CN111463399A - Feeding device of soft-package battery liquid filling machine and soft-package battery liquid filling machine - Google Patents

Abstract

The invention discloses a feeding device of a soft-package battery liquid filling machine and the soft-package battery liquid filling machine, wherein the feeding device comprises a rack, a feeding door, a sealing structure and a transmission structure; the frame encloses a sealed chamber, one end of the sealed chamber is a feeding port, and a feeding door covers the feeding port; the sealing structure is arranged in the sealing chamber and comprises a power device and a sealing door, the power device drives the sealing door to slide along the side wall of the sealing chamber, when the sealing door slides to the bottom plate of the sealing chamber, the sealing chamber is divided into two areas, one area is a feeding area communicated with the feeding port, and the other area is a material taking area communicated with the liquid injection device; the conveying structure comprises a first conveying mechanism and a second conveying mechanism, the first conveying mechanism is arranged in the feeding area, one end of a moving belt of the first conveying mechanism is connected to the feeding opening, the other end of the moving belt is close to the sealing door, the second conveying mechanism is arranged in the taking area, one end of the moving belt of the second conveying mechanism is close to the sealing door, when the sealing door is far away from the bottom plate, the first conveying mechanism and the second conveying mechanism are opposite end to end, material conveying is guaranteed, and sealing performance of the equipment is guaranteed.

Description

Feeding device of soft-package battery liquid filling machine and soft-package battery liquid filling machine

Technical Field

The invention relates to the technical field of liquid filling machines, in particular to a feeding device of a liquid filling machine for a soft-package battery and the liquid filling machine for the soft-package battery.

Background

The conventional manner is that a movable gate is arranged at a conveying section between the inlet and the liquid injection section, when the material enters and exits, the movable gate is opened and closed to separate the inside of the whole device to achieve the positive pressure environment condition required by the liquid injection section, but the feeding and discharging of the conventional liquid injection machine is that the whole section of the belt or the double-speed chain is used for conveying the material from the inlet to the material taking and placing position, and the sealing door plate is pressed down by crossing the belt or the double-speed chain to realize the sealing separation of the front section and the rear section, therefore, the sealing door needs to be provided with the avoiding hole to avoid the belt line or the speed multiplying chain, so that the sealing cannot be effectively realized even if the avoiding hole is minimized, the air pressure is unstable, and the internal air pressure cannot be ensured to be in the required air pressure range.

Disclosure of Invention

The invention mainly aims to provide a feeding device of a soft-package battery filling machine and the soft-package battery filling machine, and aims to solve the technical problem that the sealing effect of the existing soft-package battery filling machine is poor.

Based on the purpose, the invention provides a feeding device of a soft package battery liquid filling machine, which comprises a feeding device, a liquid storage device and a liquid feeding device, wherein the feeding device comprises a feeding device body; the device comprises a rack, a feeding door, a sealing structure and a conveying structure for conveying materials;

the machine frame is enclosed to form a sealed chamber, one end of the sealed chamber is provided with a feeding port, and the feeding door is suitable for being arranged at the feeding port;

the sealing structure is arranged in the sealing chamber and comprises a power device and a sealing door, the power device drives the sealing door to slide along the side wall of the sealing chamber, and when the sealing door slides to tightly abut against the bottom plate of the sealing chamber, the sealing chamber is divided into two sealed areas, wherein one area is a feeding area communicated with the feeding port, and the other area is an object taking area communicated with a liquid injection device of the soft-package battery liquid injection machine;

the conveying structure comprises a first conveying mechanism and a second conveying mechanism, the first conveying mechanism is arranged in the feeding area, one end of a moving belt of the first conveying mechanism is in butt joint with the feeding opening, the other end of the moving belt is close to one side of the sealing door, the second conveying mechanism is arranged in the material taking area, one end of a moving belt of the second conveying mechanism is close to the other side of the sealing door, and when the sealing door slides away from the bottom plate, the first conveying mechanism and the second conveying mechanism are opposite in head and tail.

Further, the sealing structure comprises a sliding rail, the sliding rail is arranged on the side wall of the sealing chamber and perpendicular to the bottom plate, the sliding rail is matched with the side edge of the sealing door, and the power device drives the sealing door to slide on the sliding rail.

The sealing door is characterized by further comprising a first electromagnet, the first electromagnet is arranged on the sliding track, the sealing door is made of metal materials which generate mutual magnetic force when the sealing door works with the electromagnet, and when the sealing door slides to the bottom plate on the sliding track, the first electromagnet starts to work to suck the sealing door.

