CN112455944A - Conveying mechanism of lithium battery - Google Patents

Abstract

The invention relates to a conveying mechanism of a lithium battery, which comprises equipment supporting frames, a main conveying belt and a first rotating rod, wherein the main conveying belt is arranged between the equipment supporting frames, the main conveying belt is arranged on the first rotating rod in a transmission manner, the first rotating rod is arranged on the equipment supporting frames in a rotating manner, and an inverted U-shaped supporting frame is fixedly arranged on the upper end surface of each equipment supporting frame; according to the invention, the feeding hopper is movably arranged in the moving through hole, and the feeding hopper is arranged in the moving through hole through the first supporting spring, so that the feeding hopper can vibrate when the lithium battery enters the feeding hopper, the vibration of the feeding hopper can increase the movement of the lithium battery in the feeding hopper, the congestion of the lithium battery is avoided, and the blockage dredging effect is fundamentally realized.

Description

Conveying mechanism of lithium battery

Technical Field

The invention relates to the technical field of lithium battery production equipment, in particular to a conveying mechanism of a lithium battery.

Background

The lithium cell is in the production preparation in-process, need put in the conveyer belt with the lithium cell to carry out quality control in the data send process of conveyer belt, at the in-process that the lithium cell was put in, in order to ensure can accurately put in the conveyer belt with the lithium cell, put in the funnel through addding among the prior art, thereby make the lithium cell at the in-process of putting in, can accurately put in on the conveyer belt. But because the lithium cell drops into in throwing the funnel once a large amount, consequently the condition that the throwing funnel is stopped up by the lithium cell often can appear, when throwing the funnel and being stopped up, need the manual work to lead to stifled, can not reach in time like this and lead to stifled effect, have the problem of consuming time and wasting force again. In order to solve the problems, the invention provides a conveying mechanism of a lithium battery.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects of the prior art, adapt to the practical needs and provide a conveying mechanism of a lithium battery to solve the technical problems.

(2) Technical scheme

In order to realize the purpose of the invention, the technical scheme adopted by the invention is as follows:

the utility model provides a transport mechanism of lithium cell, includes equipment support frame, main conveyer belt and dwang No. one, the main conveyer belt sets up between the equipment support frame, the main conveyer belt transmission sets up on the dwang No. one, and a dwang rotates and sets up on the equipment support frame, the fixed type of falling U support frame that is provided with on the up end of equipment support frame, and has seted up the shift hole on the diaphragm of the type of falling U support frame, the shift hole internalization is provided with the feeder hopper, and symmetrical connection has two supporting spring No. one on the lateral wall of feeder hopper, supporting spring's other end fixed connection is on the lateral wall of shift hole, still be provided with pushing mechanism on the feeder hopper.

Further, pushing mechanism includes the belt pulley, follows conveyer belt and No. two belt pulleys, the fixed cover of belt pulley is established outside the dwang No. one, No. two fixed covers of belt pulley are established outside No. two dwangs, a belt pulley and No. two belt pulleys are connected through carrying out the transmission from the conveyer belt, No. two dwangs are external to rotate and are provided with two supporting bench posts, and the fixed setting of supporting bench post is on the up end of type of falling U support frame, No. two dwang external fixation covers are equipped with solid fixed ring, and fixed being provided with a plurality of conflict tooth on solid fixed ring's the circumference, one of them No. one conflict tooth is provided with No. two conflict teeth, and No. two conflict teeth are fixed to be set up on the lateral wall of feeder hopper.

Furthermore, the number of a plurality of conflict tooth is provided with three, and three conflict tooth is in solid fixed ring equidistance setting.

