CN112221870A - Coating device with slurry recycling structure for production of super capacitor - Google Patents

Abstract

The invention discloses a coating device with a slurry recovery structure for producing a super capacitor, which comprises a rack, an unwinding roller, an extrusion mechanism, a drying mechanism, a driving mechanism, a winding roller, a guide roller, a lifting mechanism and a coating mechanism, wherein the unwinding roller, the guide roller, the extrusion mechanism, the lifting mechanism, the coating mechanism, the drying mechanism, the extrusion mechanism, the driving mechanism, the guide roller and the winding roller are sequentially arranged in front of the rack from one side to the other side. The arrangement of the guide roller not only realizes the function of guiding materials, but also prevents the materials from deviating, solves the problem of stability of the materials for transmission, and ensures that the device is suitable for the materials with different widths; the coating mechanism solves the problems that the thickness of the slurry is reduced and the production quality is not facilitated due to certain fluidity of the slurry; the setting of collecting the box has solved the unnecessary waste of thick liquids, has polluted equipment, increases the problem of the cleaning device degree of difficulty.

Description

Coating device with slurry recycling structure for production of super capacitor

Technical Field

The invention relates to the technical field of production of super capacitors, in particular to a coating device with a slurry recovery structure for production of a super capacitor.

Background

The manufacturing process of the super capacitor mainly comprises the processes of proportioning, pulping, coating, rolling, slitting, winding, laser welding, packaging, injecting liquid, activating, detecting, packaging and the like. Wherein a coating machine is required in the coating stage, and the coating machine is used for uniformly coating the slurry on the surface of the aluminum foil (or the copper foil) according to the preset thickness and length. Aluminum foil (or copper foil) is automatically corrected and discharged through tension control by a discharging mechanism, slurry is transferred and coated on the surface of a foil belt through servo control, the coated aluminum foil (or copper foil) is dried by a drying box, and is regularly rewound to a material receiving air expansion shaft through correction and tension control.

Chinese patent publication No. CN207981551U discloses a coating device for lithium battery production, including the supporter, the guide roll, thick liquids material loading subassembly, coating roll one, coating roll two and aftertreatment subassembly, the guide roll is installed at the preceding terminal surface of supporter, thick liquids material loading subassembly sets up at the guide roll upside, and thick liquids material loading subassembly installs the terminal surface before the supporter, thick liquids material loading subassembly includes gasbag, spring one, the support plate, the warning light, transparent viewing aperture, screw rod and screw hole, coating roll one is installed at thick liquids material loading subassembly up end, coating roll two sets up on coating roll one right side, aftertreatment subassembly sets up on coating roll one and coating roll two upsides, aftertreatment subassembly includes stoving case, the perforated plate, the pivot and cold pressing roller. However, this device has the following disadvantages: 1. in the slurry feeding assembly, because a gap exists between the coating roller and the opening and the air bag is used for filling air into the box body, the carrier plate pushes slurry to rise, so that the slurry is easy to overflow from the opening, the slurry is wasted, equipment is polluted, and the difficulty of cleaning the equipment is increased; 2. the vertical transmission of material that is scribbled thick liquids in the device, because thick liquids have certain mobility, lead to the thickness of thick liquids to diminish, be unfavorable for production quality. In order to stabilize the material conveying of the existing coating device, at least two groups of deviation rectifying devices are added in the conveying process, for example, chinese patent with publication number CN 206064763U: a coating apparatus for producing a supercapacitor.

Disclosure of Invention

The invention aims to solve the problems and provide a coating device with a slurry recycling structure for producing a super capacitor.

The invention realizes the purpose through the following technical scheme:

a coating device with a slurry recovery structure for supercapacitor production comprises a frame, an unwinding roller, an extrusion mechanism, a drying mechanism, a driving mechanism and a winding roller, and further comprises a guide roller, a lifting mechanism and a coating mechanism, wherein the unwinding roller, the guide roller, the extrusion mechanism, the lifting mechanism, the coating mechanism, the drying mechanism, the extrusion mechanism, the driving mechanism, the guide roller and the winding roller are sequentially arranged from one side to the other side in the front of the frame, the guide roller close to the unwinding roller is positioned above the unwinding roller, the lifting mechanism is positioned above the coating mechanism, the guide roller comprises a guide roller body, a rear positioning ring, a threaded hole, an adjusting screw, a front positioning plate and a supporting ring, the rear end of the guide roller body is connected with the frame through a bearing, and the rear positioning ring is welded at the rear end of the outer side of the guide roller body, the center of the front end of the guide roller body is provided with the threaded hole, the inner side of the threaded hole is in threaded connection with the adjusting screw rod, the front end of the adjusting screw rod extends out of the threaded hole, the front positioning plate is welded, the support ring is welded at the rear end of the front positioning plate, the diameter of the support ring is the same as that of the guide roller body, and the coaxial arrangement can guide the materials through the guide roller body, can prevent the materials from deviating through the rear positioning ring and the front positioning plate, not only realizes the guide function of the materials, but also prevents the materials from deviating, solves the problem of stable material transmission, at least two groups of deviation rectifying devices are added in the transmission process, the front positioning plate can be rotated to drive the adjusting screw rod to rotate, and then realized the change of distance between back holding ring and the preceding locating plate for this device is applicable to the material of different width. The lifting mechanism comprises a second cylinder, a connecting frame, a mounting plate and a guide roller, the second cylinder is connected in the front of the rack through a bolt, the bottom of the output end of the second cylinder is connected with the connecting frame through a bolt, the mounting plate which is arranged obliquely is welded below the connecting frame, the guide roller is rotatably connected between the two mounting plates at two ends, the connecting frame can be driven by the second cylinder to ascend through the arrangement, the connecting frame drives the mounting plate to ascend, the mounting plate drives the guide roller to ascend, so that the guide roller comes out of the coating box, the installation of materials is facilitated, the coating mechanism comprises a coating box, a discharge port, a scraper blade, a collecting box, a return pipe and an inlet pipe, the coating box is connected in the front of the rack through a bolt and is positioned below the lifting mechanism, one side of the coating box, which is far away from the unwinding roller, is, the discharge port is positioned above the collecting box, the upper part and the lower part of one side of the discharge port close to the collecting box are both provided with the scraping plates which can move up and down, the feeding pipe is connected with the bottom of the rear part of the coating box through a hose clamp, the return pipe is connected with the bottom of the rear part of the collecting box through a hose clamp, the feed pipe is connected with the feed box through a water pump, the return pipe is communicated with the feed box, the arrangement is that the materials are coated horizontally, the height of the scraper can be adjusted to control the thickness of slurry coating, the problems that the thickness of the slurry is reduced and the production quality is not facilitated due to certain fluidity of the slurry are solved, the slurry overflowing from the discharge port is collected by the collection box, and the slurry flows back to the material box through the return pipe, so that the problems of unnecessary waste of the slurry, equipment pollution and difficulty increase in equipment cleaning are solved.

Preferably, the handle is welded in the center of one side of the front positioning plate, which is far away from the adjusting screw rod, so that the front positioning plate can be driven to rotate by rotating the handle, and the front positioning plate can be conveniently rotated.

Preferably, the outer side of the adjusting screw is in threaded connection with an additional ring, the diameter of the additional ring is the same as that of the guide roller body, and the additional ring can be added to support materials, so that the materials are prevented from being deformed during guiding.

Preferably, the extrusion mechanism comprises a first slide rail, a first fixed block, a first sliding block, a first clamping roller and a first cylinder, the first slide rail is connected in front of the rack through a bolt, the bottom of the inner side of the first slide rail is connected with the first fixed block through a bolt, the inner side of the first slide rail is connected with the first sliding block in a sliding manner, the first sliding block is positioned above the first fixed block, the front parts of the first fixed block and the first sliding block are both connected with the first clamping roller through a bearing, the top of the first slide rail is connected with the first cylinder through a bolt, the output end of the first cylinder extends into the first slide rail and is connected with the top of the first sliding block through a bolt, so that the first sliding block can be driven by the first cylinder to descend, and the distance between the two first clamping rollers is reduced, the function of extruding the materials is realized, the tension degree in the material transmission process and the function of extruding the slurry are increased, and the connection between the slurry and the materials is more tight.

Preferably, the extrusion mechanism comprises a first slide rail, a first fixed block, a first sliding block, a first clamping roller and a spring, the first slide rail is connected with the front of the rack through a bolt, the bottom of the inner side of the first slide rail is connected with the first fixed block through a bolt, the sliding block is connected with the inner side of the first slide rail through a bolt, the first sliding block is positioned above the first fixed block, the first fixed block and the front of the first sliding block are both connected with the first clamping roller through a bearing, the top of the inner side of the first slide rail is connected with the spring through a bolt, the lower end of the spring is connected with the top of the first sliding block through a bolt, the first sliding block can be driven to descend through the spring, the distance between the two first clamping rollers is reduced, the function of extruding materials is realized, the tension degree and the function of extruding slurry in the material transmission process are increased, so that the connection between the slurry and the material is tighter.

