CN111022258A

CN111022258A - Formula aerogenerator is accomodate to outdoor equipment

Info

Publication number: CN111022258A
Application number: CN202010049263.7A
Authority: CN
Inventors: 不公告发明人
Original assignee: Zhuji Dugao Fengneng Technology Co Ltd
Current assignee: Zhuji Dugao Fengneng Technology Co Ltd
Priority date: 2020-01-16
Filing date: 2020-01-16
Publication date: 2020-04-17

Abstract

The invention discloses an outdoor equipment storage type wind motor which comprises a base, wherein an electricity utilization space capable of containing other electricity utilization equipment is arranged in the base, an accommodating space with an upward opening is formed in the top surface of the base, three pairs of hinged rods are slidably mounted on the bottom wall of the accommodating space, when a lifting motor is started, the lifting motor can rotate through a threaded rod, the threaded rod rotates to enable a threaded sleeve rod to drive a rotating seat to move up and down in the accommodating space to carry out lifting work so as to supply electricity to some outdoor equipment, fan blades and the whole power generation device can be stored in severe weather such as strong wind, the service life of power generation is prolonged, the windward direction of the fan blades can be controlled according to the wind direction, and the wind energy is guaranteed to be utilized to the maximum extent.

Description

Formula aerogenerator is accomodate to outdoor equipment

Technical Field

The invention relates to the field of wind motors, in particular to a storage type wind motor for outdoor equipment.

Background

Some place when outdoor equipment is working, need continuous electric energy to supply, but many batteries can not satisfy the needs of equipment, and some are equipped with the equipment that can carry out wind power generation, make power generation equipment damage easily when meetting the bad weather of big lantern, and the too big life greatly reduced that can use of wind speed moreover.

Disclosure of Invention

The invention aims to provide an outdoor equipment containing type wind motor which is used for overcoming the defects in the prior art.

The outdoor equipment containing type wind power engine comprises a base, wherein an electricity utilization space capable of containing other electric equipment is arranged in the base, an accommodating space with an upward opening is formed in the top surface of the base, three pairs of hinge rods are slidably mounted on the bottom wall of the accommodating space and are connected in a hinged mode, a rotating seat is slidably mounted on the top surface of each hinge rod, a mounting seat is rotatably mounted on each rotating seat, an accommodating part capable of driving each rotating seat to move up and down for accommodating is arranged in the accommodating space, a fan blade capable of rotating and converting wind power is arranged on each mounting seat, a control part capable of controlling the fan blade to be accommodated and released is arranged in each mounting seat in a rotating mode, and a fan blade connecting seat is fixedly mounted on a fan blade shaft, the fan blade connecting seat is connected with the fan blade through a hinge, the fan blade can be folded when wind is strong,

be equipped with the gear space in the mount pad, be equipped with the power generation part in the gear space, the power generation part is including fixed mounting can be controlled on the top surface of mount pad the reversing plate of the direction of flabellum, fixed mounting sensor on the reversing plate, the sensor can detect the size of the wind-force that the reversing plate received, fixed mounting generator on the diapire in storage space, fixed mounting generator shaft on the input shaft of generator, spline installation gear shaft on the generator shaft, the gear shaft upwards runs through the gear space, the flabellum axle runs through the gear space, the sensor can be controlled after detecting the size of wind-force the gear shaft with power intercommunication between the flabellum axle, with control the generator carries out normal electricity generation.

On the basis of the technical scheme, the containing part further comprises a lifting motor which is fixedly arranged on the bottom wall of the containing space in a bilateral symmetry mode, a threaded rod is fixedly arranged on an output shaft of the lifting motor, threaded sleeve rods are fixedly arranged on the bottom surface of the rotating seat in a bilateral symmetry mode, and the threaded sleeve rods are in threaded connection with the threaded rod.

On the basis of the technical scheme, the control part further comprises sliding grooves which are arranged in an up-down symmetrical mode on the upper surface and the lower surface of the mounting seat, grooves are formed in the sliding grooves, motors are stored in the inner wall of the left side of the sliding grooves in an up-down symmetrical mode, helical gears are fixedly mounted on the output shafts of the stored motors, sliding blocks are mounted in the sliding grooves in a sliding mode, the sliding blocks are connected with the grooves in a sliding mode, rectangular grooves are formed in the bottom surfaces of the sliding blocks and meshed with the helical gears, rotating rings are rotatably mounted on the sliding blocks, and connecting rods are mounted between the rotating rings and the fan blades in a hinged mode.