Furthermore, a blocking mechanism is arranged on the feeding hopper, the blocking mechanism comprises three abutting teeth and a vertical moving rod, the three abutting teeth are abutted against one of the first abutting teeth, the three abutting teeth are fixedly arranged on the side wall of the vertical moving rod, the vertical moving rod is movably inserted into the first sleeve ring, the outer side wall of the first sleeve ring is fixedly connected with a fixed bearing plate, the free end of the fixed bearing plate is fixedly connected onto the side wall of the inverted U-shaped supporting frame, the lower end of the first sleeve ring is fixedly connected with a third supporting spring, the lower end of the third supporting spring is fixedly connected onto the upper end face of a bearing block, the bearing block is fixedly arranged on the side wall of the vertical moving rod, the upper end of the vertical moving rod is fixedly connected with a second connecting rod, and the free end of the second connecting rod is fixedly connected with a second sleeve ring, the movable insertion connection of the second sleeve is provided with a movable column, the movable column is wound and connected with a fourth supporting spring, and two ends of the fourth supporting spring are fixedly connected to the side wall of the movable column and the upper end face of the second sleeve.

Further, the lower extreme fixedly connected with axis of rotation of removal post, and the lower extreme of axis of rotation rotates and is provided with No. three threaded rods, No. three threaded rod external screw thread covers are equipped with the internal thread ring, and No. three connecting rods of fixedly connected with on the lateral wall of internal thread ring, No. three the free end fixedly connected with of connecting rod No. three covers establishes the ring, and No. three covers establish the ring movable sleeve and establish outside vertical carriage release lever, vertical carriage release lever outer winding is connected with No. five supporting spring, and No. five supporting spring's both ends respectively fixed connection on vertical carriage release lever's lateral wall and No. three cover establish the up end of ring on.

Further, No. three threaded rods adopt rubber material.

Furthermore, a collision mechanism is arranged on the blocking mechanism.

Furthermore, the interference mechanism comprises a first threaded rod and an internal threaded pipe, the first threaded rod is fixedly arranged on the upper end surface of the third connecting rod, the first threaded rod is inserted in the internal threaded pipe in a threaded manner, a rotating shaft is rotatably sleeved outside the internal thread tube, the rotating shaft is fixedly inserted on the second connecting rod, a second threaded rod is also inserted in the internal thread tube in a threaded manner, and the side wall of the second threaded rod is fixedly connected with one end of a first connecting rod, the other end of the first connecting rod is fixedly connected on the side wall of the push rod, and the pushing rod is movably inserted in the movable through hole which is arranged on the movable column and the third threaded rod, the outer winding of catch bar is connected with supporting spring No. two, and the both ends of supporting spring No. two are fixed connection respectively on the lateral wall of catch bar and the lateral wall of removal post, the screw thread direction of threaded rod No. one and threaded rod No. two sets up oppositely.

Further, the push rod is made of rubber.

Further, a use method of the transmission mechanism of the lithium battery is provided, and the use method comprises the following steps:

when the main conveyor belt moves, the first rotating rod can be driven to rotate, the first rotating rod can rotate through the first belt pulley, the second rotating rod can be driven to rotate by the auxiliary conveyor belt and the second belt pulley, the second rotating rod can drive the fixing ring to rotate, the fixing ring can drive the first collision tooth to rotate, the first collision tooth can collide with the second collision tooth due to rotation, the second collision tooth can drive the feeding hopper to move in the moving through hole under the action of the collision force, and the feeding hopper can vibrate under the action of the first supporting spring, so that when a lithium battery is poured into the feeding hopper, the lithium battery can be prevented from being blocked in the feeding hopper due to vibration of the feeding hopper;

when the first collision tooth moves, the third collision tooth can be collided, under the action of the collision force, the vertical moving rod is driven to move upwards through the third collision tooth, the vertical moving rod moves upwards, the combination of the second connecting rod and the moving column can move upwards, when the first collision tooth loses the collision of the third collision tooth, the combination of the vertical moving rod, the second connecting rod and the moving column moves downwards under the stretching action of the third supporting spring and the bearing block, and in the downward moving process of the moving column, the collision of the lithium battery can be realized, so that the lithium battery is prevented from being blocked in the feeding hopper, and meanwhile, the falling of the lithium battery from the feeding hopper can be accelerated through the collision of the moving column;

