CN115365183A

CN115365183A - Aluminum foil formation automatic production line's wiper mechanism

Info

Publication number: CN115365183A
Application number: CN202210951770.9A
Authority: CN
Inventors: 高阳萍
Original assignee: Chongqing Xiongda Quanying Electronic Co ltd
Current assignee: Chongqing Xiongda Quanying Electronic Co ltd
Priority date: 2022-08-09
Filing date: 2022-08-09
Publication date: 2022-11-22
Anticipated expiration: 2042-08-09
Also published as: CN115365183B

Abstract

The invention discloses a cleaning mechanism of an automatic aluminum foil formation production line, which comprises a base, a first shaft, an aluminum foil, a second gear and a first transmission belt, wherein two positioning rollers matched with the first transmission belt are rotatably arranged on the base, a water receiving seat matched with the aluminum foil is fixedly arranged on the base, two first supporting plates are fixedly arranged on the base through a plurality of square rods, a water tank is fixedly arranged on the two first supporting plates through a mounting frame, and a drawing-back structure is arranged between the water tank and the water receiving seat. Has the advantages that: utilize the cooperation of a water seat and rotatable brush roller, be convenient for carry out preliminary wetting and cleanness to the aluminum foil surface, utilize the wash seat to make the cleaning water can directly wash the aluminum foil after tentatively cleaning simultaneously, further improve the cleaning performance, can clean the moisture of aluminum foil surface adhesion fast under the effect of foam-rubber cushion one after the washing, avoid along with the removal of aluminum foil, moisture drips everywhere and spatters.

Description

Aluminum foil formation automatic production line's wiper mechanism

Technical Field

The invention relates to the technical field of automatic production lines for aluminum foil formation, in particular to a cleaning mechanism of the automatic production lines for the aluminum foil formation.

Background

In the automatic production process of aluminum foil formation, aluminum foil raw materials (aluminum foil pieces) need to be cleaned, so that clean aluminum foil pieces are obtained for formation; however, the existing cleaning structure has the following defects in the using process: the cleaning water cannot be recycled well, the water amount required by cleaning is relatively large, and meanwhile, the water adhered to the surface of the aluminum foil is not cleaned quickly in time after cleaning, so that part of the cleaning water drips everywhere, and the loss of water resources is caused to a certain extent.

Disclosure of Invention

The invention aims to solve the problems in the background art and provides a cleaning mechanism of an automatic aluminum foil formation production line.

In order to achieve the purpose, the invention adopts the following technical scheme:

a cleaning mechanism of an automatic production line for aluminum foil formation comprises a base, a first shaft, an aluminum foil, a second gear and a first transmission belt, wherein two positioning rollers matched with the first transmission belt are rotatably installed on the base;

two supporting plates II are fixedly installed in the water receiving seat, two shafts II are rotatably installed on the supporting plate II on the left side, brush rollers are fixedly sleeved on the two shafts II, a water supplementing structure is installed between the water tank and the brush rollers, a transmission structure I is installed between one shaft I on the left side and the corresponding shaft II, a gear wheel VII is fixedly installed on the two shafts II, and the two gear wheels VII are meshed;

two metal mesh plates and two positioning plates are fixedly arranged on the second supporting plate on the right side, an installation plate is fixedly arranged at the upper ends of the two metal mesh plates together, two toothed rings are arranged on the installation plate through a connection structure, and a linkage structure is arranged between the toothed rings and the first supporting plate;

and two extrusion blocks are respectively arranged on the positioning plates through sliding assemblies, a vertical moving structure is arranged between each extrusion block and the corresponding toothed ring, and a spongy cushion I and a spongy cushion II are respectively fixedly arranged on two sides of each metal screen plate.

In foretell aluminium foil becomes automatic production line's wiper mechanism, it comprises water pump, drinking-water pipe and outlet pipe to withdraw the structure, the outside fixed mounting of water tank has the water pump, it has drinking-water pipe and outlet pipe to fix the intercommunication on the water pump, the one end of outlet pipe is located the water tank, the shape of drinking-water pipe is 180L shapes of clockwise rotation, and the lower extreme of drinking-water pipe is located the water receiving seat.

