CN111070853A - Laminating and stacking equipment for metal plates - Google Patents
Laminating and stacking equipment for metal plates Download PDFInfo
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- CN111070853A CN111070853A CN201911240695.XA CN201911240695A CN111070853A CN 111070853 A CN111070853 A CN 111070853A CN 201911240695 A CN201911240695 A CN 201911240695A CN 111070853 A CN111070853 A CN 111070853A
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- stacking
- laminating
- film
- support
- roller
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B37/00—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding
- B32B37/12—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by using adhesives
- B32B37/1284—Application of adhesive
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B38/00—Ancillary operations in connection with laminating processes
- B32B38/0004—Cutting, tearing or severing, e.g. bursting; Cutter details
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B38/00—Ancillary operations in connection with laminating processes
- B32B38/04—Punching, slitting or perforating
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B38/00—Ancillary operations in connection with laminating processes
- B32B38/18—Handling of layers or the laminate
- B32B38/1825—Handling of layers or the laminate characterised by the control or constructional features of devices for tensioning, stretching or registration
- B32B38/1833—Positioning, e.g. registration or centering
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B38/00—Ancillary operations in connection with laminating processes
- B32B38/18—Handling of layers or the laminate
- B32B38/1825—Handling of layers or the laminate characterised by the control or constructional features of devices for tensioning, stretching or registration
- B32B38/1833—Positioning, e.g. registration or centering
- B32B38/1841—Positioning, e.g. registration or centering during laying up
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B38/00—Ancillary operations in connection with laminating processes
- B32B38/04—Punching, slitting or perforating
- B32B2038/045—Slitting
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- Lining Or Joining Of Plastics Or The Like (AREA)
Abstract
The invention provides laminating and stacking equipment for metal plates, and belongs to the technical field of metal plate processing. It includes the tectorial membrane device and stacks the device, the tectorial membrane device includes tectorial membrane guiding mechanism, tectorial membrane mechanism, film cutting mechanism, tectorial membrane guiding mechanism includes tectorial membrane feeding guide roll, tectorial membrane ejection of compact guide roll, tectorial membrane mechanism sets up between tectorial membrane feeding guide roll and tectorial membrane ejection of compact guide roll, film cutting mechanism sets up the one side at tectorial membrane mechanism, stack the device including stacking supporting mechanism, stack the transport mechanism, stack spacing alignment mechanism, the tray that stacks supporting mechanism lays stacks the supporting bench, stack the transport mechanism and stack the transport subassembly including a left side and stack the transport subassembly, the right side stacks the transport subassembly, a left side stacks transport subassembly and the right side and stacks the symmetry setting of transport subassembly in the both sides that stack supporting mechanism. According to the invention, the metal plates can be automatically stacked after being coated with the film, and stacked orderly, so that the labor intensity of workers is greatly reduced, and personal injury to the workers is effectively avoided.
Description
Technical Field
The invention relates to the technical field of metal plate processing, in particular to laminating and stacking equipment for metal plates.
Background
Sheet metal is the most widely used metal material in the manufacturing industry and can be classified into the following types according to thickness: thin plates, medium plates, thick plates, extra thick plates; the production method can be classified into: hot-rolled steel sheets, cold-rolled steel sheets; the classification by surface features can be divided into: wire drawing plate, galvanized plate, tin plate, composite steel plate, color coating steel plate, etc. In the production process of the metal plate, special treatment such as wire drawing and mirror surface is needed to be carried out on the surface of the metal plate due to use requirements and the like, the surface of the metal plate after the special treatment is very easy to scratch, and a film is needed to be pasted on the metal plate after the special treatment is finished, so that the protection of the metal plate is realized. After the metal plates are coated with the film on the film coating machine, the metal plates are generally carried and stacked on the tray manually, and then the metal plates are carried by carrying vehicles such as a forklift, so that the labor intensity is high in the whole process, and workers are easy to be injured in the carrying and stacking processes due to the fact that the metal plates are high in quality and sharp in edges. Moreover, the metal plates are manually stacked, so that the position deviation is large, and subsequent carrying and subsequent processing are not facilitated.
Disclosure of Invention
The invention aims to provide laminating and stacking equipment for metal plates, which can automatically stack the metal plates after laminating the metal plates, stack the metal plates orderly, greatly reduce the labor intensity of workers and effectively avoid personal injury to the workers.
