阅读说明：本技术 一种用于铝合金板材的卷制机械 (Rolling machine for aluminum alloy plates ) 是由 宋曦林 宋李秋 于 2021-10-19 设计创作，主要内容包括：本发明公开了一种用于铝合金板材的卷制机械,包括机体,所述机体侧壁安装有机械臂,所述机械臂上安装有卷制辊,所述机体上通过支架固定连接有工作台,所述工作台上设有对板材进行打磨加热的操作机构；所述操作机构包括开设在工作台侧壁的多个通槽,所述机体底部固定连接有多个竖板,远离所述卷制辊的多个竖板侧壁均转动连接有两个活动筒,两个所述活动筒侧壁滑动连接有第一杆。本发明通过设置操作机构,多个打磨轮转动可以对板材进行打磨抛光处理,无需对其打磨抛光后才能输送卷制,缩短了加工周期,同时打磨轮转动可以带动加热辊转动,进而对板材进行加热,使得板材为加热卷制,从而减小其回弹力,加快其卷制效率。(The invention discloses a rolling machine for aluminum alloy plates, which comprises a machine body, wherein a mechanical arm is arranged on the side wall of the machine body, a rolling roller is arranged on the mechanical arm, the machine body is fixedly connected with a workbench through a support, and an operating mechanism for polishing and heating the plates is arranged on the workbench; operating device is including seting up a plurality of logical grooves at the workstation lateral wall, a plurality of risers of bottom of the body fixedly connected with are kept away from a plurality of riser lateral walls of book roller all rotate and are connected with two movable section of thick bamboo, two movable section of thick bamboo lateral wall sliding connection has first pole. According to the invention, the operating mechanism is arranged, the plurality of grinding wheels can rotate to grind and polish the plate, the plate can be conveyed and rolled without grinding and polishing the plate, the processing period is shortened, and meanwhile, the grinding wheels can rotate to drive the heating roller to rotate so as to heat the plate, so that the plate is heated and rolled, the resilience force is reduced, and the rolling efficiency is improved.)

1. A rolling machine for aluminum alloy plates comprises a machine body (1), wherein a mechanical arm (2) is mounted on the side wall of the machine body (1), a rolling roller (3) is mounted on the mechanical arm (2), and a workbench (4) is fixedly connected to the machine body (1) through a support, and is characterized in that an operating mechanism (5) for polishing and heating the plates is arranged on the workbench (4);

the operating mechanism (5) comprises a plurality of through grooves (501) formed in the side wall of the workbench (4), the bottom of the machine body (1) is fixedly connected with a plurality of vertical plates (502), the side walls of the vertical plates (502) far away from the rolling roller (3) are respectively and rotatably connected with two movable cylinders (503), the side walls of the two movable cylinders (503) are slidably connected with a first rod (504), one end of the first rod (504) is fixedly connected with a polishing wheel (505), the polishing wheel (505) is hollow, the inner wall of each movable cylinder (503) is provided with two arc-shaped grooves (506), the inner wall of each arc-shaped groove (506) is slidably connected with a conductive plate (507), the side wall of each conductive plate (507) is fixedly connected with the side wall of the first rod (504), the side wall of each conductive plate (507) is elastically connected with the inner wall of each arc-shaped groove (506) through a first spring (508), and the side walls of the two opposite polishing wheels (505) are hermetically and slidably connected with a hollow rotating shaft (509), the utility model discloses a hollow rotating shaft (509) is characterized in that cavity pivot (509) both ends are located respectively and polish round (505) inside, two recess (511), two have been seted up with the junction of polishing round (505) in cavity pivot (509) two recess (511) inner wall sealing sliding connection has two connecting strip (512), two connecting strip (512) all with cavity pivot (509) lateral wall fixed connection, the fixed cover of cavity pivot (509) lateral wall is equipped with warming mill (510), one of them arc groove (506) are embedded to be equipped with resistance strip (515), warming mill (510) are kept away from the one end and the external power supply coupled connection of first spring (508) through current conducting plate (507) and resistance strip (515) rather than corresponding.

