阅读说明：本技术 一种新能源汽车用电池生产用组装系统 (Battery production is with equipment system for new energy automobile ) 是由 戴星宇 于 2020-12-09 设计创作，主要内容包括：本发明提供一种新能源汽车用电池生产用组装系统。所述新能源汽车用电池生产用组装系统,包括：定位辅助机构、夹持吊装机构和转运结构；其中,所述定位辅助机构包括底板,所述底板的顶部固定连接有定位框,所述定位框内壁的两侧均开设有两个第一滑槽。本发明提供一种新能源汽车用电池生产用组装系统,通过设置夹紧结构,主要对电池的竖直方向进行定位夹紧,在夹紧时能够实现对电池位置自动纠正,利用夹紧板、滚轮配合使用,能够使得电池在挤压时发生位置偏移,最终移动至两个夹紧板之间,进而完成了电池的有效定位以及位置纠正,在水平和竖直方向均保持稳定状态,不必人工手动对电池进行调整,使用时操作件简单、十分省力,减少了工作量。(The invention provides an assembling system for producing a battery for a new energy automobile. Battery production is with equipment system for new energy automobile includes: the device comprises a positioning auxiliary mechanism, a clamping and hoisting mechanism and a transferring structure; the positioning auxiliary mechanism comprises a bottom plate, a positioning frame is fixedly connected to the top of the bottom plate, and two first sliding grooves are formed in two sides of the inner wall of the positioning frame. The invention provides an assembling system for producing a battery for a new energy automobile, which is characterized in that a clamping structure is arranged to mainly position and clamp the battery in the vertical direction, the position of the battery can be automatically corrected during clamping, the battery can be subjected to position deviation during extrusion by utilizing the clamping plates and rollers to be matched for use, and finally the battery can be moved between the two clamping plates, so that the effective positioning and position correction of the battery are further completed, the battery is kept in a stable state in the horizontal and vertical directions, the battery is not required to be manually adjusted, an operating part is simple and labor-saving during use, and the workload is reduced.)

1. The utility model provides a battery production is with equipment system for new energy automobile which characterized in that includes:

the device comprises a positioning auxiliary mechanism, a clamping and hoisting mechanism and a transferring structure;

the positioning auxiliary mechanism comprises a bottom plate, a positioning frame is fixedly connected to the top of the bottom plate, two first sliding grooves are formed in two sides of the inner wall of the positioning frame, positioning structures are arranged on two sides of the positioning frame and comprise an electric telescopic rod and two first sliding rods, and a positioning plate is fixedly connected to one end of the electric telescopic rod and located on the inner side of the positioning frame;

the clamping structure is arranged inside the positioning plate and comprises a first rotating motor and a threaded rotating shaft, one end of an output shaft of the first rotating motor is fixedly connected with a driving gear, a driven gear is sleeved in the middle of the outer surface of the threaded rotating shaft, the outer part of the driven gear is meshed with the outer part of the driving gear, clamping plates are in threaded connection on two sides of the outer surface of the threaded rotating shaft, a roller is rotatably connected to one side of each clamping plate, and a protective pad is arranged on one side of each clamping plate;

the two first grooves are respectively arranged on two sides of the bottom plate, and a fixing structure is arranged inside each first groove and comprises a fixing clamping block and a connecting clamping block;

the clamping and hoisting mechanism comprises a base and a connecting column, a rotating groove is formed in the base, an adjusting structure is arranged on the base and comprises a rotating shaft, a second rotating rod, a first fixing plate and a second fixing plate, the bottom end of the rotating shaft is rotatably connected with the bottom of the inner surface of the rotating groove, the top end of the rotating shaft is fixedly connected with the bottom of the connecting column, second rotating gears are sleeved on the outer surfaces of the rotating shaft and the second rotating rod, the outer surfaces of the two second rotating gears are meshed with each other, a rectangular groove is formed in the second fixing plate, an adjusting rotating part is rotatably connected in the second fixing plate, a conical gear is fixedly connected with one end of the adjusting rotating part and the top end of the second rotating rod, and the two conical gears are arranged in the rectangular groove, the outer parts of the two conical gears are meshed with each other, the inner part of the second fixing plate is in threaded connection with a positioning bolt, and one sides of the first fixing plate and the second fixing plate are fixedly connected with a positioning pulley;

the lifting frame is arranged at the top of the connecting column, a lifting structure is arranged at the top of the lifting frame and comprises a supporting plate, buffer grooves are formed in two sides of the bottom of the base, a roller structure is arranged in each buffer groove and comprises a second fixing rod;

the transport structure includes the main part, the top of main part is rotated and is connected with and places the board, the both sides of main part all are provided with protective structure, protective structure includes the guard plate, two moving parts of one side fixedly connected with of guard plate, the spacing groove has been seted up to one side of moving part, the inside sliding connection of spacing groove has spacing axle, the one end of spacing axle with the inside fixed connection of main part, the surface of moving part has cup jointed third buffer spring, one side of guard plate is provided with the crash pad.

2. The assembly system for producing a new energy automobile battery according to claim 1, wherein two sides of the positioning plate are slidably connected to outer surfaces of two first slide bars, two ends of each first slide bar are fixedly connected to two sides of an inner surface of the first sliding groove, a first cushion pad is disposed on one side of the positioning plate, two first moving grooves are formed in one side of the positioning plate, two ends of the threaded rotating shaft are rotatably connected to one side of an inner surface of each first moving groove, fixing frames are fixedly connected to two sides of the electric telescopic rod, the other side of each fixing frame is fixedly connected to one side of the positioning frame, a first device groove is formed in the positioning plate, and the first rotating motor is disposed inside the first device groove.

3. The assembling system for producing the battery for the new energy automobile as recited in claim 1, wherein a first connecting rod is fixedly connected to one side of the fixed clamping block, a pressing member is fixedly connected to one end of the first connecting rod, a first elastic member is sleeved on one side of the outer surface of the first connecting rod, a telescopic rod is fixedly connected to the bottom of the connected clamping block, a mounting stud is sleeved on the outside of the telescopic rod, and a first buffer spring is sleeved on the top of the mounting stud and the outer surface of the telescopic rod.

4. The assembly system for producing the new energy automobile battery, according to claim 3, wherein the outside of the connecting clamping block is clamped to the outside of the fixing clamping block, a first positioning rod is fixedly connected to one side of the fixing clamping block, the outside of the first positioning rod is slidably connected to the inside of the first groove, first movable grooves are formed in both sides of the bottom plate, the outside of the pressing piece is slidably connected to the inside of the first movable grooves, one end of the electric telescopic rod penetrates through one side of the outside of the positioning frame and extends into the inside of the positioning frame, and a control panel is arranged on the outside of the positioning frame.