Preferably, drying mechanism includes drying cabinet, leads to material mouth, trachea, drying-machine down, it has through bolted connection to go up the drying cabinet below drying cabinet under the drying cabinet, go up the drying cabinet with the both sides of drying cabinet junction have been seted up down lead to the material mouth, go up the drying cabinet with drying cabinet looks back of the body end passes through down the trachea is connected with the drying-machine, just the drying-machine passes through the screw connection and is in the frame rear, sets up like this and can produce the hot gas flow through the drying-machine to make the hot gas flow get into the drying cabinet and drying cabinet inside under with, blow to the material at last, realized the function of dry thick liquids.

Preferably, go up the drying cabinet with drying cabinet inside all has the dispersion board through the screw connection down, set up like this and can make the even material that blows of air current for the thick liquids are dry comparatively even.

Preferably, three bar groove has been seted up on the scraper blade, and two in the outside bar inslot side sliding connection has the guide bar, the guide bar welding is in on the coating box, it is middle the bar inslot side is provided with the locking screw, just locking screw thread end with coating box threaded connection, locking screw rotation end is provided with the diameter and is greater than the circular clamp plate of bar groove width sets up like this and can rotates the locking screw for circular clamp plate extrudees the scraper blade, has realized the function of fixed scraper blade, can also be through loosening the locking screw, and the guide bar outside is slided again to the scraper blade this moment, has realized the function of regulation scraper blade height.

Preferably, the driving mechanism comprises a second slide rail, a second fixed block, a second sliding block, a second clamping roller, a driving motor and a screw rod, the second slide rail is connected inside the rack through a bolt, the bottom of the inner side of the second slide rail is connected with the second fixed block through a bolt, the inner side of the second slide rail is connected with the second sliding block through a bolt, the second sliding block is positioned above the second fixed block, the front ends of the second fixed block and the second sliding block are both rotatably connected with the second clamping roller, the rear end of the second sliding block is connected with the driving motor through a bolt, the driving motor is in key connection with the second clamping roller, the top of the second sliding block is rotatably connected with the screw rod, the upper end of the screw rod extends out of the second slide rail and is in threaded connection with the second slide rail, so that the driving mechanism can rotate the screw rod, the lead screw drives the second sliding block to descend, so that the two second clamping rollers clamp the material, and then the second clamping rollers are driven to rotate through the driving motor, so that the consistency of the material conveying speed is realized.

Preferably, the unreeling roller with the wind-up roller all with the frame passes through the bearing and connects, just the wind-up roller rear end is connected in torque motor through the key-type, sets up like this and can drive the wind-up roller through torque motor and rotate, has not only realized the function of rolling material, should prevent to appear gliding phenomenon between material and the second pinch roll.

Has the advantages that:

1. the device can guide materials through the guide roller body, can prevent the materials from deviating through the rear positioning ring and the front positioning plate, not only realizes the function of guiding the materials, but also prevents the materials from deviating, solves the problem that at least two groups of deviation rectifying devices are added in the process of conveying the materials for the stability of conveying the materials, and can also realize the change of the distance between the rear positioning ring and the front positioning plate by rotating the front positioning plate and driving the adjusting screw rod to rotate through rotating the front positioning plate, so that the device is suitable for the materials with different widths;

2. the coating mechanism of the device enables materials to be coated horizontally, and the height of the scraper can be adjusted to control the thickness of slurry coating, so that the problems that the thickness of slurry is reduced and the production quality is not facilitated due to certain fluidity of the slurry are solved;

3. the setting up of box has been collected to this device has realized collecting the thick liquids that overflow from the discharge gate to through the back flow in the feed box, it is extravagant to have solved thick liquids unnecessary, has polluted equipment, increases the problem of the cleaning device degree of difficulty.

Additional features of the invention and advantages thereof will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural diagram of a coating device with a slurry recycling structure for producing a supercapacitor according to the invention;

FIG. 2 is a schematic structural diagram of a guide roller of a coating device with a slurry recycling structure for producing a super capacitor according to the invention;

FIG. 3 is a schematic structural diagram of a first embodiment of the extrusion mechanism of the coating device with a slurry recycling structure for producing the supercapacitor according to the invention;

FIG. 4 is a schematic structural diagram of a lifting mechanism of a coating device with a slurry recycling structure for producing a super capacitor according to the invention;

FIG. 5 is a schematic structural diagram of a coating mechanism of a coating device with a slurry recycling structure for producing a super capacitor according to the invention;

FIG. 6 is a schematic structural diagram of a drying mechanism of a coating device with a slurry recycling structure for producing a super capacitor according to the invention;

FIG. 7 is a schematic structural diagram of a driving mechanism of a coating device with a slurry recycling structure for producing a super capacitor according to the invention;

fig. 8 is a schematic structural diagram of a second embodiment of the extrusion mechanism of the coating device with a slurry recycling structure for producing the supercapacitor.

