block are connected through an electric wire, The electrically conductive block may introduce electrical energy into the storage battery through the wire, and three groups of stand bars are fixedly installed at the bottom of the base, and heel blocks are fixedly installed at the bottom of the stand bars.

Advantageous effects of the present invention are as follows.The present invention uses wind power and light energy to generate electricity at the same time, so that the energy source to generate power is more eco-friendly, and the solar panel of the present invention can always be directed toward sunlight. This solves the problem of a relatively short period of time for direct irradiation to the panel and improves the utilization rate of light energy.

Since the sweep can be designed so that the fan always faces the wind direction, it solves the problem that the fan in the existing wind power generation is directed in only one direction, improves the utilization rate of wind energy, and also, the generation magnet and the generation coil By rotating oppositely, the power generation speed is faster and the power generation efficiency is further improved, and the power generation base station of the present invention is very suitable for use in a home living outdoors and is convenient for distribution.

1 is a view schematically showing the internal structure of a small eco-friendly energy source power generation base station according to the present invention.
2 is a diagram schematically showing an enlarged portion of the solar panel in the present invention.
3 is a diagram schematically showing a sweep in the present invention.
Fig. 4 is a locally enlarged view of a transmission mechanism in the present invention.

The present invention will be described in detail with reference to FIGS. 1 to 4 below, but for convenience of explanation, the orientations mentioned below are defined as follows, up, down, left, right, front, and The rear direction coincides with the up, down, left, right, front and rear directions of the projection relationship of FIG. 1 itself.

1 to 4, a small eco-friendly energy source power generation base station according to an embodiment of the present invention includes a cylinder 10, a base 13, and a disk 12, the cylinder 10 is the It is rotatably installed on the uppermost end of the base 13, and two groups of supports 11 are symmetrically installed on the outer circumferences of both left and right sides of the base 13, and all of the bottom ends of the base 13 are It is fixed to the outer wall in the circumferential direction, and the other end of the support 11 is fixed to the outer circumference of the disk 12, and the cylindrical body 10 is located at the bottom of the disk 12, and the cylindrical body 10 ) Is fixedly installed on the left side of the fixing rod 26, the fixing rod 25 is fixedly installed in two groups of vertically symmetrically installed fixing rods 25, and one end of the fixing rod 25 is a sweep 24 ) And fixedly connected to the cylinder body 10, and two groups of ring cavities 27 are provided to be symmetrically installed in the cylindrical body 10, and are installed to extend left and right in the right wall of the ring cavity 27 located on the right. A fan shaft 50 is installed to rotate, and a right extension portion of the fan shaft 50 extends out of the cylindrical body 10, and a fan 16 is fixedly installed at the end thereof, and when the wind blows, the By being able to drive the sweep 24 so that the cylindrical body 10 is rotated, the fan 16 faces the direction in which the wind blows, and the power mechanism 61 is in the cylindrical body 10. A power generation mechanism 62 is installed at a position close to the bottom of the cylindrical body 10, and a rotation block 17 is rotated at the top end of the disk 12, and the rotation block 17 A pillar 21 is fixedly installed at the top of the pillar 21, a stable rod 45 is fixedly installed on the outer periphery of the pillar 21, and the lower end of the stable rod 45 is fixed with the rotating block 17, and the The stability rod 45 serves to fix the pillar 21, and the solar panel 22 is located on the outer axis of the pillar 21 at the uppermost portion of the stability rod 45. The solar panel 22 is further fixedly installed, and the solar panel 22 can convert electric energy into light energy, and a photosensitive sensor 23 is fixedly installed at the top of the pillar 21, and the left side of the rotating block 17 An uppermost cavity 20 is provided in the disk 12, a motor 18 is inserted and fixedly installed in the lower wall of the uppermost cavity 20, and a direction change gear 19 is installed at the uppermost end of the motor 18. ) Is dynamically connected, the outer periphery of the direction change gear 19 and the rotation block 17 is installed in mesh, the photosensitive sensor 23 and the motor 18 are electrically connected, and the photosensitive sensor Through the induction function of (23), the operation of the motor 18 can be controlled, so that the rotation block 17 is rotated so that the solar panel 22 always faces sunlight, and the electric power mechanism 61 includes two groups of driven cavities 30 provided in the cylindrical body 10, the two groups of driven cavities 30 are installed to be symmetrical left and right, and two groups of driven cavities 30 Is located between two groups of the ring cavities 27, a double-sided rack 28 is rotatably installed in the ring cavity 27, and one end of the fan shaft 50 located in the ring cavity 27 A power gear 51 is fixedly installed, and the uppermost ends of the power gear 51 and the double-sided rack 28 are meshed and installed, and the fan 16 is rotated by blowing wind, so that the fan shaft 50 is By rotating, the power gear 51 is driven so that the double-sided rack 28 rotates, and the power shaft 32 installed to extend left and right between the ring cavity 27 and the driven cavity 30 is rotated. Is installed, and one extended portion of the power shaft 32 extends into the ring cavity 27 and is connected to be rotationally matched with one end wall of the ring cavity 27, and the other extended portion of the power shaft 32 It extends into the driven cavity 30 so that its end rotates with the inner wall of one side of the driven cavity 30 Matched, the driven gear 29 is fixedly installed on the outer periphery of the power shaft 32 located in the ring cavity 27, the driven gear 29 and the hem of the double-sided rack 28 are engaged, A large bevel gear 31 is fixedly installed on the outer periphery of the power shaft 32 located in the driven cavity 30, and the diameter of the large bevel gear 31 is larger than the diameter of the driven gear 29. , So that the rotational speed of the power generation mechanism 62 is faster.