Further, the bottom plate court the indoor protruding chimb of seal chamber, the chimb is located the side of sealing door, and is in sealing door's bottom supports tightly when the bottom plate, sealing door's lateral wall supports tightly the chimb.

Further, the lateral wall of chimb is equipped with the second electro-magnet, just the second electro-magnet orientation sealing door, sealing door by with the electro-magnet during operation produces the metal material of mutual magnetic force and constitutes, work as sealing door's lateral wall supports tightly when the chimb, the second electro-magnet is inhaled sealing door.

Furthermore, the number of the transmission structures is four, the number of the sealing doors is two, the four transmission structures are arranged side by side, and the two transmission structures close to each other correspond to one sealing door.

The feeding device comprises a feeding port, a sealing door and a partition wall, wherein the feeding port is arranged at one end of the partition wall, the other end of the partition wall abuts against the middle position of the two sealing doors, so that the feeding area is divided into two sealing areas, and each sealing area corresponds to one sealing door.

Further, still include and get the material structure, get the material structure set up in get the material district, just get the material structure with second conveying mechanism butt joint to acquire the material of last transmission of second conveying mechanism.

Further, the transmission structure comprises a motor and speed multiplying chains, wherein the motor is connected with the speed multiplying chains, and each two side-by-side speed multiplying chains form the moving belt in one group;

get the material structure including getting thing post and elevator motor, get the thing post set up in with be a set of two between the fast chain of doubly, elevator motor connects get the thing post, and drive get thing post rebound, so that get the thing post and support two material on the fast chain of doubly, and drive the material shifts up and carries extremely filling device.

The invention also provides a soft-package battery liquid filling machine which comprises the feeding device of the soft-package battery liquid filling machine.

According to the feeding device of the soft-package battery filling machine, the first transmission mechanism and the second transmission mechanism which are in butt joint end to end are arranged, the sealing door capable of directly sliding to the bottom plate is arranged between the first transmission mechanism and the second transmission mechanism, and the interior of the device is further divided into two sealed areas, so that even if the feeding door is opened and closed during feeding, the air pressure in the device is kept stable due to the sealing of the sealing door, the transmission of materials is guaranteed, the sealing performance of the feeding device is also guaranteed, and the problems that the sealing performance of the device is poor and the internal air pressure cannot meet the requirement due to the fact that the feeding door is opened and closed during feeding are avoided.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of a feeding device of a pouch battery filling machine according to the present invention;

fig. 2 is a schematic front view of an embodiment of a feeding device of a pouch battery filling machine according to the present invention;

FIG. 3 is an exploded view of an embodiment of a feeding device of the pouch battery filling machine according to the present invention;

fig. 4 is a schematic top view of portion a of fig. 3.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 4, the invention provides a feeding device of a pouch battery filling machine, which is applied to the pouch battery filling machine, the pouch battery filling machine comprises a filling device for filling a battery, the feeding device is used for transporting materials and inputting the materials to the filling device, and specifically, the feeding device comprises a frame 1, a feeding door, a sealing structure 2 and a transmission structure for transmitting the materials 5.

Wherein, frame 1 encloses to close and forms a sealed chamber, and here frame 1 can be for the cube that has the cavity, and the below of frame 1 is equipped with the supporting seat for supporting frame 1, the internal cavity of cube is above-mentioned sealed chamber promptly, and the one end of this frame 1 is equipped with the pan feeding mouth, and the one end of sealed chamber is the pan feeding mouth promptly, and this pan feeding mouth is used for input material 5, and pan feeding door adaptation sets up in the pan feeding mouth, and the pan feeding door can close or open above-mentioned pan feeding mouth, and when the pan feeding door closure pan feeding mouth, the pan feeding door seals this sealed chamber.

Seal structure 2 is located in the seal chamber, seal structure 2 includes power device 22 and sealing door 21, this power device 22 can be motor or cylinder, power device 22 is connected with sealing door 21 to order about sealing door 21 and slide along the sealing chamber lateral wall, when sealing door 21 slided to sealing chamber bottom plate 11 and supported tightly bottom plate 11, cut apart into two sealed regions with the sealing chamber, wherein, a region is the pan feeding district that communicates the pan feeding mouth, another region is the district of getting with the priming device intercommunication.

