CN108704883B - Storage battery automatic cleaning and blow-drying device based on scroll support bars - Google Patents

Storage battery automatic cleaning and blow-drying device based on scroll support bars Download PDF

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Publication number
CN108704883B
CN108704883B CN201810479700.1A CN201810479700A CN108704883B CN 108704883 B CN108704883 B CN 108704883B CN 201810479700 A CN201810479700 A CN 201810479700A CN 108704883 B CN108704883 B CN 108704883B
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China
Prior art keywords
support
storage battery
arc
shell
cleaning
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CN201810479700.1A
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CN108704883A (en
Inventor
许仁贤
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ZHEJIANG JUST ELECTRICAL APPLIANCES CO Ltd
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ZHEJIANG JUST ELECTRICAL APPLIANCES CO Ltd
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Priority to CN202010412892.1A priority Critical patent/CN111570367B/en
Priority to CN201810479700.1A priority patent/CN108704883B/en
Publication of CN108704883A publication Critical patent/CN108704883A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B3/00Cleaning by methods involving the use or presence of liquid or steam
    • B08B3/02Cleaning by the force of jets or sprays
    • B08B3/022Cleaning travelling work
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B15/00Machines or apparatus for drying objects with progressive movement; Machines or apparatus with progressive movement for drying batches of material in compact form
    • F26B15/10Machines or apparatus for drying objects with progressive movement; Machines or apparatus with progressive movement for drying batches of material in compact form with movement in a path composed of one or more straight lines, e.g. compound, the movement being in alternate horizontal and vertical directions
    • F26B15/12Machines or apparatus for drying objects with progressive movement; Machines or apparatus with progressive movement for drying batches of material in compact form with movement in a path composed of one or more straight lines, e.g. compound, the movement being in alternate horizontal and vertical directions the lines being all horizontal or slightly inclined
    • F26B15/14Machines or apparatus for drying objects with progressive movement; Machines or apparatus with progressive movement for drying batches of material in compact form with movement in a path composed of one or more straight lines, e.g. compound, the movement being in alternate horizontal and vertical directions the lines being all horizontal or slightly inclined the objects or batches of materials being carried by trays or racks or receptacles, which may be connected to endless chains or belts
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B21/00Arrangements or duct systems, e.g. in combination with pallet boxes, for supplying and controlling air or gases for drying solid materials or objects
    • F26B21/004Nozzle assemblies; Air knives; Air distributors; Blow boxes

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Secondary Cells (AREA)
  • Cleaning By Liquid Or Steam (AREA)
  • Cleaning In General (AREA)

Abstract

The invention belongs to the technical field of cleaning and drying of storage batteries, and particularly relates to an automatic storage battery cleaning and drying device based on a scroll support bar, which comprises a support mechanism, a cleaning support shell, an installation shell, a belt, driving wheels and a drying support shell, wherein when a driving motor works in the process of using the storage battery cleaning and drying device designed by the invention, the driving motor can drive one driving wheel connected with the driving wheel to rotate through an output shaft; the driving wheel rotates to drive the belt to move; the belt moves to drive the supporting mechanism arranged on the belt to move; the support mechanism moves to drive the storage battery to move; in the moving process of the storage battery, the storage battery is cleaned and dried through the first spray head, the second spray head, the third spray head and the air blowing port, so that cleaning liquid is saved; meanwhile, the sulfuric acid can not generate stimulating gases such as SO2 and the like in the heating decomposition process; the working environment around the conveyor belt is protected.

