CN203543623U - Battery locking mechanism - Google Patents

Abstract

The utility model provides a battery locking mechanism applied to a battery replacing system of an electric car chassis. The battery locking mechanism comprises a hanging buckle, a spin lock maintaining box, a center pull shaft, a lifting pin, a bayonet lock and a drive shaft. The drive shaft drives a key to clamp a clamping groove and abut against the lifting pin so that the center pull shaft arranged in the spin lock maintaining box can be driven to rotate, and the bayonet lock arranged on the center pull shaft can be driven to rotate into a first limiting groove in a lower cover of the spin lock maintaining box to lock the center pull shaft. The battery locking mechanism can replace electric car batteries fast, safely and reliably.

Description

Battery lock mechanism

Technical field

The utility model relates to electronlmobil field, particularly relates to a kind of battery lock mechanism that changes electric system for electric automobile chassis.

Background technology

At present, environment, energy two large problems are being urged electronlmobil fast development.But the problem of battery can't resolve all the time, still there is cost high, the problem such as flying power is little, and charging duration is long, the appearance of changing power mode allows the electronlmobil under current situation have new vitality.Changing power mode requirement must have the technology of fast quick change electricity, and fast quick change electricity is closely related with the lockable mechanism of battery again.To the Assembly &Disassembly of battery, lockable mechanism must be safe and reliable, low, easy for installation to battery locking and release precision prescribed, modularization is strong, and different vehicle applicabilities is strong, make battery and electronlmobil realization fast, locking and unlatching safely.Therefore develop a kind of fast, safety, to change electric lock locking mechanism reliably significant for the development of changing electric automobile.

Utility model content

Based on this, be necessary to provide a kind of battery lock mechanism of quick, safe and reliable replacing batteries of electric automobile.

A kind of battery lock mechanism, for the electric system that changes of electric automobile chassis, comprising:

Buckle, be fixed on the chassis of electronlmobil, be provided with support slot;

Twist lock keeps box, is fixed on battery, and the lower cover that described twist lock keeps box to comprise upper cover, coordinate with upper cover, covers under described and be provided with the first position-limited trough;

Center pulling shaft, rotating being arranged in described twist lock maintenance box, one end of described center pulling shaft is provided with and hangs pin, described extension pin can enter described support slot and after rotation with described in buckle and be locked to each other, after hanging pin and rotating backward with described in buckle and unlock, the other end of described center pulling shaft is provided with the resettlement section of hollow, offers along the slotted hole of the axis direction of described center pulling shaft on the sidewall of described resettlement section, in the end of described resettlement section, towards inside, offers draw-in groove;

Ejector pin, is contained in described resettlement section, and described ejector pin is provided with through hole;

Bayonet lock, running through described through hole is embedded in described ejector pin, the two ends of described bayonet lock are contained in described slotted hole, and can come and go displacement along described slotted hole, described bayonet lock can under the drive of described center pulling shaft, turn in described the first position-limited trough and locking described in center pulling shaft;

Axle drive shaft, keeps the setting of box liftable with respect to described twist lock, and described axle drive shaft is provided with the driving key coordinating with described draw-in groove, and described axle drive shaft can be by driving key to drive described center pulling shaft to rotate.

Therein in an embodiment, described in buckle along the periphery of described support slot and be provided with rising ramp.

In an embodiment, also comprise locking return springs therein, be housed in the resettlement section of described center pulling shaft, and connect with the top of described ejector pin.

In an embodiment, the top of described center pulling shaft offers fixed orifice therein, and fix screw is fixed on described extension pin on the pulling shaft of described center through described fixed orifice.

Therein in an embodiment, described center pulling shaft on circumference, convex edge is set, described convex edge can with the spacing described center of connecting of described upper cover pulling shaft.

In an embodiment, described support slot has spiral inside face therein, and described extension pin has the profile of mating with the spiral inside face of support slot.

In an embodiment, the number of described the first position-limited trough is 4 therein, wherein two to can be used for locking spacing, another two to can be used for release spacing, and during locking, described bayonet lock can drop into the first position-limited trough for locking, during release, described bayonet lock can drop into the first position-limited trough for release.

In an embodiment, the accepting hole with step is offered on the top of described axle drive shaft therein, and described driving key is housed in described accepting hole.

In an embodiment, also comprise balance elastic component therein, balance elastic component is contained in accepting hole, offsets with described driving key, and described balance elastic component can.

In an embodiment, offer the second position-limited trough on the step of described accepting hole therein, described driving key is stuck in described the second position-limited trough by locating dowel pin, and described locating dowel pin can limit described driving key and move along described accepting hole.