5. The assembling system for producing the battery for the new energy automobile as recited in claim 1, wherein a bottom of the supporting plate is fixedly connected with a top of the lifting frame, a second moving groove is formed in the bottom of the supporting plate, two sides of an inner surface of the second moving groove are both communicated with second sliding grooves, a second rotating motor is arranged on the left side of the inside of the supporting plate, two sides of the inside of the supporting plate are both rotatably connected with a driving wheel, one end of an output shaft of the rotating motor and one side of the driving wheel are both fixedly connected with a transmission gear, and the outsides of the two transmission gears are meshed with each other.

6. The assembling system for producing the battery for the new energy automobile as claimed in claim 1, wherein outer surfaces of the two driving wheels are in transmission connection through a transmission belt, a second moving block is sleeved outside the transmission belt, second pulleys are fixedly connected to two sides of the second moving block, a clamping arm is fixedly connected to the bottom of the second moving block, a second electric telescopic rod is arranged inside the connecting column, the top end of the second electric telescopic rod is fixedly connected to the middle of the bottom of the connecting column, second limiting rods are fixedly connected to two sides of the bottom of the lifting frame, and the outside of each second limiting rod is in sliding connection with the inside of the connecting column.

7. The assembly system for producing batteries for new energy vehicles according to claim 1, wherein a universal wheel is sleeved on an outer surface of the second fixing rod, second limiting pulleys are fixedly connected to both sides of the universal wheel, second limiting sliding grooves are communicated with both sides of an inner surface of the buffer groove, an outer portion of each second limiting pulley is in rolling connection with an inner portion of each second limiting sliding groove, a second buffer spring is sleeved on an outer surface of the second fixing rod and positioned at the top of the universal wheel, and a second buffer pad is fixedly connected to the top of each universal wheel and the top of the inner surface of the buffer groove.

8. The assembly system for producing a battery for a new energy automobile as defined in claim 1, wherein top and bottom ends of the second fixing rod are respectively and fixedly connected to top and bottom of the inner surface of the buffer groove, a slide rail is disposed on the outer surface of the connecting column, an outer portion of the positioning pulley is connected to an inner portion of the slide rail in a rolling manner, bottoms of the first fixing plate and the second fixing plate are respectively and fixedly connected to left and right sides of the top of the base, and a bottom end of the second rotating rod is rotatably connected to a bottom of the inner surface of the rotating groove.

9. The assembly system for producing a battery for a new energy automobile according to claim 1, wherein a top end of the second rotating rod penetrates through an inside of the base and extends to an inside of the second fixing plate, and a bottom end of the positioning bolt is attached to an outer surface of the adjusting rotating member.

10. The assembling system for producing the battery for the new energy automobile according to claim 1, wherein a placing groove is formed in a top portion of the placing plate, a third electric telescopic rod is arranged inside the placing plate, and a fixed clamping plate is fixedly connected to one end of the third electric telescopic rod.

Technical Field

The invention relates to the field of new energy automobiles, in particular to an assembling system for producing a battery for a new energy automobile.

Background

The new energy automobile adopts unconventional automobile fuel as a power source (or adopts conventional automobile fuel and a novel vehicle-mounted power device), integrates advanced technologies in the aspects of power control and driving of the automobile, forms an automobile with advanced technical principle, new technology and new structure, comprises four types of Hybrid Electric Vehicles (HEV), pure electric vehicles (BEV, including solar energy automobiles), Fuel Cell Electric Vehicles (FCEV), other new energy (such as efficient energy storage devices such as super capacitors and flywheels) automobiles and the like, and the unconventional automobile fuel refers to fuel except gasoline, diesel oil, Natural Gas (NG), Liquefied Petroleum Gas (LPG), Ethanol Gasoline (EG), methanol and dimethyl ether.

At present, a pure electric vehicle or a hybrid electric vehicle is internally provided with a new energy battery for driving, however, in the production process of the new energy battery, the new energy battery is generally processed and produced through a special assembly system, the assembly system can be divided into a clamping and hoisting mechanism, a positioning auxiliary mechanism, a transfer structure and the like, wherein the existing positioning auxiliary mechanism generally clamps the battery through two positioning plates directly, when the placing position of the battery is not uniform, manual adjustment is needed, time and labor are wasted due to heavy battery quality, the workload is increased, the positioning auxiliary mechanism is inconvenient to use, the clamping and hoisting mechanism is mostly directly and fixedly arranged on a station, so that the battery can only be operated in the station range during use, the use range is small, and the flexibility is not high enough, meanwhile, the clamping and conveying device only has the clamping and conveying functions, and the functions are relatively single, so that the processing requirements cannot be well met.

Therefore, it is necessary to provide an assembly system for producing a battery for a new energy vehicle to solve the above technical problems.

Disclosure of Invention

The invention provides an assembling system for producing a battery for a new energy automobile, which solves the problems that the existing positioning auxiliary mechanism for assembling the battery of the new energy automobile needs to manually adjust the position of the battery, so that time and labor are wasted, the workload is increased, and the use is inconvenient.

In order to solve the above technical problem, the present invention provides an assembly system for producing a battery for a new energy vehicle, including:

the device comprises a positioning auxiliary mechanism, a clamping and hoisting mechanism and a transferring structure;

the positioning auxiliary mechanism comprises a bottom plate, a positioning frame is fixedly connected to the top of the bottom plate, two first sliding grooves are formed in two sides of the inner wall of the positioning frame, positioning structures are arranged on two sides of the positioning frame and comprise an electric telescopic rod and two first sliding rods, and a positioning plate is fixedly connected to one end of the electric telescopic rod and located on the inner side of the positioning frame;

the clamping structure is arranged inside the positioning plate and comprises a first rotating motor and a threaded rotating shaft, one end of an output shaft of the first rotating motor is fixedly connected with a driving gear, a driven gear is sleeved in the middle of the outer surface of the threaded rotating shaft, the outer part of the driven gear is meshed with the outer part of the driving gear, clamping plates are in threaded connection on two sides of the outer surface of the threaded rotating shaft, a roller is rotatably connected to one side of each clamping plate, and a protective pad is arranged on one side of each clamping plate;

the two first grooves are respectively arranged on two sides of the bottom plate, and a fixing structure is arranged inside each first groove and comprises a fixing clamping block and a connecting clamping block;

the clamping and hoisting mechanism comprises a base and a connecting column, a rotating groove is formed in the base, an adjusting structure is arranged on the base and comprises a rotating shaft, a second rotating rod, a first fixing plate and a second fixing plate, the bottom end of the rotating shaft is rotatably connected with the bottom of the inner surface of the rotating groove, the top end of the rotating shaft is fixedly connected with the bottom of the connecting column, second rotating gears are sleeved on the outer surfaces of the rotating shaft and the second rotating rod, the outer surfaces of the two second rotating gears are meshed with each other, a rectangular groove is formed in the second fixing plate, an adjusting rotating part is rotatably connected in the second fixing plate, a conical gear is fixedly connected with one end of the adjusting rotating part and the top end of the second rotating rod, and the two conical gears are arranged in the rectangular groove, the outer parts of the two conical gears are meshed with each other, the inner part of the second fixing plate is in threaded connection with a positioning bolt, and one sides of the first fixing plate and the second fixing plate are fixedly connected with a positioning pulley;

