CN107934825A - A kind of device safeguarded easy to big weight battery case with installing - Google Patents

Abstract

The invention discloses a kind of device safeguarded and installed easy to big weight battery case, including the battery case supporting rack for placing battery case；The battery case supporting rack includes stand and the stand is separated into the transverse slat of multiple battery case parking spaces；Described device, which further includes, is arranged on the battery case supporting rack side, and the jacking system of hoisting operation is carried out to battery case；The jacking system includes being used to carry the lifting platform component of battery case and at least one first guide rail；The lifting platform component can be transported to the different height in the stand along the axial movement of first guide rail, and then by battery case.Battery case is put into battery case supporting rack by jacking system or is taken out from battery case supporting rack by the present invention, it is not necessary to manually carries, it is time saving and energy saving, and easy to the maintenance and installation of big weight battery case.

Description

A kind of device safeguarded easy to big weight battery case with installing

" technical field "

The present invention relates to battery energy storage technical field, and in particular to a kind of dress safeguarded easy to big weight battery case with installing Put.

" background technology "

In recent years, with the development of energy storage technology, the capacity of battery case is increasing, causes battery case increasingly heavier. , it is necessary to which more people assist to complete during big weight battery case as installation maintenance, the movement and maintenance of battery case are all pretty troublesome.

Installed and safeguarded that one side working strength and difficulty are too to big weight battery case by way of manually carrying Greatly, work efficiency is very low；On the other hand also it be easy to cause to artificial injury.

" content of the invention "

The purpose of the present invention aims to provide a kind of device safeguarded easy to big weight battery case with installing.

In order to achieve the object of the present invention, this invention takes following technical solution：

A kind of device safeguarded easy to big weight battery case with installing, including supported for the battery case of placing battery case Frame；The battery case supporting rack includes stand and the stand is separated into the transverse slat of multiple battery case parking spaces；It is described Device, which further includes, is arranged on the battery case supporting rack side, and the jacking system of hoisting operation is carried out to battery case；The lifting System includes being used to carry the lifting platform component of battery case and at least one first guide rail；The lifting platform component can be along The axial movement of first guide rail, and then battery case is transported to the different height in the stand.

Further, first guide rail is screw rod；The lifting platform component is provided with what is coordinated with first guide rail Internal thread through hole, and coordinated by the transmission of the internal thread through hole and first guide rail along first guide rail Axial movement.

Further, the lifting platform component includes lifting platform and at least one first sliding block；Set on the lifting platform It is equipped with least one rigging pilotage；First sliding block is provided with lifting platform pilot hole and internal thread through hole；Described first slides Block is flexibly connected with the rigging pilotage on the lifting platform respectively by lifting platform pilot hole；First sliding block is passed through by internal thread Through hole is driven with first guide rail respectively to be coordinated, along the axial movement of first guide rail.

As a kind of specific embodiment, the jacking system includes two the first guide rails；Described two first guide rail phases To being arranged on the battery case supporting rack side；The lifting platform component corresponds to first guide rail and is provided with internal thread perforation Hole, and coordinated by the transmission of the internal thread through hole and first guide rail, along the axial movement of first guide rail.

Further, the lifting platform component includes lifting platform and two the first sliding blocks；The lifting platform both ends are respectively set There is a rigging pilotage；First sliding block is provided with lifting platform pilot hole and internal thread through hole；Described two first sliding blocks It is flexibly connected by rigging pilotage of the lifting platform pilot hole respectively with the lifting platform both ends；Described two first sliding blocks pass through interior spiral shell Line through hole is driven with described two first guide rails respectively to be coordinated, respectively along the axial movement of described two first guide rails.

Further, the jacking system further includes at least one second guide rail；Second guide rail is polished rod；The liter Drop platform component is provided with the through hole coordinated with second guide rail, and is coordinated by the through hole and second guide rail, Along the axial movement of second guide rail.

