CN216547964U - Incoming material assembly with roller - Google Patents

Abstract

The utility model discloses a feeding assembly with rollers, which comprises a transfer rack and roller parts arranged on the transfer rack, wherein the roller parts comprise rubber-coating electric rollers, rubber-coating common rollers and non-rubber-coating common rollers, a plurality of rubber-coating common rollers are arranged between the rubber-coating electric rollers, the rubber-coating electric rollers drive the rubber-coating common rollers to roll through a linkage belt, lithium batteries are driven by the rubber-coating electric rollers and the rubber-coating common rollers to move to a feeding station, and the non-rubber-coating common rollers are arranged at the feeding station and are connected with each other. According to the utility model, the rubber-coated electric roller and the rubber-coated common roller form a roller transmission line, and the non-rubber-coated common roller which is not connected with the power source rubber-coated electric roller is arranged at the feeding station, so that the lithium battery can complete the last section of transmission path at the roller section and also can realize the deceleration action, the lithium battery is prevented from having speed at the incoming material transmission end, the blocking is realized without arranging articles such as a baffle plate, and the damage to the lithium battery is reduced.

Description

Incoming material assembly with roller

Technical Field

The utility model relates to the technical field of automatic production of lithium batteries, in particular to a feeding assembly with a roller.

Background

The lithium battery has light weight, large specific energy, support for quick charging, environmental protection, smaller volume than a lead-acid battery, is popularized by policies, and has been widely used in the electric automobile industry. In the manufacturing process of lithium cell, need based on automated production to and the lithium cell has certain quality and volume, in production, often adopt the roller to realize the transportation, however the roller cargo airplane among the prior art considers the condition that is long distance transport, and in the lithium cell supplied materials transportation, transmission distance is shorter, uses prior art roller cargo airplane, is difficult to descend at terminal lithium cell speed, and traditional art adopts baffle etc. to block, so, can cause certain damage to the lithium cell.

The above disadvantages need to be improved.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides a feeding assembly with a roller.

The technical scheme of the utility model is as follows:

the incoming material component comprises a transfer rack and roller components arranged on the transfer rack, wherein the roller components comprise rubber-coated electric rollers, rubber-coated common rollers and non-rubber-coated common rollers, a plurality of rubber-coated common rollers are arranged between the rubber-coated electric rollers, the rubber-coated electric rollers drive the rubber-coated common rollers to roll through a linkage belt, lithium batteries are driven by the rubber-coated electric rollers and the rubber-coated common rollers to move to a feeding station, and the non-rubber-coated common rollers are arranged at the feeding station and are mutually connected among the non-rubber-coated common rollers.

The end part of the rubber-coating electric roller is provided with two sections of linkage belts, and the rubber-coating electric roller is respectively connected with the rubber-coating common rollers arranged on two sides of the rubber-coating electric roller through the linkage belts.

The feeding assembly with the rollers is characterized in that the ordinary rollers without rubber coating are connected with each other through the linkage belt and synchronously rotate.

According to the incoming material component with the rollers, one rubber-coating electric roller is arranged at every four rubber-coating common rollers, and one rubber-coating electric roller drives the two rubber-coating common rollers on the left side and the right side to rotate.

The moving and carrying rack comprises a support main body and a fence fixed at the edge of the support main body, the support main body comprises a longitudinal support and a transverse support, the fence is fixed at the upper end of the longitudinal support and arranged along the transverse support, and the roller component is arranged above the transverse support.

Further, the longitudinal supports are aluminum alloy rods arranged in parallel, the aluminum alloy rods are fixedly connected through fixing plates, grooves are formed in the side faces of the aluminum alloy rods, and the bottoms of the aluminum alloy rods are connected with the round foot frames through studs and are provided with supporting plate metal auxiliary supports.

The above incoming material component with the roller is characterized in that the initial end of the roller component is provided with the protective cover, and two ends of the protective cover are fixed inside the groove of the transfer rack.

According to the incoming material component with the roller, the scanner is arranged at the front end of the ordinary roller without being coated with rubber, the scanner is fixed above the transfer rack through the scanning support, the scanning support comprises the plurality of round rods, the round rods are connected through the clamp, and the scanner is fixed at the tail ends of the round rods through the clamp with the fixed metal plate.

Furthermore, the scanning support is fixedly connected with the transfer rack through a scanning base, the scanning base is fixed on the upper portion of the transfer rack through bolts, the scanning base is in a convex shape, and the round rod is inserted into a fixing screw hole in the top of the scanning base to be fixed.

Foretell supplied materials subassembly of taking roller, the material loading station sets up regular part, regular part includes regular cylinder and regular board, regular cylinder is fixed in through the fixing base move the both sides of carrying the frame, regular cylinder's movable rod with regular board is connected, regular board is in promote under regular cylinder's the drive the lithium cell.

