CN202065138U

CN202065138U - Vibration energy storing device

Info

Publication number: CN202065138U
Application number: CN2011200952552U
Authority: CN
Inventors: 赵锡文; 赵富增
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-04-02
Filing date: 2011-04-02
Publication date: 2011-12-07
Anticipated expiration: 2021-04-02

Abstract

The utility model relates to a vibration energy storing device. The utility model is characterized in that the vibration energy storing device comprises a box body, a power collecting mechanism, a power transmitting mechanism, a power storing mechanism and a power output mechanism, wherein the power collecting mechanism is arranged on the box body and is connected with an external power supply, the power transmitting mechanism is connected with the power collecting mechanism and the power storing mechanism, and the power storing mechanism is connected with the power output mechanism. The vibration energy storing device has the advantages that the vibration energy generated by vibration is stored and reused, so that the energy loss is greatly reduced, the energy is saved, no external energy driving is needed, no pollution is caused, etc.

Description

A kind of vibration energy storage device

Technical field

The utility model relates to and belongs to the reusing of energy source technical field, particularly a kind of vibration energy storage device.

Background technique

The raising of and environmental requirement energy-conservation to various technical products along with society, energy storage technology more and more is subject to people's attention.Since add can make after the accumulator system's operation more steadily, safer, operational efficiency improves, operation energy consumption reduces, the accumulator technology has obtained applying in fields such as industrial production very soon.

Bicycle and person's electric motor car at present is extensive use of, as everyone knows, bicycle is as power with human motion, pass to sprocket wheel by crank throw, thereby driving bicycle advances, electric motor car drives vehicle body by the storage battery drive motor and advances, generally speaking, bicycle or electric motor car track are uneven, because human body and the deadweight of bicycle or electric motor car and the impact of impulse force of travelling to the concavo-convex place of track, can produce certain vibration, the energy of bicycle or electric motor car except that overcome various frictional force make car advance the acting, also have the energy of considerable part but to be consumed in vain, both caused waste, increased cyclist's discomfort again with the form of vibrational energy, in order to improve the discomfort that human body causes because of the bicycle vibration, under saddle, be provided with shock-absorbing spring, constantly flexible, negatively absorb and wasted the energy of vibration.

Summary of the invention

The utility model provides a kind of bicycle when travelling by bike for solving the technical problem that exists in the known technology, with the vibrational energy that produces on the saddle, and with its storage and utilization again, significantly reduce energy loss, save the energy, and do not needed outside resources driving, free of contamination vibration energy storage device.

The technological scheme that the utility model is taked for the technical problem that exists in the solution known technology is:

A kind of vibration energy storage device, it is characterized in that: this energy storage device mainly comprises casing, power acquisition mechanism, power transmitting mechanism, power stocking mechanism, power take-off mechanism, described power acquisition mechanism is installed on the casing, be connected with external power source, described power transmitting mechanism connects the power acquisition mechanism, described power transmitting mechanism connects the power stored energy mechanism, and described power stored energy mechanism connects power take-off mechanism.

The utility model can also adopt following technical measures:

Described power acquisition mechanism mainly comprises tooth bar, and described tooth bar vertically is installed on the casing, and connects power transmitting mechanism.

Described power transmitting mechanism mainly comprises the gear that is meshed with tooth bar, gear is installed on the transmission shaft by unilateral bearing, described transmission shaft adopts splined shaft, the two ends of described transmission shaft are installed on the casing by unilateral bearing, this unilateral bearing is opposite with the unilateral bearing moving direction that gear is installed, on the described transmission shaft sliding gear is installed, the both sides of sliding gear are equipped with control sliding gear shifting fork mechanism in axial sliding, and described sliding gear connects power stocking mechanism.

Described power stocking mechanism mainly comprises and the sliding gear meshed gears, gear is fixedly mounted on the rotatingshaft, the two ends of rotatingshaft are installed on the casing by spring bearing, the energy storage wind spring also is installed on the described rotatingshaft and prevents the rotating ratchet mechanism of energy storage wind spring, the ratchet of ratchet mechanism is installed on the casing by guide sleeve, on the ratchet pressure spring is installed in the guide sleeve, the outer end of described guide sleeve is equipped with the cross stop collar, described ratchet radial direction is provided with the position-limited lever that cooperates with the cross stop collar, described gear engagement power take-off mechanism.

Described power take-off mechanism comprises the gear that is meshed with power stored energy mechanism gear, and described gear is installed on the splined shaft, and the both sides of gear are equipped with shifting fork mechanism, and described splined shaft is installed on the casing by spring bearing, and stretches out casing.

This energy storage device also comprises generator, and described generator connects the splined shaft of power take-off mechanism, and generator connects storage battery.

Described storage battery connects lighting set or emergency alarm.