Further, the lifting platform component includes lifting platform and at least one first sliding block, at least one second cunning Block；At least two rigging pilotages are provided with the lifting platform；First sliding block is provided with lifting platform pilot hole and internal thread Through hole；First sliding block is flexibly connected by lifting platform pilot hole with a rigging pilotage on the lifting platform；Described One sliding block is coordinated by internal thread through hole and first guide rail transmission, along the axial movement of first guide rail；It is described Lifting platform pilot hole and through hole are provided with second sliding block；Second sliding block passes through lifting platform pilot hole and the lifting Another rigging pilotage of platform is flexibly connected；Second sliding block is coordinated by through hole and second guide rail, along described the The axial movement of two guide rails.

As a kind of specific embodiment, the jacking system includes first guide rail and second guide rail；It is described First guide rail is oppositely arranged on the side of the battery case supporting rack with second guide rail；Described in the lifting platform component corresponds to First guide rail is provided with internal thread through hole, and is coordinated by the internal thread through hole and first guide rail transmission, along The axial movement of first guide rail；The lifting platform component corresponds to second guide rail and is provided with through hole, and by described The cooperation of through hole and second guide rail, along the axial movement of second guide rail.

Further, the lifting platform component includes lifting platform and first sliding block, second sliding block；The liter Drop platform both ends are respectively provided with a rigging pilotage；First sliding block is provided with lifting platform pilot hole and internal thread through hole；It is described First sliding block is flexibly connected by lifting platform pilot hole with the rigging pilotage of described lifting platform one end；First sliding block passes through interior spiral shell Line through hole coordinates with first guide rail transmission, along the axial movement of first guide rail；Set in second sliding block There are lifting platform pilot hole and through hole；Second sliding block passes through lifting platform pilot hole and the dress of the other end of the lifting platform Distribution is flexibly connected；Second sliding block is coordinated by through hole and second guide rail, along the axial direction of second guide rail It is mobile.

Further, the lifting platform can be disassembled from the lifting platform component, be placed on as top plate described On battery cupboard supporting rack.

Further, the jacking system further includes at least one drive component；The driving component can drive described Screw rod rotates, and then drives the lifting platform component to be moved axially along the screw rod.

Further, the driving component includes gear assembly and handle or motor；The handle or motor drive The dynamic gear assembly rotation；The gear assembly drives the screw rod rotation.

Further, the gear assembly includes the first gear and second gear of vertical-transmission connection；Second tooth Either motor is fixedly connected and can be rotated under the driving of the handle or motor wheel with the handle；The first gear It can be rotated under the driving of the second gear；The screw rod is fixedly connected with the first gear, can be described first Rotated under the driving of gear.

Further, the first gear and second gear are helical gear.

Further, the jacking system further includes at least one column for being provided with slideway；First guide rail and/or Second guide rail is arranged in the slideway of column；Axial movement of the lifting platform component along slideway.

Further, it is provided with roller on the lifting platform component；Roller row has equidistantly been provided with the transverse slat.

Further, the transverse slat designs for hollow out.

Beneficial effect of the present invention：

Battery case is put into battery case supporting rack by jacking system or is taken out from battery case supporting rack by the present invention, is not required to Manually to carry, it is time saving and energy saving, easy to the maintenance and installation of big weight battery case.At the same time, the lifting platform in jacking system It can be disassembled from the jacking system, be arranged on as top plate on battery case supporting rack, reasonably save the present invention Device the space occupied.On the other hand, lifting platform is arranged with roller, the roller set on battery case supporting rack, reduces battery case The frictional force being subject in moving process, easy to the movement of big weight electronic box case.

" brief description of the drawings "

In order to illustrate the embodiments of the present invention more clearly, simple Jie is done to attached drawing needed in the embodiment below Continue.Drawings in the following description are only the embodiment in the present invention, for those of ordinary skill in the art, are not being paid On the premise of going out creative work, other accompanying drawings can also be obtained according to these attached drawings.

