CN217562793U - Automatic wiping machine for battery liquid injection port - Google Patents

Abstract

The utility model discloses an automatic wiping machine for a battery liquid filling port, which comprises a synchronous transmission belt, a liquid filling station and a wiping station, wherein the synchronous transmission belt is arranged in a frame and comprises a first transmission belt and a second transmission belt which are in butt joint transmission; the liquid injection station is arranged above the first conveying belt; the wiping station is arranged above the second conveying belt; the wiping station comprises a first blocking mechanism, a wiping mechanism and a waste collecting component; the first blocking mechanism is positioned at the tail end of the second transmission belt and used for blocking and positioning the batteries; the wiping mechanism is arranged above the second conveying belt; the cloth feeding mechanism is arranged on one side of the wiping mechanism; the waste material collecting component is arranged below the wiping mechanism and used for receiving the wiped cloth; the utility model discloses can be automatically will dissolve liquid and pour liquid mouth department into, then vacuum adsorption subassembly washs the liquid mouth department of battery automatically through dissolving liquid after adsorbing dustless cloth, and whole unmanned contact has promoted the cleaning efficiency, has ensured operator's safety, and it is applied to the battery among the new energy automobile.

Description

Automatic wiping machine for battery liquid injection port

Technical Field

The utility model relates to a wiping machine especially relates to an automatic wiping machine that is used for battery to annotate liquid mouth.

Background

With the vigorous development of electric automobiles, the yield of the demand for batteries is more and more, and the batteries need to be subjected to liquid injection processing in the generation process of the batteries; after the battery is filled, the electrolyte remains in the battery filling opening, and the electrolyte is crystallized when passing through the air, so that the filling opening is blocked, the work of the subsequent process is easily influenced, and the process of wiping the electrolyte on the filling opening is needed.

At present, the wiping work of the liquid injection port in the battery production is mostly finished by manually wiping, the manual wiping efficiency is lower, meanwhile, the batteries are generated in large batch, the labor intensity of workers is high, the labor cost is high, and when the batteries are manually wiped, the human body is injured by contact of volatile gas and electrolyte in a production environment, so that the current wiping method for the batteries is not suitable for wiping requirements of the batteries in large batch in actual production.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art not enough and providing one kind can be automatic spout into battery notes liquid mouth department with dissolving liquid, then realize annotating liquid mouth automatic cleaning to the battery after the dustless cloth automatically cropped, clean efficiently, avoided user and harmful substance contact, improved the battery and cleaned the automatic wiping machine that is used for battery notes liquid mouth of efficiency.

In order to achieve the purpose, the utility model adopts the technical proposal that: an automatic wiping machine for a battery filling port, comprising in a frame:

the synchronous transmission belt comprises a first transmission belt and a second transmission belt which are in butt joint transmission, and is used for driving the transmission of the battery;

the liquid injection station is arranged above the first conveying belt and is used for injecting a solution into the liquid injection port of the battery;

the wiping station is arranged above the second conveying belt and used for wiping the battery liquid injection port by using a dissolving solution; wherein the wiping station comprises:

the first blocking mechanism is positioned at the tail end of the second transmission belt and used for blocking and positioning the batteries;

the wiping mechanism is arranged above the second conveying belt;

the cloth feeding mechanism is arranged on one side of the wiping mechanism; the cleaning mechanism is used for adsorbing the dust-free cloth and then cleaning a battery liquid injection port;

and the waste material collecting component is arranged below the wiping mechanism and used for receiving the wiped cloth.

Further, the wiping mechanism comprises a wiping rack, and a moving plate which can move in the Z-axis direction is arranged on the wiping rack; the movable plate is provided with a plurality of rotating motors capable of moving in the Z-axis direction, the rotating motors drive the vacuum adsorption assemblies to rotate, and the vacuum adsorption assemblies are used for adsorbing dust-free cloth sent out by the cloth feeding mechanism.

