CN110566407B

CN110566407B - New forms of energy conversion equipment is used to distributing type new forms of energy distribution network

Info

Publication number: CN110566407B
Application number: CN201910930911.7A
Authority: CN
Inventors: 赵会超; 马敬凯
Original assignee: North China Electric Power University
Current assignee: North China Electric Power University
Priority date: 2019-09-29
Filing date: 2019-09-29
Publication date: 2021-11-26
Anticipated expiration: 2039-09-29
Also published as: CN110566407A

Abstract

The invention discloses a new energy conversion device for a distributed new energy power distribution network, which comprises a support frame, a first hinged support and a mounting frame, wherein a cross beam frame is mounted at the top of the support frame, a first generator is mounted at one end of the cross beam frame, and the output end of a second generator is connected with a second fan blade; the first hinged support is connected with the upper end of the second solar panel, and the second hinged support is hinged with the movable end of the second electric telescopic rod; a third generator is installed above the installation frame, and a motor is installed above the installation frame on one side of the third generator. This new forms of energy conversion equipment for distributing type new forms of energy distribution network is provided with third generator, transfer line, spacing frame, bevel gear, first screw, rail guard and mounting bracket, and rivers in the drainage pipe can promote first screw and rotate, and first screw is driving the third generator through bevel gear and transfer line and is generating electricity to can improve the utilization to the rainwater.

Description

New forms of energy conversion equipment is used to distributing type new forms of energy distribution network

Technical Field

The invention relates to the technical field of new energy source changing devices, in particular to a new energy source changing device for a distributed new energy source power distribution network.

Background

With the rapid development and progress of new energy technology in China, new energy grid connection plays an important role in solving energy shortage and environmental pollution, and with the continuous expansion of the range of new energy incorporated into a power distribution network, great influence is generated on the operation and planning of the power distribution network, so that comprehensive consideration needs to be made on the planning of the power distribution network, wherein the most basic implementation equipment is a conversion device of the new energy.

The new energy conversion device on the market at present mainly utilizes the conversion of wind energy, and utilizes after only utilizing device self to collect the rainwater to the energy conversion utilization of rainwater, and is low to the utilization ratio of rainwater, consequently needs to improve traditional new energy conversion device and utilize in order to improve the energy conversion of rainwater.

Disclosure of Invention

The invention aims to provide a new energy conversion device for a distributed new energy power distribution network, and aims to solve the problems that the new energy conversion device in the market mainly converts and utilizes wind energy, the energy conversion and utilization of rainwater is realized only by collecting rainwater by using the device, and the utilization rate of the rainwater is low, so that the traditional new energy conversion device needs to be improved to improve the energy conversion and utilization of the rainwater.

In order to achieve the purpose, the invention provides the following technical scheme: a new energy conversion device for a distributed new energy power distribution network comprises a support frame, a first hinged support and a mounting frame, wherein a cross beam frame is mounted at the top of the support frame, a bottom plate is arranged at the bottom of the support frame, wherein,

a first generator is installed at one end of the cross beam frame, the output end of the first generator is connected with first fan blades, sliding grooves are formed in the inner portions of two sides of the cross beam frame, a movable supporting device is connected to the inner side of each sliding groove, a first solar panel is installed in each movable supporting device, a second generator is installed at the top of one end of each movable supporting device adjacent to the first generator, and the output end of each second generator is connected with the corresponding second fan blade;

the first hinged supports are mounted on four sides of the bottom surface of the cross beam frame, the first hinged supports are connected with the upper ends of the second solar panels, second hinged supports are arranged on the inner side surfaces of the second solar panels, the second hinged supports are hinged with the movable ends of the second electric telescopic rods, the fixed ends of the second electric telescopic rods are mounted on the surface of the bottom plate through mounting seats, the bottom plate is arranged inside the lower end of the supporting frame, a battery bin is arranged on the upper surface of the bottom plate, a storage battery is arranged inside the battery bin, and a motor bin is arranged at the bottom of the battery bin;