Advantageously or illustratively, all of the bottom walls of the driven cavity 30 are provided with a transmission groove 33, and a bottom cavity 42 is provided in the columnar body 10 at the bottom of the transmission groove 33 And, between the bottom cavity 42 and the transmission groove 33, a vertical shaft 44 extending up and down is rotatably installed, and the uppermost extending portion of the vertical shaft 44 extends into the electric groove 33, A small bevel gear 34 is fixedly installed at the uppermost end of the vertical shaft 44, the small bevel gear 34 and the large bevel gear 31 are meshed and installed, and the bottom extension portion of the vertical shaft 44 is The power bevel gear 43 is fixedly installed at the end and extended into the bottom cavity 42, and the power generation mechanism 62 includes a power generation cavity 37 provided between two groups of the bottom cavity 42, , Between the power generation cavity 37 and the bottom cavity 42 on both left and right sides, the power generation shaft 40 is rotated, and the power generation shafts 40 of the two groups are all installed to extend left and right, and the power generation shaft At one side of the 40, the extended end extends into the bottom cavity 42, and a driven bevel gear 41 is fixedly installed at one end of the power generation shaft 40 located in the bottom cavity 42, The driven bevel gear 41 and the power bevel gear 43 are engaged and installed, and a power generation coil 39 is fixedly installed at the other end of the power generation shaft 40 located on the left side, and the power generation coil 39 is installed on the right side. A power generation magnet 38 is fixedly installed at the other end of the shaft 40, and between the power generation coil 39 and the power generation magnet 38 may generate power through electromagnetic induction, after the power generation cavity 37 An electrical conduction block 46 is fixedly installed on the sidewall, the power generation shaft 40 located on the left side passes through the electrical conduction block 46, and the power generation coil 39 and the electrical conduction block 46 are And a storage battery 35 is fixedly installed in the cylinder 10 at the top of the power generation cavity 37 And, the storage battery 35 and the electric conduction block 46 are connected through an electric wire 36, and the electric conduction block 46 transfers electric energy into the storage battery 35 through the electric wire 36. 3 groups of stand bars 15 are fixedly installed at the hem of the base 13, and a heel block 14 is fixedly installed at the hem of the stand bar 15, and the heel block ( 14) serves to support the entire device.

In use, the device is first fixed to a high place, and the sweep 24 is shaken by the wind, and the sweep 24 is driven so that the cylinder 10 rotates, so that the fan 16 faces the direction in which the wind blows. Thus, by rotating the fan 16 and driving the fan shaft 50 so that the power gear 51 is rotated, the power gear 51 is driven so that the double-sided rack 28 is rotated, and the double-sided rack 28 is The driven gears 29 on both left and right are rotated, and the direction of rotation of the driven gears 29 on both left and right sides is opposite to each other, so that the power shaft 32 is rotated and switched in the opposite direction, so that the small bevel gear 34 rotates. By driving the bevel gear 31 as large as possible, the power bevel gear 43 is driven so that the driven bevel gear 41 rotates, and the driven bevel gears 41 on both left and right sides are respectively a power generation coil 39 and a power generation magnet ( 38) is rotated, and since the rotation directions of the power generation magnet 38 and the power generation coil 39 are opposite to each other, power generation efficiency is accelerated, and the operation of the motor 18 is controlled through the induction action of the photosensitive sensor 23. , The direction change gear 19 is rotated, the rotation block 17 is rotated, so that the solar panel 22 always faces sunlight to generate electricity, thereby improving the utilization rate of light energy.

Advantageous effects of the present invention are as follows.The present invention uses wind power and light energy to generate electricity at the same time, so that the energy source to generate power is more eco-friendly, and the solar panel of the present invention can always be directed toward sunlight. This solves the problem of a relatively short period of time for direct irradiation to the panel and improves the utilization rate of light energy.

Since the sweep can be designed so that the fan always faces the wind direction, it solves the problem that the fan in the existing wind power generation is directed in only one direction, improves the utilization rate of wind energy, and also, the generation magnet and the generation coil By rotating oppositely, the power generation speed is faster and the power generation efficiency is further improved, and the power generation base station of the present invention is very suitable for use in a home living outdoors and is convenient for distribution.

It is clear to those skilled in the art that various modifications can be made to the above-described embodiment without departing from the general spirit and spirit of the present invention. All of these should fall within the scope of the present invention. Solutions protected by the present invention are based on the claims appended to the present invention.