The technical scheme adopted by the invention for solving the technical problems is as follows:
the laminating device comprises a laminating frame, laminating frame supporting legs, a laminating guide mechanism, a laminating mechanism and a film cutting mechanism, wherein the laminating frame supporting legs are installed at the lower end of the laminating frame, the laminating guide mechanism comprises laminating feeding guide rollers and laminating discharging guide rollers, the number of the laminating feeding guide rollers is more than three, the laminating feeding guide rollers are rotatably arranged on the laminating frame, the laminating discharging guide rollers can also be rotatably arranged on the laminating frame, the laminating feeding guide rollers and the laminating discharging guide rollers are equal in height and are parallel to each other, the laminating mechanism is arranged between the laminating feeding guide rollers and the laminating discharging guide rollers, and the laminating mechanism comprises a laminating side support, an upper laminating roller, a lower laminating roller, a film withdrawing support, a laminating guide roller support, The film laminating machine comprises a film laminating driving motor, a film laminating driving motor support, a first film laminating driving wheel, a second film laminating driving wheel and a film laminating driving belt, wherein the film laminating side supports are arranged on two sides of a film laminating rack, an upper film laminating roller and a lower film laminating roller are both rotatably arranged on the film laminating side supports, the upper film laminating roller and the lower film laminating roller are adjacent from top to bottom and are not in contact with each other, a film withdrawing support is arranged at the upper end of the film laminating side supports, the film withdrawing roller is rotatably arranged on the film withdrawing support, a film laminating guide roller support is arranged on the film laminating side supports, the film laminating guide roller is rotatably arranged on the film laminating guide roller support, the second film laminating driving wheel is coaxially arranged at one end of the lower film laminating roller, the film laminating driving motor is arranged on the film laminating driving motor support, the film laminating driving motor support is arranged on the film laminating side supports, and the film laminating, the first drive wheel of tectorial membrane and tectorial membrane second drive wheel pass through the tectorial membrane drive belt to be connected, film cutting mechanism sets up the one side at tectorial membrane mechanism, film cutting mechanism is including cutting the membrane cylinder, cutting the membrane lift seat, cutting membrane lift seat guide rail, cutting the membrane heating wire, it installs the one side at tectorial membrane side support to cut membrane lift seat guide rail, it can slide the setting from top to bottom on cutting membrane lift seat guide rail to cut membrane lift seat, the cylinder body of cutting the membrane cylinder is installed on tectorial membrane side support, the lower extreme of the piston rod of film cutting cylinder and cutting membrane lift seat are connected, it installs on cutting membrane lift seat to cut the membrane heating wire, it sets up the front side at tectorial membrane device to stack the device, stack the device including stacking supporting mechanism, stacking the transport mechanism, stacking spacing alignment mechanism, stack supporting mechanism including stacking the supporting base, stacking the lift cylinder, stack the lift direction subassembly, The stacking and carrying mechanism comprises a left stacking and carrying assembly and a right stacking and carrying assembly, the left stacking and carrying assembly and the right stacking and carrying assembly are symmetrically arranged on two sides of the stacking and carrying mechanism, and the left stacking and carrying assembly comprises a left stacking and carrying support base and a left stacking and carrying support base, The left stacking and carrying support seat is arranged on two left stacking and carrying support seat supports, the left translation cylinder, the L-shaped left carrying frame and the universal bullseye are arranged on the left stacking and carrying support seat, the cylinder body of the left translation cylinder is arranged on the left stacking and carrying support seat, the piston rod of the left translation cylinder is connected with the L-shaped left carrying frame, the universal bullseye is uniformly distributed on the horizontal section of the L-shaped left carrying frame, the right stacking and carrying assembly comprises a right stacking and carrying support seat, a right stacking and carrying support seat support, a right translation cylinder, an L-shaped right carrying frame and the universal bullseye, the right stacking and carrying support seat is arranged on two right stacking and carrying support seat supports, the cylinder body of the right translation cylinder is arranged on the right stacking and carrying support seat, the piston rod of the right translation cylinder is connected with the L-shaped right carrying frame, the universal bullseye is uniformly distributed on the horizontal section of the L-shaped right carrying frame, the stacking limiting and aligning mechanism is arranged above the stacking supporting mechanism and comprises a stacking limiting and aligning crossbeam, a stacking limiting and aligning sliding block, a stacking limiting and aligning sliding rail, a stacking limiting and aligning adjusting screw rod support, a stacking limiting and aligning adjusting screw rod motor and a stacking limiting and aligning plate, wherein one end of the stacking limiting and aligning crossbeam is arranged on the film covering side support, the number of the stacking limiting and aligning adjusting screw rod supports is two, the two stacking limiting and aligning adjusting screw rod supports are arranged on the lower side of the stacking limiting and aligning crossbeam, the stacking limiting and aligning sliding rail is arranged on the lower side of the stacking limiting and aligning crossbeam and is positioned between the two stacking limiting and aligning adjusting screw rod supports, the stacking limiting and aligning sliding block can be arranged on the stacking limiting and aligning sliding rail in a front-back sliding manner, and the stacking limiting and aligning adjusting screw rod can be, the stacking limiting alignment adjusting screw motor is installed on the stacking limiting alignment adjusting screw support, the stacking limiting alignment adjusting screw motor is coaxially connected with the stacking limiting alignment adjusting screw, the stacking limiting alignment adjusting screw is connected with the stacking limiting alignment sliding block through a screw rod, and the stacking limiting alignment plate is installed on the lower side of the stacking limiting alignment sliding block.