On the basis of the technical scheme, a speed reduction space is arranged in the mounting seat, the fan blade shaft penetrates through the speed reduction space, magnet spaces communicated with the speed reduction space are symmetrically arranged in the upper inner wall and the lower inner wall of the speed reduction space in an up-down mode, the speed reduction block is slidably mounted in the magnet spaces, a pulling spring is fixedly mounted between the speed reduction block and the inner wall of one side of the speed reduction space, a first permanent magnet is fixedly mounted on one side face of the speed reduction block, and a first electromagnet is fixedly mounted on the inner wall of one side of the magnet space.

On the basis of the technical scheme, the power generation part further comprises a first gear fixedly mounted on the left side face of the fan blade shaft, a second gear is in splined connection with the gear shaft, the second gear can be meshed with the first gear, a shifting fork sliding groove communicated with the gear space is formed in the inner wall of the left side of the gear space, a shifting fork is slidably mounted in the shifting fork sliding groove, the shifting fork is not in contact with the gear shaft, a tension spring is fixedly mounted between the top face of the shifting fork and the top wall of the shifting fork sliding groove, a second permanent magnet is fixedly mounted on the shifting fork, a second electromagnet is fixedly mounted on the bottom wall of the shifting fork sliding groove, a storage battery is fixedly mounted in the base, and the storage battery is in electrical signal connection with the power generator.

The invention has the beneficial effects that: the wind power generation device can supply power to some outdoor equipment, can store the fan blades and the whole power generation device in severe weather such as strong wind and the like, protects the service life of power generation, can control the windward direction of the fan blades according to the wind direction, ensures that wind energy is utilized to the maximum extent, and is worthy of popularization.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

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

FIG. 2 is a schematic sectional view taken along the line A-A in FIG. 1;

FIG. 3 is an enlarged schematic view of the structure at B in FIG. 1;

fig. 4 is an enlarged structural view at C in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, front and rear directions described below correspond to the front, back, left, right, top and bottom directions of the view direction of fig. 1, fig. 1 is a front view of the apparatus of the present invention, and the directions shown in fig. 1 correspond to the front, back, left, right, top and bottom directions of the apparatus of the present invention.

Referring to fig. 1 to 4, an outdoor equipment storage type wind turbine according to an embodiment of the present invention includes a base 10, an electric space 11 capable of storing other electric equipment is provided in the base 10, an upward opening storage space 12 is provided on a top surface of the base 10, three pairs of hinge rods 18 are slidably mounted on a bottom wall of the storage space 12, the three pairs of hinge rods 18 are connected in a hinged manner, a rotating base 19 is slidably mounted on a top surface of the hinge rods 18, a rotating base 21 is rotatably mounted on the rotating base 19, a storage member 80 capable of driving the rotating base 19 to move up and down for storage is provided in the storage space 12, a fan blade 31 capable of converting wind power movement into rotation is provided on the mounting base 21, a control member 81 capable of controlling the fan blade 31 to be stored and released is provided in the mounting base 21, the control member 81 includes a control member rotatably mounted in the mounting base 21, the fan blade shaft 33 is fixedly provided with a fan blade connecting seat 32, the fan blade connecting seat 32 is hinged with the fan blade 31, the fan blade 31 can be folded when the wind is strong,

a gear space 41 is provided in the mounting base 21, a power generation part 82 is provided in the gear space 41, the power generating component 82 includes a direction changing plate 22 fixedly mounted on the top surface of the mounting base 21 and capable of controlling the direction of the fan blades 31, a sensor 23 is fixedly arranged on the reversing plate 22, the sensor 23 can detect the wind power received by the reversing plate 22, the generator 13 is fixedly arranged on the bottom wall of the accommodating space 12, the generator shaft 48 is fixedly arranged on the input shaft of the generator 13, a gear shaft 49 is spline-mounted on the generator shaft 48, the gear shaft 49 upwardly penetrates the gear space 41, the fan shaft 33 penetrates the gear space 41, and the sensor 23 can control the power communication between the gear shaft 49 and the fan shaft 33 after detecting the magnitude of the wind force, so as to control the generator 13 to generate electricity normally.

In addition, in an embodiment, the storage part 80 further includes a lifting motor 15 fixedly installed on the bottom wall of the storage space 12 in a bilateral symmetry manner, a threaded rod 16 is fixedly installed on an output shaft of the lifting motor 15, a threaded sleeve rod 17 is fixedly installed on the bottom surface of the rotating seat 19 in a bilateral symmetry manner, the threaded sleeve rod 17 is in threaded connection with the threaded rod 16, when the lifting motor 15 is started, the lifting motor 15 can rotate the threaded rod 16, and the threaded sleeve rod 17 can drive the rotating seat 19 to move up and down in the storage space 12 to perform lifting work through rotation of the threaded rod 16.

