CN220487763U - Breeze power generation device for automobile - Google Patents

Abstract

The application provides a breeze power generation facility of car relates to car electricity generation technical field, including the structure of two parts, be respectively: the device comprises a breeze power generation device main body and a mounting mechanism, wherein the breeze power generation device main body is used for generating power by utilizing wind power in the running process of an automobile, the breeze power generation device main body comprises a device shell, a plurality of magnetic suspension wind driven generators are assembled on the inner wall of the bottom of one side of the device shell, a battery carrier is assembled on the inner wall of the bottom of the other side of the device shell, and a plurality of storage batteries are assembled in the battery carrier; the technical key points are as follows: when wind flows through the inside of the device shell, the wind can be used for generating electricity by means of natural wind when the wind passes through the outside of the magnetic suspension wind driven generators and the air outlet channels between the two adjacent storage batteries in the longitudinal direction, and meanwhile, when the automobile is in a parking state, the wind can flow through the device shell, so that the electricity can be generated, and the electricity generation effect can be ensured.

Description

Breeze power generation device for automobile

Technical Field

The utility model belongs to the technical field of automobile power generation, and particularly relates to an automobile breeze power generation device.

Background

Wind energy is used as clean and pollution-free renewable energy, and water is pumped and ground mainly through a windmill in the early stage. With the continuous shortage of energy, natural energy is paid attention to, and a mode of converting wind kinetic energy into mechanical kinetic energy and then converting the mechanical energy into electric power is an exploration target. The wind power generation mainly utilizes wind power to drive windmill blades to rotate, and then the rotating speed is increased through a speed increaser to drive a generator to generate electricity, and because the wind power generation does not need to use fuel, radiation or air pollution can not be generated, a hot tide is formed in the world.

The utility model provides a multistage wind power generation device for vehicle based on energy saving and emission reduction is disclosed in current chinese patent document publication No. CN114542383a, through the design of protection component, can effectually avoid debris to fly into front section air inlet storehouse inside, causes the destruction to magnetic suspension aerogenerator to through the design of clearance component, can avoid debris to pile up the problem that leads to the air intake to block up on the wire net.

However, in the process of implementing the above technical solution, the following technical problems are found in the above technical solution:

the prior wind power generation device is generally assembled and fixed on the front half part of an automobile body, and generates power by utilizing wind power, and when the wind power generation device works, the protection component protects the inside of a wind bin to prevent foreign matters from damaging a generator, but a storage battery of the wind power generation device is assembled inside a protective cover, and when the power generation device charges the storage battery through the generator, heat emitted by the storage battery cannot be discharged in time, so that the inside of the protection bin is overheated easily, and the service life of the storage battery is influenced.

Disclosure of Invention

In order to overcome current not enough, this embodiment of the application provides car breeze power generation facility, through when the wind flows through from the inside of device shell, make wind pass from the outside of a plurality of magnetic suspension aerogenerator and the play wind channel between two adjacent batteries on the longitudinal direction, can be at the in-process that utilizes natural wind at the electricity generation, simultaneously dispel the heat for a plurality of magnetic suspension aerogenerators and a plurality of battery, guarantee the radiating effect, the battery assembly of current wind power generation device to the inside of protection casing has been solved, when power generation facility charges the in-process that the battery was charged through the generator, the heat that the battery sent can not in time be discharged, lead to the overheated problem in the guard bin easily.

The technical scheme adopted by the embodiment of the application for solving the technical problems is as follows:

the utility model provides an automobile breeze power generation facility, includes the structure of two parts, is respectively: the device comprises a breeze power generation device main body and a mounting mechanism, wherein the breeze power generation device main body is used for generating power by utilizing wind power in the running process of an automobile, the breeze power generation device main body comprises a device shell, two ends of the device shell are respectively provided with an opening, a plurality of magnetic suspension wind generators are connected with the inner wall of the bottom of one side of the device shell in an assembling manner, a battery carrier is connected with the inner wall of the bottom of the other side of the device shell in an assembling manner, and a plurality of storage batteries are connected with the inner wall of the battery carrier in an assembling manner;

the mounting mechanism is used for being connected with a vehicle body bracket of the front half part of the top of the vehicle body, and comprises two supporting plates, and the tops of the supporting plates are connected with a hanging frame through bolts in an assembling mode;

an air outlet channel is formed between two adjacent storage batteries in the longitudinal direction, a plurality of storage batteries in the longitudinal direction are positioned between two adjacent magnetic suspension wind driven generators, two support plates are symmetrically fixed at the outer walls of two sides of the device shell, and a plurality of storage batteries respectively supply power for the automobile battery and electronic components in the breeze power generation device body.