According to the feeding assembly with the rollers, the feeding station is provided with the upper ejection part, the upper ejection part comprises the upper ejection cylinder and the upper ejector rod, the movable rod of the upper ejection cylinder is connected with the upper ejector rod, the upper ejection cylinder is arranged below a gap between the ordinary rollers which are not coated with rubber, and the upper ejector rod is driven by the upper ejection cylinder to jack up the lithium battery upwards.

According to the scheme, the feeding assembly with the roller is formed by adopting three types of rollers, the roller transmission line is formed by the rubber-coated electric roller and the rubber-coated common roller, the non-rubber-coated common roller which is not connected with the power source rubber-coated electric roller is arranged at the feeding station, so that the lithium battery can complete the last section of transmission path at the roller section and can also realize the speed reduction action, the lithium battery is prevented from having speed at the feeding transmission tail end, the blocking is realized without arranging articles such as a baffle plate and the like, and the damage to the lithium battery is reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partially enlarged view of fig. 1.

FIG. 3 is a schematic structural view of a roller unit.

Fig. 4 is a schematic view of the scanner.

Wherein, in the figures, the respective reference numerals:

1. a transfer rack; 11. a support; 111. longitudinal support; 112. a groove; 113. a circular foot rest; 114. a stud; 115. supporting the metal plate; 12. a base column; 13. a guardrail;

2. a roller member; 21. coating a common roller with rubber; 22. ordinary rollers are not encapsulated; 23. encapsulating an electric roller; 24. a linkage belt;

3. a scanner; 31. a base; 32. a round bar; 33. a clamp;

4. a regulating component; 41. arranging a cylinder; 42. a leveling plate;

5. an upper top member; 51. an upper jacking cylinder; 52. an ejector rod is arranged;

6. a shield.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

It will be understood that when an element is referred to as being "fixed" or "disposed" or "connected" to another element, it can be directly or indirectly located on the other element. The terms "upper", "lower", "vertical", "inner", "outer", and the like indicate orientations or positions based on the orientations or positions shown in the drawings, and are only for convenience of description and not to be construed as limiting the technical solution. "Multi" means two or more unless specifically limited otherwise. The meaning of "a number" is one or more unless specifically limited otherwise.

A feeding assembly with rollers is shown in figure 1 and comprises a transfer rack 1 and roller parts 2 arranged on the transfer rack 1, wherein the roller parts 2 comprise rubber-coating electric rollers 23, rubber-coating common rollers 21 and non-rubber-coating common rollers 22, a plurality of rubber-coating common rollers 21 are arranged between the rubber-coating electric rollers 23, the rubber-coating electric rollers 23 drive the rubber-coating common rollers 21 to roll through a linkage belt 24, lithium batteries are driven by the rubber-coating electric rollers 23 and the rubber-coating common rollers 21 to move to a feeding station, and the non-common rollers 22 are arranged at the feeding station and are connected with each other.

As shown in fig. 2, the transfer rack 1 includes a frame 11 made of an aluminum alloy rod, and a base rail 12 and a guard rail 13 provided on the frame 11. The bracket 11 is a main bearing part of the transfer rack 1, the material of the bracket is aluminum alloy, the longitudinal support 111 part of the bracket 11 is formed by fixing two aluminum alloy rods side by side, and the side surfaces of the longitudinal support 111 of the bracket 11 are provided with grooves 112 for connection or fixation. The bottom of the bracket 11 is provided with a plurality of round holes, the bottom of the bracket 11 is fixedly connected with the round foot rest 113 through the studs 114, the studs 114 are fixed with the round foot rest 113 and the bracket 11 through nuts, and the height of the studs 114 can be adjusted through the nuts, so that the bracket 11 can be adjusted to the required height. Support 11 vertically supports 111 and is close to the outside and sets up the backup pad gold, supports panel beating 115 and is three-section structure, and first festival is vertical state, vertically supports 111 fixed connection through screw or bolt and support 11, and the second festival outwards extends, and the third festival is parallel with ground, is connected with ground contact, should support panel beating 115 and play the stable effect of support. The two sides of the bracket 11 are provided with flat tube base fences 12 which play the role of a guardrail 13 on one hand, and on the other hand, the tubular structure can well fix the roller for transferring and placing, and a certain space can be provided with other sensing equipment and the guardrail 13.

As shown in fig. 3, the roller component 2 is composed of a plurality of rollers arranged in parallel, the rollers are provided with three types, namely a rubber-coating electric roller 23, a rubber-coating common roller 21 and a non-rubber-coating common roller 22, wherein the rubber-coating electric roller 23 is a main component for providing the moving power of lithium batteries on the roller component 2, and the rubber-coating electric roller 23 is connected with a roller motor.

