CN116060791A - Precision cutting equipment for aluminum foil production and cutting method thereof - Google Patents

Abstract

The invention relates to the technical field of aluminum foil cutting, in particular to precision cutting equipment for aluminum foil production and a cutting method thereof. According to the invention, through the cooperation of the parts, the smoke and aluminum foil particles generated in the cutting process of the aluminum foil can be absorbed and intensively treated, so that the health of operators is protected, and meanwhile, the arrangement mechanism and the vibration mechanism are driven by the air exhausted by the induced draft fan to act, so that the aim of arranging the aluminum foil and saving time is fulfilled.

Description

Precision cutting equipment for aluminum foil production and cutting method thereof

Technical Field

The invention relates to the technical field of aluminum foil cutting, in particular to precision cutting equipment for aluminum foil production and a cutting method thereof.

Background

The hot stamping material of aluminium foil is made up by directly calendering metal aluminium into thin sheet, and its hot stamping effect is similar to that of pure silver foil so as to make it also be called false silver foil. The aluminum foil can be printed by laminating the rolled sheet with sodium silicate or the like on offset paper, because the aluminum has soft texture and good ductility and has silvery white luster.

When the aluminum foil is put into use, the aluminum foil needs to be cut, burrs generated by cutting are reduced, so that the cutting is performed in a laser cutting mode, when the laser cutting is adopted, the cutting principle is that a high-density high-energy laser beam is adopted to irradiate the surface of the aluminum foil, so that the aluminum foil is instantly melted and evaporated, meanwhile, the slag generated by cutting is cleaned through auxiliary gas used by the laser cutting, but in the laser cutting process, the auxiliary gas cannot effectively and intensively clean smoke and aluminum foil particles generated by cutting, so that the smoke and the aluminum foil particles are scattered everywhere, the physical health of operators is influenced, meanwhile, the aluminum foil after cutting is positioned on the surface of a bearing plate in a messy way, and manual arrangement is required, but because of the problem of aluminum foil materials, the arrangement is difficult, and the time is wasted.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides the precision cutting equipment for aluminum foil production and the cutting method thereof, which can effectively solve the problems that smoke and aluminum foil particles generated in the laser cutting process in the prior art can drift everywhere, and the physical health of operators and the arrangement difficulty are affected.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention provides a precision cutting device for aluminum foil production and a cutting method thereof, comprising a main body, a laser cutting machine which is slidably arranged on the main body, and further comprising: the fixing piece is fixedly arranged on the main body, one side of the fixing piece is fixedly provided with a bracket, and the inside of the bracket is movably connected with a bearing plate; the arrangement mechanism is arranged in one side of the bracket and comprises a hollow rod which is rotationally connected with a mounting groove formed in one side of the bracket, a plurality of groups of poking plates are obliquely and circumferentially arranged on the surface of the hollow rod, a plurality of groups of communication holes are formed in a penetrating manner on the surface of the hollow rod, a conical barrel with a plurality of groups of wind holes circumferentially arranged on the surface is fixedly arranged on the inner wall of one end of the hollow rod, a plurality of groups of arc plates are equidistantly arranged on the inner wall of the conical barrel, and a plurality of groups of spiral driving plates are fixedly arranged on one side of the conical barrel; the vibration mechanism is fixedly arranged on the lower surface of the support, the vibration mechanism comprises a spring poking plate which is symmetrically and fixedly arranged on the bearing plate, a poking rod is arranged on one side of the spring poking plate, one end of the poking rod is fixedly connected with a driving rod, the driving rod is arranged in a protective shell arranged on the lower surface of the support, and the outer surface of the driving rod is tightly attached to the inner wall of the protective shell.

Further, a cutting table with a hollow interior and a cutting groove formed in the upper surface is fixedly arranged on one side of the main body, a plurality of groups of adsorption holes are formed in the upper surface of the cutting table in a penetrating mode, and smoke removing holes are formed in the bottom surface of the cutting groove in an equidistant penetrating mode.