the lifting frame is arranged at the top of the connecting column, a lifting structure is arranged at the top of the lifting frame and comprises a supporting plate, buffer grooves are formed in two sides of the bottom of the base, a roller structure is arranged in each buffer groove and comprises a second fixing rod;

the transport structure includes the main part, the top of main part is rotated and is connected with and places the board, the both sides of main part all are provided with protective structure, protective structure includes the guard plate, two moving parts of one side fixedly connected with of guard plate, the spacing groove has been seted up to one side of moving part, the inside sliding connection of spacing groove has spacing axle, the one end of spacing axle with the inside fixed connection of main part, the surface of moving part has cup jointed third buffer spring, one side of guard plate is provided with the crash pad.

Preferably, the two sides of the positioning plate are respectively connected with the outer surface of the first sliding rod in a sliding manner, the two ends of the first sliding rod are respectively fixedly connected with the two sides of the inner surface of the first sliding groove, a first cushion pad is arranged on one side of the positioning plate, two first moving grooves are formed in one side of the positioning plate, the two ends of the threaded rotating shaft are respectively connected with the two sides of the inner surface of the first moving grooves in a rotating manner, fixing frames are fixedly connected with the two sides of the electric telescopic rod, the other side of each fixing frame is fixedly connected with one side of the positioning frame, a first device groove is formed in the positioning plate, and the first rotating motor is arranged inside the first device groove.

Preferably, one side of the fixed clamping block is fixedly connected with a first connecting rod, one end of the first connecting rod is fixedly connected with a pressing piece, the outer surface of the first connecting rod is located on one side of the pressing piece, a first elastic piece is sleeved on one side of the pressing piece, the bottom of the connected clamping block is fixedly connected with a telescopic rod, an installation stud is sleeved on the outer portion of the telescopic rod, and a first buffer spring is sleeved on the outer surface of the telescopic rod and located on the top of the installation stud.

Preferably, connect the outside of fixture block with the outside joint of fixed fixture block, one side fixedly connected with first locating lever of fixed fixture block, the outside of first locating lever with the inside sliding connection of first recess, first activity groove has all been seted up to the both sides of bottom plate, press the outside of moving piece with the inside sliding connection in first activity groove, electric telescopic handle's one end is run through the outside one side of locating frame and is extended to the inside of locating frame, the outside of locating frame is provided with control panel.

Preferably, the bottom of the supporting plate is fixedly connected with the top of the lifting frame, a second moving groove is formed in the bottom of the supporting plate, second sliding grooves are communicated with the two sides of the inner surface of the second moving groove, a second rotating motor is arranged on the left side of the inner portion of the supporting plate, driving wheels are rotatably connected to the two sides of the inner portion of the supporting plate, one end of an output shaft of the rotating motor and one side of each driving wheel are fixedly connected with a transmission gear, and the outer portions of the two transmission gears are meshed with each other.

Preferably, the outer surfaces of the two driving wheels are in transmission connection through a driving belt, a second moving block is sleeved outside the driving belt, second pulleys are fixedly connected to two sides of the second moving block, a clamping arm is fixedly connected to the bottom of the second moving block, a second electric telescopic rod is arranged inside the connecting column, the top end of the second electric telescopic rod is fixedly connected with the middle of the bottom of the connecting column, second limiting rods are fixedly connected to two sides of the bottom of the lifting frame, and the outside of each second limiting rod is in sliding connection with the inside of the connecting column.

Preferably, the outer surface of the second fixing rod is sleeved with a universal wheel, second limiting pulleys are fixedly connected to two sides of the universal wheel, second limiting sliding grooves are communicated with two sides of the inner surface of the buffering groove, the outer portion of each second limiting pulley is connected with the inner portion of each second limiting sliding groove in a rolling mode, second buffering springs are sleeved on the top portions of the universal wheel and the outer surface of the second fixing rod, and second buffering cushions are fixedly connected to the top portions of the universal wheel and the inner surface of the buffering groove.

Preferably, the top and the bottom of second dead lever respectively with the top and the bottom fixed connection of dashpot internal surface, the slide rail has been seted up to the surface of spliced pole, the outside of location pulley with the inside roll connection of slide rail, first fixed plate with the bottom of second fixed plate respectively with the left side and the right side fixed connection at base top, the bottom of second dwang with the bottom of rotating the inslot internal surface is rotated and is connected.

Preferably, the top end of the second rotating rod penetrates through the inside of the base and extends to the inside of the second fixing plate, and the bottom end of the positioning bolt is attached to the outer surface of the adjusting rotating piece.

Preferably, the top of the placing plate is provided with a placing groove, a third electric telescopic rod is arranged inside the placing plate, and one end of the third electric telescopic rod is fixedly connected with a fixed clamping plate.

Compared with the related art, the assembling system for producing the battery for the new energy automobile provided by the invention has the following beneficial effects:

the invention provides an assembly system for producing a battery for a new energy automobile, (1) in a positioning auxiliary mechanism, a, through setting a clamping structure, the vertical direction of the battery is mainly positioned and clamped, the automatic correction of the position of the battery can be realized during clamping, the position of the battery can be deviated during extrusion by utilizing the clamping plates and idler wheels to be matched for use, and the battery can be finally moved between the two clamping plates, so that the effective positioning and the position correction of the battery are completed, the stable state is kept in the horizontal direction and the vertical direction, the battery is not required to be manually adjusted, an operating part is simple and labor-saving during use, the workload is reduced, the positioning operation is quicker, the working efficiency is improved, and the whole positioning auxiliary mechanism is very convenient to use;

b. the fixing structure is arranged, so that the positioning auxiliary mechanism and the workbench can be quickly installed and detached, the operation is simple and convenient, the installation stud can be in threaded connection with thread grooves matched with different positions on the workbench, when the position of the auxiliary positioning mechanism needs to be changed, the installation stud can be in threaded connection with the thread grooves in the corresponding positions, the use is very flexible, and meanwhile, the first buffer spring is arranged to be matched with the installation stud for use, so that the whole connecting fixture block has a certain buffer effect, and when the auxiliary positioning mechanism is used for collision, the shaking effect caused by acting force can be reduced, and the stable state is kept;

(2) in the clamping and hoisting mechanism, a, the angle adjustment of the hoisting structure is mainly realized by arranging an adjusting structure, when the adjustment is needed, the positioning bolt is firstly rotated to separate the bottom end of the positioning bolt from the outside of the adjusting rotating piece, then the adjusting rotating piece is rotated outside, and finally the hoisting structure can be rotated to meet the use requirements in different directions, the clamping and hoisting mechanism is more flexible in use and can adapt to operating environments at different positions, so that the processing range of the clamping and hoisting mechanism is wider, the processing requirement can be well met, and the adjusting structure is simpler to operate when being adjusted, meanwhile, the first fixing plate and the second fixing plate are provided with positioning pulleys which are in rolling connection with the outer part of the connecting column, the connecting column is limited, so that the connecting column can be kept in a stable state during rotation, and the safety during adjustment is improved;

b. through setting up the gyro wheel structure, conveniently remove centre gripping hoisting machine structure, when removing or using simultaneously, through the universal wheel, second buffer spring cooperation is used, can play certain buffering effect, make the mechanism keep steady state, increase the security when using, use through second electric telescopic handle and second gag lever post cooperation, the realization is to hoisting machine structure's altitude mixture control, and then satisfy the not processing demand of co-altitude, further increase hoisting machine structure's flexibility, it is more convenient when using.