Driving key on the axle drive shaft of above-mentioned battery lock mechanism blocks draw-in groove, withstand ejector pin and be arranged on described twist lock maintenance He Zhong center pulling shaft rotation to drive, drive be simultaneously arranged on bayonet lock on the pulling shaft of center turn to twist lock keep on box under in the first position-limited trough of covering with center pulling shaft described in locking, meanwhile, pin clip is on buckling.So, the compact conformation of center pulling shaft is simple.And battery lock mechanism that can quick, safe and reliable replacing batteries of electric automobile.

Accompanying drawing explanation

Fig. 1 is the structural representation of the battery lock mechanism described in an embodiment;

Fig. 2 is the part sectional view of the battery lock mechanism described in an embodiment;

Fig. 3 is the structural representation of the center pulling shaft of the battery lock mechanism described in an embodiment;

Fig. 4 is the structural representation of the lower cover of the battery lock mechanism described in an embodiment.

The specific embodiment

For the ease of understanding the utility model, below with reference to relevant drawings, the utility model is described more fully.In accompanying drawing, provided preferred embodiments of the present utility model.But the utility model can be realized in many different forms, be not limited to embodiment described herein.On the contrary, providing the object of these embodiments is make the disclosure of the present utility model understand more comprehensively thorough.

It should be noted that, when element is called as " being fixed on " another element, it can be directly on another element or also can have an element placed in the middle.When an element is considered to " connection " another element, it can be directly connected to another element or may have centering elements simultaneously.Term as used herein " vertical ", " level ", " left side ", " right side " and similar statement just for illustrative purposes, do not represent it is unique embodiment.

Unless otherwise defined, all technology of using are herein identical with the implication that belongs to the common understanding of those skilled in the art of the present utility model with scientific terminology.The term using in specification sheets of the present utility model herein, just in order to describe the object of concrete embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise one or more relevant Listed Items arbitrarily with all combinations.

Refer to Fig. 1, a kind of battery lock mechanism 10, for the electric system that changes of electric automobile chassis, comprise buckle 100, twist lock keeps box 200, center pulling shaft 300, ejector pin 400, bayonet lock 500, locking return springs 600, axle drive shaft 700.

Buckle 100 and be fixed on the chassis of electronlmobil, be provided with support slot 101.Describedly buckle 100 and be provided with rising ramp 103 along the periphery of described support slot 101.

Incorporated by reference to Fig. 2,4, twist lock keeps box 200 to be fixed on battery, the lower cover 203 that described twist lock keeps box 200 to comprise upper cover 201, coordinate with upper cover 201, and described lower cover 203 is provided with the first position-limited trough 205.Upper cover 201 is provided with a supporting surface.In diagram, offer four the first symmetrical position-limited troughs 205.Wherein two spacing for locking, another two spacing for release.And around the first position-limited trough 205, have oblique protrudingly 207, and can realize the spacing locking of failure-free, prevent that bayonet lock 500 stuck phenomena from occurring.Tiltedly locking part has been simplified in the setting of projection 207 greatly, makes structure very simple, and safe and reliable.

Center pulling shaft 300 is rotating to be arranged in described twist lock maintenance box 200.One end of described center pulling shaft 300 is provided with and hangs pin 301.Described extension pin 301 can enter described support slot 101 and after rotation with described in buckle 100 and be locked to each other, after hanging pin 301 and rotating backward with described in buckle 100 and unlock.The form fit of the shape of described support slot 101 and described extension pin 301 and run through described in buckle 100.Specifically in the illustrated embodiment, the top of described center pulling shaft 300 is provided with fixed orifice 303, and fix screw 305 is fixed on described extension pin 301 on described center pulling shaft 300 through fixed orifice 303.

The other end of described center pulling shaft 300 is provided with the resettlement section 310 of hollow, offers along the slotted hole 311 of the length direction of described center pulling shaft 300 on described resettlement section 310, in the end of described resettlement section 310, offers draw-in groove 313 towards inside.Center pulling shaft 300 so design reduces this lockable mechanism length in the vertical direction greatly, has improved the performance of passing through of electronlmobil.

Described center pulling shaft 300 along convex edge 330 is set on circumference, convex edge 330 can connect spacing with the supporting surface of described upper cover 201.Meanwhile, described twist lock keeps the height of box 200 to buckle 100 thickness described in being greater than.When convex edge 330 and supporting surface are offseted, hang pin 301 and buckle 100 top described in being positioned at.

Ejector pin 400 is contained in described resettlement section 310, and described ejector pin 400 is provided with through hole 401.

Bayonet lock 500, the through hole 401 that runs through ejector pin 400 is embedded in described ejector pin 400, described bayonet lock 500 can come and go displacement along described slotted hole 311, and described bayonet lock 500 can turn to center pulling shaft 300 described in the interior locking of the first position-limited trough 205 under the drive of described center pulling shaft 300.When locking, the two ends of bayonet lock 500 are stuck in the first position-limited trough 205, prevent that center pulling shaft 300 from rotating, and avoids automatic lock-off.During release, bayonet lock 500 produces from the first position-limited trough 205.As shown, when offering four the first symmetrical position-limited troughs 205, wherein two to can be used for locking spacing, another two to can be used for release spacing.During locking, bayonet lock 500 drops into the first position-limited trough 205 for locking, and during release, bayonet lock 500 drops into the first position-limited trough 205 for release.