Description

Storage battery automatic cleaning and blow-drying device based on scroll support bars
Technical Field
The invention belongs to the technical field of cleaning and drying of storage batteries, and particularly relates to an automatic storage battery cleaning and drying device based on a scroll support strip.
Background
In the preparation process of the storage battery, dilute sulfuric acid is generally required to be filled into the shell of the storage battery to serve as an electrolyte, but because the shell is not transparent, the filling amount of the dilute sulfuric acid is difficult to directly observe in the filling process, so that the dilute sulfuric acid is easy to overflow, and a certain amount of dilute sulfuric acid residual liquid exists on the surface of the shell of the prepared storage battery.
Aiming at the problems, the scheme adopted in the prior art is to add an electric heating cover which is buckled on a storage battery conveying belt, and when the storage battery passes through the electric heating cover, the dilute sulfuric acid residual liquid can be evaporated under the action of heat of the electric heating cover so as to ensure the cleanliness of a storage battery shell. However, the sulfuric acid generates an irritant gas such as SO2 during the thermal decomposition, which seriously damages the working environment around the conveyor belt and is not favorable for environmental protection.
The invention designs a storage battery automatic cleaning and blow-drying device based on scroll support strips, which solves the problems.
Disclosure of Invention
In order to overcome the defects in the prior art, the invention discloses a storage battery automatic cleaning and drying device based on a scroll support strip, which is realized by adopting the following technical scheme.
The utility model provides a battery self-cleaning weathers device based on scrollwork support strip which characterized in that: the device comprises a supporting mechanism, a cleaning supporting shell, an installation shell, a belt, driving wheels, a drying supporting shell, a connecting block, a supporting block, an arc-shaped supporting plate, a flow guide arc-shaped plate, a first spray head, a second spray head, a blowing head, a third spray head and a guide block, wherein two driving wheels are fixedly arranged on the supporting frame, and one of the two driving wheels is connected with an output shaft of a driving motor; the belt is arranged on the two driving wheels; a plurality of supporting mechanisms are uniformly arranged on the outer side surface of the belt; the mounting shell is U-shaped and is mounted on the support frame through the end face of the outer side of the mounting shell; the mounting shell is matched with the belt; the connecting block is arranged on the upper side surface of one end in the mounting shell.
The cleaning support shell is arc-shaped, and two symmetrical inclined guide plates are arranged on the end surface of the bottom side of the cleaning support shell; the cleaning support shell is arranged on the lower side of the connecting block through the outer arc surface of the cleaning support shell; two groups of symmetrical second spray heads are arranged on the inner arc surface of the cleaning support shell, and the second spray heads of each group of second spray heads in the two groups of second spray heads are uniformly distributed along the moving direction of the belt; the two flow guide arc plates are symmetrically arranged on the inner arc surface of the cleaning support shell through one ends of the two flow guide arc plates; the two flow guide arc plates are respectively matched with the two groups of second nozzles; a plurality of first spray heads are uniformly arranged in the middle of the two flow guide arc-shaped plates along the moving direction of the belt.
The blow-drying support shell is U-shaped, and two support blocks are symmetrically arranged on two symmetrical side surfaces of the outer side of the blow-drying support shell; the blow-drying supporting shell is arranged on the inner side of the other end of the mounting shell through two supporting blocks; two groups of blowing heads are symmetrically arranged on two mutually symmetrical side surfaces in the blow-drying supporting shell, and the blowing heads in each group of blowing heads in the two groups of blowing heads are uniformly distributed along the moving direction of the belt; two groups of blowing heads are arranged on the upper side surface in the blow-drying support shell, the blowing heads in each group of blowing heads in the two groups of blowing heads are uniformly distributed along the moving direction of the belt, and the mounting directions of the two groups of blowing heads arranged on the upper side surface in the blow-drying support shell are the same; the two arc-shaped supporting plates are symmetrically arranged on two mutually symmetrical end surfaces at the lower side of the mounting shell; a plurality of third spray heads are uniformly arranged on the inner arc surfaces at one ends of the two arc-shaped supporting plates and matched with the cleaning supporting shell; a plurality of blowing heads are uniformly arranged on the inner cambered surfaces of the other ends of the two arc-shaped supporting plates and matched with the blow-drying supporting shell; the two guide blocks are respectively arranged at the lower sides of the two arc-shaped supporting plates and are symmetrical to each other; the accumulator is arranged on the upper side of the supporting mechanism.
The supporting mechanism comprises a scroll supporting strip, a driving motor, a guide groove, a supporting and mounting block, a shaft hole, a mounting groove, a first differential, a second differential, a first rotating shaft, a first support, a second rotating shaft, a third rotating shaft, a second support and a partition plate, wherein the mounting groove is formed in the inner side of the supporting and mounting block; four shaft holes are formed in the upper side face of the mounting groove; the four shaft holes are positioned at four corners of the mounting support block; two guide grooves are symmetrically formed in the two side faces of the support mounting block; the supporting and mounting block is mounted on the belt; the two guide grooves are respectively matched with two guide blocks arranged on the two arc-shaped supporting plates; the driving motor is arranged on the inner lower side surface of the mounting groove; the first differential is arranged on an output shaft of the driving motor; the two second rotating shafts are symmetrically arranged in the mounting groove through the two first supports, and one ends of the two second rotating shafts are respectively connected with output shafts on two sides of the first differential; the two second differentials are respectively arranged at the other ends of the two second rotating shafts; two output shafts on two sides of each second differential mechanism are respectively provided with a first rotating shaft; one ends of the four third rotating shafts are respectively arranged on the inner side of the mounting groove through a second support, and the four third rotating shafts are meshed with the four first rotating shafts through bevel teeth; the other ends of the four third rotating shafts penetrate through shaft holes formed in the supporting and mounting block and are positioned on the upper side of the supporting and mounting block; a plurality of partition plates are uniformly arranged between the adjacent arc surfaces on the four scroll support bars; the four scroll support bars are respectively arranged on the upper side surface of the support mounting block, and the inner ends of the four scroll support bars are connected with the four third rotating shafts.
The first rotating shaft, the second rotating shaft and the third rotating shaft are internally provided with sensors.
And a gap of 0.7 mm is formed between the other ends of the two flow guide arc plates and the inner arc surface of the cleaning support shell.
The two groups of second spray heads arranged on the cleaning support shell are respectively matched with the two flow guide arc plates; the first spray head arranged on the cleaning support shell is matched with the upper side surface of the storage battery; two groups of blowing heads arranged on the two side surfaces of the blowing support shell are respectively matched with the two side surfaces of the storage battery; the two groups of blowing heads arranged on the upper side surface of the blowing support shell are matched with the upper side surface of the storage battery; the third spray head arranged on the arc-shaped support plate is matched with the lower side surface of the storage battery; the blowing head arranged on the arc-shaped supporting plate is matched with the lower side surface of the storage battery; a gap of 0.7 mm is formed between the two inclined guide plates on the end surface of the bottom side of the cleaning support shell and the two side surfaces of the storage battery; a gap of 0.7 mm is provided between the two arc-shaped support plates and the lower side surface of the storage battery.
