CN112059686B - Shutdown mechanism of two-wire alternating type automobile battery flexible connection copper bar processing usefulness - Google Patents

Abstract

The invention relates to a cutting mechanism for processing a double-line alternating type automobile battery flexible connection copper bar, which comprises two single-line copper bar cutting conveying plates which are symmetrically distributed, wherein a supporting table is arranged below the two single-line copper bar cutting conveying plates, and a cutting assembly, an actuating assembly and a transmission assembly are sequentially arranged on the supporting table and in the middle between the two single-line copper bar cutting conveying plates; the driving component is connected with the cutting component and correspondingly connected with the two single-line copper bar cutting conveying plates through the transmission component. According to the invention, through the arrangement of the driving assembly, the switching assembly and the rotating assembly, the structure of the invention is more compact, the power transmission is more effective, and the coordination capability among all the structures is improved; through the driving assembly, the cutting assembly and the transmission assembly, multiple operation processes of alternately cutting, alternately conveying and feeding the double-line copper bar strip can be realized, the cutting efficiency of the copper bar strip is greatly improved, and the production and processing efficiency of the copper bar strip is improved.

Description

Shutdown mechanism of two-wire alternating type automobile battery flexible connection copper bar processing usefulness

Technical Field

The invention relates to the technical field of copper bar production and processing, in particular to a cutting mechanism for processing a double-line alternating type automobile battery flexible connection copper bar.

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, and forms an automobile with advanced technical principle, new technology and new structure. The electric automobile belongs to one of the commonly used new energy batteries serving as a power supply part of the new energy electric automobile, wherein an important connecting piece is a copper bar, the copper bar needs to be cut off in the production and processing flow of the copper bar, the existing cutting equipment is usually single-line equipment, and only one copper bar line can be cut off and processed, so that a plurality of cutting equipment are often adopted for processing in the existing production and processing for improving the efficiency, the efficiency is improved in the mode, the cost and the requirement on a site are increased, and in addition, the later-stage maintenance and repair investment is large.

Disclosure of Invention

In order to solve the technical problem, the invention provides a cutting mechanism for processing a double-wire alternating type automobile battery flexible connection copper bar.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

the cutting mechanism for processing the double-line alternating type automobile battery flexible connection copper bar comprises two single-line copper bar cutting conveying plates which are symmetrically distributed, a supporting table is arranged below the two single-line copper bar cutting conveying plates, and a cutting assembly, a driving assembly and a transmission assembly are sequentially arranged on the supporting table and in the middle between the two single-line copper bar cutting conveying plates;

the copper bar cutting device comprises a cutting assembly, a transmission assembly, two single-line copper bar cutting conveying plates, a copper bar belt and the copper bar belt.

Furthermore, the cutting-off assembly comprises a rotating shaft bracket, a swing rod and a double-faced cutting-off knife, wherein the rotating shaft bracket is positioned in the middle of the two single-line copper bar cutting-off conveying plates and distributed in the same direction as the single-line copper bar cutting-off conveying plates, the swing rod is arranged on the rotating shaft bracket, the double-faced cutting-off knife is arranged at the end part of the swing rod, and the rotating shaft bracket is connected with the driving assembly.

Furthermore, the driving component comprises a rotating shaft penetrating through the rotating shaft frame and connected with a bearing of the rotating shaft frame, a first friction disc coaxially connected with the oscillating bar, a second friction disc arranged on the rotating shaft, and a double-sided friction disc arranged on the rotating shaft between the first friction disc and the second friction disc in a sliding manner, a switching component for driving the double-sided friction disc to move so as to be randomly attached to and rubbed with the first friction disc and the second friction disc is arranged on the side supporting platform of the double-sided friction disc, a rotating component for driving the double-sided friction disc to rotate in a reciprocating manner clockwise and anticlockwise is arranged on the switching component, and the transmission component is connected with the rotating shaft.

Furthermore, the switching assembly comprises a screw rod arranged on the support table, a positive and negative motor connected with the screw rod, and a moving plate arranged on the screw rod, wherein a double shifting fork rod matched with the double-sided friction disc is fixedly arranged on the moving plate, and the rotating assembly is arranged on the moving plate.

Furthermore, the rotating assembly comprises an extension plate connected with the moving plate, two bevel gears symmetrically distributed on the double-sided friction disc, an incomplete bevel gear meshed with the two bevel gears, and a servo motor arranged on the extension plate and connected with the incomplete bevel gear.

