CN208718854U - Apply the energy storage device on vehicle - Google Patents
Apply the energy storage device on vehicle Download PDFInfo
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- CN208718854U CN208718854U CN201820824701.0U CN201820824701U CN208718854U CN 208718854 U CN208718854 U CN 208718854U CN 201820824701 U CN201820824701 U CN 201820824701U CN 208718854 U CN208718854 U CN 208718854U
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Abstract
The utility model relates to a kind of energy storage devices applied on vehicle, wherein applying the energy storage device on vehicle includes the electric power generating motor of vehicle and the accelerating pulley group that engages with electric power generating motor input gear, the input end gear of the accelerating pulley group is engaged with the output gear of clockwork spring wheel, the first end of round clockwork spring is fixedly connected on the clockwork spring wheel, the second end of the circle clockwork spring is fixedly connected with gear of winding up, the gear of winding up is engaged with the first upper sprocket wheel, first upper sprocket wheel is engaged with the output gear of bi-directional drive spine mechanism, the input gear of bi-directional drive spine mechanism is engaged with the second upper sprocket wheel, the second upper sprocket wheel engagement is engaged with the output wheel of vertical wheel, the wheel for inputting of the vertical wheel is engaged with rack, the rack gear both ends are movably articulated on vehicle frame, the vertical wheel is hinged in vehicle bridge.The utility model can will in vehicle driving caused by, originally be waste energy, again through clockwork spring carry out energy storage and energy release, be conducive to the utilization of discarded energy.
Description
Technical field:
The utility model relates to a kind of energy storage devices applied on vehicle.
Background technique:
Vehicle becomes one of the main means of transport of people's trip at present, and vehicle needs to expend many combustions in the process of moving
The energy such as oil, and this process wastes many energy, for example, the swing energy of vehicle body, vibrational energy, brake can etc., the portion at present
Energy is divided all not to be utilized effectively, to cause huge waste.
Summary of the invention:
The purpose of this utility model is to be to provide a kind of energy storage device applied on vehicle, this is applied on vehicle
Energy storage device structure is simple, design is reasonable, is conducive to the energy for collecting vehicle travel process waste.
The utility model applies the energy storage device on vehicle, it is characterised in that: electric power generating motor including vehicle and with hair
The accelerating pulley group of electric notor input gear engagement, the input end gear of the accelerating pulley group are engaged with the output gear of clockwork spring wheel,
The first end of round clockwork spring, the second end of the circle clockwork spring and the fixed company of gear of winding up are fixedly connected on the clockwork spring wheel
It connects, the gear of winding up is engaged with the first upper sprocket wheel, and first upper sprocket wheel and the output gear of bi-directional drive spine mechanism are nibbled
It closes, the input gear of bi-directional drive spine mechanism is engaged with the second upper sprocket wheel, and the second upper sprocket wheel engagement is defeated with vertical wheel
Wheel engagement, the wheel for inputting of the vertical wheel are engaged with rack out, and the rack gear both ends are movably articulated on vehicle frame, and the vertical wheel is hinged
In vehicle bridge;The rack gear level is located on vehicle frame, and the vertical wheel is horizontally disposed and axial line and rack gear Vertical Meshing.
Further, by several, successively meshed gears constitutes deceleration output to above-mentioned accelerating pulley group.
Further, one end of above-mentioned vertical wheel is straight-tooth, is engaged with rack, and the other end is to engage with the second upper sprocket wheel
Bevel gear.
Further, above-mentioned gear of winding up is engaged with the output end of the second ratio wheel group, the second ratio wheel group
Input end gear is angular wheel, the cone tooth engagement of the angular wheel and a clutch wheel end, is arranged on the castle wheel
Brake disc, castle wheel can axially slide, and the brake disc periphery is equipped with brake callipers, and the castle wheel rear end reclines and brake oil
Pump the piston of connection.