Fig. 1 is the use state reference chart of the embodiment of the present invention one；

Fig. 2 is another use state reference chart of this implementation new embodiment one

Fig. 3 is the stereogram of battery case supporting rack in the embodiment of the present invention one；

Fig. 4 is the stereogram of jacking system in the embodiment of the present invention one；

Fig. 5 is another stereogram of jacking system in the embodiment of the present invention one；

Fig. 6 is the partial enlarged view in A portions in Fig. 5；

Fig. 7 is the installation diagram of the first guide rail and drive component in the embodiment of the present invention one；

Fig. 8 is the partial enlarged view in B portions in Fig. 7；

Fig. 9 is the first guide rail in the embodiment of the present invention one, the installation diagram of the second guide rail and lifting platform component；

Figure 10 is the explosive view of lifting platform component in the embodiment of the present invention one；

Figure 11 is the enlarged drawing of the first sliding block in Figure 10；

Figure 12 is the enlarged drawing of the second sliding block in Figure 10；

Brief description of the drawings：1, battery case supporting rack；2, jacking system；11, stand；12, transverse slat；21, the first guide rail；22, the Two guide rails；23, lifting platform component；24, drive component；25, column；12a, roller row；25a, slideway；231, the first sliding block； 232, the second sliding block；233, lifting platform；241, gear assembly；242, handle；243, gear assembly shell；244, mounting pin； 231a, internal thread through hole；232a, through hole；231b, lifting platform pilot hole；232b, lifting platform pilot hole；233a, roller； 2411, first gear；2412, second gear.

" embodiment "

Below in conjunction with the accompanying drawings, the present invention will be described in detail.

In order to which the purpose of the present invention, technical solution, advantage is more clearly understood, with reference to the accompanying drawings and embodiments to this Invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, not For limiting the present invention.

Embodiment 1

Such as Fig. 1, shown in 2,3,4, a kind of safeguarded easy to big weight battery case includes being used for placing battery with the device installed The battery case supporting rack 1 and jacking system 2 of case 3.

Such as Fig. 1, shown in 2,3, battery case supporting rack 1 includes stand 11 and transverse slat 12.Stand 11 is separated into by transverse slat 12 Multiple battery case parking spaces.In the present embodiment, the quantity of stand 11 is 4, and the quantity of transverse slat 12 is 5, forms four Layer cube battery case parking space.In the present embodiment, stand 11 is inShape, can be integrally formed, and can also use two A strip is mutually connected vertically.Roller row 12a is equidistantly provided with transverse slat 12, so design can reduce battery case 3 in horizontal stroke The mobile frictional resistance being subject on plate 12, easy to promote battery case 3 on transverse slat 12.Transverse slat 12 is designed using hollow out, easy to logical Wind, can also mitigate the weight of described device.

Such as Fig. 4, shown in 5, jacking system 2 includes the first guide rail 21, the second guide rail 22, the lifting platform for carrying battery case Component 23 and drive component 24.Column 25 has two, is oppositely arranged on the both ends of lifting platform component 23.It is provided with column 25 Slideway 25a.First guide rail 21 and the second guide rail 22 are separately positioned in the slideway 25a of two columns 25.Lifting platform component 23 can With along the axial movement of 25 middle slideway 25a of column.In the present embodiment, the first guide rail 21 runs through the top and bottom of slideway 25a End is set.In others are embodiment, the top of the first guide rail 21 can mutually be contradicted with the blind hole on slideway 25a tops, bottom End sets (at this time, gear assembly 241 is arranged on the bottom of the first guide rail 21) or the first guide rail 21 through the bottom of slideway 25a Bottom can mutually be contradicted with the blind hole of slideway 25a bottoms, and top sets (at this time, gear assembly through the top of slideway 25a 241 are arranged on the top of the first guide rail 21).In the present embodiment, the second guide rail 22 runs through the top and bottom of corresponding slideway 25a Set.In other embodiments, the top of the second guide rail 22 can mutually contradict and/or second with the blind hole on slideway 25a tops The bottom of guide rail 22 can mutually be contradicted with the blind hole of slideway 25a bottoms.

Such as Fig. 1, shown in 2, in the present embodiment, two columns 25, two stands with 1 side of battery case supporting rack respectively 11 connections.