In one possible implementation, a dust screen is connected to one side of the device housing in a fitting manner, and a plurality of louvers are fixedly connected to an inner wall of one side of the device housing.

In one possible implementation, the top of one side of the device housing is machined with a removal slot, and a first cover plate is connected to the interior of the removal slot in a fitting manner.

In one possible implementation manner, the top and bottom inner walls of the device shell, which are close to one side of the dust screen, are all hinged with an air inlet baffle, two ends of one side of the air inlet baffle are all connected with a control slide rod in a pin joint mode, a control strip is arranged outside the control slide rod, and one side of the control strip is connected with an electric push rod in an assembling mode.

In one possible implementation manner, the top and the bottom of the control bar are both provided with limiting slide ways, one end of the control slide bar is slidably connected in the limiting slide ways, and the fixed end of the electric push rod is connected with the side wall of the device shell in an assembling manner.

In one possible implementation, a wind speed sensor is connected to the top inner wall of one side of the device housing in a fitting manner, and the wind speed sensor is located on one side of the dust screen.

In one possible implementation manner, an air inlet is machined in the center of the air inlet baffle at the top, and the air speed sensor is movably connected to the inside of the air inlet.

In one possible implementation manner, the output end of the wind speed sensor is connected with a controller, the output end of the controller is connected with the input end of the electric push rod, the controller is connected to the bottom of one side of the device shell in an assembling manner, and a second cover plate is connected to the bottom of one side of the device shell in an assembling manner and encapsulates the controller inside the device shell.

In one possible embodiment, the first cover plate is provided with an integrated rear wing.

In one possible implementation, the support plate length is less than or equal to the housing side length.

In summary, the present utility model includes at least one of the following beneficial technical effects:

when the magnetic levitation wind driven generator works under the action of the power generation component in the wind power, the generated electric energy can be stored in the storage batteries by means of the prior art, and when the electric energy is configured to the automobile battery and the electronic components in the breeze power generation device main body, the auxiliary power supply system can provide assistance for the existing automobile power supply system, so that the integral cruising ability of the automobile is improved;

when wind flows through the inside of the device shell, the wind passes through the outside of the magnetic suspension wind driven generators and the air outlet channel between the two adjacent storage batteries in the longitudinal direction, so that the heat dissipation effect can be ensured for the magnetic suspension wind driven generators and the storage batteries in the process of generating electricity by using natural wind;

the wind speed of wind flowing into the device shell is monitored by utilizing the wind speed sensor, when the wind speed monitored by the wind speed sensor exceeds a specified range, the movable end of the electric push rod extends out of the inside of the fixed end, so that the control slide rod slides towards the center of the control strip at one end of the limiting slide way to drive the two air inlet baffles to rotate around the hinge point, a channel at one side of the device shell is closed, the internal device of the device shell can be protected, the power generation work is stopped, and the actual use requirement can be met;

through the center processing air intake at top air inlet baffle, when top air inlet baffle rotates around its articulated point with the device shell, wind speed sensor can be at the inside activity of air intake to real-time supervision wind speed size, be convenient for in time utilize controller and electric putter to open or close the passageway of two air inlet baffles with device shell one side through control strip and control slide bar.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the structure of the housing of the device of the present utility model;

FIG. 3 is a cross-sectional view of the housing of the device of the present utility model;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3 in accordance with the present utility model;

fig. 5 is a schematic view of the structure of the two air inlet baffles in the unfolded state.

Fig. 6 is a schematic structural diagram of another embodiment of the present utility model.

Description of the drawings: 1. breeze power generation device body; 11. a device housing; 12. a second cover plate; 13. a dust screen; 14. a louver board; 15. A first cover plate; 151. a tail wing; 16. taking out the notch; 17. a battery carrier; 18. a storage battery; 19. magnetic suspension wind power generator; 110. a controller; 111. an electric push rod; 112. a control bar; 113. an air inlet; 114. an air inlet baffle; 115. a wind speed sensor; 116. a control slide bar; 117. limiting slide ways; 2. A mounting mechanism; 21. a support plate; 22. and (5) hanging a rack.

