CN107379951A - A kind of low-carbon power source dismounting-mounting type battery truck - Google Patents

A kind of low-carbon power source dismounting-mounting type battery truck Download PDF

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Publication number
CN107379951A
CN107379951A CN201710649803.3A CN201710649803A CN107379951A CN 107379951 A CN107379951 A CN 107379951A CN 201710649803 A CN201710649803 A CN 201710649803A CN 107379951 A CN107379951 A CN 107379951A
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CN
China
Prior art keywords
battery
buffer unit
cylindrical portion
support
storage tank
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201710649803.3A
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Chinese (zh)
Inventor
戴斯德
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Xiamen Dell Happy New Energy Automobile Co Ltd
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Xiamen Dell Happy New Energy Automobile Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by Xiamen Dell Happy New Energy Automobile Co Ltd filed Critical Xiamen Dell Happy New Energy Automobile Co Ltd
Priority to CN201710649803.3A priority Critical patent/CN107379951A/en
Publication of CN107379951A publication Critical patent/CN107379951A/en
Pending legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60KARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
    • B60K1/00Arrangement or mounting of electrical propulsion units
    • B60K1/04Arrangement or mounting of electrical propulsion units of the electric storage means for propulsion
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60KARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
    • B60K1/00Arrangement or mounting of electrical propulsion units
    • B60K1/04Arrangement or mounting of electrical propulsion units of the electric storage means for propulsion
    • B60K2001/0455Removal or replacement of the energy storages

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Battery Mounting, Suspending (AREA)
  • Connection Of Batteries Or Terminals (AREA)

Abstract

The present invention proposes a kind of low-carbon power source dismounting-mounting type battery truck, break through the power-supplying forms of the electronic battery truck of tradition, including replaceable electrokinetic cell, with the loading attachment for loading electrokinetic cell, it can carry out comprehensive vibrations to electrokinetic cell and buffer, and security protection is comprehensively effective, ensure that electrokinetic cell is not hit and damaged, and the disassembling operations of electrokinetic cell are flexible, power is lasting, practical.

Description

A kind of low-carbon power source dismounting-mounting type battery truck
Technical field
The present invention relates to electronic battery truck field, and in particular to a kind of low-carbon power source dismounting-mounting type battery truck.
Background technology
Electronic battery truck belongs to new energy battery car, has long-range development prospect, especially low-speed electronic automobile more Environmental protection, the structure of traditional electronic battery truck have been known, and generally comprise storage battery vehicle main body, and the storage battery vehicle main body has control Device, electrokinetic cell and the coulometric detector for detecting electrokinetic cell electricity.But it is in actual use, electrokinetic cell dismounting Inconvenience, many troubles are brought to user in charging process.
In consideration of it, inventor furthers investigate to above mentioned problem, there is this case generation then.
The content of the invention
Comprehensive vibrations buffering can be carried out to electrokinetic cell it is an object of the invention to provide a kind of, security protection is comprehensive Effectively, it is ensured that the low-carbon power source dismounting-mounting type battery truck that electrokinetic cell is not hit and damaged, and the dismounting behaviour of electrokinetic cell Make flexibly and easily, power is lasting, practical.
In order to achieve the above object, technical scheme as present invention use:
A kind of low-carbon power source dismounting-mounting type battery truck, including storage battery vehicle main body and electrokinetic cell;The electrokinetic cell arranges There is loading attachment;
The loading attachment includes the loading main body being below and the loading lid in top;The electrokinetic cell tool There is a battery upper side upward, battery downside directed downwardly, and in laterally adjacent battery first face, battery successively Two side faces, the side of battery the 3rd and the side of battery the 4th;The loading main body includes and the battery first face, battery second Side, the side of battery the 3rd and the first side buffer unit, the second side buffer unit, the 3rd side corresponding to the difference of the side of battery the 4th Buffer unit and the 4th side buffer unit;
First side buffer unit includes the first pedestal and carried out on the first pedestal towards the battery first face The first buffer unit that elasticity is supported;First buffer unit includes horizontally arranged and parallel in the battery first face First cylindrical portion, be formed in the first cylindrical portion and along the extension of the first cylindrical portion and support below the electrokinetic cell first Supporting part, and be formed in the first cylindrical portion and supported along the extension of the first cylindrical portion and relative with the battery first face first Top;On the cross section of first buffer unit, the central angle number of degrees corresponding to first cylindrical portion are more than described the The central angle number of degrees corresponding to one supporting part and the first top;The First body is formed with towards the battery first face And the first storage tank of first cylindrical portion is housed, first storage tank has medial surface on be in upside first, place In first time medial surface of downside and in bottom land first groove bottom parallel with the battery first face;On described first Medial surface is equal with the diameter of first cylindrical portion to the distance between first time medial surface;First cylindrical portion is matched somebody with somebody Provided with first rotating shaft, the axis of the first rotating shaft be in first storage tank upper edge and lower edge institute planar, First cylindrical portion has prominent curved portions on protrude from the outside of the first storage tank top edge first and protrudes from institute State first time prominent curved portions on the outside of the first storage tank lower edge;The first rotating shaft and first groove bottom pass through level The head rod connection of setting, the head rod are articulated and can spun upside down with first groove bottom; First top has the first support surface of the corresponding battery first face and the corresponding first storage tank top edge And lower end holds with the first upper limit plane that prominent curved portions are connected on described first, first upper limit plane with described first Putting has gap angle on first between groove top edge, and first support surface is resisted against the battery first face provided with elasticity Upper and gradual thickening the first elastic layer from the bottom to top;First elastic layer only be connected with first support surface, and with institute State the first supporting part sliding contact;First elastic layer has the first elastic connecting contacting surface towards the battery first face, The first Elastic Contact face is including in the bottom first vertical contact surface parallel with the battery first face and smoothly The first arc contact surface for being connected to above the first lower contact surface and gradually being bent from the bottom to top towards the first pedestal direction, The first elastic connecting contacting surface is covered with the first resin smooth layer;First supporting part has the corresponding battery downside simultaneously With under the first support face, the first lower surface directed downwardly and corresponding first storage tank that first support surface lower end is connected The first lower limit plane that edge and upper end are connected with described first time prominent curved portions, the first lower limit plane and described the There is first time gap angle between one storage tank lower edge;First cylindrical portion is formed with housing the of the first rotating shaft One bar hole, first bar hole are horizontally disposed with, and first bar hole has towards the first of the battery first face Distal shaft end and the first proximal ends towards first storage tank, first proximal ends are the side face phase with the first rotating shaft The axis of the circular arc of matching and the first proximal ends is identical with the axis of the first cylindrical portion, the first distal shaft end to circular arc The distance of the first proximal ends axis be more than the first distal shaft end to the first rotating shaft axis distance, described first turn Opened between axle and the first distal shaft end and be provided with the first buffering stage clip;On described first medial surface formed with multiple with described first The first parallel upper hopper chute of connecting rod, first time medial surface is formed with multiple parallel with the head rod One gliding groove, the side face of first cylindrical portion is formed with multiple with the axis perpendicular of the first cylindrical portion and with each above-mentioned first Upper hopper chute and the first gliding groove are engaged the first annular projection of slip;First buffer unit is equipped with the buffering of holding first The first state of part turnover state keeps extension spring, and the first state holding extension spring has to be connected with first buffer unit The first extension spring upper end and the first extension spring lower end for being connected with the first pedestal bottom, first buffer unit is provided with and institute Connecting portion on the first of the first extension spring upper end connection is stated, first pedestal is provided with first be connected with the first extension spring upper end Lower connecting portion;The line for defining first time connecting portion and the first rotating shaft center is the first line, the first rotating shaft The line of connecting portion is the second line on center and described first, and the top extended line of first line is in described second and connected Between the top extended line of the top of the top extended line of line, the top extended line of first line and second line The angle number of degrees are the half of the gap angle number of degrees on described first;
Second side buffer unit includes the second pedestal and carried out on the second pedestal towards the battery second side The second buffer unit that elasticity is supported;Second buffer unit includes horizontally arranged and parallel in the battery second side Second cylindrical portion, be formed in the second cylindrical portion and along the extension of the second cylindrical portion and support below the electrokinetic cell second Supporting part, and be formed in the second cylindrical portion and supported along the extension of the second cylindrical portion and relative with the battery second side second Top;On the cross section of second buffer unit, the central angle number of degrees corresponding to second cylindrical portion are more than described the The central angle number of degrees corresponding to two supporting parts and the second top;Second pedestal is formed with towards the battery second side And the second storage tank of second cylindrical portion is housed, second storage tank has medial surface on be in upside second, place In second time medial surface of downside and in bottom land second groove bottom parallel with the battery second side;On described second Medial surface is equal with the diameter of second cylindrical portion to the distance between second time medial surface;Second cylindrical portion is matched somebody with somebody Provided with the second rotating shaft, the axis of second rotating shaft be in second storage tank upper edge and lower edge institute planar, Second cylindrical portion has prominent curved portions on protrude from the outside of the second storage tank top edge second and protrudes from institute State second time prominent curved portions on the outside of the second storage tank lower edge;Second rotating shaft and second groove bottom pass through level The the second connecting rod connection set, second connecting rod are articulated and can spun upside down with second groove bottom; Second top has the second support surface of the corresponding battery second side and the corresponding second storage tank top edge And lower end holds with the second upper limit plane that prominent curved portions are connected on described second, second upper limit plane with described second Putting has gap angle on second between groove top edge, and second support surface is resisted against the battery second side provided with elasticity Upper and gradual thickening the second elastic layer from the bottom to top;Second elastic layer only be connected with second support surface, and with institute State the second supporting part sliding contact;Second elastic layer has the second elastic connecting contacting surface towards the battery second side, The second Elastic Contact face is including in the bottom second vertical contact surface parallel with the battery second side and smoothly The second arc contact surface for being connected to above the second lower contact surface and gradually being bent from the bottom to top towards the second pedestal direction, The second elastic connecting contacting surface is covered with the second resin smooth layer;Second supporting part has the corresponding battery downside simultaneously With under the second support face, the second lower surface directed downwardly and corresponding second storage tank that second support surface lower end is connected The second lower limit plane that edge and upper end are connected with described second time prominent curved portions, the second lower limit plane and described the There is second time gap angle between two storage tank lower edges;Second cylindrical portion is formed with housing the of second rotating shaft Two bar holes, the second bar shaped hole horizontal are set, and second bar hole has towards the second of the battery second side Distal shaft end and the second proximal ends towards second storage tank, second proximal ends are the side face phase with second rotating shaft The axis of the circular arc of matching and the second proximal ends is identical with the axis of the second cylindrical portion, the second distal shaft end to circular arc The distance of the second proximal ends axis be more than the second distal shaft end to second shaft axis distance, described second turn Opened between axle and the second distal shaft end and be provided with the second buffering stage clip;On described second medial surface formed with multiple with described second The second parallel upper hopper chute of connecting rod, second time medial surface is formed with multiple parallel with second connecting rod Two gliding grooves, the side face of second cylindrical portion is formed with multiple with the axis perpendicular of the second cylindrical portion and with each above-mentioned second Upper hopper chute and the second gliding groove are engaged the second annular protrusion of slip;Second buffer unit is equipped with the buffering of holding second Second state of part turnover state keeps extension spring, and the second state holding extension spring has to be connected with second buffer unit The second extension spring upper end and the second extension spring lower end for being connected with the second pedestal bottom, second buffer unit is provided with and institute Connecting portion on the second of the second extension spring upper end connection is stated, second pedestal is provided with second be connected with the second extension spring upper end Lower connecting portion;The line for defining second time connecting portion and second spindle central is the 3rd line, second rotating shaft The line of connecting portion is the 4th line on center and described second, and the top extended line of the 3rd line is in the described 4th and connected The top of the top extended line of line, the angle between the top extended line of the 3rd line and the top extended line of the 4th line The number of degrees are the half of the gap angle number of degrees on described second;