In foretell aluminium foil formation automatic production line's wiper mechanism, the moisturizing structure comprises pipe two, mount, the body of rod one and play water seat, it has two pipe two, two to fix even on the water tank fixed mounting has the mount between the pipe two, the lower extreme of mount has two play water seats through body of rod one fixed mounting, a plurality of apopores have been seted up on the play water seat, the upper end of going out the water seat is the opening setting, and the upper end of axle two rotates and installs on corresponding play water seat.

In foretell aluminium foil formation automatic production line's wiper mechanism, transmission structure one comprises axle three, gear four, drive wheel and drive belt two, rotate on the base and install axle three, fixed mounting has gear four on the axle three, corresponds fixed mounting has gear three with gear four-phase meshing on the axle one, equal fixed mounting has a drive wheel, two on axle three and the axle two that correspond the drive wheel overlaps jointly and is equipped with a drive belt two.

In foretell aluminium foil becomes automatic production line's wiper mechanism, connection structure comprises arc ladder spout and ladder slider, the last fixed surface of mounting panel installs two arc ladder sliders, two the lower terminal surface of ring gear has all been seted up with ladder slider matched with ladder spout.

In foretell aluminium foil becomes automatic production line's wiper mechanism, linkage structure comprises five, block, axle four and six gears of gear, right side fagging is one and goes up fixed mounting and has two blocks, two all rotate on the block install one with corresponding ring gear engaged with axle four, right side two on the axle one equal fixed mounting have with corresponding six engaged with gear five.

In foretell aluminium foil becomes automatic production line's wiper mechanism, slip subassembly comprises bar ladder spout and square ladder slider, two one bar ladder spout has all been seted up to one side that the locating plate is close to mutually, two the equal fixed mounting in one side that the extrusion piece kept away from mutually has the square ladder slider with bar ladder spout matched with.

In foretell aluminium foil ization becomes automatic production line's wiper mechanism, vertical removal structure comprises body of rod two, magnetism plectane two and magnetism plectane one, two the equal fixed mounting in upper end of extrusion piece has a body of rod two, two the equal fixed mounting in upper end of body of rod two has a magnetism plectane one, two equal fixed mounting has a magnetism plectane two in the ring gear, magnetism plectane one and magnetism plectane two comprise by two big arc magnetic path such as, and corresponding two arc magnetic path homonymies magnetism is opposite.

Compared with the prior art, the invention has the advantages that:

1: utilize the cooperation of going out water seat and rotatable brush roller, be convenient for carry out preliminary wetting and cleanness to the aluminium foil surface, utilize the cleaning seat to make the cleaning water can directly wash the aluminium foil after preliminary cleaning simultaneously, further improve the cleaning performance, can clean the moisture of aluminium foil surface adhesion fast under the effect of foam-rubber cushion one after the washing, avoid along with the removal of aluminium foil, moisture drips everywhere and spatters.

2: utilize the water receiving seat can gather the water that flows out from brush roller and washing seat to use through the cooperation of water pump and drinking-water pipe simultaneously, realize the recycling of clean water, use through the cooperation of portable extrusion piece simultaneously, be convenient for clean the aluminium foil after wasing.

3: and the left side is also fixedly provided with two arc-shaped cover bodies matched with the brush rollers on the second supporting plate, so that the brush rollers are prevented from rotating to throw away a large amount of water, and most of water can be gathered and collected into the water receiving seat for recycling.

4: the arrangement of the water supplementing structure enables water in the water tank to better wet the brush roller, and meanwhile, partial impurities adhered to the brush roller can be directly washed down by the downward flowing of the water.

Drawings

FIG. 1 is a schematic structural diagram of a cleaning mechanism of an automatic production line for aluminum foil formation according to the present invention;

FIG. 2 is an enlarged view of the structure of part A in FIG. 1;

FIG. 3 is an enlarged view of the structure of part B in FIG. 1;

FIG. 4 is an enlarged view of the structure of the portion C in FIG. 1;

FIG. 5 is an enlarged view of the structure of part D in FIG. 1;

FIG. 6 is a structural side view of a second portion of the right gusset of FIG. 1;

FIG. 7 is a top view of a positioning roller in a cleaning mechanism of an automatic production line for aluminum foil formation according to the present invention;

fig. 8 is a bottom view of the block portion of fig. 1.