Such as Fig. 4, shown in 5,6, drive component 24 is arranged on the side where the first guide rail 21, including, gear assembly 241, Handle 242, gear assembly shell 243 and mounting pin 244.Gear assembly 241 includes being mutually perpendicular to the first tooth being sequentially connected Wheel 2411, second gear 2412.Second gear 2412 is fixedly connected with handle 242, can be rotated under the driving of handle 242； First gear 2411 can rotate under the driving of second gear 2412；First guide rail 21 is fixedly connected with first gear 2411, It can be rotated under the driving of first gear 2411.First guide rail 21, which can penetrate through, to be arranged in first gear 2411 or by Blind hole on one gear 2411 is caught in first gear 2411.Certainly, 2411 and first guide rail 21 of first gear can also use one It is body formed.Handle 242, which can penetrate through, to be arranged in second gear 2412 or is caught in second by the blind hole in second gear 2412 On gear 2412.Certainly, handle 242 can also be used with second gear 2412 and is integrally formed.

In other embodiments, motor driving second gear 2412 can also be used to rotate.

Such as Fig. 4, shown in 5,6,7,8, the first guide rail 21 is fixed through gear assembly shell 243 with first gear 2411 to be connected Connect.Handle 242 is fixedly connected through gear assembly shell 243 with second gear 2412.Mounting pin 244 runs through gear assembly shell 243 are set.

In the present embodiment, mounting pin 244 is caught in column 25 so that gear assembly shell 243 is fixedly connected with column 25, So that gear assembly 241,242 position of handle are stablized.

Such as Fig. 9, shown in 10,11,12, lifting platform component 23 includes the first sliding block 231, the second sliding block 232 and lifting platform 233.Lifting platform 233 is provided at both ends with rigging pilotage 233a.Lifting platform pilot hole 231a and interior is provided with first sliding block 231 Screw thread through hole 231b.Lifting platform pilot hole 232a and through hole 232b is provided with second sliding block 232.233 liang of lifting platform The rigging pilotage 233a at end is respectively clamped into the lifting platform on the lifting platform pilot hole 231a on the first sliding block 231 and the second sliding block 232 Pilot hole 232a.At this time, lifting platform 233 is flexibly connected with the first sliding block 231, the second sliding block 232.First sliding block 231 is by interior Screw thread through hole 231b, which runs through, to be arranged on the first guide rail 21, and passes through the cooperation of internal thread through hole 231b and the first guide rail 21 Moved axially along the first guide rail 21, and then drive lifting platform 233 to be moved axially along the first guide rail 21.Second sliding block 232 is logical Through hole 232b is crossed through being arranged on the second guide rail 22, under the action of lifting platform 233, is moved along the axial direction of the second guide rail 22 It is dynamic.

Swinging handle 242, the principle that lifting platform 233 is moved axially along the first guide rail 21, the second guide rail 22 are as follows：Second Gear 2412 is in parallel in the plane of the first guide rail 21；First gear 2411 is fixedly connected with the first guide rail 21, positioned at vertical Directly in the plane of the first guide rail 21；Second gear 2412 is sequentially connected with first gear 24111；Handle 242 and second gear 2412 are fixedly connected, and second gear 2412 can be driven to rotate, and then drive first gear 2411 to rotate, and finally drive first to lead Rail 21 rotates；First guide rail 21 drives axial movement of first sliding block 231 along the first guide rail 21, and then drives lifting platform 233 Along the axial movement of the first guide rail 21, and then drive axial movement of second sliding block 232 along the second guide rail 22.Due to screw thread Internal thread through hole 231b coordinates in mechanism self-lock mechanism, the first guide rail 21 and the first sliding block 231 so that lifting platform 233 can be with The arbitrary height of the first guide rail 21 is fixed on, and then battery case 3 can be put into battery case by adjustable for height lifting platform 233 The battery case assembly space of different height in supporting rack 1.

In the present embodiment, first gear 2421 and second gear 2422 are helical gear.

In the present embodiment, the gear quantity in gear assembly 24 is 2, in other examples, gear assembly 241 In gear quantity can be other numerical value.

Such as Fig. 2, shown in 10, in the present embodiment, lifting platform 233 can be torn open from the first sliding block 231, the second sliding block 232 Unload down, the top of battery case supporting rack 1 is arranged on as top plate.When needing to carry out hoisting operation to battery case 3, will lift Platform 233 is taken off from the top of battery case supporting rack 1, is assembled in the first sliding block 231 and the second sliding block 232.