Furthermore, the cloth feeding mechanism comprises a cloth feeding wheel, and dust-free cloth is wound on the cloth feeding wheel; a plurality of guide rollers for driving the cloth feeding wheel to guide are arranged below the cloth feeding wheel, and a shearing assembly for shearing the dust-free cloth is arranged below the guide rollers; a material pressing component used for pressing the dust-free cloth is arranged in front of the shearing component; two bearing platforms for placing dust-free cloth are arranged below the material pressing assembly, and adsorption holes for adsorbing the dust-free cloth are formed in the bearing platforms;

the two bearing platforms are driven by the transverse sliding assembly to enable the dustless cloth sheared by the shearing assembly to be respectively adsorbed by the adsorption holes and then conveyed to the lower part of the wiping mechanism.

Further, the waste collecting assembly comprises a shielding plate which is fixedly arranged at the bottom of the wiping station; a feeding pipeline which can move back and forth through a sliding rail cylinder is arranged below the shielding plate, and two feeding holes are formed in the top of the feeding pipeline; wherein, the shielding plate shields the two feed inlets.

Further, annotate the liquid station and include:

the limiting assembly is arranged above the synchronous transmission belt and used for limiting and transmitting the batteries on the synchronous transmission belt;

the second blocking mechanism is arranged at the tail end of the limiting assembly and used for blocking and positioning the battery;

and the liquid injection mechanism is positioned above the limiting assembly and used for injecting liquid into the battery liquid injection port for processing.

Furthermore, the limiting assembly comprises two oppositely arranged guide strips; two ends of the guide strip are supported by upright rods, and the height of the guide strip can be adjusted on the upright rods;

the guide strip is provided with two adjusting grooves which are distributed oppositely, a first guide post with an adjustable transverse position is arranged in each adjusting groove, and the first guide post is arranged downwards; the bottom of the first guide column is provided with a first limiting strip, and the first limiting strip is provided with a row of guide battery transmission guide pieces; a second guide column is arranged between the two first guide columns; the second guide post is provided with a second limiting strip, and two sides of the second limiting strip are respectively provided with a row of guide pieces.

Further, the liquid injection mechanism comprises two liquid injection pipes which are oppositely arranged and the height of which can be adjusted; the liquid storage tank is arranged on the rack and is filled with a dissolving liquid; the liquid storage tank is communicated with the two liquid injection pipes and is used for conveying dissolved liquid into the liquid injection pipes.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

the utility model discloses an automatic wiping machine for battery annotates liquid mouth at first will dissolve liquid and pour into liquid mouth department into automatically, then with dustless cloth shearing back by the vacuum adsorption subassembly absorption, the vacuum adsorption subassembly drives dustless cloth and washs the liquid mouth department of battery automatically through dissolving liquid, whole unmanned contact has reduced the cost of labor, has promoted the cleaning efficiency, has ensured operator's safety.

Meanwhile, the utility model can clean two batteries at one time, further greatly improves the cleaning efficiency, has higher cleaning efficiency, and can meet the batch cleaning requirement of the batteries; the dust-free cloth after being used can be automatically collected, so that secondary utilization can be conveniently carried out subsequently, and the dust-free cloth is mainly applied to the field of batteries in new energy automobiles.

Drawings

The technical scheme of the utility model is further explained by combining the attached drawings as follows:

fig. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a perspective view of FIG. 1 from another perspective;

fig. 3 is a schematic view of an internal structure of an embodiment of the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3;

fig. 5 is a schematic perspective view of a limiting assembly according to an embodiment of the present invention;

fig. 6 is a schematic view of a three-dimensional structure assembled with the liquid spraying tube after a single battery is limited on the limiting component in an embodiment of the present invention

Fig. 7 is a schematic structural diagram of a first blocking mechanism according to an embodiment of the present invention;

FIG. 8 is a perspective view of FIG. 3 from another perspective;

FIG. 9 is a schematic view of the assembly of the wiping mechanism, the cloth feeding mechanism and the garbage collection mechanism according to an embodiment of the present invention;