2. The rolling machine for the aluminum alloy plates as claimed in claim 1, wherein the grinding wheel (505) is T-shaped, the side wall of the heating roller (510) is provided with an annular groove (513), the inner wall of the annular groove (513) is slidably connected with a second rod (514) which is L-shaped, two connecting plates are fixedly connected with two adjacent vertical plate (502) side walls together, the side wall of the second rod (514) is fixedly connected with the adjacent connecting plate side wall, the movable drum (503) above a plurality of the vertical plates (502) is arranged above the workbench (4), and the movable drum (503) below a plurality of the vertical plates (502) is arranged in the through groove (501).

3. The rolling machine for the aluminum alloy plates according to claim 2, wherein a conveying mechanism (6) is arranged on the workbench (4), the conveying mechanism (6) comprises a first roller (601) and a second roller (602) which are arranged between two vertical plates (502), a motor (603) for driving the first roller (601) to rotate is arranged on the side wall of each vertical plate (502) through a support, a first gear (604) is fixedly connected to the side wall of a movable shaft of the motor (603), a second gear (605) coaxially and fixedly connected with the second roller (602) is arranged on each vertical plate (502), and the first gear (604) is meshed with the second gear (605).

4. The rolling machine for the aluminum alloy plates as claimed in claim 3, wherein the first roller (601) and the second roller (602) are provided with a driving mechanism (7), the driving mechanism (7) comprises a first driving wheel (701) and a second driving wheel (702) which are respectively and coaxially and fixedly connected with the first roller (601) and the second roller (602), a plurality of first driven wheels (703) are fixedly connected to the side walls of the plurality of movable drums (503) above the workbench (4), a plurality of second driven wheels (704) are fixedly connected to the side walls of the plurality of movable drums (503) in the through groove (501), the first driving wheel (701) is connected with the plurality of first driven wheels (703) through a synchronous belt, and the second driving wheel (702) is connected with the plurality of second driven wheels (704) through a synchronous belt.

5. The rolling machine for the aluminum alloy plates as claimed in claim 4, wherein a dust suction mechanism (8) is arranged on the machine body (1), the dust suction mechanism (8) comprises a plurality of fixed cylinders (801) fixedly connected to the bottom of the machine body (1), the inner walls of the plurality of fixed cylinders (801) are respectively connected with a sliding plug (802) in a sealing and sliding manner, the side walls of a plurality of movable cylinders (503) above the workbench (4) are respectively connected with a plurality of turntables (803) corresponding to the sliding plugs (802) in a one-to-one manner, the side walls of the turntables (803) are respectively connected with a third rod (804) in a rotating manner through a rotating shaft, the lower ends of the third rods (804) are respectively connected with the upper ends of the corresponding sliding plugs (802) in a rotating manner, the bottom of the fixed cylinders (801) is fixedly connected with a one-way dust exhaust pipe (805), and the side walls of a plurality of risers (502) close to the synchronous belt are respectively connected with a plurality of rotary joints (807) through supports, the inner wall of the grinding wheel (505) is provided with a plurality of dust suction holes (806), the inner wall of the grinding wheel (505) is communicated with one side of the rotary joint (807) through a connecting pipe (808), and the bottom of the fixed cylinder (801) is communicated with the other side of the rotary joint (807) through a one-way dust suction pipe (809).

6. The rolling machine for the aluminum alloy plates according to claim 5, wherein a cooling mechanism (9) is arranged on the sliding plug (802), the cooling mechanism (9) comprises a sliding groove (902) arranged at the lower end of the sliding plug (802), a sliding plate (903) is connected to the inner wall of the sliding groove (902) in a sealing and sliding manner, the upper end of the sliding plate (903) is elastically connected with the top of the sliding groove (902) through a second spring (904), a one-way air suction pipe (905) is fixedly connected to the top of the sliding groove (902), the top of the sliding groove (902) is communicated with the side wall of the machine body (1) through a one-way air injection pipe (906), and a fourth rod (901) is fixedly connected to the bottom of the fixed cylinder (801).

Technical Field

The invention relates to the technical field of aluminum alloy plate processing, in particular to a rolling machine for aluminum alloy plates.

Background

The aluminum alloy plate is an industrial building material, and needs to be rolled into different shapes when being produced and processed.