Description of the embodiments

The technical scheme in the embodiment of the application aims to solve the problems of the background technology, and the overall thought is as follows:

examples

The embodiment introduces a specific structure of an automobile breeze power generation device, and specifically referring to fig. 1-5, the breeze power generation device comprises a breeze power generation device main body 1 and a mounting mechanism 2, wherein the breeze power generation device main body 1 comprises a device shell 11, a plurality of magnetic suspension wind power generators 19 are connected on the inner wall of the bottom of one side of the device shell 11 in an assembling manner, a battery carrier 17 is connected on the inner wall of the bottom of the other side of the device shell 11 in an assembling manner, and a plurality of storage batteries 18 are connected in the inner assembling manner of the battery carrier 17;

the two ends of the device shell 11 are both openings, when the device shell 11 moves along with the running of a vehicle, wind enters the device shell 11 through the opening on one side of the device shell 11, and after the magnetic suspension wind driven generator 19 generates electricity by wind power, the magnetic suspension wind driven generator can pass through an air outlet channel between two adjacent storage batteries 18 in the longitudinal direction and finally flows out from the opening on the other side of the device shell 11;

secondly, when wind passes through the inside of the device shell 11 in the running process of the automobile, the wind firstly enters the dustproof net 13 assembled on one side of the device shell 11, the dustproof net 13 blocks foreign matters, the foreign matters are prevented from damaging the magnetic suspension wind driven generator 19, and when the wind passes through the other side of the device shell 11, the wind can flow out from between the plurality of shutter plates 14 fixed on the inner wall of the other side of the device shell 11;

furthermore, the magnetic levitation wind power generator 19 is driven by wind power to work by the power generation assembly inside, the generated electric energy is stored inside the storage batteries 18 by means of the prior art, and the electric energy stored inside the storage batteries 18 is mainly provided for the automobile battery and electronic components inside the breeze power generation device main body 1, so that the whole cruising ability of the automobile is improved;

further, in order to facilitate assembling different numbers of storage batteries 18 in the battery carrier 17 according to actual use conditions, the limit of the electric quantity stored by the storage batteries 18 is raised, a taking and discharging slot 16 is processed at the top of one side of the device shell 11, a first cover plate 15 is assembled in the taking and discharging slot 16, and when the storage batteries 18 need to be disassembled, the storage batteries 18 can be exposed outside by disassembling the first cover plate 15;

further, the first cover plate 15 is provided with an integrated tail 151, so that the wind resistance effect can be reduced.

The mounting mechanism 2 comprises two support plates 21, and the tops of the support plates 21 are connected with a hanging frame 22 through bolts in an assembling mode;

wherein, two backup pads 21 symmetry are fixed in the outer wall department of device shell 11 both sides, after the automobile body support connection of stores pylon 22 and automobile body top first half, can be with the whole fixed of automobile body support of breeze power generation device main part 1 and automobile body top first half through assembling backup pad 21 and stores pylon 22, make the automobile travel in-process, can utilize wind power generation.

The length of the support plate 21 is less than or equal to the length of the side edge of the housing 11. When the length of the hanging frame 22 is smaller than that of the side edge of the shell 11 shown in fig. 1, the hanging frame 22 can be fixedly arranged on the private car together with a luggage rack on the upper portion of the private car, and when the length of the hanging frame 22 is equal to that of the side edge of the shell 11 shown in fig. 6, the hanging frame 22 can be connected with a link shaft above the truck head position or a connecting rod is welded above the truck and is fixedly arranged on the truck in a matched mode with the hanging frame 22.

By adopting the technical scheme:

according to the design, wind flows in the device shell 11 in the running process of the automobile, when the magnetic suspension wind driven generator 19 is driven by wind power to drive the internal power generation assembly to work, the generated electric energy can be stored in the plurality of storage batteries 18 by means of the prior art, and the stored electric energy is mainly supplied to the automobile battery and electronic components in the breeze power generation device main body 1, so that the integral cruising ability of the automobile is improved;

in addition, when the automobile is in a parking state, flowing air enters the device shell 11 and reaches a certain speed, the plurality of storage batteries 18 can still be charged, so that the storage batteries 18 can still charge the automobile batteries in a stationary state of the automobile, and the use effect is ensured;

meanwhile, when wind flows through from the inside of the device housing 11, it is possible to dissipate heat for the plurality of magnetic levitation wind power generators 19 and the plurality of storage batteries 18 simultaneously by means of natural wind in the course of power generation when passing through the outside of the plurality of magnetic levitation wind power generators 19 and the air outlet duct between the adjacent two storage batteries 18 in the longitudinal direction.