the utility model discloses a motor, including mounting bracket, bottom plate, nut, the first screw of lead screw, the second screw of lead screw, the mounting bracket passes through the lead screw and connects the below at the bottom plate, the one end of lead screw is fixed mutually through the nut, the third generator is installed to the top of mounting bracket, the output of third generator is connected with the transfer line, the transfer line runs through inside spacing, the bottom of transfer line is connected with first screw transmission through bevel gear, the outside of first screw is provided with the rail guard, the motor is installed to the mounting bracket top of third generator one side, the output of motor is connected with the transfer line, the bottom of transfer line is passed through bevel gear and is connected with the second screw looks transmission, the second screw is fixed mutually through the mount, the bottom of support frame is provided with the screw.

Preferably, a group of sliding grooves are symmetrically formed in the inner walls of the two sides of the cross beam frame, and the cross beam frame is in sliding connection with the movable supporting device through the sliding grooves.

Preferably, the first generator and the first fan blade form a first wind power generation mechanism, and two groups of the first generator and the first fan blade are symmetrically arranged at two ends of the cross beam frame.

Preferably, the movable supporting device comprises a frame, a mounting groove, idler wheels, a first electric telescopic rod, a rotating shaft and a supporting rod, the mounting groove is formed in the inner wall of the frame, a first solar panel is mounted inside the mounting groove, the idler wheels are arranged on two sides of the bottom of the frame, the idler wheels are mounted inside the sliding groove, the first electric telescopic rod is connected between the bottom edges of the frame, and the top of the frame is connected with the supporting rod through the rotating shaft.

Preferably, the frame is referred to as two parts with respect to the support rod pair, the frame is rotatably connected with the support rod through a rotating shaft, the bottom edge of the frame forms a horizontal movable structure through the first electric telescopic rod, and a triangular structure is formed between the frame and the cross beam frame.

Preferably, the second generator and the second fan blade form a second wind power generation mechanism, and the second fan blade and the 2 first fan blades are distributed in a triangular shape.

Preferably, the four sides of the second solar panel on the bottom surface of the cross beam frame are provided with four groups, and the second solar panel is rotatably connected with the cross beam frame through the first hinged support.

Preferably, the middle part of the bottom plate is of an open pore structure, and a motor cabin is covered on the outer side of the upper part of the open pore in the middle part of the bottom plate.

Preferably, the third generator, the second solar panel, the second generator, the first solar panel, the first generator and the storage battery are electrically connected.

Preferably, the cross section of the mounting rack is of an I-shaped structure, the mounting rack forms a lifting structure with the bottom plate through the screw rod and the nut, and the area of the upper end of the mounting rack is smaller than the area of the opening in the middle of the bottom plate.

Compared with the prior art, the invention has the beneficial effects that: this new forms of energy conversion equipment is used to distributed new forms of energy distribution network:

1. the wind power generation device is provided with a first generator, a first fan blade, a second generator and a second fan blade to form three groups of wind power generation mechanisms, wherein the three groups of wind power generation mechanisms are arranged at the top of the device and are distributed in a triangular shape, so that the wind power generation mechanisms can contact the wind power at the upper end to the maximum extent, the utilization efficiency of the wind power is improved, and the wind power is converted into electric energy to be stored in a storage battery for use;

2. the solar frame comprises a movable supporting device, a first solar panel and a second solar panel, wherein the first solar panel and the second solar panel are arranged at different distribution positions, the first solar panel is arranged inside a frame in the movable supporting device, the first solar panels in the frames at two sides can move in a sliding groove along with rollers at two sides of the bottom of the frame, so that an included angle between the frame and a supporting rod is changed, the inclined angle of the first solar panel is changed, the first solar panel can rotate along with the sun, the solar absorption and utilization efficiency of the first solar panel on solar energy is improved, the bottom of the frame is connected through a first electric telescopic rod, and the included angle of the frame is controllable;