At present all need cut earlier before rolling up the system to aluminum alloy plate and be the rectangle cubic that accords with the size, then carry the system of rolling up to it, because its cutting department can produce a certain amount of burr after the panel cutting, and do not possess the function to its burnishing and polishing when carrying panel at present, still need to carry the system of rolling up after its burnishing and polishing, this has increased processing cycle undoubtedly, the system of rolling up to panel all is the cooling system simultaneously at present, make the resilience force after the panel system of rolling up great, can obtain corresponding shape after needing a plurality of systems of rolling up, efficiency is slower.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a rolling machine for an aluminum alloy plate.

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

a rolling machine for aluminum alloy plates comprises a machine body, wherein a mechanical arm is mounted on the side wall of the machine body, a rolling roller is mounted on the mechanical arm, a workbench is fixedly connected onto the machine body through a support, and an operating mechanism for polishing and heating the plates is arranged on the workbench;

the operating mechanism comprises a plurality of through grooves formed in the side wall of the workbench, a plurality of vertical plates are fixedly connected to the bottom of the machine body, two movable barrels are rotatably connected to the side walls of the plurality of vertical plates far away from the rolling roller, a first rod is slidably connected to the side walls of the two movable barrels, one end of the first rod is fixedly connected with a polishing wheel, the polishing wheel is hollow, two arc-shaped grooves are formed in the inner wall of each movable barrel, a current-conducting plate is slidably connected to the inner wall of each arc-shaped groove, the side wall of each current-conducting plate is fixedly connected with the side wall of the first rod, the side wall of each current-conducting plate is elastically connected with the inner wall of each arc-shaped groove through a first spring, two opposite side walls of each polishing wheel are hermetically and slidably connected with a hollow rotating shaft, two ends of each hollow rotating shaft are respectively positioned in the polishing wheel, two grooves are formed in the joints of the hollow rotating shafts and the polishing wheel, and two connecting strips are hermetically and slidably connected to the inner walls of the grooves, two the connecting strip all with cavity pivot lateral wall fixed connection, the fixed cover of cavity pivot lateral wall is equipped with the warming mill, one of them the embedded resistance strip that is equipped with of arc wall, the warming mill is kept away from the one end of first spring and is connected with external power supply coupling through current conducting plate and the resistance strip that corresponds rather than.

Further, the wheel of polishing is the T type form, the ring channel has been seted up to the warming mill lateral wall, ring channel inner wall sliding connection has the second pole that is the L type, two connecting plates of two adjacent common fixedly connected with of riser lateral wall, second pole lateral wall and its adjacent connecting plate lateral wall fixed connection are located a plurality of the activity section of thick bamboo of riser top is located the workstation top and sets up, is located a plurality of the activity section of thick bamboo of riser below is located logical inslot setting.

Further, be equipped with the conveying mechanism who carries out panel on the workstation, conveying mechanism is including installing first cylinder and the second cylinder between two risers, the riser lateral wall has the first cylinder pivoted motor of drive through the support mounting, the first gear of motor loose axle lateral wall fixedly connected with, install the second gear with the coaxial fixed connection of second cylinder on the riser, first gear is connected with the meshing of second gear.

Further, all install two movable section of thick bamboo pivoted actuating mechanism of drive on first cylinder and the second cylinder, actuating mechanism includes respectively with first cylinder and the coaxial fixed connection's of second cylinder first action wheel and second action wheel, is located a plurality of first follow driving wheels of a plurality of movable section of thick bamboo lateral walls fixedly connected with of workstation top are located a plurality of seconds of leading to a plurality of movable section of thick bamboo lateral walls fixedly connected with of inslot are followed the driving wheel, first action wheel passes through the hold-in range and is connected from the driving wheel with a plurality of first, the second action wheel passes through the hold-in range and is connected from the driving wheel with a plurality of seconds.