Further, the upper film covering roller and the lower film covering roller are rubber rollers.
Further, the motor of the stacking, limiting and aligning adjusting screw rod is a servo motor.
Furthermore, one side of the film withdrawing roller is provided with a film withdrawing damper.
Compared with the prior art, the invention has the following advantages and effects: sheet metal gets into from tectorial membrane feeding guide roll between upper film roller and the lower tectorial membrane roller, tectorial membrane driving motor passes through the first drive wheel of tectorial membrane, the tectorial membrane drive belt, tectorial membrane second drive wheel drives down the tectorial membrane roller and rotates, sheet metal is carried forward under the drive of upper film roller and lower tectorial membrane roller, when sheet metal is carried forward, the film is followed the film roll unwinding from the film roll that moves back, through the tectorial membrane guide roll, the adhesion is on sheet metal under the effect of upper film roller, realize the tectorial membrane. The upper film covering roller and the lower film covering roller are rubber rollers, so that film covering of the metal plate is facilitated, smoothness of the film covering is improved, damage to the metal plate is effectively avoided, and reliability is good. And a film unwinding damper is arranged on one side of the film unwinding roller, so that stable unwinding of the protective film is facilitated, and the smoothness of the coated film is improved. The sheet metal behind the tectorial membrane is through tectorial membrane ejection of compact guide roll, and the sheet metal's behind the tectorial membrane both ends get into the left transport frame of L type and the right transport frame of L type, and the universal bull's eye on the left transport frame of L type and the right transport frame of L type has played the guide effect, guarantees sheet metal and steadily slides at the left transport frame of L type and the right transport frame of L type to steadily get into left transport frame of L type and the right transport frame of L type. After a metal plate is coated with a film, the film cutting cylinder acts to drive the film cutting lifting seat to act downwards along the guide rail of the film cutting lifting seat, and the film cutting electric heating wire arranged on the film cutting lifting seat realizes the cutting of the film. After the film is cut into sections, the film cutting cylinder drives the film cutting lifting seat to reset. After sheet metal's front end touched and stacked spacing alignment board, left translation cylinder and right translation cylinder synchronization action drove left side transport frame of L type and right side transport frame of L type and draw close each other, realized the laminating to sheet metal both sides, realized the location to sheet metal, were favorable to improving sheet metal and stacked the planarization. Then, the left translation cylinder and the right translation cylinder act synchronously to drive the L-shaped left conveying frame and the L-shaped right conveying frame to be separated from each other, and the metal plate falls on the tray. Through the operation, the metal plates after film coating are stacked on the tray one by one, the stacking lifting cylinder descends gradually along with the increase of the stacking number of the metal plates, and the uppermost metal plate, the L-shaped left conveying frame and the L-shaped right conveying frame are guaranteed to be kept at proper stacking distances all the time. After the plates are stacked, the pallet can be lifted by the forklift from the side, and the pallet and the metal plates on the pallet are carried away. When the type of the metal plate is changed, the length of the metal plate is changed, only the motor of the stacking limiting alignment adjusting screw rod is needed to be started, and the stacking limiting alignment sliding block is driven by the stacking limiting alignment adjusting screw rod to slide back and forth along the stacking limiting alignment sliding rail, so that the front and back positions of the stacking limiting alignment plate can be adjusted. The stacking limiting alignment adjusting screw rod motor is a servo motor, so that the accurate control of the position of the stacking limiting alignment sliding block is facilitated, the accurate control of the stacking limiting position of the metal plates is guaranteed, and the stacking smoothness of the metal plates is guaranteed. According to the invention, the metal plates can be automatically stacked after being coated with the film, and stacked orderly, so that the labor intensity of workers is greatly reduced, and personal injury to the workers is effectively avoided.