The conveying structure can be composed of a power mechanism and a moving belt driven by the power mechanism, and is mainly used for conveying materials 5 entering from the feeding port to the liquid injection device, the conveying structure comprises a first conveying mechanism 31 and a second conveying mechanism 32, the first conveying mechanism 31 is arranged in the feeding area, one end of the moving belt is connected with the feeding port in an end-to-end mode, the other end of the moving belt extends from the feeding port to the sealing door 21, the other end of the moving belt is close to one side of the sealing door 21, the second conveying mechanism 32 is arranged in the material taking area, one end of the moving belt of the second conveying mechanism 32 is close to the other side of the sealing door 21, namely the first conveying mechanism 31 and the second conveying mechanism 32 are respectively arranged on two sides of the sealing door 21, when the sealing door 21 slides away from the bottom plate 11, the first conveying mechanism 31 is opposite to the second conveying mechanism 32 in an end-to-end mode, and then the materials 5, and then subsequently transferred by the second transfer mechanism 32.

The specific working process is as follows: the material inlet door is opened, the sealing door 21 slides downwards until the bottom plate 11 is closed so as to ensure that the internal air pressure meets the liquid injection condition, then the material 5 is input from the material inlet, usually the material 5 is placed in the material frame 6, when the material inlet door is closed, the sealing door 21 moves upwards to be opened, the material frame 6 is driven by the first conveying mechanism 31 to move to the position near the sealing door 21, as the first conveying mechanism 31 and the second conveying mechanism 32 move in the same direction, the material flow 5 can cross a gap between the first conveying mechanism and the second conveying mechanism, and the gap is used for being inserted for sealing when the sealing door 21 slides downwards to be closed, then is conveyed to the second conveying mechanism 32, and then is conveyed to the liquid injection device by the second conveying mechanism 32.

According to the feeding device provided by the invention, the first transmission mechanism 31 and the second transmission mechanism 32 which are opposite end to end are arranged, the sealing door 21 which can directly slide to the bottom plate 11 is arranged between the first transmission mechanism 31 and the second transmission mechanism 32, and the interior of the device is further divided into two sealed areas, so that the sealing door 21 is equivalent to the second gate of the feeding port, even if the feeding door is opened during feeding, the air pressure in the device is kept stable due to the sealing of the sealing door 21, the transmission of materials 5 is ensured, and the sealing performance of the feeding device is also ensured.

Preferably, the power device 22 is a lifting cylinder, the lifting cylinder is disposed on the top wall of the sealing chamber, the top end of the lifting cylinder is fitted on the top wall of the sealing chamber, the side edge of the lifting cylinder is fitted on the side wall of the upper half part of the sealing chamber, the lifting cylinder is located right above the sealing door 21, the sealing door 21 is fitted on the lower half part of the sealing chamber, the lower end of the lifting cylinder is connected with the upper end of the sealing door 21 and drives the sealing door 21 to move, and when the sealing door 21 moves downwards to contact the bottom plate 11 of the sealing chamber, the sealing door 21 and the lifting cylinder enclose and divide the sealing chamber into the feeding area and the material taking area.

In one embodiment, the sealing structure 2 includes a sliding rail 23, the sliding rail 23 is disposed on a side wall of the sealing chamber and is perpendicular to the bottom plate 11, specifically, the sliding rail 23 is disposed on two side walls of the sealing chamber, the sliding rail 23 is adapted to a side edge of the sealing door 21, and the power device 22 drives the sealing door 21 to slide up and down on the sliding rail 23, so that the sealing door 21 is opened or closed.

Preferably, the feeding device further comprises a first electromagnet, the first electromagnet is disposed on the sliding track 23, and specifically can be disposed along the track of the sliding track 23, the first electromagnet is electrically connected with a power supply, the sealing door 21 is made of metal material which can generate mutual magnetic force with the electromagnet, or a metal block which can generate mutual magnetic force with the electromagnet is arranged at the side edge of the sealing door 21, the position of the metal block is matched with the position of the first electromagnet, in this embodiment, the sealing door 21 is made of the metal material which can generate the mutual magnetic force with the electromagnet, when the sealing door 21 moves upwards along the sliding track 23 to be opened, the power supply is cut off, the first electromagnet does not work, when the sealing door 21 moves downwards to the bottom plate 11 and is closed, the power supply is switched on, the first electromagnet starts to work, thereby sucking the sealing door 21 and enabling the sealing door to be tightly attached to the sliding track 23, and further achieving the purpose of sealing.

In one embodiment, the bottom plate 11 protrudes a flange 110 toward the interior of the sealing chamber, in this embodiment, the flange 110 extends from one side wall of the sealing chamber to the other opposite side wall, the flange 110 is located beside the sealing door 21, and when the bottom end of the sealing door 21 abuts against the bottom plate 11, the side wall close to the bottom end of the sealing door 21 abuts against the flange 110, so as to achieve the limiting effect, and further seal the fetching area when the sealing door 21 is closed, and the flange 110 may protrude by 3cm to 6cm, preferably 5 cm.

