阅读说明：本技术 一种应用于新能源领域的风力发电设备动能传输机构 (Kinetic energy transmission mechanism applied to wind power generation equipment in new energy field ) 是由 陈红丹 于 2020-06-08 设计创作，主要内容包括：本发明涉及新能源技术领域,且公开了一种应用于新能源领域的风力发电设备动能传输机构,包括本体,所述本体内侧右端活动连接有第一安装座,第一安装座正面左侧活动连接有第二安装座,圆盘正面左端活动连接有第三作用杆,圆盘中心处活动连接有核心轴,本体内部左侧活动连接有桥杆,第二旋转杆背面活动连接有滑动杆。该应用于新能源领域的风力发电设备动能传输机构,通过风吹动风车转动,通过转动杆带动第一作用杆运行,再通过第二作用杆与第三作用杆带动圆盘运行,再通过三个齿轮部件与第一齿轮与第二齿轮和第三齿轮的配合使用,使结构具有了将各方向的风驱动力分解至平衡的功能,从而解决了电流不稳定的问题。(The invention relates to the technical field of new energy, and discloses a kinetic energy transmission mechanism of wind power generation equipment, which is applied to the field of new energy. This be applied to wind power generation equipment kinetic energy transmission device in new forms of energy field blows the windmill and rotates through wind, drives first action bars operation through the dwang, and rethread second action bars and third action bars drive the disc operation, and rethread three gear part and first gear use with the cooperation of second gear and third gear, make the structure have with the wind drive power of all directions decompose to balanced function to the unstable problem of electric current has been solved.)

1. The utility model provides a be applied to wind power generation equipment kinetic energy transmission device in new forms of energy field, includes body (1), its characterized in that: the device is characterized in that a first installation seat (2) is movably connected to the right end of the inner side of a body (1), a second installation seat (3) is movably connected to the left side of the front face of the first installation seat (2), a third installation seat (4) is movably connected to the left side of the inner side of the body (1), a central part (5) is movably connected to the middle of the inner side of the body (1), a first gear (6) is movably connected to the top end of the first installation seat (2), a second gear (7) is movably connected to the top end of the second installation seat (3), a third gear (8) is movably connected to the upper portion of the top end of the third installation seat (4), a gear part (9) is movably connected to the top end of the upper portion of the central part (5), a rotating rod (10) is movably connected to the upper portion of the gear part (9), a first action, disc (11) back right-hand member swing joint has second action bars (111), disc (11) openly left end swing joint has third action bars (112), disc (11) center department swing joint has nuclear core shaft (12), nuclear core shaft (12) upper surface swing joint has windmill (13), nuclear core shaft (12) left side swing joint has connecting rod (14), the inside left side swing joint of body (1) has bridge beam (15), bridge beam (15) openly outside swing joint has pole subassembly (16), pole subassembly (16) bottom swing joint has first rotary rod (17), first rotary rod (17) left side top swing joint has second rotary rod (18), connecting rod (14) left end top swing joint has round bar (19), the inside back swing joint of body (1) has track (20), second rotary rod (18) back swing joint has slide bar (21).

2. The kinetic energy transmission mechanism applied to the new energy field of wind power generation equipment according to claim 1, characterized in that: the gear parts (9) are located above the front face of the central part (5), the number of the gear parts (9) is three, the gear parts are respectively in rotary connection with the first gear (6), the second gear (7) and the third gear (8), and the gear parts (9) are located below the rotating rod (10).

3. The kinetic energy transmission mechanism applied to the new energy field of wind power generation equipment according to claim 1, characterized in that: the disc (11) center department sets up the recess with nuclear core axle (12) looks adaptation, and disc (11) and nuclear core axle (12) are concentric circles, and disc (11) are circular form, are a white stainless steel.

4. The kinetic energy transmission mechanism applied to the new energy field of wind power generation equipment according to claim 1, characterized in that: the windmill (13) is positioned above the top end of the body (1), the windmill (13) is provided with three fans, the fans are centrosymmetric about the core shaft (12), and the windmill (13) is positioned above the disc (11).