Further, a dust absorption mechanism for absorbing dust generated during plate polishing is arranged on the machine body, the dust absorption mechanism comprises a plurality of fixed cylinders fixedly connected to the bottom of the machine body, the inner walls of the plurality of fixed cylinders are hermetically and slidably connected with sliding plugs, the side walls of the plurality of movable cylinders above the workbench are fixedly connected with a plurality of turntables corresponding to the sliding plugs one by one, the side wall of the rotary table is rotationally connected with a third rod through a rotating shaft, the lower end of the third rod is rotationally connected with the upper end of the corresponding sliding plug, the bottom of the fixed cylinder is fixedly connected with a one-way dust exhaust pipe, the side walls of a plurality of vertical plates close to the synchronous belt are fixedly connected with a plurality of rotary joints through a bracket, a plurality of dust absorption holes are formed in the inner wall of the polishing wheel, the inner wall of the polishing wheel is communicated with one side of the rotary joint through a connecting pipe, and the bottom of the fixed cylinder is communicated with the other side of the rotary joint through a one-way dust absorption pipe.

Further, be equipped with the cooling mechanism that cools down to the panel after the book system on the sliding plug, cooling mechanism is including seting up the spout at the sliding plug lower extreme, the sealed sliding connection of spout inner wall has the slide, slide upper end is through second spring and spout top elastic connection, spout top fixedly connected with one-way breathing pipe, the spout top is through one-way jet-propelled pipe and organism lateral wall intercommunication, gu fixed cylinder bottom fixedly connected with fourth rod.

The invention has the following advantages:

1: through setting up operating device, a plurality of emery wheels rotate and to carry out the polishing to panel and handle, need not to carry the book system after its polishing, shortened processing cycle, and emery wheel rotates simultaneously and can drive the warming mill and rotate, and then heats panel for the system is rolled up for the heating, thereby reduces its resilience force, accelerates its system efficiency of rolling up.

2: through setting up dust absorption mechanism, can absorb and discharge the dust that the department produced to panel is polished, avoid the dust to arrange scattered influence workman's healthy in workspace.

3: through setting up cooling mechanism, can carry out rapid cooling to the panel after the system of book and handle for artifical taking out that can be timely after system of book of panel for machining efficiency.

Drawings

FIG. 1 is a schematic structural view of a rolling machine for aluminum alloy sheets according to the present invention;

FIG. 2 is a schematic sectional view of the direction A-A of the rolling machine for aluminum alloy sheets according to the present invention;

FIG. 3 is an enlarged view of the structure at B in FIG. 2;

FIG. 4 is an enlarged view of the structure at C in FIG. 2;

FIG. 5 is a schematic cross-sectional view of the D-D direction of the rolling machine for aluminum alloy sheets according to the present invention;

fig. 6 is an enlarged schematic view of the structure at E in fig. 2.

In the figure: 1 machine body, 2 mechanical arms, 3 rolling rollers, 4 working tables, 5 operating mechanisms, 501 through grooves, 502 vertical plates, 503 movable cylinders, 504 first rods, 505 grinding wheels, 506 arc-shaped grooves, 507 conductive plates, 508 first springs, 509 hollow rotating shafts, 510 heating rollers, 511 grooves, 512 connecting strips, 513 annular grooves, 514 second rods, 515 resistance strips, 6 conveying mechanisms, 601 first rollers, 602 second rollers, 603 motors, 604 a first gear, 605 a second gear, 7 a driving mechanism, 701 a first driving wheel, 702 a second driving wheel, 703 a first driven wheel, 704 a second driven wheel, 8 a dust suction mechanism, 801 a fixed cylinder, 802 a sliding plug, 803 a rotating disc, 804 a third rod, 805 a unidirectional dust exhaust pipe, 806 a dust suction hole, 807 a rotating joint, 808 a connecting pipe, 809 a unidirectional dust suction pipe, 9 a temperature reduction mechanism, 901 a fourth rod, 902 a sliding chute, 903 a sliding plate, 904 a second spring, 905 a unidirectional air suction pipe and 906 a unidirectional air injection pipe.