Further, above-mentioned gear of winding up is engaged with the output end of third ratio wheel group, the third ratio wheel group
Input end gear is angular wheel, the cone tooth engagement of the angular wheel and clutch lifting wheel end, the clutch lifting wheel
Outer end be fixedly connected with wheel, the top of the clutch lifting wheel is equipped with liftable push rod, under the clutch lifting wheel
Side is equipped with returning spring.
Further, the input gear of above-mentioned bi-directional drive spine mechanism is also engaged with the input gear of eccentric autoplugger, institute
Stating eccentric autoplugger includes input gear and coaxial eccentric block;The side of the gear of winding up is equipped with the reed of V-arrangement;It is described
By several, successively meshed gears is constituted accelerating pulley group.
The utility model applies the working method of the energy storage device on vehicle, the energy storage device applied on vehicle
Electric power generating motor including vehicle and the accelerating pulley group engaged with electric power generating motor input gear, the input end gear of the accelerating pulley group
It is engaged with the output gear of clockwork spring wheel, is fixedly connected with the first end of round clockwork spring on the clockwork spring wheel, the of the circle clockwork spring
Two ends are fixedly connected with gear of winding up, and the gear of winding up is engaged with the first upper sprocket wheel, first upper sprocket wheel with it is two-way
The output gear engagement of spine mechanism is driven, the input gear of bi-directional drive spine mechanism engages with the second upper sprocket wheel, and described the
The engagement of two upper sprocket wheels is engaged with the output wheel of vertical wheel, and the wheel for inputting of the vertical wheel is engaged with rack, rack gear both ends moveable hinge
It connects on vehicle frame, the vertical wheel is hinged in vehicle bridge;When work, under steam, vehicle body drives the left and right vibration of vehicle frame to vehicle, pushes away
The left and right movement of carry-over bar, rack drives vertical wheel rotation, then drives the second upper sprocket wheel to rotate, and the second upper sprocket wheel drives two-way drive
The input gear of Dong Ji mechanism rotates, and the effect of bi-directional drive spine mechanism is, no matter the second upper sprocket wheel rotate clockwise or
It rotates clockwise, after bi-directional drive spine mechanism, the direction for being transferred to the first upper sprocket wheel is the same, and the first upper sprocket wheel is again
Drive winds up to take turns and wind up in a direction, and clockwork spring wheel drives the rotation of accelerating pulley group and electric power generating motor power generation again, realizes vehicle
Left and right vibrational energy be converted to electric energy.
The utility model applies the working method of the energy storage device on vehicle, applies the energy storage device on vehicle to include
The electric power generating motor of vehicle and the accelerating pulley group engaged with electric power generating motor input gear, the input end gear and hair of the accelerating pulley group
The output gear of item wheel engages, and the first end of round clockwork spring, the second end of the circle clockwork spring are fixedly connected on the clockwork spring wheel
Gear is fixedly connected with winding up, and the gear of winding up is engaged with the output end of the second ratio wheel group, second ratio wheel
The input end gear of group is angular wheel, and the cone tooth engagement of the angular wheel and a clutch wheel end covers on the castle wheel
Equipped with brake disc, castle wheel can axially be slid, and the brake disc periphery is equipped with brake callipers, and the castle wheel rear end reclines and makes
The piston of dynamic oil pump connection;When work, castle wheel is cooperated by spline and brake disc, and when braking, castle wheel is just existed by piston
Close to cone pulley under the promotion of brake pump, castle wheel is engaged with cone pulley, and the rotation of wheel drives castle wheel rotation, then drives cone pulley
Rotation, cone pulley drives the second ratio wheel group again and gear rotation of winding up, realization are wound up, and spring gear drives accelerating pulley group again
Rotation and electric power generating motor power generation, realize that the rotation of the brake rear wheel of vehicle can be converted to electric energy.