Further, the mounting includes the extrusion pole of symmetry installation at laser cutting machine surface, the below of extrusion pole is provided with the fixed plate, sealing cloth is installed to the inner wall symmetry of fixed plate, and sealing cloth and laser cutting machine's fixed surface are connected.

Further, the lower surface fixed mounting of cutting bench has the rose box rather than the intercommunication, the one side intercommunication of rose box has the draught fan, the output of draught fan is connected with communicating pipe.

Further, the bearing plate is of a trapezoid structure, and the inclined surface of the bearing plate is in contact with the aluminum foil.

Further, one end of the hollow rod is communicated with the communicating pipe.

Further, one end of the protective shell is communicated with the other end of the hollow rod, an exhaust hole is formed in one side of the protective shell, and the exhaust hole is communicated with an air inlet of the laser cutting machine through a connecting pipe.

Further, the protective shell is elastically connected with the driving rod through a reset spring arranged in the protective shell.

Further, the communication hole obliquely penetrates through the surface of the hollow rod, and the communication hole is of an L-shaped structure.

A method of cutting aluminum foil production, the method comprising the steps of:

s1: firstly, an aluminum foil to be cut is conveyed by an existing conveying mechanism and passes under a laser cutting machine, when the aluminum foil reaches the length required to be cut, the conveying mechanism stops rotating, and an induced draft fan is started to adsorb the aluminum foil on a cutting table of the aluminum foil;

s2: starting a laser cutting machine when the aluminum foil is adsorbed and fixed, starting sliding cutting of the aluminum foil, and pressing and fixing the aluminum foil by extruding a fixing plate downwards through an extruding rod while the laser cutting machine moves;

s3: in the cutting process of the laser cutting machine, the smoke and particles generated by the aluminum foil cutting can be sucked by the wind force generated by the suction force generated by the induced draft fan, filtered by the filter box, transmitted into the hollow rod through the communicating pipe and driven to rotate, and blown and tidied to the aluminum foil on the bearing plate through the communicating hole and the poking plate which are formed on the surface of the hollow rod in a penetrating way;

s4: the wind inside the hollow rod can enter the protective shell through the other end of the hollow rod to push the driving rod fixedly connected with the deflector rod to move and extrude the reset spring, so that the deflector rod drives the spring deflector plate to start bending deformation.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

according to the aluminum foil cutting machine, the arrangement mechanism and the vibration mechanism are arranged, so that the aluminum foil to be cut can be fixed through the mutual matching of the fixing piece and the induced draft fan in the cutting process, deformation in the cutting process is avoided, meanwhile, smoke generated by cutting and aluminum foil particles are sucked and intensively treated through the suction force generated by the induced draft fan, the physical health of operators is protected, meanwhile, the arrangement mechanism and the vibration mechanism are driven to act through the air exhausted by the induced draft fan, the arrangement of the aluminum foil is realized, and the time is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is an isometric view of the overall structure of the present invention;

FIG. 2 is a right-side isometric view of the overall structure of the present invention;

FIG. 3 is an enlarged schematic view of the structure A in FIG. 1 according to the present invention;

FIG. 4 is a schematic cross-sectional view of a fastener according to the present invention;

FIG. 5 is an enlarged schematic view of the structure B in FIG. 4 according to the present invention;

FIG. 6 is a schematic view of the overall structure of the hollow core rod of the present invention;

FIG. 7 is a schematic view of the internal structure of the hollow core rod of the present invention;

FIG. 8 is a schematic diagram of a driving plate structure according to the present invention;

FIG. 9 is a schematic plan view of a conical barrel according to the present invention;

FIG. 10 is an exploded view of a vibration mechanism according to the present invention;

FIG. 11 is a schematic view of the planar structure of the carrier plate according to the present invention;

fig. 12 is a schematic plan view of a communication hole according to the present invention.