The 3rd side buffer unit includes the 3rd pedestal and carried out on the 3rd pedestal towards the side of battery the 3rd The 3rd buffer unit that elasticity is supported;3rd buffer unit includes horizontally arranged and parallel in the side of battery the 3rd Third post portion, is formed in the 3rd cylindrical portion and the 3rd the holding below the electrokinetic cell along the extension of the 3rd cylindrical portion and support Support portion, and be formed in the 3rd cylindrical portion and supported along the extension of the 3rd cylindrical portion and the relative with the side of battery the 3rd the 3rd Portion;On the cross section of the 3rd buffer unit, the central angle number of degrees corresponding to the 3rd cylindrical portion are more than the described 3rd The central angle number of degrees corresponding to supporting part and the 3rd top;3rd pedestal formed with towards the side of battery the 3rd simultaneously The 3rd storage tank of the 3rd cylindrical portion is housed, the 3rd storage tank has medial surface on the be in upside the 3rd, is in Three times medial surfaces of downside and in bottom land threeth groove bottom parallel with the side of battery the 3rd;In on described 3rd Side is equal with the diameter of the 3rd cylindrical portion to the distance between the three times medial surfaces;3rd cylindrical portion arranges Have the 3rd rotating shaft, the axis of the 3rd rotating shaft be in the 3rd storage tank upper edge and lower edge institute planar, institute Stating the 3rd cylindrical portion has prominent curved portions on the protrude from the outside of the 3rd storage tank top edge the 3rd and protrudes from described The three times prominent curved portions on the outside of 3rd storage tank lower edge;3rd rotating shaft and the 3rd groove bottom are set by level The 3rd connecting rod connection put, the 3rd connecting rod are articulated and can spun upside down with the 3rd groove bottom;Institute State the 3rd top have the corresponding side of battery the 3rd the 3rd support surface and the corresponding 3rd storage tank top edge and Lower end and the 3rd upper limit plane that prominent curved portions are connected on the described 3rd, the 3rd upper limit plane are accommodating with the described 3rd There is gap angle on the 3rd, the 3rd support surface is resisted against on the side of battery the 3rd provided with elasticity between groove top edge And gradual thickening the 3rd elastic layer from the bottom to top;3rd elastic layer only be connected with the 3rd support surface, and with it is described 3rd supporting part sliding contact;3rd elastic layer has the 3rd elastic connecting contacting surface towards the side of battery the 3rd, institute Stating the 3rd Elastic Contact face includes in the bottom threeth vertical contact surface parallel with the side of battery the 3rd and smoothly connects It is connected to above the 3rd lower contact surface and from the bottom to top gradually towards the 3rd arc contact surface of the 3rd pedestal direction bending, institute State the 3rd elastic connecting contacting surface and be covered with the 3rd resin smooth layer;3rd supporting part have the corresponding battery downside and with The 3rd support face, the 3rd lower surface directed downwardly and corresponding 3rd storage tank that the 3rd support surface lower end is connected are following The 3rd lower limit plane that edge and upper end are connected with described the three times prominent curved portions, the 3rd lower limit plane and the described 3rd There are the three times gap angles between storage tank lower edge;3rd cylindrical portion formed with house the 3rd rotating shaft the 3rd Bar hole, the Article 3 shape hole horizontal are set, and the Article 3 shape hole has towards the 3rd remote of the side of battery the 3rd Shaft end and the 3rd proximal ends towards the 3rd storage tank, the 3rd proximal ends are the side face phase with the 3rd rotating shaft The circular arc and the axis of the 3rd proximal ends matched somebody with somebody are identical with the axis of the 3rd cylindrical portion, the institute at the 3rd distal shaft end to circular arc The distance for stating the 3rd proximal ends axis is more than the 3rd distal shaft end to the distance of the 3rd shaft axis, the 3rd rotating shaft Opened between the 3rd distal shaft end and be provided with the 3rd buffering stage clip;Medial surface connects formed with multiple with the described 3rd on described 3rd The 3rd parallel upper hopper chute of extension bar, the three times medial surfaces are formed with multiple parallel with the 3rd connecting rod three Gliding groove, the side face of the 3rd cylindrical portion formed with it is multiple with the axis perpendicular of the 3rd cylindrical portion and with each above-mentioned 3rd Chute and the 3rd gliding groove are engaged the 3rd annular protrusion of slip;3rd buffer unit, which is equipped, keeps the 3rd buffer part The third state of part rollover states keeps extension spring, and the third state keeps extension spring to have what is be connected with the 3rd buffer unit 3rd extension spring upper end and the 3rd extension spring lower end being connected with the 3rd pedestal bottom, the 3rd buffer unit be provided with it is described Connecting portion on the 3rd of 3rd extension spring upper end connection, the 3rd pedestal are provided with the 3rd be connected with the 3rd extension spring upper end Connecting portion;The line for defining the three times connecting portions and the 3rd spindle central is the 5th line, in the 3rd rotating shaft The line of connecting portion is the 6th line on the heart and the described 3rd, and the top extended line of the 5th line is in the 6th line Top extended line top, the angle degree between the top extended line of the 5th line and the top extended line of the 6th line Number is the half of the gap angle number of degrees on the described 3rd;
The 4th side buffer unit includes the 4th pedestal and carried out on the 4th pedestal towards the side of battery the 4th The 4th buffer unit that elasticity is supported;4th buffer unit includes horizontally arranged and parallel in the side of battery the 4th 4th post portion, is formed in the 4th cylindrical portion and the 4th the holding below the electrokinetic cell along the extension of the 4th cylindrical portion and support Support portion, and be formed in the 4th cylindrical portion and supported along the extension of the 4th cylindrical portion and the relative with the side of battery the 4th the 4th Portion;On the cross section of the 4th buffer unit, the central angle number of degrees corresponding to the 4th cylindrical portion are more than the described 4th The central angle number of degrees corresponding to supporting part and the 4th top;4th pedestal formed with towards the side of battery the 4th simultaneously The 4th storage tank of the 4th cylindrical portion is housed, the 4th storage tank has medial surface on the be in upside the 4th, is in Four times medial surfaces of downside and in bottom land fourth groove bottom parallel with the side of battery the 4th;In on described 4th Side is equal with the diameter of the 4th cylindrical portion to the distance between the four times medial surfaces;4th cylindrical portion arranges Have the 4th rotating shaft, the axis of the 4th rotating shaft be in the 4th storage tank upper edge and lower edge institute planar, institute Stating the 4th cylindrical portion has prominent curved portions on the protrude from the outside of the 4th storage tank top edge the 4th and protrudes from described The four times prominent curved portions on the outside of 4th storage tank lower edge;4th rotating shaft and the 4th groove bottom are set by level The 4th connecting rod connection put, the 4th connecting rod are articulated and can spun upside down with the 4th groove bottom;Institute State the 4th top have the corresponding side of battery the 4th the 4th support surface and the corresponding 4th storage tank top edge and Lower end and the 4th upper limit plane that prominent curved portions are connected on the described 4th, the 4th upper limit plane are accommodating with the described 4th There is gap angle on the 4th, the 4th support surface is resisted against on the side of battery the 4th provided with elasticity between groove top edge And gradual thickening the 4th elastic layer from the bottom to top;4th elastic layer only be connected with the 4th support surface, and with it is described 4th supporting part sliding contact;4th elastic layer has the 4th elastic connecting contacting surface towards the side of battery the 4th, institute Stating the 4th Elastic Contact face includes in the bottom fourth vertical contact surface parallel with the side of battery the 4th and smoothly connects It is connected to above the 4th lower contact surface and from the bottom to top gradually towards the 4th arc contact surface of the 4th pedestal direction bending, institute State the 4th elastic connecting contacting surface and be covered with the 4th resin smooth layer;4th supporting part have the corresponding battery downside and with The 4th support face, the 4th lower surface directed downwardly and corresponding 4th storage tank that the 4th support surface lower end is connected are following The 4th lower limit plane that edge and upper end are connected with described the four times prominent curved portions, the 4th lower limit plane and the described 4th There are the four times gap angles between storage tank lower edge;4th cylindrical portion formed with house the 4th rotating shaft the 4th Bar hole, the Article 4 shape hole horizontal are set, and the Article 4 shape hole has towards the 4th remote of the side of battery the 4th Shaft end and the 4th proximal ends towards the 4th storage tank, the 4th proximal ends are the side face phase with the 4th rotating shaft The circular arc and the axis of the 4th proximal ends matched somebody with somebody are identical with the axis of the 4th cylindrical portion, the institute at the 4th distal shaft end to circular arc The distance for stating the 4th proximal ends axis is more than the 4th distal shaft end to the distance of the 4th shaft axis, the 4th rotating shaft Opened between the 4th distal shaft end and be provided with the 4th buffering stage clip;Medial surface connects formed with multiple with the described 4th on described 4th The 4th parallel upper hopper chute of extension bar, the four times medial surfaces are formed with multiple parallel with the 4th connecting rod four Gliding groove, the side face of the 4th cylindrical portion formed with it is multiple with the axis perpendicular of the 4th cylindrical portion and with each above-mentioned 4th The fourth annular that chute and the 4th gliding groove are engaged slip is raised;4th buffer unit, which is equipped, keeps the 4th buffer part 4th state of part rollover states keeps extension spring, and the 4th state keeps extension spring to have what is be connected with the 4th buffer unit 4th extension spring upper end and the 4th extension spring lower end being connected with the 4th pedestal bottom, the 4th buffer unit be provided with it is described Connecting portion on the 4th of 4th extension spring upper end connection, the 4th pedestal are provided with the 4th be connected with the 4th extension spring upper end Connecting portion;The line for defining the four times connecting portions and the 4th spindle central is the 7th line, in the 4th rotating shaft The line of connecting portion is the 8th line on the heart and the described 4th, and the top extended line of the 7th line is in the 8th line Top extended line top, the angle degree between the top extended line of the 7th line and the top extended line of the 8th line Number is the half of the gap angle number of degrees on the described 4th;
The first support face has the first support face edge below the electrokinetic cell, the second support face With the second support face edge below the electrokinetic cell, the 3rd support face, which has, to be under the electrokinetic cell 3rd support face edge of side, the 4th support face have the 4th support face edge below the electrokinetic cell;Institute The distance for stating battery first face to the first support face edge is more than first buffer unit to first storage tank The ultimate range of interior slip, the distance of the battery second side to the second support face edge are more than second buffer part The ultimate range that part slides into second storage tank, the distance of the side of battery the 3rd to the 3rd support face edge The ultimate range slided more than the 3rd buffer unit into the 3rd storage tank, the side of the battery the 4th to described The distance in four support faces edge is more than the ultimate range that the 4th buffer unit slides into the 4th storage tank;
The loading lid includes cap body, and the top of the electrokinetic cell is carried out elastic to push pushing of supporting Support device;The cap body has with being articulated what can be spun upside down at the top of the buffer unit of first side Pivot end, and the buckle end with being fastened togather at the top of the 3rd side buffer unit;The lower surface shape of the cap body Into there is accommodating described push to support the low groove of device, described push supports device and includes being placed in pushing in the low groove Support block and multidirectional buffer unit;The low groove is in rectangular-shape, have in top recessed groove bottom wall and respectively with The battery first face, battery second side, parallel the first low groove side in the side of battery the 3rd and the side of battery the 4th Wall, the second recessed groove sidewall, the 3rd recessed groove sidewall and the 4th recessed groove sidewall;It is described to push that to support block be in rectangular-shape, and There is gap between the madial wall of the low groove;Described push is supported block and had and the recessed groove bottom wall is corresponding supports Jacking block roof, block bottom wall is supported towards the electrokinetic cell, and correspond to the described first recessed groove sidewall, second respectively successively Recessed groove sidewall, the first of the 3rd recessed groove sidewall and the 4th recessed groove sidewall support block side wall, second support block side wall, the 3rd Support block side wall and the 4th and support block side wall;The multidirectional buffer unit includes being located at the recessed groove bottom wall and supports block top Compression spring between wall, it is located at the described first recessed groove sidewall and first and supports the first side pressure spring between block side wall, sets The second side pressure spring between block side wall is supported in the described second recessed groove sidewall and second, is located at the 3rd recessed groove sidewall And the 3rd support the 3rd side pressure spring between block side wall, and it is located at the 4th recessed groove sidewall and the 4th and supports block side wall Between the 4th side pressure spring;It is described to support support positioning convex of the block bottom wall formed with downwardly projecting positive tetrapyamid shape, it is described dynamic Power battery formed with the matching detent of supporting for supporting positioning convex, and it is described support positioning convex height it is big In the depth for supporting detent;
The loading attachment is also included in first side buffer unit, the second side buffer unit, the 3rd side buffering dress Put and first lower surface, the second lower surface, the 3rd lower surface and the 4th lower surface are carried out with below the 4th side buffer unit That supports supports device.