The utility model applies the working method of the energy storage device on vehicle, applies the energy storage device on vehicle to include
The electric power generating motor of vehicle and the accelerating pulley group engaged with electric power generating motor input gear, the input end gear and hair of the accelerating pulley group
The output gear of item wheel engages, and the first end of round clockwork spring, the second end of the circle clockwork spring are fixedly connected on the clockwork spring wheel
Gear is fixedly connected with winding up, and input gear of the input gear of bi-directional drive spine mechanism also with eccentric autoplugger is nibbled
It closes, the bias autoplugger includes input gear and coaxial eccentric block;Wind up gear and the third ratio wheel group it is defeated
Outlet engagement, the input end gear of the third ratio wheel group are angular wheel, the angular wheel and a clutch lifting wheel end
The cone tooth engagement in portion, the outer end of the clutch lifting wheel are fixedly connected with wheel, and the top of the clutch lifting wheel is equipped with can
Push rod is gone up and down, liftable push rod and linkage brake are gone up and down, and the lower section of the clutch lifting wheel is equipped with returning spring;When work,
Under the promotion of brake hydraulic, push rod and wheel are pushed away down, make wheel and ground face contact, while cone tooth and conical tooth on wheel
Wheel engagement, wheel are rotated as wheel, and the rotation of wheel drives angular wheel rotation, and the rotation of angular wheel drives third again
Ratio wheel group and gear rotation of winding up, realization are wound up, and spring gear drives the rotation of accelerating pulley group and electric power generating motor power generation again,
Realize that the rotation of the brake rear wheel of vehicle can be converted to electric energy.
The utility model applies the working method of the energy storage device on vehicle, the energy storage device applied on vehicle
Electric power generating motor including vehicle and the accelerating pulley group engaged with electric power generating motor input gear, the input end gear of the accelerating pulley group
It is engaged with the output gear of clockwork spring wheel, is fixedly connected with the first end of round clockwork spring on the clockwork spring wheel, the of the circle clockwork spring
Two ends are fixedly connected with gear of winding up, and the gear of winding up is engaged with the first upper sprocket wheel, first upper sprocket wheel with it is two-way
Drive the output gear engagement of spine mechanism, input gear of the input gear of bi-directional drive spine mechanism also with eccentric autoplugger
Engagement, the bias autoplugger includes input gear and coaxial eccentric block;The bias of autoplugger weight, in vehicle driving mistake
Journey, eccentric autoplugger are hit under the action of power and can rotate, by bi-directional drive spine mechanism, to wind up wheel in a direction on
Clockwork spring, clockwork spring wheel drive the rotation of accelerating pulley group and electric power generating motor power generation again, realize that the vibrational energy of vehicle is converted to electric energy.
The utility model apply the energy storage device on vehicle can will in vehicle driving caused by, originally be waste
Energy is stored into battery so that electric power generating motor be driven to rotate again through the release that clockwork spring carries out energy storage and energy again after power generation
It is interior, be conducive to the utilization of discarded energy, improve energy utilization rate.
Detailed description of the invention:
Fig. 1 be the utility model electric power generating motor and accelerating pulley group, clockwork spring wheel, round clockwork spring, gear of winding up connection structure
Make schematic diagram (being applicable in embodiment 1-5);
Fig. 2 is that the utility model embodiment one is wound up the connection structure of gear and bi-directional drive spine mechanism, vertical wheel, rack gear etc.
Make schematic diagram;
Fig. 3 is the connection structure diagram of Fig. 2 middle rack and vertical wheel;
Fig. 4 is the local structure schematic diagram of Fig. 3;
Fig. 5 is the main view organigram of the utility model embodiment two;
Fig. 6 is the local structure schematic diagram of Fig. 5;
Fig. 7 is the connection structure diagram of Fig. 5 middle rack and vertical wheel;
Fig. 8 is the main view organigram of the utility model embodiment three;
Fig. 9 is the organigram (meshing state) of the connections such as the second ratio wheel group and castle wheel in Fig. 8;
Figure 10 is the organigram (discrete state) of the connections such as the second ratio wheel group and castle wheel in Fig. 8;
Figure 11 is the main view organigram of the utility model embodiment four;
Figure 12 is the organigram (meshing state) of the connections such as third ratio wheel group and lifting castle wheel in Figure 11;
Figure 13 is the organigram (discrete state) of the connections such as third ratio wheel group and lifting castle wheel in Figure 11;
Figure 14 is the main view organigram of the utility model embodiment five;
Figure 15 is the schematic diagram of bi-directional drive spine mechanism;
Figure 16 is the organigram of the first reverse wheel;
Figure 17 is the organigram of the second reverse wheel;
Figure 18 is the decomposition organigram of the first reverse wheel;
Figure 19 is the decomposition organigram of the second reverse wheel.
