CN209805642U - Outer winding mechanism type power generation device - Google Patents

Abstract

The utility model discloses an outer winding mechanism formula power generation facility has solved the problem that power generation facility outer winding mechanism fixed form is single among the prior art, the structure is complicated. The utility model discloses an interconnect's outside flabellum subassembly and inside electricity generation subassembly, inside electricity generation subassembly includes support housing, be equipped with the spindle subassembly in the support housing, the last rotation of spindle subassembly is equipped with upper end cover and lower end cover, the upper end cover passes through go-between and lower end cover fixed connection, be equipped with at least a set of winding on the go-between, the fixed magnet frame that is equipped with on the spindle subassembly, the magnet frame is located between end cover and the lower end cover, be equipped with the magnet on the magnet frame, the magnet is corresponding with the winding, support housing's lower part is equipped with the connecting. The utility model discloses simple structure can realize vertical installation, vertical installation and horizontal installation downwards to be applicable to vertical face operating mode and horizontal plane operating mode, improve the device utilization ratio.

Description

Outer winding mechanism type power generation device

Technical Field

The utility model relates to a power generation facility technical field especially indicates an outer winding mechanism formula power generation facility.

Background

At present, with the increasing call for energy conservation and emission reduction, clean energy is vigorously developed in all countries in the world, the clean energy refers to energy with renewable raw materials, such as renewable energy sources of hydroelectric power generation, wind power generation, solar energy and the like, the current situation of increasingly severe energy shortage in China can be well solved, and the winding fixing form in the current wind power generation equipment is single, so that the wind power generation equipment cannot be well applicable to different installation environments, and the use of a power generation device is limited.

SUMMERY OF THE UTILITY MODEL

To not enough among the above-mentioned background art, the utility model provides an outer winding mechanism formula power generation facility has solved the problem that power generation facility outer winding mechanism fixed form is single, the structure is complicated among the prior art.

The technical scheme of the utility model is realized like this: the utility model provides an outer winding mechanism formula power generation facility, outside flabellum subassembly and inside electricity generation subassembly including interconnect, inside electricity generation subassembly includes the support housing, be equipped with the spindle subassembly in the support housing, it is equipped with upper end cover and lower end cover to rotate on the spindle subassembly, the upper end cover passes through go-between and lower end cover fixed connection, be equipped with at least a set of winding on the go-between, the fixed magnet frame that is equipped with on the spindle subassembly, the magnet frame is located between end cover and the lower end cover, be equipped with the magnet on the magnet frame, the magnet is corresponding with the winding, the lower part of support housing is equipped with the.

The upper end cover and the lower end cover are located in the supporting shell, a first bearing is arranged between the upper end cover and the supporting shell, a second bearing is arranged between the upper end cover and the crankshaft assembly, a third bearing is arranged between the lower end cover and the crankshaft assembly, and a fourth bearing is arranged between the connecting seat and the shaft assembly.

The upper end cover or the lower end cover is provided with a collecting ring, the support shell or the connecting seat is provided with a carbon brush assembly, and the collecting ring corresponds to the carbon brush assembly.

The crankshaft assembly is a one-way shaft, one end of the one-way shaft penetrates through the upper end cover and extends out of the supporting shell, and the other end of the one-way shaft is connected with the supporting shell through a fourth bearing.

The crankshaft assembly is a one-way shaft which penetrates through the lower end cover downwards and extends out of the supporting shell, and the upper end cover extends out of the supporting shell upwards.

The crankshaft assembly is a one-way shaft, the one-way shaft penetrates through the lower end cover to the right and extends out of the supporting shell, the upper end cover extends out of the supporting shell to the left, and a horizontal fixing seat is arranged on the outer side wall of the supporting shell.

The upper end cover is located the support housing top with the lower extreme cover, and the lower extreme cover lower part is equipped with the dustcoat, and the upper end cover is connected with the spindle subassembly through second bearing I, and the lower extreme cover is connected with the spindle subassembly through third bearing I, and the spindle subassembly is connected with the support housing through first bearing I and fourth bearing I.

The upper portion of the supporting shell is provided with a collecting ring, the lower end cover is provided with a carbon brush assembly, and the carbon brush assembly corresponds to the collecting ring.

The crankshaft assembly is a one-way shaft, the upper end of the one-way shaft sequentially penetrates through the lower end cover and the upper end cover, and the lower ends of the upper end cover and the one-way shaft are located in the supporting shell.

The collecting ring is in a circular tube shape, a barrel shape or a disc shape, and is connected with the internal power generation assembly through an output lead and movably butted with a carbon brush in the carbon brush holder.

