CN210152830U - Energy storage sail generator - Google Patents

Abstract

The utility model belongs to the technical field of wind power generation, concretely relates to energy storage sail generator, including the first branch of several and generator, an inertia piece is connected to the upper end of a first branch, the lower extreme of a first branch is through the articulated sail of a first articulated elements, a first branch is through a reset spring connection generator shaft end portion, first carousel is established to generator shaft upper portion fixed cover, the axial plane outer border of first carousel is articulated through a second articulated elements and a first branch, it is perpendicular with the axial plane of first carousel to form the cambered surface that first branch formed around the second articulated elements rotation orbit, generator frame below fixed stay, the sail is located the strutting arrangement both sides, the opening of several sail sets up towards same direction along its pivoted axial plane, the utility model discloses can make full use of wind energy, portable.

Description

Energy storage sail generator

Technical Field

The utility model belongs to the technical field of wind power generation, concretely relates to energy storage sail generator.

Background

With the continuous development of industrial economy, the development and utilization of renewable energy sources become a trend of current research, wind power is one of main research objects of renewable energy sources, wind power generation originates in the 70 th 20 th century, the technology matures in the 80 th, and the 90 th year enters a rapid development stage.

Disclosure of Invention

An object of the utility model is to provide a can make full use of wind energy, portable's energy storage sail generator.

Based on the above-mentioned purpose, the utility model discloses take following technical scheme:

the utility model provides an energy storage sail generator, including the first branch of several and generator, an inertia piece is connected to the upper end of a first branch, the lower extreme of a first branch is through the articulated sail of a first articulated elements, a first branch passes through a reset spring and connects generator shaft end, first carousel is established to the fixed cover in generator shaft upper portion, the axial plane outer fringe of first carousel is articulated with a first branch through a second articulated elements, it is perpendicular with the axial plane of first carousel to form the cambered surface that first branch formed around the second articulated elements rotation orbit, generator frame below fixed support device, the sail is located the strutting arrangement both sides, the opening of several sail sets up towards same direction along its pivoted axial plane.

Furthermore, strutting arrangement include upper base and lower base, upper base passes through the pole setting with lower base and is connected.

Furthermore, the upright stanchion is sleeved with a second turntable in a sliding manner, the outer edge of the axial surface of the second turntable is connected with a second supporting rod through a third hinge joint piece, the upper end of the second supporting rod is hinged with a sail through a first hinge joint piece, the lower end of the second supporting rod is hinged with the outer edge of the axial surface of the second turntable through a third hinge joint piece, and a cambered surface formed by the rotation track of the second supporting rod around the third hinge joint piece is formed to be vertical to the axial surface of the second turntable.

Further, first branch include the montant, the down tube is connected to the lower extreme of montant, the length direction of montant and the length direction of down tube are the obtuse angle in the coplanar, the length direction of montant and the length direction of montant are parallel in the coplanar, montant and down tube hookup location department are connected to reset spring's one end, the other end connection generator pivot tip of reset spring.

Furthermore, the sail is in the shape of a strip plate, and the cross section of the strip plate is in an arc shape.

Furthermore, the inertia block is a metal block, and the outer wall of the metal block is coated with a corrosion-resistant coating.

Further, the first hinge is a bearing.

Furthermore, the second articulated elements include first fixed block and head rod, first carousel is connected to first fixed block, is equipped with the first recess that supplies the first branch to place in the first fixed block, the head rod runs through two lateral walls of first branch and first recess, forms first branch in first recess and first branch around head rod axial plane pivoted structure, the both ends of head rod are fixed through first nut, first nut is located the outside of first recess.

Further, the third hinge joint piece include second fixed block and second connecting rod, the second carousel is connected to the second fixed block, be equipped with the second recess that supplies second branch tip to place in the second fixed block, the second connecting rod runs through two lateral walls of second branch tip and second recess, form second branch tip in the second recess and second branch around second connecting rod axial plane pivoted structure, the both ends of second connecting rod are passed through the second nut and are fixed, the second nut is located the outside of second recess.