As a further improvement of the technology, the two inclined guide plates on the bottom end surface of the cleaning support shell form an angle of 65 degrees with the two side surfaces of the storage battery; the function of the cleaning agent is to ensure that more cleaning fluid is adhered to the two side surfaces of the storage battery; one end of the two arc-shaped supporting plates, which is matched with the storage battery, forms a 65-degree angle with the lower side surface of the storage battery; the function of the cleaning agent is to ensure that more cleaning fluid is adhered to the lower side surface of the storage battery; one end of the two flow guide arc plates, which is matched with the cleaning support shell, forms a 65-degree angle with the inner arc surface of the cleaning support shell; the function of the cleaning support shell is to ensure that more cleaning liquid is adhered to the inner cambered surface of the cleaning support shell.
As a further improvement of the technology, the axes of the two groups of blowing heads arranged on the upper side surface of the blow-drying supporting shell form an included angle of 30 degrees with the upper side surface of the storage battery; the function of the air-cooled storage battery is to ensure that more wind blows to the upper side surface of the storage battery; the axes of the two groups of blowing heads arranged on the two side surfaces of the blowing support shell form an included angle of 30 degrees with the two side surfaces of the storage battery; the function of the device is to ensure that more wind blows to the two side surfaces of the storage battery; an included angle of 30 degrees is formed between the axis of the third spray head arranged on the arc-shaped support plate and the lower side surface of the storage battery; the function of the cleaning agent is to ensure that more cleaning fluid is adhered to the lower side surface of the storage battery; an included angle of 30 degrees is formed between the axis of the blowing head arranged on the arc-shaped supporting plate and the lower side surface of the storage battery; the function of which is to ensure that more wind is blown onto the lower side of the battery.
As a further improvement of the present technology, the water injection amount of the first nozzle is smaller than the water injection amount of the second nozzle.
As a further improvement of the technology, the arc-shaped supporting plate is provided with uniformly distributed water drainage holes.
Two driving wheels are fixedly arranged on a supporting frame, and one of the two driving wheels is connected with an output shaft of a driving motor; the belt is arranged on the two driving wheels; a plurality of supporting mechanisms are uniformly arranged on the outer side surface of the belt; the mounting shell is mounted on the support frame through the outer end face of the mounting shell; the connecting block is arranged on the upper side surface of one end in the mounting shell; the cleaning support shell is arranged on the lower side of the connecting block through the outer arc surface of the cleaning support shell; two groups of symmetrical second spray heads are arranged on the inner arc surface of the cleaning support shell; the two flow guide arc plates are symmetrically arranged on the inner arc surface of the cleaning support shell through one ends of the two flow guide arc plates; the two flow guide arc plates are respectively matched with the two groups of second nozzles; a plurality of first spray heads are uniformly arranged between the two flow guide arc-shaped plates along the moving direction of the belt; the blow-drying supporting shell is arranged on the inner side of the other end of the mounting shell through two supporting blocks; two groups of blowing heads are symmetrically arranged on two symmetrical side surfaces in the blow-drying supporting shell; two groups of blowing heads are arranged on the upper side surface in the blow-drying supporting shell; the two arc-shaped supporting plates are symmetrically arranged on two mutually symmetrical end surfaces at the lower side of the mounting shell; a plurality of third spray heads are uniformly arranged on the inner arc surfaces at one ends of the two arc-shaped supporting plates; a plurality of air blowing heads are uniformly arranged on the inner cambered surfaces at the other ends of the two arc-shaped supporting plates; the storage battery is arranged on the upper side of the supporting mechanism; when the driving motor works, the driving motor can drive one driving wheel connected with the driving motor to rotate through the output shaft; the driving wheel rotates to drive the belt to move; the belt moves to drive the supporting mechanism arranged on the belt to move; the storage battery is arranged on the upper side of the supporting mechanism; the support mechanism moves to drive the storage battery to move; in the moving process of the storage battery, when the storage battery moves to the inner side of the cleaning support shell, the first spray head and the second spray head which are arranged on the cleaning support shell are controlled to spray cleaning liquid, and meanwhile, the third spray head which is arranged on the arc-shaped support plate is controlled to spray cleaning liquid; cleaning dilute sulfuric acid adhered to the shell of the storage battery by cleaning fluid sprayed by the first spray head, the second spray head and the third spray head; when the storage battery moves to the inner side of the blow-drying support shell, the blowing head arranged on the blow-drying support shell is controlled to blow air, and meanwhile, the blowing head arranged on the arc-shaped support plate is controlled to blow air; the storage battery is dried by wind blown by a wind blowing head arranged on a drying support shell and a wind blowing head arranged on an arc-shaped support plate; in the invention, cleaning liquid sprayed by two groups of second spray heads arranged on the inner cambered surface of the cleaning support shell can be sprayed on the two corresponding flow guide arc plates; guiding the cleaning liquid sprayed out by the second spray head to the inner cambered surface of the cleaning support shell through the flow guide arc-shaped plate; the cleaning liquid on the inner arc surface of the cleaning support shell flows to the two side surfaces of the storage battery along the inner arc surface of the cleaning support shell, and then dilute sulfuric acid adhered to the two sides of the storage battery is cleaned; cleaning liquid sprayed by a first spray head arranged between the two flow guide arc-shaped plates can be sprayed on the upper side surface of the storage battery, so that dilute sulfuric acid adhered to the upper side of the storage battery is cleaned; cleaning liquid sprayed by a third spray head arranged on the inner arc surfaces at one ends of the two arc-shaped supporting plates can be sprayed onto the lower side surface of the storage battery, so that dilute sulfuric acid adhered to the lower side of the storage battery is cleaned; the cleaning liquid on the two side surfaces of the storage battery can be blown by the air blown by the two groups of air blowing heads arranged on the two side surfaces of the blow-drying support shell, so that the cleaning liquid on the two side surfaces of the storage battery can fall off, and the two side surfaces of the storage battery can be blow-dried; the cleaning liquid on the upper side surface of the storage battery can be blown by the wind blown by the two groups of wind blowing heads arranged on the upper side surface in the blow-drying support shell, so that the cleaning liquid on the upper side surface of the storage battery falls off, and the upper side surface of the storage battery is blow-dried; the wind that the head that blows who installs on the intrados of two arc backup pads other ends blew out can blow the washing liquid on the battery downside for washing liquid on the battery downside drops, and then weathers the downside of battery and handles.
The supporting and mounting block is arranged on the belt; the driving motor is arranged on the inner lower side surface of the mounting groove; the first differential is arranged on an output shaft of the driving motor; the two second rotating shafts are symmetrically arranged in the mounting groove through the two first supports, and one ends of the two second rotating shafts are respectively connected with output shafts on two sides of the first differential; the two second differentials are respectively arranged at the other ends of the two second rotating shafts; two output shafts on two sides of each second differential mechanism are respectively provided with a first rotating shaft; one ends of the four third rotating shafts are respectively arranged on the inner side of the mounting groove through a second support, and the four third rotating shafts are meshed with the four first rotating shafts through bevel teeth; the other ends of the four third rotating shafts penetrate through shaft holes formed in the supporting and mounting block and are positioned on the upper side of the supporting and mounting block; a plurality of partition plates are uniformly arranged between the adjacent arc surfaces on the four scroll support bars; the four scroll support bars are respectively arranged on the upper side surfaces of the support mounting blocks, and the inner ends of the four scroll support bars are connected with the four third rotating shafts; when the driving motor works, the driving motor drives the two second rotating shafts to rotate through the first differential mechanism; the two second rotating shafts rotate and drive the four first rotating shafts to rotate through the two second differentials; the four first rotating shafts rotate to drive the four third rotating shafts to rotate; the four third rotating shafts drive the four scroll support bars to rotate, and the four scroll support bars are used for rotating to enable the lower side of the storage battery to be fully cleaned and dried when the storage battery passes through the cleaning support shell and the drying support shell; the partition plate plays a role in supporting the corresponding scroll support strip to prevent the scroll support strip from deforming; the guide block and the guide groove have the function of guiding and supporting the supporting mechanism.