Specific embodiment:
The utility model method is described in further detail below with reference to embodiment.It should be strongly noted that this
The protection scope of utility model should include but is not limited to technology contents disclosed in the present embodiment.
Embodiment one (picture 1-4), it includes the electric power generating motor 1 of vehicle that the utility model, which applies the energy storage device on vehicle,
With the accelerating pulley group 3 engaged with 1 input gear 2 of electric power generating motor, the input end gear 4 of the accelerating pulley group 3 is defeated with clockwork spring wheel 5
Gear 6 engages out, is fixedly connected with the first end of round clockwork spring 7 on the clockwork spring wheel 5, the second end of the circle clockwork spring 7 with it is upper
Spring gear 8 is fixedly connected, and the gear 8 of winding up is engaged with the first upper sprocket wheel 9, first upper sprocket wheel 9 and bi-directional drive
The output gear 11 of spine mechanism 10 engages, and the input gear 12 of bi-directional drive spine mechanism 10 is engaged with the second upper sprocket wheel 13,
The engagement of second upper sprocket wheel 13 is engaged with the output wheel 15 of vertical wheel 14, and the wheel for inputting 16 of the vertical wheel 14 is engaged with rack gear 17,
17 both ends of rack gear are movably articulated on vehicle frame 18, and the vertical wheel 14 is hinged in vehicle bridge 19.
Bi-directional drive spine mechanism 10 includes the first reverse wheel 101 and the second reverse wheel 102,
First reverse wheel 101 includes that piece 1011 and the first lower whorl piece 1012 are taken turns on first be coaxially socketed, and described the
On piece is taken turns on one and is hinged with the first push rod 1013 close to the first lower whorl piece side, and the first lower whorl piece takes turns piece one on first
Side is equipped in first flower tooth 1015 outside flower tooth 1014 and first, and the limit of the first push rod 1013 is in first outside flower tooth 1014 and first
Between flower tooth 1015, first push rod free end is in first in flower tooth.
Second reverse wheel includes that piece 1021 and the second lower whorl piece 1022 are taken turns on second be coaxially socketed, on described second
It takes turns on piece and is hinged with the second push rod 1023 close to the second lower whorl piece side, the second lower whorl piece is taken turns piece side on second and set
Have and spend tooth 1026 in second outside flower tooth 1024 and second, flower tooth outside tooth 1024 and second is spent in the limit of the second push rod 1023 in second
Between 1026,1023 free end of the second push rod is in second in flower tooth;The second commutation wheel surface is equipped with and second
The axis tooth 1025 that lower whorl piece is fixedly and coaxially connected.
First push rod 1013 and the second push rod 1023 are curved rod, and the hinged end of the two is on the contrary, i.e. the first push rod 1013
Hinged end is close to the end rotated clockwise, i.e., the hinged end of the second push rod 1023 is close to the head end rotated clockwise.
First lower whorl piece 1012 of first reverse wheel is engaged with 1022 tooth form of the second lower whorl piece of the second reverse wheel,
Taken turns on the first of first reverse wheel taken turns on the second of piece 1011 and the second reverse wheel piece 1021 respectively with the second cochain
13 engagement of wheel, the input tooth engagement of the axis tooth 1025 and the first upper sprocket wheel 9.