The reference numerals are explained below:

1. a frame; 2. unwinding rollers; 3. a guide roller; 4. an extrusion mechanism; 5. a lifting mechanism; 6. a coating mechanism; 7. a drying mechanism; 8. a drive mechanism; 9. a wind-up roll; 301. a guide roller body; 302. a rear positioning ring; 303. a threaded hole; 304. adjusting the screw rod; 305. a front positioning plate; 306. a support ring; 307. a handle; 308. an additional ring; 401. a first slide rail; 402. a first fixed block; 403. a first slider; 404. a first pinch roller; 405. a first cylinder; 41. a spring; 501. a second cylinder; 502. a connecting frame; 503. mounting a plate; 504. a guide roller; 601. a coating box; 602. a discharge port; 603. a squeegee; 604. a collection box; 605. a return pipe; 606. a feed pipe; 6031. a strip-shaped groove; 6032. a guide bar; 6033. locking screws; 701. putting the dried bean curd into a drying box; 702. a lower drying box; 703. a dispersion plate; 704. a material inlet is formed; 705. an air tube; 706. a dryer; 801. a second slide rail; 802. a second fixed block; 803. a second slider; 804. a second pinch roller; 805. a drive motor; 806. and a lead screw.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1

As shown in fig. 1-7, a coating device with a slurry recycling structure for supercapacitor production comprises a frame 1, an unwinding roller 2, an extruding mechanism 4, a drying mechanism 7, a driving mechanism 8, a winding roller 9, a guide roller 3, a lifting mechanism 5 and a coating mechanism 6, wherein the unwinding roller 2, the guide roller 3, the extruding mechanism 4, the lifting mechanism 5, the coating mechanism 6, the drying mechanism 7, the extruding mechanism 4, the driving mechanism 8, the guide roller 3 and the winding roller 9 are sequentially arranged in front of the frame 1 from one side to the other side, the guide roller 3 close to the unwinding roller 2 is positioned above the unwinding roller 2, the lifting mechanism 5 is positioned above the coating mechanism 6, the guide roller 3 comprises a guide roller body 301, a rear positioning ring 302, a threaded hole 303, an adjusting screw 304, a front positioning plate 305 and a support ring 306, the rear end of the guide roller body 301 is connected with the frame 1 through a bearing, the rear end of the outer side of the guide roller body 301 is welded with the rear positioning ring 302, a threaded hole 303 is arranged in the center of the front end of the guide roller body 301, an adjusting screw 304 is connected with the inner side of the threaded hole 303 in a threaded manner, the front end of the adjusting screw 304 extends out of the threaded hole 303, and a front positioning plate 305 is welded, a support ring 306 is welded at the rear end of the front positioning plate 305, and the supporting ring 306 and the guide roller body 301 have the same diameter and are coaxially arranged, so that the material can be guided by the guide roller body 301, and the material can be prevented from deviating by the rear positioning ring 302 and the front positioning plate 305, thereby not only realizing the function of guiding the material, but also preventing the material from deviating, solving the problem of stability of material transmission, at least two groups of deviation rectifying devices are added in the transmission process, and the front positioning plate 305 can be rotated, the front positioning plate 305 drives the adjusting screw 304 to rotate, and further realizes the change of the distance between the rear positioning ring 302 and the front positioning plate 305, so that the device is suitable for materials with different widths. The lifting mechanism 5 comprises a second cylinder 501, a connecting frame 502, a mounting plate 503 and a guide roller 504, the second cylinder 501 is connected with the front of the frame 1 through a bolt, the bottom of the output end of the second cylinder 501 is connected with the connecting frame 502 through a bolt, two obliquely arranged mounting plates 503 are welded below the connecting frame 502, the guide roller 504 is rotatably connected between the two mounting plates 503, the connecting frame 502 can be driven by the second cylinder 501 to ascend, the mounting plate 503 is driven by the connecting frame 502 to ascend, the mounting plate 503 drives the guide roller 504 to ascend, so that the guide roller 504 comes out from the inside of the coating box 601, which facilitates the installation of materials, the coating mechanism 6 comprises a coating box 601, a discharge port 602, a scraper 603, a collecting box 604, a return pipe 605 and a return pipe 606, the coating box 601 is connected with the front of the frame 1 through a bolt and is positioned below the lifting mechanism 5, one side of the coating box 601 far, the discharge port 602 is positioned above the collecting box 604, the upper part and the lower part of one side of the discharge port 602 close to the collecting box 604 are both provided with a scraping plate 603 capable of moving up and down, the bottom of the rear part of the coating box 601 is connected with a feeding pipe 606 through a throat hoop, the bottom of the rear part of the collecting box 604 is connected with a return pipe 605 through a throat hoop, the feeding pipe 606 is connected with a material box through a water pump, the return pipe 605 is communicated with the material box, the arrangement enables the material to be coated horizontally, the height of the scraping plate 603 can be adjusted to control the thickness of slurry coating, the problem that the thickness of slurry is reduced due to certain fluidity of the slurry and the production quality is not beneficial is solved, the