CN219857703U - Automatic packaging equipment for lithium battery anode material - Google Patents

Abstract

The utility model relates to the technical field of packaging equipment, and discloses automatic packaging equipment for lithium battery anode materials, which comprises a bracket, wherein a feed bin, a metering bin and a discharging pipe are sequentially arranged above a platform of the bracket from top to bottom, a weighing sensor is arranged on the metering bin, a discharging valve is arranged between the feed bin and the metering bin, the discharging valve comprises a fast discharging valve and a slow discharging valve, and a discharging valve is arranged between the metering bin and the discharging pipe; the top surface of the platform of the support is connected with a fixing frame, a lifting frame is arranged below the platform of the support, a lifting mechanism for driving the lifting frame to do lifting motion is arranged on the fixing frame, a bag hanging mechanism is arranged on the lifting frame, a bag clamping mechanism is arranged at the lower end of the blanking pipe, a conveying mechanism is arranged below the bag body, and material blocking mechanisms are arranged on two sides of the bag body on the conveying mechanism. The utility model improves the packaging precision and ensures the stability of blanking.

Description

Automatic packaging equipment for lithium battery anode material

Technical Field

The utility model relates to the technical field of packaging equipment, in particular to automatic packaging equipment for lithium battery anode materials.

Background

The lithium battery positive electrode material needs to be packaged after production, in the packaging and filling process, the accuracy of material weighing is vital, the traditional packaging is directly weighed in the filling process, and during filling, the traditional packaging is subjected to the effect of falling gravity impact of the material, the falling speed is high, and the standard filling quantity is easily exceeded, so that the packaging accuracy is influenced, in addition, the bag body is free of blanking, and the phenomenon of inclination and deviation can occur.

Disclosure of Invention

The utility model aims to solve the problems and provide automatic packaging equipment for lithium battery anode materials, which improves packaging precision and ensures blanking stability.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the automatic packaging equipment for the lithium battery anode material comprises a support, wherein a storage bin, a metering bin and a blanking pipe are sequentially arranged above a platform of the support from top to bottom, a weighing sensor is arranged on the metering bin, a blanking valve is arranged between the storage bin and the metering bin, the blanking valve comprises a fast blanking valve and a slow blanking valve, and a blanking valve is arranged between the metering bin and the blanking pipe; the utility model discloses a lifting mechanism for a bag body, including the support, the platform top surface of support is connected with the mount, the below of the platform of support is equipped with the crane, install the elevating system that the drive crane was elevating movement on the mount, be provided with the bag hanging mechanism that is used for hanging the bag body on the crane, the lower extreme of unloading pipe is equipped with double-layered bag mechanism, the below of the bag body is provided with conveying mechanism, be located on the conveying mechanism the both sides of the bag body are equipped with striker mechanism, striker mechanism includes L fixing base, arc fender work or material rest, first telescopic cylinder, L fixing base is fixed in on the conveying mechanism, first telescopic cylinder is fixed in the upper end outside of L fixing base, its telescopic end pass L fixing base with the arc keeps off the work or material rest and be connected.

Further, the arc keeps off work or material rest and includes arc pole and lower arc pole, it is connected with the gyro wheel to rotate between the both ends of arc pole and lower arc pole to go up, the middle part of going up the arc pole is connected with lower arc pole through vertical connecting rod.

Further, be fixed with the air-blower to the bag body bloies on the platform of support, the air outlet of air-blower pass through the hose with the air intake connection of unloading pipe, still be equipped with the dust removal mouth on the unloading pipe, dust removal mouth passes through the pipeline and connects gradually draught fan, cyclone and dust removal sack.

Further, elevating system includes flexible jar of second and direction subassembly, flexible jar of second is fixed in on the mount, direction subassembly is four sets of, is equipped with respectively the four corners of mount, direction subassembly is including the mutual activity guide cylinder and guide bar that cup joints, the guide cylinder connect in on the mount, the guide bar passes the platform downwardly extending of support and with the crane is connected.