5. The kinetic energy transmission mechanism applied to the new energy field of wind power generation equipment according to claim 1, characterized in that: the track (20) is fan-shaped, and its inside swing joint has evenly distributed's tooth, and track (20) are located the front below of slide bar (21), and track (20) are located the back of second rotary rod (18), and the spout with slide bar (21) looks adaptation is seted up to track (20) top.

6. The kinetic energy transmission mechanism applied to the new energy field of wind power generation equipment according to claim 1, characterized in that: the round bar (19) is movably connected with a core shaft (12) through a connecting rod (14), a layer of fine and thin hairbrush is arranged at the top end of the round bar (19), the round bar (19) is located on the front face of the second rotating rod (18), and the round bar (19) is located on the front face of the first rotating rod (17).

Technical Field

The invention relates to the technical field of new energy, in particular to a kinetic energy transmission mechanism of wind power generation equipment, which is applied to the technical field of new energy.

Background

Wind is a new energy with great potential and one of the commonly used renewable energy sources at present, and wind power generation equipment has the advantages of being most clean, good in environmental protection benefit, flexible in installation scale and inexhaustible, and mainly utilizes the advantages that wind energy is converted into mechanical kinetic energy to drive the interior to rotate, then the mechanical energy is converted into electric energy required by life of people, and the transmission mode of electromagnetic reaction is utilized to generate electricity.

However, in real life, the wind direction is suddenly unstable in nature, and the current of the wind driven generator cannot be adjusted according to the change of the wind direction, so that the current is unstable and difficult to control, and moreover, in snowy days, rain and snow are superposed on wind driven generating equipment and cannot be maintained, so that the service life is influenced.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a kinetic energy transmission mechanism of wind power generation equipment, which is applied to the field of new energy, has the advantages of current stability and blade maintenance, and solves the problem that the voltage is difficult to control.

(II) technical scheme

In order to achieve the purposes of stabilizing the current and maintaining the fan blades, the invention provides the following technical scheme: a kinetic energy transmission mechanism of wind power generation equipment applied to the field of new energy comprises a body, wherein the right end of the inner side of the body is movably connected with a first installation seat, the front left side of the first installation seat is movably connected with a second installation seat, the left side of the inner part of the body is movably connected with a third installation seat, the middle of the inner part of the body is movably connected with a central part, the top end of the first installation seat is movably connected with a first gear, the top end of the second installation seat is movably connected with a second gear, the top end of the third installation seat is movably connected with a gear part, the top end of the central part is movably connected with a rotating rod, the front upper part of the rotating rod is movably connected with a first action rod, the right end of the first action rod is movably connected with a disc, the right end of the back of the disc is, core shaft upper surface swing joint has the windmill, core shaft left side swing joint has the connecting rod, the inside left side swing joint of body has the bridge rod, the positive outside swing joint of bridge rod has the pole subassembly, pole subassembly bottom swing joint has first rotary rod, first rotary rod left side top swing joint has the second rotary rod, connecting rod left end top swing joint has the round bar, the inside back swing joint of body has the track, second rotary rod back swing joint has the slide bar.

Preferably, the gear parts are located above the front face of the central part, the number of the gear parts is three, the three gear parts are respectively in rotational connection with the first gear, the second gear and the third gear, and the gear parts are located below the rotating rod.

Preferably, the disc center department sets up the recess with core shaft looks adaptation, and the disc is the concentric circles with core shaft, and the disc is circular form, is a white stainless steel, and this kind of structure has stability and security.

Preferably, the windmill is located above the top end of the body, the windmill has three fans, the fans are centrosymmetric about the core shaft, and the windmill is located above the disc, and the structure has aesthetic and effective properties.