In the invention, inductors are arranged in the first rotating shaft, the second rotating shaft and the third rotating shaft; when the four scroll support bars are contacted with impurities on the storage battery in the rotating process, the friction between the storage battery and the corresponding scroll support bars is increased; at the moment, the rotation resistance of the corresponding scroll support bar is increased; the resistance is transmitted to the corresponding first differential and the second differential; the rotating speeds of the first rotating shaft, the second rotating shaft and the third rotating shaft are changed; at the moment, the sensors on the first rotating shaft, the second rotating shaft and the third rotating shaft are triggered; the sensor can control the first nozzle, the second nozzle and the third nozzle to increase the spraying amount of the cleaning liquid sprayed by the first nozzle, the second nozzle and the third nozzle; and (5) treating impurities on the storage battery.
In the invention, a gap of 0.7 mm is formed between the other ends of the two flow guide arc plates and the inner arc surface of the cleaning support shell; according to the theoretical 0.7 mm clearance of the boundary layer, more cleaning fluid can be ensured to be adhered to the inner cambered surface of the cleaning support shell; a gap of 0.7 mm is formed between the two inclined guide plates on the end surface of the bottom side of the cleaning support shell and the two side surfaces of the storage battery; according to the theoretical 0.7 mm gap of the boundary layer, more cleaning fluid can be ensured to be adhered to the two side surfaces of the storage battery; a gap of 0.7 mm is provided between the two arc-shaped support plates and the lower side surface of the storage battery. A gap of 0.7 mm in theory for the boundary layer ensures that more cleaning liquid adheres to the underside of the battery.
Compared with the traditional storage battery cleaning and drying technology, the automatic cleaning and drying device provided by the invention can be used for cleaning and drying the storage battery through the first spray head, the second spray head, the third spray head and the air blowing port, so that cleaning liquid is saved; meanwhile, the sulfuric acid can not generate stimulating gases such as SO2 and the like in the heating decomposition process; the working environment around the conveyor belt is protected.
Drawings
Fig. 1 is an external view of an entire part.
Fig. 2 is a schematic view of the overall component distribution.
Fig. 3 is a schematic view of the washing support case and the battery.
Fig. 4 is a schematic view of the blow-dry support housing and battery combination.
Fig. 5 is a schematic view of the support mechanism installation.
FIG. 6 is a schematic view of a belt installation.
FIG. 7 is a schematic view of the wash support housing installation.
Fig. 8 is a schematic view of a washing support case installation plane.
Fig. 9 is a schematic view of the blow dry support housing installation.
Fig. 10 is a schematic plan view of the blow dry support housing installation.
Fig. 11 is a schematic view showing the arrangement of the blow drying support case and the washing support case.
Fig. 12 is a schematic view of the structure of the mounting case.
Fig. 13 is a schematic view of a deflector arc installation.
Fig. 14 is a schematic view of a blow dry support housing construction.
Fig. 15 is a schematic view of the structure of the arc-shaped supporting plate.
Fig. 16 is an external view of the support mechanism.
Fig. 17 is a schematic view of the distribution of the internal structure of the support mechanism.
Fig. 18 is a schematic view of a support mounting block structure.
Fig. 19 is a schematic view of the internal structure of the support mechanism.
FIG. 20 is a schematic view of a first differential installation.
Number designation in the figures: 1. a storage battery; 2. a support mechanism; 3. cleaning the supporting shell; 4. mounting a shell; 5. a belt; 6. a drive wheel; 7. drying the supporting shell; 8. connecting blocks; 9. a support block; 10. an arc-shaped support plate; 11. a flow guide arc plate; 12. a first nozzle; 13. a second nozzle; 14. a blowing head; 15. a third spray head; 16. a guide block; 17. a scroll support bar; 18. a drive motor; 19. a guide groove; 20. supporting the mounting block; 21. a shaft hole; 22. mounting grooves; 23. a first differential mechanism; 24. a second differential mechanism; 25. a first rotating shaft; 26. a first support; 27. a second rotating shaft; 28. a third rotating shaft; 30. a second support; 31. a separator.
Detailed Description
As shown in fig. 1 and 2, the drying device comprises a supporting mechanism 2, a cleaning supporting shell 3, an installation shell 4, a belt 5, driving wheels 6, a drying supporting shell 7, a connecting block 8, a supporting block 9, an arc-shaped supporting plate 10, a flow guide arc-shaped plate 11, a first spray head 12, a second spray head 13, a blowing head 14, a third spray head 15 and a guide block 16, wherein two driving wheels 6 are fixedly installed on the supporting frame, and one driving wheel 6 of the two driving wheels 6 is connected with an output shaft of a driving motor 18; as shown in fig. 6, the belt 5 is mounted on two drive wheels 6; as shown in fig. 5, a plurality of support mechanisms 2 are uniformly mounted on the outer side surface of the belt 5; as shown in fig. 12, the mounting case 4 is U-shaped, and the mounting case 4 is mounted on the support frame through the outer end face thereof; the mounting shell 4 is matched with the belt 5; the connecting block 8 is installed on the upper side of one end in the installation case 4.
As shown in fig. 13, the cleaning support shell 3 is arc-shaped, and two symmetrical inclined guide plates are arranged on the end surface of the bottom side of the cleaning support shell 3; as shown in fig. 7, the washing support case 3 is installed at the lower side of the joint block 8 by its outer arc surface; two groups of symmetrical second spray heads 13 are arranged on the inner arc surface of the cleaning support shell 3, and the second spray heads 13 in each group of second spray heads 13 in the two groups of second spray heads 13 are uniformly distributed along the moving direction of the belt 5; the two flow guide arc-shaped plates 11 are symmetrically arranged on the inner arc surface of the cleaning support shell 3 through one ends of the two flow guide arc-shaped plates; as shown in fig. 8, two flow guiding arc plates 11 are respectively matched with two groups of second nozzles 13; a plurality of first nozzles 12 are uniformly installed in the middle of the two flow guide arc plates 11 along the moving direction of the belt 5.
As shown in fig. 14, the blow-drying supporting shell 7 is U-shaped, and two supporting blocks 9 are symmetrically installed on two symmetrical lateral surfaces of the outer side of the blow-drying supporting shell 7; as shown in fig. 11, the blow-drying support case 7 is installed inside the other end of the installation case 4 through two support blocks 9; two groups of blowing heads 14 are symmetrically arranged on two symmetrical side surfaces in the blow-drying supporting shell 7, and the blowing heads 14 in each group of blowing heads 14 in the two groups of blowing heads 14 are uniformly distributed along the moving direction of the belt 5; two groups of blowing heads 14 are arranged on the inner upper side surface of the blow-drying supporting shell 7, the blowing heads 14 in each group of blowing heads 14 in the two groups of blowing heads 14 are uniformly distributed along the moving direction of the belt 5, and the mounting directions of the two groups of blowing heads 14 arranged on the inner upper side surface of the blow-drying supporting shell 7 are the same; as shown in fig. 9, two arc-shaped support plates 10 are symmetrically installed on two end faces of the lower side of the installation shell 4, which are symmetrical to each other; as shown in fig. 15, a plurality of third nozzles 15 are uniformly installed on the inner arc surfaces of one ends of the two arc-shaped support plates 10, and as shown in fig. 8, the third nozzles 15 are matched with the cleaning support shell 3; a plurality of blowing heads 14 are uniformly arranged on the inner arc surfaces of the other ends of the two arc-shaped supporting plates 10, and as shown in fig. 10, the blowing heads 14 are matched with the blow-drying supporting shell 7; the two guide blocks 16 are respectively arranged at the lower sides of the two arc-shaped supporting plates 10, and the two guide blocks 16 are symmetrical to each other; as shown in fig. 3 and 4, the battery 1 is placed on the upper side of the support mechanism 2.