In addition, in one embodiment, the control component 81 further includes sliding grooves 36 disposed on the upper and lower surfaces of the mounting base 21 in a vertically symmetrical manner, a groove 35 is disposed in the sliding groove 36, a containing motor 37 is disposed in the inner wall of the left side of the sliding groove 36 in a vertically symmetrical manner, a helical gear 40 is fixedly disposed on the output shaft of the containing motor 37, a sliding block 39 is slidably disposed in the sliding groove 36, the sliding block 39 is slidably connected with the groove 35, a rectangular groove 51 is disposed on the bottom surface of the sliding block 39, the rectangular groove 51 is engaged with the helical gear 40, a rotating ring 38 is rotatably disposed on the sliding block 39, a connecting rod 34 is rotatably disposed between the rotating ring 38 and the fan blade 31, when the containing motor 37 is started, the containing motor 37 drives the helical gear 40 to rotate, the helical gear 40 rotates to drive the sliding block 39 to slide to the left side, rotating ring 38 pulls connecting rod 34 to the left, allowing fan blades 31 to be stowed.

In addition, in an embodiment, a deceleration space 30 is arranged in the mounting seat 21, the fan blade shaft 33 penetrates through the deceleration space 30, magnet spaces 24 communicated with the deceleration space 30 are symmetrically arranged in the upper inner wall and the lower inner wall of the deceleration space 30 up and down, a deceleration block 27 is slidably arranged in the magnet spaces 24, a pulling spring 28 is fixedly arranged between the deceleration block 27 and one inner wall of the deceleration space 30, a first permanent magnet 26 is fixedly arranged on one side surface of the deceleration block 27, a first electromagnet 25 is fixedly arranged on one inner wall of the magnet space 24, when wind power is high, the first electromagnet 25 is electrified, the first permanent magnet 26 and the deceleration block 27 are pushed by the first electromagnet 25 to move, the deceleration block 27 is in contact with the fan blade shaft 33, and the fan blade shaft 33 can be decelerated.

In addition, in one embodiment, the power generating component 82 further includes a first gear 42 fixedly installed on the left side surface of the vane shaft 33, a second gear 50 is splined on the gear shaft 49, the second gear 50 can be meshed with the first gear 42, a shift fork slide groove 44 communicated with the gear space 41 is arranged in the left inner wall of the gear space 41, a shift fork 43 is slidably installed in the shift fork slide groove 44, the shift fork 43 is not in contact with the gear shaft 49, a tension spring 47 is fixedly installed between the top surface of the shift fork 43 and the top wall of the shift fork slide groove 44, a second permanent magnet 46 is fixedly installed on the shift fork 43, a second electromagnet 45 is fixedly installed on the bottom wall of the shift fork slide groove 44, a storage battery 14 is fixedly installed in the base 10, the storage battery 14 is electrically connected with the generator 13, when the wind blowing vane 31 rotates, the fan blades 31 drive the fan blade shafts 33 to rotate, the fan blade shafts 33 rotate to drive the first gears 42 to rotate, the first gears 42 rotate to drive the second gears 50 to rotate, the second gears 50 drive the gear shafts 49 to rotate, the gear shafts 49 rotate to drive the generator shafts 48 to rotate, the generators 13 generate electricity, and the electricity generated by the generators 13 is stored in the storage batteries 14 and can supply power to the electric equipment in the electricity utilization space 11.

When power storage and generation are needed, the lifting motor 15 is started, the lifting motor 15 can rotate by the threaded rod 16, the threaded rod 16 rotates to enable the threaded sleeve rod 17 to drive the rotating seat 19 to move upwards in the accommodating space 12 to lift out for work, the accommodating motor 37 is started, the accommodating motor 37 drives the helical gear 40 to rotate, the helical gear 40 drives the rotating ring 38 and the sliding block 39 to move towards the right side, the connecting rod 34 can open the fan blade 31 to facilitate the work of the fan blade 31, when the fan blade 31 is blown to rotate, the fan blade 31 drives the fan blade shaft 33 to rotate, the fan blade shaft 33 rotates to drive the first gear 42 to rotate, the first gear 42 rotates to drive the second gear 50 to rotate, the second gear 50 drives the gear shaft 49 to rotate, the gear shaft 49 rotates to drive the generator shaft 48 to rotate, the generator 13 generates power, the power generated by the generator 13 is stored in the storage battery 14, and power utilization equipment in the power utilization space 11,

the sensor 23 can detect the wind power received by the large reversing plate 22, when the sensor 23 detects that the wind power received by the reversing plate 22 is increased, the second electromagnet 45 is controlled to be electrified, the shifting fork 43 downwards shifts the second gear 50 to be disengaged from the first gear 42, so that the fan blade 31 can be led to the wind direction from the front, when the reversing is completed, the second electromagnet 45 is electrified in the reverse direction, so that the shifting fork 43 upwards pushes the second gear 50 to be engaged with the fan blade shaft 33, so as to continue to generate electricity,