Reference numerals in the drawings represent respectively: 1. a main body; 101. a cutting table; 102. adsorption holes; 103. smoke removing holes; 2. a laser cutting machine; 3. a fixing member; 301. an extrusion rod; 302. a fixing plate; 303. sealing cloth; 4. a filter box; 5. an induced draft fan; 501. a communicating pipe; 6. a bracket; 601. a carrying plate; 7. a finishing mechanism; 701. a hollow rod; 702. a poking plate; 703. a communication hole; 704. a conical cylinder; 705. an arc-shaped plate; 706. a driving plate; 8. a vibration mechanism; 801. a spring plectrum; 802. a deflector rod; 803. a driving rod; 804. a protective shell; 8041. an exhaust hole; 805. and (3) a spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Examples: the precise cutting equipment for aluminum foil production and the cutting method thereof are shown in fig. 1-12, and comprise a main body 1, wherein a cutting table 101 with a hollow inside and a cutting groove on the upper surface is fixedly arranged on one side of the main body 1, and the aluminum foil with cutting can be carried by arranging the cutting table 101, so that laser cutting is facilitated;

wherein, the upper surface of the cutting table 101 is provided with a plurality of groups of adsorption holes 102 in a penetrating way, and the adsorption holes 102 are provided, so that the aluminum foil on the surface of the cutting table 101 can be adsorbed and fixed; smoke removal holes 103 are formed in the bottom surface of the cutting groove in an equidistant penetrating mode, smoke and aluminum foil particles generated in the aluminum foil cutting process can be absorbed through the smoke removal holes 103, and the influence on the health of operators due to the fact that the smoke and the aluminum foil particles drift everywhere is avoided.

And a laser cutter 2 slidably mounted on the main body 1, the laser cutter 2 being reciprocally movable left and right on the main body 1 so as to cut the aluminum foil on the surface of the cutter head 101;

the aluminum foil cutting machine also comprises a fixing piece 3 fixedly arranged on the main body 1, and the aluminum foil placed on the upper surface of the cutting table 101 can be pressed and fixed by arranging the fixing piece 3, so that the aluminum foil is kept stable in the cutting process and is prevented from being deformed;

the fixing piece 3 comprises extrusion rods 301 symmetrically arranged on the surface of the laser cutting machine 2, and the extrusion rods 301 are arranged so as to synchronously move along with the reciprocating movement of the laser cutting machine 2, so that other parts of the fixing piece 3 are driven to move; a fixing plate 302 is provided below the extrusion rod 301, and the upper end of the fixing plate 302 is slidably engaged with the surface of the extrusion rod 301, so that the aluminum foil is pressed and fixed by downward movement under the action of the extrusion rod 301.

The sealing cloth 303 is symmetrically arranged on the inner wall of the fixing plate 302, the sealing cloth 303 is fixedly connected with the surface of the laser cutting machine 2, and by arranging the sealing cloth 303, the fixing plate 302 can form a closed state between the cutting table 101 and the fixing plate 302 when the aluminum foil is pressed, so that smoke and aluminum foil particles generated by cutting are prevented from drifting everywhere; it should be noted that the sealing cloth 303 has an elastic deformation property, and can be pulled to deform and restore to its original shape.

Referring to fig. 4, a filter box 4 communicated with the cutting table 101 is fixedly installed on the lower surface of the cutting table, and smoke and aluminum foil particles sucked into the cutting table can be filtered by arranging the filter box 4; one side of the filter box 4 is communicated with an induced draft fan 5, and smoke and aluminum foil particles generated by cutting can be attracted into the filter box 4 by the suction generated by starting the induced draft fan 5; the output end of the induced draft fan 5 is connected with a communicating pipe 501, and the filtered air flow can be discharged through the arrangement of the communicating pipe 501;

referring to fig. 1 and 2 and fig. 10 and 11, a bracket 6 is fixedly arranged on one side of the fixing piece 3, and the bracket 6 is arranged, so that the effect of supporting and bearing can be achieved; the inside swing joint of support 6 has loading board 601, and loading board 601 is trapezium structure, and the inclined plane of loading board 601 contacts with the aluminium foil, through setting up trapezium structure loading board 601, and then bear by the aluminium foil of cutting, simultaneously through the effect of its inclined plane for the aluminium foil of cutting can be inclined towards a direction, the subsequent arrangement of being convenient for.