arrangement of the collecting box 604 realizes the collection of the slurry overflowing from the discharge port 602 and the slurry flows back into the material box through the return pipe 605, the problem that the slurry is, the center of one side of the front positioning plate 305, which is far away from the adjusting screw 304, is welded with a handle 307, the front positioning plate 305 can be driven to rotate by rotating the handle 307, so that the front positioning plate 305 can be conveniently rotated, the outer side of the adjusting screw 304 is in threaded connection with an additional ring 308, the diameter of the additional ring 308 is the same as that of the guide roller body 301, the arrangement can realize supporting of materials by adding the additional ring 308, and the materials are prevented from deforming during guiding, the extrusion mechanism 4 comprises a first sliding rail 401, a first fixing block 402, a first sliding block 403, a first clamping roller 404 and a first air cylinder 405, the first sliding rail 401 is connected in front of the frame 1 through bolts, the bottom of the inner side of the first sliding rail 401 is connected with the first fixing block 402 through bolts, the first sliding block 403 is connected in sliding manner inside the first sliding rail 401, the first sliding block 403 is positioned above the first fixing block 402, the front of the first, the top of the first slide rail 401 is connected with a first air cylinder 405 through a bolt, the output end of the first air cylinder 405 extends into the first slide rail 401 and is connected to the top of the first sliding block 403 through a bolt, the first air cylinder 405 can drive the first sliding block 403 to descend, so that the distance between the two first clamping rollers 404 is reduced, the function of extruding materials is realized, the tension degree in the material transmission process and the function of extruding slurry are increased, the connection between the slurry and the materials is tighter, the drying mechanism 7 comprises an upper drying box 701, a lower drying box 702, a material passing hole 704, an air pipe 705 and a dryer 706, the lower part of the upper drying box 701 is connected with the lower drying box 702 through a bolt, the material passing holes 704 are arranged on two sides of the connection part of the upper drying box 701 and the lower drying box 702, and the opposite ends of the upper drying box 701 and the lower drying box 702 are connected with the dryer 706 through an air pipe 705, the dryer 706 is connected to the rear of the frame 1 through screws, so that hot air can be generated by the dryer 706, and the hot air enters the upper drying box 701 and the lower drying box 702, and finally blows towards materials, so that the function of drying slurry is realized, the inner parts of the upper drying box 701 and the lower drying box 702 are both connected with dispersion plates 703 through screws, so that the air can be uniformly blown towards the materials, so that the slurry is uniformly dried, the scraper 603 is provided with three strip-shaped grooves 6031, the inner sides of the two strip-shaped grooves 6031 at the outer sides are slidably connected with guide rods 6032, the guide rods 6032 are welded on the coating box 601, the inner side of the strip-shaped groove 6031 at the middle part is provided with a locking screw 6033, the threaded end of the locking screw 6033 is in threaded connection with the coating box 601, the rotating end of the locking screw 6033 is provided with a circular pressing plate with the diameter larger than the width of the strip-, the circular pressing plate is enabled to extrude the scraper 603, the function of fixing the scraper 603 is realized, and the locking screw 6033 is loosened, at this time, the scraper 603 can slide outside the guide bar 6032, and the function of adjusting the height of the scraper 603 is realized, the driving mechanism 8 comprises a second slide rail 801, a second fixed block 802, a second slide block 803, a second clamping roller 804, a driving motor 805 and a lead screw 806, the second slide rail 801 is connected inside the machine frame 1 through a bolt, the bottom of the inner side of the second slide rail 801 is connected with the second fixed block 802 through a bolt, the inner side of the second slide rail 801 is connected with the second slide block 803 in a sliding manner, the second slide block 803 is located above the second fixed block 802, the front ends of the second fixed block 802 and the second slide block 803 are both rotatably connected with the second clamping roller 804, the rear end of the second slide block 803 is connected with the driving motor 805 through a bolt, second sliding block 803 top is rotated and is connected with lead screw 806, and lead screw 806 upper end stretches out second slide rail 801, and with second slide rail 801 threaded connection, it can be through rotating lead screw 806 to set up like this, lead screw 806 drives second sliding block 803 and descends, and then make two second pinch rolls 804 press from both sides tight material, then drive second pinch roll 804 through driving motor 805 and rotate, the uniformity of transmission material speed has been realized, unreel roller 2 and wind-up roll 9 and all pass through the bearing with frame 1 and be connected, and wind-up roll 9 rear end passes through the key-type connection in torque motor, it can drive wind-up roll 9 through torque motor to set up like this and rotate, the function of rolling material has not only been realized, the gliding phenomenon appears between material and the second pinch roll 804 that should have prevented.