After adopting the above technical scheme, the low-carbon power source dismounting-mounting type battery truck of the present invention, breaks through the electronic battery truck of tradition Power-supplying forms, in actual use, loading attachment can carry out safety carrying, and power electric to electrokinetic cell Pond can flexibly be dismounted, and be specifically, and when that electrokinetic cell need to be loaded into bogey, first opened and loaded lid, by power Battery is suitably put between the first side buffer unit, the second side buffer unit, the 3rd side buffer unit and the 4th side buffer unit, Make lower end and the first resin smooth layer in the first elastic connecting contacting surface, the second resin in the second elastic connecting contacting surface of electrokinetic cell The 4th resin smooth layer on the 3rd resin smooth layer and the 4th elastic connecting contacting surface on smooth layer, the 3rd elastic connecting contacting surface connects Touch, upset loads lid and gradually closed, supported under making device support positioning convex and electrokinetic cell support detent phase It is corresponding, load lid and gradually push, be engaged using positioning convex is supported with supporting detent, while filled using multidirectional buffering The first side pressure spring, the second side pressure spring, the 3rd side pressure spring and the 4th side pressure spring put support that device is adapted to and elasticity is rectified under Just, positioning and guiding is carried out to electrokinetic cell during electrokinetic cell moves downward, electrokinetic cell is along arc and inclined each Smooth layer, which is taken advantage of a situation, to be moved downward, while gradually the first elastic layer, the second elastic layer, the 3rd elastic layer and the 4th elastic layer are carried out Pressure, the first elastic layer, the second elastic layer, the 3rd elastic layer and the 4th elastic layer are common gradually to carry out elastic clip to electrokinetic cell Tightly, while the first buffer unit, the second buffer unit, the 3rd buffer unit and the 4th buffer unit rely on respective first respectively Rotating shaft, the second rotating shaft, the 3rd rotating shaft and the 4th rotating shaft overturn and promote the first cylindrical portion gradually downward, the second cylindrical portion, the 3rd Cylindrical portion and the 4th cylindrical portion the first storage tank to the first pedestal, the second storage tank of the second pedestal, the 3rd pedestal respectively Slided in 4th storage tank of the 3rd storage tank and the 4th pedestal, the first cylindrical portion, the second cylindrical portion, the 3rd cylindrical portion and the 4th Cylindrical portion be utilized respectively in sliding process first annular projection be engaged with the first upper hopper chute and the first gliding groove, second annular Projection is engaged with the second upper hopper chute and the second gliding groove, the 3rd annular protrusion is engaged with the 3rd upper hopper chute and the 3rd gliding groove And fourth annular projection is engaged and is oriented to the 4th upper hopper chute and the 4th gliding groove, it is ensured that the first cylindrical portion, the second circle Post portion, the 3rd cylindrical portion and the 4th cylindrical portion are not in deflection in the horizontal plane in sliding process, and first rotating shaft, Second rotating shaft, the 3rd rotating shaft and the 4th rotating shaft are utilized respectively head rod, the second connecting rod, the 3rd connecting rod and the 4th connection Bar freely swing up and down to adapt to the first bar hole, the second bar hole, Article 3 shape hole and Article 4 shape hole respectively Arbitrary inclination, and then make first rotating shaft, the second rotating shaft, the 3rd rotating shaft and the 4th rotating shaft can be respectively in the first bar hole, Arbitrarily slided in two bar holes, Article 3 shape hole and Article 4 shape hole and respectively to the first buffer spring, the second buffer spring, the Three buffer springs and the 4th buffer spring are compressed, so as to gradually strengthen the first buffer unit, the second buffer unit, the 3rd slow Rush the elastic clip clamp force of part and the 4th buffer unit to electrokinetic cell, when the lower end of electrokinetic cell support the first support face, After on second support face, the 3rd support face and the 4th support face, with the first buffer unit, the second buffer unit, the 3rd buffering Part and the 4th buffer unit more downwardly turn over, the first buffer unit, the second buffer unit, the 3rd buffer unit and the 4th buffering Part is stronger to the elastic clip clamp force of electrokinetic cell, makes the first buffer unit, the second buffer unit, the 3rd buffer unit and Four buffer units have the trend to be flipped up, and the first buffer unit, the second buffer unit, the 3rd buffer unit and the 4th are slow Part is rushed to produce upwards in face of electrokinetic cell using the first support face, the second support face, the 3rd support face and the 4th support naturally Flexible support power, and compression spring produces pressure under downward elasticity to electrokinetic cell, and loading master is closed at until loading lid On body and when being fastened togather with the 3rd pedestal, the first bar hole, the second bar hole, Article 3 shape hole and Article 4 shape hole with Head rod, the second connecting rod, the 3rd connecting rod and the 4th connecting rod are in same level, each suffered by electrokinetic cell The power in direction reaches balance, and first state keeps extension spring, the second state to keep extension spring, the third state to keep extension spring and the 4th state Extension spring is kept to be pulled downward on respectively to the first buffer unit, the second buffer unit, the 3rd buffer unit and the 4th buffer unit Pretightning force, keep electrokinetic cell be in poised state, avoid opening the feelings jumped out upwards of electrokinetic cell appearance when loading lid Condition.When electronic battery truck is produced towards during the horizontal direction vibration of the first side buffer unit, electrokinetic cell can extrude the first elasticity Layer, and then promote whole first buffer unit to be moved along the first upper groove and the first low groove into the first storage tank, it is ensured that the One cylindrical portion is not in deflection in the horizontal plane in sliding process, and then in the support of head rod and first rotating shaft The first buffer spring of lower compression, so as to realize the buffering to electrokinetic cell, while support detent and support positioning convex phase Coordinate drive push support block compress the first side pressure spring carry out auxiliary buffering;When electronic battery truck is produced towards the second side buffering dress During the horizontal direction vibration put, electrokinetic cell can extrude the second elastic layer, and then promote whole second buffer unit along second Groove and the second low groove move into the second storage tank, it is ensured that the second cylindrical portion does not appear in horizontal plane in sliding process Interior deflection, and then the second buffer spring is compressed under the support of the second connecting rod and the second rotating shaft, so as to realize to power electric The buffering in pond, at the same support detent and support positioning convex be engaged drive push support block compress the second side pressure spring carry out Auxiliary buffering;When electronic battery truck is produced towards during the horizontal direction vibration of the 3rd side buffer unit, electrokinetic cell can extrude the Three elastic layers, and then promote whole 3rd buffer unit to be moved along the 3rd upper groove and the 3rd low groove into the 3rd storage tank, It is not in deflection in the horizontal plane in sliding process to ensure the 3rd cylindrical portion, and then in the 3rd connecting rod and the 3rd rotating shaft Support under compress the 3rd buffer spring, so as to realize the buffering to electrokinetic cell, while support and detent and support positioning Projection be engaged drive push support block compress the 3rd side pressure spring carry out auxiliary buffering;When electronic battery truck is produced towards the 4th side During the horizontal direction vibration of buffer unit, electrokinetic cell can extrude the 4th elastic layer, and then promote whole 4th buffer unit edge 4th upper groove and the 4th low groove move into the 4th storage tank, it is ensured that the 4th cylindrical portion does not appear in sliding process Deflection in horizontal plane, and then the 4th buffer spring is compressed under the support of the 4th connecting rod and the 4th rotating shaft, so as to realize pair The buffering of electrokinetic cell, at the same support detent and support positioning convex be engaged drive push support block compress the 4th side pressure Spring carries out auxiliary buffering.When electronic battery truck produces downward vibration, electrokinetic cell pushes the first support face, the second support Face, the 3rd support face and the 4th support face, the first buffer unit, the second buffer unit, the 3rd buffer unit and the 4th buffer part Part more downwardly turns over, and the first buffer unit, the second buffer unit, the 3rd buffer unit and the 4th buffer unit are to electrokinetic cell Elastic clip clamp force is stronger, the first buffer unit, the second buffer unit, the 3rd buffer unit and the 4th buffer unit is had desire The trend being flipped up, and then the first buffer unit, the second buffer unit, the 3rd buffer unit and the 4th buffer unit are naturally sharp Upward flexible support power is produced in face of electrokinetic cell with the first support face, the second support face, the 3rd support face and the 4th support, So as to realize the buffering to the downward vibration of electrokinetic cell;When electronic battery truck produces upward vibration, the upper end of electrokinetic cell Support to push upwards and support the lower stage clip of block compression, so as to realize the buffering to the upward vibration of electrokinetic cell.When need change power During battery, open and load lid, first state keeps extension spring, the second state to keep extension spring, the third state to keep extension spring and the 4th State is kept under the holding of extension spring, and electrokinetic cell will not be jumped out, and securely and reliably, can be supported device by operation and be supported first upwards Buffer unit, the second buffer unit, the first lower surface of the 3rd buffer unit and the 4th buffer unit, the second lower surface, the 3rd Lower surface and the 4th lower surface, make the first buffer unit, the second buffer unit, the 3rd buffer unit and the 4th buffer unit upward Upset, electrokinetic cell rise, and directly fill electrokinetic cell from the first side buffer unit, the second side buffer unit, the 3rd side buffering Put and extracted between the 4th side buffer unit, when extracting electrokinetic cell, the first buffer unit, the second buffer part can be driven Part, the 3rd buffer unit and the 4th buffer unit are flipped up and make the first upper limit plane, the second upper limit plane, the 3rd upper limit Face and the 4th upper limit plane are stuck in the top edge of the first storage tank, the second storage tank, the 3rd storage tank and the 4th storage tank, First state keeps extension spring, the second state to keep extension spring, the third state to keep extension spring and the 4th state to keep extension spring to divide equally simultaneously First rotating shaft, the second rotating shaft, the 3rd rotating shaft and the axis of the 4th rotating shaft are not crossed from below, so as to respectively to the first buffer part Part, the second buffer unit, the 3rd buffer unit and the 4th buffer unit produce the pretightning force pulled up, keep the first buffer part Part, the second buffer unit, the 3rd buffer unit and the 4th buffer unit are in the state being flipped up, and are easy to electricity is sufficient to move Power battery is reinstalled.Compared with prior art, low-carbon power source dismounting-mounting type battery truck of the invention, it can enter to electrokinetic cell The comprehensive vibrations buffering of row, security protection are comprehensively effective, it is ensured that and electrokinetic cell is not hit and damaged, and electrokinetic cell Disassembling operations are flexible, and power is lasting, practical.
Brief description of the drawings
Fig. 1 is the broken section structural representation of first angle of the present invention;
Fig. 2 is the broken section structural representation of second angle of the present invention;
Fig. 3 is the broken section structural representation of use state of the present invention;
Fig. 4 is the local overlooking structural representation of the present invention.
In figure:
Embodiment
In order to which technical scheme is explained further, it is described in detail below by specific embodiment.