As shown in fig. 16, the support mechanism 2 includes a scroll support bar 17, a driving motor 18, a guide groove 19, a support mounting block 20, a shaft hole 21, a mounting groove 22, a first differential 23, a second differential 24, a first rotating shaft 25, a first support 26, a second rotating shaft 27, a third rotating shaft 28, a second support 30, and a partition 31, wherein the mounting groove 22 is formed on the inner side of the support mounting block 20 as shown in fig. 18; the upper side surface of the mounting groove 22 is provided with four shaft holes 21; the four shaft holes 21 are positioned at four corners of the mounting support block 9; two guide grooves 19 are symmetrically formed on two side surfaces of the supporting and mounting block 20; as shown in fig. 3, the support mounting block 20 is mounted on the belt 5; the two guide grooves 19 are respectively matched with two guide blocks 16 arranged on the two arc-shaped support plates 10; as shown in fig. 17, the driving motor 18 is installed on the inner lower side of the installation groove 22; as shown in fig. 20, a first differential 23 is mounted on the output shaft of the drive motor 18; the two second rotating shafts 27 are symmetrically installed in the installation groove 22 through the two first supports 26, and one ends of the two second rotating shafts 27 are respectively connected with output shafts on two sides of the first differential 23; as shown in fig. 19, two second differentials 24 are respectively mounted at the other ends of the two second rotating shafts 27; two output shafts on two sides of each second differential 24 are respectively provided with a first rotating shaft 25; one end of each of the four third rotating shafts 28 is mounted inside the mounting groove 22 through a second support 30, and the four third rotating shafts 28 are engaged with the four first rotating shafts 25 through bevel teeth; the other ends of the four third rotating shafts 28 pass through the shaft holes 21 opened on the support mounting block 20 and are positioned at the upper side of the support mounting block 20; a plurality of partition plates are uniformly arranged between adjacent arc-shaped surfaces on the four scroll support bars 17; the four scroll support bars 17 are respectively installed on the upper side surfaces of the support mounting blocks 20, and the inner ends of the four scroll support bars 17 are connected to the four third rotary shafts 28.
A gap of 0.7 mm is formed between the other ends of the two flow guide arc plates 11 and the inner arc surface of the cleaning support shell 3.
The two groups of second nozzles 13 arranged on the cleaning support shell 3 are respectively matched with the two flow guide arc-shaped plates 11; the first nozzle 12 mounted on the washing support case 3 is fitted with the upper side of the storage battery 1; two groups of blowing heads 14 arranged on the two side surfaces of the blowing support shell 7 are respectively matched with the two side surfaces of the storage battery 1; two groups of blowing heads 14 arranged on the upper side surface of the blowing support shell 7 are matched with the upper side surface of the storage battery 1; the third spray head 15 arranged on the arc-shaped support plate 10 is matched with the lower side surface of the storage battery 1; the blowing head 14 arranged on the arc-shaped support plate 10 is matched with the lower side surface of the storage battery 1; a gap of 0.7 mm is formed between the two inclined guide plates on the end surface of the bottom side of the cleaning support shell 3 and the two side surfaces of the storage battery 1; a gap of 0.7 mm is provided between the two arc-shaped support plates 10 and the lower side of the battery 1.
Two inclined guide plates on the end surface of the bottom side of the cleaning support shell 3 form an angle of 65 degrees with two side surfaces of the storage battery 1; the function is to ensure that more cleaning solution is adhered to the two side surfaces of the storage battery 1; one end of the two arc-shaped supporting plates 10, which is matched with the storage battery 1, forms an angle of 65 degrees with the lower side surface of the storage battery 1; the function of which is to ensure that more cleaning liquid adheres to the lower side of the accumulator 1; one end of the two flow guide arc plates 11, which is matched with the cleaning support shell 3, forms a 65-degree angle with the inner arc surface of the cleaning support shell 3; the function of which is to ensure that more cleaning fluid adheres to the intrados of the cleaning support shell 3.
The axes of the two groups of blowing heads 14 arranged on the upper side surface of the blow-drying supporting shell 7 form an included angle of 30 degrees with the upper side surface of the storage battery 1; the function of which is to ensure that more wind blows onto the upper side of the accumulator 1; the axes of the two groups of blowing heads 14 arranged on the two side surfaces of the blowing support shell 7 form an included angle of 30 degrees with the two side surfaces of the storage battery 1; the function of the device is to ensure that more wind blows to the two side surfaces of the storage battery 1; the axis of the third spray head 15 arranged on the arc-shaped support plate 10 forms an included angle of 30 degrees with the lower side surface of the storage battery 1; the function of which is to ensure that more cleaning liquid adheres to the lower side of the accumulator 1; the axis of the blowing head 14 arranged on the arc-shaped support plate 10 forms an included angle of 30 degrees with the lower side surface of the storage battery 1; the function of which is to ensure that more wind is blown onto the lower side of the battery 1.
The amount of water sprayed from the first nozzle 12 is smaller than the amount of water sprayed from the second nozzle 13.
The arc-shaped support plate 10 is provided with drain holes which are uniformly distributed.
In summary, the following steps:
the automatic cleaning and blow-drying device designed by the invention can clean and blow-dry the storage battery 1 through the first spray head 12, the second spray head 13, the third spray head 15 and the air blowing port, so that cleaning liquid is saved; meanwhile, the sulfuric acid can not generate stimulating gases such as SO2 and the like in the heating decomposition process; the working environment around the conveyor belt 5 is protected.
Two driving wheels 6 are fixedly arranged on a support frame, and one driving wheel 6 of the two driving wheels 6 is connected with an output shaft of a driving motor 18; the belt 5 is arranged on two driving wheels 6; a plurality of supporting mechanisms 2 are uniformly arranged on the outer side surface of the belt 5; the mounting shell 4 is mounted on the support frame through the outer end face of the mounting shell; the connecting block 8 is arranged on the upper side surface of one end in the mounting shell 4; the cleaning support shell 3 is arranged at the lower side of the connecting block 8 through the outer arc surface thereof; two groups of symmetrical second spray heads 13 are arranged on the inner arc surface of the cleaning support shell 3; the two flow guide arc-shaped plates 11 are symmetrically arranged on the inner arc surface of the cleaning support shell 3 through one ends of the two flow guide arc-shaped plates; the two flow guide arc-shaped plates 11 are respectively matched with the two groups of second spray heads 13; a plurality of first spray heads 12 are uniformly arranged in the middle of the two flow guide arc-shaped plates 11 along the moving direction of the belt 5; the blow-drying supporting shell 7 is arranged on the inner side of the other end of the mounting shell 4 through two supporting blocks 9; two groups of blowing heads 14 are symmetrically arranged on two symmetrical side surfaces in the blow-drying supporting shell 7; two groups of blowing heads 14 are arranged on the inner upper side surface of the blow-drying supporting shell 7; the two arc-shaped supporting plates 10 are symmetrically arranged on two mutually symmetrical end faces at the lower side of the mounting shell 4; a plurality of third spray heads 15 are uniformly arranged on the inner cambered surfaces at one ends of the two arc-shaped support plates 10; a plurality of blowing heads 14 are uniformly arranged on the inner cambered surfaces at the other ends of the two arc-shaped supporting plates 10; the storage battery 1 is arranged on the upper side of the support mechanism 2; when the driving motor 18 works, the driving motor 18 can drive one driving wheel 6 connected with the driving motor to rotate through the output shaft; the driving wheel 6 rotates to drive the belt 5 to move; the belt 5 moves to drive the supporting mechanism 2 arranged on the belt to move; the storage battery 1 is arranged on the upper side of the supporting mechanism 2; the support mechanism 2 moves to drive the storage battery 1 to move; in the moving process of the storage battery 1, when the storage battery 1 moves to the inner side of the cleaning