FIG. 10 is a perspective view of FIG. 9 from another perspective;

FIG. 11 is a schematic view of the assembly of the wiping mechanism and the garbage collection mechanism according to an embodiment of the present invention;

fig. 12 is a schematic perspective view of the waste collection mechanism in an embodiment of the present invention, with the shielding plate omitted;

fig. 13 is a schematic perspective view illustrating a connection between two load-bearing platforms according to an embodiment of the present invention;

wherein: the device comprises a synchronous conveyor belt 1, a liquid injection station 2, a wiping station 3, a battery 5, a frame 6, a first conveyor belt 10, a second conveyor belt 11, a limiting component 20, a second blocking mechanism 21, a liquid injection mechanism 22, a first blocking mechanism 30, a wiping mechanism 31, a cloth feeding mechanism 32, a liquid injection port 50, a guide strip 201, an upright rod 202, an adjusting groove 201a, a first guide column 203, a second guide column 204, a first limiting strip 205, a guide piece 206, a second limiting strip 207, a blocking cylinder 210, a blocking block 212, a liquid injection pipe 220, a liquid storage tank 221, a wiping frame 310, a rotating motor 311, a vacuum adsorption component 312, a moving plate 313, a cloth feeding wheel 320, a guide roller 321, a shearing component 322, a bearing platform 323, a material pressing component 324, an adsorption hole 323a, a material port transverse sliding component 325, a shielding plate 330, a feeding pipelines 331, 332 and a slide rail cylinder 333.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-2, an automatic wiping machine for a battery liquid filling port according to an embodiment of the present invention includes a synchronous conveyor belt 1, a liquid filling station 2, and a wiping station 3; the synchronous conveyor belt 1 comprises a first conveyor belt 10 and a second conveyor belt 11 which are butted for conveying, and is used for driving the conveying of the batteries 5 during liquid injection and wiping; the liquid injection station 2 is arranged above the first conveying belt 10 and is used for injecting a dissolving liquid into the liquid injection port 50 of the battery 5; the wiping station 3 is disposed above the second conveyor belt 11 and is used for wiping the liquid injection port 50 on the battery 5 with the solution.

Referring to fig. 3-6, the liquid injection station 2 includes a limiting assembly 20, a second blocking mechanism 21 and a liquid injection mechanism 22; the limiting component 20 is arranged above the first transmission belt 10, and the limiting component 20 is used for limiting the position when the battery 5 is transmitted on the first transmission belt 10; the limiting assembly 20 comprises two guide bars 201 which are arranged in parallel, two ends of each guide bar 201 are supported by an upright rod 202, the height of each guide bar 201 can be adjusted on the upright rod 201, scales are arranged on the upright rods 202, and the height of the guide bars 201 which can be adjusted up and down can be accurately determined through the scales; the height of the guide strips 201 is adapted to the height of the batteries 5, with which different heights of the batteries 5 can be adapted.

In addition, the guide strip 201 is provided with an adjusting groove 201a which is relatively linearly distributed, a first guide column 203 which is vertically and downwards arranged with the guide strip 201 is arranged in the adjusting groove 201a, and the transverse position of the first guide column 203 can be adjusted in the adjusting groove 201 a; the bottom of the first guide column 203 is provided with a first limiting strip 205, and the first limiting strip 205 is provided with a row of guide elements 206 distributed along the limiting strip 205; further, a second guide post 204 is provided between the two first guide posts 203, a second stopper 207 is provided on the second guide post 204, and a row of guide members 206 is provided on both sides of the second stopper 207.

The guide member 206 in this embodiment includes a guide shaft, two ends of the guide shaft have guide rollers to guide the battery, and the two guide posts 203 in the adjustment groove 201a can be adjusted in the transverse position, so as to adapt to batteries with different widths.

When two batteries enter the first conveyor belt 10, the left battery 5 can be guided and conveyed by the guide elements 206 located on the right side of the first limiting strip 205 and the left side of the second limiting strip 207 at the left end, and the right battery can be guided and conveyed by the guide elements 206 located on the left side of the first limiting strip 205 and the right side of the second limiting strip 207 at the right end, so that the synchronous guiding and conveying of the two batteries 5 on the first conveyor belt 10 is realized.

