CN216306127U - Wind power generation multistage utilization device - Google Patents

Abstract

The utility model relates to a wind power generation device, in particular to a wind power generation multistage utilization device which comprises a wind power collecting mechanism, a switching machine body mechanism and a rotation driving mechanism.

Description

Wind power generation multistage utilization device

Technical Field

The utility model relates to a wind power generation device, in particular to a wind power generation multistage utilization device.

Background

In the field of wind power generation, the direction of a traditional wind power collecting device is fixed in the collecting process and cannot be adjusted according to the direction of wind power, so that a wind power generation multistage utilization device is designed.

Disclosure of Invention

The utility model provides a wind power generation multistage utilization device which has the advantages that the device can know which direction is high in wind speed, the device can generate power, the device can adjust the collection direction, and the device can save electric energy.

In order to solve the technical problems, the utility model relates to a wind power generation device, in particular to a wind power generation multistage utilization device which comprises a wind power collection mechanism, a switching machine body mechanism and a rotation driving mechanism.

The wind power collecting mechanism comprises a collecting machine body, an impeller shaft, a bearing seat, a rotating shaft, a driven disk, a limiting hole, a magnet, a supporting seat, a power collecting box, a coil, an air box, a test impeller shaft and a rotating speed sensor, wherein the collecting machine body is connected with the rotating shaft;

the switching machine body mechanism comprises a support frame, a limiting head, a support spring, an unthreaded hole, a sliding rod, a plug, a wedge block seat, a seat with an inclined surface, a hydraulic rod, a hydraulic cylinder, a bearing seat and a bearing seat A, wherein the support frame is connected with the bearing seat A;

the rotation driving mechanism comprises a base, a socket support, a socket, a switching motor, a coupler, a rotating shaft A, a driving disc, a limiting matching hole and a driving convex head, wherein the base is connected with a support frame, the base is connected with the socket support, the socket support is connected with the socket, the base is connected with the switching motor, the switching motor is connected with the rotating shaft A through the coupler, the rotating shaft A is connected with a bearing seat A through a bearing, the rotating shaft A is connected with the driving disc, the driving disc is provided with the limiting matching hole, the limiting matching hole is in sliding connection with the limiting head, the driving disc is connected with the driving convex head, and the driving convex head is in sliding connection with the limiting hole;

the wind power collecting mechanism is connected with the switching machine body mechanism, the switching machine body mechanism is connected with the rotation driving mechanism, and the rotation driving mechanism is connected with the wind power collecting mechanism.

As a further optimization of the technical scheme, the two plugs of the wind power generation multistage utilization device are connected to two poles of the switching motor, and one pole of the switching motor is normally closed.

The wind power generation multistage utilization device has the beneficial effects that:

according to the wind power generation multistage utilization device, the device can know which direction is high in wind speed, the device can generate power, the device can adjust the collection direction, and the device can save electric energy.

Drawings

The utility model is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic overall structure diagram of a wind power generation multistage utilization device of the present invention.

Fig. 2 is a schematic structural view of a wind collecting mechanism 1 of a wind power generation multistage utilization device of the present invention.

Fig. 3 is a first schematic structural diagram of a switching body mechanism 2 of a wind power generation multistage utilization device of the present invention.

Fig. 4 is a second schematic structural view of the switching body mechanism 2 of the wind power generation multistage utilization device of the present invention.

Fig. 5 is a schematic structural view of a rotation driving mechanism 3 of a wind power generation multistage utilization device of the present invention.

In the figure: a wind power collecting mechanism 1; a collecting body 1-1; an impeller 1-2; 1-3 parts of an impeller shaft; 1-4 of a bearing seat; 1-5 of a rotating shaft; 1-6 of driven disc; 1-7 of a limiting hole; 1-8 parts of magnets; 1-9 parts of a supporting seat; 1-10 parts of an electric power collection box; coils 1-11; 1-12 of a wind box; 1-13 parts of a test impeller; testing impeller shafts 1-14; 1-15 of a rotation speed sensor; a switching body mechanism 2; a support frame 2-1; 2-2 of a limiting head; 2-3 of a supporting spring; 2-4 of a light hole; 2-5 of a slide bar; 2-6 parts of a plug; 2-7 of a wedge block seat; 2-8 of a seat with an inclined plane; 2-9 of a hydraulic rod; 2-10 parts of a hydraulic cylinder; 2-11 of a bearing seat; bearing seat A2-12; a rotation drive mechanism 3; a base 3-1; a socket support 3-2; 3-3 of a socket; switching motors 3-4; 3-5 of a coupler; a rotating shaft A3-6; a drive disc 3-7; 3-8 of limiting matching holes; the convex heads 3-9 are driven.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, and 5, and the present invention relates to a wind power generation apparatus, and more specifically, to a wind power generation multistage utilization apparatus, which includes a wind power collection mechanism 1, a switching body mechanism 2, and a rotation drive mechanism 3, and can know which direction the wind speed is high, and the apparatus can generate power, and can adjust the collection direction, and can save electric energy.