A kind of low-carbon power source dismounting-mounting type battery truck of the present invention, as Figure 1-4, including storage battery vehicle main body and power electric Pond 2;Electrokinetic cell 2 is equipped with loading attachment 3;
Loading attachment 3 includes the loading main body being below and the loading lid 31 in top;Electrokinetic cell 2 has court On battery upper side, battery downside directed downwardly, and in laterally adjacent battery first face, the side of battery second successively Face, the side of battery the 3rd and the side of battery the 4th;Loading main body includes and battery first face, battery second side, battery the First side buffer unit 32, the second side buffer unit 33, the 3rd side buffering dress corresponding to three sides and the side of battery the 4th difference Put 34 and the 4th side buffer unit 35;
First side buffer unit 32 includes the first pedestal 321 and carried out on the first pedestal 321 towards battery first face The first buffer unit 322 that elasticity is supported;First buffer unit 322 includes horizontally arranged and parallel in the of battery first face One cylindrical portion 3221, it is formed in the first cylindrical portion 3221 and extends along the first cylindrical portion 3221 and support is under electrokinetic cell 2 Side the first supporting part 3222, and be formed in the first cylindrical portion 3221 and extend along the first cylindrical portion 3221 and with battery first The first relative top 3223 of side;On the cross section of the first buffer unit 322, the circle corresponding to the first cylindrical portion 3221 The central angle number of degrees of the heart angle number corresponding to more than the first supporting part 3222 and the first top 3223;First pedestal 321 is formed There is the first storage tank 3211 towards battery first face and accommodating first cylindrical portion 3221, the first storage tank 3211, which has, to be in Medial surface 32111, first time medial surface 32112 in downside and in bottom land and battery first face phase on the first of upside The first parallel groove bottom 32113;The distance between lower medial surface 32112 of medial surface 32111 to the first and the first circle on first The diameter in post portion 3221 is equal;First cylindrical portion 3221 is equipped with first rotating shaft 32211, and the axis of first rotating shaft 32211 is in Planar, the first cylindrical portion 3221, which has, protrudes from the first storage tank for the upper edge of first storage tank 3211 and lower edge institute On the outside of 3211 top edges first on prominent curved portions 32212 and protrude from the outside of the lower edge of the first storage tank 3211 first under Prominent curved portions 32213;The groove bottom 32113 of first rotating shaft 32211 and first is connected by horizontally disposed head rod 32214 Connect, head rod 32214 is articulated and can spun upside down with the first groove bottom 32113;First top 3223 has Have and dashed forward on the first support surface 32231 and the corresponding top edge of first storage tank 3211 and lower end and first of corresponding battery first face Go out the first upper limit plane 32232 that curved portions 32212 are connected, the first upper limit plane 32232 and the top of the first storage tank 3211 Between edge have first on gap angle, the first support surface 32231 be resisted against provided with elasticity on battery first face and by it is lower extremely Upper gradual the first thickening elastic layer 32233;First elastic layer 32233 is only connected with the first support surface 32231, and is held with first The sliding contact of support portion 3222;First elastic layer 32233 has the first elastic connecting contacting surface a1 towards battery first face, the first bullet Property contact surface a1 include in the bottom first vertical contact surface a11 parallel with battery first face and in smoothing junction in first Above lower contact surface and from the bottom to top gradually towards the first arc contact surface a12 of the direction of the first pedestal 321 bending, the first elasticity Contact surface a1 is covered with the first resin smooth layer a13;First supporting part 3222 has corresponding battery downside and supported with first The first support face 32221, the first lower surface 32222 directed downwardly and corresponding first storage tank 3211 that the lower end of face 32231 is connected The first lower limit plane 32223 that lower edge and upper end are connected with first time prominent curved portions 32213, the first lower limit plane There is first time gap angle between 32223 and the lower edge of the first storage tank 3211;First cylindrical portion 3221 is formed with accommodating the First bar hole 32215 of one rotating shaft 32211, the first bar hole 32215 is horizontally disposed, and the first bar hole 32215 has direction First distal shaft end b11 of battery first face and the first proximal ends b12, the first proximal ends b12 towards the first storage tank 3211 For the circular arc and the first proximal ends b12 axis that match with the side face of first rotating shaft 32211 and the first cylindrical portion 3221 Axis is identical, and the distances of the first distal shaft end b11 to circular arc the first proximal ends b12 axis is more than the first distal shaft end b11 to the The distance of the axis of one rotating shaft 32211, the first buffering stage clip b13 is provided between the distal shaft end b11 of first rotating shaft 32211 and first; Medial surface 32111 is formed with multiple first upper hopper chute c1s parallel with head rod 32214, first time medial surface on first 32112 form formed with multiple first gliding groove d1 parallel with head rod 32214, the side face of the first cylindrical portion 3221 Have and multiple be engaged with the axis perpendicular of the first cylindrical portion 3221 and with each above-mentioned first upper hopper chute c1 and the first gliding groove d1 First annular raised 32216 slided;First buffer unit 322, which is equipped, keeps the of the rollover states of the first buffer unit 322 One state keeps extension spring 3224, and first state keeps extension spring 3224 to have in the first extension spring being connected with the first buffer unit 322 End and the first extension spring lower end being connected with the bottom of the first pedestal 321, the first buffer unit 322 are provided with and are connected with the first extension spring upper end First on connecting portion, the first pedestal 321 is provided with first time connecting portion being connected with the first extension spring upper end;Define first time connection The line in portion and the center of first rotating shaft 32211 is the first line, and the center of first rotating shaft 32211 and the line of connecting portion on first are Second line, the top extended line of the first line are in the top of the top extended line of the second line, prolonged above the first line The angle number of degrees between long line and the top extended line of the second line are the half of the gap angle number of degrees on first;
Second side buffer unit 33 includes the second pedestal 331 and carried out on the second pedestal 331 towards battery second side The second buffer unit 332 that elasticity is supported;Second buffer unit 332 includes horizontally arranged and parallel in the of battery second side Two cylindrical portions 3321, it is formed in the second cylindrical portion 3321 and extends along the second cylindrical portion 3321 and support is under electrokinetic cell 2 Side the second supporting part 3322, and be formed in the second cylindrical portion 3321 and extend along the second cylindrical portion 3321 and with battery second The second relative top 3323 of side;On the cross section of the second buffer unit 332, the circle corresponding to the second cylindrical portion 3321 The central angle number of degrees of the heart angle number corresponding to more than the second supporting part 3322 and the second top 3323;Second pedestal 331 is formed There is the second storage tank 3311 towards battery second side and accommodating second cylindrical portion 3321, the second storage tank 3311, which has, to be in Medial surface 33111, second time medial surface 33112 in downside and in bottom land and battery second side phase on the second of upside The second parallel groove bottom 33113;The distance between lower medial surface 33112 of medial surface 33111 to the second and the second circle on second The diameter in post portion 3321 is equal;Second cylindrical portion 3321 is equipped with the second rotating shaft 33211, and the axis of the second rotating shaft 33211 is in Planar, the second cylindrical portion 3321, which has, protrudes from the second storage tank for the upper edge of second storage tank 3311 and lower edge institute On the outside of 3311 top edges second on prominent curved portions 33212 and protrude from the outside of the lower edge of the second storage tank 3311 second under Prominent curved portions 33213;Second rotating shaft 33211 and the second groove bottom 33113 are connected by horizontally disposed second connecting rod 33214 Connect, the second connecting rod 33214 is articulated and can spun upside down with the second groove bottom 33113;Second top 3323 has Have and dashed forward on the second support surface 33231 and the corresponding top edge of second storage tank 3311 and lower end and second of corresponding battery second side Go out the second upper limit plane 33232 that curved portions 33212 are connected, the second upper limit plane 33232 and the top of the second storage tank 3311 Between edge have second on gap angle, the second support surface 33231 be resisted against provided with elasticity in battery second side and by it is lower extremely Upper gradual the second thickening elastic layer 33233;Second elastic layer 33233 is only connected with the second support surface 33231, and is held with second The sliding contact of support portion 3322;Second elastic layer 33233 has the second elastic connecting contacting surface a2 towards battery second side, the second bullet Property contact surface a2 include in the bottom second vertical contact surface a21 parallel with battery second side and in smoothing junction in second Above lower contact surface and from the bottom to top gradually towards the second arc contact surface a22 of the direction of the second pedestal 331 bending, the second elasticity Contact surface a2 is covered with the second resin smooth layer a23;Second supporting part 3322 has corresponding battery downside and supported with second The second support face 33221, the second lower surface 33222 directed downwardly and corresponding second storage tank 3311 that the lower end of face 33231 is connected The second lower limit plane 33223 that lower edge and upper end are connected with second time prominent curved portions 33213, the second lower limit plane There is second time gap angle between 33223 and the lower edge of the second storage tank 3311;Second cylindrical portion 3321 is formed with accommodating the Second bar hole 33215 of two rotating shafts 33211, the second bar hole 33215 is horizontally disposed, and the second bar hole 33215 has direction Second distal shaft end b21 of battery second side and the second proximal ends b22, the second proximal ends b22 towards the second storage tank 3311 For the circular arc and the second proximal ends b22 axis that match with the side face of the second rotating shaft 33211 and the second cylindrical portion 3321 Axis is identical, and the distances of the second distal shaft end b21 to circular arc the second proximal ends b22 axis is more than the second distal shaft end b21 to the The distance of the axis of two rotating shaft 33211, opened between the second rotating shaft 33211 and the second distal shaft end b21 and be provided with the second buffering stage clip b23; Medial surface 33111 is formed with multiple second upper hopper chute c2s parallel with the second connecting rod 33214, second time medial surface on second 33112 form formed with multiple second gliding groove d2 parallel with the second connecting rod 33214, the side face of the second cylindrical portion 3321 Have and multiple be engaged with the axis perpendicular of the second cylindrical portion 3321 and with each above-mentioned second upper hopper chute c2 and the second gliding groove d2 The second annular protrusion 33216 slided;Second buffer unit 332, which is equipped, keeps the of the rollover states of the second buffer unit 332 Two-state keeps extension spring 3324, and the second state keeps extension spring 3324 to have in the second extension spring being connected with the second buffer unit 332 End and the second extension spring lower end being connected with the bottom of the second pedestal 331, the second buffer unit 332 are provided with and are connected with the second extension spring upper end Second on connecting portion, the second pedestal 331 is provided with second time connecting portion being connected with the second extension spring upper end;Define second time connection The line in portion and the center of the second rotating shaft 33211 is the 3rd line, and the center of the second rotating shaft 33211 and the line of connecting portion on second are 4th line, the top extended line of the 3rd line are in the top of the top extended line of the 4th line, prolonged above the 3rd line The angle number of degrees between the top extended line of long line and the 4th line are the half of the gap angle number of degrees on second;