In the structure, when in use, firstly, a material roll is installed on the unwinding roller 2, then one end of the material sequentially passes through the upper part of the guide roller 3, passes through between the two first clamping rollers 404, passes through the lower guide roller 504 and the upper guide roller 504, passes through the discharge port 602, passes through the material passing port 704, passes through between the two first clamping rollers 404, passes through between the two second clamping rollers 804, passes through the upper part of the guide roller 3 and is fixed on the winding roller 9, then the handle 307 is rotated, the handle 307 drives the front positioning plate 305 to rotate, the front positioning plate 305 drives the adjusting screw 304 to rotate, so that the rear positioning ring 302 and the front positioning plate 305 clamp the material, then the second air cylinder 501 is started, the second air cylinder 501 drives the connecting frame 502 to descend, the connecting frame 502 drives the installing plate 503 to descend, the installing plate 503 drives the guide roller 504 to descend until the upper end of the upper guide roller 504 is flush with the center of, then the height of the scraper 603 is adjusted according to the thickness to be coated, the scraper 603 is in a movable state by rotating a locking screw 6033, then the scraper 603 is moved to be positioned at a proper height, then the locking screw 6033 is rotated again to fix the scraper 603, then a lead screw 806 is rotated, the lead screw 806 drives a second sliding block 803 to descend until a second clamping roller 804 clamps the material, then a first air cylinder 405 is started, the first air cylinder 405 drives a first sliding block 403 to descend, further the distance between the two first clamping rollers 404 is reduced until the first clamping roller 404 clamps the material, then a driving motor 805 is started, the driving motor 805 drives the second clamping roller 804 to rotate, the second clamping roller 804 drives the material to be conveyed at a constant speed, and in the process of conveying, a dryer 706 generates hot air flow, and the hot air flow enters the upper drying box 701 and the lower drying box 702, and finally, blowing the slurry to the material to dry the slurry, and finally starting a torque motor which drives the winding roller 9 to rotate so as to realize the function of winding the material.

Example 2

As shown in fig. 8, embodiment 2 differs from embodiment 1 in that: the extrusion mechanism 4 comprises a first slide rail 401, a first fixed block 402, a first sliding block 403, a first clamping roller 404 and a spring 41, the first slide rail 401 is connected with the front of the rack 1 through a bolt, the bottom of the inner side of the first slide rail 401 is connected with the first fixed block 402 through a bolt, the inner side of the first slide rail 401 is connected with the first sliding block 403 in a sliding manner, the first sliding block 403 is positioned above the first fixed block 402, the front of the first fixed block 402 and the front of the first sliding block 403 are both connected with the first clamping roller 404 through a bearing, the top of the inner side of the first slide rail 401 is connected with the spring 41 through a bolt, and the lower end of the spring 41 is connected with the top of the first sliding block 403 through a bolt, so that the first sliding block 403 can be driven to descend by the spring 41, the distance between the two first clamping rollers 404 is reduced, the function of extruding materials is, so that the connection between the slurry and the material is tighter.