Referring to fig. 1 to 12, by providing the finishing mechanism 7 and arranging it inside one side of the bracket 6, the aluminum foil on the carrier plate 601 is conveniently finished, and the manual finishing time is reduced; the arranging mechanism 7 comprises a hollow rod 701 rotatably connected with a mounting groove formed on one side of the bracket 6, one end of the hollow rod 701 is communicated with the communicating pipe 501, and the hollow rod 701 communicated with the communicating pipe 501 is arranged so as to guide the air flow discharged from the inside of the communicating pipe 501;

wherein, a plurality of groups of poking plates 702 are obliquely and circumferentially arranged on the surface of the hollow rod 701, the poking plates 702 are made of rubber, and aluminum foils on the bearing plate 601 can be lifted and poked through arranging the poking plates 702;

wherein, the surface of hollow bar 701 runs through and has seted up multiunit intercommunicating pore 703, and the intercommunicating pore 703 slope runs through and has been seted up on the surface of hollow bar 701, and intercommunicating pore 703 is L type structure to the orbit of seting up of this intercommunicating pore 703 is the same with the orbit of dialling board 702, through setting up intercommunicating pore 703, and then the air current of being convenient for blows out from its inside, blows the aluminium foil for the aluminium foil can separate, is convenient for arrange.

The inner wall of one end of the hollow rod 701 is fixedly provided with a conical cylinder 704 with a plurality of groups of wind holes, the inner wall of the conical cylinder 704 is equidistantly provided with a plurality of groups of arc plates 705, and through the arrangement of the conical cylinder 704 and the arc plates 705, air flow discharged from the communicating pipe 501 enters the conical cylinder 704 communicated with one end of the hollow rod 701 and can drive the hollow rod 701 to rotate under the action of the arc plates 705; one side of the conical cylinder 704 is fixedly provided with a plurality of groups of spiral driving plates 706, and by arranging the driving plates 706, air flow blown out from the inside of the air holes formed in the surface of the conical cylinder 704 can be guided, and meanwhile, the air flow can act on the driving plates 706, so that the hollow rod 701 can rotate rapidly.

Referring to fig. 1 to 12, by arranging the vibration mechanism 8 and fixedly mounting it on the lower surface of the bracket 6, the carrier plate 601 can be driven to shake reciprocally, and the aluminum foil on the inclined surface can be arranged; the vibration mechanism 8 comprises spring poking sheets 801 which are symmetrically and fixedly arranged on the bearing plate 601, and the characteristic that the spring poking sheets 801 can vibrate back and forth after being extruded and deformed is achieved, so that the bearing plate 601 fixedly connected with the vibration mechanism can reciprocate and vibrate, and the arrangement of aluminum foils on the surface of the bearing plate is quickened;

wherein, a deflector rod 802 is arranged on one side of the spring deflector 801, and the deflector rod 802 is arranged, so that the spring deflector 801 can be driven to deform, thereby realizing the vibration effect; one end of the deflector rod 802 is fixedly connected with a driving rod 803, and the driving rod 803 is arranged, so that the deflector rod 802 can be driven to synchronously act;

the driving rod 803 is disposed in a protective shell 804 mounted on the lower surface of the bracket 6, and the outer surface of the driving rod 803 is tightly attached to the inner wall of the protective shell 804, so that a sealing state can be formed between the driving rod 803 and the protective shell 804 by disposing the protective shell 804, and air flow discharged from the other end of the hollow rod 701 can enter the protective shell 804 to push the driving rod 803 to move;