Furthermore, the transmission assembly comprises two one-way transmission ratchet wheels and two transmission gears, the two one-way transmission ratchet wheels are sequentially and coaxially arranged on the rotating shaft, the two transmission gears are correspondingly meshed with the two one-way transmission ratchet wheels, and the two transmission gears are correspondingly connected with the driving shafts in the two single-line copper bar cutting and conveying plates through the belt assembly.

Further, the drive ratchet teeth on the two one-way drive ratchet wheels are opposite in direction.

Furthermore, the transmission ratchets on the two one-way transmission ratchet wheels are hinged and are correspondingly connected with return springs.

The invention has the beneficial effects that:

compared with the prior art, the invention has the advantages that the structure is more compact and the power transmission is more effective through the driving assembly, the switching assembly and the rotating assembly, and the coordination capability among the structures is improved; through the driving assembly, the cutting assembly and the transmission assembly, multiple operation processes of alternately cutting, alternately conveying and feeding the double-line copper bar strip can be realized, the cutting efficiency of the copper bar strip is greatly improved, and the production and processing efficiency of the copper bar strip is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples:

FIG. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic sectional view A-A of FIG. 1;

FIG. 3 is a schematic sectional view of the structure of B-B in FIG. 1;

fig. 4 is a schematic sectional structure view of C-C in fig. 1.

In the figure: 1. a support table; 2. rotating the shaft bracket; 3. a swing rod; 4. a double-sided cutting knife; 5. a rotating shaft; 6. a first friction disk; 7. a second friction disk; 8. a double-sided friction disk; 9. a screw rod; 10. a positive and negative motor; 11. moving the plate; 12. a double declutch shift lever; 13. an extension plate; 14. a bevel gear; 15. an incomplete bevel gear; 16. a servo motor; 17. a unidirectional drive ratchet; 18. a transmission gear; 19. a belt assembly; 20. the single-line copper bar cutting conveying plate.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained in the following with the accompanying drawings and the embodiments.

As shown in fig. 1 to 4, the shutdown mechanism for processing the double-line alternating type automobile battery flexible connection copper bar comprises two single-line copper bar cutting and conveying plates 20 which are symmetrically distributed, a support table 1 is arranged below the two single-line copper bar cutting and conveying plates 20, and a cutting component, an actuating component and a transmission component are sequentially arranged on the support table 1 and in the middle between the two single-line copper bar cutting and conveying plates 20;

the driving assembly is connected with the cutting assembly and correspondingly connected with the two single-line copper bar cutting conveying plates 20 through the transmission assembly, the cutting assembly alternately cuts off copper bars on the two single-line copper bar cutting conveying plates 20 in a reciprocating swing mode under the driving of the driving assembly, and the two single-line copper bar cutting conveying plates 20 alternately convey the copper bars under the driving of the driving assembly through the transmission assembly to cooperate with the reciprocating alternate cutting operation of the cutting assembly.

In the invention, the reciprocating swing of the cutting assembly is carried out to alternately cut off the copper busbar band and the alternate conveying of the copper busbar band by the two single-line copper bar cutting and conveying plates 20 is carried out alternately.

Namely, after the cutting-off assembly alternately completes two cutting-off operations in a reciprocating swing mode, the driving assembly can switch power to the transmission assembly, and the two single-line copper bar cutting-off conveying plates 20 alternately convey the copper bar belts once.

In the process, the cutting assembly stops intermittently after finishing the cutting operation of the copper bar strip in one direction twice, and in the intermittent stop process, the copper bar strip is conveyed alternately by the two single-line copper bar cutting and conveying plates 20.

As a further improvement of the invention, two single-line copper bar cutting and conveying plates 20 are positioned on the front side and the rear side of the support table 1, and the driving component, the cutting component and the transmission component are arranged and distributed in sequence from right to left.

As a further improvement of the present invention, the cutting-off assembly includes a rotating shaft bracket 2 located in the middle of the two single-wire copper bar cutting-off conveying plates 20 and distributed in the same direction as the single-wire copper bar cutting-off conveying plates 20, a swing rod 3 arranged on the rotating shaft bracket 2, and a double-sided cutting-off knife 4 arranged on the end of the swing rod 3, and the rotating shaft bracket 2 is connected with the driving assembly.