support shell 3, controlling a first spray head 12 and a second spray head 13 arranged on the cleaning support shell 3 to spray cleaning liquid, and simultaneously controlling a third spray head 15 arranged on the arc-shaped support plate 10 to spray cleaning liquid; cleaning the dilute sulfuric acid adhered to the shell of the storage battery 1 by the cleaning solution sprayed by the first spray head 12, the second spray head 13 and the third spray head 15; when the storage battery 1 moves to the inner side of the blow-drying support shell 7, the blowing head 14 arranged on the blow-drying support shell 7 is controlled to blow air, and meanwhile, the blowing head 14 arranged on the arc-shaped support plate 10 is controlled to blow air; the storage battery 1 is dried by wind blown by a wind blowing head 14 arranged on the drying support shell 7 and a wind blowing head 14 arranged on the arc-shaped support plate 10; in the invention, cleaning liquid sprayed by two groups of second spray heads 13 arranged on the inner cambered surface of the cleaning support shell 3 can be sprayed on the two corresponding flow guide arc plates 11; the cleaning liquid sprayed out by the second spray head 13 is guided to the inner cambered surface of the cleaning support shell 3 through the flow guide arc-shaped plate 11; the cleaning liquid on the inner arc surface of the cleaning support shell 3 flows to the two side surfaces of the storage battery 1 along the inner arc surface of the cleaning support shell 3, and then the dilute sulfuric acid adhered to the two sides of the storage battery 1 is cleaned; cleaning liquid sprayed by a first spray head 12 arranged between the two flow guide arc-shaped plates 11 is sprayed on the upper side surface of the storage battery 1, so that dilute sulfuric acid adhered to the upper side of the storage battery 1 is cleaned; cleaning liquid sprayed by a third spray nozzle 15 arranged on the inner arc surface at one end of the two arc-shaped support plates 10 is sprayed on the lower side surface of the storage battery 1, so that dilute sulfuric acid adhered to the lower side of the storage battery 1 is cleaned; in the invention, the cleaning liquid on the two side surfaces of the storage battery 1 can be blown by the wind blown by the two groups of wind blowing heads 14 arranged on the two side surfaces of the blow-drying supporting shell 7, so that the cleaning liquid on the two side surfaces of the storage battery 1 falls off, and then the two side surfaces of the storage battery 1 are subjected to blow-drying treatment; the cleaning liquid on the upper side surface of the storage battery 1 can be blown by the wind blown by the two groups of wind blowing heads 14 arranged on the inner upper side surface of the blow-drying support shell 7, so that the cleaning liquid on the upper side surface of the storage battery 1 falls off, and the upper side surface of the storage battery 1 is blow-dried; the wind blowing head 14 installed on the inner arc surface of the other end of the two arc-shaped supporting plates 10 blows the cleaning liquid on the lower side surface of the storage battery 1, so that the cleaning liquid on the lower side surface of the storage battery 1 falls off, and then the lower side surface of the storage battery 1 is dried.
The support mounting block 20 is mounted on the belt 5; the driving motor 18 is arranged on the inner lower side surface of the mounting groove 22; a first differential 23 is mounted on an output shaft of the drive motor 18; the two second rotating shafts 27 are symmetrically installed in the installation groove 22 through the two first supports 26, and one ends of the two second rotating shafts 27 are respectively connected with output shafts on two sides of the first differential 23; the two second differentials 24 are respectively installed at the other ends of the two second rotating shafts 27; two output shafts on two sides of each second differential 24 are respectively provided with a first rotating shaft 25; one end of each of the four third rotating shafts 28 is mounted inside the mounting groove 22 through a second support 30, and the four third rotating shafts 28 are engaged with the four first rotating shafts 25 through bevel teeth; the other ends of the four third rotating shafts 28 pass through the shaft holes 21 opened on the support mounting block 20 and are positioned at the upper side of the support mounting block 20; a plurality of partition plates are uniformly arranged between adjacent arc-shaped surfaces on the four scroll support bars 17; the four scroll support bars 17 are respectively installed on the upper side surface of the support installation block 20, and the inner ends of the four scroll support bars 17 are connected with the four third rotating shafts 28; when the driving motor 18 works, the driving motor 18 drives the two second rotating shafts 27 to rotate through the first differential 23; the two second rotating shafts 27 rotate to drive the four first rotating shafts 25 to rotate through the two second differentials 24; the four first rotating shafts 25 rotate to drive the four third rotating shafts 28 to rotate; the four third rotating shafts 28 rotate to drive the four scroll support bars 17 to rotate, and the function of the four third rotating shafts is that when the storage battery 1 passes through the cleaning support shell 3 and the drying support shell 7, the lower side of the storage battery 1 can be fully cleaned and dried through the rotation of the four scroll support bars 17; partition plate 31 of the present invention is used to support corresponding scroll support strip 17 and prevent deformation; the guide block 16 and the guide groove 19 of the invention play a role of guiding and supporting the support mechanism 2.
In the invention, inductors are arranged in the first rotating shaft 25, the second rotating shaft 27 and the third rotating shaft 28; when the four scroll support bars 17 contact with impurities on the storage battery 1 in the rotating process, the friction between the storage battery 1 and the corresponding scroll support bars 17 is increased; at this time, the rotation resistance of the corresponding scroll support bar 17 is increased; and the resistance is transmitted to the corresponding first differential 23 and second differential 24; so that the rotation speeds of the first rotating shaft 25, the second rotating shaft 27 and the third rotating shaft 28 are changed; at this time, the sensors on the first rotating shaft 25, the second rotating shaft 27 and the third rotating shaft 28 are triggered; the sensor controls the first nozzle 12, the second nozzle 13 and the third nozzle 15 to increase the amount of the cleaning liquid sprayed out by the first nozzle 12, the second nozzle 13 and the third nozzle 15; impurities on the battery 1 are treated.
In the invention, a gap of 0.7 mm is formed between the other ends of the two flow guide arc-shaped plates 11 and the inner arc surface of the cleaning support shell 3; according to the 0.7 mm clearance of the boundary layer theory, more cleaning fluid can be ensured to be adhered to the inner cambered surface of the cleaning support shell 3; a gap of 0.7 mm is formed between the two inclined guide plates on the end surface of the bottom side of the cleaning support shell 3 and the two side surfaces of the storage battery 1; according to the boundary layer theory, a gap of 0.7 mm can ensure that more cleaning fluid is adhered to the two side surfaces of the storage battery 1; a gap of 0.7 mm is provided between the two arc-shaped support plates 10 and the lower side of the battery 1. A gap of 0.7 mm in terms of boundary layer theory ensures that more cleaning liquid adheres to the underside of the accumulator 1.
The specific implementation mode is as follows: when people use the cleaning and drying device for the storage battery 1, which is designed by the invention, and the driving motor 18 works, the driving motor 18 can drive one driving wheel 6 connected with the driving motor 6 to rotate through the output shaft; the driving wheel 6 rotates to drive the belt 5 to move; the belt 5 moves to drive the supporting mechanism 2 arranged on the belt to move; the storage battery 1 is arranged on the upper side of the supporting mechanism 2; the support mechanism 2 moves to drive the storage battery 1 to move; in the moving process of the storage battery 1, when the storage battery 1 moves to the inner side of the cleaning support shell 3, controlling a first spray head 12 and a second spray head 13 arranged on the cleaning support shell 3 to spray cleaning liquid, and simultaneously controlling a third spray head 15 arranged on the arc-shaped support plate 10 to spray cleaning liquid; cleaning the dilute sulfuric acid adhered to the shell of the storage battery 1 by the cleaning solution sprayed by the first spray head 12, the second spray head 13 and the third spray head 15; when the storage battery 1 moves to the inner side of the blow-drying support shell 7, the blowing head 14 arranged on the blow-drying support shell 7 is controlled to blow air, and meanwhile, the blowing head 14 arranged on the arc-shaped support plate 10 is controlled to blow air; the storage battery 1 is dried by the air blown from the air blowing head 14 mounted on the drying support case 7 and the air blowing head 14 mounted on the arc support plate 10.