In addition, referring to fig. 3 and 7, the end of the first conveyor belt 10 is provided with two second blocking mechanisms 21 which are symmetrically arranged, each second blocking mechanism 21 is composed of two opposite blocking cylinders 210, the front ends of the blocking cylinders 210 are provided with blocking blocks 212 which block the batteries 5, and when the two batteries 5 are conveyed on the first conveyor belt 10 in place, the blocking cylinders 210 push out the blocking blocks 212, so that the two batteries are blocked and limited, the batteries are positioned below the liquid injection mechanism, and the subsequent liquid injection processing is facilitated; when the blocking block 202 blocks the battery 5, the blocking block 212 and the battery 5 are obliquely arranged, so that the battery 5 can be blocked and positioned more quickly and effectively.

Referring to fig. 3-4, the liquid injection mechanism 22 is disposed above the limiting component 20, the liquid injection mechanism 22 includes two liquid injection pipes 220 disposed above the battery 5, the height of the liquid injection pipes 220 is adjustable, the liquid storage tank 221 is disposed on the rack 6, the liquid storage tank 221 stores liquid medicine for cleaning the liquid injection port of the battery, and the liquid in this embodiment is DEC solution; DEC dissolved solution in the liquid storage tank 221 is transmitted into the liquid injection pipe 220, and then is sent to the liquid injection port of the battery 5 from the outlet at the bottom of the liquid injection pipe 220, so that the liquid injection processing of the liquid injection port of the battery 5 is realized.

Referring to fig. 8-10, the wiping station 3 in this embodiment includes a first blocking mechanism 30, a wiping mechanism 31, and a cloth feeding mechanism 32; the first blocking mechanism 30 is arranged at the tail end of the second conveying belt 11 and used for blocking and positioning the batteries 5 conveyed in place on the second conveying belt 11, blocking the batteries 5 below the wiping mechanism 31, and then wiping the batteries 5 by the wiping mechanism 31, wherein the first blocking mechanism 30 and the second blocking mechanism 21 are identical in structure and function.

Referring to fig. 11, the wiping mechanism 31 is disposed above the second conveyor belt 11, the wiping mechanism 31 includes a wiping frame 310, a moving plate 313 capable of moving in the Z-axis direction is disposed on the wiping frame 310, two vertically disposed rotating motors 311 capable of moving in the Z-axis direction are disposed on the moving plate 313, and the rotating motors 311 drive the vacuum adsorption assembly 312 at the bottom thereof to rotate, so that the vacuum adsorption assembly 312 can move in two stages on the Z-axis, and the requirements of the vacuum adsorption assembly 312 at different Z-axis positions are met; in operation, the vacuum absorption assembly 312 absorbs the dust-free cloth provided by the cloth feeding mechanism 32 after moving in the Z-axis direction, and then the rotating motor 11 can drive the dust-free cloth to rotate synchronously.

Referring to fig. 9,10 and 13, the cloth feeding mechanism 32 is disposed at one side of the wiping mechanism 31, the cloth feeding mechanism 32 includes a cloth feeding wheel 320, a dust-free cloth is wound around the cloth feeding wheel 320, the cloth feeding wheel 320 feeds the dust-free cloth to the shearing assembly 322 through a plurality of guide rollers 321, and penetrates out and is disposed on the bearing platform 323, a material pressing assembly 324 is disposed above the bearing platform 323, the material pressing assembly 324 presses the dust-free cloth onto a first bearing platform 323, an adsorption hole 323a on the first bearing platform 323 adsorbs the dust-free cloth, and then the shearing assembly 322 shears the cloth to complete placement of the dust-free cloth on the first bearing platform 323.