The utility model discloses simple structure can store the wind energy when using, with wind energy make full use of and change the electric energy into, the utilization of increase resource, inertia is fast when wind energy diminishes, because inertia can drive the sail motion, when not using, can fold whole device through dismantling third hinge joint spare, packs up, accomodates the convenience, portable.

Drawings

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

FIG. 2 is a schematic structural view of a first strut;

FIG. 3 is a view of the second hinge member in relation to the first turntable;

FIG. 4 is a diagram illustrating the positional relationship between the third hinge and the second turntable;

FIG. 5 is a schematic view of a sail configuration;

FIG. 6 is a schematic view of a second hinge assembly;

fig. 7 is a structural diagram of the third hinge.

Detailed Description

As shown in fig. 1-7, an energy storage sail generator includes two first supporting rods 1 and a generator 2, an inertia block 3 is connected to an upper end of one first supporting rod 1, a sail 5 is hinged to a lower end of one first supporting rod 1 through a first hinge 4, one first supporting rod 1 is connected to an end of a generator rotating shaft 201 through a return spring 6, a first rotating disc 7 is fixedly sleeved on an upper portion of the generator rotating shaft 201, an outer edge of an axial surface of the first rotating disc 7 is hinged to one first supporting rod 1 through a second hinge 8, an arc surface formed by the rotating track of the first supporting rod 1 around the second hinge 8 is perpendicular to the axial surface of the first rotating disc 7, and a supporting device 9 is fixed below a base of the generator 2. The supporting device 9 comprises an upper base 901 and a lower base 902, wherein the upper base 901 and the lower base 902 are connected through a vertical rod 903. Pole setting 903 on sliding sleeve establish second carousel 10, form second carousel 10 and can follow pole setting 903 and reciprocate and free rotation's structure, a second branch 12 is connected through a third hinge joint piece 11 to the axial plane outer fringe of second carousel 10, the upper end of a second branch 12 is articulated with a sail 5 through a first hinge joint piece 4, the lower extreme of a second branch 12 is articulated through the axial plane outer fringe of a third hinge joint piece 11 with second carousel 10, it is perpendicular with the axial plane of second carousel 10 to form the cambered surface that second branch 12 formed around the rotation orbit of third hinge joint piece 11. First branch 1 include montant 101, down tube 102 is connected to the lower extreme of montant 101, the length direction of montant 101 and the length direction of down tube 102 are the obtuse angle in the coplanar, the length direction of montant 101 and the length direction of pole setting 903 are parallel in the coplanar, montant 101 and down tube 102 hookup location department are connected to the one end of reset spring 6, the other end of reset spring 6 connects generator shaft 201 tip. The sail 5 is in the shape of a strip plate, and the cross section of the strip plate is in an arc shape. The two sails 5 are positioned on two sides of the supporting device 9, openings of the two sails 5 face in the anticlockwise direction along the rotating axial surface of the two sails, the inertia block 3 is a metal block, and the outer wall of the metal block is coated with a corrosion-resistant coating. The first hinge member 4 is a bearing. The second hinge member 8 includes a first fixing block 801 and a first connecting rod 803, the first fixing block 801 is connected with the first rotating disk 7, a first groove 802 for placing the first supporting rod 1 is arranged in the first fixing block 801, the first connecting rod 803 penetrates through the first supporting rod 1 and two side walls of the first groove 802, a structure that the first supporting rod 1 is arranged in the first groove 802 and the first supporting rod 1 rotates around the axial surface of the first connecting rod 803 is formed, two ends of the first connecting rod 803 are fixed by a first nut 804, and the first nut 804 is located outside the first groove 802. The third hinge 11 includes a second fixing block 1101 and a second connecting rod 1103, the second fixing block 1101 is connected to the second rotary plate 10, a second groove 1102 is provided in the second fixing block 1101, and the end of the second supporting rod 12 is placed in the second groove 1102, the second connecting rod 1103 penetrates through the end of the second supporting rod 12 and two side walls of the second groove 1102, a structure that the end of the second supporting rod 12 is located in the second groove 1102 and the second supporting rod 12 rotates around the axial surface of the second connecting rod 1103 is formed, two ends of the second connecting rod 1103 are fixed by a second nut 1104 through threads, and the second nut 1104 is located outside the second groove 1102.