In order to save power and fully utilize structural characteristics of the roller, in the application, an encapsulating electric roller 23 is arranged at intervals of a plurality of encapsulating common rollers 21, then a linkage belt 24 is arranged at the same side installation part of the encapsulating common rollers 21 and the encapsulating electric roller 23, and when the encapsulating electric roller 23 rotates under the action of a roller motor, the encapsulating common rollers 21 are driven to rotate through the linkage belt 24, so that a linkage effect is generated, and lithium batteries arranged on the roller component 2 are moved. Specifically, two sections of linkage belts 24 are arranged at the end parts of the rubber coating electric roller 23, the linkage belts 24 are respectively connected with the rubber coating common rollers 21 arranged at the two sides of the rubber coating electric roller 23, the two sections of linkage belts 24 are also arranged at the end parts of the rubber coating common rollers 21 and are respectively connected with the rubber coating electric rollers 23 arranged at the two sides of the rubber coating common rollers 21 and the rubber coating common rollers 21, and so on. Thus, through the association of the linkage belt 24, a rubber-coating electric roller 23 is formed as a power roller group, the number of the roller groups depends on the power of the rubber-coating electric roller 23 and the transmission speed requirement of a lithium battery, in the application, the number of the roller groups is five, namely, one rubber-coating electric roller 23 drives four surrounding rubber-coating common rollers 21 to rotate.

The tail end of the roller component 2 is provided with a feeding station, and because the lithium battery is fed by a manipulator or a robot, the lithium battery is required to be kept in a stable state no matter which feeding structure is adopted, a plurality of ordinary rollers 22 which are not encapsulated are arranged at the tail end of the roller component 2, the ordinary rollers 22 which are not encapsulated are not connected with any roller group with the electric rollers 23 which are encapsulated, and a linkage belt 24 is arranged in the ordinary rollers to be connected. When the lithium battery enters the section of roller through the driving of the front-end roller, the initial speed of the lithium battery provides power for the ordinary roller 22 which is not encapsulated with rubber, the unpowered roller group is made to rotate through the linkage belt 24, the lithium battery can continuously move along the roller group, but the speed and the power of the lithium battery are reduced, and after the lithium battery is transmitted by the roller group, the lithium battery is in an almost static state at a feeding station at the tail end, so that the lithium battery reaches a relatively stable state.

In the roller component 2, the number and the number ratio of the electric rollers and the rubber-coating ordinary rollers 21 in the roller group are not unique, and can be changed according to the required speed and the transmission force, and in addition, the number of the unpowered rubber-coating-free ordinary rollers 22 at the tail end can also be changed according to the required speed.

The initial end of the roller component 2 and the connection section of the previous process are provided with a protective cover 6 for protecting the lithium battery, and the two ends of the protective cover 6 are fixed in the groove 112 of the bracket 11, so that a cage structure is formed.

As shown in fig. 4, when a lithium battery enters a non-power roller set consisting of non-encapsulated ordinary rollers 22, the scanner 3 disposed above the non-power roller set performs identification recording on the lithium battery. Utilize the base 31 of the fixed type of dogfont of recess 112 of support 11 side, the upper end of base 31 sets up fixed screw, through the fixed scanning support 11 of fixed screw, scanning support 11 constitutes for many smooth pole 32, fix relative position through double-end anchor clamps 33 clamp between the pole 32, form and stretch into the inside state of roller part 2, then the terminal pole 32 of anchor clamps 33 clamp-on end that the rethread welded has fixed panel beating, use the fixed screw scanner 3, make the camera part of scanner 3 aim at the initial position of unpowered roller group, make all lithium batteries through this position all can be discerned by scanner 3, thereby carry out automated production's tracking.

The lithium cell is through the speed reduction of ordinary roller 22 of not rubber coating to the end of the subassembly of coming, in order to make manipulator, robot or other material loading parts take away this lithium cell better, need arrange the lithium cell at the end of roller part 2, fixed with the position and the form of lithium cell, consequently, set up regulation part 4 at the end of roller part 2, regulation part 4 includes regulation board 42 and regular activity cylinder. Regular cylinder 41 is fixed on two sides of roller component 2 through the fixing seat with ribbed plate cross section in trapezoid shape, the plane on one side of the fixing seat is attached to the outer surface of base rail 12, the bottom of the fixing seat is fixed in groove 112 of support 11 through screws, and the upper plane of the fixing seat is horizontally provided with regular cylinder 41. The movable rod of the regulating cylinder 41 moves horizontally, and the tail end of the movable rod extends into the roller part 2 and is connected with the regulating plate 42. The regulating cylinder 41 can be set to perform piston type motion according to a certain frequency according to the rotating speed of the roller component 2, and the regulating plate 42 is used for regularly clamping the surfaces of the lithium batteries from two sides, so that the front surfaces of the lithium batteries correspond to the feeding station. In another embodiment, the tail end of the roller component 2 is provided with an induction correlation device, the induction correlation device is connected with the regulating cylinder 41, when the lithium battery passes through the induction position of the induction correlation device, the regulating cylinder 41 is triggered to start, and the regulating cylinder 41 pushes the regulating plate 42 to move, so that the lithium battery is clamped, and the lithium battery is enabled to be in a position.