Further, hang bag mechanism includes mount pad, L shape and hang portion, pin and the flexible jar of third, the mount pad is fixed in on the crane, and the flexible jar of third horizontal installation is on the mount pad, and its flexible end is articulated with the upper end of L shape and hang portion, and the middle part of L shape is hung the portion and is connected through the round pin axle rotation with the mount pad, and the pin is located the opening one side of L shape and hangs the portion, the pin is connected with the mount pad.

Further, the bag clamping mechanism comprises a fourth telescopic cylinder and an arc clamping arm, the arc clamping arm comprises a main frame body, the upper end of the main frame body is hinged to the blanking pipe, an arc clamping part is arranged on the inner side of the lower end of the main frame body, the fourth telescopic cylinder is arranged on the outer side of the main frame body, the telescopic end of the fourth telescopic cylinder is hinged to the lower end of the main frame body, and the other end of the fourth telescopic cylinder is hinged to the upper end of the main frame body.

Further, the quick blanking valve and the slow blanking valve both comprise a valve body rotatably installed inside the storage bin and a first control assembly installed outside the storage bin and used for controlling the valve body to be opened and closed, the first control assembly comprises a fifth telescopic cylinder and a first swing rod which are horizontally arranged, the telescopic end of the first control assembly is hinged to one end of the first swing rod, and the other end of the first swing rod is connected with a rotating shaft of the valve body.

Further, the discharging valve comprises a valve body rotatably installed in the metering bin and a second control assembly installed in the metering bin and used for controlling the valve body to be opened and closed, the second control assembly comprises a sixth telescopic cylinder and a second swing rod which are horizontally arranged, the telescopic end of the second control assembly is hinged to one end of the second swing rod, and the other end of the second swing rod is connected with a rotating shaft of the valve body.

By adopting the technical scheme, the utility model has the following beneficial effects:

according to the utility model, the metering bin is arranged between the bin and the blanking pipe, the bin is provided with the fast blanking valve and the slow blanking valve, the fast blanking valve can accelerate feeding when feeding in the front section, the slow blanking valve is adopted for feeding in the rear section, the weighing precision of the metering bin is improved, and the situation that the filling quantity is exceeded due to the fact that the material falling speed is high in direct bag filling weighing is avoided through the metering bin; meanwhile, through the arrangement of the material blocking mechanism, the blanking stability is ensured, and the phenomenon of inclination and deviation of the bag body blanking is avoided.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged view of a portion of FIG. 1A in accordance with the present utility model;

FIG. 3 is an enlarged view of a portion of B of FIG. 1 in accordance with the present utility model;

FIG. 4 is a schematic view of the bag clamping mechanism of the present utility model;

FIG. 5 is a top view of the anti-roll mechanism of the present utility model;

in the figure: the device comprises a 1-support, a 2-conveying mechanism, a 21-blocking mechanism, a 211-L fixing seat, a 212-first telescopic cylinder, 213-idler wheels, 214-lower arc rods, 215-upper arc rods, 216-vertical connecting rods, a 3-bin, a 31-quick blanking valve, a 32-slow blanking valve, a 33-fifth telescopic cylinder, 34-first swinging rods, 4-measuring bins, 41-weighing sensors, 42-blanking valves, 421-sixth telescopic cylinders, 422 second swinging rods, 5-blanking pipes, 6-lifting mechanisms, 61-second telescopic cylinders, 62-guiding assemblies, 7-bag clamping mechanisms, 71-fourth telescopic cylinders, 72-main support bodies, 73-arc clamping parts, 8-bag hanging mechanisms, 81-mounting seats, 82-blocking rods, 83-L-shaped hanging parts, 84-third telescopic cylinders, 9-fixing frames, 10-lifting frames, 11-blowers, 12-induced draft fans, 13-cyclone separators and 14-dust removal.