In the figure: the device comprises a base 1, a first shaft, a first rotating roller 3, a second aluminum foil 4, a first gear, a motor 6, a second gear 7, a first driving belt 8, a positioning roller 9, a water receiving seat 10, a first supporting plate 11, a mounting frame 12, a water tank 13, a water pumping pipe 14, a cleaning seat 15, a second pipe 16, a fixing frame 17, a first rod body 18, a water outlet seat 19, a second shaft 20, a second supporting plate 21, a hairbrush roller 22, a third shaft 23, a third gear 24, a fourth gear 25, a second driving belt 26, a mounting plate 27, a fifth gear 28, a block 29, a fourth shaft 30, a sixth gear 31, a second rod body 32, a first metal mesh plate 33, a first magnetic circular plate 34, an extrusion block 35, a first sponge pad 36, a second sponge pad 37, a positioning plate 38 and a toothed ring 39.

Detailed Description

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

Referring to fig. 1, 2 and 7, the cleaning mechanism for the automatic production line for aluminum foil formation comprises a base 1, a first shaft 2, an aluminum foil 4, a second gear 7 and a first transmission belt 8, wherein two positioning rollers 9 matched with the first transmission belt 8 are rotatably mounted on the base 1, a water receiving seat 10 matched with the aluminum foil 4 is fixedly mounted on the base 1, two first supporting plates 11 are fixedly mounted on the base 1 through a plurality of square rods, a water tank 13 is fixedly mounted on the two first supporting plates 11 together through a mounting frame 12, a withdrawing structure is mounted between the water tank 13 and the water receiving seat 10, and a cleaning seat 15 is fixedly communicated at the lower end of the water tank 13 through the first pipe;

the following points are notable:

1. the number of the first shafts 2 is four, the four first shafts 2 are fixedly sleeved with rotating rollers 3 matched with the aluminum foil 4, the first gears 5 are fixedly arranged on the four first shafts 2, the two first gears 5 positioned on the same side are mutually meshed, the base 1 is fixedly provided with a motor 6, and the lower ends of the first shafts 2 are fixedly arranged on the driving end of the motor 6; this section is prior art and will only be described briefly herein.

2. The pumping-back structure is composed of a water pump, a water pumping pipe 14 and a water outlet pipe, the water pump is fixedly installed outside the water tank 13, the water pump is fixedly communicated with the water pumping pipe 14 and the water outlet pipe, one end of the water outlet pipe is located in the water tank 13, the water pumping pipe 14 is L-shaped and rotates clockwise 180 degrees, and the lower end of the water pumping pipe 14 is located in the water receiving seat 10.

3. The drawing structure is arranged for drawing the water received from the water receiving seat 10 back to the water tank 13 for recycling.

4. The water receiving seat 10 is provided with an opening at the upper end, a filter screen is fixedly arranged in the water receiving seat, and the lower end of the water pumping pipe 14 penetrates through the filter screen and is positioned below the filter screen, so that the circulating water is cleaner.

Referring to fig. 1, 3 and 4, two supporting plates two 21 are fixedly installed in the water receiving seat 10, two shafts two 20 are rotatably installed on the left supporting plate two 21, brush rollers 22 are fixedly sleeved on the two shafts two 20, a water supplementing structure is installed between the water tank 13 and the brush rollers 22, a transmission structure one is installed between a shaft one 2 on the left side and the corresponding shaft two 20, a gear seven is fixedly installed on each shaft two 20, and the two gears seven are meshed with each other;

the following points are notable:

1. the water supplementing structure comprises a second pipe 16, a fixing frame 17, a first rod body 18 and a water outlet seat 19, the second pipe 16 is fixedly connected to the water tank 13, the fixing frame 17 is fixedly installed between the second pipe 16, the two water outlet seats 19 are fixedly installed at the lower end of the fixing frame 17 through the first rod body 18, a plurality of water outlet holes are formed in the water outlet seat 19, the upper end of the water outlet seat 19 is arranged in an opening mode, and the upper end of the second shaft 20 is rotatably installed on the corresponding water outlet seat 19.