Embodiment 2

The difference between this embodiment and the first embodiment lies in：Jacking system includes two the first guide rails and two driving groups Part.Two the first guide rails are separately mounted to the both ends of lifting platform.Two drive components drive two the first guide rail rotations respectively, into And drive the arbitrary height that moves axially to first guide rail of the lifting platform along the first guide rail, and then battery case pass through it is highly adjustable Lifting platform, the battery case assembly space of different height in battery case supporting rack can be put into.

Embodiment 3

The difference between this embodiment and the first embodiment lies in：Jacking system includes two the first guide rails and a driving group Part.Two the first guide rails are separately mounted to the both ends of lifting platform.One drive component drives one in two the first guide rails respectively A first guide rail rotation, and then drive any height that moves axially to first guide rail of the lifting platform along first guide rail Degree, and then battery case can be put into the battery case assembling of different height in battery case supporting rack by adjustable for height lifting platform Space.

Embodiment 4

The difference between this embodiment and the first embodiment lies in：Lifting platform component only includes lifting platform.Lifting platform corresponds to first and leads One end of rail is provided with internal thread through hole, for coordinating with the first guide rail.One end that lifting platform corresponds to the second guide rail is provided with Through hole, for coordinating with the second guide rail.

Embodiment 5

The difference between this embodiment and the first embodiment lies in：The quantity of first guide rail is more than or equal to 2, can be arranged on same In the slideway of column, i.e., one end of lifting platform can set multiple first guide rails.The quantity of second guide rail can also be more than or equal to 2, it is arranged in the slideway of same column, i.e., one end of lifting platform can set multiple second guide rails.Correspondingly, drive component Can have multiple, drive the rotation of multiple first guide rails, can also there was only one, drive one of them first guide rail to rotate, into And drive other first guide rail rotations.

The above is only the preferred embodiment of the present invention, and protection scope of the present invention is not limited merely to above-mentioned implementation Example, all technical solutions belonged under thinking of the present invention belong to protection scope of the present invention.It should be pointed out that for the art Those of ordinary skill for, some improvements and modifications without departing from the principles of the present invention, these improvements and modifications It should be regarded as protection scope of the present invention.

Claims (17)

1. a kind of device safeguarded easy to big weight battery case with installing, including the battery case supporting rack for placing battery case； The battery case supporting rack includes stand and the stand is separated into the transverse slat of multiple battery case parking spaces；Its feature exists In：Further include and be arranged on the battery case supporting rack side, the jacking system of hoisting operation is carried out to battery case；The lifting system System includes being used to carry the lifting platform component of battery case and at least one first guide rail；The lifting platform component can be along institute The axial movement of the first guide rail is stated, and then battery case is transported to the different height in the stand.

2. device according to claim 1, it is characterised in that：First guide rail is screw rod；The lifting platform component is set The internal thread through hole coordinated with first guide rail is equipped with, and passes through the biography of the internal thread through hole and first guide rail The dynamic axial movement coordinated along first guide rail.

3. the apparatus of claim 2, it is characterised in that：The lifting platform component includes lifting platform and at least one First sliding block；At least one rigging pilotage is provided with the lifting platform；First sliding block be provided with lifting platform pilot hole and Internal thread through hole；First sliding block is flexibly connected with the rigging pilotage on the lifting platform respectively by lifting platform pilot hole； First sliding block is driven with first guide rail respectively by internal thread through hole to be coordinated, along the axial direction of first guide rail It is mobile.

4. the apparatus of claim 2, it is characterised in that：The jacking system includes two the first guide rails；Described two A first guide rail is oppositely arranged on the battery case supporting rack side；The lifting platform component corresponds to first guide rail and is provided with Internal thread through hole, and coordinated by the transmission of the internal thread through hole and first guide rail, along first guide rail Axial movement.