3rd side buffer unit 34 includes the 3rd pedestal 341 and carried out on the 3rd pedestal 341 towards the side of battery the 3rd The 3rd buffer unit 342 that elasticity is supported;3rd buffer unit 342 includes horizontally arranged and parallel in the of the side of battery the 3rd Three post portions, it is formed in the 3rd cylindrical portion 3421 and extends along the 3rd cylindrical portion 3421 and support is in the of the lower section of electrokinetic cell 2 Three supporting parts 3422, and be formed in the 3rd cylindrical portion 3421 and extend along the 3rd cylindrical portion 3421 and with the side phase of battery the 3rd To the 3rd top 3423;On the cross section of the 3rd buffer unit 342, the center of circle angle corresponding to the 3rd cylindrical portion 3421 The central angle number of degrees of the number corresponding to more than the 3rd supporting part 3422 and the 3rd top 3423;3rd pedestal 341 is formed with direction The side of battery the 3rd and the 3rd storage tank 3411 of accommodating 3rd cylindrical portion 3421, the 3rd storage tank 3411, which has, is in upside Medial surface 34111 on 3rd, the three times medial surfaces 34112 in downside and parallel with the side of battery the 3rd in bottom land 3rd groove bottom 34113;Medial surface 34111 is to the distance between the three times medial surfaces 34112 and the 3rd cylindrical portion on 3rd 3421 diameter is equal;3rd cylindrical portion 3421 is equipped with the 3rd rotating shaft 34211, and the axis of the 3rd rotating shaft 34211 is in the 3rd Planar, the 3rd cylindrical portion 3421, which has, to be protruded from the 3rd storage tank 3411 for the upper edge of storage tank 3411 and lower edge institute On the outside of edge the 3rd on prominent curved portions 34212 and protrude from the three times prominent arcs on the outside of the lower edge of the 3rd storage tank 3411 Shape portion 34213;3rd rotating shaft 34211 and the 3rd groove bottom 34113 are connected by horizontally disposed 3rd connecting rod 34214, the Three connecting rods 34214 are articulated and can spun upside down with the 3rd groove bottom 34113;3rd top 3423 has corresponding Prominent arc on 3rd support surface 34231 of the side of battery the 3rd and the corresponding top edge of 3rd storage tank 3411 and lower end and the 3rd The 3rd upper limit plane 34232 that portion 34212 is connected, between the 3rd upper limit plane 34232 and the top edge of the 3rd storage tank 3411 With gap angle on the 3rd, the 3rd support surface 34231 is resisted against on the side of battery the 3rd and gradual from the bottom to top provided with elasticity The 3rd thickening elastic layer 34233;3rd elastic layer 34233 is only connected with the 3rd support surface 34231, and with the 3rd supporting part 3422 sliding contacts;3rd elastic layer 34233 has the 3rd elastic connecting contacting surface a3 towards the side of battery the 3rd, the 3rd elastic connecting Contacting surface a3 is included in the bottom threeth vertical contact surface a31 parallel with the side of battery the 3rd and smooth connection in the 3rd bottom Above contact surface and from the bottom to top gradually towards the 3rd arc contact surface a32 of the direction of the 3rd pedestal 341 bending, the 3rd Elastic Contact Face a3 is covered with the 3rd resin smooth layer a33;3rd supporting part 3422 have corresponding battery downside and with the 3rd support surface Under the 3rd support face 34221, the 3rd lower surface 34222 directed downwardly and corresponding 3rd storage tank 3411 that 34231 lower ends are connected The 3rd lower limit plane 34223 that edge and upper end are connected with the three times prominent curved portions 34213, the 3rd lower limit plane 34223 There are the three times gap angles between the lower edge of the 3rd storage tank 3411;3rd cylindrical portion 3421 is formed with accommodating 3rd rotating shaft 34211 Article 3 shape hole 34215, Article 3 shape hole 34215 are horizontally disposed, and Article 3 shape hole 34215 has towards battery the 3rd distal shaft end b31 of three sides and the 3rd proximal ends b32 towards the 3rd storage tank 3411, the 3rd proximal ends b32 are and the The circular arc and the 3rd proximal ends b32 axis and the axis phase of the 3rd cylindrical portion 3421 that the side face of three rotating shafts 34211 matches Together, the distance of the 3rd distal shaft end b31 to the 3rd proximal ends b32 axis of circular arc is more than the 3rd distal shaft end b31 to the 3rd rotating shaft The distance of 34211 axis, opened between the 3rd rotating shaft 34211 and the 3rd distal shaft end b31 and be provided with the 3rd buffering stage clip b33;On 3rd Medial surface 34111 is formed with multiple threeth upper hopper chute c3s parallel with the 3rd connecting rod 34214, the three times medial surfaces 34112 Formed with multiple threeth gliding groove d3s parallel with the 3rd connecting rod 34214, the side face of the 3rd cylindrical portion 3421 is formed with more It is individual to be engaged slip with the axis perpendicular of the 3rd cylindrical portion 3421 and with each above-mentioned 3rd upper hopper chute c3 and the 3rd gliding groove d3 The 3rd annular protrusion 34216;3rd buffer unit 342 is equipped with the 3rd shape for keeping the rollover states of the 3rd buffer unit 342 State keeps extension spring 3424, the third state keep extension spring 3424 have the 3rd extension spring upper end that is connected with the 3rd buffer unit 342 and The 3rd extension spring lower end being connected with the bottom of the 3rd pedestal 341, the 3rd buffer unit 342 are provided with the be connected with the 3rd extension spring upper end Connecting portion on three, the 3rd pedestal 341 are provided with the three times connecting portions being connected with the 3rd extension spring upper end;Define the three times connecting portions with The line at the center of the 3rd rotating shaft 34211 is the 5th line, and the line of connecting portion is the 6th on the center of the 3rd rotating shaft 34211 and the 3rd Line, the top extended line of the 5th line are in the top of the top extended line of the 6th line, the top extended line of the 5th line The angle number of degrees between the top extended line of the 6th line are the half of the gap angle number of degrees on the 3rd;
4th side buffer unit 35 includes the 4th pedestal 351 and carried out on the 4th pedestal 351 towards the side of battery the 4th The 4th buffer unit 352 that elasticity is supported;4th buffer unit 352 includes horizontally arranged and parallel in the of the side of battery the 4th Four post portions, it is formed in the 4th cylindrical portion 3521 and extends along the 4th cylindrical portion 3521 and support is in the of the lower section of electrokinetic cell 2 Four supporting parts 3522, and be formed in the 4th cylindrical portion 3521 and extend along the 4th cylindrical portion 3521 and with the side phase of battery the 4th To the 4th top 3523;On the cross section of the 4th buffer unit 352, the center of circle angle corresponding to the 4th cylindrical portion 3521 The central angle number of degrees of the number corresponding to more than the 4th supporting part 3522 and the 4th top 3523;4th pedestal 351 is formed with direction The side of battery the 4th and the 4th storage tank 3511 of accommodating 4th cylindrical portion 3521, the 4th storage tank 3511, which has, is in upside Medial surface 35111 on 4th, the four times medial surfaces 33112 in downside and parallel with the side of battery the 4th in bottom land 4th groove bottom 35113;Medial surface 35111 is to the distance between the four times medial surfaces 33112 and the 4th cylindrical portion on 4th 3521 diameter is equal;4th cylindrical portion 3521 is equipped with the 4th rotating shaft 35211, and the axis of the 4th rotating shaft 35211 is in the 4th Planar, the 4th cylindrical portion 3521, which has, to be protruded from the 4th storage tank 3511 for the upper edge of storage tank 3511 and lower edge institute On the outside of edge the 4th on prominent curved portions 35212 and protrude from the four times prominent arcs on the outside of the lower edge of the 4th storage tank 3511 Shape portion 35213;4th rotating shaft 35211 and the 4th groove bottom 35113 are connected by horizontally disposed 4th connecting rod 35214, the Four connecting rods 35214 are articulated and can spun upside down with the 4th groove bottom 35113;4th top 3523 has corresponding Prominent arc on 4th support surface 35231 of the side of battery the 4th and the corresponding top edge of 4th storage tank 3511 and lower end and the 4th The 4th upper limit plane 35232 that portion 35212 is connected, between the 4th upper limit plane 35232 and the top edge of the 4th storage tank 3511 With gap angle on the 4th, the 4th support surface 35231 is resisted against on the side of battery the 4th and gradual from the bottom to top provided with elasticity The 4th thickening elastic layer 35233;4th elastic layer 35233 is only connected with the 4th support surface 35231, and with the 4th supporting part 3522 sliding contacts;4th elastic layer 35233 has the 4th elastic connecting contacting surface a4 towards the side of battery the 4th, the 4th elastic connecting Contacting surface a4 is included in the bottom fourth vertical contact surface a41 parallel with the side of battery the 4th and smooth connection in the 4th bottom Above contact surface and from the bottom to top gradually towards the 4th arc contact surface a42 of the direction of the 4th pedestal 351 bending, the 4th Elastic Contact Face a4 is covered with the 4th resin smooth layer a43;4th supporting part 3522 have corresponding battery downside and with the 4th support surface Under the 4th support face 35221, the 4th lower surface 35222 directed downwardly and corresponding 4th storage tank 3511 that 35231 lower ends are connected The 4th lower limit plane 35223 that edge and upper end are connected with the four times prominent curved portions 35213, the 4th lower limit plane 35223 There are the four times gap angles between the lower edge of the 4th storage tank 3511;4th cylindrical portion 3521 is formed with accommodating 4th rotating shaft 35211 Article 4 shape hole 35215, Article 4 shape hole 35215 are horizontally disposed, and Article 4 shape hole 35215 has towards battery the 4th distal shaft end b41 of four sides and the 4th proximal ends b42 towards the 4th storage tank 3511, the 4th proximal ends b42 are and the The circular arc and the 4th proximal ends b42 axis and the axis phase of the 4th cylindrical portion 3521 that the side face of four rotating shafts 35211 matches Together, the distance of the 4th distal shaft end b41 to the 4th proximal ends b42 axis of circular arc is more than the 4th distal shaft end b41 to the 4th rotating shaft The distance of 35211 axis, opened between the 4th rotating shaft 35211 and the 4th distal shaft end b41 and be provided with the 4th buffering stage clip b43;On 4th Medial surface 35111 is formed with multiple fourth upper hopper chute c4s parallel with the 4th connecting rod 35214, the four times medial surfaces 33112 Formed with multiple fourth gliding groove d4s parallel with the 4th connecting rod 35214, the side face of the 4th cylindrical portion 3521 is formed with more It is individual to be engaged slip with the axis perpendicular of the 4th cylindrical portion 3521 and with each above-mentioned 4th upper hopper chute c4 and the 4th gliding groove d4 Fourth annular projection 35216;4th buffer unit 352 is equipped with the 4th shape for keeping the rollover states of the 4th buffer unit 352 State keeps extension spring 3524, the 4th state keep extension spring 3524 have the 4th extension spring upper end that is connected with the 4th buffer unit 352 and The 4th extension spring lower end being connected with the bottom of the 4th pedestal 351, the 4th buffer unit 352 are provided with the be connected with the 4th extension spring upper end Connecting portion on four, the 4th pedestal 351 are provided with the four times connecting portions being connected with the 4th extension spring upper end;Define the four times connecting portions with The line at the center of the 4th rotating shaft 35211 is the 7th line, and the line of connecting portion is the 8th on the center of the 4th rotating shaft 35211 and the 4th Line, the top extended line of the 7th line are in the top of the top extended line of the 8th line, the top extended line of the 7th line The angle number of degrees between the top extended line of the 8th line are the half of the gap angle number of degrees on the 4th;
First support face 32221 has in the edge of the first support face 32221 of the lower section of electrokinetic cell 2, the second support face 33221 have in the edge of the second support face 33221 of the lower section of electrokinetic cell 2, and the 3rd support face 34221, which has, is in power electric The edge of the 3rd support face 34221 of the lower section of pond 2, the 4th support face 35221 have in the 4th support face of the lower section of electrokinetic cell 2 35221 edges;The distance at battery first face to the edge of the first support face 32221 is more than the first buffer unit 322 and held to first The ultimate range slided in groove 3211 is put, the distance of battery second side to the edge of the second support face 33221 is more than the second buffering The ultimate range that part 332 slides into the second storage tank 3311, the side of battery the 3rd to the edge of the 3rd support face 34221 away from From the ultimate range slided more than the 3rd buffer unit 342 into the 3rd storage tank 3411, the side of battery the 4th to the 4th support The distance at the edge of face 35221 is more than the ultimate range that the 4th buffer unit 352 slides into the 4th storage tank 3511;
Loading lid 31 includes cap body 311, and the top of electrokinetic cell 2 is carried out it is elastic push to support down compress Ejection device 312;Cap body 311 has the pivot that is articulated and can be spun upside down with the top of the first side buffer unit 32 Connect end, and the buckle end being fastened togather with the top of the 3rd side buffer unit 34;The lower surface of cap body 311 is formed with appearance Put and push the low groove 3111 for supporting device 312, push and support device 312 and include being placed in pushing in low groove 3111 and supporting Block 3121 and multidirectional buffer unit 3122;Low groove 3111 is in rectangular-shape, have in top the bottom wall of low groove 3111 with It is and parallel with battery first face, battery second side, the side of battery the 3rd and the side of battery the 4th first recessed respectively The side wall of groove 3111, the side wall of the second low groove 3111, the side wall of the 3rd low groove 3111 and the side wall of the 4th low groove 3111;Push and support Block 3121 is in rectangular-shape, and has gap between the madial wall of low groove 3111;Push support block 3121 have with it is recessed The bottom wall of groove 3111 it is corresponding support block roof, support block bottom wall towards electrokinetic cell 2, and correspond to respectively under first successively The side wall of groove 3111, the side wall of the second low groove 3111, the first of the side wall of the 3rd low groove 3111 and the side wall of the 4th low groove 3111 Block side wall is supported, second block side wall is supported, the 3rd supports block side wall and the 4th and support block side wall;Multidirectional buffer unit 3122 includes Be located at the bottom wall of low groove 3111 and support the compression spring 31221 between block roof, be located at the side wall of the first low groove 3111 and First supports the first side pressure spring 31222 between block side wall, is located at the side wall of the second low groove 3111 and second and supports block side wall Between the second side pressure spring 31223, be located at the side wall of the 3rd low groove 3111 and the 3rd and support the 3rd side pressure between block side wall Spring 31224, and be located at the side wall of the 4th low groove 3111 and the 4th and support the 4th side pressure spring 31225 between block side wall;Support Block bottom wall supports positioning convex 31211 formed with downwardly projecting positive tetrapyamid shape, and electrokinetic cell 2 is housed formed with matching and supported Top positioning convex 31211 supports detent, and the height for supporting positioning convex 31211 is more than the depth for supporting detent Degree;