Preferably, the track is fan-shaped, and its inside swing joint has evenly distributed's tooth, and the track is located the front below of slide bar, and the track is located the back of second rotary rod, and the slide with slide bar looks adaptation has been seted up to the track top, and this kind of structure has had security and cyclicity.

Preferably, the round bar has core shaft through connecting rod swing joint, and the round bar top is provided with the thin and thin brush of one deck, and the round bar is located the front of second rotary rod, and the round bar is located the front of first rotary rod, and this kind of structure has linkage and stability.

(III) advantageous effects

Compared with the prior art, the invention provides a kinetic energy transmission mechanism of wind power generation equipment applied to the field of new energy, which has the following beneficial effects:

1. according to the kinetic energy transmission mechanism of the wind power generation equipment applied to the field of new energy, the windmill is blown by wind to rotate, the first action rod is driven to operate through the rotating rod, the disc is driven to operate through the second action rod and the third action rod, and the structure has the function of decomposing wind driving force in all directions to balance through the matching use of the three gear parts, the first gear, the second gear and the third gear, so that the problem of unstable current is solved, and the effect that the circuit is not burnt out by load during balanced current operation is achieved;

2. this be applied to wind power generation equipment kinetic energy transmission device in new forms of energy field drives the operation of nuclear core axle through the windmill is rotatory, drives the connecting rod operation through nuclear core axle, and the rethread bridge pole is around the operation of nuclear core axle, and rethread first rotary rod and second rotary rod use with the cooperation of slide bar and round bar, make equipment round bar have the function of horizontal hunting to the problem of maintenance flabellum has been solved.

Drawings

FIG. 1 is a schematic view of the appearance structure of the main body of the present invention;

FIG. 2 is a front view of the rotating rod of the present invention;

FIG. 3 is a schematic top view of the windmill of the present invention;

FIG. 4 is a schematic view showing the inside structure of the bridge rod according to the present invention;

FIG. 5 is a schematic top view of the central component of the present invention;

fig. 6 is an enlarged schematic view of a rotating rod structure at a position a in fig. 2.

In the figure: 1. a body; 2. a first mounting seat; 3. a second mounting seat; 4. a third mounting seat; 5. a central member; 6. a first gear; 7. a second gear; 8. a third gear; 9. a gear component; 10. rotating the rod; 110. a first action lever; 111. a second action lever; 112. a third actuating lever; 11. a disc; 12. a core mandrel; 13. a windmill; 14. a connecting rod; 15. a bridge rod; 16. a lever assembly; 17. a first rotating rod; 18. a second rotating rod; 19. a round bar; 20. a track; 21. a slide bar.

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, a kinetic energy transmission mechanism of a wind power generation device applied to the field of new energy comprises a body 1, a first mounting seat 2 is movably connected to the right end of the inner side of the body 1, a second mounting seat 3 is movably connected to the left side of the front surface of the first mounting seat 2, a third mounting seat 4 is movably connected to the left side of the inner side of the body 1, a central part 5 is movably connected to the middle of the inner side of the body 1, a first gear 6 is movably connected to the top end of the first mounting seat 2, a second gear 7 is movably connected to the top end of the second mounting seat 3, a third gear 8 is movably connected to the top end of the third mounting seat 4, a gear part 9 is movably connected to the top end of the upper portion of the central part 5, the gear part 9 is located above the front surface of the central part 5, the gear parts 9 are three in total and are respectively, the structure ensures the stability and balance of the equipment;

a rotating rod 10 is movably connected above the gear part 9, a first action rod 110 is movably connected above the front surface of the rotating rod 10, a disc 11 is movably connected above the right end of the first action rod 110, a groove matched with the core shaft 12 is formed in the center of the disc 11, the disc 11 and the core shaft 12 are concentric circles, the disc 11 is circular and is made of white stainless steel, and the structure has stability and safety; the right end of the back of the disc 11 is movably connected with a second action rod 111, the left end of the front of the disc 11 is movably connected with a third action rod 112, the center of the disc 11 is movably connected with a core shaft 12, the upper surface of the core shaft 12 is movably connected with a windmill 13, the windmill 13 is positioned above the top end of the body 1, the windmill 13 is provided with three fans, the fans are symmetrical about the center of the core shaft 12, and the windmill 13 is positioned above the disc 11, so that the structure has the advantages of attractiveness and effectiveness;