Drawings

Fig. 1 is a schematic structural view of the outside of a positioning auxiliary mechanism in an assembly system for producing a battery for a new energy automobile, provided by the invention;

fig. 2 is a schematic structural view of the outside of a positioning auxiliary mechanism in the assembly system for producing a battery for a new energy automobile provided by the invention;

FIG. 3 is a schematic structural diagram of the inside of the positioning frame shown in FIG. 2;

FIG. 4 is an enlarged schematic view of part Aa of FIG. 3;

FIG. 5 is a schematic view of the interior of the clamping plate shown in FIG. 2;

FIG. 6 is a schematic structural diagram of the inside of the positioning frame shown in FIG. 1;

FIG. 7 is an enlarged view of the Ba section shown in FIG. 6;

fig. 8 is a schematic structural view of the outside of a clamping and hoisting mechanism in the assembling system for producing the new energy automobile battery provided by the invention;

fig. 9 is a schematic structural view of the inside of a clamping and hoisting mechanism in the assembling system for producing the new energy automobile battery provided by the invention;

FIG. 10 is an enlarged view of the Ab part shown in FIG. 9;

FIG. 11 is a schematic view of the interior of the base shown in FIG. 9;

fig. 12 is a schematic structural view of the exterior of a transfer device in the assembly system for producing a battery for a new energy automobile provided by the present invention;

FIG. 13 is a schematic view of the interior of the body shown in FIG. 12;

fig. 14 is a schematic view of the structure of the inside of the placing board shown in fig. 12.

Reference numbers in the figures: 1a, a bottom plate, 2a, a positioning frame, 3a, a first sliding slot, 4a, a positioning structure, 41a, an electric telescopic rod, 42a, a first sliding rod, 43a, a positioning plate, 44a, a first buffer pad, 45a, a first moving slot, 46a, a fixed frame, 47a, a first device slot, 5a, a clamping structure, 51a, a first rotating motor, 52a, a threaded rotating shaft, 53a, a driving gear, 54a, a driven gear, 55a, a clamping plate, 56a, a roller, 57a, a protection pad, 6a, a first groove, 7a, a fixing structure, 71a, a fixed clamping block, 72a, a connecting clamping block, 73a first connecting rod, 74a, a pressing piece, 75a, a first elastic piece, 76a telescopic rod, 77a, a mounting stud, 78a, a first buffer spring, 79a, a first positioning rod, 8a, a first moving slot, 9a, a working platform, 1b, A base, 2b, a connecting column, 3b, a rotating groove, 4b, an adjusting structure, 41b, a rotating shaft, 42b, a second rotating rod, 43b, a first fixing plate, 44b, a second fixing plate, 45b, a second rotating gear, 46b, a rectangular groove, 47b, an adjusting rotating member, 48b, a conical gear, 49b, a positioning bolt, 410b, a positioning pulley, 5b, a lifting frame, 6b, a lifting structure, 61b, a supporting plate, 62b, a second moving groove, 63b, a second sliding groove, 64b, a second rotating motor, 65b, a driving wheel, 66b, a transmission gear, 67b, a transmission belt, 68b, a second moving block, 69b, a second pulley, 610b, a clamping arm, 7b, a buffer groove, 8b, a roller structure, 81b, a second fixing rod, 82b, a universal wheel, 83b, a second limiting pulley, 84b, a second limiting sliding groove, 85b, The safety device comprises a second buffer spring, 86b, a second cushion pad, 9b, a second electric telescopic rod, 10b, a second limiting rod, 11b, a sliding rail, 1c, a main body, 2c, a placing plate, 3c, a protection structure, 31c, a protection plate, 32c, a movable piece, 33c, a limiting groove, 34c, a limiting shaft, 35c, a third buffer spring, 36c, an anti-collision pad, 4c, a placing groove, 5c, a third electric telescopic rod, 6c and a fixed clamping plate.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14 in combination, where fig. 1 is a schematic structural diagram of an external portion of a positioning assisting mechanism in an assembly system for producing a battery for a new energy vehicle according to the present invention; fig. 2 is a schematic structural view of the outside of a positioning auxiliary mechanism in the assembly system for producing a battery for a new energy automobile provided by the invention; FIG. 3 is a schematic structural diagram of the inside of the positioning frame shown in FIG. 2; FIG. 4 is an enlarged schematic view of part Aa of FIG. 3; FIG. 5 is a schematic view of the interior of the clamping plate shown in FIG. 2; FIG. 6 is a schematic structural diagram of the inside of the positioning frame shown in FIG. 1; FIG. 7 is an enlarged view of the Ba section shown in FIG. 6; fig. 8 is a schematic structural view of the outside of a clamping and hoisting mechanism in the assembling system for producing the new energy automobile battery provided by the invention; fig. 9 is a schematic structural view of the inside of a clamping and hoisting mechanism in the assembling system for producing the new energy automobile battery provided by the invention; FIG. 10 is an enlarged view of the Ab part shown in FIG. 9; FIG. 11 is a schematic view of the interior of the base shown in FIG. 9; fig. 12 is a schematic structural view of the exterior of a transfer device in the assembly system for producing a battery for a new energy automobile provided by the present invention; FIG. 13 is a schematic view of the interior of the body shown in FIG. 12;

fig. 14 is a schematic view of the structure of the inside of the placing board shown in fig. 12. Battery production is with equipment system for new energy automobile includes:

the device comprises a positioning auxiliary mechanism 1, a clamping and hoisting mechanism 2 and a transferring structure 3;

the positioning auxiliary mechanism 1 comprises a bottom plate 1a, a positioning frame 2a is fixedly connected to the top of the bottom plate 1a, two first sliding grooves 3a are formed in two sides of the inner wall of the positioning frame 2a, positioning structures 4a are arranged on two sides of the positioning frame 2a, each positioning structure 4a comprises an electric telescopic rod 41a and two first sliding rods 42a, and a positioning plate 43a is fixedly connected to one end of the electric telescopic rod 41a and located on the inner side of the positioning frame 2 a;