Loading attachment 3 is also included in the first side buffer unit 32, the second side buffer unit 33, the 3rd side buffer unit 34 With the lower section of the 4th side buffer unit 35 to the first lower surface 32222, the second lower surface 33222, the 3rd lower surface 34222 and the 4th What lower surface 35222 was supported supports device 36.In actual use, loading attachment 3 can be to electrokinetic cell 2 by the present invention Safety carrying is carried out, and electrokinetic cell 2 can be dismounted flexibly, be specifically, and be held when that need to load electrokinetic cell 2 Carry when putting, first open and load lid 31, electrokinetic cell 2 is suitably put into the first side buffer unit 32, the second side buffer unit 33rd, between the 3rd side buffer unit 34 and the 4th side buffer unit 35, lower end and the first elastic connecting contacting surface a1 of electrokinetic cell 2 are made On the first resin smooth layer a13, the second resin smooth layer a23, the 3rd elastic connecting contacting surface a3 on the second elastic connecting contacting surface a2 On the 3rd resin smooth layer a33 and the 4th elastic connecting contacting surface a4 on the 4th resin smooth layer a43 contact, upset load lid 31 gradual closures, supported under making device 36 support positioning convex 31211 and electrokinetic cell 2 to support detent corresponding, Load lid 31 gradually to push, be engaged using positioning convex 31211 is supported with supporting detent, while utilize multidirectional buffering First side pressure spring 31222 of device 3122, the second side pressure spring 31223, the 3rd side pressure spring 31224 and the 4th side pressure spring 31225 are right Under support device 36 and adapt to and elasticity correction, during electrokinetic cell 2 moves downward carrying out positioning to electrokinetic cell 2 leads To, electrokinetic cell 2 is taken advantage of a situation and moved downward along arc and inclined each smooth layer, while gradually to the first elastic layer 32233, Two elastic layers 33233, the 3rd elastic layer 34233 and the 4th elastic layer 35233 are pressed, the first elastic layer 32233, the second bullet Property layer 33233, the 3rd elastic layer 34233 and the 4th elastic layer 35233 is common that elastic clamping is gradually carried out to electrokinetic cell 2, together When the first buffer unit 322, the second buffer unit 332, the 3rd buffer unit 342 and the 4th buffer unit 352 respectively by each From first rotating shaft 32211, the second rotating shaft 33211, the 3rd rotating shaft 34211 and the 4th rotating shaft 35211 overturn and push away gradually downward Dynamic first cylindrical portion 3221, the second cylindrical portion 3321, the 3rd cylindrical portion 3421 and the 4th cylindrical portion 3521 are respectively to the first pedestal 321 the first storage tank 3211, the second storage tank 3311, the and of the 3rd storage tank 3411 of the 3rd pedestal 341 of the second pedestal 331 Slided in 4th storage tank 3511 of the 4th pedestal 351, the first cylindrical portion 3221, the second cylindrical portion 3321, the 3rd cylindrical portion 3421 and the 4th cylindrical portion 3521 the first annular raised 32216 and first upper hopper chute c1 and first is utilized respectively in sliding process Gliding groove d1 is engaged, the second annular protrusion 33216 is engaged with the second upper hopper chute c2 and the second gliding groove d2, the 3rd convex annular 34216 are played to be engaged with the 3rd upper hopper chute c3 and the 3rd gliding groove d3 and fourth annular raised 35216 and the 4th upper hopper chute c4 It is engaged and is oriented to the 4th gliding groove d4, it is ensured that the first cylindrical portion 3221, the second cylindrical portion 3321, the 3rd cylindrical portion 3421 Be not in deflection in the horizontal plane in sliding process with the 4th cylindrical portion 3521, and 32211, second turns of first rotating shaft Axle 33211, the 3rd rotating shaft 34211 and the 4th rotating shaft 35211 be utilized respectively head rod 32214, the second connecting rod 33214, 3rd connecting rod 34214 and the 4th connecting rod 35214 freely swung up and down adapt to respectively the first bar hole 32215, The arbitrary inclination of second bar hole 33215, Article 3 shape hole 34215 and Article 4 shape hole 35215, and then make first rotating shaft 32211st, the second rotating shaft 33211, the 3rd rotating shaft 34211 and the 4th rotating shaft 35211 can be respectively in the first bar holes 32215, second Arbitrarily slided in bar hole 33215, Article 3 shape hole 34215 and Article 4 shape hole 35215 and respectively to the first buffer spring, the Two buffer springs, the 3rd buffer spring and the 4th buffer spring are compressed, so as to gradually strengthen the first buffer unit 322, the Two buffer units 332, the 3rd buffer unit 342 and the 4th buffer unit 352 work as power to the elastic clip clamp force of electrokinetic cell 2 Support in the first support face 32221, the second support face 33221, the 3rd support face 34221 and the 4th support face the lower end of battery 2 After on 35221, with the first buffer unit 322, the second buffer unit 332, the 3rd buffer unit 342 and the 4th buffer unit 352 more downwardly turn over, the first buffer unit 322, the second buffer unit 332, the 3rd buffer unit 342 and the 4th buffer unit The elastic clip clamp force of 352 pairs of electrokinetic cells 2 is stronger, makes the first buffer unit 322, the second buffer unit 332, the 3rd buffer part The buffer unit 352 of part 342 and the 4th has the trend to be flipped up, the first buffer unit 322, the second buffer unit 332, Three buffer units 342 and the 4th buffer unit 352 are held using the first support face 32221, the second support face the 33221, the 3rd naturally The support face 35221 of support 34221 and the 4th produces upward flexible support power to electrokinetic cell 2, and compression spring 31221 is to power Battery 2 produces pressure under downward elasticity, loads in main body and is buckled in the 3rd pedestal 341 until loading lid 31 closes at When together, the first bar hole 32215, the second bar hole 33215, Article 3 shape hole 34215 and Article 4 shape hole 35215 are with One connecting rod 32214, the second connecting rod 33214, the 3rd connecting rod 34214 and the 4th connecting rod 35214 are in same level Interior, the power of all directions suffered by electrokinetic cell 2 reaches balance, and first state keeps extension spring 3224, the second state to keep extension spring 3324th, the third state keeps the state of extension spring 3424 and the 4th to keep extension spring 3524 to be buffered respectively to the first buffer unit 322, second Part 332, the 3rd buffer unit 342 and the 4th buffer unit 352 have the pretightning force pulled downward on, keep electrokinetic cell 2 to be in Poised state, avoid opening electrokinetic cell 2 when loading lid 31 and situation about jumping out upwards occur.When electronic battery truck produces direction During the horizontal direction vibration of the first side buffer unit 32, electrokinetic cell 2 can extrude the first elastic layer 32233, and then promote whole First buffer unit 322 moves along the first upper groove and the first low groove 3111 into the first storage tank 3211, it is ensured that the first circle Post portion 3221 is not in deflection in the horizontal plane in sliding process, and then in head rod 32214 and first rotating shaft The first buffer spring is compressed under 32211 support, so as to realize the buffering to electrokinetic cell 2, while detent is supported and supports Top positioning convex 31211 be engaged drive push support block 3121 compress the first side pressure spring 31222 carry out auxiliary buffering;When electronic Battery truck is produced towards during the horizontal direction vibration of the second side buffer unit 33, and electrokinetic cell 2 can extrude the second elastic layer 33233, and then whole second buffer unit 332 is promoted along the second upper groove and the second low groove 3111 to the second storage tank 3311 Interior movement, it is ensured that the second cylindrical portion 3321 is not in deflection in the horizontal plane in sliding process, and then in the second connection The second buffer spring is compressed under the support of the rotating shaft 33211 of bar 33214 and second, so as to realize the buffering to electrokinetic cell 2, simultaneously Support detent and support positioning convex 31211 be engaged drive push support block 3121 compress the second side pressure spring 31223 enter Row auxiliary buffering;When electronic battery truck is produced towards during the horizontal direction vibration of the 3rd side buffer unit 34, electrokinetic cell 2 can squeeze Press the 3rd elastic layer 34233, and then promote whole 3rd buffer unit 342 along the 3rd upper groove and the 3rd low groove 3111 to the Moved in three storage tanks 3411, it is ensured that the 3rd cylindrical portion 3421 is not in deflection in the horizontal plane in sliding process, is entered And the 3rd buffer spring is compressed under the support of the 3rd connecting rod 34214 and the 3rd rotating shaft 34211, so as to realize to electrokinetic cell 2 buffering, at the same support detent and support positioning convex 31211 be engaged drive push support block 3121 compress the 3rd side Stage clip 31224 carries out auxiliary buffering;When electronic battery truck produces the horizontal direction vibration of the 4th side buffer unit 35 of direction, move Power battery 2 can extrude the 4th elastic layer 35233, and then promote whole 4th buffer unit 352 along under the 4th upper groove and the 4th Groove 3111 moves into the 4th storage tank 3511, it is ensured that the 4th cylindrical portion 3521 does not appear in horizontal plane in sliding process Interior deflection, and then the 4th buffer spring is compressed under the support of the 4th connecting rod 35214 and the 4th rotating shaft 35211, so as to real Now to the buffering of electrokinetic cell 2, while support detent and support positioning convex 31211 and be engaged drive and push and support block 3121 the 4th side pressure springs 31225 of compression carry out auxiliary buffering.When electronic battery truck produces downward vibration, under electrokinetic cell 2 Press the first support face 32221, the second support face 33221, the 3rd support face 34221 and the 4th support face 35221, the first buffer part Part 322, the second buffer unit 332, the 3rd buffer unit 342 and the 4th buffer unit 352 more downwardly turn over, the first buffer unit 322nd, the second buffer unit 332, the 3rd buffer unit 342 and the 4th buffer unit 352 to the elastic clip clamp force of electrokinetic cell 2 just It is stronger, the first buffer unit 322, the second buffer unit 332, the 3rd buffer unit 342 and the 4th buffer unit 352 is had desire The trend being flipped up, and then the first buffer unit 322, the second buffer unit 332, the 3rd buffer unit 342 and the 4th buffering Part 352 utilizes the first support face 32221, the second support face 33221, the 3rd support face 34221 and the 4th support face naturally 35221 pairs of electrokinetic cells 2 produce upward flexible support power, so as to realize the buffering vibrated downwards to electrokinetic cell 2;When electronic When battery truck produces upward vibration, the upper end of electrokinetic cell 2, which is supported to push upwards, supports the lower stage clip of the compression of block 3121, so as to real The buffering now vibrated upwards to electrokinetic cell 2.When needing to change electrokinetic cell 2, open and load lid 31, first state is kept Extension spring 3224, the second state keep the guarantor that extension spring 3324, the third state keep the state of extension spring 3424 and the 4th to keep extension spring 3524 Hold down, electrokinetic cell 2 will not be jumped out, securely and reliably, can by operation support device 36 upwards support the first buffer unit 322, The first lower surface 32222, the second lower surface of second buffer unit 332, the 3rd buffer unit 342 and the 4th buffer unit 352 33222nd, the 3rd lower surface 34222 and the 4th lower surface 35222, the first buffer unit 322, the second buffer unit the 332, the 3rd are made The buffer unit 352 of buffer unit 342 and the 4th is flipped up, and electrokinetic cell 2 rises, and directly delays electrokinetic cell 2 from the first side Extract, pulling out between flushing device 32, the second side buffer unit 33, the 3rd side buffer unit 34 and the 4th side buffer unit 35 When going out electrokinetic cell 2, the first buffer unit 322, the second buffer unit 332, the 3rd buffer unit 342 and the 4th buffering can be driven Part 352 is flipped up and makes the first upper limit plane 32232, the second upper limit plane 33232, the 3rd upper limit plane 34232 and It is accommodating that four upper limit planes 35232 are stuck in the first storage tank 3211, the second storage tank 3311, the 3rd storage tank 3411 and the 4th The top edge of groove 3511, while first state keeps extension spring 3224, the second state to keep extension spring 3324, the third state to keep extension spring 3424 and the 4th state keep extension spring 3524 respectively cross from below first rotating shaft 32211, the second rotating shaft 33211, the 3rd turn The axis of the rotating shaft 35211 of axle 34211 and the 4th, so as to slow to the first buffer unit 322, the second buffer unit the 332, the 3rd respectively Rush the buffer unit 352 of part 342 and the 4th and produce the pretightning force pulled up, keep the first buffer unit 322, the second buffer part Part 332, the 3rd buffer unit 342 and the 4th buffer unit 352 are in the state being flipped up, and are easy to the sufficient power electric of electricity Reinstall in pond 2.
In order that the first buffer unit 322, the second buffer unit 332, the 3rd buffer unit 342 and the 4th buffer unit 352 upset operations more steady and smooth, it is preferable that the present invention includes two the first companies for being divided into the both ends of first rotating shaft 32211 Extension bar 32214, two the second connecting rods 33214 for being divided into the both ends of the second rotating shaft 33211, two are divided into the 3rd rotating shaft 3rd connecting rod 34214 at 34211 both ends, two the 4th connecting rods 35214 for being divided into the both ends of the 4th rotating shaft 35211.
First groove bottom 32113 is provided with the first articulated section being pivotally connected with head rod 32214;Second groove bottom 33113 Provided with the second articulated section being pivotally connected with the second connecting rod 33214;3rd groove bottom 34113 is provided with and the pivot of the 3rd connecting rod 34214 The 3rd articulated section connect;4th groove bottom 35113 is provided with the 4th articulated section with the pivot joint of the 4th connecting rod 35214.
For the more uniform balance of the buffering to electrokinetic cell 2, it is preferable that the present invention includes multiple along first rotating shaft 32211 the first evenly distributed buffering stage clip b13, multiple second buffering stage clip b23s evenly distributed along the second rotating shaft 33211, Multiple threeth buffering stage clip b33s evenly distributed along the 3rd rotating shaft 34211, it is multiple along the 4th rotating shaft 35211 it is evenly distributed the Four buffering stage clip b43.
For the more uniform balance of the buffering to electrokinetic cell 2, it is preferable that the present invention includes multiple uniform supports in recessed The bottom wall of groove 3111 and the compression spring 31221 between block roof is supported, multiple uniform supports are in the side wall of the first low groove 3111 and One supports the first side pressure spring 31222 between block side wall, and multiple uniform supports are supported in the side wall of the second low groove 3111 and second The second side pressure spring 31223 between block side wall, multiple uniform supports support block side wall in the side wall of the 3rd low groove 3111 and the 3rd Between the 3rd side pressure spring 31224, and multiple uniform supports in the side wall of the 4th low groove 3111 and the 4th support block side wall it Between the 4th side pressure spring 31225.