Locking return springs 600, is housed in the resettlement section 310 of hollow form of described center pulling shaft 300, and connects with the top of described ejector pin 400.In illustrated embodiment, locking return springs 600 is a spring.When pushing up on ejector pin 400, locking return springs 600 pressurizeds.When ejector pin 400 is not subject to the power on upper top, under the reset force of locking return springs 600, ejector pin 400 resets, and with bayonet lock 500, snaps in the first position-limited trough 205, to limit central rotating shaft, rotates, and avoids lock-off.

Axle drive shaft 700, keeps box 200 liftable settings with respect to described twist lock, is provided with the driving key 701 coordinating with described draw-in groove 313.Concrete, axle drive shaft 700, by driven by motor, provides the power of rotation rising.The top hollow of axle drive shaft 700 forms an accepting hole 703, drives key 701 to be housed in accepting hole 703.The inwall of accepting hole 703 is stepped, has a step 710 at ladder place, offers the second position-limited trough 713 on step 710, drives key 701 to be stuck in described the second position-limited trough 713 by locating dowel pin 730.Locating dowel pin 730 can limit and drive only in the vertical direction driving key 701 of key 701.

Described driving key 701, is contained in the accepting hole 703 of axle drive shaft 700, and is limited in the second position-limited trough 713 by a locating dowel pin 730, and restriction is rotated, and can only realize vertical movement.During locking release, coordinate with central rotating shaft bottom draw-in groove 313, when lifting table rises, drive key 701 to be inserted in draw-in groove 313, upper top ejector pin 400, upper top one segment distance, bayonet lock 500 shifts out the first position-limited trough 205 for release, then drives key 701 to drive central rotating shaft to rotate until fall into for the first spacing position-limited trough 205, to realize locking release.

Battery lock mechanism 10 also comprises balance elastic component 800, and balance elastic component 800 is contained in accepting hole 703, offsets with driving key 701.Supporting driving key 701.The design of balance elastic component 800 is installed reliably again to ensure battery.Because battery is very heavy, after long-time, vehicle frame has certain distortion certainly, cause all locked points not at grade, during installation, may occur that certain ejector pin 400 that is out of shape large locked point has pushed up and put in place, state that can not release but the ejector pin 400 of other locked points does not have top to put in place, design balance elastic component 800 is resolved this problem.When vehicle frame has distortion, lifting table drives and drives top ejector pin 400 on the key, even if certain locked point distortion is excessive, when certain drives key 701 that ejector pin 400 tops are put in place, for can putting in place, all ejector pins 400 continue rising lifting table, drive the balance elastic component 800 under key to compress, for the rising of other locked points facilitates.In the illustrated embodiment, balance elastic component 800 is a spring.

In another embodiment, described support slot 101 has spiral inside face, and described extension pin 301 has the profile of mating with the spiral inside face of support slot 101.Spiral design can strengthen auto-lock function.

Below in conjunction with concrete fitting process and using method, battery lock mechanism 10 is described further.

Buckle 100 and be fixed on car chassis vehicle frame, twist lock keeps box 200 and battery to link together.Axle drive shaft 700 is by the driven by motor of lifting table.Center pulling shaft 300 is contained in twist lock and keeps in box 200, hangs pin 301 and is fixed in the fixed orifice 303 of center pulling shaft 300 by tightening screw, to prevent that hanging pin 301 moves relative to center pulling shaft 300.Locking return springs 600 packs in resettlement section 310, and ejector pin 400 packs resettlement section 310 into, and bayonet lock 500 runs through slotted hole 311, the through hole 401 of ejector pin 400 successively simultaneously.Driving key 701 to be contained in axle drive shaft 700 and by locating dowel pin 730 locates.