2. The arrangement of the water supplementing structure enables water in the water tank 13 to better wet the brush roller 22, and meanwhile, the downward flow of the water can directly wash down part of impurities adhered to the brush roller 22.

3. The transmission structure I comprises a shaft III 23, a gear III 24, a gear IV 25, transmission wheels and a transmission belt II 26, the shaft III 23 is rotatably installed on the base 1, the gear IV 25 is fixedly installed on the shaft III 23, the gear III 24 meshed with the gear IV 25 is fixedly installed on the corresponding shaft I2, the transmission wheels are fixedly installed on the shaft III 23 and the corresponding shaft II 20, and the transmission wheels are sleeved with the transmission belt II 26 together.

4. The second pipe 16 and the first pipe have valves (not shown) arranged to control whether the first pipe 16 and the second pipe 16 allow the cleaning water to flow through.

5. Two arc-shaped cover bodies (not marked in the figure) matched with the brush roller 22 are fixedly arranged on the left side supporting plate 21 and used for preventing the brush roller 22 from rotating to throw a large amount of water out and gathering most of water into the water receiving seat 10.

Referring to fig. 1, 5, 6 and 8, two metal mesh plates 33 and two positioning plates 38 are fixedly mounted on the second right supporting plate 21, a mounting plate 27 is fixedly mounted at the upper ends of the two metal mesh plates 33 together, two toothed rings 39 are mounted on the mounting plate 27 through a connecting structure, and a linkage structure is mounted between the toothed rings 39 and the first shaft 2;

the following points are notable:

1. the connecting structure consists of arc-shaped stepped sliding chutes (not shown in the figure) and stepped sliding blocks (not shown in the figure), two arc-shaped stepped sliding blocks are fixedly arranged on the upper surface of the mounting plate 27, and stepped sliding chutes matched with the stepped sliding blocks are formed in the lower end surfaces of the two toothed rings 39; the attachment arrangement is such that the toothed ring 39 can rotate relative to the mounting plate 27 without separation.

2. The linkage structure comprises five gears 28, block bodies 29, four shafts 30 and six gears 31, two block bodies 29 are fixedly mounted on the first right supporting plate 11, the four shafts 30 meshed with the corresponding gear rings 39 are rotatably mounted on the two block bodies 29, and five gears 28 meshed with the six gears 31 are fixedly mounted on the first right two shafts 2.

3. The arrangement of the linkage structure enables the right shaft I2 to drive the gear ring 39 to rotate together, and the rotation of the right shaft I2 can be realized without an additional power source.

Referring to fig. 1, 5 and 6, an extrusion block 35 is mounted on each of the two positioning plates 38 through a sliding assembly, a vertical moving structure is mounted between the extrusion block 35 and the corresponding toothed ring 39, and a first spongy cushion 36 and a second spongy cushion 37 are fixedly mounted on both sides of each of the two metal mesh plates 33;

the following points are notable:

1. the sliding assembly is composed of a strip-shaped step sliding groove and a square step sliding block, the strip-shaped step sliding groove is formed in one side, close to each other, of each of the two positioning plates 38, and the square step sliding block matched with the strip-shaped step sliding groove is fixedly mounted on one side, away from each other, of each of the two extrusion blocks 35.

2. The vertical moving structure is composed of a second rod body 32, a second magnetic circular plate and a first magnetic circular plate 34, the upper ends of the two extrusion blocks 35 are fixedly provided with the second rod body 32, the upper ends of the second rod bodies 32 are fixedly provided with the first magnetic circular plate 34, the two toothed rings 39 are internally and fixedly provided with the second magnetic circular plate, the first magnetic circular plate 34 and the second magnetic circular plate are composed of two arc-shaped magnetic blocks with the same size, and the same sides of the two corresponding arc-shaped magnetic blocks are opposite in magnetism.

3. The sliding structure enables the extrusion block 35 to move only in the vertical direction, so that the second sponge cushion 37 is squeezed, and the water absorption effect of the second sponge cushion 36 is ensured.

In this regard, the term "fixedly attached" is to be understood broadly, unless otherwise specifically stated or limited, and may be, for example, welded, glued, or integrally formed as is conventional in the art.