Further, when the lithium battery moves to the feeding station, in order to better complete the feeding action, the upper top part 5 is arranged at the feeding station. The upper ejection part 5 comprises an upper ejection cylinder 51 and an upper ejection rod 52, the upper ejection cylinder 51 is arranged between two rollers at the tail end of the roller part 2 at the feeding station, the upper ejection cylinder 51 is vertically arranged, a movable rod of the upper ejection cylinder is coaxially connected with the upper ejection rod 52, and when the movable rod moves up and down, the upper ejection rod 52 moves up and down simultaneously. When the lithium cell was located material loading position department, go up the ejector pin 52 and pass between two rollers and support lithium cell rebound from both ends, both can make things convenient for the shifting tool fork that the fork held, also can initiatively see the lithium cell off to centre gripping class shifting tool department, make things convenient for material loading on next step to move on.

Preferably, the utility model adopts a double-layer structure, two layers of roller parts 2 exist together, and the transportation in a circulating structure can be realized through an external lifting part or other transfer parts, so that the transportation amount is increased.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The incoming material component is characterized by comprising a transfer rack and roller components arranged on the transfer rack, wherein the roller components comprise rubber-coated electric rollers, rubber-coated common rollers and non-rubber-coated common rollers, a plurality of rubber-coated common rollers are arranged between the rubber-coated electric rollers, the rubber-coated electric rollers drive the rubber-coated common rollers to roll through a linkage belt, a lithium battery is driven by the rubber-coated electric rollers and the rubber-coated common rollers to move to a feeding station, and the non-rubber-coated common rollers are arranged at the feeding station.

2. The incoming material component with the roller is characterized in that two sections of linkage belts are arranged at the end parts of the rubber-coating electric roller, and the rubber-coating electric roller is respectively connected with the rubber-coating common rollers arranged at two sides of the rubber-coating electric roller through the linkage belts.

3. The incoming material component with the roller is characterized in that the ordinary non-encapsulated rollers are connected with each other through the linkage belt and rotate synchronously.

4. The incoming material conveying assembly with the roller as claimed in claim 1, wherein the transfer rack includes a frame body and a rail fixed to an edge of the frame body, the frame body includes a longitudinal support and a transverse support, the rail is fixed to an upper end of the longitudinal support and is disposed along the transverse support, and the roller member is disposed above the transverse support.

5. The incoming material component with the roller as claimed in claim 4, wherein the longitudinal supports are aluminum alloy rods arranged side by side, the aluminum alloy rods are fixedly connected through a fixing plate, grooves are formed in the side faces of the aluminum alloy rods, and the bottoms of the aluminum alloy rods are connected with a round foot rest through studs and provided with supporting sheet metal auxiliary supports.

6. The supply assembly with roller as claimed in claim 1, wherein a shield is provided at the initial end of the roller member, and the two ends of the shield are fixed inside the grooves of the transfer frame.

7. The incoming material component with the roller as claimed in claim 1, wherein a scanner is arranged at the front end of the ordinary non-rubber-coated roller, the scanner is fixed above the transfer rack through a scanning support, the scanning support comprises a plurality of round rods, the round rods are connected through a clamp, and the scanner is fixed at the tail ends of the round rods through the clamp with a fixed metal plate.

8. The supply assembly with roller as claimed in claim 7, wherein said scanning bracket is fixedly connected to said transfer rack through a scanning base, said scanning base is fixed to the upper portion of said transfer rack through a bolt, said scanning base is in a convex shape, and said round bar is inserted into a fixing screw hole at the top of said scanning base for fixing.

9. The incoming material assembly with the roller as claimed in claim 1, wherein the loading station is provided with a regulating part, the regulating part includes a regulating cylinder and a regulating plate, the regulating cylinder is fixed on two sides of the transfer rack through a fixing seat, a movable rod of the regulating cylinder is connected with the regulating plate, and the regulating plate is driven by the regulating cylinder to push the lithium battery.

10. The feeding assembly with the roller is characterized in that an upper ejecting part is arranged at the feeding station, the upper ejecting part comprises an upper ejecting cylinder and an upper ejecting rod, a movable rod of the upper ejecting cylinder is connected with the upper ejecting rod, the upper ejecting cylinder is arranged below a gap between the ordinary rollers without being encapsulated, and the upper ejecting rod is driven by the upper ejecting cylinder to eject the lithium battery upwards.

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