The product form of the present invention is not limited to this case diagram and embodiment, and anyone carries out the appropriate of similar thinking to it Change or modification, it all should be regarded as not departing from the patent category of the present invention.

Claims (5)

1. a kind of low-carbon power source dismounting-mounting type battery truck, including storage battery vehicle main body and electrokinetic cell;It is characterized in that:The power Battery is equipped with loading attachment;
The loading attachment includes the loading main body being below and the loading lid in top;The electrokinetic cell has court On battery upper side, battery downside directed downwardly, and in laterally adjacent battery first face, the side of battery second successively Face, the side of battery the 3rd and the side of battery the 4th;The loading main body includes and the battery first face, the side of battery second Face, the side of battery the 3rd and the side of battery the 4th respectively corresponding to the first side buffer unit, the second side buffer unit, the 3rd side delay Flushing device and the 4th side buffer unit;
First side buffer unit includes the first pedestal and carries out elasticity towards the battery first face on the first pedestal The first buffer unit supported;First buffer unit includes horizontally arranged and parallel in the first of the battery first face Cylindrical portion, be formed in the first cylindrical portion and along the first cylindrical portion extension and first support of the support below the electrokinetic cell Portion, and be formed in the first cylindrical portion and supported along the extension of the first cylindrical portion and relative with the battery first face first Portion;On the cross section of first buffer unit, the central angle number of degrees corresponding to first cylindrical portion are more than described first The central angle number of degrees corresponding to supporting part and the first top;The First body formed with towards the battery first face simultaneously The first storage tank of first cylindrical portion is housed, first storage tank has medial surface on be in upside first, is in First time medial surface of downside and in bottom land first groove bottom parallel with the battery first face;In on described first Side is equal with the diameter of first cylindrical portion to the distance between first time medial surface;First cylindrical portion arranges Have a first rotating shaft, the axis of the first rotating shaft be in first storage tank upper edge and lower edge institute planar, institute Stating the first cylindrical portion has prominent curved portions on protrude from the outside of the first storage tank top edge first and protrudes from described First time prominent curved portions on the outside of first storage tank lower edge;The first rotating shaft and first groove bottom are set by level The head rod connection put, the head rod are articulated and can spun upside down with first groove bottom;Institute State the first top have the corresponding battery first face the first support surface and the corresponding first storage tank top edge and Lower end and the first upper limit plane that prominent curved portions are connected on described first, first upper limit plane are accommodating with described first There is gap angle on first, first support surface is resisted against on the battery first face provided with elasticity between groove top edge And gradual thickening the first elastic layer from the bottom to top;First elastic layer only be connected with first support surface, and with it is described First supporting part sliding contact;First elastic layer has the first elastic connecting contacting surface towards the battery first face, institute Stating the first Elastic Contact face includes in the bottom first vertical contact surface parallel with the battery first face and smoothly connects It is connected to above the first lower contact surface and from the bottom to top gradually towards the first arc contact surface of the first pedestal direction bending, institute State the first elastic connecting contacting surface and be covered with the first resin smooth layer;First supporting part have the corresponding battery downside and with The first support face, the first lower surface directed downwardly and corresponding first storage tank that first support surface lower end is connected are following The first lower limit plane that edge and upper end are connected with described first time prominent curved portions, the first lower limit plane and described first There is first time gap angle between storage tank lower edge;First cylindrical portion formed with house the first rotating shaft first Bar hole, first bar hole are horizontally disposed with, and first bar hole has towards the first remote of the battery first face Shaft end and the first proximal ends towards first storage tank, first proximal ends are the side face phase with the first rotating shaft The circular arc and the axis of the first proximal ends matched somebody with somebody are identical with the axis of the first cylindrical portion, the institute at the first distal shaft end to circular arc The distance for stating the first proximal ends axis is more than the first distal shaft end to the distance of the first rotating shaft axis, the first rotating shaft Opened between the first distal shaft end and be provided with the first buffering stage clip;Medial surface connects formed with multiple with described first on described first The first parallel upper hopper chute of extension bar, first time medial surface is formed with multiple parallel with the head rod first Gliding groove, the side face of first cylindrical portion formed with it is multiple with the axis perpendicular of the first cylindrical portion and with each above-mentioned first Chute and the first gliding groove are engaged the first annular projection of slip;First buffer unit, which is equipped, keeps the first buffer part The first state of part rollover states keeps extension spring, and the first state keeps extension spring to have what is be connected with first buffer unit First extension spring upper end and the first extension spring lower end being connected with the first pedestal bottom, first buffer unit be provided with it is described Connecting portion on the first of first extension spring upper end connection, first pedestal are provided with first be connected with the first extension spring upper end Connecting portion;The line for defining first time connecting portion and the first rotating shaft center is the first line, in the first rotating shaft The line of connecting portion is the second line on the heart and described first, and the top extended line of first line is in second line Top extended line top, the folder between the top extended line of first line and the top extended line of second line Angle number is the half of the gap angle number of degrees on described first;
Second side buffer unit includes the second pedestal and carries out elasticity towards the battery second side on the second pedestal The second buffer unit supported;Second buffer unit includes horizontally arranged and parallel in the second of the battery second side Cylindrical portion, be formed in the second cylindrical portion and along the second cylindrical portion extension and second support of the support below the electrokinetic cell Portion, and be formed in the second cylindrical portion and supported along the extension of the second cylindrical portion and relative with the battery second side second Portion;On the cross section of second buffer unit, the central angle number of degrees corresponding to second cylindrical portion are more than described second The central angle number of degrees corresponding to supporting part and the second top;Second pedestal formed with towards the battery second side simultaneously The second storage tank of second cylindrical portion is housed, second storage tank has medial surface on be in upside second, is in Second time medial surface of downside and in bottom land second groove bottom parallel with the battery second side;In on described second Side is equal with the diameter of second cylindrical portion to the distance between second time medial surface;Second cylindrical portion arranges Have the second rotating shaft, the axis of second rotating shaft be in second storage tank upper edge and lower edge institute planar, institute Stating the second cylindrical portion has prominent curved portions on protrude from the outside of the second storage tank top edge second and protrudes from described Second time prominent curved portions on the outside of second storage tank lower edge;Second rotating shaft and second groove bottom are set by level The the second connecting rod connection put, second connecting rod are articulated and can spun upside down with second groove bottom;Institute State the second top have the corresponding battery second side the second support surface and the corresponding second storage tank top edge and Lower end and the second upper limit plane that prominent curved portions are connected on described second, second upper limit plane are accommodating with described second There is gap angle on second, second support surface is resisted against in the battery second side provided with elasticity between groove top edge And gradual thickening the second elastic layer from the bottom to top;Second elastic layer only be connected with second support surface, and with it is described Second supporting part sliding contact;Second elastic layer has the second elastic connecting contacting surface towards the battery second side, institute Stating the second Elastic Contact face includes in the bottom second vertical contact surface parallel with the battery second side and smoothly connects It is connected to above the second lower contact surface and from the bottom to top gradually towards the second arc contact surface of the second pedestal direction bending, institute State the second elastic connecting contacting surface and be covered with the second resin smooth layer;Second supporting part have the corresponding battery downside and with The second support face, the second lower surface directed downwardly and corresponding second storage tank that second support surface lower end is connected are following The second lower limit plane that edge and upper end are connected with described second time prominent curved portions, the second lower limit plane and described second There is second time gap angle between storage tank lower edge;Second cylindrical portion formed with house second rotating shaft second Bar hole, the second bar shaped hole horizontal are set, and second bar hole has towards the second remote of the battery second side Shaft end and the second proximal ends towards second storage tank, second proximal ends are the side face phase with second rotating shaft The circular arc and the axis of the second proximal ends matched somebody with somebody are identical with the axis of the second cylindrical portion, the institute at the second distal shaft end to circular arc The distance for stating the second proximal ends axis is more than the second distal shaft end to the distance of second shaft axis, second rotating shaft Opened between the second distal shaft end and be provided with the second buffering stage clip;Medial surface connects formed with multiple with described second on described second The second parallel upper hopper chute of extension bar, second time medial surface is formed with multiple parallel with second connecting rod second Gliding groove, the side face of second cylindrical portion formed with it is multiple with the axis perpendicular of the second cylindrical portion and with each above-mentioned second Chute and the second gliding groove are engaged the second annular protrusion of slip;Second buffer unit, which is equipped, keeps the second buffer part Second state of part rollover states keeps extension spring, and second state keeps extension spring to have what is be connected with second buffer unit Second extension spring upper end and the second extension spring lower end being connected with the second pedestal bottom, second buffer unit be provided with it is described Connecting portion on the second of second extension spring upper end connection, second pedestal are provided with second be connected with the second extension spring upper end Connecting portion;The line for defining second time connecting portion and second spindle central is the 3rd line, in second rotating shaft The line of connecting portion is the 4th line on the heart and described second, and the top extended line of the 3rd line is in the 4th line Top extended line top, the angle degree between the top extended line of the 3rd line and the top extended line of the 4th line Number is the half of the gap angle number of degrees on described second;
The 3rd side buffer unit includes the 3rd pedestal and carries out elasticity towards the side of battery the 3rd on the 3rd pedestal The 3rd buffer unit supported;3rd buffer unit includes horizontally arranged and parallel in the 3rd of the side of battery the 3rd Post portion, be formed in the 3rd cylindrical portion and along the 3rd cylindrical portion extension and threeth support of the support below the electrokinetic cell Portion, and be formed in the 3rd cylindrical portion and supported along the extension of the 3rd cylindrical portion and the relative with the side of battery the 3rd the 3rd Portion;On the cross section of the 3rd buffer unit, the central angle number of degrees corresponding to the 3rd cylindrical portion are more than the described 3rd The central angle number of degrees corresponding to supporting part and the 3rd top;3rd pedestal formed with towards the side of battery the 3rd simultaneously The 3rd storage tank of the 3rd cylindrical portion is housed, the 3rd storage tank has medial surface on the be in upside the 3rd, is in Three times medial surfaces of downside and in bottom land threeth groove bottom parallel with the side of battery the 3rd;In on described 3rd Side is equal with the diameter of the 3rd cylindrical portion to the distance between the three times medial surfaces;3rd cylindrical portion arranges Have the 3rd rotating shaft, the axis of the 3rd rotating shaft be in the 3rd storage tank upper edge and lower edge institute planar, institute Stating the 3rd cylindrical portion has prominent curved portions on the protrude from the outside of the 3rd storage tank top edge the 3rd and protrudes from described The three times prominent curved portions on the outside of 3rd storage tank lower edge;3rd rotating shaft and the 3rd groove bottom are set by level The 3rd connecting rod connection put, the 3rd connecting rod are articulated and can spun upside down with the 3rd groove bottom;Institute State the 3rd top have the corresponding side of battery the 3rd the 3rd support surface and the corresponding 3rd storage tank top edge and Lower end and the 3rd upper limit plane that prominent curved portions are connected on the described 3rd, the 3rd upper limit plane are accommodating with the described 3rd There is gap angle on the 3rd, the 3rd support surface is resisted against on the side of battery the 3rd provided with elasticity between groove top edge And gradual thickening the 3rd elastic layer from the bottom to top;3rd elastic layer only be connected with the 3rd support surface, and with it is described 3rd supporting part sliding contact;3rd elastic layer has the 3rd elastic connecting contacting surface towards the side of battery the 3rd, institute Stating the 3rd Elastic Contact face includes in the bottom threeth vertical contact surface parallel with the side of battery the 3rd and smoothly connects It is connected to above the 3rd lower contact surface and from the bottom to top gradually towards the 3rd arc contact surface of the 3rd pedestal direction bending, institute State the 3rd elastic connecting contacting surface and be covered with the 3rd resin smooth layer;3rd supporting part have the corresponding battery downside and with The 3rd support face, the 3rd lower surface directed downwardly and corresponding 3rd storage tank that the 3rd support surface lower end is connected are following