the clamping structure 5a is arranged inside the positioning plate 43a, the clamping structure 5a comprises a first rotating motor 51a and a threaded rotating shaft 52a, one end of an output shaft of the first rotating motor 51a is fixedly connected with a driving gear 53a, a driven gear 54a is sleeved in the middle of the outer surface of the threaded rotating shaft 52a, the outer part of the driven gear 54a is meshed with the outer part of the driving gear 53a, clamping plates 55a are respectively in threaded connection on two sides of the outer surface of the threaded rotating shaft 52a, a roller 56a is rotatably connected on one side of each clamping plate 55a, and a protection pad 57a is arranged on one side of each clamping plate 55 a;

the first grooves 6a are respectively formed in two sides of the bottom plate 1a, a fixing structure 7a is arranged inside the first grooves 6a, and the fixing structure 7a comprises a fixing clamping block 71a and a connecting clamping block 72 a.

The positioning frame 2a is a rectangular frame, as the external frame of the positioning auxiliary structure, the first sliding grooves 3a are respectively located at the left and right sides of the inner side of the positioning frame 2a, the two positioning structures 4a are respectively located at the left and right sides of the positioning frame 2a, the two positioning structures are externally connected with a power supply, the extension and retraction of the positioning structures are controlled by an external control panel, the extension ends of the positioning structures extend from the outer side to the inner side of the positioning frame 2a, the two ends of the first sliding rod 42a are respectively fixedly connected with the two sides of the inner surface of the first sliding groove 3a, the positioning plate 43a is matched with the positioning frame 2a, the positioning plate 43a can be driven to move in the horizontal direction at the inner side of the positioning frame 2a by the extension and retraction of the electric telescopic rod 41a, the first cushion pad 44a is located at the middle position of the positioning plate 43a, is made of soft rubber material, when contacting with the outside of the battery, the, the fixing frame 46a is used for fixing the electric telescopic rods 41a, the other side of the fixing frame is fixedly connected with the outside of the positioning frame 2a, the positioning structure 4a is mainly used for recording and positioning the new energy battery, and when the positioning structure is used, the two electric telescopic rods 41a are started to extend, so that the positioning plate 43a can move in the horizontal direction on the inner side of the positioning frame 2a and is gradually attached to the new energy battery arranged on the inner side of the positioning frame 2a, and a positioning effect is further achieved, and the battery can be conveniently assembled subsequently;

the first rotating motor 51a is a positive and negative rotating motor, is externally connected with a power supply, is controlled to operate by an external switch, is arranged inside the first device groove 47a, the threaded rotating shaft 52a can freely rotate inside the positioning plate 43a, two threads with opposite threads are simultaneously arranged on two sides of the outer surface of the threaded rotating shaft, is matched with the threaded grooves arranged inside the two clamping plates 55a, can drive the two clamping plates 55a to move horizontally on the surface of the threaded rotating shaft 52a through rotation, realizes position adjustment of the clamping plates 55a, further can adapt to batteries with different sizes, the driving gear 53a and the driven gear 54a are both arranged inside the first device groove 47a, can drive the driven gear 54a to rotate through rotation of the driving gear 53a, the rollers 56a are arranged on the inclined surface on one side of the clamping plates 55a, and are three in total, when the rollers are in contact with the outside of the batteries, if the positions of the batteries are, the position of the battery can be adjusted during clamping by the rolling effect of the roller 56a and the extrusion effect of the positioning plate 43a, so that the automatic correction effect is realized, and the protective pad 57a is made of rubber and plays a protective role when being in contact with the outside of the battery;

when the clamping structure 5a is used, before the positioning structure 4a is started, the state of the clamping structure 4a is adjusted, the driving gear 53a drives the driven gear 54a to rotate by starting the first rotating motor 51a, so that the threaded rotating shaft 52a can rotate, the clamping plate 55a can be driven to horizontally move on the surface of the threaded rotating shaft 52a by rotating the threaded rotating shaft 52a until the two clamping plates 55a move to a required position at intervals, the first rotating motor 51a can be closed, then when the positioning structure 4a is started, the positioning plate 43a can drive the clamping plate 55a to move in the horizontal direction when the positioning plate 43a moves in the horizontal direction, and when the clamping plate 55a is in contact with the outside of the battery, if the position of the battery is irregular, the roller 56a on the inclined surface of the positioning plate can roll, can make the battery take place the offset when the extrusion, finally remove to between two clamp plates 55a, and then accomplished the effective location of battery, all keep stable state in level and vertical direction, when using, needn't artifical manual adjusting the battery, automatic position adjustment to the battery when the location is pressed from both sides tightly, the operating parts is simple during the use, very laborsaving, the work load has been reduced, make the location operation more rapid, and then improved work efficiency, make whole location complementary unit very convenient when using.

Two sides of the positioning plate 43a are respectively connected to the outer surfaces of the two first sliding rods 42a in a sliding manner, and two ends of the first sliding rods 42a are respectively fixedly connected to two sides of the inner surface of the first sliding chute 3 a.

The two first sliding bars 42a respectively limit two sides of the positioning plate 43a, so that the positioning plate 43a can stably move inside the positioning frame 2 a.

A first cushion pad 44a is disposed on one side of the positioning plate 43a, two first moving grooves 45a are formed on one side of the positioning plate 43a, and two ends of the threaded rotating shaft 52a are rotatably connected to one side of the inner surfaces of the two first moving grooves 45a, respectively.

Both sides of the electric telescopic rod 41a are fixedly connected with a fixing frame 46a, the other side of the fixing frame 46a is fixedly connected with one side of the positioning frame 2a, a first device groove 47a is formed in the positioning plate 43a, and the first rotating motor 51a is arranged in the first device groove 47 a.

One side of the fixed clamping block 71a is fixedly connected with a first connecting rod 73a, one end of the first connecting rod 73a is fixedly connected with a pressing piece 74a, and a first elastic piece 75a is sleeved on the outer surface of the first connecting rod 73a and located on one side of the pressing piece 74 a.

The two grooves 6a are respectively located on the left side and the right side inside the bottom plate 1a and are movable positions of the fixed structure 7a, the fixed clamping block 71a and the connecting clamping block 72a are provided with adaptive inclined planes, the outer portions of the fixed clamping block and the connecting clamping block are clamped with each other, the first connecting rod 73a extends from the inside of the groove 6a to the inside of the first movable groove 8a, the pressing piece 74a and the first movable groove 8a are arranged in an adaptive mode, and the pressing piece can stably move in the inner horizontal direction.

The bottom of the connection clamping block 72a is fixedly connected with an expansion link 76a, the exterior of the expansion link 76a is sleeved with a mounting stud 77a, and the exterior surface of the expansion link 76a, which is located at the top of the mounting stud 77a, is sleeved with a first buffer spring 78 a.