Then, the first bearing platform 323 moves to the left side through the transverse sliding assembly 325, so that the second bearing platform 323 is located below the material pressing assembly 324, and the placement of the dust-free cloth on the second bearing platform 323 is the same as the operation of the dust-free cloth placed on the first bearing platform 323, thereby completing the placement of the dust-free cloth on the two bearing platforms 323.

When the transverse sliding assembly 325 sends the two dust-free cloths to the lower part of the wiping mechanism 31, the vacuum adsorption assembly 312 in the wiping mechanism 31 moves downwards to adsorb the dust-free cloths, then the two bearing platforms 323 return, the dust-free cloths adsorbed by the vacuum adsorption assembly 312 are used for rotationally wiping the liquid injection ports of the batteries 5 through the rotating motor 311, and the batteries 5 can be cleaned at one time.

Referring to fig. 11-12, a waste collection assembly 33 is further disposed below the wiping mechanism 31, the waste collection assembly 33 includes a shielding plate 330, the shielding plate 330 is fixedly disposed at the bottom of the moving plate 313, a feeding duct 331 capable of moving back and forth through a slide cylinder 333 is disposed below the shielding plate 330, two feeding ports 332 are disposed at the top of the feeding duct 331, and the shielding plate 330 just covers the feeding ports 332.

In an initial state, the two feed ports 332 on the feed pipeline 331 are shielded by the shielding plate 330, and after the dust-free cloth adsorbed by the vacuum adsorption component 312 is used, the slide rail cylinder 333 pushes the feed pipeline 331 forward to enable the two feed ports 332 to be located right below the two dust-free cloth, and then the vacuum adsorption component 312 is closed, so that the two dust-free cloth falls into the feed pipeline 331 through the feed ports 332 and is sent out; collection of the used dust free cloth is accomplished by the waste collection assembly 32,

the utility model discloses a work flow as follows:

firstly, the limiting assembly drives the two batteries to be transmitted on the first transmission belt, and the second blocking mechanism is used for blocking and limiting, so that the two batteries are located below the liquid injection station.

And a liquid injection pipe in the liquid injection mechanism sprays the dissolved liquid to a liquid injection port of the battery.

The second blocking mechanism returns, the two batteries are conveyed to the second conveying belt and then are blocked and limited by the first blocking mechanism, and the two batteries are located below the wiping station.

The cloth feeding mechanism cuts the cloth into small squares of which the number is 20 multiplied by 20, the small squares are fed onto the two bearing platforms, the cloth is fed below the vacuum adsorption component, the dust-free cloth is adsorbed below the vacuum adsorption component, and the bearing platforms return.

The vacuum adsorption component carries the dust-free cloth to move and rotate in the Z-axis direction, so that the liquid injection port of the battery is wiped.

After the cleaning is finished, the first blocking mechanism returns, the battery is continuously transmitted out, and used dust-free cloth is sent to the waste material collecting assembly to be collected, so that the cleaning of the battery liquid injection port is automatically finished.

Can find out through foretell use, the utility model discloses an automatic wiping machine for battery annotates liquid mouth, at first whole process is full automation operation, realized dissolving liquid automatic injection to annotate liquid mouth department, can be automatically cut dustless cloth the back and adsorb by the vacuum adsorption subassembly simultaneously, then the vacuum adsorption subassembly drives dustless cloth and washs the liquid mouth department of annotating of battery through dissolving liquid is automatic, whole unmanned manual contact has reduced the cost of labor, the cleaning efficiency has been promoted, operator's safety has been ensured.

In addition, can once also once can spacing two batteries synchronous transmission to once can wash two batteries, further promote the cleaning efficiency greatly, the cleaning efficiency is higher, can satisfy the batched demand of cleaning of battery.

The utility model discloses can also collect the dustless cloth after using automatically, the follow-up reutilization that can carry out of being convenient for.

The utility model discloses an automatic wiping machine for battery annotates liquid mouth mainly is applied to the battery among the new forms of energy electric automobile.