one end of the protecting shell 804 is communicated with the other end of the hollow rod 701, an exhaust hole 8041 is formed in one side of the protecting shell 804, the exhaust hole 8041 is communicated with an air inlet of the laser cutting machine 2 through a connecting pipe, and air pressure in the protecting shell 804 can be released by forming the exhaust hole 8041, so that the driving rod 803 can be reset, and meanwhile, the exhaust hole 8041 is communicated with the air inlet of the laser cutting machine 2, so that the recycling of air is realized; the protective housing 804 is elastically connected with the driving rod 803 through a return spring 805 arranged in the protective housing, and the driving rod 803 is driven to return by the reaction force generated by compression of the protective housing through the arrangement of the return spring 805.

Specifically, when the aluminum foil is cut, the aluminum foil is conveyed to the inside of the main body 1 through an external conveying mechanism, so that the aluminum foil passes through the cutting table 101 and moves to the bearing plate 601, when the aluminum foil is conveyed to the length to be cut, the conveying is stopped, then the induced draft fan 5 is started, the suction generated by the induced draft fan passes through the filter box 4 communicated with the cutting table 101 and is matched with the adsorption holes 102 penetrating through the surface of the cutting table 101, so that the aluminum foil can be adsorbed on the surface of the cutting table 101, and then the laser cutting machine 2 is started, so that the laser cutting machine starts to transversely move on the main body 1 to cut the aluminum foil;

when the laser cutting machine 2 transversely moves, the extrusion rods 301 symmetrically arranged on the surface of the laser cutting machine extrude the fixing plate 302 below the laser cutting machine, so that the fixing plate 302 starts to move downwards along the inner wall of the main body 1, and the aluminum foil on the surface of the cutting table 101 is pressed and fixed for the second time, thereby avoiding deformation of the aluminum foil in the cutting process and affecting cutting;

when the laser cutting machine 2 cuts, smoke removing holes 103 formed at the bottom of a cutting groove on the cutting table 101 form air flow under the action of the suction force of the induced draft fan 5, smoke and aluminum foil particles generated in the aluminum foil cutting process are sucked and enter the filter box 4, the air flow processed by the filter box 4 is introduced into one end of the hollow rod 701 through the communicating pipe 501, one part of the air flow acts on an arc plate 705 fixedly mounted on the inner wall of the conical cylinder 704, so that the hollow rod 701 can rotate, and the other part of the air flow flows out from air holes formed on the surface of the conical cylinder 704, acts on the driving plate 706, and simultaneously, the air flow is blown out and acts on the aluminum foil on the inclined surface of the bearing plate 601 through the drainage of the driving plate 706 and the communicating holes 703 formed on the surface of the driving plate 706;

when the hollow bar 701 rotates, the aluminum foil on the inclined surface of the bearing plate 601 is lifted and fluctuated by the poking plate 702 arranged on the surface of the hollow bar 701, and meanwhile, the stacked aluminum foils can be separated by matching with the air flow blown out from the communication hole 703 so as to be tidied;

along with the continuous exhaust of the air flow from the communicating pipe 501, the air flow entering the hollow rod 701 is exhausted from the other end and enters the inside of the protecting shell 804, so that the driving rod 803 in sliding fit with the inner wall of the protecting shell 804 is pushed to move and compress the return spring 805, the moving driving rod 803 drives the deflector 802 arranged on one side of the driving rod 803, so that the deflector 802 extrudes the spring deflector 801 to deform, when the driving rod 803 continuously moves and the air vent 8041 is communicated with the inside of the protecting shell 804, the air in the protecting shell 804 enters the air inlet of the laser cutting machine 2 through the connecting pipe communicated with the air vent 8041, at the moment, the pressure in the protecting shell 804 is smaller than the reaction force generated by the return spring 805, the driving rod 803 drives the deflector 802 to reset, and the deformed spring deflector 801 starts to vibrate reciprocally and move on the support 6, so that the aluminum foil on the surface of the aluminum foil can be matched with the finishing mechanism 7 better, and the purpose of quick finishing is achieved.