Drawings
FIG. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a partial enlarged view of the invention at a in fig. 1.
Fig. 3 is a side view of the stacking support mechanism and stacking conveyor mechanism of the present invention.
In the figure: 1. the device comprises a film covering device, 2, a stacking device, 3, a film covering rack, 4, film covering rack supporting legs, 5, a film covering guide mechanism, 6, a film covering mechanism, 7, a film cutting mechanism, 8, a film covering feeding guide roller, 9, a film covering discharging guide roller, 10, a film covering side support, 11, an upper film covering roller, 12, a lower film covering roller, 13, a film retreating roller, 14, a film retreating support seat, 15, a film covering guide roller, 16, a film covering guide roller support seat, 17, a film covering driving motor, 18, a film covering driving motor support seat, 19, a film covering first driving wheel, 20, a film covering second driving wheel, 21, a film covering driving belt, 22, a film cutting cylinder, 23, a film cutting lifting seat, 24, a film cutting lifting seat guide rail, 25, a film cutting electric heating wire, 26, a stacking support mechanism, 27, a stacking and carrying mechanism, 28, a stacking and aligning mechanism, 29, a stacking support base, 30, a stacking lifting cylinder and 31, 32. the stacking and conveying device comprises a stacking and supporting table, 33 trays, 34 stacking and lifting guide rods, 35 stacking and lifting guide sleeves, 36 left stacking and conveying assemblies, 37 right stacking and conveying assemblies, 38 left stacking and conveying supporting seats, 39 left stacking and conveying supporting seat supports, 40 left translation cylinders, 41L-shaped left conveying frames, 42 universal bulleyes, 43 right stacking and conveying supporting seats, 44 right stacking and conveying supporting seat supports, 45 right translation cylinders, 46L-shaped right conveying frames, 47 stacking and limiting alignment cross beams, 48 stacking and limiting alignment slide blocks, 49 stacking and limiting alignment slide rails, 50 stacking and limiting alignment adjusting screw rods, 51 stacking and limiting alignment adjusting screw rod supports, 52 stacking and limiting alignment adjusting screw rod motors, 53 stacking and limiting alignment plates and 54 film withdrawing dampers.
Detailed Description
The present invention will be described in further detail below by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not to be construed as limiting the present invention.
As shown in fig. 1, 2 and 3, a laminating device for metal plates comprises a laminating device 1 and a stacking device 2, wherein the laminating device 1 comprises a laminating rack 3, laminating rack support legs 4, a laminating guide mechanism 5, a laminating mechanism 6 and a film cutting mechanism 7, the laminating rack support legs 4 are installed at the lower end of the laminating rack 3, the laminating guide mechanism 5 comprises a laminating feeding guide roller 8 and a laminating discharging guide roller 9, the number of the laminating feeding guide rollers 8 is more than three, the laminating feeding guide rollers are rotatably arranged on the laminating rack 3, the laminating discharging guide roller 9 can also be rotatably arranged on the laminating rack 3, the laminating feeding guide roller 8 and the laminating discharging guide roller 9 are equal in height and are parallel to each other, the laminating mechanism 6 is arranged between the laminating feeding guide roller 8 and the laminating discharging guide roller 9, and the laminating mechanism 6 comprises a laminating side support 10, The laminating machine comprises an upper laminating roller 11, a lower laminating roller 12, a film withdrawing roller 13, a film withdrawing support seat 14, a laminating guide roller 15, a laminating guide roller support seat 16, a laminating drive motor 17, a laminating drive motor support seat 18, a laminating first drive wheel 19, a laminating second drive wheel 20 and a laminating drive belt 21, wherein the laminating side support seats 10 are installed on two sides of a laminating rack 3, the upper laminating roller 11 and the lower laminating roller 12 are rotatably arranged on the laminating side support seats 10, the upper laminating roller 11 and the lower laminating roller 12 are vertically adjacent and do not contact with each other, and the upper laminating roller 11 and the lower laminating roller 12 are rubber rollers, so that the laminating of metal plates is favorably realized, the flatness of a laminating film is improved, the metal plates are effectively prevented from being damaged, and the reliability is better. The film unwinding support seat 14 is arranged at the upper end of the film laminating side support seat 10, the film unwinding roller 13 is rotatably arranged on the film unwinding support seat 14, and the film unwinding damper 54 is arranged on one side of the film unwinding roller 13, so that stable unwinding of a protective film is facilitated, and the flatness of a laminated film is facilitated to be improved. The laminating guide roller support 16 is