the third connecting rod is abutted to the upper end face of the feeding hopper along with the downward movement of the moving column, the vertical moving rod continues to move downward, the moving column can drive the third threaded rod to move downward, the third threaded rod can move relative to the inner threaded ring, and the inner threaded ring is in threaded connection with the third threaded rod, so that the third threaded rod can rotate downward, the third threaded rod rotates downward, the lithium battery in the feeding hopper can be further pushed to move, the blockage of the lithium battery is avoided, and the falling process of the lithium battery from the feeding hopper can be accelerated;

when No. three connecting rods take No. three covers to establish the relative vertical carriage release lever of ring and upwards take place the motion, can push away the intraductal motion of threaded rod inside, because internal thread pipe and threaded rod threaded connection, consequently, the motion of a threaded rod can make the internal thread pipe take place to rotate, and simultaneously, because internal thread pipe and No. two threaded rod threaded connection, consequently, the rotation of internal thread pipe can make No. two threaded rod downstream, the motion of No. two threaded rods can take the catch bar downstream through a connecting rod area, the downstream of catch bar, can be to No. three threaded rod external motion, thereby along with the motion of catch bar, can further play the effect of leading to stifled.

(3) Has the advantages that:

A. according to the invention, the feeding hopper is movably arranged in the moving through hole, and the feeding hopper is arranged in the moving through hole through the first supporting spring, so that the feeding hopper can vibrate when the lithium battery enters the feeding hopper, the vibration of the feeding hopper can increase the movement of the lithium battery in the feeding hopper, the congestion of the lithium battery is avoided, and the blockage dredging effect is fundamentally realized.

B. The lithium battery.

C. In order to achieve a better blockage removing effect, the blockage removing mechanism is further arranged, the blockage removing mechanism can move per se to remove blockage from the lithium battery from the inside of the feeding hopper, so that the blockage removing mechanism can effectively remove blockage from the feeding hopper under the dual effects of the blockage removing mechanism and the pushing mechanism, the movement of the blockage removing mechanism can be completed along with the movement of the pushing mechanism, the synergistic effect of the blockage removing mechanism and the pushing mechanism can be achieved, meanwhile, the power source can be additionally arranged, and the effect of reducing the production cost is achieved.

D. In order to further realize the blockage removing process, the collision mechanism is additionally arranged in the blockage removing mechanism, and the collision mechanism is arranged, so that the blockage removing effect can be completed by the collision mechanism in a linkage control mode in the blockage removing process of the blockage removing mechanism, the blockage removing effect can be achieved efficiently, the falling of the lithium battery from the feeding hopper can be accelerated, and the production efficiency is accelerated.

Drawings

FIG. 1 is a schematic structural diagram of a conveying mechanism of a lithium battery according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of structure A in FIG. 1 of a conveyor for lithium battery according to the present invention;

FIG. 3 is a schematic diagram of a conveyor structure of a lithium battery according to the present invention, shown in FIG. 2, which is a partially enlarged structure;

fig. 4 is an enlarged schematic view of the structure of the blocking mechanism in the conveying mechanism diagram 1 of the lithium battery of the present invention;

fig. 5 is a schematic diagram of a conveyer structure of a lithium battery according to the present invention, which is a partially enlarged structure in fig. 4.

The reference numbers are as follows:

the device comprises an equipment supporting frame 1, a main conveyor belt 2, an inverted U-shaped supporting frame 3, a first rotating rod 4, a feeding hopper 5, a moving through hole 6, a first supporting spring 7, a collision mechanism 8, a first threaded rod 81, an internal threaded pipe 82, a rotating shaft 83, a second threaded rod 84, a first connecting rod 85, a push rod 86, a second supporting spring 87, a movable through hole 88, a pushing mechanism 9, a first belt pulley 91, a secondary conveyor belt 92, a second belt pulley 93, a second rotating rod 94, a supporting table column 95, a first collision tooth 96, a second collision tooth 97, a fixing ring 98, a blocking mechanism 10, a third collision tooth 101, a vertical moving rod 102, a first sleeved ring 103, a fixing bearing plate 104, a third supporting spring 105, a bearing block 106, a second connecting rod 107, a second threaded rod sleeved ring 108, a moving column 109, a fourth supporting spring 1010, a rotating shaft 1011, a third threaded ring 1012, an internal threaded ring 1013, a third connecting rod 1014, a fourth connecting rod 1014, A third sleeve ring 1015 and a fifth support spring 1016.