Examples

Based on embodiment 1, this embodiment describes a specific structure of the device housing 11, wherein the top and bottom inner walls of the device housing 11 near the dust screen 13 are both hinged with an air inlet baffle 114, two ends of one side of the air inlet baffle 114 are both connected with a control slide bar 116 in a pin joint manner, control strips 112 are arranged outside the upper and lower control slide bars 116, and one side of the control strip 112 is connected with an electric push rod 111 in an assembling manner;

wherein, the top and bottom of the control bar 112 are both processed with a limit slideway 117, and the fixed end of the electric push rod 111 is assembled with the side wall of the device shell 11, when the movable end of the electric push rod 111 is retracted into the fixed end, the air inlet baffle 114 can be driven by the control bar 112 and the control slide bar 116 to rotate around the hinge point of the air inlet baffle 114 and the inner wall of the device shell 11, so that the passage of the device shell 11 close to the dust screen 13 is opened, and the wind can smoothly enter the interior of the device shell 11;

meanwhile, in the process that the control bar 112 pushes and pulls the control slide bar 116, one end of the control slide bar 116 slides in the limiting slide way 117, and the groove length of the limiting slide way 117 is the same as the radius of a circle when the air inlet baffle 114 rotates around the hinge point of the air inlet baffle and the inner wall of the device shell 11;

next, a wind speed sensor 115 is mounted on the top inner wall of the device housing 11, the wind speed sensor 115 is located on the dust screen 13, when wind enters the device housing 11, the wind speed sensor 115 can detect the wind speed, when the wind speed affects the magnetic levitation wind power generator 19 and other parts to generate electricity too fast, the wind speed sensor 115 transmits an electric signal to the controller 110 connected with the output end of the wind speed sensor, and at this time, the controller 110 outputs the electric signal to control the movable end of the electric push rod 111 to extend out of the fixed end.

In order to enable the wind speed sensor 115 to continuously detect the wind speed of wind entering the device housing 11, the air inlet 113 is formed in the center of the air inlet baffle 114 at the top, when the air inlet baffle 114 at the top rotates around the hinge point of the air inlet baffle 114 and the inner wall of the device housing 11, the wind speed sensor 115 moves in the air inlet 113, and in the state that the internal channel of the device housing 11 is opened or closed, the wind speed sensor 115 can monitor the wind speed, so that the controller 110 and the electric push rod 111 can be conveniently utilized to control the two air inlet baffles 114 to open or close the channel on one side of the device housing 11 through the control bar 112 and the control slide bar 116 in time.

The specific working steps are as follows:

s1, enabling wind to flow in from one side of the device shell 11 close to the dust screen 13 and flow out from among the plurality of shutter plates 14 when the automobile runs, monitoring wind speed by a wind speed sensor 115, and driving a magnetic suspension wind driven generator 19 to rotate;

s2, the power generation assembly inside the rotating magnetic suspension wind driven generator 19 works, the generated electric energy is stored inside a plurality of storage batteries 18 by means of the prior art, and meanwhile, the heat emitted by the magnetic suspension wind driven generator 19 and the storage batteries 18 is taken out from the inside of the device shell 11 by means of flowing wind;

s3, when the wind speed monitored by the wind speed sensor 115 is suitable for the generation of components such as the magnetic suspension wind driven generator 19, the movable end of the electric push rod 111 is retracted into the fixed end, so that the control slide rod 116 slides to one end from the center of the control strip 112 in the limiting slide way 117, the two air inlet baffles 114 rotate around the hinge points of the two air inlet baffles and the inner wall of the device shell 11, and finally, the channel in the device shell 11 is completely opened;

s4, when the wind speed monitored by the wind speed sensor 115 exceeds a specified range, the movable end of the electric push rod 111 extends out of the inside of the fixed end, the control bar 112 is pushed to move to one side of the dust screen 13, the control slide bar 116 slides to the center of the control bar 112 at one end of the limiting slide way 117, the air inlet baffle 114 is driven to rotate around the hinge point, a channel at one side of the device shell 11 is closed, and at the moment, breeze still flows into the inside of the device shell 11 through the storage battery 18, and the wind speed is monitored by the wind speed sensor 115.