3. be provided with the third generator, the transfer line, spacing, bevel gear, first screw, rail guard and mounting bracket, the mounting bracket passes through the lead screw and connects the bottom at the bottom plate, set up the device in drainage pipe's top, place the mounting bracket in drainage pipe together with the part of its top, when the rainwater arrives, rivers in the drainage pipe can promote first screw and rotate, first screw is driving the third generator through bevel gear and transfer line and is generating electricity, thereby can improve the utilization to the rainwater, as long as drainage pipe can all utilize the improvement to its inside water that circulates simultaneously, the application range of the device has been enlarged.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of a second solar panel connection structure according to the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 2;

FIG. 5 is a schematic view of the connection structure of the mobile supporting device of the present invention;

fig. 6 is a schematic view of the enlarged structure at B in fig. 5 according to the present invention.

In the figure: 1. the support frame, 2, a cross beam frame, 3, a first generator, 4, a first fan blade, 5, a sliding groove, 6, a movable support device, 601, a frame, 602, a mounting groove, 603, a roller, 604, a first electric telescopic rod, 605, a rotating shaft, 606, a support rod, 7, a first solar panel, 8, a second generator, 9, a second fan blade, 10, a first hinge seat, 11, a second solar panel, 12, a second hinge seat, 13, a second electric telescopic rod, 14, a mounting seat, 15, a bottom plate, 16, a battery compartment, 17, a storage battery, 18, a motor compartment, 19, a third generator, 20, a transmission rod, 21, a limiting frame, 22, a bevel gear, 23, a first propeller, 24, a protective guard, 25, a mounting frame, 26, a screw rod, 27, a nut, 28, a motor, 29, a second propeller, 30, a fixing frame, 31 and a screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a new energy conversion device for a distributed new energy distribution network comprises a support frame 1, a cross beam frame 2, a first generator 3, a first fan blade 4, a sliding groove 5, a movable supporting device 6, a first solar panel 7, a second generator 8, a second fan blade 9, a first hinged support 10, a second solar panel 11, a second hinged support 12, a second electric telescopic rod 13, a mounting seat 14, a bottom plate 15, a battery bin 16, a storage battery 17, a motor bin 18, a third generator 19, a transmission rod 20, a limiting frame 21, a bevel gear 22, a first propeller 23, a protective guard 24, a mounting frame 25, a lead screw 26, a nut 27, a motor 28, a second propeller 29, a fixing frame 30 and a screw 31, wherein the top of the support frame 1 is provided with the cross beam frame 2, a group of sliding grooves 5 are symmetrically formed on the inner walls of two sides of the cross beam frame 2, and the movable supporting device 6 are in sliding connection through the sliding grooves 5, the sliding chute 5 is convenient for the roller 603 at the bottom of the movable supporting device 6 to roll relative to the cross beam frame 2, the bottom of the supporting frame 1 is provided with a bottom plate 15, the middle part of the bottom plate 15 is provided with a hole structure, the outer side above the hole at the middle part of the bottom plate 15 is covered with a motor cabin 18, the hole at the center of the bottom plate 15 provides a space for the mounting frame 25 to be adjusted in a rising way, the motor cabin 18 can shield the hole, wherein,