The articulated shaft of first push rod 1013 and the second push rod 1023 is equipped with torsionspring, which is fixed on
It is taken turns on first on piece or second and takes turns on piece, the other end is fixed on push rod, has the first push rod 1013 and the second push rod 1023
Toward the trend of lower whorl piece periphery rotation.
The working principle of bi-directional drive spine mechanism 10:
Firstly, driving the first push rod 1013 to rotate clockwise, the first push rod when wheel piece 1011 rotates clockwise on first
On 1013 the first lower whorl of urged clockwise pieces 1012 first in flower tooth 1014, rotate clockwise the first lower whorl piece 1012 also;
And when wheel piece 1011 rotates counterclockwise on first, drive the first push rod 1013 to rotate counterclockwise, the first push rod 1013 is suitable at this time
Hour hands are spent in the space outside tooth 1014 and first between flower tooth 1015 in first and slide rotation, do not push the first lower whorl piece 1012
Unidirectional output is realized in rotation.
Secondly, driving the second push rod 1023 to rotate clockwise, the second push rod when wheel piece 1021 rotates clockwise on second
1023 are located at flower tooth 1024 and second in second spends sliding in 1026 space of tooth to rotate outside, does not push 1022 turns of the second lower whorl piece
It is dynamic;And when wheel piece 1021 rotates counterclockwise on second, drive the second push rod 1023 to rotate counterclockwise, 1023 inverse time of the second push rod
Needle pushes flower tooth 1024 in second to rotate, and rotates counterclockwise the second lower whorl piece 1022, that is, realizes unidirectional output.
When work, when the second upper sprocket wheel 13 rotates clockwise, drives and take turns 1011 inverse time of piece on the first of the first reverse wheel
Needle rotates, and the first push rod 1013 in the first reverse wheel dallies in flower tooth, does not drive the first lower whorl piece 1012 to rotate, but at this time
Piece 1021 is taken turns on the second of second reverse wheel also to rotate counterclockwise, and the second push rod 1023 in it is driven to rotate counterclockwise, second
Push rod 1023 push counterclockwise on the second lower whorl piece 1022 second in flower tooth 1024 rotate, make the second lower whorl piece 1022 also inverse time
Needle rotates, and axis tooth 1025 is fixed with below the second lower whorl piece 1022, and axis tooth 1025 drives the first upper sprocket wheel 9 to rotate clockwise, together
When the second reverse wheel the second lower whorl piece 1022 also engaged with the first lower whorl piece 1012 of the first reverse wheel, drive the first lower whorl piece
1012 idle running clockwise.
When the second upper sprocket wheel 13 rotates counterclockwise, wheel piece 1011 on the first of the first reverse wheel is driven to rotate clockwise,
The interior colored tooth on 1013 the first lower whorl of urged clockwise piece 1012 of the first push rod in first reverse wheel, makes the first lower whorl piece 1012
Also it rotates clockwise, while taking turns piece 1021 and the second push rod 1023 on the second reverse wheel second and spending sky in tooth 1024 in second
Turn, does not drive the second lower whorl piece 1022;But the second lower whorl piece 1022 and the engagement of the first lower whorl piece 1012, the first lower whorl piece 1012 are suitable
Hour hands rotation drives the second lower whorl piece 1022 to rotate counterclockwise, even if axis tooth 1025 drives the first upper sprocket wheel 9 to rotate clockwise, institute
All to rotate clockwise regardless of which the direction rotation of the second upper sprocket wheel 13, the first upper sprocket wheel 9, clockwork spring wheel 5 is driven by gear
Cochain.
Above-mentioned rack gear 17 is that longitudinal direction is located on vehicle frame 18, and the vertical wheel is horizontally disposed, the circumferential direction of the gear of winding up
It is vertically arranged equipped with four group of first upper sprocket wheel, bi-directional drive spine mechanism, the second upper sprocket wheel, vertical wheel and rack gear, two adjacent teeth item, and
Centre is connected by a hinge plate 20, hinge plate include two it is connected vertically turn shape bar 21, on the both ends for turning shape bar respectively
It is socketed the end bar 22 of rack gear.