Detailed Description

Referring to fig. 1-6, a rolling machine for aluminum alloy plates comprises a machine body 1, wherein a mechanical arm 2 is mounted on the side wall of the machine body 1, a rolling roller 3 is mounted on the mechanical arm 2, and the mechanical arm 2 can drive the rolling roller 3 to move randomly so as to roll the plates correspondingly at present;

the operating mechanism 5 comprises a plurality of through grooves 501 arranged on the side wall of the workbench 4, a plurality of vertical plates 502 are fixedly connected to the bottom of the machine body 1, the side walls of the plurality of vertical plates 502 far away from the rolling roller 3 are respectively and rotatably connected with two movable cylinders 503, the side walls of the two movable cylinders 503 are slidably connected with a first rod 504, one end of the first rod 504 is fixedly connected with a polishing wheel 505, the polishing wheel 505 is hollow, the inner wall of each movable cylinder 503 is provided with two arc-shaped grooves 506, the inner wall of each arc-shaped groove 506 is slidably connected with a conductive plate 507, the side wall of each conductive plate 507 is fixedly connected with the side wall of the first rod 504, the side wall of each conductive plate 507 is elastically connected with the inner wall of each arc-shaped groove 506 through a first spring 508, the side walls of the two opposite polishing wheels 505 are hermetically and slidably connected with hollow rotating shafts, two ends of each hollow rotating shaft 509 are respectively positioned in the polishing wheel 505, two grooves 511 are arranged at the joints of the hollow rotating shafts and the polishing wheels 505, and two connecting strips 512 are hermetically and slidably connected with the inner walls of the two grooves 511, the two connecting strips 512 are fixedly connected with the side wall of the hollow rotating shaft 509, the side wall of the hollow rotating shaft 509 is fixedly sleeved with a heating roller 510, a resistance strip 515 is embedded in one arc-shaped groove 506, and the heating roller 510 is coupled and connected with an external power supply through the conductive plate 507 and one end, far away from the first spring 508, of the resistance strip 515 corresponding to the conductive plate 507.

Grinding wheel 505 is the T type form, and annular groove 513 has been seted up to warming mill 510 lateral wall, and annular groove 513 inner wall sliding connection has the second pole 514 that is the L type, two connecting plates of the common fixedly connected with of two adjacent riser 502 lateral walls, second pole 514 lateral wall and adjacent connecting plate lateral wall fixed connection, and the activity section of thick bamboo 503 that is located a plurality of riser 502 tops is located workstation 4 top setting, and the activity section of thick bamboo 503 that is located a plurality of riser 502 below is located logical inslot 501 and sets up.

Furthermore, the T-shaped polishing wheels 505 can be attached to the edges of the plates, so that when the plates are conveyed on the surface of the workbench 4, the plates can be polished by the rotation of the polishing wheels 505, the plates can be conveyed without polishing, the processing period is shortened, meanwhile, the heating rollers 510 can be driven to rotate by the rotation of the polishing wheels 505, the plates are heated, the resilience force of the plates is reduced, and the rolling efficiency is improved;

because rectangular plates with different shapes and sizes are needed when the plates are rolled, the width of the plates is correspondingly changed, when the width of the plates is widened, the plates extrude the grinding wheel 505, the grinding wheel 505 drives the first rod 504 to slide towards the inside of the movable barrel 503, the grinding wheel 505 can still grind and polish the plates when the plates are conveyed, meanwhile, the first rod 504 slides to drive the conductive plate 507 to slide on the side wall of the resistor strip 515, so that the resistance of a circuit connected to the heating roller 510 is reduced, further, the heat generated in unit time on the heating roller 510 is increased, further, the wider plates can be effectively heated, meanwhile, when the plates are narrowed, the grinding wheel 505 drives the first rod 504 to slide outwards under the action of the first spring 508, so that the grinding wheel 505 can still grind and polish the plates, and the resistance of the circuit connected to the heating roller 510 is increased, and then the heat that produces in unit interval on the warming mill 510 reduces, and then when heating narrower panel, can save the loss of electric energy, that is when the width of panel changes, the heat that produces in unit interval on the warming mill 510 this moment is directly proportional with the change of panel width, and then can also carry out effectual heating to the panel of different width when the energy can be saved, and then ensure panel system quality.

The conveying mechanism 6 for conveying the plate is arranged on the workbench 4, the conveying mechanism 6 comprises a first roller 601 and a second roller 602 which are arranged between two vertical plates 502, a motor 603 for driving the first roller 601 to rotate is arranged on the side wall of each vertical plate 502 through a support, a first gear 604 is fixedly connected to the side wall of a movable shaft of the motor 603, a second gear 605 meshed with the second roller 602 is arranged on each vertical plate 502, and the first gear 604 is meshed with the second gear 605.