Detailed Description

The invention will be further illustrated with reference to the following figures 1 to 5 and examples:

a conveying mechanism of a lithium battery comprises equipment supporting frames 1, a main conveying belt 2 and a first rotating rod 4, wherein the main conveying belt 2 is arranged between the equipment supporting frames 1, the main conveying belt 2 is arranged on the first rotating rod 4 in a transmission manner, the first rotating rod 4 is rotatably arranged on the equipment supporting frames 1, an inverted U-shaped supporting frame 3 is fixedly arranged on the upper end surface of each equipment supporting frame 1, a moving through hole 6 is formed in a transverse plate of the inverted U-shaped supporting frame 3, a feeding hopper 5 is movably arranged in the moving through hole 6, two first supporting springs 7 are symmetrically connected to the outer side wall of the feeding hopper 5, the other end of each first supporting spring 7 is fixedly connected to the side wall of the moving through hole 6, and a pushing mechanism 9 is also arranged on the feeding hopper 5, like this when the lithium cell enters into feeder hopper 5 in, can make feeder hopper 5 take place vibrations, the vibrations of feeder hopper 5 can make the lithium cell motion in the feeder hopper 5 increase to avoid blocking up that the lithium cell takes place, and then fundamentally realizes leading to stifled effect, like this in the actual working process, both can prevent that the lithium cell from blockking up in feeder hopper 5, simultaneously, can use manpower sparingly cost again, thereby have better practical value.

In this embodiment, the pushing mechanism 9 includes a first belt pulley 91, a secondary belt pulley 92 and a second belt pulley 93, the first belt pulley 91 is fixedly sleeved outside the first rotating rod 4, the second belt pulley 93 is fixedly sleeved outside the second rotating rod 94, the first belt pulley 91 and the second belt pulley 93 are in transmission connection through the secondary belt pulley 92, two supporting posts 95 are rotatably arranged outside the second rotating rod 94, the supporting posts 95 are fixedly arranged on the upper end surface of the inverted U-shaped supporting frame 3, the second rotating rod 94 is fixedly sleeved with a fixing ring 98, a plurality of first abutting teeth 96 are fixedly arranged on the circumference of the fixing ring 98, one of the first abutting teeth 96 is abutted with a second abutting tooth 97, and the second abutting tooth 97 is fixedly arranged on the outer side wall of the feeding hopper 5, the pushing mechanism 9 is further added in the present invention, the pushing mechanism 9 is arranged for increasing the vibration frequency of the feeding hopper 5, thereby can further prevent blocking up at feeder hopper 5 of lithium cell, and pushing mechanism 9's structural design is reasonable, can realize the linkage with the motion of main conveyor belt 2, thereby at the in-process of the motion of main conveyor belt 2, can take pushing mechanism 9 to realize the promotion to feeder hopper 5, thereby accelerate feeder hopper 5's frequency of vibrations, simultaneously, pushing mechanism 9's motion need not to add power unit, thereby can effectively reduction in production cost.

In this embodiment, a plurality of number of conflict tooth 96 is provided with threely, and three conflict tooth 96 sets up about solid fixed ring 98 equidistance, and conflict tooth 96 through the increase of quantity, can be more frequent to the number of times of conflict of No. two conflict teeth 97 to make feeder hopper 5 shake more frequently, and then play better logical stifled effect.