arranged on the laminating side support 10, the laminating guide roller 15 is rotatably arranged on the laminating guide roller support 16, the laminating second transmission wheel 20 is coaxially arranged at one end of the lower laminating roller 12, the laminating driving motor 17 is arranged on the laminating driving motor support 18, the laminating driving motor support 18 is arranged on the laminating side support 10, the laminating driving motor 17 is coaxially connected with the laminating first transmission wheel 19, the laminating first transmission wheel 19 is connected with the laminating second transmission wheel 20 through a laminating transmission belt 21, the film cutting mechanism 7 is arranged on one side of the laminating mechanism 6, the film cutting mechanism 7 comprises a film cutting cylinder 22, a film cutting lifting seat 23, a film cutting lifting seat guide rail 24 and a film cutting electric heating wire 25, the film cutting lifting seat guide rail 24 is arranged on one side of the laminating side support 10, the film cutting lifting seat 23 can be arranged on the film cutting lifting seat guide rail 24 in a vertical sliding manner, the cylinder body of the film cutting cylinder 22 is arranged on the film covering side support 10, the lower end of a piston rod of the film cutting cylinder 22 is connected with the film cutting lifting seat 23, the film cutting electric heating wire 25 is arranged on the film cutting lifting seat 23, the stacking device 2 is arranged on the front side of the film covering device 1, the stacking device 2 comprises a stacking supporting mechanism 26, a stacking carrying mechanism 27 and a stacking limiting and aligning mechanism 28, the stacking supporting mechanism 26 comprises a stacking supporting base 29, a stacking lifting cylinder 30, a stacking lifting guide assembly 31, a stacking supporting table 32 and a tray 33, the lower end of the stacking lifting cylinder 30 is arranged on the stacking supporting base 29, the upper end of the stacking lifting cylinder 30 is connected with the stacking supporting table 32, the tray 33 is arranged on the stacking supporting table 32, the stacking lifting guide assembly 31 is arranged between the stacking supporting base 29 and the stacking supporting table 32, the stacking lifting guide assembly 31 comprises a stacking lifting guide rod 34 and a stacking lifting guide sleeve 35, the upper end of the stacking lifting guide rod 34 is connected with a stacking support table 32, the lower end of the stacking lifting guide sleeve 35 is connected with a stacking support base 29, the stacking lifting guide rod 34 is slidably connected with the stacking lifting guide sleeve 35, the stacking and carrying mechanism 27 comprises a left stacking carrying assembly 36 and a right stacking carrying assembly 37, the left stacking carrying assembly 36 and the right stacking carrying assembly 37 are symmetrically arranged on two sides of the stacking support mechanism 26, the left stacking carrying assembly 36 comprises a left stacking carrying support base 38, a left stacking carrying support base bracket 39, a left translation cylinder 40, an L-shaped left carrying frame 41 and a universal bull's eye 42, the left stacking carrying support base 38 is arranged on the two left stacking carrying support base brackets 39, the cylinder body of the left translation cylinder 40 is arranged on the left stacking carrying support base 38, the piston rod of the left translation cylinder 40 is connected with an L-shaped left conveying frame 41, universal eyelets 42 are uniformly distributed on the horizontal section of the L-shaped left conveying frame 41, the right stacking and conveying assembly 37 comprises a right stacking and conveying supporting seat 43, a right stacking and conveying supporting seat bracket 44, a right translation cylinder 45, an L-shaped right conveying frame 46 and the universal eyelets 42, the right stacking and conveying supporting seat 43 is installed on the two right stacking and conveying supporting seat brackets 44, the cylinder body of the right translation cylinder 45 is installed on the right stacking and conveying supporting seat 43, the piston rod of the right translation cylinder 45 is connected with the L-shaped right conveying frame 46, the universal eyelets 42 are uniformly distributed on the horizontal section of the L-shaped right conveying frame 46, the stacking and limiting and aligning mechanism 28 is arranged above the stacking and supporting mechanism 26, and the stacking and limiting and aligning mechanism 28 comprises a stacking and limiting cross beam 47 and a limiting and aligning slide block 48, A stacking limit alignment slide rail 49, a stacking limit alignment adjusting screw rod 50, a stacking limit alignment adjusting screw rod support 51, a stacking limit alignment adjusting screw rod motor 52 and a stacking limit alignment plate 53, wherein one end of the stacking limit alignment beam 47 is arranged on the film covering side support 10, the number of the stacking limit alignment adjusting screw rod supports 51 is two, the stacking limit alignment adjusting screw rod supports 