Claims (5)

1. The utility model provides a battery self-cleaning weathers device based on scrollwork support strip which characterized in that: the device comprises a supporting mechanism, a cleaning supporting shell, an installation shell, a belt, driving wheels, a drying supporting shell, a connecting block, a supporting block, an arc-shaped supporting plate, a flow guide arc-shaped plate, a first spray head, a second spray head, a blowing head, a third spray head and a guide block, wherein two driving wheels are fixedly arranged on the supporting frame, and one of the two driving wheels is connected with an output shaft of a driving motor; the belt is arranged on the two driving wheels; a plurality of supporting mechanisms are uniformly arranged on the outer side surface of the belt; the mounting shell is U-shaped and is mounted on the support frame through the end face of the outer side of the mounting shell; the mounting shell is matched with the belt; the connecting block is arranged on the upper side surface of one end in the mounting shell;
the cleaning support shell is arc-shaped, and two symmetrical inclined guide plates are arranged on the end surface of the bottom side of the cleaning support shell; the cleaning support shell is arranged on the lower side of the connecting block through the outer arc surface of the cleaning support shell; two groups of symmetrical second spray heads are arranged on the inner arc surface of the cleaning support shell, and the second spray heads of each group of second spray heads in the two groups of second spray heads are uniformly distributed along the moving direction of the belt; the two flow guide arc plates are symmetrically arranged on the inner arc surface of the cleaning support shell through one ends of the two flow guide arc plates; the two flow guide arc plates are respectively matched with the two groups of second nozzles; a plurality of first spray heads are uniformly arranged between the two flow guide arc-shaped plates along the moving direction of the belt;
the blow-drying support shell is U-shaped, and two support blocks are symmetrically arranged on two symmetrical side surfaces of the outer side of the blow-drying support shell; the blow-drying supporting shell is arranged on the inner side of the other end of the mounting shell through two supporting blocks; two groups of blowing heads are symmetrically arranged on two mutually symmetrical side surfaces in the blow-drying supporting shell, and the blowing heads in each group of blowing heads in the two groups of blowing heads are uniformly distributed along the moving direction of the belt; two groups of blowing heads are arranged on the upper side surface in the blow-drying support shell, the blowing heads in each group of blowing heads in the two groups of blowing heads are uniformly distributed along the moving direction of the belt, and the mounting directions of the two groups of blowing heads arranged on the upper side surface in the blow-drying support shell are the same; the two arc-shaped supporting plates are symmetrically arranged on two mutually symmetrical end surfaces at the lower side of the mounting shell; a plurality of third spray heads are uniformly arranged on the inner arc surfaces at one ends of the two arc-shaped supporting plates and matched with the cleaning supporting shell; a plurality of blowing heads are uniformly arranged on the inner cambered surfaces of the other ends of the two arc-shaped supporting plates and matched with the blow-drying supporting shell; the two guide blocks are respectively arranged at the lower sides of the two arc-shaped supporting plates and are symmetrical to each other; the storage battery is arranged on the upper side of the supporting mechanism;
the supporting mechanism comprises a scroll supporting strip, a driving motor, a guide groove, a supporting and mounting block, a shaft hole, a mounting groove, a first differential, a second differential, a first rotating shaft, a first support, a second rotating shaft, a third rotating shaft, a second support and a partition plate, wherein the mounting groove is formed in the inner side of the supporting and mounting block; four shaft holes are formed in the upper side face of the mounting groove; the four shaft holes are positioned at four corners of the mounting support block; two guide grooves are symmetrically formed in the two side faces of the support mounting block; the supporting and mounting block is mounted on the belt; the two guide grooves are respectively matched with two guide blocks arranged on the two arc-shaped supporting plates; the driving motor is arranged on the inner lower side surface of the mounting groove; the first differential is arranged on an output shaft of the driving motor; the two second rotating shafts are symmetrically arranged in the mounting groove through the two first supports, and one ends of the two second rotating shafts are respectively connected with output shafts on two sides of the first differential; the two second differentials are respectively arranged at the other ends of the two second rotating shafts; two output shafts on two sides of each second differential mechanism are respectively provided with a first rotating shaft; one ends of the four third rotating shafts are respectively arranged on the inner side of the mounting groove through a second support, and the four third rotating shafts are meshed with the four first rotating shafts through bevel teeth; the other ends of the four third rotating shafts penetrate through shaft holes formed in the supporting and mounting block and are positioned on the upper side of the supporting and mounting block; a plurality of partition plates are uniformly arranged between the adjacent arc surfaces on the four scroll support bars; the four scroll support bars are respectively arranged on the upper side surfaces of the support mounting blocks, and the inner ends of the four scroll support bars are connected with the four third rotating shafts;
inductors are arranged in the first rotating shaft, the second rotating shaft and the third rotating shaft;
a gap of 0.7 mm is formed between the other end of each of the two flow guide arc plates and the inner arc surface of the cleaning support shell;
the two groups of second spray heads arranged on the cleaning support shell are respectively matched with the two flow guide arc plates; the first spray head arranged on the cleaning support shell is matched with the upper side surface of the storage battery; two groups of blowing heads arranged on the two side surfaces of the blowing support shell are respectively matched with the two side surfaces of the storage battery; the two groups of blowing heads arranged on the upper side surface of the blowing support shell are matched with the upper side surface of the storage battery; the third spray head arranged on the arc-shaped support plate is matched with the lower side surface of the storage battery; the blowing head arranged on the arc-shaped supporting plate is matched with the lower side surface of the storage battery; a gap of 0.7 mm is formed between the two inclined guide plates on the end surface of the bottom side of the cleaning support shell and the two side surfaces of the storage battery; a gap of 0.7 mm is provided between the two arc-shaped support plates and the lower side surface of the storage battery.
2. The automatic cleaning and drying device for the storage battery based on the scroll support bar as claimed in claim 1, wherein: two inclined guide plates on the end surface of the bottom side of the cleaning support shell form an angle of 65 degrees with two side surfaces of the storage battery; one end of the two arc-shaped supporting plates, which is matched with the storage battery, forms a 65-degree angle with the lower side surface of the storage battery; one end of the two flow guide arc plates, which is matched with the cleaning support shell, forms a 65-degree angle with the inner arc surface of the cleaning support shell.
3. The automatic cleaning and drying device for the storage battery based on the scroll support bar as claimed in claim 1, wherein: the axes of the two groups of blowing heads arranged on the upper side surface of the blow-drying supporting shell form an included angle of 30 degrees with the upper side surface of the storage battery; the axes of the two groups of blowing heads arranged on the two side surfaces of the blowing support shell form an included angle of 30 degrees with the two side surfaces of the storage battery; an included angle of 30 degrees is formed between the axis of the third spray head arranged on the arc-shaped support plate and the lower side surface of the storage battery; an included angle of 30 degrees is formed between the axis of the blowing head arranged on the arc-shaped supporting plate and the lower side surface of the storage battery.
4. The automatic cleaning and drying device for the storage battery based on the scroll support bar as claimed in claim 1, wherein: the water spraying amount of the first spray head is less than that of the second spray head.
5. The automatic cleaning and drying device for the storage battery based on the scroll support bar as claimed in claim 1, wherein: the arc-shaped supporting plate is provided with water drainage holes which are uniformly distributed.
CN201810479700.1A 2018-05-18 2018-05-18 Storage battery automatic cleaning and blow-drying device based on scroll support bars Active CN108704883B (en)