In this embodiment, the feeding hopper 5 is provided with a blocking mechanism 10, the blocking mechanism 10 includes a third abutting tooth 101 and a vertical moving rod 102, the third abutting tooth 101 abuts against one of the first abutting tooth 96, the third abutting tooth 101 is fixedly disposed on a sidewall of the vertical moving rod 102, the vertical moving rod 102 is movably inserted into the first sleeve-disposed ring 103, a fixed supporting plate 104 is fixedly connected to an outer sidewall of the first sleeve-disposed ring 103, a free end of the fixed supporting plate 104 is fixedly connected to a sidewall of the inverted U-shaped supporting frame 3, a third supporting spring 105 is fixedly connected to a lower end of the first sleeve-disposed ring 103, a lower end of the third supporting spring 105 is fixedly connected to an upper end surface of a supporting block 106, the supporting block 106 is fixedly disposed on a sidewall of the vertical moving rod 102, an upper end of the vertical moving rod 102 is fixedly connected to a second connecting rod 107, and a free end of the second connecting rod 107 is fixedly connected to a second sleeve-disposed ring 108, the second set ring 108 is movably inserted with a moving column 109, the moving column 109 is externally wound and connected with a fourth supporting spring 1010, two ends of the fourth supporting spring 1010 are respectively fixedly connected to the side wall of the moving column 109 and the upper end surface of the second set ring 108, the lower end of the moving column 109 is fixedly connected with a rotating shaft 1011, the lower end of the rotating shaft 1011 is rotatably provided with a third threaded rod 1012, the third threaded rod 1012 is externally threaded and sleeved with an internal threaded ring 1013, the outer side wall of the internal threaded ring 1013 is fixedly connected with a third connecting rod 1014, the free end of the third connecting rod 1014 is fixedly connected with a third set ring 1015, the third set ring 1015 is movably sleeved outside the vertical moving rod 102, the vertical moving rod 102 is externally wound and connected with a fifth supporting spring 1016, two ends of the fifth supporting spring 1016 are respectively fixedly connected to the side wall of the vertical moving rod 102 and the upper end surface of the third set ring 1015, so as to achieve a better blocking effect, the invention also provides a blocking mechanism 10, the blocking mechanism 10 can move to block the lithium battery from the inside of the feed hopper 5, so that the blocking mechanism 10 and the pushing mechanism 9 can effectively block the feed hopper 5 under the dual action of the blocking mechanism 10 and the pushing mechanism 9, and the blocking mechanism 10 can move along with the pushing mechanism 9, so that the synergistic effect of the blocking mechanism 10 and the pushing mechanism 9 can be realized, and meanwhile, the power source can be added to reduce the production cost.

In this embodiment, No. three threaded rod 1012 adopts the rubber material, and the effect to lithium battery protection can be played in the setting of rubber material, when No. three threaded rod 1012 strikes the lithium cell, can play the effect to lithium battery protection like this.

In this embodiment, the blocking mechanism 10 is provided with the abutting mechanism 8, the abutting mechanism 8 includes a first threaded rod 81 and an internal threaded tube 82, the first threaded rod 81 is fixedly disposed on the upper end surface of the third connecting rod 1014, the first threaded rod 81 is screwed into the internal threaded tube 82, and the external of the internal threaded tube 82 is rotatably sleeved with a rotating shaft 83, the rotating shaft 83 is fixedly screwed onto the second connecting rod 107, the internal of the internal threaded tube 82 is further screwed with the second threaded rod 84, the side wall of the second threaded rod 84 is fixedly connected with one end of the first connecting rod 85, the other end of the first connecting rod 85 is fixedly connected to the side wall of the pushing rod 86, the pushing rod 86 is movably screwed into a movable through hole 88, the movable through hole 88 is opened on the movable column 109 and the third threaded rod 1012, the second supporting spring 87 is wound and connected to the outside of the pushing rod 86, the two ends of the second supporting spring 87 are fixedly connected to the side wall of the pushing rod 86, the screw thread directions of the first threaded rod 81 and the second threaded rod 84 are opposite, in order to further realize the blockage passing process, the conflict mechanism 8 is additionally arranged in the blockage passing mechanism 10, the conflict mechanism 8 is arranged, in the blockage passing process completed by the blockage passing mechanism 10, the conflict mechanism 8 can be controlled in a linkage mode to complete the blockage passing effect, and therefore the blockage passing effect can be achieved efficiently through the arrangement of the conflict mechanism 8, the effect of accelerating the lithium battery to fall from the feeding hopper 5 can be achieved, and the effect of accelerating the production efficiency is achieved.