The wind power collecting mechanism 1 comprises a collecting machine body 1-1, an impeller 1-2, an impeller shaft 1-3, a bearing seat 1-4, a rotating shaft 1-5, a driven disk 1-6, a limiting hole 1-7, a magnet 1-8, a supporting seat 1-9, a power collecting box 1-10, a coil 1-11, an air box 1-12, a test impeller 1-13, a test impeller shaft 1-14 and a rotating speed sensor 1-15, wherein the collecting machine body 1-1 is connected with the rotating shaft 1-5, the impeller 1-2 is connected with the impeller shaft 1-3, the impeller shaft 1-3 is connected with the bearing seat 1-4 in a bearing connection mode, the bearing seat 1-4 is connected with the collecting machine body 1-1, the rotating shaft 1-5 is connected with the driven disk 1-6, the driven disk 1-6 is provided with the limiting hole 1-7, the magnet 1-8 is connected with the supporting seat 1-9, the supporting seat 1-9 is connected with the collecting machine body 1-1, the electric power collecting box 1-10 is connected with the collecting machine body 1-1, the collecting machine body 1-1 is connected with the air box 1-12, the testing impeller 1-13 is connected with the testing impeller shaft 1-14, the testing impeller shaft 1-14 is connected with the air box 1-12 in a bearing mode, the rotating speed sensor 1-15 is connected with the air box 1-12, under the condition of wind, the wind can drive the testing impeller 1-13 to rotate, the rotating speed of the testing impeller 1-13 can be obtained through the rotating speed sensor 1-15, so that the wind speed in which direction is larger can be known, the collecting direction of the impeller 1-2 can be adjusted, and the wind can drive the impeller 1-2 to rotate, the impeller 1-2 can drive the impeller shaft 1-3 to rotate, the impeller shaft 1-3 can drive the coil 1-11 to rotate, and the coil 1-11 can cut a magnetic induction line formed by the magnet 1-8 by rotating, so that electric energy is formed and stored in the electric power collection box 1-10;

the switching machine body mechanism 2 comprises a support frame 2-1, a limiting head 2-2, a support spring 2-3, an unthreaded hole 2-4, a sliding rod 2-5, a plug 2-6, a wedge block seat 2-7, a seat with an inclined plane 2-8, a hydraulic rod 2-9, a hydraulic cylinder 2-10, a bearing seat 2-11 and a bearing seat A2-12, wherein the support frame 2-1 is connected with the bearing seat A2-12, the limiting head 2-2 is connected with the sliding rod 2-5, the sliding rod 2-5 is connected with the unthreaded hole 2-4 in a sliding manner, the support spring 2-3 is sleeved on the sliding rod 2-5, the support spring 2-3 is abutted against the limiting head 2-2 and the support frame 2-1, the sliding rod 2-5 is connected with the plug 2-6, the sliding rod 2-5 is connected with the wedge block seat 2-7, the wedge block seat 2-7 is contacted with the seat 2-8 with the inclined plane, the seat 2-8 with the inclined plane is connected with the hydraulic rod 2-9, the hydraulic rod 2-9 is connected with the hydraulic cylinder 2-10, the hydraulic cylinder 2-10 is connected with the support frame 2-1, the support frame 2-1 is provided with the bearing seat 2-11, when the direction of the impeller 1-2 is required to be adjusted according to the wind direction, hydraulic oil can be injected into the hydraulic cylinder 2-10, the hydraulic rod 2-9 drives the seat 2-8 with the inclined plane to move downwards under the driving of the hydraulic oil pressure, the seat 2-8 with the inclined plane can drive the wedge block seat 2-7 to move towards two sides, the wedge block seat 2-7 can drive the slide rod 2-5 to move, the slide rod 2-5 can drive the limiting head 2-2 to be separated from the limiting matching hole 3-8, the plugs 2-6 at two sides are inserted into the sockets 3-3 at two sides, and at the moment, the three-phase power of the switching motor 3-4 is completely switched on, so that the switching motor 3-4 can operate to drive the coupler 3-5 to rotate, the coupler 3-5 can drive the driven disk 1-6 to rotate through the rotating shaft A3-6, the driving disk 3-7 and the driving convex head 3-9, the driven disk 1-6 can drive the wind power collecting mechanism 1 to rotate, the orientation of the impeller 1-2 is adjusted, after the adjustment is finished, hydraulic oil is reversely injected into the hydraulic cylinder 2-10, under the elastic action of the supporting spring 2-3, the limiting head 2-2 is inserted into the limiting matching hole 3-8 again, and the driving disk 3-7 is limited;