The cutting method for producing the aluminum foil comprises the following steps:

s1: firstly, an aluminum foil to be cut is conveyed by an existing conveying mechanism and passes under a laser cutting machine 2, when the aluminum foil reaches the length to be cut, the conveying mechanism stops rotating, and a draught fan 5 is started to adsorb the aluminum foil on a cutting table 101;

s2: starting the laser cutting machine 2 when the aluminum foil is adsorbed and fixed, starting sliding cutting of the aluminum foil, and pressing and fixing the aluminum foil further by pressing the fixing plate 302 downwards through the pressing rod 301 while the laser cutting machine 2 moves;

s3: in the process of cutting by the laser cutting machine 2, the smoke and particles generated by cutting aluminum foil are sucked by the wind force generated by the suction force generated by the induced draft fan 5 and are filtered by the filter box 4, then are transmitted into the hollow rod 701 through the communicating pipe 501 and drive the hollow rod 701 to rotate, and the aluminum foil on the bearing plate 601 is blown and arranged through the communicating hole 703 and the poking plate 702 which penetrate through the surface of the hollow rod 701;

s4: wind passing through the inside of the hollow rod 701 enters the inside of the protective shell 804 through the other end of the hollow rod 701 to push the driving rod 803 fixedly connected with the deflector rod 802 to move and extrude the reset spring 805, so that the deflector rod 802 drives the spring deflector plate 801 to start bending deformation, when the exhaust hole 8041 sealed by the driving rod 803 is communicated with the connecting pipe and the pressure inside the protective shell 804 is smaller than the elastic force of the reset spring 805, the deflector rod 802 is restored to the original state, and meanwhile, the spring deflector plate 801 starts to drive the bearing plate 601 to start reciprocating vibration, and aluminum foils on the surface of the bearing plate 601 are tidied.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; these modifications or substitutions do not depart from the essence of the corresponding technical solutions from the protection scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. Precision cutting equipment is used in aluminium foil production, including main part (1) to and slidable mounting is laser cutting machine (2) on main part (1), its characterized in that still includes: a fixing piece (3) fixedly arranged on the main body (1), a bracket (6) is fixedly arranged on one side of the fixing piece (3), and a bearing plate (601) is movably connected inside the bracket (6);

the arrangement mechanism (7) is arranged in one side of the support (6), the arrangement mechanism (7) comprises a hollow rod (701) rotationally connected with an installation groove formed in one side of the support (6), a plurality of groups of poking plates (702) are obliquely and circumferentially arranged on the surface of the hollow rod (701), a plurality of groups of communication holes (703) are formed in the surface of the hollow rod (701) in a penetrating mode, a conical cylinder (704) with a plurality of groups of wind holes formed in the surface of the inner wall of one end of the hollow rod (701) in a surrounding mode is fixedly arranged on the inner wall of the conical cylinder (704), a plurality of groups of arc plates (705) are equidistantly arranged on the inner wall of the conical cylinder (704), and a plurality of groups of spiral driving plates (706) are fixedly arranged on one side of the conical cylinder (704).

Vibration mechanism (8), fixed mounting is in the lower surface of support (6), vibration mechanism (8) are including symmetry fixed mounting spring plectrum (801) at loading board (601), one side of spring plectrum (801) is provided with driving lever (802), one end fixedly connected with actuating lever (803) of driving lever (802), actuating lever (803) set up in the inside of installing protective housing (804) at support (6) lower surface, and the surface of actuating lever (803) is closely laminated with the inner wall of protective housing (804).