The installation stud 77a is internally provided with a telescopic hole matched with the telescopic rod 76a, so that the telescopic rod 76a can stably move in the internal vertical direction, the installation stud 77a is in threaded connection with a thread groove arranged on the workbench, and further the connection fixture block 72a can keep a stable state, the first buffer spring 78a provides elastic support for the connection fixture block 72a, so that the fixing structure 7a has a certain buffering effect, the fixing structure 7a is mainly used for fixing the bottom plate 1a by being provided, so that the whole positioning auxiliary mechanism can be stably installed on the workbench, free installation and disassembly of the positioning auxiliary mechanism are realized, when the position of the positioning auxiliary mechanism needs to be adjusted, the first connection rod 73a can drive the fixing fixture block 71a to move in the horizontal direction in the groove 6a by pressing the external pressing piece 74a, and further make the outside of the fixed fixture block 71a separate from the outside of the connecting fixture block 72a, at this moment, the connecting fixture block 72a no longer receives the clamping action, can lift the bottom plate 1a upwards, make the fixed connecting fixture block 72a totally separate from the inside of recess 6a, finish the dismantlement of the auxiliary positioning mechanism at this moment, and when needing to mount the auxiliary positioning mechanism, only need to align the recess 6a of the bottom plate 1a with the position of the connecting fixture block 72a, then press the clamping downwards, finally make the fixed fixture block 71a clamp with connecting fixture block 72a, finish the installation of the auxiliary positioning mechanism, this fixed structure 7a can realize the quick installation and dismantlement between auxiliary positioning mechanism and work station, it is relatively simple and convenient while operating, the installation stud 77a that is set up can be screwed with the thread groove adapted in different positions on the work station, when needing to change the position of the auxiliary positioning mechanism, can be through the thread groove threaded connection with mounting stud 77a and corresponding position, and then realize the position control to connecting fixture block 72a, set up first buffer spring 78a and use with mounting stud 77a cooperation simultaneously for whole connecting fixture block 72a has certain buffering effect, when using auxiliary positioning mechanism to receive the collision, can reduce the effect of rocking that the effort brought, makes it keep stable state.

The outer portion of the connecting clamping block 72a is clamped with the outer portion of the fixing clamping block 71a, one side of the fixing clamping block 71a is fixedly connected with a first positioning rod 79a, and the outer portion of the first positioning rod 79a is slidably connected with the inner portion of the first groove 6 a.

First locating lever 79a is through with first recess 6a sliding connection, and then plays limiting displacement to fixed fixture block 71a, makes it can be stable in the inside stable removal of first recess 6 a.

First movable grooves 8a are formed in two sides of the bottom plate 1a, and the outer portion of the pressing piece 74a is slidably connected with the inner portion of the first movable groove 8 a.

One end of the electric telescopic rod 41a penetrates through one side of the outside of the positioning frame 2a and extends into the inside of the positioning frame 2a, and a control panel is arranged on the outside of the positioning frame 2 a.

The clamping and hoisting mechanism 2 comprises a base 1b and a connecting column 2b, a rotating groove 3b is formed in the base 1b, an adjusting structure 4b is arranged on the base 1b, the adjusting structure 4b comprises a rotating shaft 41b, a second rotating rod 42b, a first fixing plate 43b and a second fixing plate 44b, the bottom end of the rotating shaft 41b is rotatably connected with the bottom of the inner surface of the rotating groove 3b, the top end of the rotating shaft 41b is fixedly connected with the bottom of the connecting column 2b, the outer surfaces of the rotating shaft 41b and the second rotating rod 42b are respectively sleeved with a second rotating gear 45b, the outer surfaces of the two second rotating gears 45b are mutually meshed, a rectangular groove 46b is formed in the second fixing plate 44b, an adjusting rotating piece 47b is rotatably connected in the second fixing plate 44b, one end of the adjusting rotating piece 47b is fixedly connected with a conical gear 48b on the top end of the second rotating rod 42b, the two bevel gears 48b are arranged inside the rectangular groove 46b, the outer parts of the two bevel gears 48b are meshed with each other, the inner thread of the second fixing plate 44b is connected with a positioning bolt 49b, and one sides of the first fixing plate 43b and the second fixing plate 44b are fixedly connected with a positioning pulley 410 b;

the crane 5b, the crane 5b set up in the top of spliced pole 2b, the top of crane 5b is provided with hoisting structure 6b, hoisting structure 6b includes backup pad 61b, buffer slot 7b has all been seted up to the both sides of base 1b bottom, the inside of buffer slot 7b is provided with gyro wheel structure 8b, gyro wheel structure 8b includes second dead lever 81 b.

The connecting column 2b is positioned in the middle of the top of the base 1b and can freely rotate on the top of the base 1b, the top end of the rotating shaft 41b extends to the top of the base 1b from the inside of the rotating groove 3b and is fixedly connected with the middle of the bottom of the connecting column 2b, the rotating shaft 41b can drive the connecting column 2b to rotate, the bottom end of the second rotating rod 42b is rotatably connected with the bottom of the inner surface of the rotating groove 3b, the top end of the second rotating rod 42b extends to the inside of the second fixing plate 44b and can rotate inside the second fixing plate 44b, the first fixing plate 43b and the second fixing plate 44b are respectively and fixedly connected with the left side and the right side of the top of the base 1b, the two second rotating gears 45b are arranged in a matching manner to realize linkage between the rotating shaft 41b and the rotating rod 42b, one side of the adjusting rotating piece 47b extends to the outside of the second fixing plate 44, the adjusting rotating piece 47b is linked with the second rotating rod 42b, the bottom end of the positioning bolt 49b is attached to the outer surface of the adjusting rotating piece 47b, the positioning bolt 49b plays a positioning role in the adjusting rotating piece 47b, the adjusting rotating piece can be kept in a stable state when the adjusting rotating piece does not need to rotate, the positioning pulley 410b is in rolling connection with the inside of the sliding rail 11b on the connecting column 2b, and the positioning pulley 410b and the connecting column 2b are arranged in a matched mode, so that the connecting column 2b can be kept in a stable state when the connecting column 2 b;

through the arrangement of the adjusting structure 4b, the angle adjustment of the lifting structure 6b is mainly realized, when the adjustment is needed, the positioning bolt 49b is firstly rotated to separate the bottom end of the positioning bolt from the outside of the adjusting rotating piece 47b, then the adjusting rotating piece 47b is externally rotated to simultaneously rotate the two bevel gears 48b and further drive the second rotating rod 42b to rotate, the two second rotating gears 45b can be simultaneously rotated through the rotation of the second rotating rod 42b, further the rotating shaft 41b can drive the connecting column 2b to rotate, the lifting structure 6b is finally driven to rotate through the connecting column 2b until the lifting structure 6b rotates to a needed position, the rotation of the adjusting rotating piece 47b is stopped, then the positioning bolt 49b is rotated again to contact the bottom end of the positioning bolt with the adjusting rotating piece 47b, the adjusting rotating piece 47b is effectively fixed, and further the stable state of the lifting structure 6b is ensured, this adjust structure 4b makes centre gripping hoisting machine construct have angle modulation function, when needs use in equidirectional not, can adjust commentaries on classics 47b through rotating and realize, compare in traditional fixed design, it is more nimble when using, can adapt to the operational environment of different positions, make centre gripping hoisting machine construct the application range more extensive, can be fine satisfy the processing demand, and this adjust structure 4b when adjusting, it is fairly simple to operate, be provided with positioning pulley 410b simultaneously on first fixed plate 43b and second fixed plate 44b, with the outside roll connection of spliced pole 2b, play limiting displacement to spliced pole 2b, make it can keep stable state when rotating, the security when improving the regulation.

