CN209324960U - A kind of force storage device with self-shield - Google Patents

Abstract

A kind of force storage device with self-shield; the device includes driving wheel and transmission shaft; driving wheel is mounted on transmission shaft by storing power clockwork spring; the storage power turntable for being equipped on driving wheel and storing the cooperation of power clockwork spring; the middle part of driving wheel is also embedded with the rotating base for storing the rotation of power turntable; the one end for storing power clockwork spring is fixedly connected on transmission shaft, and the other end for storing power clockwork spring is connect with power turntable is stored；The disk for storing power turntable is provided with the locating convex block connecting with storage power clockwork spring along dashpot is above provided in dashpot, locating convex block is connected in dashpot by buffer spring, and the locating groove with locating convex block cooperation is additionally provided on rotating base.The apparatus structure is simple, reliable and practical, not only can effectively improve the utilization rate of power, but also part is few, failure rate is low.

Description

A kind of force storage device with self-shield

Technical field

The utility model relates to a kind of force storage device, especially a kind of force storage device with self-shield.

Background technique

Currently, well known store power and to the collected power powered and speed enhancing of vehicle release for collecting kinetic energy to vehicle deceleration Accumulator has spring energy storage, including wind spring, drawing-pressing spring, leaf spring etc., but general spring can all have maximum energy storage state, When spring, which is in, stores power deformation state close to maximum, it may appear that power can not be stored, or even the case where damage spring, the prior art In, although having slipping device is installed on spring, is typically all to be directed to small-sized machine, for large and medium-sized spring energy storage device It can not also be applicable in, this also results in long-pending big, more, expensive, high failure rate the feelings of part of large and medium-sized spring energy storage body now Condition.

Summary of the invention

Technical problem to be solved in the utility model be in view of the deficiencies of the prior art, provide it is a kind of design rationally, make With the force storage device with self-shield that is convenient, will not being damaged because storage power is excessive.

Technical problem to be solved in the utility model is realized by technical solution below.The utility model is A kind of force storage device with self-shield, the device include driving wheel and transmission shaft, and driving wheel is mounted on transmission by storing power clockwork spring The storage power turntable for being equipped on axis, on driving wheel and storing the cooperation of power clockwork spring, the middle part of driving wheel are also embedded with for storing the rotation of power turntable The rotating base turned, the one end for storing power clockwork spring are fixedly connected on transmission shaft, and the other end for storing power clockwork spring is connect with power turntable is stored； The disk for storing power turntable is provided with the locating convex block connecting with storage power clockwork spring, positioning along dashpot is above provided in dashpot Convex block is connected in dashpot by buffer spring, and the locating groove with locating convex block cooperation is additionally provided on rotating base.

It is also connected on the locating convex block perpendicular to the swing roller for storing the setting of power turntable, stores power clockwork spring and stores power turntable The end internal buckle of connection forms the shackle with swing roller cooperation, and shackle is fastened on swing roller.

Technical problem to be solved in the utility model can also be further realized by technical solution below, for The above-described force storage device with self-shield is further sleeved with the positioning card for preventing from storing the offset of power clockwork spring on the transmission shaft Block is provided with the mounting groove for positioning wedged block suit on transmission shaft.

Technical problem to be solved in the utility model can also be further realized by technical solution below, for The above-described force storage device with self-shield, the sum of the initial length of the buffer spring and the length of locating convex block are greater than slow The depth of jet-bedding.

Technical problem to be solved in the utility model can also be further realized by technical solution below, for The above-described force storage device with self-shield, the storage power turntable are mounted on transmission shaft by unilateral bearing.

Technical problem to be solved in the utility model can also be further realized by technical solution below, for The above-described force storage device with self-shield, the locating groove are arc groove, and one end of arc groove is provided with and rotation bottom Seat seat side it is tangent flush portion, the other end of arc groove is provided with the clamping portion continued to rotate for limiting locating convex block.