When the wind power generation device is used, the wind blows the sail 5, the sail 5 starts to rotate, when the wind power is weakened, due to the inertia effect of the inertia block 3, the sail 5 still rotates, the rotation of the sail 5 can drive the rotating shaft of the generator 2 to rotate, and therefore power generation is achieved, after the wind power generation device is used, the second support rod 12 can be folded only by detaching the second nut 1104 of the third hinge part 11, and the whole device is convenient to carry.

Claims (9)

1. The utility model provides an energy storage sail generator, a serial communication port, including the first branch of several and generator, an inertia piece is connected to the upper end of a first branch, the lower extreme of a first branch articulates a sail through a first articulated elements, a first branch passes through a reset spring and connects generator shaft end, first carousel is established to fixed the cover in generator shaft upper portion, the axial plane outside edge of first carousel is articulated through a second articulated elements and a first branch, it is perpendicular with the axial plane of first carousel to form the cambered surface that first branch formed around second articulated elements rotation orbit, generator frame below fixed support device, the sail is located the strutting device both sides, the opening of several sail sets up towards same direction along its pivoted axial plane.

2. The energy storage sail generator as claimed in claim 1, wherein the support means includes an upper base and a lower base, the upper base and the lower base being connected by a vertical rod.

3. The energy storage sail generator of claim 2, wherein the upright stanchion is slidably sleeved with a second turntable, an outer edge of an axial surface of the second turntable is connected to a second support rod through a third hinge, an upper end of a second support rod is hinged to a sail through a first hinge, a lower end of a second support rod is hinged to an outer edge of the axial surface of the second turntable through a third hinge, and an arc surface formed by the second support rod around a rotation track of the third hinge is perpendicular to the axial surface of the second turntable.

4. The energy storage sail generator as claimed in claim 1, wherein the first support rod comprises a vertical rod, the lower end of the vertical rod is connected with a diagonal rod, the length direction of the vertical rod and the length direction of the diagonal rod form an obtuse angle in the same plane, the length direction of the vertical rod and the length direction of the vertical rod are parallel in the same plane, one end of a return spring is connected with the connecting position of the vertical rod and the diagonal rod, and the other end of the return spring is connected with the end of a rotating shaft of the generator.

5. An energy storage sail generator as claimed in claim 1, wherein the sail is in the form of a strip plate having an arcuate cross-section.

6. The energy storage sail generator as claimed in claim 1, wherein the inertial mass is a metal mass, and the outer wall of the metal mass is coated with a corrosion-resistant coating.

7. An energy storage sail generator as claimed in claim 1, wherein the first hinge member is a bearing.

8. The energy storage sail generator as claimed in claim 1, wherein the second hinge assembly includes a first fixed block and a first connecting rod, the first fixed block is connected to the first rotating disc, a first groove is formed in the first fixed block for the first connecting rod to be placed therein, the first connecting rod penetrates through the first supporting rod and two sidewalls of the first groove to form a structure in which the first supporting rod is placed in the first groove and the first supporting rod rotates around an axial surface of the first connecting rod, two ends of the first connecting rod are fixed by a first nut, and the first nut is located outside the first groove.

9. The energy storage sail generator as claimed in claim 3, wherein the third hinge comprises a second fixing block and a second connecting rod, the second fixing block is connected to the second rotary plate, a second groove is formed in the second fixing block, the second groove is used for placing the end of the second support rod, the second connecting rod penetrates through the end of the second support rod and two side walls of the second groove, a structure is formed that the end of the second support rod is located in the second groove, the second support rod rotates around the axial surface of the second connecting rod, two ends of the second connecting rod are fixed by second nuts, and the second nuts are located outside the second groove.

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