When work, under steam, vehicle body drives vehicle frame upper and lower or left and right vibration to vehicle, pushes rack gear upper and lower or left and right
Mobile, the rotation of rack drives vertical wheel then drives the second upper sprocket wheel to rotate, and the second upper sprocket wheel drives the defeated of bi-directional drive spine mechanism
Enter gear rotation, the effect of bi-directional drive spine mechanism is no matter the second upper sprocket wheel is rotated clockwise or rotated clockwise, and is led to
After crossing bi-directional drive spine mechanism, the direction for being transferred to the first upper sprocket wheel is the same, and the first upper sprocket wheel drives wheel of winding up again
Wind up in a direction, clockwork spring wheel drive again accelerating pulley group rotation and electric power generating motor power generation, realize vehicle it is upper and lower or left,
Right vibrational energy is converted to electric energy.
The train group wound up is train of reduction gears, and the gear set of clockwork spring to power generation is accelerating gear group.
Embodiment two (such as Fig. 1,5-7), it includes the power generation horse of vehicle that the utility model, which applies the energy storage device on vehicle,
Up to 1 and the accelerating pulley group 3 that is engaged with 1 input gear 2 of electric power generating motor, the input end gear 4 and clockwork spring wheel 5 of the accelerating pulley group 3
Output gear 6 engage, the first end of round clockwork spring 7, the second end of the circle clockwork spring 7 are fixedly connected on the clockwork spring wheel 5
Gear 8 is fixedly connected with winding up, and the gear 8 of winding up is engaged with the first upper sprocket wheel 9, first upper sprocket wheel 9 with it is two-way
The output gear 11 of spine mechanism 10 is driven to engage, the input gear 12 of bi-directional drive spine mechanism 10 is nibbled with the second upper sprocket wheel 13
It closes, the engagement of the second upper sprocket wheel 13 is engaged with the output wheel 15 of vertical wheel 14, and wheel for inputting 16 and the rack gear 17 of the vertical wheel 14 are nibbled
It closes, 17 both ends of rack gear are movably articulated on vehicle frame 18, and the vertical wheel 14 is hinged in vehicle bridge 19.
Above-mentioned rack gear is that level is located on vehicle frame, the vertical wheel be it is horizontally disposed and with rack gear Vertical Meshing, the upper hair
Bar gear is circumferentially with four group of first upper sprocket wheel, bi-directional drive spine mechanism, the second upper sprocket wheel, vertical wheel and rack gear.
When work, under steam, vehicle body drives vehicle frame upper and lower or left and right vibration to vehicle, pushes rack gear upper and lower or left and right
Mobile, the rotation of rack drives vertical wheel then drives the second upper sprocket wheel to rotate, and the second upper sprocket wheel drives the defeated of bi-directional drive spine mechanism
Enter gear rotation, the effect of bi-directional drive spine mechanism is no matter the second upper sprocket wheel is rotated clockwise or rotated clockwise, and is led to
After crossing bi-directional drive spine mechanism, the direction for being transferred to the first upper sprocket wheel is the same, and the first upper sprocket wheel drives wheel of winding up again
Wind up in a direction, clockwork spring wheel drive again accelerating pulley group rotation and electric power generating motor power generation, realize vehicle it is upper and lower or left,
Right vibrational energy is converted to electric energy.
Embodiment three (such as Fig. 1,8-10), it includes the power generation horse of vehicle that the utility model, which applies the energy storage device on vehicle,
Up to 1 and the accelerating pulley group 3 that is engaged with 1 input gear 2 of electric power generating motor, the input end gear 4 and clockwork spring wheel 5 of the accelerating pulley group 3
Output gear 6 engage, the first end of round clockwork spring 7, the second end of the circle clockwork spring 7 are fixedly connected on the clockwork spring wheel 5
Gear 8 is fixedly connected with winding up, and above-mentioned gear 8 of winding up is engaged with the output end of the second ratio wheel group 23, and described second subtracts
The input end gear of fast wheel group 23 is angular wheel 24, and the angular wheel 24 is engaged with the cone tooth 26 of 25 end of a castle wheel,
Brake disc 27 is arranged on the castle wheel, castle wheel 25 can axially slide, and the brake disc periphery is equipped with brake callipers 28, institute
Castle wheel rear end is stated to recline the piston 29 connecting with brake pump 30.