51 are arranged on the lower side of the stacking limit alignment beam 47, the stacking limit alignment slide rail 49 is arranged on the lower side of the stacking limit alignment beam 47 and is positioned between the two stacking limit alignment adjusting screw rod supports 51, the stacking limit alignment slide block 48 can be arranged on the stacking limit alignment slide rail 49 in a front-back sliding manner, the stacking limit alignment adjusting screw rod 50 can be rotatably arranged on the two stacking limit alignment adjusting screw rod supports 51, and the stacking limit alignment adjusting screw rod motor 52 is arranged on the stacking limit alignment adjusting screw rod supports 51, the stacking limiting alignment adjusting screw motor 52 is coaxially connected with the stacking limiting alignment adjusting screw 50, the stacking limiting alignment adjusting screw 50 is in screw connection with the stacking limiting alignment sliding block 48, and the stacking limiting alignment plate 53 is installed on the lower side of the stacking limiting alignment sliding block 48. The stacking limit alignment adjusting screw rod motor 52 is a servo motor, and is beneficial to realizing the accurate control of the position of the stacking limit alignment slider 48, thereby ensuring the accurate control of the stacking limit position of the metal plates and the stacking smoothness of the metal plates.
According to the technical scheme, when the laminating and stacking device for the metal plates is used, the metal plates enter a position between the upper laminating roller 11 and the lower laminating roller 12 from the laminating feeding guide roller 8, the laminating driving motor 17 drives the lower laminating roller 12 to rotate through the laminating first driving wheel 19, the laminating driving belt 21 and the laminating second driving wheel 20, the metal plates are conveyed forwards under the driving of the upper laminating roller 11 and the lower laminating roller 12, and when the metal plates are conveyed forwards, the thin film is unwound from the film unwinding roller 13 and passes through the laminating guide roller 15 to be adhered to the metal plates under the action of the upper laminating roller 11, so that laminating is achieved. The metal plate after being coated passes through the coating discharging guide roller 9, two ends of the metal plate after being coated enter the L-shaped left conveying frame 41 and the L-shaped right conveying frame 46, the universal eyelets 42 on the L-shaped left conveying frame 41 and the L-shaped right conveying frame 46 play a role in guiding, and the metal plate can stably slide on the L-shaped left conveying frame 41 and the L-shaped right conveying frame 46, so that the metal plate can stably enter the L-shaped left conveying frame 41 and the L-shaped right conveying frame 46. After a metal plate is coated with a film, the film cutting cylinder 22 acts to drive the film cutting lifting seat 23 to move downwards along the film cutting lifting seat guide rail 24, and the film cutting electric heating wire 25 arranged on the film cutting lifting seat 23 cuts off a film. After the film is cut into sections, the film cutting cylinder 22 drives the film cutting lifting seat 23 to reset. After the front end of sheet metal touched and stacked spacing alignment board 53, left translation cylinder 40 and right translation cylinder 45 synchronization motion drove L type left side transport frame 41 and L type right side transport frame 46 and drawn close each other, realized the laminating to sheet metal both sides, realized the location to sheet metal, were favorable to improving sheet metal and stacked the planarization. Then, the left translation cylinder 40 and the right translation cylinder 45 act synchronously to drive the L-shaped left conveying frame 41 and the L-shaped right conveying frame 46 to separate from each other, and the metal plate falls on the tray 33. Through the above operation, the laminated metal plates are stacked on the tray 33 one by one, and as the number of stacked metal plates increases, the stacking lifting cylinder 30 gradually descends to ensure that the uppermost metal plate and the L-shaped left and right carrying frames 41 and 46 always keep a proper stacking distance. When the sheets are completely stacked, a forklift can laterally lift the tray 33 to carry the tray 33 and the metal sheets on the tray 33. When the type of the metal plate is changed, the length of the metal plate is changed, and only the stacking limiting alignment adjusting screw rod motor 52 is needed to be started, and the stacking limiting alignment sliding block 48 is driven to slide back and forth along the stacking limiting alignment sliding rail 49 through the stacking limiting alignment adjusting screw rod 50, so that the back and forth positions of the stacking limiting alignment plate 53 can be adjusted. According to the invention, the metal plates can be automatically stacked after being coated with the film, and stacked orderly, so that the labor intensity of workers is greatly reduced, and personal injury to the workers is effectively avoided.