The driving mechanism 7 for driving the two movable drums 503 to rotate is installed on each of the first roller 601 and the second roller 602, the driving mechanism 7 includes a first driving wheel 701 and a second driving wheel 702 which are respectively and fixedly connected with the first roller 601 and the second roller 602 in a coaxial manner, a plurality of first driven wheels 703 are fixedly connected with the side walls of the plurality of movable drums 503 above the workbench 4, a plurality of second driven wheels 704 are fixedly connected with the side walls of the plurality of movable drums 503 in the through grooves 501, the first driving wheel 701 is connected with the plurality of first driven wheels 703 through a synchronous belt, and the second driving wheel 702 is connected with the plurality of second driven wheels 704 through the synchronous belt.

It should be noted that the first driving wheel 701 and the second driving wheel 702 are the same in size, the first driven wheel 703 and the second driven wheel 704 are the same in size, and the diameters of the first driving wheel 701 and the second driving wheel 702 are much larger than the diameters of the first driven wheel 703 and the second driven wheel 704, so that when the first drum 601 and the second drum 602 rotate, the first driven wheel 703 and the second driven wheel 704 can rotate rapidly, and the grinding wheel 505 rotates rapidly to grind the plate.

Be equipped with on organism 1 and carry out absorptive dust absorption mechanism 8 to the dust when panel is polished, dust absorption mechanism 8 includes a plurality of fixed cylinders 801 of fixed connection in organism 1 bottom, the equal sealed sliding connection in a plurality of fixed cylinder 801 inner walls has sliding plug 802, a plurality of carousel 803 with sliding plug 802 one-to-one of a plurality of movable cylinder 503 lateral walls fixedly connected with that are located workstation 4 top, carousel 803 lateral wall rotates through the pivot and is connected with third pole 804, the lower extreme of third pole 804 rotates rather than the sliding plug 802 upper end that corresponds and is connected, fixed cylinder 801 bottom fixedly connected with one-way dust exhaust pipe 805, a plurality of riser 502 lateral walls that are close to the hold-in range pass through a plurality of rotary joint 807 of support fixedly connected with, a plurality of dust absorption holes 806 have been seted up to polishing wheel 505 inner wall, polishing wheel 505 inner wall passes through connecting pipe 808 and rotary joint 807 one side intercommunication, fixed cylinder 801 bottom passes through one-way dust absorption pipe 809 and rotary joint 807 opposite side intercommunication.

It should be noted that the one-way dust exhaust pipe 805 only allows dust to be exhausted from the fixed cylinder 801, and the one-way dust exhaust pipe 809 only allows dust to enter the fixed cylinder 801 from the rotary joint 807.

Further, when the polishing wheel 505 close to the turntable 803 rotates, the turntable 803 rotates to drive the sliding plug 802 to move up and down through the third rod 804, and then the fixed cylinder 801 can absorb and discharge dust generated at the polishing position of the plate through the one-way dust exhaust pipe 805 and the one-way dust exhaust pipe 809, so that the influence of dust exhaust in a working space on the health of workers is avoided.

Be equipped with on sliding plug 802 and carry out the cooling mechanism 9 that cools down to the panel after rolling up, cooling mechanism 9 is including seting up at the spout 902 of sliding plug 802 lower extreme, and the sealed sliding connection of spout 902 inner wall has slide 903, and slide 903 upper end is through second spring 904 and spout 902 top elastic connection, the one-way breathing pipe 905 of spout 902 top fixedly connected with, and the spout 902 top is through one-way jet pipe 906 and organism 1 lateral wall intercommunication, solid fixed cylinder 801 bottom fixedly connected with fourth rod 901.

It should be noted that the one-way air suction pipe 905 allows only gas from the outside to enter the chute 902, and the one-way air injection pipe 906 allows only dust to be ejected from the chute 902.