The double-sided cutting tool is characterized in that the rotating shaft frame 2 is distributed in the middle between the support table 1 and the front and rear single-line copper bar cutting conveying plates 20 in the left-right direction, a rotating shaft is arranged on the rotating shaft frame 2, the swing rods 3 are symmetrically distributed on the rotating shaft, the double-sided cutting tool 4 is installed on the rotating shaft frame 2 through the two swing rods 3, and the swing rods 3 play a role in connection and support. The cutting surfaces of the double-sided cutting-off cutter 4 are distributed front and back, so that the copper bar belts on the front and back single-line copper bar cutting-off conveying plates 20 can be cut off along with the swinging of the swing rod 3.

As a further improvement of the present invention, the actuating assembly includes a rotating shaft 5 passing through the rotating shaft frame 2 and bearing-connected to the rotating shaft frame 2, a first friction disk 6 coaxially connected to the swing rod 3, a second friction disk 7 disposed on the rotating shaft 5, and a double-sided friction disk 8 slidably mounted on the rotating shaft 5 between the first friction disk 6 and the second friction disk 7, a switching assembly for actuating the double-sided friction disk 8 to move so as to be in contact with the first friction disk 6 and the second friction disk 7 for friction at will is disposed on a side supporting table 1 of the double-sided friction disk 8, a rotating assembly for actuating the double-sided friction disk 8 to rotate back and forth clockwise is disposed on the switching assembly, and the transmission assembly is connected to the rotating shaft 5.

The rotating shaft 5 is horizontally distributed along the left-right direction, the first friction disc 6 is coaxially connected with a rotating shaft on the rotating shaft frame 2, therefore, the first friction disc 6 and the rotating shaft 5 relatively rotate, the first friction disc 6 is positioned at the right end part of the rotating shaft frame 2, the second friction disc 7 is positioned at the right end part of the rotating shaft 5, the double-faced friction disc 8 is slidably arranged on the rotating shaft 5 and also relatively rotates with the rotating shaft 5, and the transmission assembly is connected with the left end part of the rotating shaft 5.

The position of the double-sided friction disc 8 on the rotating shaft 5 is changed through the switching assembly, so that the double-sided friction disc 8 can be in reciprocating switching between the fitting friction of the first friction disc 6 and the second friction disc 7, when the double-sided friction disc 8 is in fitting friction with the first friction disc 6, the double-sided friction disc 8 rotates clockwise and anticlockwise and passes through the first friction disc 6, the double-sided cutting-off tool 4 swings in the same direction, and the copper bar strip on the conveying plate 20 is cut off by the front single-line copper bar and the rear single-line copper bar in a cutting-off mode.

When the double-sided friction disk 8 and the second friction disk 7 are attached to rub, the rotating shaft 5 rotates, so that the transmission assembly connected with the rotating shaft 5 transmits power to the front and rear single-line copper bar cutting conveying plates 20, the front and rear single-line copper bar cutting conveying plates 20 alternately convey copper bar strips during intermittent stop after each reciprocating cutting operation of the double-sided cutting knife 4, double-line alternate cutting operation is achieved, the efficiency of copper bar cutting processing is greatly improved, and the efficiency of copper bar production and processing is further improved.

As a further improvement of the present invention, the switching assembly includes a screw 9 disposed on the support table 1, a forward and backward motor 10 connected to the screw 9, and a moving plate 11 disposed on the screw 9, wherein a double-shift fork rod 12 matched with the double-sided friction disc 8 is fixedly mounted on the moving plate 11, and the rotating assembly is disposed on the moving plate 11.

Through the forward and reverse rotation of the forward and reverse motor 10, the moving plate 11 on the screw rod 9 horizontally moves in a reciprocating manner along the axis direction of the screw rod 9, and then the double-sided friction disc 8 is driven by the double shifting fork rod 12 fixed on the moving plate 11 to synchronously move in the same direction, so that the reciprocating switching between the first friction disc 6 and the second friction disc 7 is realized.

As a further improvement of the invention, the rotating assembly comprises an extension plate 13 connected with the moving plate 11, two bevel gears 14 symmetrically distributed on the double-sided friction disc 8, an incomplete bevel gear 15 meshed with the two bevel gears 14, and a servo motor 16 arranged on the extension plate 13 and connected with the incomplete bevel gear 15.

The incomplete bevel gears 15 are alternately meshed with the two bevel gears 14, so that the double-sided friction disc 8 intermittently rotates clockwise and anticlockwise, and when the double-sided friction disc is in fit friction with the first friction disc 6, the double-sided cutting-off cutters 4 rotate in the same direction; when the two single-line copper bar cutting conveying plates 20 intermittently and alternately convey the copper bar belts through the transmission assembly when the two single-line copper bar cutting conveying plates are attached to and rubbed with the second friction disc 7, so that the two-sided cutting knife 4 is matched to complete the cutting operation.