Detailed Description

In order to enable those skilled in the art to better understand the present utility model, the following description will make clear and complete descriptions of the technical solutions according to the embodiments of the present utility model with reference to the accompanying drawings. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The terms first, second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprising," "including," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the utility model. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

As shown in fig. 1, the automatic packaging equipment for the lithium battery anode material comprises a bracket 1, wherein a storage bin 3, a metering bin 4 and a discharging pipe 5 are sequentially arranged above a platform of the bracket 1 from top to bottom, a weighing sensor 41 is arranged on the metering bin 4, a discharging valve is arranged between the storage bin 3 and the metering bin 4, the discharging valve comprises a fast discharging valve 31 and a slow discharging valve 32, and a discharging valve 42 is arranged between the metering bin 4 and the discharging pipe 5; the top surface of the platform of the bracket 1 is connected with a fixing frame 9, a lifting frame 10 is arranged below the platform of the bracket 1, a lifting mechanism 6 for driving the lifting frame 10 to do lifting motion is arranged on the fixing frame 9, a bag hanging mechanism 8 for hanging a bag body is arranged on the lifting frame 10, a bag clamping mechanism 7 is arranged at the lower end of the discharging pipe 5, and a conveying mechanism 2 is arranged below the bag body; the two sides of the bag body on the conveying mechanism 2 are provided with a material blocking mechanism 21, the material blocking mechanism 21 comprises an L fixing seat 211, an arc-shaped material blocking frame and a first telescopic cylinder 212, the L fixing seat 211 is fixed on the conveying mechanism 2, the first telescopic cylinder 212 is fixed on the outer side of the upper end of the L fixing seat 211, and the telescopic end of the first telescopic cylinder passes through the L fixing seat 211 and is connected with the arc-shaped material blocking frame. Wherein, arc keeps off work or material rest and includes arc pole 215 and lower arc pole 214, goes up arc pole 215 and rotates between the both ends of arc pole 214 down and be connected with gyro wheel 213, and the middle part of going up arc pole 215 passes through vertical connecting rod 216 and is connected with arc pole 214 down, and gyro wheel 213 can prevent when shelves material is spacing, prevents the damage of the bag body.

The platform of the bracket 1 is fixedly provided with a blower 11 for blowing the bag body, an air outlet of the blower 11 is connected with an air inlet of the blanking pipe 5 through a hose, the blanking pipe 5 is also provided with a dust removing port, and the dust removing port is sequentially connected with a draught fan 12, a cyclone separator 13 and a dust removing cloth bag 14 through pipelines. The blower 11 can blow air to the bag body, the cyclone separator 13 can recycle dust particles, and the dust removing cloth bag 14 is convenient for removing dust and removing pure air.

The lifting mechanism 6 comprises a second telescopic cylinder 61 and guide components 62, the second telescopic cylinder 61 is fixed on the fixed frame 9, the four groups of the guide components 62 are respectively provided with four corners of the fixed frame 9, the guide components 62 comprise guide cylinders and guide rods which are movably sleeved with each other, the guide cylinders are connected to the fixed frame 9, and the guide rods penetrate through the platform of the support 1 to extend downwards and are connected with the lifting frame 10. The second telescopic cylinder 61 controls the ascent or descent of the lifting frame 10 by the telescopic state of the telescopic rod, and at the same time, the guide assembly 62 improves the stability of ascent and descent.

The bag hanging mechanism 8 comprises a mounting seat 81, an L-shaped hanging part 83, a stop lever 82 and a third telescopic cylinder 84, wherein the mounting seat 81 is fixed on the lifting frame 10, the third telescopic cylinder 84 is horizontally installed on the mounting seat 81, the telescopic end of the third telescopic cylinder is hinged with the upper end of the L-shaped hanging part 83, the middle part of the L-shaped hanging part 83 is rotationally connected with the mounting seat 81 through a pin shaft, the stop lever 82 is positioned on one side of the opening of the L-shaped hanging part 83, and the stop lever 82 is connected with the mounting seat 81. When hanging, the L-shaped hanging part 83 is pushed to rotate around the pin shaft by the extension and contraction of the third extension and contraction cylinder 84, so that the L-shaped hanging part 83 and the stop lever 82 are opened or closed, and the bag body is hung or falls off.

The bag clamping mechanism 7 comprises a fourth telescopic cylinder 71 and an arc clamping arm, the arc clamping arm comprises a main frame body 72, the upper end of the main frame body 72 is hinged to the blanking pipe 5, an arc clamping portion 73 is arranged on the inner side of the lower end of the main frame body 72, a fourth telescopic cylinder 71 is arranged on the outer side of the main frame body 72, the telescopic end of the fourth telescopic cylinder 71 is hinged to the lower end of the main frame body 72, and the other end of the fourth telescopic cylinder 71 is hinged to the upper end of the main frame body 72. The bag clamping mechanism 7 can prevent powder leakage in the filling process.