Preferably, the side wall of the convex edge 110 is provided with a second electromagnet, and the second electromagnet is arranged on the side of the convex edge 110 facing the sealing door 21, and the second electromagnet is electrically connected to the power supply, similarly, the sealing door 21 is made of a metal material capable of generating a mutual magnetic force with the electromagnet, or a metal block capable of generating a mutual magnetic force with the electromagnet is arranged on the side edge of the sealing door 21, and the position of the metal block is matched with the position of the first electromagnet, in this embodiment, the sealing door 21 is made of the metal material capable of generating a mutual magnetic force with the electromagnet, and when the sealing door 21 is closed, and the side wall of the sealing door abuts against the convex edge 110, the second electromagnet is electrified and attracts the sealing door 21.

In one embodiment, the number of the transmission structures is four, the number of the sealing doors 21 is two, the two sealing doors 21 are arranged side by side, a chamber wall is arranged between the two sealing doors 21, the sliding rails 23 are correspondingly arranged on two sides of the two sealing doors 21, the four transmission structures are arranged side by side, the two transmission structures close to each other correspond to one sealing door 21, and the plurality of transmission mechanisms and the sealing doors 21 are arranged so that feeding transportation is accelerated and efficiency is improved.

In an embodiment, the feeding device includes a partition wall 24, one end of the partition wall 24 is disposed at the feeding port, and the other end of the partition wall 24 abuts against the middle position of the two sealing doors 21, that is, the partition wall abuts against the chamber wall between the two sealing doors 21, the upper end of the partition wall 24 abuts against the top wall of the sealing chamber, and the lower end abuts against the bottom plate 11 of the sealing chamber, so that the feeding area is divided into two sealing areas, each sealing area corresponds to one sealing door 21, the two sealing areas do not interfere with each other during the conveying process, and even if one of the two sealing areas is damaged, the other sealing area is not affected.

In one embodiment, a material taking structure is further included, the material taking structure is disposed in the material taking area, and the material taking structure is abutted with the second conveying mechanism 32 to obtain the material 5 conveyed on the second conveying mechanism 32. In one example, the material taking structure comprises a third transmission structure, the third transmission structure can also consist of a motor and a belt or a speed multiplying chain, and the third transmission structure is used as a transition structure and used for conveying the materials 5 to the liquid injection device; in another example, the material taking structure comprises a material taking manipulator which directly takes the material 5 from the second conveying mechanism 32 and then grabs and sends the material to the liquid injection device.

In another embodiment, the moving belts of the first transmission mechanism 31 and the second transmission mechanism 32 may be belts or double-speed chains, but the present invention is not limited thereto, in this embodiment, the transmission mechanism is composed of a moving motor and double-speed chains, the motor is connected to and drives the double-speed chains, and every two parallel double-speed chains form a group to form the moving belt; get the material structure including getting thing post and elevator motor, get the thing post and set up between being a set of two doubly fast chains together, elevator motor connects and gets the thing post to the drive gets thing post rebound, so that get the thing post and support two doubly fast materials 5 on the chain, material 5 this moment can place and in material frame 6, this 6 bottoms of material frame have and get the thing hole, get the thing post and rise and pass this and get the thing hole and can with 5 jack-ups of material, and drive material 5 and move upward and carry to priming device.

Preferably, the material conveying device further comprises a moving mechanism 4, the moving mechanism 4 is arranged beside one end of the second conveying mechanism, the end of the second conveying mechanism is opposite to the sealing door 21, the moving mechanism 4 comprises a supporting column 41, a driving device and a mechanical clamping jaw, the mechanical clamping jaw is a variable-distance clamping jaw, the mechanical clamping jaw is arranged on the supporting column 41, and the driving device is connected with the mechanical clamping jaw and controls the clamping jaw to grab the material 5 and the material frame 6.

Specifically, the during operation, elevator motor drives gets the thing post and reciprocates, when getting the thing post and moving down, gets the top of thing post and is less than the water flat line of doubly fast chain, and doubly fast chain can drive material frame 6 at this moment and remove to getting thing post top, when getting the thing post and shift up, gets the top of thing post and surpass the water flat line of doubly fast chain, continues up to move, pushes up material frame 6.

Furthermore, a detecting device, such as an infrared sensor, is included for detecting whether a certain location has the material 5, the detection device is arranged above the fetching column, when the fetching column props against the material 5 and moves upwards to reach a detection horizontal line which can be detected by the detection device, the mechanical jaws now remove the material 5, usually by placing a plurality of stacked materials 5 in a material frame 6, and when the first material 5 at the top is removed, the extraction column is raised further so that the second material 5 reaches the above-mentioned detection level, the second material 5 is removed again, at this time, the fetching column rises again to enable the third material 5 to reach the detection horizontal line, and so on until the detection device can not detect the material 5, the fetching column descends to the original position, the mechanical gripper then grabs the material frame 6 and places it to an exit belt, which may be a butt-joint exit transport structure.