Claims (2)

In a kind of small eco-friendly energy source power generation base station including a cylinder body, a base and a disk, the cylinder body is rotated on the uppermost end of the base, and two groups of supports are symmetrically installed on both left and right outer circumferences of the base, and the One end of the bottom of the support is fixed to the outer wall in the circumferential direction of the base, and the other ends of the support are all fixed to the outer circumference of the disk, and the cylinder is located at the bottom of the disk, and a fixing bar is on the left side of the cylinder. Is fixedly installed, and two groups of fixed rods that are installed symmetrically up and down are fixedly installed on the fixing table, and one end of the fixing rod is fixedly connected to the sweep, and two groups of ring cavities installed symmetrically left and right in the cylinder body Is provided, and a fan shaft that is installed to extend left and right is rotatably installed in the right wall of the ring cavity located on the right side, and a right extension portion of the fan shaft extends out of the cylinder, and a fan is fixedly installed at the end thereof, When wind blows, the sweep can be driven so that the cylinder body rotates, so that the fan faces the direction in which the wind blows, and a power mechanism is installed in the cylinder body, and the bottom of the cylinder body is A power generation mechanism is installed in an adjacent position, a rotating block is rotated on the upper end of the disk, a column is fixedly installed at the top of the rotating block, a stable rod is fixedly installed on the outer circumference of the column, and the stable rod The lower end of the rotating block is fixed to the rotating block, the stabilizing rod serves to fix the pillar, a solar panel is further fixedly installed on the outer axis of the pillar at the top of the stabilizing rod, and the solar panel converts electric energy to light. Energy can be converted into energy, and a photosensitive sensor is fixedly installed at the top of the column, an uppermost cavity is provided in the disk on the left side of the rotating block, and a motor is inserted and fixedly installed in the bottom wall of the uppermost cavity, A direction change gear is dynamically connected to the uppermost end of the motor, and the direction change gear and the rotation The outer periphery of the block is installed in mesh, the photosensitive sensor and the motor are electrically connected, the power mechanism includes two groups of driven cavities provided in the cylindrical body, and the two groups of the driven cavities are installed symmetrically left and right. The driven cavities of the two groups are located between the ring cavities of the two groups, a double-sided rack is rotatably installed in the ring cavity, and a power gear is fixedly installed at one end of the fan shaft located in the ring cavity, The power gear and the uppermost end of the double-sided rack are engaged and installed, and a power shaft that is installed to extend left and right is rotated between the ring cavity and the driven cavity, and an extended portion of the power shaft is extended into the ring cavity and the It is connected to be rotationally matched with one end wall of the ring cavity, and the other extended portion of the power shaft extends into the driven cavity so that its end is rotationally matched with the inner wall of one side of the driven cavity, A driven gear is fixedly installed, the driven gear and the bottom end of the double-sided rack are engaged, and a large bevel gear is fixedly installed on the outer circumference of the power shaft located in the driven cavity, and the diameter of the large bevel gear is of the driven gear. A kind of small eco-friendly energy source power generation base station characterized in that it is larger than the diameter. The vertical axis of claim 1, wherein the driven cavity has an electric groove in all of the bottom walls of the driven cavity, a bottom cavity is provided in the cylindrical body of the bottom of the electric groove, and all vertical shafts extending vertically between the bottom cavity and the electric groove This rotation is installed, the uppermost extension part of the vertical shaft extends into the transmission groove, a small bevel gear is fixedly installed at the uppermost end of the vertical shaft, and the small bevel gear and the large bevel gear are engaged and installed, The bottom extension portion extends into the bottom cavity and a power bevel gear is fixedly installed at the end thereof, and the power generation mechanism includes a power generation cavity provided between two groups of the bottom cavity, and the power generation cavity and the bottom cavity on both left and right sides Power generation shafts are rotated and installed in between, and the power generation shafts of the two groups are all installed to extend left and right, and one side of the power generation shaft has an extended end extending into the bottom cavity, and one end of the power generation shaft located in the bottom cavity A driven bevel gear is fixedly installed in the driven bevel gear, the driven bevel gear and the power bevel gear are engaged and installed, a power generation coil is fixedly installed at the other end of the power generation shaft located on the left side, and the other end of the power generation shaft located on the right side A power generation magnet is fixedly installed, the power generation coil and the power generation magnet may generate power through electromagnetic induction, and an electric conduction block is fixedly installed on the rear wall of the power generation cavity, and the power generation shaft located on the left side is the electric conduction. Through the block, the power generation coil and the electric conduction block are in contact, a storage battery is fixedly installed in the cylinder body at the top of the power generation cavity, and the storage battery and the electric conduction block are connected through an electric wire, and the The electric conduction block may introduce electric energy into the storage battery through the wire, and three groups of stand bars are fixedly installed at the bottom of the base, and heel blocks are fixedly installed at the bottom of the stand bars. The above kind of small eco-friendly energy source power generation Base station.

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