In the invention, a motor 6 works to drive a first shaft 2 fixedly connected with a driving end of the motor to rotate, and the first shaft 2 rotates under the coordination of a first gear 5, a second gear 7 and a first transmission belt 8 to drive the first shaft to rotate together with the first shaft 2; the left shaft I2 rotates to drive the driving shaft III 23 to rotate through the matching of the gear III 24 and the gear IV 25, the shaft III 23 rotates to drive the shaft II 20 to rotate through the driving belt II 26, and the rotating direction of the shaft II 20 is opposite to that of the shaft I2 (opposite to the moving direction of the aluminum foil 4), so that the surface of the aluminum foil 4 can be better cleaned;

the second shaft 20 rotates under the matching of the seventh gears to drive the second shaft 20 to rotate together, and the second shafts 20 rotate in opposite directions (clockwise and anticlockwise), so that the surfaces (vertically placed) on two sides of the aluminum foil 4 can be cleaned better;

the cleaning water flowing out through the second pipe 16 can directly flow into the corresponding water outlet seat 19, the cleaning water can wet the brush roller 22 below the second pipe through the water outlet hole formed in the water outlet seat 19, and when the water speed flowing out through the second pipe 16 is larger than the sum of the flow speeds of the water outlet holes, the excess water can directly overflow from the water outlet seat 19 and can wet and wash the brush roller 22 arranged below the second pipe, so that the surface of the aluminum foil 4 can be better cleaned;

the cleaning water in the water tank 13 can also directly flow downwards through the cleaning seat 15 and is used for directly washing the two side surfaces of the aluminum foil 4 brushed by the brush roller 22, so that the cleaning effect is further improved;

the rotation of the first shaft 2 drives the toothed ring 39 to rotate through the cooperation of the fifth gear 28 and the sixth gear 31, the toothed ring 39 rotates to enable the second magnetic circular plate to rotate, when the second magnetic circular plate rotates 180 degrees each time, the magnetism corresponding to the first magnetic circular plate 34 changes once (the attraction is converted into the repulsion, the repulsion is converted into the attraction), so that the first magnetic circular plate 34 can be driven to move in the vertical direction, the first magnetic circular plate 34 can drive the extrusion block 35 to move in the vertical direction through the second rod body 32 in the vertical direction, the extrusion block 35 can press the first magnetic circular plate 34 in the vertical direction, so that most of the moisture adsorbed on the first magnetic circular plate is extruded, the water absorption capacity of the second sponge pad 37 is ensured, the second sponge pad 37 is used for absorbing the moisture contained on the first sponge pad 36, the first sponge pad 36 is used for absorbing and removing the moisture contained on the surface of the aluminum foil 4, and the aluminum foil 4 is wiped after being cleaned.

Claims

1. The cleaning mechanism for the automatic production line for aluminum foil formation comprises a base (1), a first shaft (2), an aluminum foil (4), a second gear (7) and a first transmission belt (8), and is characterized in that the base (1) is rotatably provided with two positioning rollers (9) matched with the first transmission belt (8), the base (1) is fixedly provided with a water receiving seat (10) matched with the aluminum foil (4), the base (1) is fixedly provided with two first supporting plates (11) through a plurality of square rods, the two first supporting plates (11) are fixedly provided with a water tank (13) through a mounting frame (12), a pull-back structure is arranged between the water tank (13) and the water receiving seat (10), and the lower end of the water tank (13) is fixedly communicated with a cleaning seat (15) through the first pipe;

two supporting plates II (21) are fixedly installed in the water receiving seat (10), two shafts II (20) are rotatably installed on the supporting plate II (21) on the left side, brush rollers (22) are fixedly sleeved on the two shafts II (20), a water supplementing structure is installed between the water tank (13) and the brush rollers (22), a transmission structure I is installed between one shaft I (2) on the left side and the corresponding shaft II (20), a gear seventh is fixedly installed on the two shaft II (20), and the two gears seventh are meshed;

two metal mesh plates (33) and two positioning plates (38) are fixedly mounted on the second supporting plate (21) on the right side, the upper ends of the two metal mesh plates (33) are fixedly mounted with a mounting plate (27), two toothed rings (39) are mounted on the mounting plate (27) through a connecting structure, and a linkage structure is mounted between the toothed rings (39) and the first shaft (2);

an extrusion block (35) is installed on each of the two positioning plates (38) through a sliding assembly, a vertical moving structure is installed between each extrusion block (35) and the corresponding gear ring (39), and a spongy cushion I (36) and a spongy cushion II (37) are fixedly installed on two sides of each metal mesh plate (33).