When work, castle wheel is cooperated by spline and brake disc, and when braking, castle wheel is just by piston in brake pump
Lower close cone pulley is pushed, castle wheel is engaged with cone pulley, and the rotation of wheel drives castle wheel rotation, then cone pulley is driven to rotate, cone pulley
The second ratio wheel group is driven again and gear rotation of winding up, realization are wound up, and spring gear drives accelerating pulley group to rotate and send out again
Electric notor power generation, realizes that the rotation of the brake rear wheel of vehicle can be converted to electric energy.
Example IV (such as Fig. 1,11-13), it includes the power generation of vehicle that the utility model, which applies the energy storage device on vehicle,
Motor 1 and the accelerating pulley group 3 engaged with 1 input gear 2 of electric power generating motor, the input end gear 4 and clockwork spring wheel of the accelerating pulley group 3
5 output gear 6 engages, and the first end of round clockwork spring 7, the second end of the circle clockwork spring 7 are fixedly connected on the clockwork spring wheel 5
Gear 8 is fixedly connected with winding up, and gear 8 of winding up is engaged with the output end of third ratio wheel group 31, the third ratio wheel
The input end gear of group is angular wheel 32, and the angular wheel 32 is engaged with the cone tooth 34 of 33 end of a clutch lifting wheel, institute
The outer end for stating clutch lifting wheel is fixedly connected with wheel 35, and the top of the clutch lifting wheel is equipped with liftable push rod 36, institute
The lower section for stating clutch lifting wheel 33 is equipped with returning spring 37.
When work, under the promotion of brake hydraulic, push rod and wheel are pushed away down, make wheel and ground face contact, while attached
Cone tooth on wheel is engaged with angular wheel, and wheel is rotated as wheel, and the rotation of wheel drives angular wheel rotation, conical tooth
The rotation of wheel drives third ratio wheel group again and gear rotation of winding up, realization are wound up, and spring gear drives accelerating pulley group again
Rotation and electric power generating motor power generation, realize that the rotation of the brake rear wheel of vehicle can be converted to electric energy.
Embodiment five (such as Fig. 1,14), it includes the electric power generating motor of vehicle that the utility model, which applies the energy storage device on vehicle,
1 and the accelerating pulley group 3 that is engaged with 1 input gear 2 of electric power generating motor, the input end gear 4 of the accelerating pulley group 3 and clockwork spring wheel 5
Output gear 6 engages, and is fixedly connected with the first end of round clockwork spring 7 on the clockwork spring wheel 5, the second end of the circle clockwork spring 7 with
Gear 8 of winding up is fixedly connected, and the gear 8 of winding up is engaged with the first upper sprocket wheel 9, first upper sprocket wheel 9 and two-way drive
The output gear 11 of Dong Ji mechanism 10 engages, and the input gear 38 of above-mentioned bi-directional drive spine mechanism is also defeated with eccentric autoplugger 39
Enter gear engagement, the bias autoplugger includes input gear 40 and coaxial eccentric block 41.
In vehicle travel process, eccentric autoplugger is hit under the action of power and can rotate, and by bi-directional drive spine mechanism, gives
Wheel of winding up is wound up in a direction, and clockwork spring wheel drives the rotation of accelerating pulley group and electric power generating motor power generation again, realizes the vibration of vehicle
Kinetic energy is converted to electric energy.