Technical problem to be solved in the utility model can also be further realized by technical solution below, for The above-described force storage device with self-shield is also fixedly installed on the driving wheel and offsets out rotation for preventing from storing power turntable Turn the fixed plate of pedestal, the aperture with transmission shaft cooperation is offered in fixed plate.

Technical problem to be solved in the utility model can also be further realized by technical solution below, for The above-described force storage device with self-shield, the driving wheel are transmission gear or drive sprocket.

Compared with prior art, the utility model by transmission shaft, driving wheel and stores the cooperation of power clockwork spring, passes through transmission shaft pair It stores power clockwork spring and carries out storage power, then store the release of power clockwork spring and drive driving wheel rotation, realize power conversion, effective raising power Utilization rate；It is more than maximum energy storage state storing power clockwork spring secondly, being connect by locating convex block with power turntable is stored by storing power clockwork spring When, it can effectively avoid storage power clockwork spring by storing power turntable rotary unloading power in rotating base and occur because stress is excessive Damage, greatly reduces failure rate.The apparatus structure is simple, reliable and practical, not only can effectively improve the utilization rate of power, and And part is few, failure rate is low.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of the utility model；

Fig. 2 is a kind of structural side view of the utility model.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, right below in conjunction with attached drawing of the present invention Technical solution in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is a part of the invention Embodiment, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not making wound Every other embodiment obtained under the premise of the property made labour, shall fall within the protection scope of the present invention.

Referring to Fig.1-2, a kind of force storage device with self-shield, the device include driving wheel 2 and transmission shaft 1, and driving wheel 2 is logical It crosses storage power clockwork spring 3 to be mounted on transmission shaft 1, the storage power turntable cooperated with storage power clockwork spring 3 is installed on driving wheel 2, driving wheel 2 Middle part is also embedded with the rotating base for storing the rotation of power turntable, and the one end for storing power clockwork spring 3 is fixedly connected on transmission shaft 1, stores power The other end of clockwork spring 3 is connect with power turntable is stored；The disk for storing power turntable is provided in dashpot 5 along dashpot 5 is above provided with The locating convex block 7 connecting with storage power clockwork spring 3, locating convex block 7 are connected in dashpot 5 by buffer spring 6, on rotating base also It is provided with the locating groove 8 cooperated with locating convex block 7.In use, transmission shaft 1 rotates, due to storing one end and the positioning of power clockwork spring 3 Convex block 7 connects, and locating convex block 7 is stuck in locating groove 8, so transmission shaft 1 rotates, drives and stores the storage power of power clockwork spring 3, store power to one After determining degree, transmission shaft 1 is motionless, stores power clockwork spring 3 and discharges power, drives driving wheel 2 to rotate by locating convex block 7, until storing power Clockwork spring 3 discharges whole storage power；If storing power clockwork spring 3 is being initially to reach maximum energy storage state, transmission shaft 1 is continued to rotate, is then stored Power clockwork spring 3 will pull locating convex block 7 and compress buffer spring 6, and locating convex block 7 is compressed in dashpot 5, and then drives and store power turn Disk is rotated into row in rotating base and unloads power, until transmission shaft 1 does not continue to rotate, then stores the release of power clockwork spring 3 and stores power, convex Block 7 snaps into locating groove 8 again under the jacking of buffer spring 6, and then stores the release of power clockwork spring 3 and store the rotation of power drive driving wheel 2, It effectively protects and stores power clockwork spring 3.

It is also connected on the locating convex block 7 perpendicular to the swing roller for storing the setting of power turntable, stores power clockwork spring 3 and storage power turns The end internal buckle of disk connection forms the shackle with swing roller cooperation, and shackle is fastened on swing roller.Swing roller can be in hook Rotation in ring can be always ensured that store power clockwork spring 3 connect with locating convex block 7 when storing the rotation of power turntable.