Under the free state of battery, hanging pin 301 is separation with buckling 100, drives key 701Yu center pulling shaft 300 to separate.Ejector pin 400 freely hangs down, and simultaneously bayonet lock 500 is freely stuck in 205 li of first position-limited troughs of twist lock maintenance box 200 lower covers 203.When wanting locking, as figure, each lifting motor of the lifting table of holder battery makes each axle drive shaft 700 drive each driving key 701 to rise simultaneously.Drive key 701 to insert draw-in groove 313, drive key 701 to withstand ejector pin 400 and continue to rise.Ejector pin 400 drives bayonet lock 500 to exit the first position-limited trough 205 that twist lock keeps box 200 lower covers 203, continue to head on center pulling shaft 300 and move, locking return springs 600 pressurizeds simultaneously, convex edge 330 is withstood twist lock and is kept box 200 upper covers 201, drive on battery and move, support slot 101 is crossed by Gua Xiao301Shang Mobile Communication.As figure, next rotating machine work, drive axle drive shaft 700 to rotate, drive key 701 to drive center pulling shaft 300 to rotate, hanging pin 301 rotates and rises along the support slot 101 with rising ramp 103, and final 90-degree rotation, there is inductive switch (not mark) induction, rise to and buckle 100 end faces, bayonet lock 500 is also along with having turned 90 degree simultaneously, just in time forward the top of next the first position-limited trough 205 to, as figure, the 3rd step, lifting table drives and drives key to decline, ejector pin 400 hangs down into original position under the restoring force of locking return springs 600, bayonet lock 500 and then falls to just in time falling in the first position-limited trough 205, thereby limited the rotation of center pulling shaft 300, having avoided hanging pin 301 automatic trips hangs.

During release, be divided into four steps, the first step.Lifting table moves under electric automobile chassis after automatic aligning, and axle drive shaft 700 drives and drives keys to rise, and drives key to insert draw-in groove 313, upper top ejector pin 400, and bayonet lock 500 exits the first position-limited trough 205 for locking, and the rotation of center pulling shaft 300 is no longer limited.Second step, axle drive shaft 700 contrarotations drive center pulling shaft 300 to rotate backward, and hang pin 301 along with rotating backward, and rotation 90 degree just in time proceed to support slot 101 completely and hang the de-extension of pin 301.The 3rd step, bay-lift drives battery to decline, and completes release.

The above embodiment has only expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (10)

1. a battery lock mechanism, for the electric system that changes of electric automobile chassis, is characterized in that, comprising:

Buckle, be fixed on the chassis of electronlmobil, be provided with support slot;

Twist lock keeps box, is fixed on battery, and the lower cover that described twist lock keeps box to comprise upper cover, coordinate with upper cover, covers under described and be provided with the first position-limited trough;

Center pulling shaft, rotating being arranged in described twist lock maintenance box, one end of described center pulling shaft is provided with and hangs pin, described extension pin can enter described support slot and after rotation with described in buckle and be locked to each other, after hanging pin and rotating backward with described in buckle and unlock, the other end of described center pulling shaft is provided with the resettlement section of hollow, offers along the slotted hole of the axis direction of described center pulling shaft on the sidewall of described resettlement section, in the end of described resettlement section, towards inside, offers draw-in groove;

Ejector pin, is contained in described resettlement section, and described ejector pin is provided with through hole;

Bayonet lock, running through described through hole is embedded in described ejector pin, the two ends of described bayonet lock are contained in described slotted hole, and can come and go displacement along described slotted hole, described bayonet lock can under the drive of described center pulling shaft, turn in described the first position-limited trough and locking described in center pulling shaft;

Axle drive shaft, keeps the setting of box liftable with respect to described twist lock, and described axle drive shaft is provided with the driving key coordinating with described draw-in groove, and described axle drive shaft can be by driving key to drive described center pulling shaft to rotate.

2. battery lock mechanism as claimed in claim 1, is characterized in that, described in buckle along the periphery of described support slot and be provided with rising ramp.

3. battery lock mechanism as claimed in claim 1, is characterized in that, also comprises locking return springs, is housed in the resettlement section of described center pulling shaft, and connects with the top of described ejector pin.

4. battery lock mechanism as claimed in claim 1, is characterized in that, the top of described center pulling shaft offers fixed orifice, and fix screw is fixed on described extension pin on the pulling shaft of described center through described fixed orifice.

5. battery lock mechanism as claimed in claim 1, is characterized in that, described center pulling shaft along convex edge is set on circumference, described convex edge can with the spacing described center of connecting of described upper cover pulling shaft.

6. battery lock mechanism according to claim 1, is characterized in that, described support slot has spiral inside face, and described extension pin has the profile of mating with the spiral inside face of support slot.

7. battery lock mechanism according to claim 1, it is characterized in that, the number of described the first position-limited trough is 4, wherein two to can be used for locking spacing, another two to can be used for release spacing, and during locking, described bayonet lock can drop into the first position-limited trough for locking, during release, described bayonet lock can drop into the first position-limited trough for release.

8. battery lock mechanism according to claim 1, is characterized in that, the accepting hole with step is offered on the top of described axle drive shaft, and described driving key is housed in described accepting hole.

9. battery lock mechanism according to claim 8, is characterized in that, also comprises balance elastic component, and balance elastic component is contained in accepting hole, offsets with described driving key.

10. battery lock mechanism according to claim 8, it is characterized in that, on the step of described accepting hole, offer the second position-limited trough, described driving key is stuck in described the second position-limited trough by locating dowel pin, and described locating dowel pin can limit described driving key and move along described accepting hole.

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