the wind power generation device is characterized in that a first generator 3 is installed at one end of the cross beam frame 2, the first generator 3 and first fan blades 4 form a first wind power generation mechanism, two groups of the first generator 3 and the first fan blades 4 are symmetrically arranged at two ends of the cross beam frame 2, the 2 groups of the first wind power generation mechanism can improve utilization of wind energy at the top of the device, the output end of the first generator 3 is connected with the first fan blades 4, sliding grooves 5 are formed in two sides of the cross beam frame 2, a movable supporting device 6 is connected to the inner side of each sliding groove 5, each movable supporting device 6 comprises a frame 601, a mounting groove 602, rollers 603, a first electric telescopic rod 604, a rotating shaft 605 and a supporting rod 606, the mounting groove 602 is formed in the inner wall of the frame 601, a first solar panel 7 is installed in the mounting groove 602, the rollers 603 are arranged on two sides of the bottom of the frame 601, and the rollers 603 are installed in the sliding grooves 5, the first electric telescopic rod 604 is connected between the bottom edges of the frames 601, the top of the frames 601 is connected with the support rod 606 through the rotating shaft 605, the frames 601 are symmetrical into two parts about the support rod 606, the frames 601 are rotatably connected with the support rod 606 through the rotating shaft 605, the bottom edges of the frames 601 form a horizontal movable structure through the first electric telescopic rod 604, meanwhile, a triangular structure is formed between the frames 601 and the cross beam frame 2, under the telescopic pushing of the first electric telescopic rod 604, the distance between the bottoms of the frames 601 changes, so that the included angle between the frames 601 changes, further, the inclination angle of the first solar panel 7 installed inside the frames 601 changes, the utilization rate of the first solar panel 7 on solar energy is improved, the conversion efficiency of energy is improved, the first solar panel 7 is installed inside the movable support device 6, a second generator 8 is mounted at the top of one end of a movable supporting device 6 adjacent to the first generator 3, the second generator 8 and the second fan blades 9 form a second wind power generation mechanism, the second fan blades 9 and the 2 first fan blades 4 are distributed in a triangular shape, the second wind power generation mechanism is arranged above the space between the first fan blades 4, wind power above the device can be effectively utilized, and the output end of the second generator 8 is connected with the second fan blades 9;

the four sides of the bottom surface of the cross beam frame 2 are provided with the first hinged support 10, the first hinged support 10 is connected with the upper end of the second solar panel 11, the four sides of the bottom surface of the cross beam frame 2 are provided with four groups of the second solar panel 11, the second solar panel 11 is rotatably connected with the cross beam frame 2 through the first hinged support 10, 4 groups of the second solar panel 11 are hinged at the bottom of the cross beam frame 2 to enlarge the area for receiving solar energy, the solar energy around the cross beam frame 2 can be utilized, meanwhile, the second solar panel 11 can conveniently adjust the inclination angle of the second solar panel 11 through the telescopic supporting action of the second electric telescopic rod 13, the receiving efficiency of the second solar panel 11 to the solar energy is improved, the inner side surface of the second solar panel 11 is provided with the second hinged support 12, the second hinged support 12 is hinged with the movable end of the second electric telescopic rod 13, the fixed end of the second electric telescopic rod 13 is installed on the surface of the bottom plate 15 through the installation seat 14, the bottom plate 15 is arranged inside the lower end of the support frame 1, a battery bin 16 is arranged on the upper surface of the bottom plate 15, a storage battery 17 is arranged inside the battery bin 16, and a motor bin 18 is arranged at the bottom of the battery bin 16;

the mounting rack 25 is connected below the bottom plate 15 through a screw rod 26, the cross section of the mounting rack 25 is of an I-shaped structure, the mounting rack 25 forms a lifting structure between the screw rod 26 and a nut 27 and the bottom plate 15, the area of the upper end of the mounting rack 25 is smaller than the area of a hole in the middle of the bottom plate 15, so that the mounting rack 25 can be adjusted in height through the screw rod 26 and the nut 27, the mounting rack 25 and parts above the mounting rack can be conveniently installed in a drainage pipeline, one end of the screw rod 26 is fixed through the nut 27, a third generator 19 is installed above the mounting rack 25, the third generator 19, the second solar panel 11, the second generator 8, the first solar panel 7, the first generator 3 and the storage battery 17 are electrically connected, the first solar panel 7 and the second solar panel 11 can convert and store solar energy into the storage battery 17, and the first generator 3 and the second generator 8 can store converted wind energy into the storage battery 17, the third generator 19 can store the kinetic energy conversion of water in the battery 17, the output of the third generator 19 is connected with the transmission rod 20, the transmission rod 20 runs through inside the limiting frame 21, the bottom end of the transmission rod 20 is in transmission connection with the first propeller 23 through the bevel gear 22, the outer side of the first propeller 23 is provided with the guard rail 24, the motor 28 is installed above the mounting frame 25 on one side of the third generator 19, the output end of the motor 28 is connected with the transmission rod 20, the bottom end of the transmission rod 20 is in transmission connection with the second propeller 29 through the bevel gear 22, the second propeller 29 is fixed through the fixing frame 30, and the bottom end of the support frame 1 is provided with screws.