Advantage and the good effect that the utlity model has are: because the utility model adopts such scheme, the top plate of bicycle saddle is connected with tooth bar, because the up-down vibration that when bicycle running, can produce, saddle just can drive tooth bar and moves up and down like this, the motion of rack drives power transmitting mechanism, the power transmitting mechanism energy delivered stores by power stocking mechanism, energy after the storage is by power take-off mechanism output acting, this acting can be used for generating, the electric energy that sends is used for the illumination or the alarm of bicycle, if electric motor car also can be used as auxiliary electric power storage, also can be used for simultaneously illumination or alarm, therefore the vibrational energy that produces is vibrated in the utility model utilization, and it is stored and utilize again, significantly reduce energy loss, save the energy, and do not needed outside resources to drive, advantage such as pollution-free.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is the worm's eye view of Fig. 1;

Fig. 3 is the side view of Fig. 1;

Fig. 4 is an A-A sectional view among Fig. 3;

Fig. 5 is a B-B sectional view among Fig. 3.

Among the figure: 1, casing; 2, power acquisition mechanism; 2-1, tooth bar; 3, power transmitting mechanism; 3-1, gear; 3-2, unilateral bearing; 3-3, transmission shaft; 3-4, unilateral bearing; 3-5, sliding gear; 3-6, shifting fork mechanism; 4, power stocking mechanism; 4-1, gear; 4-2, rotatingshaft; 4-3, spring bearing; 4-4, energy storage wind spring; 4-5, ratchet mechanism; 4-5-1, ratchet; 4-5-2, guide sleeve; 4-5-3, cross stop collar; 4-5-4, position-limited lever, 4-5-5, pressure spring; 5, power take-off mechanism; 5-1, gear; 5-2, splined shaft; 5-3, shifting fork mechanism; 5-4, spring bearing.

Embodiment

For further understanding summary of the invention of the present utility model, characteristics and effect, exemplify following examples now, and conjunction with figs. is described in detail as follows:

See also Fig. 1 to Fig. 5, a kind of vibration energy storage device, this energy storage device mainly comprises casing 1, power acquisition mechanism 2, power transmitting mechanism 3, power stocking mechanism 4, power take-off mechanism 5, described power acquisition mechanism 2 is installed on the casing 1, be connected with external power source, described power transmitting mechanism 3 connects power acquisition mechanism 2, and described power transmitting mechanism 3 connects power stored energy mechanism 4, and described power stored energy mechanism 4 connects power take-off mechanism 5.

Described power acquisition mechanism 2 mainly comprises tooth bar 2-1, described tooth bar 2-1 vertically is installed on the casing 1, and connects power transmitting mechanism 3, and the upper end portion of tooth bar connects the top plate of saddle when mounted, in motion, move reciprocatingly up and down with pitching of vehicle.

Described power transmitting mechanism 3 mainly comprises the gear 3-1 that is meshed with tooth bar 2-1, gear 3-1 is installed on the transmission shaft 3-3 by unilateral bearing 3-2, described transmission shaft 3-3 adopts splined shaft, the two ends of described transmission shaft 3-3 are installed on the casing 1 by unilateral bearing 3-4, this unilateral bearing 3-4 is opposite with the unilateral bearing 3-2 moving direction that gear 3-1 is installed, described transmission shaft 3-3 goes up sliding gear 3-5 is installed, the both sides of sliding gear 3-5 are equipped with control sliding gear 3-5 shifting fork mechanism 3-6 in axial sliding, and described sliding gear 3-5 connects power stocking mechanism 4.

Described power stocking mechanism 4 mainly comprises and sliding gear 3-5 meshed gears 4-1, gear 4-1 is fixedly mounted on the rotatingshaft 4-2, the two ends of rotatingshaft 4-2 are installed on the casing 1 by spring bearing 4-3, energy storage wind spring 4-4 also is installed on the described rotatingshaft 4-2 and prevents the rotating ratchet mechanism 4-5 of energy storage wind spring, the ratchet 4-5-1 of ratchet mechanism 4-5 is installed on the casing 1 by guide sleeve 4-5-2, ratchet 4-5-1 goes up pressure spring 4-5-5 is installed in the guide sleeve 4-5-2, the outer end of described guide sleeve 4-5-2 is equipped with cross stop collar 4-5-3, described ratchet 4-5-1 radial direction is provided with the position-limited lever 4-5-4 that cooperates with cross stop collar 4-5-3, described gear 4-1 engagement power take-off mechanism 5.

Described power take-off mechanism 5 comprises the gear 5-1 that is meshed with power stored energy mechanism 4 gear 4-1, described gear 5-1 is installed on the splined shaft 5-2, the both sides of gear 5-1 are equipped with shifting fork mechanism 5-3, shifting fork mechanism is suitable for prior art, do not do detailed description at this, described splined shaft 5-2 is installed on the casing 1 by spring bearing 5-4, and stretches out casing 1.