Priority Applications (2)

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CN202010412892.1A CN111570367B (en) 2018-05-18 2018-05-18 Storage battery automatic cleaning and blow-drying equipment based on scroll support bars
CN201810479700.1A CN108704883B (en) 2018-05-18 2018-05-18 Storage battery automatic cleaning and blow-drying device based on scroll support bars

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Application Number Priority Date Filing Date Title
CN201810479700.1A CN108704883B (en) 2018-05-18 2018-05-18 Storage battery automatic cleaning and blow-drying device based on scroll support bars

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DE20120508U1 (en) * 2001-12-19 2002-03-07 Delta Anlagentechnik Gmbh Device for cleaning, rinsing and drying objects, especially small parts
DE102005053327B4 (en) * 2005-11-07 2008-08-21 Eisenmann Anlagenbau Gmbh & Co. Kg Apparatus and method for surface treatment of workpieces
CN202943058U (en) * 2012-10-23 2013-05-22 福建省三净环保科技有限公司 Cleaning system of lead-acid storage battery
CN205762503U (en) * 2016-07-05 2016-12-07 贵州盘江煤电建设工程有限公司 A kind of fly ash building block tray cleaning device of automatic spray watering type
CN206120209U (en) * 2016-07-21 2017-04-26 衢州环艺工业设计有限公司 Environmental protection and fast drying's hand dryer
KR101857718B1 (en) * 2016-07-27 2018-05-14 (주)신진초음파 Washing and drying equipment for EV rectangular battery
CN206135813U (en) * 2016-10-27 2017-04-26 天津东泉石油技术开发有限公司 Fire alarm alarm system for offshore oil field
CN106623195B (en) * 2016-12-28 2019-02-22 中国人民解放军海军工程大学 A kind of novel zinc-silver oxide cell automatic cleaning equipment
CN106733857A (en) * 2017-01-18 2017-05-31 苏州市旗腾环保科技有限公司 Automatically pass through formula Spray-cleaning Machine
CN106907912B (en) * 2017-03-23 2019-03-05 河北工业大学 A kind of lithium ion battery cell baking drying production line
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CN206997188U (en) * 2017-06-06 2018-02-13 富泰华工业(深圳)有限公司 Cleaning device

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CN108704883A (en) 2018-10-26
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Denomination of invention: A battery automatic cleaning and drying device based on scroll support strips

Effective date of registration: 20220810

Granted publication date: 20200609

Pledgee: Agricultural Bank of China Limited Lanxi sub branch

Pledgor: ZHEJIANG JUST ELECTRICAL APPLIANCES CO.,LTD.

Registration number: Y2022330001694