the left side of the core shaft 12 is movably connected with a connecting rod 14, the left side of the interior of the body 1 is movably connected with a bridge rod 15, the outer side of the front face of the bridge rod 15 is movably connected with a rod assembly 16, the bottom end of the rod assembly 16 is movably connected with a first rotating rod 17, the upper portion of the left side of the first rotating rod 17 is movably connected with a second rotating rod 18, the upper portion of the left end of the connecting rod 14 is movably connected with a round rod 19, the round rod 19 is movably connected with the core shaft 12 through the connecting rod 14, the top end of the round rod 19 is provided with a layer of fine hairbrush, the round rod 19 is positioned on the front face of the second rotating; the back surface inside the body 1 is movably connected with a track 20, the track 20 is fan-shaped, teeth which are uniformly distributed are movably connected inside the track 20, the track 20 is positioned below the front surface of the sliding rod 21, the track 20 is positioned on the back surface of the second rotating rod 18, and a slide way which is matched with the sliding rod 21 is arranged above the track 20; the back of the second rotating rod 18 is movably connected with a sliding rod 21.

When in use, when wind blows from the left side, the windmill 13 rotates under the blowing force of the wind, the rotating rod 10 is blown by the wind, the gear component 9 on the axis of the rotating rod 10 rotates to the left, the rotating rod 10 has a leftward sliding force, the button rotating component is arranged at the joint above the rotating rod 10, the windmill 13 rotates to generate a downward centrifugal force, the left side of the disk 11 has a downward force to form a condition that the side is higher and the side is lower, the disk 11 presses the first action rod 110, the first action rod 110 is movably connected with the disk 11, the right end of the first action rod 110 is downward along with the downward driving force of the left end, at this time, the second action rod 111 is downward along with the action of the force, the corresponding gear component 9 is also slid to the left side, similarly, the rotating component also acts with the third action rod 112, and the three groups of gear components 9 movably connected below sequentially correspond to the first action rod 110, the second action rod 111 and the third action rod 112, under the action of the gear component 9 at the lower end, the synchronous operation is performed, after the third acting rod 112 is rotated, under the action of the button rotating component, the centrifugal force generated by pressing the initial disc 11 is generated to be offset, and the third acting rod is in a flat state, under the action of each gear, the operation and transmission are uniformly balanced, so that the stability of the current is ensured, when the weather is snowy or rains, the core shaft 12 is movably connected with the circular rod 19 through the connecting rod 14, when the windmill 13 rotates, the connecting rod 14 is also influenced by the driving to rotate, so that the connecting rod 14 rotates clockwise around the core shaft 12, the bridge rod 15 has two parts, the rightmost end of the bridge rod 15 is movably connected with the other part rotating around the core shaft 12, the other part of the bridge rod 15 generates a downward rotating force along with the clockwise rotation of the connecting rod 14 to form a circular motion, the bridge rod 15 moves rightwards under the influence of the circular motion, when the bridge rod 15 moves rightwards, when the second rotating rod 18 is supplied with a downward driving force, the round rod 19 is applied to the right side to clean the windmill 13, and the first rotating rod 17 and the second rotating rod 18 interact with each other, so that when the second rotating rod 18 moves downward, the first rotating rod 17 has an upward driving force and sequentially circulates, and simultaneously the sliding rod 21 slides on the rail 20 under the action of the upward driving force and the wind force to perform a circulating acceleration function, and the bridge rod 15 also swings left and right along with the left and right sequential rotation of the first rotating rod 17 and the second rotating rod 18 to act on the windmill 13.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.