2. The cleaning mechanism for the automatic production line formed by aluminum foils as claimed in claim 1, wherein the drawing structure is composed of a water pump, a water pumping pipe (14) and a water outlet pipe, the water pump is fixedly installed outside the water tank (13), the water pump is fixedly communicated with the water pumping pipe (14) and the water outlet pipe, one end of the water outlet pipe is located in the water tank (13), the water pumping pipe (14) is in an L shape which rotates clockwise by 180 degrees, and the lower end of the water pumping pipe (14) is located in the water receiving seat (10).

3. The cleaning mechanism for the automatic production line for aluminum foil formation according to claim 1, wherein the water replenishing structure comprises a second pipe (16), a fixing frame (17), a first rod body (18) and a water outlet seat (19), the water tank (13) is fixedly connected with the second pipe (16), the fixing frame (17) is fixedly installed between the second pipe (16), the lower end of the fixing frame (17) is fixedly provided with two water outlet seats (19) through the first rod body (18), the water outlet seat (19) is provided with a plurality of water outlet holes, the upper end of the water outlet seat (19) is provided with an opening, and the upper end of the second shaft (20) is rotatably installed on the corresponding water outlet seat (19).

4. The cleaning mechanism for the automatic production line for the formation of the aluminum foil as claimed in claim 1, wherein the first transmission structure comprises a third shaft (23), a third gear (24), a fourth gear (25), a transmission wheel and a second transmission belt (26), the third shaft (23) is rotatably mounted on the base (1), the fourth gear (25) is fixedly mounted on the third shaft (23), the third gear (24) meshed with the fourth gear (25) is correspondingly fixedly mounted on the first shaft (2), the third shaft (23) and the second shaft (20) are both fixedly mounted with a transmission wheel, and the second transmission wheel is jointly sleeved with the second transmission belt (26).

5. The cleaning mechanism for the automatic production line for aluminum foil formation according to claim 1, wherein the connecting structure comprises an arc-shaped step sliding groove and step sliding blocks, two arc-shaped step sliding blocks are fixedly mounted on the upper surface of the mounting plate (27), and the lower end surfaces of the two toothed rings (39) are provided with step sliding grooves matched with the step sliding blocks.

6. The cleaning mechanism for the automatic production line for the formation of the aluminum foil according to claim 1, wherein the linkage structure comprises five gears (28), blocks (29), four shafts (30) and six gears (31), two blocks (29) are fixedly mounted on the first supporting plate (11) on the right side, four shafts (30) meshed with the corresponding toothed rings (39) are rotatably mounted on the two blocks (29), and five gears (28) meshed with the corresponding six gears (31) are fixedly mounted on the first shafts (2) on the right side.

7. The cleaning mechanism for the automatic production line for aluminum foil formation according to claim 1, wherein the sliding assembly comprises a strip-shaped stepped chute and a square stepped slide block, one side of each of the two positioning plates (38) close to each other is provided with a strip-shaped stepped chute, and one side of each of the two extrusion blocks (35) far away from each other is fixedly provided with a square stepped slide block matched with the strip-shaped stepped chute.

8. The cleaning mechanism for the automatic production line for aluminum foil formation as claimed in claim 1, wherein the vertical moving structure is composed of a second rod body (32), a second magnetic circular plate and a first magnetic circular plate (34), two rods (32) are fixedly mounted at the upper end of the extrusion block (35), two rods (32) are fixedly mounted at the upper end of the first magnetic circular plate (34), two magnetic circular plates (34) are fixedly mounted in the gear ring (39), the first magnetic circular plate (34) and the second magnetic circular plate are composed of two arc-shaped magnetic blocks with equal size, and the magnetism of the two arc-shaped magnetic blocks is opposite at the same side.