Further, when sliding plug 802 reciprocated, slide 903 slided from top to bottom under the effect of fourth rod 901 and second spring 904 this moment, and then can be through one-way gas-jet pipe 906 intermittent type nature gas-spurting in the spout 902 for gas blows on the panel, and then can carry out rapid cooling to handling on the panel after the book is made, makes the artifical taking out that can be timely of panel after the book is made, accelerates machining efficiency.

In the invention, a plate is placed on a workbench 4 and sequentially passes through a plurality of grinding wheels 505, a plurality of heating rollers 510 and a first roller 601 and a second roller 602, then a driving motor 603 rotates, further a first gear 604 drives a second gear 605 to rotate, further the first roller 601 and the second roller 602 rotate to convey the plate, then a mechanical arm 2 is adjusted to change the position of a rolling roller 3, and further the plate is rolled into a corresponding size and shape;

the first roller 601 and the second roller 602 rotate to respectively drive a first driving wheel 701 and a second driving wheel 702 which are coaxially and fixedly connected with the first driving wheel 701 and the second driving wheel 702 to rotate, and then the first driving wheel 701 and the second driving wheel 702 respectively drive a plurality of first driven wheels 703 and a plurality of second driven wheels 704 to rapidly rotate through synchronous belts, so that a plurality of movable drums 503 positioned above the workbench 4 and in the through groove 501 are rapidly rotated, and then the movable drums 503 drive a plurality of polishing wheels 505 to rapidly rotate through conductive plates 507 and first rods 504, so as to polish and polish the side walls of the plates, and the polishing wheels 505 rotate to drive the heating roller 510 to rotate through a hollow rotating shaft 509, so that the plates are heated, and the resilience force of the plates after being rolled is reduced;

when the grinding wheel 505 close to the turntable 803 rotates, the turntable 803 rotates to drive the sliding plug 802 to move up and down through the rotating shaft and the third rod 804, so that the space in the fixed cylinder 801 intermittently increases and decreases, when the space in the fixed cylinder 801 increases, the fixed cylinder 801 absorbs dust generated when the plate is ground through the one-way dust suction pipe 809, the rotary joint 807, the connecting pipe 808, the hollow rotating shaft 509 and the dust suction hole 806, when the space in the fixed cylinder 801 decreases, the fixed cylinder 801 discharges the dust through the one-way dust discharge pipe 805, and the process is repeated, so that the dust generated at the ground position of the plate can be absorbed and discharged, and the dust is prevented from being discharged in a working space to influence the body health of workers;

when the sliding plug 802 moves up and down, the fourth rod 901 intermittently extrudes the sliding plate 903 at the moment, so that the sliding plate 903 slides up and down under the action of the fourth rod 901 and the second spring 904, and intermittent air injection can be performed in the sliding groove 902 through the one-way air suction pipe 905 and the one-way air injection pipe 906, so that air is blown onto the plate, and the rolled plate can be rapidly cooled, so that the plate can be taken out manually in time after being rolled;

when a wider plate is conveyed and rolled, the grinding wheel 505 drives the first rod 504 to slide towards the inside of the movable cylinder 503 under the extrusion of the plate, the conductive plate 507 slides towards the inside of the arc-shaped groove 506 at the moment, the movable cylinder 503 rotates to still drive the first rod 504 to rotate, the grinding wheel 505 can still grind and polish the plate when the plate is conveyed, meanwhile, the first rod 504 slides to drive the conductive plate 507 to slide on the side wall of the resistor strip 515, so that the resistance of a circuit connected to the heating roller 510 is reduced, further, the heat generated on the heating roller 510 in unit time is increased, further, the wider plate can be effectively heated, similarly, when the conductive plate is conveyed and rolled, the grinding wheel 505 drives the first rod 504 to slide outwards under the action of the first spring 508, at the moment, the grinding wheel 507 slides outwards on the inner wall of the arc-shaped groove 506, further, the movable cylinder 503 rotates to still drive the first rod 504 to rotate, make grinding wheel 505 still can polish and polish panel to access the resistance increase of circuit on the warming mill 510 this moment, and then the heat that produces in unit interval on the warming mill 510 reduces, makes when the width of panel changes, the heat that produces in unit interval on the warming mill 510 this moment is directly proportional with the change of panel width, and then can also carry out effectual heating to the panel of different width when the energy can be saved, and then ensure panel book system quality.