In the structure, when in use, firstly, a material roll is installed on the unwinding roller 2, then one end of the material sequentially passes through the upper part of the guide roller 3, passes through between the two first clamping rollers 404, passes through the lower guide roller 504 and the upper guide roller 504, passes through the discharge port 602, passes through the material passing port 704, passes through between the two first clamping rollers 404, passes through between the two second clamping rollers 804, passes through the upper part of the guide roller 3 and is fixed on the winding roller 9, then the handle 307 is rotated, the handle 307 drives the front positioning plate 305 to rotate, the front positioning plate 305 drives the adjusting screw 304 to rotate, so that the rear positioning ring 302 and the front positioning plate 305 clamp the material, then the second air cylinder 501 is started, the second air cylinder 501 drives the connecting frame 502 to descend, the connecting frame 502 drives the installing plate 503 to descend, the installing plate 503 drives the guide roller 504 to descend until the upper end of the upper guide roller 504 is flush with the center of, then the height of the scraper 603 can be adjusted according to the thickness to be coated, the scraper 603 can be in a movable state by rotating the locking screw 6033, then the scraper 603 is moved to be located at a proper height, then the locking screw 6033 is rotated again to fix the scraper 603, then the lead screw 806 is rotated, the lead screw 806 drives the second sliding block 803 to descend until the second clamping roller 804 clamps the material, then the driving motor 805 is started to drive the second clamping roller 804 to rotate, the second clamping roller 804 drives the material to be transmitted at a uniform speed, and in the transmission process, the dryer 706 generates hot air, and the hot air enters the upper drying box 701 and the lower drying box 702, and finally blows the material to dry the slurry, and finally the torsion motor is started to drive the winding roller 9 to rotate, thereby realizing the function of the material.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a coating device that has thick liquids recovery structure of ultracapacitor system production, includes frame (1), unreels roller (2), extrusion mechanism (4), dry mechanism (7), actuating mechanism (8), wind-up roll (9), its characterized in that: the automatic winding and unwinding device is characterized by further comprising a guide roller (3), a lifting mechanism (5) and a coating mechanism (6), wherein the unwinding roller (2), the guide roller (3), the extruding mechanism (4), the lifting mechanism (5), the coating mechanism (6), the drying mechanism (7), the extruding mechanism (4), the driving mechanism (8), the guide roller (3) and the winding roller (9) are sequentially arranged in front of the frame (1) from one side to the other side, the guide roller (3) close to the unwinding roller (2) is positioned above the unwinding roller (2), the lifting mechanism (5) is positioned above the coating mechanism (6), the guide roller (3) comprises a guide roller body (301), a rear positioning ring (302), a threaded hole (303), an adjusting screw (304), a front positioning plate (305) and a supporting ring (306), the rear end of the guide roller body (301) is connected with the frame (1) through a bearing, the rear positioning ring (302) is welded at the rear end of the outer side of the guide roller body (301), the threaded hole (303) is formed in the center of the front end of the guide roller body (301), the adjusting screw rod (304) is connected with the inner side of the threaded hole (303) in a threaded manner, the front end of the adjusting screw rod (304) extends out of the threaded hole (303), the front positioning plate (305) is welded, the rear end of the front positioning plate (305) is welded with the support ring (306), the support ring (306) and the guide roller body (301) are identical in diameter and are coaxially arranged, the lifting mechanism (5) comprises a second cylinder (501), a connecting frame (502), a mounting plate (503) and a guide roller (504), the second cylinder (501) is connected with the front of the rack (1) through a bolt, the bottom of the output end of the second cylinder (501) is connected with the connecting frame (502, the lower part of the connecting frame (502) is welded with two mounting plates (503) which are obliquely arranged, two ends of the two mounting plates (503) are rotatably connected with the guide roller (504), the coating mechanism (6) comprises a coating box (601), a discharge hole (602), a scraper (603), a collecting box (604), a return pipe (605) and a feed pipe (606), the coating box (601) is connected in front of the frame (1) through bolts and is positioned below the lifting mechanism (5), one side of the coating box (601), which is far away from the unreeling roller (2), is welded with the collecting box (604) and provided with the discharge hole (602), the discharge hole (602) is positioned above the collecting box (604), the scraper (603) which can move up and down is arranged above and below one side of the discharge hole (602), which is close to the collecting box (604), the coating box (601) is connected with the feeding pipe (606) through a hose clamp at the bottom of the rear part, the collecting box (604) is connected with the return pipe (605) through a hose clamp at the bottom of the rear part, the feeding pipe (606) is connected with a feed box through a water pump, and the return pipe (605) is communicated with the feed box.

2. The coating device with a slurry recycling structure for producing the super capacitor according to claim 1, wherein: a handle (307) is welded at the center of one side of the front positioning plate (305) far away from the adjusting screw rod (304).