In this embodiment, catch bar 86 sets up to the rubber material, and the effect to lithium battery protection can be played in the setting of rubber material, when catch bar 86 strikes the lithium cell, can play the effect to lithium battery protection like this.

The working principle of the invention comprises the following processes:

when the main conveying belt 2 moves, the first rotating rod 4 can be driven to rotate, the first rotating rod 4 can rotate through the first belt pulley 91 and the second rotating rod 94 driven by the conveying belt 92 and the second belt pulley 93, the second rotating rod 94 can drive the fixing ring 98 to rotate, the fixing ring 98 can drive the first interference tooth 96 to rotate, the first interference tooth 96 can be driven to rotate to realize interference on the second interference tooth 97, the second interference tooth 97 can drive the feeding hopper 5 to move in the movable through hole 6 under the action of the interference force, and the feeding hopper 5 can vibrate under the action of the first supporting spring 7, so that when a lithium battery is poured into the feeding hopper 5, the lithium battery can be prevented from being blocked in the feeding hopper 5 due to the vibration of the feeding hopper 5;

when the first resisting tooth 96 moves, the third resisting tooth 101 can be collided, under the action of the collision force, the vertical moving rod 102 is driven to move upwards through the third resisting tooth 101, the combination of the second connecting rod 107 and the moving column 109 can be driven to move upwards through the upward movement of the vertical moving rod 102, when the first resisting tooth 96 loses the collision to the third resisting tooth 101, the combination of the vertical moving rod 102, the second connecting rod 107 and the moving column 109 moves downwards under the stretching action of the third supporting spring 105 and the bearing block 106, and in the downward movement process of the moving column 109, the collision to the lithium battery can be realized, so that the lithium battery is prevented from being blocked in the feeding hopper 5, and meanwhile, the falling of the lithium battery from the feeding hopper 5 can be accelerated through the collision of the moving column 109;

with the downward movement of the moving column 109, the third connecting rod 1014 is abutted to the upper end face of the feeding hopper 5, and with the continuous downward movement of the vertical moving rod 102, the moving column 109 can drive the third threaded rod 1012 to move downward, so that the third threaded rod 1012 can move relative to the internal threaded ring 1013, and as the internal threaded ring 1013 is in threaded connection with the third threaded rod 1012, the third threaded rod 1012 can rotate to move downward, and the third threaded rod 1012 can rotate to move downward, so that the movement of the lithium battery in the feeding hopper 5 can be further pushed, the blockage of the lithium battery can be avoided, and the falling process of the lithium battery from the feeding hopper 5 can be accelerated;

when ring 1015 relative vertical carriage release lever 102 upward takes place the motion at No. three connecting rod 1014 area No. three covers, can push away the internal motion of threaded rod 81 to internal thread pipe 82, because internal thread pipe 82 and threaded rod 81 threaded connection, consequently, the motion of threaded rod 81 can make internal thread pipe 82 take place to rotate, and simultaneously, because internal thread pipe 82 and No. two threaded rod 84 threaded connection, consequently, the rotation of internal thread pipe 82 can make No. two threaded rod 84 downstream, the motion of No. two threaded rod 84 can be through a connecting rod 85 area catch bar 86 downstream, catch bar 86's downstream, can be to No. three threaded rod 1012 external motion, thereby along with catch bar 86's motion, can further play the effect of leading to stifled.