The quick blanking valve 31 and the slow blanking valve 32 comprise a valve body rotatably installed inside the storage bin 3 and a first control assembly installed outside the storage bin 3 and used for controlling the valve body to be opened and closed, the first control assembly comprises a fifth telescopic cylinder 33 and a first swing rod 34 which are horizontally arranged, the telescopic ends of the first telescopic cylinder and the first swing rod are hinged with one end of the first swing rod 34, and the other end of the first swing rod 34 is connected with a rotating shaft of the valve body. The structure pushes the first swing rod 34 to rotate through the fifth telescopic cylinder 33, so that the valve body is driven to be opened and closed.

The discharging valve 42 comprises a valve body rotatably installed in the metering bin 4 and a second control assembly installed at the metering bin 4 and used for controlling the valve body to be opened and closed, the second control assembly comprises a sixth telescopic cylinder 421 and a second swing rod 422 which are horizontally arranged, the telescopic end of the second control assembly is hinged with one end of the second swing rod 422, and the other end of the second swing rod 422 is connected with a rotating shaft of the valve body. The structure pushes the first swing rod 34 to rotate through the sixth telescopic cylinder 421, thereby driving the valve body to open and close.

The working principle of the utility model is as follows:

when the bag body lifting device is used, the stop lever 82 is controlled to be separated from the L-shaped hanging part 83 through the third telescopic cylinder 84, the bag body is hung on the L-shaped hanging part 83, the lifting mechanism 6 drives the lower lifting frame 10 to lift until the bag opening of the bag body is sleeved on the blanking pipe 5, at the moment, the fourth telescopic cylinder 71 is controlled to extend, so that the fourth telescopic cylinder drives the arc-shaped clamping arm to rotate around the hinging point of the main frame body 72, and the bag opening of the bag body and the blanking pipe 5 are clamped. The quick blanking valve 31 and the slow blanking valve 32 are opened, so that materials in the bin 3 fall into the metering bin 4, and the weighing sensor 41 in the metering bin 4 is used for weighing the materials, so that the materials can be weighed before falling into the bag body, the filling quantity of the bag body can be accurately controlled, the feeding speed of the quick blanking valve 31 can be increased, the production efficiency is improved, after the materials are added to a certain weight, the quick blanking valve 31 is closed, the slow blanking valve 32 is continuously fed, the weighing precision is improved, and the weighing precision is prevented from being influenced by the gravity in the filling process. After weighing, the weighed materials fall into the bag body to be filled by opening the discharge valve, after filling is completed, the bag clamping mechanism 7 controls the fourth telescopic cylinder 71 to shrink, the clamping state of the arc clamping arm to the bag body is released, the lifting frame 10 descends, the bag body drops down to the conveying mechanism 2, the first telescopic cylinder 212 of the material blocking mechanism 2121 stretches out, the arc material blocking frame clamps the bag body from two sides, the material blocking is limited, the bag body is prevented from tilting and shifting, then the bag hanging mechanism 8 releases the hanging state, and then the conveying mechanism 2 conveys the material bag. During dust removal, dust gas sequentially enters a cloth bag dust collector of a cyclone dust collector from an induced draft fan 12 for treatment and is discharged into air, the dust particles and the dust of the cyclone dust collector are recovered after being separated, and the cloth bag dust collector adsorbs and filters the dust to realize dust removal. The dust removing mechanism can avoid dust overflow and influence the production environment.

The foregoing utility model has been generally described in great detail, but it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, it is intended to cover modifications or improvements within the spirit of the inventive concepts.