3. The coating device with a slurry recycling structure for supercapacitor production according to claim 1 or 2, wherein: an additional ring (308) is connected to the outer side of the adjusting screw (304) in a threaded mode, and the diameter of the additional ring (308) is the same as that of the guide roller body (301).

4. The coating device with a slurry recycling structure for producing the super capacitor according to claim 1, wherein: the extrusion mechanism (4) comprises a first sliding rail (401), a first fixed block (402), a first sliding block (403), a first clamping roller (404) and a first air cylinder (405), the first sliding rail (401) is connected with the front of the rack (1) through a bolt, the bottom of the inner side of the first sliding rail (401) is connected with the first fixed block (402) through a bolt, the inner side of the first sliding rail (401) is connected with the first sliding block (403) in a sliding manner, the first sliding block (403) is positioned above the first fixed block (402), the front of the first fixed block (402) and the first sliding block (403) is connected with the first clamping roller (404) through a bearing, the top of the first sliding rail (401) is connected with the first air cylinder (405) through a bolt, and the output end of the first air cylinder (405) extends into the first sliding rail (401), and is connected to the top of the first sliding block (403) through a bolt.

5. The coating device with a slurry recycling structure for producing the super capacitor according to claim 1, wherein: the extrusion mechanism (4) comprises a first slide rail (401), a first fixed block (402), a first sliding block (403), a first clamping roller (404) and a spring (41), the first sliding rail (401) is connected with the front of the frame (1) through a bolt, the bottom of the inner side of the first sliding rail (401) is connected with the first fixing block (402) through a bolt, the inner side of the first sliding rail (401) is connected with the first sliding block (403) in a sliding way, and the first slider (403) is located above the first fixed block (402), the front parts of the first fixed block (402) and the first sliding block (403) are connected with the first clamping roller (404) through bearings, the top of the inner side of the first sliding rail (401) is connected with the spring (41) through a bolt, and the lower end of the spring (41) is connected to the top of the first sliding block (403) through a bolt.

6. The coating device with a slurry recycling structure for producing the super capacitor according to claim 1, wherein: drying mechanism (7) are including drying cabinet (701), drying cabinet (702) down, lead to material mouth (704), trachea (705), drying-machine (706), it has through bolted connection to go up drying cabinet (701) below drying cabinet (702) down, go up drying cabinet (701) with the both sides of drying cabinet (702) junction have been seted up down lead to material mouth (704), go up drying cabinet (701) with drying cabinet (702) back of the body end of carrying on the back is passed through trachea (705) are connected with drying-machine (706) down, just drying-machine (706) are in through the screw connection frame (1) rear.

7. The coating device with the slurry recycling structure for the production of the supercapacitor according to claim 6, wherein: the interior of the upper drying box (701) and the interior of the lower drying box (702) are both connected with dispersion plates (703) through screws.

8. The coating device with a slurry recycling structure for producing the super capacitor according to claim 1, wherein: three bar groove (6031) have been seted up on scraper blade (603), and two in the outside bar groove (6031) inboard sliding connection has guide bar (6032), guide bar (6032) welding is in on coating box (601), middle bar groove (6031) inboard is provided with locking screw (6033), just locking screw (6033) threaded end with coating box (601) threaded connection, locking screw (6033) rotate the end and are provided with the diameter and are greater than the circular pressing plate of bar groove (6031) width.

9. The coating device with a slurry recycling structure for producing the super capacitor according to claim 1, wherein: the driving mechanism (8) comprises a second sliding rail (801), a second fixed block (802), a second sliding block (803), a second clamping roller (804), a driving motor (805) and a lead screw (806), the second sliding rail (801) is connected inside the machine frame (1) through bolts, the bottom of the inner side of the second sliding rail (801) is connected with the second fixed block (802) through bolts, the inner side of the second sliding rail (801) is connected with the second sliding block (803) in a sliding manner, the second sliding block (803) is located above the second fixed block (802), the front ends of the second fixed block (802) and the second sliding block (803) are both connected with the second clamping roller (804) in a rotating manner, the rear end of the second sliding block (803) is connected with the driving motor (805) through bolts, and the driving motor (805) is connected with the second clamping roller (804) through keys, the top of the second sliding block (803) is rotatably connected with the lead screw (806), and the upper end of the lead screw (806) extends out of the second sliding rail (801) and is in threaded connection with the second sliding rail (801).

10. The coating device with a slurry recycling structure for producing the super capacitor according to claim 1, wherein: unreel roller (2) with wind-up roll (9) all with frame (1) passes through the bearing and connects, just wind-up roll (9) rear end is connected in torque motor through the key-type.

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