As a further improvement of the present invention, the transmission assembly includes two unidirectional transmission ratchet wheels 17 coaxially disposed on the rotating shaft 5 in sequence, and two transmission gears 18 correspondingly engaged with the two unidirectional transmission ratchet wheels 17, and the two transmission gears 18 are correspondingly connected with the driving shafts in the two single-line copper bar cutting conveying plates 20 through a belt assembly 19.

The right one-way transmission ratchet wheel 17 of the two one-way transmission ratchet wheels 17 corresponds to the single-line copper bar cutting and conveying plate 20 at the rear side, and the left one-way transmission ratchet wheel 17 corresponds to the single-line copper bar cutting and conveying plate 20 at the front side. The drive ratchets on the two one-way drive ratchets 17 are opposite in direction. As shown in fig. 1, 2 and 3, the transmission ratchet teeth on the right one-way transmission ratchet wheel 17 are distributed in a counterclockwise circumferential manner, and the transmission ratchet teeth on the left one-way transmission ratchet wheel 17 are distributed in a clockwise circumferential manner.

When the rotating shaft 5 rotates anticlockwise, the right one-way transmission ratchet wheel 17 and the corresponding transmission gear 18 are meshed with each other to rotate, and the single-line copper bar cutting and conveying plate 20 on the rear side conveys a copper bar belt through the belt assembly 19;

when the rotating shaft 5 rotates clockwise, the one-way transmission ratchet wheel 17 on the left side and the corresponding transmission gear 18 rotate in an engaged manner, and the single-line copper bar cutting and conveying plate 20 on the front side conveys the copper bar belt through the belt assembly 19.

In order to avoid interference when the two unidirectional transmission ratchet wheels 17 rotate respectively, the transmission ratchet teeth on the two unidirectional transmission ratchet wheels 17 are hinged and connected with reset springs correspondingly.

When the right one-way transmission ratchet wheel 17 is meshed and rotated, the transmission ratchet on the left one-way transmission ratchet wheel 17 is hinged inwards and retracted and is not meshed and rotated with the corresponding transmission gear 18, and after the right one-way transmission ratchet wheel 17 is stopped, the transmission ratchet on the left one-way transmission ratchet wheel 17 is restored under the action of the return spring.

Similarly, when the left one-way transmission ratchet wheel 17 is rotated in mesh, the same applies to the right one-way transmission ratchet wheel 17.

Through the arrangement of the switching assembly and the rotating assembly, the four-wheel-drive cutting machine can sequentially provide power for four different operation processes, so that the structure of the four-wheel-drive cutting machine is more compact and more effective, and the cutting efficiency of the four-wheel-drive cutting machine is greatly improved.

During processing, copper bar belts on the front and rear single-line copper bar cutting conveying plates 20 penetrate through the front and rear sides of the supporting table 1 along the left-right direction, the positive and negative motors 10 are started to rotate positively, the double-sided friction discs 8 move leftwards to be attached and rubbed with the first friction discs 6, then the servo motors 16 are started to drive the incomplete bevel gears 15 to be engaged with the two bevel gears 14 alternately, and the double-sided cutting knives 4 cut off the copper bar belts on the front and rear single-line copper bar cutting conveying plates 20 by rotating the rotating shafts on the shaft brackets 2 and the oscillating rods 3; when the incomplete bevel gear 15 is meshed with the left bevel gear 14, the double-sided cutting knife 4 correspondingly finishes the operation of cutting off the copper bar belt on the rear single-line copper bar cutting conveying plate 20; when the incomplete bevel gear 15 is meshed with the right bevel gear 14, the double-sided cutting knife 4 correspondingly finishes the operation of cutting off the copper bar belt on the front single-line copper bar cutting conveying plate 20.