the rotation driving mechanism 3 comprises a base 3-1, a socket support 3-2, a socket 3-3, a switching motor 3-4, a coupler 3-5, a rotating shaft A3-6, a driving disc 3-7, a limiting matching hole 3-8 and a driving convex head 3-9, wherein the base 3-1 is connected with a support frame 2-1, the base 3-1 is connected with the socket support 3-2, the socket support 3-2 is connected with the socket 3-3, the base 3-1 is connected with the switching motor 3-4, the switching motor 3-4 is connected with the rotating shaft A3-6 through the coupler 3-5, the connecting mode of the rotating shaft A3-6 and a bearing seat A2-12 is bearing connection, the rotating shaft A3-6 is connected with the driving disc 3-7, the driving disc 3-7 is provided with the limiting matching hole 3-8, the limiting matching holes 3-8 are connected with the limiting heads 2-2 in a sliding mode, the driving discs 3-7 are connected with the driving convex heads 3-9, the driving convex heads 3-9 are connected with the limiting holes 1-7 in a sliding mode, the switching motors 3-4 are operated during adjustment in the process of adjusting the collecting direction, and electric energy can be saved when the switching motors 3-4 are not connected with a circuit during non-adjustment;

the wind power collecting mechanism 1 is connected with the switching machine body mechanism 2, the switching machine body mechanism 2 is connected with the rotation driving mechanism 3, and the rotation driving mechanism 3 is connected with the wind power collecting mechanism 1.

The second embodiment is as follows:

in the following, the present embodiment is described with reference to fig. 1, 2, 3, 4 and 5, and the present embodiment further describes the first embodiment, the two plugs 2-6 are connected to two poles of the switching motor 3-4, and the switching motor 3-4 itself is electrically normally closed.

The working principle of the utility model is as follows: the device can know which direction the wind speed is large, under the condition of wind, the wind can drive the test impeller 1-13 to rotate, and the rotating speed of the test impeller 1-13 can be acquired through the rotating speed sensor 1-15, so that the wind speed in which direction the wind speed is large can be known, and the collecting direction of the impeller 1-2 can be adjusted; the device can generate electricity, wind can drive the impeller 1-2 to rotate, the impeller 1-2 can drive the impeller shaft 1-3 to rotate, the impeller shaft 1-3 can drive the coil 1-11 to rotate, and the coil 1-11 can cut magnetic induction lines formed by the magnets 1-8 by rotating, so that electric energy is formed and stored in the electric power collection box 1-10; the device can adjust the collection direction, when the direction of the impeller 1-2 needs to be adjusted according to the wind direction, hydraulic oil can be injected into the hydraulic cylinder 2-10, under the driving of the hydraulic oil, the hydraulic rod 2-9 drives the seat with the inclined plane 2-8 to move downwards, the seat with the inclined plane 2-8 can drive the wedge block seat 2-7 to move towards two sides, the wedge block seat 2-7 can drive the sliding rod 2-5 to move, the sliding rod 2-5 can drive the limiting head 2-2 to be separated from the limiting matching hole 3-8, simultaneously, the plugs 2-6 at two sides are inserted into chalks to be inserted into the sockets 3-3 at two sides, at the moment, the three phases of the switching motor 3-4 are all connected, so that the switching motor 3-4 can operate to drive the coupler 3-5 to rotate, and the coupler 3-5 can rotate through the rotating shaft A3-6, The driving disc 3-7 and the driving convex head 3-9 drive the driven disc 1-6 to rotate, the driven disc 1-6 can drive the wind power collecting mechanism 1 to rotate, so that the orientation of the impeller 1-2 is adjusted, hydraulic oil is reversely injected into the hydraulic cylinder 2-10 after the adjustment is finished, and the limiting head 2-2 is inserted into the limiting matching hole 3-8 again under the elastic action of the supporting spring 2-3 to limit the driving disc 3-7; the device can save electric energy, and in the process of adjusting the collecting direction, the switching motor 3-4 operates during adjustment, and when the switching motor 3-4 is not adjusted, the electric energy can be saved under the condition that no circuit is connected.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a wind power generation multilevel utilization device, includes wind-force collection mechanism (1), switches fuselage mechanism (2), rotation driving mechanism (3), its characterized in that: the wind power collecting mechanism (1) comprises a collecting machine body (1-1), an impeller (1-2), an impeller shaft (1-3), a bearing seat (1-4), a rotating shaft (1-5), a driven disc (1-6), a limiting hole (1-7), a magnet (1-8), a supporting seat (1-9), an electric power collecting box (1-10), a coil (1-11), an air box (1-12), a test impeller (1-13), a test impeller shaft (1-14) and a rotating speed sensor (1-15), wherein the collecting machine body (1-1) is connected with the rotating shaft (1-5), the impeller (1-2) is connected with the impeller shaft (1-3), and the impeller shaft (1-3) is connected with the bearing seat (1-4) in a bearing connection mode, the bearing seat (1-4) is connected with the collecting machine body (1-1), the rotating shaft (1-5) is connected with the driven disk (1-6), the driven disk (1-6) is provided with a limiting hole (1-7), the magnet (1-8) is connected with the supporting seat (1-9), the supporting seat (1-9) is connected with the collecting machine body (1-1), the electric power collecting box (1-10) is connected with the collecting machine body (1-1), the collecting machine body (1-1) is connected with the air box (1-12), the testing impeller (1-13) is connected with the testing impeller shaft (1-14), the testing impeller shaft (1-14) is connected with the air box (1-12) in a bearing mode, and the rotating speed sensor (1-15) is connected with the air box (1-12);