The bottom of the supporting plate 61b is fixedly connected with the top of the lifting frame 5b, a second moving groove 62b is formed in the bottom of the supporting plate 61b, and second sliding grooves 63b are communicated with two sides of the inner surface of the second moving groove 62 b.

A second rotating motor 64b is arranged on the left side inside the supporting plate 61b, driving wheels 65b are rotatably connected to two sides inside the supporting plate 61b, transmission gears 66b are fixedly connected to one end of an output shaft of the rotating motor 64b and one side of each driving wheel 65b, and the outsides of the two transmission gears 66b are meshed with each other.

The outer surfaces of the two driving wheels 65b are in transmission connection through a driving belt 67b, a second moving block 68b is sleeved outside the driving belt 67b, both sides of the second moving block 68b are fixedly connected with second pulleys 69b, and the bottom of the second moving block 68b is fixedly connected with a clamping arm 610 b.

The hoisting structure 6b is used for clamping and transporting the battery blocks, the two driving wheels 65b are respectively positioned at the left two sides inside the supporting plate 61b, and the transmission wheel 65b on the left side is fixedly connected with a transmission gear, and is matched with the transmission gear 66b, when the rotating motor 64b rotates, the two transmission wheels 65b rotate simultaneously, and then the transmission belt 67b can be driven by the rotating motor 64b, so that the two transmission wheels 65b rotate and move, thereby driving the second moving block 68b by the rotating motor 64b, so that the two driving wheels 65b are rotated in the second moving groove 62b by the rotating motor 64b, so that the two driving wheels 65b slide in the second moving groove 62b, so that the clamping arm 610b can move in the horizontal direction, and the clamping mechanism is arranged on the clamping arm 610b for clamping and fixing the battery.

The inside of spliced pole 2b is provided with second electric telescopic handle 9b, the top of second electric telescopic handle 9b with the centre fixed connection of spliced pole 2b bottom, the equal fixedly connected with second gag lever post 10b in both sides of crane 5b bottom, the outside of second gag lever post 10b with spliced pole 2 b's inside sliding connection.

Second electric telescopic handle 9b is external to have the power, it is flexible through external switch control, be provided with the spout with second gag lever post 10b adaptation in spliced pole 2 b's inside, slide through both cooperations, play limiting displacement to crane 5b, use through second electric telescopic handle 9b and the cooperation of second gag lever post 10b, the realization is to hoisting structure 6 b's altitude mixture control, and then satisfy the not processing demand of co-altitude, further increase hoisting structure 6 b's flexibility, it is more convenient when using.

The outer surface of the second fixing rod 81b is sleeved with a universal wheel 82b, two sides of the universal wheel 82b are fixedly connected with second limiting pulleys 83b, two sides of the inner surface of the buffer groove 7b are communicated with second limiting sliding grooves 84b, and the outer portion of each second limiting pulley 83b is in rolling connection with the inner portion of each second limiting sliding groove 84 b.

The universal wheel 82b is provided with a positioning structure, so that the idler wheel can be kept in a static state when the universal wheel does not move, the overall stability of the clamping hoisting mechanism is further ensured, and the second limiting pulley 83b is matched with the second limiting sliding groove 84b for the universal wheel 82b can stably move in the buffer groove 7 b.

A second buffer spring 85b is sleeved on the outer surface of the second fixing rod 81b and positioned at the top of the universal wheel 82b, and a second buffer pad 86b is fixedly connected to the top of the universal wheel 82b and the top of the inner surface of the buffer groove 7 b.

The universal wheel 82b can slide in the vertical direction in surface of second dead lever 81b, second buffer spring 85b provides elasticity for universal wheel 82b and supports, make universal wheel 82b have certain cushioning effect, blotter 86b is the rubber material, play supplementary buffering effect, increase the buffering effect of universal wheel 82b, through setting up this gyro wheel structure 8b, conveniently remove centre gripping hoisting machine and construct, simultaneously when removing or using, through universal wheel 82b, second buffer spring 85b cooperates and uses, can play certain buffering effect, make the mechanism keep stable state, security when increasing the use.

The top end and the bottom end of the second fixing rod 81b are respectively fixedly connected with the top and the bottom of the inner surface of the buffer groove 7b, the outer surface of the connecting column 2b is provided with a sliding rail 11b, and the outer part of the positioning pulley 410b is in rolling connection with the inner part of the sliding rail 11 b.

The bottoms of the first fixing plate 43b and the second fixing plate 44b are respectively fixedly connected to the left side and the right side of the top of the base 1b, and the bottom end of the second rotating rod 42b is rotatably connected to the bottom of the inner surface of the rotating groove 3 b.

The top end of the second rotating rod 42b penetrates through the inside of the base 1b and extends to the inside of the second fixing plate 44b, and the bottom end of the positioning bolt 49b is attached to the outer surface of the adjusting rotating piece 47 b.

The transfer structure 3 includes main part 1c, the top of main part 1c is rotated and is connected with places board 2c, the both sides of main part 1c all are provided with protective structure 3c, protective structure 3c includes guard plate 31c, two moving parts 32c of one side fixedly connected with of guard plate 31c, spacing groove 33c has been seted up to one side of moving part 32c, spacing groove 33 c's inside sliding connection has spacing axle 34c, spacing axle 34 c's one end with main part 1 c's inside fixed connection, third buffer spring 35c has been cup jointed to moving part 32 c's surface, one side of guard plate 31c is provided with crashproof pad 36 c.

The top of the placing plate 2c is provided with a placing groove 4c, a third electric telescopic rod 5c is arranged inside the placing plate 4c, and one end of the third electric telescopic rod 5c is fixedly connected with a fixed clamping plate 6 c.