The invention also provides a soft-package battery liquid filling machine which comprises the feeding device and the liquid filling device, wherein the liquid filling device is provided with a liquid filling station, the feeding device is in butt joint with the liquid filling device, and conveys the material 5 to the liquid filling device and is grabbed to the liquid filling station by the mechanical clamping jaw.

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

Claims (10)

1. A feeding device of a soft package battery liquid injection machine is characterized by comprising a rack, a feeding door, a sealing structure and a transmission structure for transmitting materials;

the machine frame is enclosed to form a sealed chamber, one end of the sealed chamber is provided with a feeding port, and the feeding door is suitable for being arranged at the feeding port;

the sealing structure is arranged in the sealing chamber and comprises a power device and a sealing door, the power device drives the sealing door to slide along the side wall of the sealing chamber, and when the sealing door slides to tightly abut against the bottom plate of the sealing chamber, the sealing chamber is divided into two sealed areas, wherein one area is a feeding area communicated with the feeding port, and the other area is an object taking area communicated with a liquid injection device of the soft-package battery liquid injection machine;

the conveying structure comprises a first conveying mechanism and a second conveying mechanism, the first conveying mechanism is arranged in the feeding area, one end of a moving belt of the first conveying mechanism is in butt joint with the feeding opening, the other end of the moving belt is close to one side of the sealing door, the second conveying mechanism is arranged in the material taking area, one end of a moving belt of the second conveying mechanism is close to the other side of the sealing door, and when the sealing door slides away from the bottom plate, the first conveying mechanism and the second conveying mechanism are opposite in head and tail.

2. The feeding device of the pouch battery filling machine according to claim 1, wherein the sealing structure comprises a sliding rail, the sliding rail is arranged on the side wall of the sealing chamber and perpendicular to the bottom plate, the sliding rail is matched with the side edge of the sealing door, and the power device drives the sealing door to slide on the sliding rail.

3. The feeding device of the pouch battery filling machine according to claim 2, further comprising a first electromagnet, wherein the first electromagnet is disposed on the sliding rail, the sealing door is made of a metal material which generates a mutual magnetic force when the sealing door and the electromagnet work, and when the sealing door slides to the bottom plate on the sliding rail, the first electromagnet starts to work to suck the sealing door.

4. A feeding device for a pouch cell filling machine according to claim 1, wherein said bottom plate has a raised edge protruding toward the interior of said sealing chamber, said raised edge is located beside said sealing door, and when the bottom end of said sealing door abuts against said bottom plate, the side wall of said sealing door abuts against said raised edge.

5. The feeding device of the soft package battery liquid filling machine according to claim 4, wherein a second electromagnet is arranged on the side wall of the convex edge, the second electromagnet faces the sealing door, the sealing door is made of a metal material which generates a mutual magnetic force when the sealing door works, and when the side wall of the sealing door abuts against the convex edge, the sealing door is sucked by the second electromagnet.

6. The feeding device of the pouch battery filling machine according to claim 1, wherein the number of the conveying structures is four, the number of the sealing doors is two, the four conveying structures are arranged side by side, and two conveying structures close to each other correspond to one sealing door.

7. The feeding device of the soft-package battery filling machine according to claim 6, further comprising a partition wall, wherein one end of the partition wall is arranged at the feeding port, and the other end of the partition wall abuts against the middle position of the two sealing doors, so that the feeding area is divided into two sealing areas, and each sealing area corresponds to one sealing door.

8. A feeding device of a soft-package battery filling machine as claimed in claim 1, further comprising a material taking structure, wherein the material taking structure is arranged in the material taking area, and the material taking structure is in butt joint with the second conveying mechanism to obtain the material conveyed on the second conveying mechanism.

9. The feeding device of the pouch battery filling machine according to claim 8, wherein the conveying structure comprises a motor and speed-multiplying chains, the motor is connected with the speed-multiplying chains, and every two side-by-side speed-multiplying chains form the moving belt in one group;

get the material structure including getting thing post and elevator motor, get the thing post set up in with be a set of two between the fast chain of doubly, elevator motor connects get the thing post, and drive get thing post rebound, so that get the thing post and support two material on the fast chain of doubly, and drive the material shifts up and carries extremely filling device.

10. The pouch battery filling machine is characterized by comprising a feeding device of the pouch battery filling machine according to any one of claims 1 to 9.

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