This energy storage device also comprises generator, and described generator connects the splined shaft of power take-off mechanism, and generator connects storage battery, and described storage battery connects lighting set or emergency alarm.

The utility model operating principle:

The energy storage state: power acquisition mechanism 2 collects behind the power by the engagement acquisition transferring power of tooth bar 2-1 with power transmitting mechanism 3 gear 3-1, this is that tooth bar 2-1 moves downward, the unilateral bearing 3-2 that gear 3-1 is installed is a locking state, rotate thereby drive transmission shaft 3-3, in like manner the unilateral bearing 3-4 of supporting shaft 3-3 is a motion state.The effect of sliding gear 3-5 by shifting fork mechanism 3-6 on the transmission shaft 3-3 of being installed in this moment makes the gear 4-1 of sliding gear 3-5 engagement power stored energy mechanism 4, gear 5-1 in the power take-off mechanism and gear 4-1 break away from this moment, gear 4-1 will drive rotatingshaft 4-2 and rotate, thereby rotatingshaft 4-2 rotates and drives energy storage wind spring 4-4 storage elasticity potential energy, ratchet and the ratchet interlock of ratchet mechanism 4-5 at this moment, thereby prevent rotatingshaft 4-2 revolution, along with the energy storage wind spring 4-4 stored energy gradually of travelling of vehicle.

Energy discharges: after energy storage arrives necessarily, pulling shifting fork mechanism 3-6 makes sliding gear and gear 4-1 break away from engagement, simultaneously shifting fork mechanism 5-3 is stirred, make gear 5-1 and gear 4-1 mesh, after finishing, with the ratchet 4-5-1 disengaging of ratchet mechanism 4-5 and the engagement of ratchet, this is that the energy storage wind spring discharges the stored energy, this part energy can be used for generating electricity, the electric energy that sends is as auxiliary electric energy, be used for illumination or be used for alarm, this part energy can also be connected driving wheel in addition and use as auxiliary power.

Therefore the vibrational energy that produces of the utility model utilization vibration, and it is stored and utilize significantly reduces energy loss, has saved the energy, and does not need that outside resources drives, advantage such as pollution-free.

Claims

1. one kind is vibrated energy storage device, it is characterized in that: this energy storage device mainly comprises casing, power acquisition mechanism, power transmitting mechanism, power stocking mechanism, power take-off mechanism, described power acquisition mechanism is installed on the casing, be connected with external power source, described power transmitting mechanism connects the power acquisition mechanism, described power transmitting mechanism connects the power stored energy mechanism, and described power stored energy mechanism connects power take-off mechanism.

2. vibration energy storage device according to claim 1 is characterized in that: described power acquisition mechanism mainly comprises tooth bar, and described tooth bar vertically is installed on the casing, and connects power transmitting mechanism.

3. vibration energy storage device according to claim 2, it is characterized in that: described power transmitting mechanism mainly comprises the gear that is meshed with tooth bar, gear is installed on the transmission shaft by unilateral bearing, described transmission shaft adopts splined shaft, the two ends of described transmission shaft are installed on the casing by unilateral bearing, this unilateral bearing is opposite with the unilateral bearing moving direction that gear is installed, on the described transmission shaft sliding gear is installed, the both sides of sliding gear are equipped with control sliding gear shifting fork mechanism in axial sliding, and described sliding gear connects power stocking mechanism.

4. vibration energy storage device according to claim 3, it is characterized in that: described power stocking mechanism mainly comprises and the sliding gear meshed gears, gear is fixedly mounted on the rotatingshaft, the two ends of rotatingshaft are installed on the casing by spring bearing, the energy storage wind spring also is installed on the described rotatingshaft and prevents the rotating ratchet mechanism of energy storage wind spring, the ratchet of ratchet mechanism is installed on the casing by guide sleeve, on the ratchet pressure spring is installed in the guide sleeve, the outer end of described guide sleeve is equipped with the cross stop collar, described ratchet radial direction is provided with the position-limited lever that cooperates with the cross stop collar, described gear engagement power take-off mechanism.

5. according to the described vibration energy storage device of claim 4, it is characterized in that: described power take-off mechanism comprises the gear that is meshed with power stored energy mechanism gear, described gear is installed on the splined shaft, the both sides of gear are equipped with shifting fork mechanism, described splined shaft is installed on the casing by spring bearing, and stretches out casing.

6. vibration energy storage device according to claim 1 is characterized in that: this energy storage device also comprises generator, and described generator connects the splined shaft of power take-off mechanism, and generator connects storage battery.

7. vibration energy storage device according to claim 6 is characterized in that: described storage battery connects lighting set or emergency alarm.