By adopting the technical scheme:

according to the design, the wind speed of wind flowing into the device shell 11 is monitored by the wind speed sensor 115, when the wind speed is suitable for power generation of components such as the magnetic suspension wind driven generator 19, the wind speed sensor 115 transmits signals to the controller 110 to enable the movable end of the electric push rod 111 to retract into the fixed end, the control slide rod 116 slides from the center of the control strip 112 to one end in the limiting slide way 117, the two air inlet baffles 114 rotate to completely open a channel in the device shell 11, when the wind speed monitored by the wind speed sensor 115 exceeds a specified range, the movable end of the electric push rod 111 extends out of the fixed end, the control slide rod 116 slides towards the center of the control strip 112 at one end of the limiting slide way 117 to drive the two air inlet baffles 114 to rotate around a hinge point, and the channel on one side of the device shell 11 is closed, so that devices in the device shell 11 can be protected, and practical use requirements are met.

Finally, it should be noted that: it is apparent that the above examples are only illustrative of the present utility model and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (10)

1. The utility model provides a car breeze power generation facility which characterized in that includes:

the breeze power generation device comprises a breeze power generation device main body (1) which is used for generating power by utilizing wind power in the running process of an automobile, wherein the breeze power generation device main body (1) comprises a device shell (11), both ends of the device shell (11) are provided with openings, a plurality of magnetic suspension wind power generators (19) are connected with the inner wall of the bottom of one side of the device shell (11) in an assembling manner, a battery carrier (17) is connected with the inner wall of the bottom of the other side of the device shell (11) in an assembling manner, and a plurality of storage batteries (18) are connected with the inner assembling type of the battery carrier (17);

the mounting mechanism (2) is used for being connected with a vehicle body bracket of the front half part of the top of the vehicle body, the mounting mechanism (2) comprises two support plates (21), and the top of each support plate (21) is connected with a hanging frame (22) through a bolt in an assembling manner;

an air outlet channel is formed between two adjacent storage batteries (18) in the longitudinal direction, the storage batteries (18) in the longitudinal direction are positioned between two adjacent magnetic suspension wind driven generators (19), two support plates (21) are symmetrically fixed at the outer walls of two sides of the device shell (11), and the storage batteries (18) respectively supply power for the automobile battery and electronic components in the breeze power generation device main body (1).

2. The automotive breeze power generation device of claim 1, wherein: one side of the device shell (11) is connected with a dustproof net (13) in an assembling mode, and a plurality of shutter plates (14) are fixedly connected to the inner wall of one side of the device shell (11).

3. The automotive breeze power generation device of claim 1, wherein: the top of one side of the device shell (11) is provided with a detaching notch (16), and a first cover plate (15) is connected to the inside of the detaching notch (16) in an assembling mode.

4. The automotive breeze-power generation device according to claim 2, wherein: the device is characterized in that the top and bottom inner walls of the device shell (11) close to one side of the dust screen (13) are hinged to an air inlet baffle (114), two ends of one side of the air inlet baffle (114) are connected with a control slide rod (116) in a pin joint mode, a control strip (112) is arranged outside the upper control slide rod (116) and the lower control slide rod (116), and one side of the control strip (112) is connected with an electric push rod (111) in an assembling mode.

5. The automobile breeze power generation device as defined in claim 4, wherein: the top and the bottom of control strip (112) all are processed spacing slide (117), the inside at spacing slide (117) is connected to the one end sliding type of control slide bar (116), the stiff end and the lateral wall assembly type of device shell (11) of electric putter (111) are connected.

6. The automobile breeze power generation device as defined in claim 4, wherein: the top inner wall at one side of the device shell (11) is connected with a wind speed sensor (115) in an assembling mode, and the wind speed sensor (115) is located at one side of the dust screen (13).

7. The automotive breeze power generation device according to claim 6, wherein: the center of the air inlet baffle plate (114) at the top is provided with an air inlet (113), and the air speed sensor (115) is movably connected to the inside of the air inlet (113).

8. The automotive breeze power generation device according to claim 6, wherein: the output end of the wind speed sensor (115) is connected with a controller (110), the output end of the controller (110) is connected with the input end of the electric push rod (111), the controller (110) is connected to the bottom of one side of the device shell (11) in an assembling mode, a second cover plate (12) is connected to the bottom of one side of the device shell (11) in an assembling mode, and the controller (110) is packaged in the device shell (11) through the second cover plate (12).

9. A breeze electric power generation device of an automobile as defined in claim 3, wherein: the first cover plate (15) is provided with an integrated tail wing (151).

10. The automotive breeze power generation device of claim 1, wherein: the length of the supporting plate (21) is smaller than or equal to the length of the side edge of the shell (11).