The above description of the present invention is intended to be illustrative. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.
Claims (4)
1. The utility model provides a sheet metal's tectorial membrane stacks equipment which characterized in that: the laminating device comprises a laminating device and a stacking device, wherein the laminating device comprises a laminating rack, laminating rack supporting legs, a laminating guide mechanism, a laminating mechanism and a film cutting mechanism, the laminating rack supporting legs are installed at the lower end of the laminating rack, the laminating guide mechanism comprises a laminating feeding guide roller and a laminating discharging guide roller, the number of the laminating feeding guide rollers is more than three, the laminating feeding guide rollers are rotatably arranged on the laminating rack, the laminating discharging guide rollers can also be rotatably arranged on the laminating rack, the laminating feeding guide roller and the laminating discharging guide roller are equal in height and are parallel to each other, the laminating mechanism is arranged between the laminating feeding guide roller and the laminating discharging guide roller, and the laminating mechanism comprises a laminating side support, an upper laminating roller, a lower laminating roller, a film withdrawing support, a laminating guide roller support, a laminating drive motor support, The film laminating machine comprises a film laminating side support, a film laminating first driving wheel, a film laminating second driving wheel and a film laminating driving belt, wherein the film laminating side support is arranged on two sides of a film laminating rack, the upper film laminating roller and the lower film laminating roller are rotatably arranged on the film laminating side support, the upper film laminating roller and the lower film laminating roller are adjacent and do not contact with each other up and down, the film withdrawing support is arranged at the upper end of the film laminating side support, the film withdrawing roller is rotatably arranged on the film withdrawing support, the film laminating guide roller support is arranged on the film laminating side support, the film laminating guide roller is rotatably arranged on the film laminating guide roller support, the film laminating second driving wheel is coaxially arranged at one end of the lower film laminating roller, the film laminating driving motor is arranged on a film laminating driving motor support, the film laminating driving motor support is arranged on the film laminating side support, the film laminating driving motor is coaxially connected with the film laminating first driving wheel, and the film laminating, the film cutting mechanism is arranged on one side of the film covering mechanism and comprises a film cutting cylinder, a film cutting lifting seat guide rail and a film cutting electric heating wire, the film cutting lifting seat guide rail is arranged on one side of a film covering side support, the film cutting lifting seat can be arranged on the film cutting lifting seat guide rail in a vertical sliding mode, a cylinder body of the film cutting cylinder is arranged on the film covering side support, the lower end of a piston rod of the film cutting cylinder is connected with the film cutting lifting seat, the film cutting electric heating wire is arranged on the film cutting lifting seat, the stacking device is arranged on the front side of the film covering device and comprises a stacking supporting mechanism, a stacking and carrying mechanism and a stacking and limiting alignment mechanism, the stacking and supporting mechanism comprises a stacking supporting base, a stacking and lifting cylinder, a stacking and lifting guide assembly, a stacking and supporting platform and a tray, and the lower end of the stacking and lifting cylinder is arranged on the stacking and supporting base, the upper end of the stacking lifting cylinder is connected with the stacking supporting table, the tray is placed on the stacking supporting table, the stacking lifting guide assembly is arranged between the stacking supporting base and the stacking supporting table, the stacking lifting guide assembly comprises a stacking lifting guide rod and a stacking lifting guide sleeve, the upper end of the stacking lifting guide rod is connected with the stacking supporting table, the lower end of the stacking lifting guide sleeve is connected with the stacking supporting base, the stacking lifting guide rod and the stacking lifting guide sleeve are connected in a sliding mode, the stacking conveying mechanism comprises a left stacking conveying assembly and a right stacking conveying assembly, the left stacking conveying assembly and the right stacking conveying assembly are symmetrically arranged on two sides of the stacking supporting mechanism, the left stacking conveying assembly comprises a left stacking conveying support, a left translation cylinder, an L-shaped left conveying frame, a supporting seat, a left translation cylinder, a supporting seat, a, The left stacking and carrying support seat is arranged on two left