The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (7)

1. The utility model provides an automatic wiping machine for liquid mouth is annotated to battery which characterized in that, including locating in the frame:

the synchronous transmission belt comprises a first transmission belt and a second transmission belt which are in butt joint transmission, and is used for driving the transmission of the battery;

the liquid injection station is arranged above the first conveying belt and is used for injecting a solution into the liquid injection port of the battery;

the wiping station is arranged above the second conveying belt and used for wiping the battery liquid injection port by using a dissolving solution; wherein the wiping station comprises:

the first blocking mechanism is positioned at the tail end of the second conveying belt and used for blocking and positioning the batteries;

the wiping mechanism is arranged above the second conveying belt;

the cloth feeding mechanism is arranged on one side of the wiping mechanism; the cleaning mechanism is used for adsorbing the dust-free cloth and then cleaning a battery liquid injection port;

and the waste material collecting component is arranged below the wiping mechanism and used for receiving the wiped cloth.

2. The automatic wiper for a battery pour port of claim 1, wherein: the wiping mechanism comprises a wiping rack, and a moving plate which can move in the Z-axis direction is arranged on the wiping rack; the movable plate is provided with a plurality of rotating motors capable of moving in the Z-axis direction, the rotating motors drive the vacuum adsorption assemblies to rotate, and the vacuum adsorption assemblies are used for adsorbing dust-free cloth sent out by the cloth feeding mechanism.

3. The automatic wiper for a battery pour port of claim 1, wherein: the cloth feeding mechanism comprises a cloth feeding wheel, and dust-free cloth is wound on the cloth feeding wheel; a plurality of guide rollers for driving the cloth feeding wheel to guide are arranged below the cloth feeding wheel, and a shearing assembly for shearing the dust-free cloth is arranged below the guide rollers; a material pressing component used for pressing the dust-free cloth is arranged in front of the shearing component; two bearing platforms for placing dust-free cloth are arranged below the material pressing assembly, and adsorption holes for adsorbing the dust-free cloth are formed in the bearing platforms;

and the two bearing platforms are driven by the transverse sliding assembly to convey the dustless cloth sheared by the shearing assembly to the lower part of the wiping mechanism after being respectively adsorbed by the adsorption holes.

4. The automatic wiper for a battery pour port of claim 1, wherein: the waste collecting assembly comprises a shielding plate which is fixedly arranged at the bottom of the wiping station; a feeding pipeline which can move back and forth through a sliding rail cylinder is arranged below the shielding plate, and two feeding holes are formed in the top of the feeding pipeline; wherein, the shielding plate shields the two feed inlets.

5. The automatic wiper for battery pour spout of claim 1, wherein said pour station comprises:

the limiting assembly is arranged above the synchronous transmission belt and used for limiting and transmitting the plurality of batteries on the synchronous transmission belt;

the second blocking mechanism is arranged at the tail end of the limiting assembly and used for blocking and positioning the battery;

and the liquid injection mechanism is positioned above the limiting assembly and used for injecting liquid into the battery liquid injection port for processing.

6. The automatic wiper for a battery pour port of claim 5, wherein: the limiting assembly comprises two oppositely arranged guide strips; two ends of the guide strip are supported by upright rods, and the height of the guide strip can be adjusted on the upright rods;

the guide strip is provided with two adjusting grooves which are distributed oppositely, a first guide post with an adjustable transverse position is arranged in each adjusting groove, and the first guide post is arranged downwards; the bottom of the first guide post is provided with a first limiting strip, and the first limiting strip is provided with a row of guide battery transmission guide pieces; a second guide post is arranged between the two first guide posts; the second guide post is provided with a second limiting strip, and two sides of the second limiting strip are respectively provided with a row of guide pieces.

7. The automatic wiper for a battery pour port of claim 5, wherein: the liquid injection mechanism comprises two liquid injection pipes which are oppositely arranged and adjustable in height; the liquid storage tank is arranged on the rack and is filled with a dissolving liquid; the liquid storage tank is communicated with the two liquid injection pipes and is used for conveying dissolved liquid into the liquid injection pipes.

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