The other end of the limiting shaft 34c is fixedly connected with one side of the interior of the main body 1c and is arranged in a matching way with the limiting groove 33c, the limiting effect is achieved on the moving part 32, a certain reducing effect is achieved on the generated acting force through the mutual movement of the moving part 32 and the limiting shaft 34c, the transfer mechanism 3 is mainly used for achieving the protecting effect on the exterior of the main body 1c through the arrangement of the protecting structure 3c, when the transfer mechanism 3 is collided, the protecting plate 31c contracts towards the interior of the main body 1c under the action of the acting force, the acting force can be reduced through the matching action of the protecting plate 31c, the moving part 32c and the third buffer spring 35c, the direct contact with the exterior of the main body 1c is avoided, a certain buffering effect is achieved, the whole transfer structure 3 is protected, the use is safer, the service life is longer, the driving mechanism is arranged in the main body 1c, for moving the entire transfer structure 3.

The working principle of the assembling system for producing the new energy automobile battery provided by the invention is as follows:

(1) in the position auxiliary mechanism, a, when positioning the battery, firstly adjusting the position of the clamping plate 55a on the clamping structure 4a, by starting the first rotating motor 51a, the driving gear 53a drives the driven gear 54a to rotate, and further the threaded rotating shaft 52a can rotate, by rotating the threaded rotating shaft 52a, the clamping plate 55a can be driven to horizontally move on the surface thereof until the two clamping plates 55a move to the required position at intervals, the first rotating motor 51a can be closed, then the positioning structure 4a is started, so that when the positioning plate 43a moves in the horizontal direction, the clamping plate 55a can be driven to horizontally move, and when the clamping plate 55a contacts with the outside of the battery, if the position of the battery is not uniform, the position of the battery can be shifted during pressing by the rolling action of the roller 56a on the inclined surface, and finally the battery can move between the two clamping plates 55a, the effective positioning of the battery is further completed, and the battery is kept in a stable state in both the horizontal direction and the vertical direction;

b. when the position of the positioning auxiliary mechanism needs to be adjusted, the external pressing piece 74a can be pressed, so that the first connecting rod 73a drives the fixing clamping block 71a to move in the horizontal direction in the groove 6a, the outer part of the fixing clamping block 71a is further separated from the outer part of the connecting clamping block 72a, at the moment, the connecting clamping block 72a does not receive clamping action any more, the bottom plate 1a can be lifted upwards, the fixing connecting clamping block 72a is completely separated from the inner part of the groove 6a, at the moment, the dismounting of the positioning auxiliary mechanism is completed, when the positioning auxiliary mechanism needs to be mounted, only the groove 6a at the bottom of the bottom plate 1a needs to be aligned with the connecting clamping block 72a, then the positioning auxiliary mechanism is pressed downwards for clamping, and finally the fixing clamping block 71a is clamped with the connecting clamping block 72a, and the mounting of the;

(2) in the adjusting hoisting structure, when the angle of the hoisting structure 6b needs to be adjusted, the positioning bolt 49b is firstly rotated to separate the bottom end of the positioning bolt from the outside of the adjusting rotating piece 47b, then, the adjustment rotary member 47b is rotated externally, so that the two bevel gears 48b are rotated simultaneously, thereby driving the second rotating rod 42b to rotate, the two second rotating gears 45b can be simultaneously rotated by the rotation of the second rotating rod 42b, so that the rotating shaft 41b can drive the connecting column 2b to rotate, the hoisting structure 6b is finally driven to rotate through the connecting column 2b until the hoisting structure 6b rotates to a required position, the rotation of the adjusting rotating piece 47b is stopped, then the positioning bolt 49b is rotated again, the bottom end of the positioning bolt is contacted with the adjusting rotating piece 47b, the adjusting rotating piece 47b is effectively fixed, so that the hoisting structure 6b can be kept in a stable state;

when the height of hoisting structure 6b needs to be adjusted, second electric telescopic handle 9b is started to extend upwards, and then crane 5b is driven to move upwards, and the switch of second electric telescopic handle 9b is closed until hoisting structure 6b upper part of the body reaches a proper position.

Compared with the related art, the assembling system for producing the battery for the new energy automobile provided by the invention has the following beneficial effects:

(1) in the positioning auxiliary mechanism, a, through setting up the clamping structure 5a, mainly carry out positioning clamping to the vertical direction of battery, can realize the automatic correction to the battery position when pressing from both sides tightly, utilize clamp plate 55a, gyro wheel 56a cooperation use, can make the battery take place the position offset when squeezing, finally move to between two clamp plates 55a, and then accomplished the effective location and the position correction of battery, all keep stable state in horizontal and vertical direction, needn't artifically manually adjust the battery, the operating parts are simple during the use, it is very laborsaving, the work load has been reduced, make the positioning operation more rapid, and then improved work efficiency, make the whole positioning auxiliary mechanism very convenient when using;

b. this fixed knot constructs 7a can realize fixing a position quick installation and dismantlement between auxiliary mechanism and the workstation, it is more simple and convenient when the operation, the installation double-screw bolt 77a that sets up simultaneously can with the thread groove threaded connection of different position adaptations on the workstation, when the position of auxiliary positioning mechanism needs to be changed, can be through the thread groove threaded connection with installation double-screw bolt 77a and corresponding position, it is very nimble when using, set up first buffer spring 78a and installation double-screw bolt 77a cooperation use simultaneously, make whole connection fixture block 72a have certain buffering effect, when using auxiliary positioning mechanism to receive the collision, the effect of rocking that the effort brought can be reduced, make it keep stable state.

(2) In the clamping and hoisting mechanism, a, the angle adjustment of the lifting structure 6b is mainly realized by arranging the adjusting structure 4b, when the adjustment is needed, the positioning bolt 49b is firstly rotated to separate the bottom end of the adjusting rotating part from the outside of the adjusting rotating part 47b, then the adjusting rotating part 47b is externally rotated, and finally the lifting structure 6b can be rotated to meet the use requirements in different directions, compared with the traditional fixed design, the clamping and hoisting mechanism is more flexible in use and can adapt to the operating environments at different positions, the processing range of the clamping and hoisting mechanism is wider, the processing requirements can be well met, when the adjusting structure 4b is adjusted, the operation is simpler, and meanwhile, the positioning pulleys 410b are arranged on the first fixing plate 43b and the second fixing plate 44b and are in rolling connection with the outside of the connecting column 2b to play a role in limiting the connecting column 2b, the device can keep a stable state when rotating, and the safety during adjustment is improved;

b. through setting up gyro wheel structure 8b, conveniently remove centre gripping hoisting machine structure, simultaneously when removing or when using, through universal wheel 82b, second buffer spring 85b cooperation is used, can play certain buffering effect, make the mechanism keep stable state, the security when increasing the use, use through the cooperation of second electric telescopic handle 9b and second gag lever post 10b, the realization is to hoisting structure 6 b's altitude mixture control, and then satisfy the not processing demand of co-altitude, further increase hoisting structure 6 b's flexibility, it is more convenient when using.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.