The invention has the beneficial effects that:

according to the invention, the feeding hopper 5 is movably arranged in the movable through hole 6, and the feeding hopper 5 is arranged in the movable through hole 6 through the first supporting spring 7, so that when the lithium battery enters the feeding hopper 5, the feeding hopper 5 can vibrate, the vibration of the feeding hopper 5 can increase the movement of the lithium battery in the feeding hopper 5, the congestion of the lithium battery is avoided, and the blockage dredging effect is realized fundamentally, so that the lithium battery can be prevented from being blocked in the feeding hopper 5 in the actual working process, meanwhile, the labor cost can be saved, and the practical value is better.

The lithium battery lithium.

In order to achieve a better blockage removing effect, the blockage removing mechanism 10 is further arranged, the blockage removing mechanism 10 can move per se to remove blockage of the lithium battery from the inside of the feed hopper 5, so that the blockage removing mechanism 10 and the pushing mechanism 9 can effectively remove blockage of the feed hopper 5 under the dual effects of the blockage removing mechanism 10 and the pushing mechanism 9, the movement of the blockage removing mechanism 10 can be completed along with the movement of the pushing mechanism 9, the synergistic effect of the blockage removing mechanism 10 and the pushing mechanism 9 can be achieved, meanwhile, the power source can be additionally arranged, and the effect of reducing the production cost is achieved

In order to further realize the blockage removing process, the collision mechanism 8 is additionally arranged in the blockage removing mechanism 10, the collision mechanism 8 is arranged, and the blockage removing effect can be achieved by the collision mechanism 8 in a linkage control mode in the blockage removing process of the blockage removing mechanism 10, so that the blockage removing effect can be achieved efficiently, the falling of the lithium battery from the feeding hopper 5 can be accelerated through the arrangement of the collision mechanism 8, and the production efficiency is accelerated.

The embodiments of the present invention are disclosed as the preferred embodiments, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention and make various extensions and changes without departing from the spirit of the present invention.

Claims (9)

1. A transmission mechanism of a lithium battery comprises an equipment support frame (1), a main transmission belt (2) and a first rotating rod (4), the main conveyor belt (2) is arranged between the equipment support frames (1), the main conveyor belt (2) is arranged on the first rotating rod (4) in a transmission way, the first rotating rod (4) is arranged on the equipment support frames (1) in a rotating way, it is characterized in that an inverted U-shaped support frame (3) is fixedly arranged on the upper end surface of the equipment support frame (1), a transverse plate of the inverted U-shaped support frame (3) is provided with a movable through hole (6), a feed hopper (5) is movably arranged in the movable through hole (6), and the outer side wall of the feed hopper (5) is symmetrically connected with two first supporting springs (7), the other end of the first supporting spring (7) is fixedly connected to the side wall of the movable through hole (6), and a pushing mechanism (9) is further arranged on the feeding hopper (5).

2. The lithium battery transport mechanism of claim 1, wherein: the pushing mechanism (9) comprises a first belt pulley (91), a secondary conveying belt (92) and a second belt pulley (93), the first belt pulley (91) is fixedly sleeved outside the first rotating rod (4), the second belt pulley (93) is fixedly sleeved outside the second rotating rod (94), the first belt pulley (91) and the second belt pulley (93) are in transmission connection through a transmission belt (92), two supporting table columns (95) are rotatably arranged outside the second rotating rod (94), and the supporting platform column (95) is fixedly arranged on the upper end surface of the inverted U-shaped supporting frame (3), a fixing ring (98) is fixedly sleeved outside the second rotating rod (94), and a plurality of first collision teeth (96) are fixedly arranged on the circumference of the fixing ring (98), one of the first number of abutting teeth (96) is provided with a second number of abutting teeth (97) in an abutting mode, and the second interference tooth (97) is fixedly arranged on the outer side wall of the feed hopper (5).