when the wind power is large, when the accommodating motor 37 is started, the accommodating motor 37 drives the bevel gear 40 to rotate, the bevel gear 40 rotates to drive the sliding block 39 to slide to the left, so that the rotating ring 38 can slide to the left, the rotating ring 38 pulls the connecting rod 34 to the left, the fan blades 31 are retracted,

when the first electromagnet 25 is energized, the first electromagnet 25 pushes the first permanent magnet 26 and the speed reduction block 27 to move, so that the speed reduction block 27 contacts the vane shaft 33, and the vane shaft 33 can be decelerated.

The invention has the beneficial effects that: the wind power generation device can supply power to some outdoor equipment, can store the fan blades and the whole power generation device in severe weather such as strong wind and the like, protects the service life of power generation, can control the windward direction of the fan blades according to the wind direction and guarantees the maximum; the wind energy is utilized, and the device is worthy of popularization.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides an outdoor equipment accomodates formula aerogenerator, includes the base, be equipped with the power consumption space that can place other consumer in the base, its characterized in that: the top surface of the base is provided with an accommodating space with an upward opening, the bottom wall of the accommodating space is provided with three pairs of hinged rods in a sliding way, the three pairs of hinged rods are connected in a hinged way, the top surface of each hinged rod is provided with a rotating seat in a sliding way, the rotating seat is rotatably provided with an installing seat, an accommodating part capable of driving the rotating seat to move up and down for accommodating is arranged in the accommodating space, the installing seat is provided with a fan blade capable of rotating and converting the wind power motion, the installing seat is internally provided with a control part capable of controlling the fan blade to be accommodated and released, the control part comprises a fan blade shaft which is rotatably arranged in the installing seat, a fan blade connecting seat is fixedly arranged on the fan blade shaft and is connected with the fan blade in a hinged way, and the fan blade can be,

2. The outdoor equipment stowing wind motor of claim 1, wherein: the storage component further comprises a lifting motor which is fixedly arranged on the bottom wall of the storage space in a bilateral symmetry mode, a threaded rod is fixedly arranged on an output shaft of the lifting motor, a threaded sleeve rod is fixedly arranged on the bottom surface of the rotating seat in a bilateral symmetry mode, and the threaded sleeve rod is in threaded connection with the threaded rod.

3. The outdoor equipment stowing wind motor of claim 1, wherein: the control part further comprises sliding grooves which are arranged on the upper surface and the lower surface of the mounting seat in a vertically symmetrical mode, grooves are formed in the sliding grooves, motors are contained in the inner wall of the left side of the sliding grooves in a vertically symmetrical mode, helical gears are fixedly installed on the output shafts of the contained motors, sliding blocks are installed in the sliding grooves in a sliding mode, the sliding blocks are connected with the grooves in a sliding mode, rectangular grooves are formed in the bottom surfaces of the sliding blocks and meshed with the helical gears, rotating rings are installed on the sliding blocks in a rotating mode, and connecting rods are installed between the rotating rings and the fan blades in a hinged mode.

4. The outdoor equipment stowing wind motor of claim 1, wherein: the fan blade assembly is characterized in that a speed reduction space is arranged in the mounting seat, the fan blade shaft penetrates through the speed reduction space, magnet spaces communicated with the speed reduction space are symmetrically arranged in the upper inner wall and the lower inner wall of the speed reduction space in an up-and-down mode, a speed reduction block is slidably mounted in the magnet spaces, a pulling spring is fixedly mounted between the speed reduction block and the inner wall of one side of the speed reduction space, a first permanent magnet is fixedly mounted on one side face of the speed reduction block, and a first electromagnet is fixedly mounted on the inner wall of one side of the magnet.

5. The outdoor equipment stowing wind motor of claim 1, wherein: the power generation part further comprises a first gear fixedly mounted on the left side face of the fan blade shaft, a second gear is connected to a gear shaft through splines, the second gear can be meshed with the first gear, a shifting fork sliding groove communicated with the gear space is formed in the inner wall of the left side of the gear space, a shifting fork is slidably mounted in the shifting fork sliding groove, the shifting fork is not in contact with the gear shaft, a tension spring is fixedly mounted between the top face of the shifting fork and the top wall of the shifting fork sliding groove, a second permanent magnet is fixedly mounted on the shifting fork, a second electromagnet is fixedly mounted on the bottom wall of the shifting fork sliding groove, a storage battery is fixedly mounted in the base, and the storage battery is electrically connected with a power generator.