The utility model discloses simple structure can realize vertical installation, vertical installation and horizontal installation downwards to be applicable to vertical face operating mode and horizontal plane operating mode, improve the device utilization ratio. Furthermore, the utility model discloses a fixed connection mode of magnet and spindle subassembly takes place relative rotation through magnet and winding and realizes the electricity generation, and whole outer winding mechanism compact structure is convenient for install, and the power generation rate is high, has higher spreading value.

Drawings

In order to illustrate the embodiments of the present invention more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and that other drawings can be obtained by those skilled in the art without inventive work.

Fig. 1 is a schematic structural view of the present invention in embodiment 1.

Fig. 2 is a schematic structural view of the present invention in embodiment 2.

Fig. 3 is a schematic structural view of the present invention in embodiment 3.

Fig. 4 is a schematic structural view of the present invention in embodiment 4.

Fig. 5 is a schematic structural view of the present invention in embodiment 5.

Fig. 6 is a schematic structural view of the present invention in embodiment 6.

Fig. 7 is a schematic structural view of the present invention in embodiment 7.

Fig. 8 is a schematic structural view of the present invention in embodiment 8.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without any creative effort belong to the protection scope of the present invention.

As shown in fig. 1, in embodiment 1, an external winding mechanism type power generation device includes an external fan blade assembly and an internal power generation assembly, which are connected to each other, and the external fan blade assembly drives the internal power generation assembly to rotate, so as to generate power. The internal power generation assembly comprises a supporting shell 1, a crankshaft assembly 2 is arranged in the supporting shell 1, an upper end cover 3 and a lower end cover 5 are arranged on the crankshaft assembly 2 in a rotating mode through bearings, the upper end cover 3 is fixedly connected with the lower end cover 5 through a connecting ring 4 through bolts, at least one group of windings 7 are fixedly arranged on the connecting ring 4, and the windings 7 rotate synchronously along with the upper end cover and the lower end cover. The fixed magnet frame 6 that is equipped with on the spindle subassembly 2, magnet frame and spindle subassembly rotate in step, and magnet frame 6 is located between end cover 3 and the lower end cover 5, and magnet frame 6 upper portion and lower part all are equipped with magnet 8, and winding 7 is located between two magnets 8, and magnet 8 and winding 7 take place relative rotation, realize that the winding cuts magnetic induction line, realize the electricity generation, and the lower part of supporting housing 1 is equipped with connecting seat 9 for fixed the device.

As shown in fig. 2, in embodiment 2, two sets of windings 7 are fixed on a connection ring 4, the two sets of windings are arranged in parallel on the connection ring, and the windings and the magnet frame are arranged at intervals to form two sets of power generation base members, respectively. The upper end cover 3 and the lower end cover 5 are located inside the supporting shell 1, a first bearing 12 is arranged between the upper end cover 3 and the supporting shell 1, a second bearing 13 is arranged between the upper end cover 3 and the crankshaft component 2, a third bearing 14 is arranged between the lower end cover 5 and the crankshaft component 2, a fourth bearing 15 is arranged between the connecting seat 9 and the shaft component 2, a collecting ring 10 is arranged on the lower end cover 5, a carbon brush assembly 11 is arranged on the connecting seat 9, the collecting ring 10 corresponds to the carbon brush assembly 11, and the collecting ring is of a circular tube type. The collector ring 10 is connected with the internal power generation assembly through an output lead and is movably butted with a carbon brush in a carbon brush holder. When the generator is used, the shaft component is vertically arranged, the shaft rotates to drive the magnet to rotate, the magnet and the winding rotate relatively, the winding cuts the magnetic induction lines to realize two groups of power generation, and the generated power is led out through the collecting ring and the carbon brush assembly.

The other structure is the same as embodiment 1.

As shown in fig. 3, in embodiment 3, three sets of windings 7 are fixed on a connection ring 4, the three sets of windings are arranged in parallel on the connection ring, and the windings and the magnet frame are arranged at intervals to form three sets of power generation base parts, respectively. The crankshaft assembly 2 is a one-way shaft, one end of the one-way shaft penetrates through the upper end cover 3 and extends out of the support shell 1, and the other end of the one-way shaft is connected with the support shell 1 through a fourth bearing 15. The lower end cover 5 is provided with a collecting ring 10, the connecting seat 9 is provided with a carbon brush assembly 11, and the collecting ring 10 corresponds to the carbon brush assembly 11. When the collector ring is in a round tube shape, the shaft assembly is vertically arranged, the shaft rotates to drive the magnet to rotate, the magnet and the winding rotate relatively, the winding cuts the magnetic induction lines to realize three groups of power generation, and generated electricity is led out through the collector ring and the carbon brush assembly.

The other structure is the same as embodiment 1.