The 3rd lower limit plane that edge and upper end are connected with described the three times prominent curved portions, the 3rd lower limit plane and the described 3rd There are the three times gap angles between storage tank lower edge;3rd cylindrical portion formed with house the 3rd rotating shaft the 3rd Bar hole, the Article 3 shape hole horizontal are set, and the Article 3 shape hole has towards the 3rd remote of the side of battery the 3rd Shaft end and the 3rd proximal ends towards the 3rd storage tank, the 3rd proximal ends are the side face phase with the 3rd rotating shaft The circular arc and the axis of the 3rd proximal ends matched somebody with somebody are identical with the axis of the 3rd cylindrical portion, the institute at the 3rd distal shaft end to circular arc The distance for stating the 3rd proximal ends axis is more than the 3rd distal shaft end to the distance of the 3rd shaft axis, the 3rd rotating shaft Opened between the 3rd distal shaft end and be provided with the 3rd buffering stage clip;Medial surface connects formed with multiple with the described 3rd on described 3rd The 3rd parallel upper hopper chute of extension bar, the three times medial surfaces are formed with multiple parallel with the 3rd connecting rod three Gliding groove, the side face of the 3rd cylindrical portion formed with it is multiple with the axis perpendicular of the 3rd cylindrical portion and with each above-mentioned 3rd Chute and the 3rd gliding groove are engaged the 3rd annular protrusion of slip;3rd buffer unit, which is equipped, keeps the 3rd buffer part The third state of part rollover states keeps extension spring, and the third state keeps extension spring to have what is be connected with the 3rd buffer unit 3rd extension spring upper end and the 3rd extension spring lower end being connected with the 3rd pedestal bottom, the 3rd buffer unit be provided with it is described Connecting portion on the 3rd of 3rd extension spring upper end connection, the 3rd pedestal are provided with the 3rd be connected with the 3rd extension spring upper end Connecting portion;The line for defining the three times connecting portions and the 3rd spindle central is the 5th line, in the 3rd rotating shaft The line of connecting portion is the 6th line on the heart and the described 3rd, and the top extended line of the 5th line is in the 6th line Top extended line top, the angle degree between the top extended line of the 5th line and the top extended line of the 6th line Number is the half of the gap angle number of degrees on the described 3rd;
The 4th side buffer unit includes the 4th pedestal and carries out elasticity towards the side of battery the 4th on the 4th pedestal The 4th buffer unit supported;4th buffer unit includes horizontally arranged and parallel in the 4th of the side of battery the 4th Post portion, be formed in the 4th cylindrical portion and along the 4th cylindrical portion extension and fourth support of the support below the electrokinetic cell Portion, and be formed in the 4th cylindrical portion and supported along the extension of the 4th cylindrical portion and the relative with the side of battery the 4th the 4th Portion;On the cross section of the 4th buffer unit, the central angle number of degrees corresponding to the 4th cylindrical portion are more than the described 4th The central angle number of degrees corresponding to supporting part and the 4th top;4th pedestal formed with towards the side of battery the 4th simultaneously The 4th storage tank of the 4th cylindrical portion is housed, the 4th storage tank has medial surface on the be in upside the 4th, is in Four times medial surfaces of downside and in bottom land fourth groove bottom parallel with the side of battery the 4th;In on described 4th Side is equal with the diameter of the 4th cylindrical portion to the distance between the four times medial surfaces;4th cylindrical portion arranges Have the 4th rotating shaft, the axis of the 4th rotating shaft be in the 4th storage tank upper edge and lower edge institute planar, institute Stating the 4th cylindrical portion has prominent curved portions on the protrude from the outside of the 4th storage tank top edge the 4th and protrudes from described The four times prominent curved portions on the outside of 4th storage tank lower edge;4th rotating shaft and the 4th groove bottom are set by level The 4th connecting rod connection put, the 4th connecting rod are articulated and can spun upside down with the 4th groove bottom;Institute State the 4th top have the corresponding side of battery the 4th the 4th support surface and the corresponding 4th storage tank top edge and Lower end and the 4th upper limit plane that prominent curved portions are connected on the described 4th, the 4th upper limit plane are accommodating with the described 4th There is gap angle on the 4th, the 4th support surface is resisted against on the side of battery the 4th provided with elasticity between groove top edge And gradual thickening the 4th elastic layer from the bottom to top;4th elastic layer only be connected with the 4th support surface, and with it is described 4th supporting part sliding contact;4th elastic layer has the 4th elastic connecting contacting surface towards the side of battery the 4th, institute Stating the 4th Elastic Contact face includes in the bottom fourth vertical contact surface parallel with the side of battery the 4th and smoothly connects It is connected to above the 4th lower contact surface and from the bottom to top gradually towards the 4th arc contact surface of the 4th pedestal direction bending, institute State the 4th elastic connecting contacting surface and be covered with the 4th resin smooth layer;4th supporting part have the corresponding battery downside and with The 4th support face, the 4th lower surface directed downwardly and corresponding 4th storage tank that the 4th support surface lower end is connected are following The 4th lower limit plane that edge and upper end are connected with described the four times prominent curved portions, the 4th lower limit plane and the described 4th There are the four times gap angles between storage tank lower edge;4th cylindrical portion formed with house the 4th rotating shaft the 4th Bar hole, the Article 4 shape hole horizontal are set, and the Article 4 shape hole has towards the 4th remote of the side of battery the 4th Shaft end and the 4th proximal ends towards the 4th storage tank, the 4th proximal ends are the side face phase with the 4th rotating shaft The circular arc and the axis of the 4th proximal ends matched somebody with somebody are identical with the axis of the 4th cylindrical portion, the institute at the 4th distal shaft end to circular arc The distance for stating the 4th proximal ends axis is more than the 4th distal shaft end to the distance of the 4th shaft axis, the 4th rotating shaft Opened between the 4th distal shaft end and be provided with the 4th buffering stage clip;Medial surface connects formed with multiple with the described 4th on described 4th The 4th parallel upper hopper chute of extension bar, the four times medial surfaces are formed with multiple parallel with the 4th connecting rod four Gliding groove, the side face of the 4th cylindrical portion formed with it is multiple with the axis perpendicular of the 4th cylindrical portion and with each above-mentioned 4th The fourth annular that chute and the 4th gliding groove are engaged slip is raised;4th buffer unit, which is equipped, keeps the 4th buffer part 4th state of part rollover states keeps extension spring, and the 4th state keeps extension spring to have what is be connected with the 4th buffer unit 4th extension spring upper end and the 4th extension spring lower end being connected with the 4th pedestal bottom, the 4th buffer unit be provided with it is described Connecting portion on the 4th of 4th extension spring upper end connection, the 4th pedestal are provided with the 4th be connected with the 4th extension spring upper end Connecting portion;The line for defining the four times connecting portions and the 4th spindle central is the 7th line, in the 4th rotating shaft The line of connecting portion is the 8th line on the heart and the described 4th, and the top extended line of the 7th line is in the 8th line Top extended line top, the angle degree between the top extended line of the 7th line and the top extended line of the 8th line Number is the half of the gap angle number of degrees on the described 4th;
The first support face has the first support face edge below the electrokinetic cell, and the second support face has The second support face edge below the electrokinetic cell, the 3rd support face have below the electrokinetic cell 3rd support face edge, the 4th support face have the 4th support face edge below the electrokinetic cell;The electricity It is sliding into first storage tank that pond first side to the distance at the first support face edge is more than first buffer unit Dynamic ultimate range, the distance of the battery second side to the second support face edge be more than second buffer unit to The ultimate range slided in second storage tank, the distance at the side of battery the 3rd to the 3rd support face edge are more than The ultimate range that 3rd buffer unit slides into the 3rd storage tank, the side of battery the 4th to the described 4th are held The distance at support edge is more than the ultimate range that the 4th buffer unit slides into the 4th storage tank;
The loading lid includes cap body, and the top of the electrokinetic cell is carried out elastic to push pushing of supporting and support Device;The cap body has and the pivot joint that can be spun upside down of being articulated at the top of the buffer unit of first side End, and the buckle end with being fastened togather at the top of the 3rd side buffer unit;The lower surface of the cap body formed with It is accommodating described to push the low groove for supporting device, it is described push to support device and include being placed in pushing in the low groove support Block and multidirectional buffer unit;The low groove is in rectangular-shape, have in top recessed groove bottom wall and respectively with it is described Battery first face, battery second side, parallel the first recessed groove sidewall in the side of battery the 3rd and the side of battery the 4th, Two recessed groove sidewalls, the 3rd recessed groove sidewall and the 4th recessed groove sidewall;It is described to push that to support block be in rectangular-shape, and with it is described There is gap between the madial wall of low groove;It is described push to support block and have corresponding with the recessed groove bottom wall support block top Wall, block bottom wall is supported towards the electrokinetic cell, and correspond to the described first recessed groove sidewall, the second low groove respectively successively Side wall, the first of the 3rd recessed groove sidewall and the 4th recessed groove sidewall support block side wall, second support block side wall, the 3rd support block Side wall and the 4th supports block side wall;The multidirectional buffer unit is included between being located at the recessed groove bottom wall and supporting block roof Compression spring, be located at the described first recessed groove sidewall and first and support the first side pressure spring between block side wall, be located at described Second recessed groove sidewall and second supports the second side pressure spring between block side wall, is located at the 3rd recessed groove sidewall and the 3rd The 3rd side pressure spring between block side wall is supported, and is located at the 4th recessed groove sidewall and the 4th and supports between block side wall Four side pressure springs;It is described to support support positioning convex of the block bottom wall formed with downwardly projecting positive tetrapyamid shape, the electrokinetic cell Formed with the accommodating detent of supporting for supporting positioning convex of matching, and the height for supporting positioning convex is more than described Support the depth of detent;
The loading attachment also include in first side buffer unit, the second side buffer unit, the 3rd side buffer unit and First lower surface, the second lower surface, the 3rd lower surface and the 4th lower surface are supported below 4th side buffer unit Support device.
A kind of 2. low-carbon power source dismounting-mounting type battery truck according to claim 1, it is characterised in that:It is divided into including two The head rod at the first rotating shaft both ends, two second connecting rods for being divided into the second rotating shaft both ends, Two the 3rd connecting rods for being divided into the 3rd rotating shaft both ends, two be divided into the 4th rotating shaft both ends described Four connecting rods.
A kind of 3. low-carbon power source dismounting-mounting type battery truck according to claim 2, it is characterised in that:First groove bottom Provided with the first articulated section being pivotally connected with the head rod;Second groove bottom is provided with and second connecting rod pivot joint Second articulated section;3rd groove bottom is provided with the 3rd articulated section with the 3rd connecting rod pivot joint;4th groove bottom Provided with the 4th articulated section being pivotally connected with the 4th connecting rod.
A kind of 4. low-carbon power source dismounting-mounting type battery truck according to claim 3, it is characterised in that:Including multiple along described Evenly distributed the first buffering stage clip of first rotating shaft, multiple second bufferings evenly distributed along second rotating shaft are pressed Spring, multiple threeth buffering stage clips evenly distributed along the 3rd rotating shaft are multiple evenly distributed along the 4th rotating shaft The 4th buffering stage clip.
A kind of 5. low-carbon power source dismounting-mounting type battery truck according to claim 4, it is characterised in that:Including multiple balanced branch Support in the recessed groove bottom wall and support the compression spring between block roof, multiple uniform supports in the described first recessed groove sidewall and First supports the first side pressure spring between block side wall, and multiple uniform supports support block side in the described second recessed groove sidewall and second The second side pressure spring between wall, multiple uniform supports between the 3rd recessed groove sidewall and the 3rd support block side wall the 3rd Side pressure spring, and multiple uniform supports support the 4th side pressure spring between block side wall in the 4th recessed groove sidewall and the 4th.
CN201710649803.3A 2017-08-02 2017-08-02 A kind of low-carbon power source dismounting-mounting type battery truck Pending CN107379951A (en)

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Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201710649803.3A CN107379951A (en) 2017-08-02 2017-08-02 A kind of low-carbon power source dismounting-mounting type battery truck

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20080231461A1 (en) * 2007-03-20 2008-09-25 Julian Sanchez Method and system for maintaining operator alertness
CN105633320A (en) * 2016-03-12 2016-06-01 刘志运 Battery pack for new energy automobile
US20160268561A1 (en) * 2015-03-09 2016-09-15 Michael P. Held Method for increasing travel time for open-air carts without requiring battery charging
CN106328849A (en) * 2016-10-14 2017-01-11 无锡市海升电子科技有限公司 Motorcycle storage battery convenientto be stabilized
CN106803559A (en) * 2017-02-22 2017-06-06 苏州祥弘源电子科技有限公司 A kind of intelligent protecting method of automotive battery

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20080231461A1 (en) * 2007-03-20 2008-09-25 Julian Sanchez Method and system for maintaining operator alertness
US20160268561A1 (en) * 2015-03-09 2016-09-15 Michael P. Held Method for increasing travel time for open-air carts without requiring battery charging
CN105633320A (en) * 2016-03-12 2016-06-01 刘志运 Battery pack for new energy automobile
CN106328849A (en) * 2016-10-14 2017-01-11 无锡市海升电子科技有限公司 Motorcycle storage battery convenientto be stabilized
CN106803559A (en) * 2017-02-22 2017-06-06 苏州祥弘源电子科技有限公司 A kind of intelligent protecting method of automotive battery

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