The working principle is as follows: when the new energy conversion device for the distributed new energy distribution network is used, firstly, the device is installed above the bottom surface with a drainage pipeline and is fixed through a screw 31 at the bottom of a support frame 1, in the installation process, an installation frame 25 provided with a third generator 19, a motor 28 and connecting pieces of the third generator and the motor 28 is fixed through a screw rod 26 and a nut 27, the height of the installation frame 25 in the drainage pipeline is adjusted, so that a first propeller 23 and a second propeller 29 are positioned at the center of the drainage pipeline, the device can be used after the installation is finished, in the use process, a first fan blade 4 and a second fan blade 9 at the top of the device rotate under the action of wind power to drive a first generator 3 and a second generator 8 to generate electricity, the wind power is converted into electric energy to be stored in a storage battery 17 in a battery bin 16, and simultaneously, the first solar panel 7 and the second solar panel 11 convert the solar energy into the electric energy to be stored in the storage battery 17, when the angle of the first solar panel 7 needs to be adjusted, the first electric telescopic rod 604 pushes the rollers 603 on the two sides of the bottom edge of the frame 601 to move in the chute 5, so as to change the change of the included angle of the frame 601, when the angle of the second solar panel 11 needs to be adjusted, the second electric telescopic rod 13 stretches and retracts to push the second solar panel 11 to rotate relative to the first hinged support 10, so as to change the angle of the second solar panel 11, thereby improving the effective utilization of solar energy, in the utilization process of rainwater, the first propeller 23 is pushed to rotate by the flow of water in the drainage pipeline, the first propeller 23 drives the transmission rod 20 by the bevel gear 22, so that the transmission rod 20 drives the third generator 19 to work for power generation, the kinetic energy of the water flow is converted into electric energy to be stored in the storage battery 17, when the drainage pipeline is blocked, the motor 28 can be started to drive the second propeller 29 to rotate, the circulation of water in the drainage pipeline is accelerated, the utilization efficiency of the device for rainwater is improved, and the content which is not described in detail in the description belongs to the prior art which is known by a person skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a new forms of energy conversion equipment is used to distributing type new forms of energy distribution network, includes support frame (1), first free bearing (10) and mounting bracket (25), its characterized in that: the top of the supporting frame (1) is provided with a cross beam frame (2), the bottom of the supporting frame (1) is provided with a bottom plate (15), wherein,

a first generator (3) is installed at one end of the cross beam frame (2), the output end of the first generator (3) is connected with a first fan blade (4), sliding grooves (5) are formed in the two sides of the cross beam frame (2), a movable supporting device (6) is connected to the inner side of each sliding groove (5), a first solar panel (7) is installed in each movable supporting device (6), a second generator (8) is installed at the top of one end of each movable supporting device (6) adjacent to the first generator (3), and the output end of each second generator (8) is connected with a second fan blade (9);

the solar energy collecting device is characterized in that the first hinge seats (10) are arranged on four sides of the bottom surface of the cross beam frame (2), the first hinge seats (10) are connected with the upper end of the second solar panel (11), the inner side surface of the second solar panel (11) is provided with second hinge seats (12), the second hinge seats (12) are hinged with the movable end of the second electric telescopic rod (13), the fixed end of the second electric telescopic rod (13) is arranged on the surface of the bottom plate (15) through a mounting seat (14), the bottom plate (15) is arranged in the lower end of the supporting frame (1), the upper surface of the bottom plate (15) is provided with a battery bin (16), a storage battery (17) is arranged in the battery bin (16), and the bottom of the battery bin (16) is provided with a motor bin (18);