As shown in fig. 4, in embodiment 4, a set of windings 7 is fixedly disposed on a connection ring 4 to perform single-group power generation, the shaft assembly 2 is a unidirectional shaft, one end of the unidirectional shaft passes through the upper end cover 3 and extends out of the support housing 1, and the other end of the unidirectional shaft is connected to the support housing 1 through a fourth bearing 15. Collecting rings 10 are arranged on the outer circumferences of the upper end cover and the lower end cover 5, a carbon brush assembly 11 is arranged on the supporting shell 1, the collecting rings 10 correspond to the carbon brush assembly 11, and the collecting rings are cylindrical. When the generator is used, the shaft component is vertically arranged, the shaft rotates to drive the magnet to rotate, the magnet and the winding rotate relatively, the winding cuts the magnetic induction lines, single-group power generation is realized, and generated power is led out through the collecting ring and the carbon brush assembly.

The other structure is the same as in embodiment 1 or 2.

As shown in fig. 5, in embodiment 5, a set of windings 7 is fixedly disposed on a connection ring 4 of an external winding mechanism type power generation device to perform single-group power generation, the shaft assembly 2 is a unidirectional shaft, the unidirectional shaft passes through a lower end cover 5 downwards and extends out of a support housing 1, and an upper end cover 3 extends upwards out of the support housing 1. The upper end cover 3 is provided with a collecting ring 10, the supporting shell 1 is provided with a carbon brush assembly 11, the collecting ring 10 corresponds to the carbon brush assembly 11, and the collecting ring is in a disc shape. When the generator is used, the shaft component is vertically arranged, the shaft rotates to drive the magnet to rotate, the magnet and the winding rotate relatively, the winding cuts the magnetic induction lines, single-group power generation is realized, and generated power is led out through the collecting ring and the carbon brush assembly.

The other structure is the same as embodiment 2 or 3.

As shown in fig. 6, in embodiment 6, a set of windings 7 is fixedly disposed on a connection ring 4 of an external winding mechanism type power generation device to perform single-group power generation, the shaft assembly 2 is a unidirectional shaft, the unidirectional shaft passes through a lower end cover 5 on the right and extends out of a support housing 1, an upper end cover 3 extends out of the support housing 1 on the left, and a horizontal fixing seat 20 is disposed on an outer side wall of the support housing 1. The lower end cover 5 is provided with a collecting ring 10, the connecting seat 9 is provided with a carbon brush assembly 11, the collecting ring 10 corresponds to the carbon brush assembly 11, and the collecting ring is in a disc shape. When the generator is used, the shaft component is horizontally arranged, the shaft rotates to drive the magnet to rotate, the magnet and the winding rotate relatively, the winding cuts the magnetic induction lines to realize two groups of power generation, and the generated power is led out through the collecting ring and the carbon brush assembly.

The other structure is the same as embodiment 2 or 3.

As shown in fig. 7, in embodiment 7, an outer winding mechanism type power generation device, the upper end cover 3 and the lower end cover 5 are located above the support housing 1, and the upper end cover 3 and the lower end cover 5 are arranged on a shaft assembly in an "outer leakage manner" for installation in a large space. An outer cover body 30 is arranged at the lower part of the lower end cover 5, and the outer cover body 30 is used for covering the carbon brush assembly. The upper end cover 3 is connected with the crankshaft assembly 2 through a second bearing I13 a, the lower end cover 5 is connected with the crankshaft assembly 2 through a third bearing I14 a, and the crankshaft assembly 2 is connected with the support shell 1 through a first bearing I12 a and a fourth bearing I15 a.

Further, a group of windings 7 is fixedly arranged on the connecting ring 4 to perform single-group power generation, a collecting ring 10 is arranged on the upper portion of the supporting shell 1, a carbon brush assembly 11 is arranged on the lower end cover 5, and the carbon brush assembly 11 corresponds to the collecting ring 10. The crankshaft assembly 2 is a one-way shaft, the upper end of the one-way shaft sequentially penetrates through the lower end cover 5 and the upper end cover 3, and the lower ends of the upper end cover 3 and the one-way shaft are located in the supporting shell 1. When the generator is used, the shaft component is vertically arranged, the shaft rotates to drive the magnet to rotate, the magnet and the winding rotate relatively, the winding cuts the magnetic induction lines, single-group power generation is realized, and generated power is led out through the collecting ring and the carbon brush assembly.

The other structure is the same as embodiment 1.