3. The lithium battery transport mechanism of claim 2, wherein: the number of a plurality of conflict tooth (96) is provided with threely, and three conflict tooth (96) are with regard to solid fixed ring (98) equidistance setting.

4. The lithium battery transport mechanism of claim 1, wherein: the feeding hopper (5) is provided with a blocking mechanism (10), the blocking mechanism (10) comprises a third collision tooth (101) and a vertical moving rod (102), the third collision tooth (101) is in collision with one of the first collision teeth (96), the third collision tooth (101) is fixedly arranged on the side wall of the vertical moving rod (102), the vertical moving rod (102) is movably inserted in the first sleeve ring (103), the outer side wall of the first sleeve ring (103) is fixedly connected with a fixed bearing plate (104), the free end of the fixed bearing plate (104) is fixedly connected on the side wall of the inverted U-shaped supporting frame (3), the lower end of the first sleeve ring (103) is fixedly connected with a third supporting spring (105), the lower end of the third supporting spring (105) is fixedly connected on the upper end face of a bearing block (106), and the bearing block (106) is fixedly arranged on the side wall of the vertical moving rod (102), the upper end fixedly connected with connecting rod (107) No. two of vertical carriage release lever (102), and the free end fixedly connected with of connecting rod (107) No. two overlaps and establish ring (108), No. two overlap establish ring (108) internalization peg graft and have removal post (109), and remove post (109) outer winding and be connected with supporting spring (1010) No. four, the both ends of supporting spring (1010) are fixed connection respectively on the lateral wall of removing post (109) and on the up end of establishing ring (108) with No. two overlaps.

5. The lithium battery transport mechanism of claim 4, wherein: the lower extreme fixedly connected with axis of rotation (1011) of removal post (109), and the lower extreme of axis of rotation (1011) rotates and is provided with No. three threaded rod (1012), No. three threaded rod (1012) external screw thread cover is equipped with internal thread ring (1013), and connecting rod (1014) No. three of fixedly connected with on the lateral wall of internal thread ring (1013), ring (1015) are established to the free end fixedly connected with of No. three connecting rod (1014) No. three covers, and No. three covers establish ring (1015) movable sleeve and establish outside vertical carriage release lever (102), vertical carriage release lever (102) outer winding is connected with No. five supporting spring (1016), and the both ends difference fixed connection of No. five supporting spring (1016) establish on the lateral wall of vertical carriage release lever (102) with No. three covers on the up end of establishing ring (1015).

6. The lithium battery transport mechanism of claim 5, wherein: the third threaded rod (1012) is made of rubber.

7. The lithium battery transport mechanism of claim 5, wherein: and a collision mechanism (8) is arranged on the blockage passing mechanism (10).

8. The lithium battery transport mechanism of claim 7, wherein: the collision mechanism (8) comprises a first threaded rod (81) and an internal threaded pipe (82), the first threaded rod (81) is fixedly arranged on the upper end surface of a third connecting rod (1014), the first threaded rod (81) is in threaded connection with the internal threaded pipe (82), a rotating shaft (83) is sleeved outside the internal threaded pipe (82) in a rotating mode, the rotating shaft (83) is fixedly connected with a second connecting rod (107) in a connecting mode, a second threaded rod (84) is further in threaded connection with the internal threaded pipe (82), the side wall of the second threaded rod (84) is fixedly connected with one end of a first connecting rod (85), the other end of the first connecting rod (85) is fixedly connected to the side wall of a push rod (86), the push rod (86) is movably connected with a movable through hole (88), the movable through hole (88) is formed in a movable column (109) and the third threaded rod (1012), the outer winding of catch bar (86) is connected with No. two supporting spring (87), and the both ends of No. two supporting spring (87) are fixed connection respectively on the lateral wall of catch bar (86) and on the lateral wall of removal post (109), the screw thread direction setting of threaded rod (81) and No. two threaded rod (84) is opposite.

9. The lithium battery transport mechanism of claim 8, wherein: the push rod (86) is made of rubber.

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