the mounting bracket (25) is connected below the bottom plate (15) through a screw rod (26), one end of the screw rod (26) is fixed through a nut (27), a third generator (19) is installed above the mounting bracket (25), the output end of the third generator (19) is connected with a transmission rod (20), the transmission rod (20) penetrates through the inside of a limiting frame (21), the bottom end of the transmission rod (20) is in transmission connection with a first propeller (23) through a bevel gear (22), a guard rail (24) is arranged on the outer side of the first propeller (23), a motor (28) is installed above the mounting bracket (25) on one side of the third generator (19), the output end of the motor (28) is connected with the transmission rod (20), and the bottom end of the transmission rod (20) is in transmission connection with a second propeller (29) through the bevel gear (22), the second propeller (29) is fixed through a fixing frame (30), and a screw (30) is arranged at the bottom end of the support frame (1);

the movable supporting device (6) comprises a frame (601), a mounting groove (602), rollers (603), a first electric telescopic rod (604), a rotating shaft (605) and a supporting rod (606), wherein the mounting groove (602) is formed in the inner wall of the frame (601), a first solar panel (7) is mounted in the mounting groove (602), the rollers (603) are arranged on two sides of the bottom of the frame (601), the rollers (603) are mounted in the sliding groove (5), the first electric telescopic rod (604) is connected between the bottom edges of the frame (601), the top of the frame (601) is connected with the supporting rod (606) through the rotating shaft (605), the frame (601) is called as two parts relative to the supporting rod (606), the frame (601) is rotatably connected with the supporting rod (606) through the rotating shaft (605), and the bottom edges of the frame (601) form a horizontal movable structure through the first electric telescopic rod (604), meanwhile, a triangular structure is formed between the frame (601) and the cross beam frame (2).

2. The new energy conversion device for the distributed new energy power distribution network according to claim 1, characterized in that: a group of sliding grooves (5) are symmetrically formed in the inner walls of the two sides of the cross beam frame (2), and the cross beam frame (2) is in sliding connection with the movable supporting device (6) through the sliding grooves (5).

3. The new energy conversion device for the distributed new energy power distribution network according to claim 1, characterized in that: the first generator (3) and the first fan blades (4) form a first wind power generation mechanism, and two groups of the first generator (3) and the first fan blades (4) are symmetrically arranged at two ends of the cross beam frame (2).

4. The new energy conversion device for the distributed new energy power distribution network according to claim 1, characterized in that: the second generator (8) and the second fan blades (9) form a second wind power generation mechanism, and the second fan blades (9) and the 2 first fan blades (4) are distributed in a triangular mode.

5. The new energy conversion device for the distributed new energy power distribution network according to claim 1, characterized in that: the four sides of the second solar panels (11) on the bottom surface of the cross beam frame (2) are provided with four groups, and the second solar panels (11) are rotatably connected with the cross beam frame (2) through the first hinged supports (10).

6. The new energy conversion device for the distributed new energy power distribution network according to claim 1, characterized in that: the middle part of the bottom plate (15) is of an open pore structure, and a motor cabin (18) is covered on the outer side of the upper part of the open pore in the middle part of the bottom plate (15).

7. The new energy conversion device for the distributed new energy power distribution network according to claim 1, characterized in that: and the third generator (19), the second solar panel (11), the second generator (8), the first solar panel (7), the first generator (3) and the storage battery (17) are electrically connected.

8. The new energy conversion device for the distributed new energy power distribution network according to claim 1, characterized in that: the cross section of the mounting rack (25) is of an I-shaped structure, the mounting rack (25) forms a lifting structure with the bottom plate (15) through the screw rod (26) and the nut (27), and the area of the upper end of the mounting rack (25) is smaller than the area of the middle opening of the bottom plate (15).