2. The precision cutting equipment for aluminum foil production according to claim 1, wherein a cutting table (101) with a hollow inside and a cutting groove on the upper surface is fixedly arranged on one side of the main body (1), a plurality of groups of adsorption holes (102) are formed in the upper surface of the cutting table (101) in a penetrating manner, and smoke removing holes (103) are formed in the bottom surface of the cutting groove in an equidistant penetrating manner.

3. The precision cutting equipment for aluminum foil production according to claim 2, wherein the fixing piece (3) comprises extrusion rods (301) symmetrically arranged on the surface of the laser cutting machine (2), a fixing plate (302) is arranged below the extrusion rods (301), sealing cloth (303) is symmetrically arranged on the inner wall of the fixing plate (302), and the sealing cloth (303) is fixedly connected with the surface of the laser cutting machine (2).

4. The fine cutting device for aluminum foil production according to claim 3, wherein a filter box (4) communicated with the lower surface of the cutting table (101) is fixedly installed, one side of the filter box (4) is communicated with an induced draft fan (5), and an output end of the induced draft fan (5) is connected with a communicating pipe (501).

5. The fine cutting apparatus for aluminum foil production according to claim 4, wherein the carrier plate (601) has a trapezoid structure, and the inclined surface of the carrier plate (601) is in contact with the aluminum foil.

6. The fine cutting apparatus for aluminum foil production according to claim 5, wherein one end of the hollow rod (701) is in communication with the communicating tube (501).

7. The fine cutting device for aluminum foil production according to claim 6, wherein one end of the protective shell (804) is communicated with the other end of the hollow rod (701), an exhaust hole (8041) is formed in one side of the protective shell (804), and the exhaust hole (8041) is communicated with the air inlet of the laser cutting machine (2) through a connecting pipe.

8. The fine cutting apparatus for aluminum foil production according to claim 7, wherein the protective case (804) is elastically connected to the driving rod (803) by a return spring (805) provided inside thereof.

9. The fine cutting apparatus for aluminum foil production according to claim 8, wherein the communication hole (703) is formed obliquely through the surface of the hollow rod (701), and the communication hole (703) has an L-shaped structure.

10. Cutting method for aluminum foil production, which is applied to the fine cutting device for aluminum foil production according to claim 9, characterized in that the cutting method comprises the steps of:

s1: firstly, an aluminum foil to be cut is conveyed by an existing conveying mechanism and passes under a laser cutting machine (2), when the aluminum foil reaches the length required to be cut, the conveying mechanism stops rotating, and an induced draft fan (5) is started to absorb the aluminum foil on a cutting table (101);

s2: starting a laser cutting machine (2) when the aluminum foil is adsorbed and fixed, starting sliding cutting of the aluminum foil, and pressing and fixing the aluminum foil further by pressing a fixing plate (302) downwards through a pressing rod (301) while the laser cutting machine (2) moves;

s3: in the cutting process of the laser cutting machine (2), the smoke and particles generated by cutting aluminum foils are sucked by wind force generated by suction force generated by an induced draft fan (5), filtered by a filter box (4), transmitted into the hollow rod (701) through a communicating pipe (501) and driven to rotate, and aluminum foils on the bearing plate (601) are blown and tidied through communicating holes (703) and poking plates (702) which are formed on the surface of the hollow rod (701) in a penetrating way;

s4: wind inside through hollow pole (701) can get into inside drive lever (803) of protecting crust (804) through its other end promote with driving lever (802) fixed connection and remove and extrude reset spring (805) for driving spring plectrum (801) and beginning bending deformation by driving lever (802), when exhaust hole (8041) sealed by drive lever (803) are linked together with the connecting pipe and the inside pressure of protecting crust (804) is less than the elasticity of reset spring (805), driving lever (802) resumes the original form, and spring plectrum (801) begin to drive loading board (601) and begin reciprocating vibrations simultaneously, arrange the aluminium foil of loading board (601) surface.

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