5. device according to claim 4, it is characterised in that：The lifting platform component includes lifting platform and two first Sliding block；The lifting platform both ends are respectively provided with a rigging pilotage；First sliding block is provided with lifting platform pilot hole and internal thread Through hole；Described two first sliding blocks are flexibly connected by rigging pilotage of the lifting platform pilot hole respectively with the lifting platform both ends； Described two first sliding blocks are driven with described two first guide rails respectively by internal thread through hole to be coordinated, respectively along described two The axial movement of a first guide rail.

6. the apparatus of claim 2, it is characterised in that：The jacking system further includes at least one second guide rail； Second guide rail is polished rod；The lifting platform component is provided with the through hole coordinated with second guide rail, and by described Through hole coordinates with second guide rail, along the axial movement of second guide rail.

7. device according to claim 6, it is characterised in that：The lifting platform component includes lifting platform and at least one First sliding block, at least one second sliding block；At least two rigging pilotages are provided with the lifting platform；First sliding block is provided with Lifting platform pilot hole and internal thread through hole；First sliding block passes through one on lifting platform pilot hole and the lifting platform Rigging pilotage is flexibly connected；First sliding block is coordinated by internal thread through hole and first guide rail transmission, along described the The axial movement of one guide rail；Lifting platform pilot hole and through hole are provided with second sliding block；Second sliding block passes through Lifting platform pilot hole is flexibly connected with another rigging pilotage of the lifting platform；Second sliding block passes through through hole and described the Two guide rails coordinate, along the axial movement of second guide rail.

8. device according to claim 6, it is characterised in that：The jacking system includes first guide rail and one the Two guide rails；First guide rail is oppositely arranged on the side of the battery case supporting rack with second guide rail；The lifting platform Component corresponds to first guide rail and is provided with internal thread through hole, and is passed by the internal thread through hole and first guide rail It is dynamic to coordinate, along the axial movement of first guide rail；The lifting platform component corresponds to second guide rail and is provided with through hole, And by the cooperation of the through hole and second guide rail, along the axial movement of second guide rail.

9. device according to claim 8, it is characterised in that：The lifting platform component includes lifting platform and one first Sliding block, second sliding block；The lifting platform both ends are respectively provided with a rigging pilotage；First sliding block is provided with lifting platform assembling Hole and internal thread through hole；First sliding block is connected by the rigging pilotage activity of lifting platform pilot hole and described lifting platform one end Connect；First sliding block is coordinated by internal thread through hole and first guide rail transmission, along the axial direction of first guide rail It is mobile；Lifting platform pilot hole and through hole are provided with second sliding block；Second sliding block passes through lifting platform pilot hole Rigging pilotage with the other end of the lifting platform is flexibly connected；Second sliding block is matched somebody with somebody by through hole and second guide rail Close, along the axial movement of second guide rail.

10. according to the device described in claim 3 or 5 or 7 or 9, it is characterised in that：The lifting platform can be from the lifting platform Disassemble in component, be placed on as top plate on the battery cupboard supporting rack.

11. according to the device described in claim 1-9 any one, it is characterised in that：The jacking system further includes at least one A drive component；The driving component can drive the screw rod to rotate, and then drive the lifting platform component along the spiral shell Bar moves axially.

12. according to the devices described in claim 11, it is characterised in that：The driving component include gear assembly and handle or Person's motor；The handle or motor drive the gear assembly rotation；The gear assembly drives the screw rod rotation.

13. device according to claim 12, it is characterised in that：The gear assembly includes the first of vertical-transmission connection Gear and second gear；Either be fixedly connected can be in the handle or motor for motor for the second gear and the handle Driving under rotate；The first gear can rotate under the driving of the second gear；The screw rod and first tooth Wheel is fixedly connected, and can be rotated under the driving of the first gear.

14. device according to claim 13, it is characterised in that：The first gear and second gear are helical teeth Wheel.

15. according to the device described in claim 1-9 any one, it is characterised in that：The jacking system further includes at least one A column for being provided with slideway；First guide rail and/or the second guide rail are arranged in the slideway of column；The lifting platform component Along the axial movement of slideway.

16. according to the device described in claim 1-9 any one, it is characterised in that：Rolling is provided with the lifting platform component Wheel；Roller row has equidistantly been provided with the transverse slat.

17. device according to claim 16, it is characterised in that：The transverse slat designs for hollow out.