It is further sleeved with the positioning wedged block 4 for preventing from storing the offset of power clockwork spring 3 on the transmission shaft 1, is provided on transmission shaft 1 The mounting groove being set with for positioning wedged block 4.Positioning wedged block 4 is fixedly mounted on transmission shaft 1 by positioning wedged block 4 and mounting groove cooperation On, it effectively avoids storing the generation of power clockwork spring 3 left and right offset.

The sum of the initial length of the buffer spring 6 and the length of locating convex block 7 are greater than the depth of dashpot 5, Ke Yibao For card when storage power clockwork spring 3 reaches maximum energy storage state, storing power clockwork spring 3 can drive locating convex block 7 to be fully retracted into buffer spring 6 In dashpot 5, facilitates storage power turntable to carry out rotation in rotating base and unload power.

The storage power turntable is mounted on transmission shaft 1 by unilateral bearing.When storing the storage power of power clockwork spring 3, power turntable is stored not It can rotate in transmission shaft 1, be conducive to the storage power for storing power clockwork spring 3.

The locating groove 8 be arc groove, one end of arc groove be provided with rotating base seat side it is tangent flush portion, arc The other end of shape slot is provided with the clamping portion continued to rotate for limiting locating convex block 7.

The fixed plate for preventing storage power turntable from offsetting out rotating base is also fixedly installed on the driving wheel 2, it is fixed The aperture cooperated with transmission shaft 1 is offered on plate.The side for storing power turntable is withstood by storage power clockwork spring 3, and the other side is by fixed plate top Portion effectively avoids storage power turntable from offsetting out from rotating base.

The driving wheel 2 is transmission gear or drive sprocket, and convenient for cooperating with different vehicle, bicycle or electric vehicle are equal It is applicable.

Claims (8)

1. a kind of force storage device with self-shield, it is characterised in that: the device includes driving wheel and transmission shaft, and driving wheel passes through storage Power clockwork spring is mounted on transmission shaft, and the storage power turntable with storage power clockwork spring cooperation is equipped on driving wheel, and the middle part of driving wheel is also interior Embedded with the rotating base for storing the rotation of power turntable, the one end for storing power clockwork spring is fixedly connected on transmission shaft, stores the another of power clockwork spring End is connect with power turntable is stored；The disk for storing power turntable is provided in dashpot along dashpot is above provided with and stores power clockwork spring company The locating convex block connect, locating convex block are connected in dashpot by buffer spring, are additionally provided on rotating base and locating convex block The locating groove of cooperation.

2. the force storage device according to claim 1 with self-shield, it is characterised in that: be also connected on the locating convex block Perpendicular to the swing roller for storing the setting of power turntable, stores power clockwork spring and match with the end internal buckle formation that power turntable is connect is stored with swing roller The shackle of conjunction, shackle are fastened on swing roller.

3. the force storage device according to claim 1 with self-shield, it is characterised in that: be further sleeved with use on the transmission shaft In the positioning wedged block for preventing from storing the offset of power clockwork spring, the mounting groove for positioning wedged block suit is provided on transmission shaft.

4. the force storage device according to claim 1 with self-shield, it is characterised in that: the initial length of the buffer spring It is greater than the depth of dashpot with the sum of the length of locating convex block.

5. the force storage device according to claim 1 with self-shield, it is characterised in that: the storage power turntable passes through one-way shaft It holds and is mounted on transmission shaft.

6. the force storage device according to claim 1 with self-shield, it is characterised in that: the locating groove is arc groove, One end of arc groove be provided with rotating base seat side it is tangent flush portion, the other end of arc groove is provided with for limiting positioning The clamping portion that convex block continues to rotate.

7. the force storage device according to claim 1 with self-shield, it is characterised in that: be also fixedly mounted on the driving wheel There is the fixed plate for preventing storage power turntable from offsetting out rotating base, the aperture with transmission shaft cooperation is offered in fixed plate.

8. the force storage device according to claim 1 with self-shield, it is characterised in that: the driving wheel be transmission gear or Drive sprocket.