stacking and carrying support seat brackets, the cylinder body of the left translation cylinder is arranged on the left stacking and carrying support seat, the piston rod of the left translation cylinder is connected with the L-shaped left carrying frame, the universal bull eyes are uniformly distributed on the horizontal section of the L-shaped left carrying frame, the right stacking and carrying assembly comprises a right stacking and carrying support seat, a right stacking and carrying support seat bracket, a right translation cylinder, an L-shaped right carrying frame and universal bull eyes, the right stacking and carrying support seat is arranged on the two right stacking and carrying support seat brackets, the cylinder body of the right translation cylinder is arranged on the right stacking and carrying support seat, the piston rod of the right translation cylinder is connected with the L-shaped right carrying frame, the universal bull eyes are uniformly distributed on the horizontal section of the L-shaped right carrying frame, the stacking and limiting and aligning mechanism is arranged above the stacking and carrying mechanism, the stacking limiting alignment mechanism comprises a stacking limiting alignment crossbeam, a stacking limiting alignment slider, a stacking limiting alignment slide rail, a stacking limiting alignment adjusting screw rod support, a stacking limiting alignment adjusting screw rod motor and a stacking limiting alignment plate, wherein one end of the stacking limiting alignment crossbeam is arranged on the film-coated side support, the number of the stacking limiting alignment adjusting screw rod supports is two, the two stacking limiting alignment adjusting screw rod supports are arranged on the lower side of the stacking limiting alignment crossbeam, the stacking limiting alignment slide rail is arranged on the lower side of the stacking limiting alignment crossbeam and is positioned between the two stacking limiting alignment adjusting screw rod supports, the stacking limiting alignment slider can be arranged on the stacking limiting alignment slide rail in a front-back sliding manner, the stacking limiting alignment adjusting screw rod can be rotatably arranged on the two stacking limiting alignment adjusting screw rod supports, and the stacking limiting alignment adjusting screw rod motor is arranged on the stacking limiting alignment adjusting screw, the stacking limiting alignment adjusting screw motor is coaxially connected with the stacking limiting alignment adjusting screw, the stacking limiting alignment adjusting screw is connected with the stacking limiting alignment sliding block through a screw rod, and the stacking limiting alignment plate is arranged on the lower side of the stacking limiting alignment sliding block.
2. A film laminating apparatus for metal sheets according to claim 1, wherein: the upper film covering roller and the lower film covering roller are rubber rollers.
3. A film laminating apparatus for metal sheets according to claim 1, wherein: the stacking limiting alignment adjusting screw rod motor is a servo motor.
4. A film laminating apparatus for metal sheets according to claim 1, wherein: and a film withdrawing damper is arranged on one side of the film withdrawing roller.
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CN201911240695.XA CN111070853B (en) | 2019-12-06 | 2019-12-06 | Laminating and stacking equipment for metal plates |
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CN201911240695.XA CN111070853B (en) | 2019-12-06 | 2019-12-06 | Laminating and stacking equipment for metal plates |
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CN111070853A true CN111070853A (en) | 2020-04-28 |
CN111070853B CN111070853B (en) | 2021-08-24 |
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CN111573397A (en) * | 2020-05-19 | 2020-08-25 | 袁福英 | Working method of protective paper attaching device capable of automatically adapting to width of steel belt |
CN111573341A (en) * | 2020-05-19 | 2020-08-25 | 袁福英 | Protection paper attaching device capable of automatically adapting to width of steel belt |
CN112091638A (en) * | 2020-07-16 | 2020-12-18 | 浙江伟联科技股份有限公司 | High-speed antique color steel glazed tile forming machine |
CN115647834A (en) * | 2022-12-26 | 2023-01-31 | 沧州中拓冷弯成型设备有限公司 | Exterior wall cladding forming machine |
CN116512586A (en) * | 2023-06-29 | 2023-08-01 | 西安航锦机械制造有限责任公司 | Panel conveyor |
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CN111573397A (en) * | 2020-05-19 | 2020-08-25 | 袁福英 | Working method of protective paper attaching device capable of automatically adapting to width of steel belt |
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CN112091638A (en) * | 2020-07-16 | 2020-12-18 | 浙江伟联科技股份有限公司 | High-speed antique color steel glazed tile forming machine |
CN115647834A (en) * | 2022-12-26 | 2023-01-31 | 沧州中拓冷弯成型设备有限公司 | Exterior wall cladding forming machine |
CN115647834B (en) * | 2022-12-26 | 2023-03-17 | 沧州中拓冷弯成型设备有限公司 | Exterior wall cladding forming machine |
CN116512586A (en) * | 2023-06-29 | 2023-08-01 | 西安航锦机械制造有限责任公司 | Panel conveyor |
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