Then, the servo motor 16 stops working, the positive and negative motors 10 rotate reversely, the double-sided friction disc 8 is separated from the first friction disc 6 and is attached to and rubbed with the second friction disc 7, then the servo motor 16 is started again, the incomplete bevel gear 15 is enabled to be meshed with the two bevel gears 14 again in an alternating mode, the two single-line copper bar cutting and conveying plates 20 are enabled to convey copper bar belts in an alternating mode through the one-way transmission ratchet 17 on the right side of the rotating shaft 5 and the corresponding transmission gear 18 when the incomplete bevel gear 15 is meshed with the bevel gear 14 on the left side, and the single-line copper bar cutting and conveying plates 20 on the rear side are enabled to convey the copper bar belts at a certain distance through the belt assemblies 19; when the incomplete bevel gear 15 is meshed with the right bevel gear 14, the one-way transmission ratchet wheel 17 on the left side of the rotating shaft 5 is meshed with the corresponding transmission gear 18 to rotate, and the single-line copper bar cutting and conveying plate 20 on the front side conveys a copper bar belt for a certain distance through the belt assembly 19.

And then, repeating the processes in sequence until the cutting process of the copper busbar tape is finished.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (3)

1. Shutdown mechanism of two-line alternating vehicle battery flexible coupling copper bar processing usefulness, including two single-line copper bar cutting conveying board (20) of symmetric distribution, its characterized in that: a supporting table (1) is arranged below the two single-line copper bar cutting conveying plates (20), and a cutting assembly, an actuating assembly and a transmission assembly are sequentially arranged on the supporting table (1) and in the middle between the two single-line copper bar cutting conveying plates (20);

the driving assembly is connected with the cutting assembly and correspondingly connected with the two single-line copper bar cutting and conveying plates (20) through the transmission assembly, the cutting assembly is driven by the driving assembly to alternately cut off the copper bar belts on the two single-line copper bar cutting and conveying plates (20) in a reciprocating swing mode, and the two single-line copper bar cutting and conveying plates (20) are driven by the driving assembly to alternately convey the copper bar belts to match the reciprocating alternate cutting operation of the cutting assembly;

the cutting-off assembly comprises a rotating shaft bracket (2) which is positioned in the middle of the two single-line copper bar cutting-off conveying plates (20) and distributed in the same direction as the single-line copper bar cutting-off conveying plates (20), a swing rod (3) arranged on the rotating shaft bracket (2), and a double-sided cutting-off knife (4) arranged at the end part of the swing rod (3), wherein the rotating shaft bracket (2) is connected with the driving assembly;

the driving assembly comprises a rotating shaft (5) which penetrates through the rotating shaft frame (2) and is in bearing connection with the rotating shaft frame (2), a first friction disc (6) which is coaxially connected with the swing rod (3), a second friction disc (7) arranged on the rotating shaft (5), and a double-faced friction disc (8) which is arranged on the rotating shaft (5) between the first friction disc (6) and the second friction disc (7) in a sliding mode, a switching assembly which drives the double-faced friction disc (8) to move so as to be randomly attached to and rubbed with the first friction disc (6) and the second friction disc (7) is arranged on a side supporting table (1) of the double-faced friction disc (8), a rotating assembly which drives the double-faced friction disc (8) to rotate in a reciprocating mode clockwise and anticlockwise is arranged on the switching assembly, and the transmission assembly is connected with the rotating shaft (5);

the switching assembly comprises a screw rod (9) arranged on the support table (1), a positive and negative motor (10) connected with the screw rod (9) and a moving plate (11) arranged on the screw rod (9), wherein a double shifting fork rod (12) matched with the double-sided friction disc (8) is fixedly arranged on the moving plate (11), and the rotating assembly is arranged on the moving plate (11);

the rotating assembly comprises an extension plate (13) connected with the moving plate (11), two bevel gears (14) symmetrically distributed on the double-sided friction disc (8), incomplete bevel gears (15) meshed with the two bevel gears (14), and a servo motor (16) arranged on the extension plate (13) and connected with the incomplete bevel gears (15);

the transmission assembly comprises two one-way transmission ratchet wheels (17) which are coaxially arranged on the rotating shaft (5) in sequence and two transmission gears (18) which are correspondingly meshed with the two one-way transmission ratchet wheels (17), and the two transmission gears (18) are correspondingly connected with driving shafts in two single-line copper bar cutting and conveying plates (20) through belt assemblies (19).

2. The cutting mechanism for processing the double-wire alternating type automobile battery flexible connection copper bar as claimed in claim 1, wherein: the drive ratchet directions on the two one-way drive ratchets (17) are opposite.

3. The cutting mechanism for processing the double-wire alternating type automobile battery flexible connection copper bar as claimed in claim 1, wherein: the transmission ratchets on the two unidirectional transmission ratchet wheels (17) are hinged and are correspondingly connected with return springs.

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