Claims (8)

1. An automatic packaging device for lithium battery anode materials, which is characterized in that: the automatic feeding device comprises a bracket, wherein a feed bin, a metering bin and a feeding pipe are sequentially arranged above a platform of the bracket from top to bottom, a weighing sensor is arranged on the metering bin, a feeding valve is arranged between the feed bin and the metering bin, the feeding valve comprises a fast feeding valve and a slow feeding valve, and a feeding valve is arranged between the metering bin and the feeding pipe; the utility model discloses a lifting mechanism for a bag body, including the support, the platform top surface of support is connected with the mount, the below of the platform of support is equipped with the crane, install the elevating system that the drive crane was elevating movement on the mount, be provided with the bag hanging mechanism that is used for hanging the bag body on the crane, the lower extreme of unloading pipe is equipped with double-layered bag mechanism, the below of the bag body is provided with conveying mechanism, be located on the conveying mechanism the both sides of the bag body are equipped with striker mechanism, striker mechanism includes L fixing base, arc fender work or material rest, first telescopic cylinder, L fixing base is fixed in on the conveying mechanism, first telescopic cylinder is fixed in the upper end outside of L fixing base, its telescopic end pass L fixing base with the arc keeps off the work or material rest and be connected.

2. The automatic packaging device for lithium battery cathode materials according to claim 1, wherein: the arc keeps off work or material rest and includes arc pole and lower arc pole, it is connected with the gyro wheel to rotate between the both ends of arc pole and lower arc pole to go up, the middle part of going up the arc pole is connected with lower arc pole through vertical connecting rod.

3. The automatic packaging device for lithium battery cathode materials according to claim 1, wherein: the utility model discloses a dust removal device for a bag body, including the support, the platform of support is fixed with the air-blower of blowing to the bag body on, the air outlet of air-blower pass through the hose with the air intake connection of unloading pipe, still be equipped with the dust removal mouth on the unloading pipe, the dust removal mouth passes through the pipeline and connects gradually draught fan, cyclone and dust removal sack.

4. The automatic packaging device for lithium battery cathode materials according to claim 1, wherein: the lifting mechanism comprises a second telescopic cylinder and guide components, the second telescopic cylinder is fixed on the fixing frame, the four groups of guide components are respectively provided with four corners of the fixing frame, the guide components comprise guide cylinders and guide rods which are movably sleeved with each other, the guide cylinders are connected onto the fixing frame, and the guide rods penetrate through the platform of the support to extend downwards and are connected with the lifting frame.

5. The automatic packaging device for lithium battery cathode materials according to claim 1, wherein: the bag hanging mechanism comprises a mounting seat, an L-shaped hanging part, a stop lever and a third telescopic cylinder, wherein the mounting seat is fixed on the lifting frame, the third telescopic cylinder is horizontally arranged on the mounting seat, the telescopic end of the third telescopic cylinder is hinged with the upper end of the L-shaped hanging part, the middle part of the L-shaped hanging part is rotationally connected with the mounting seat through a pin shaft, the stop lever is positioned on one side of an opening of the L-shaped hanging part, and the stop lever is connected with the mounting seat.

6. The automatic packaging device for lithium battery cathode materials according to claim 1, wherein: the bag clamping mechanism comprises a fourth telescopic cylinder and an arc clamping arm, the arc clamping arm comprises a main frame body, the upper end of the main frame body is hinged to the discharging pipe, an arc clamping part is arranged on the inner side of the lower end of the main frame body, the fourth telescopic cylinder is arranged on the outer side of the main frame body, the telescopic end of the fourth telescopic cylinder is hinged to the lower end of the main frame body, and the other end of the fourth telescopic cylinder is hinged to the upper end of the main frame body.

7. The automatic packaging device for lithium battery cathode materials according to claim 1, wherein: the quick blanking valve and the slow blanking valve comprise a valve body rotatably arranged in the storage bin and a first control assembly arranged outside the storage bin and used for controlling the valve body to be opened and closed, the first control assembly comprises a fifth telescopic cylinder and a first swing rod which are horizontally arranged, the telescopic end of the first control assembly is hinged to one end of the first swing rod, and the other end of the first swing rod is connected with a rotating shaft of the valve body.

8. The automatic packaging device for lithium battery cathode materials according to claim 1, wherein: the discharging valve comprises a valve body rotatably arranged in the metering bin and a second control assembly arranged at the metering bin and used for controlling the valve body to be opened and closed, the second control assembly comprises a sixth telescopic cylinder and a second swing rod which are horizontally arranged, the telescopic end of the second control assembly is hinged with one end of the second swing rod, and the other end of the second swing rod is connected with a rotating shaft of the valve body.