the switching machine body mechanism (2) comprises a support frame (2-1), a limiting head (2-2), a support spring (2-3), a unthreaded hole (2-4), a sliding rod (2-5), a plug (2-6), a wedge block seat (2-7), a seat with an inclined plane (2-8), a hydraulic rod (2-9), a hydraulic cylinder (2-10), a bearing seat (2-11) and a bearing seat A (2-12), wherein the support frame (2-1) is connected with the bearing seat A (2-12), the limiting head (2-2) is connected with the sliding rod (2-5), the sliding rod (2-5) is connected with the unthreaded hole (2-4) in a sliding manner, the support spring (2-3) is sleeved on the sliding rod (2-5), and the support spring (2-3) abuts against the limiting head (2-2), On a support frame (2-1), a sliding rod (2-5) is connected with a plug (2-6), the sliding rod (2-5) is connected with a wedge block seat (2-7), the wedge block seat (2-7) is contacted with a seat (2-8) with an inclined plane, the seat (2-8) with the inclined plane is connected with a hydraulic rod (2-9), the hydraulic rod (2-9) is connected with a hydraulic cylinder (2-10), the hydraulic cylinder (2-10) is connected with the support frame (2-1), and a bearing seat (2-11) is arranged on the support frame (2-1);

the rotary driving mechanism (3) comprises a base (3-1), a socket support (3-2), a socket (3-3), a switching motor (3-4), a coupler (3-5), a rotating shaft A (3-6), a driving disc (3-7), a limiting matching hole (3-8) and a driving protruding head (3-9), wherein the base (3-1) is connected with the support frame (2-1), the base (3-1) is connected with the socket support (3-2), the socket support (3-2) is connected with the socket (3-3), the base (3-1) is connected with the switching motor (3-4), the switching motor (3-4) is connected with the rotating shaft A (3-6) through the coupler (3-5), the connecting mode of the rotating shaft A (3-6) and the bearing seat A (2-12) is bearing connection, the rotating shaft A (3-6) is connected with a driving disc (3-7), a limiting matching hole (3-8) is formed in the driving disc (3-7), the limiting matching hole (3-8) is connected with a limiting head (2-2) in a sliding mode, the driving disc (3-7) is connected with a driving convex head (3-9), and the driving convex head (3-9) is connected with a limiting hole (1-7) in a sliding mode;

the wind power collecting mechanism (1) is connected with the switching machine body mechanism (2), the switching machine body mechanism (2) is connected with the rotation driving mechanism (3), and the rotation driving mechanism (3) is connected with the wind power collecting mechanism (1).

2. A wind power generation multistage utilization apparatus according to claim 1, wherein: the two plugs (2-6) are connected to two electrodes of the switching motor (3-4), and the switching motor (3-4) is electrically normally closed.

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