As shown in fig. 8, in embodiment 8, three groups of windings 7 are fixed on a connection ring 4, the three groups of windings are arranged in parallel on the connection ring, and the windings and the magnet frame are arranged at intervals to form three groups of power generation base parts respectively. The upper portion of the supporting shell 1 is provided with a collecting ring 10, the lower end cover 5 is provided with a carbon brush assembly 11, and the carbon brush assembly 11 corresponds to the collecting ring 10. The crankshaft assembly 2 is a one-way shaft, the upper end of the one-way shaft sequentially penetrates through the lower end cover 5 and the upper end cover 3, and the lower ends of the upper end cover 3 and the one-way shaft are located in the supporting shell 1. When the generator is used, the shaft component is vertically arranged, the shaft rotates to drive the magnet to rotate, the magnet and the winding rotate relatively, the winding cuts the magnetic induction lines, single-group power generation is realized, and generated power is led out through the collecting ring and the carbon brush assembly.

Other structure and embodiment 1.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an outer winding mechanism formula power generation facility, includes interconnect's outside flabellum subassembly and inside electricity generation subassembly, its characterized in that: inside electricity generation subassembly is including supporting casing (1), be equipped with spindle subassembly (2) in supporting casing (1), it is equipped with upper end cover (3) and lower end cover (5) to rotate on spindle subassembly (2), upper end cover (3) are through go-between (4) and lower end cover (5) fixed connection, be equipped with at least a set of winding (7) on go-between (4), fixed being equipped with magnet frame (6) on spindle subassembly (2), magnet frame (6) are located between end cover (3) and lower end cover (5), be equipped with magnet (8) on magnet frame (6), magnet (8) are corresponding with winding (7), the lower part of supporting casing (1) is equipped with connecting seat (9).

2. The external winding mechanism type power generation device according to claim 1, wherein: the bearing assembly is characterized in that the upper end cover (3) and the lower end cover (5) are located in the supporting shell (1), a first bearing (12) is arranged between the upper end cover (3) and the supporting shell (1), a second bearing (13) is arranged between the upper end cover (3) and the crankshaft assembly (2), a third bearing (14) is arranged between the lower end cover (5) and the crankshaft assembly (2), and a fourth bearing (15) is arranged between the connecting seat (9) and the shaft assembly (2).

3. The external winding mechanism type power generation device according to claim 2, wherein: the upper end cover (3) or the lower end cover (5) is provided with a collecting ring (10), the support shell (1) or the connecting seat (9) is provided with a carbon brush assembly (11), and the collecting ring (10) corresponds to the carbon brush assembly (11).

4. The external winding mechanism type power generation device according to claim 3, wherein: the crankshaft assembly (2) is a one-way shaft, one end of the one-way shaft penetrates through the upper end cover (3) and extends out of the supporting shell (1), and the other end of the one-way shaft is connected with the supporting shell (1) through a fourth bearing (15).

5. The external winding mechanism type power generation device according to claim 3, wherein: the crankshaft assembly (2) is a one-way shaft, the one-way shaft penetrates through the lower end cover (5) downwards and extends out of the supporting shell (1), and the upper end cover (3) extends out of the supporting shell (1) upwards.

6. The external winding mechanism type power generation device according to claim 3, wherein: the crankshaft assembly (2) is a one-way shaft, the one-way shaft penetrates through the lower end cover (5) at the right side and extends out of the supporting shell (1), the upper end cover (3) extends out of the supporting shell (1) at the left side, and a horizontal fixing seat (20) is arranged on the outer side wall of the supporting shell (1).

7. The external winding mechanism type power generation device according to claim 1, wherein: the upper end cover (3) and the lower end cover (5) are located above the supporting shell (1), an outer cover body (30) is arranged on the lower portion of the lower end cover (5), the upper end cover (3) is connected with the crankshaft assembly (2) through a second bearing I (13 a), the lower end cover (5) is connected with the crankshaft assembly (2) through a third bearing I (14 a), and the crankshaft assembly (2) is connected with the supporting shell (1) through a first bearing I (12 a) and a fourth bearing I (15 a).

8. The external winding mechanism type power generation device according to claim 7, wherein: the upper portion of the supporting shell (1) is provided with a collecting ring (10), the lower end cover (5) is provided with a carbon brush assembly (11), and the carbon brush assembly (11) corresponds to the collecting ring (10).

9. The external winding mechanism type power generation device according to claim 8, wherein: the crankshaft assembly (2) is a one-way shaft, the upper end of the one-way shaft sequentially penetrates through the lower end cover (5) and the upper end cover (3), and the lower ends of the upper end cover (3) and the one-way shaft are located in the supporting shell (1).

10. The outer-winding mechanism type power generation device according to claim 8 or 9, characterized in that: the collector ring (10) is of a circular tube type, a barrel type or a disc type, and the collector ring (10) is connected with the internal power generation assembly through an output lead and movably butted with a carbon brush in the carbon brush holder.