In above-mentioned several embodiments, the side for gear of winding up is equipped with the reed 42 of V-arrangement;The accelerating pulley group, second subtract
Successively meshed gears is constituted by several for fast wheel group, third ratio wheel group, and accelerating pulley group subtracts with the second ratio wheel group, third
The connecting structure of fast wheel group is essentially identical, only the difference of gear ratio, and accelerating pulley group is made of three gears, and each gear has
There are gear wheel and pinion gear, adjacent pinion gear is engaged with gear wheel, to realize slow down output or input.
One end of vertical wheel is straight-tooth, is engaged with rack, and the other end is the bevel gear etc. engaged with the second upper sprocket wheel 13,
As long as it can be realized two engageable transmissions of the orthogonal gear of axial line.
The effect of bi-directional drive spine mechanism 10 is, on second engaged with the input gear 12 of bi-directional drive spine mechanism
Sprocket wheel 13 is rotated clockwise or is rotated clockwise, and after bi-directional drive spine mechanism, is transferred to the direction of the first upper sprocket wheel 9
It is the same.
In addition it is also possible to the electricity generated by solar energy, or storage is plugged in, or drive motor rotor rotation, so
The first upper sprocket wheel is driven by train afterwards, to clockwork spring cochain.
The utility model apply the energy storage device on vehicle can will in vehicle driving caused by, originally be waste
Energy is stored into battery so that electric power generating motor be driven to rotate again through the release that clockwork spring carries out energy storage and energy again after power generation
It is interior, be conducive to the utilization of discarded energy, improve energy utilization rate.
The above is only the preferred embodiment of the present invention, it is all done according to present utility model application the scope of the patents it is equal
Deng variation and modification, it should all belong to the covering scope of the utility model.
Claims (1)
1. a kind of energy storage device applied on vehicle, it is characterised in that: electric power generating motor including vehicle and defeated with electric power generating motor
Enter the accelerating pulley group of gear engagement, the input end gear of the accelerating pulley group is engaged with the output gear of clockwork spring wheel, the clockwork spring
Be fixedly connected with the first end of round clockwork spring on wheel, the second end of the circle clockwork spring is fixedly connected with gear of winding up, it is described on
Spring gear is engaged with the first upper sprocket wheel, and first upper sprocket wheel is engaged with the output gear of bi-directional drive spine mechanism, described double
It is engaged to the input gear of driving spine mechanism with the second upper sprocket wheel, the second upper sprocket wheel engagement is engaged with the output wheel of vertical wheel,
The wheel for inputting of the vertical wheel is engaged with rack, and the rack gear both ends are movably articulated on vehicle frame, and the vertical wheel is hinged in vehicle bridge;
The rack gear level is located on vehicle frame, and the vertical wheel is horizontally disposed and axial line and rack gear Vertical Meshing;The tooth of winding up
The side of wheel is equipped with the reed of V-arrangement, and an end of the reed abuts against in the tooth socket for gear of winding up;The accelerating pulley group by
Successively meshed gears constitutes output of slowing down for several;The gear of winding up is engaged with the output end of the second ratio wheel group, institute
The input end gear for stating the second ratio wheel group is angular wheel, the cone tooth engagement of the angular wheel and a clutch wheel end, institute
The brake disc that is arranged with and can axially slide on castle wheel is stated, the brake disc periphery is equipped with brake callipers, and the brake callipers are logical
Piston is crossed to connect with brake pump.
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CN201820824701.0U CN208718854U (en) | 2018-05-30 | 2018-05-30 | Apply the energy storage device on vehicle |
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CN201820824701.0U CN208718854U (en) | 2018-05-30 | 2018-05-30 | Apply the energy storage device on vehicle |
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Effective date of registration: 20211028 Address after: 518000 unit 2, building 9, zone 11, Taoyuanju, Xixiang, Bao'an District, Shenzhen, Guangdong Province Patentee after: Zeng Guangzhen Address before: 350800 small town Industrial Park, Anren village, Dongqiao Town, Minqing, Fuzhou, Fujian Patentee before: FUZHOU XIAOSHENLONG WATCH TECHNOLGY RESEARCH Co.,Ltd. |