TWM574083U - Continuous rolling and stamping compound machine for asymmetric bending of metal partition plate of display rack - Google Patents

Abstract

A display roll asymmetric bending sheet metal continuous rolling and stamping laminating machine, which mainly comprises: a roll type automatic feeding mechanism for feeding a sheet of gold material; a hook shape punching mechanism having a punching path a plurality of hooks are punched out of the sheet metal material in the stamping path; an asymmetric bending sheet metal continuous rolling mechanism has a plurality of asymmetric roller sets arranged in a straight line along a rolling path, the roller The front end of the rolling path is connected to the end of the stamping path to continuously and asymmetrically roll the sheet metal in the rolling path; a sheet metal cutting and hook bending composite mechanism has a cutting and bending a pressure path, the front end of the cutting and bending path is connected to the end of the rolling path to cut the sheet metal in the cutting and bending path and to bend the hook on the sheet metal sheet a discharge mechanism is connected to the end of the cutting and bending path for collecting the sheet metal material sent by the sheet metal cutting and hook bending composite mechanism; thereby achieving consistent automatic processing and reduction Assume Costs, reduce labor costs, reduce footprint, improve manufacturing efficiency, suitable for mass production, molding wide range of other effects.

Description

Display frame asymmetric bending sheet metal layer continuous rolling and stamping laminating machine

This creation department is related to the processing machinery, and more specifically refers to a continuous bending and stamping laminating machine for the asymmetric bending of the sheet metal display.

According to the conventional display stand, the main display frame comprises a layer of a frame and a plurality of layers, and the hooks on the layer board are fastened and combined on the shelf for the items to be placed, or the layer is raised and the hooks are The shelves are separated for storage or handling. However, the bending shape of the laminate is asymmetrical bending and the shape is complicated. Therefore, when manufacturing the laminate, all the bending dimensions cannot be completed in one machine, and at least three bending machines of different bending specifications must be used, together with a hook shape punching machine, a sheet metal cutting machine and A sheet metal bending machine can complete all processes. However, in the above-mentioned way, during the processing, the laminate must be processed and transported between different machines by manpower, which not only increases the expenditure of many equipments and takes up the working space, but also leads to an increase in labor costs and an increase in working time. The problem of poor efficiency.

In view of this, in order to improve the prior art, when manufacturing the laminate of the display stand, there are problems such as an increase in equipment expenditure, occupation of work space, increase in labor cost, and lengthening of work time. One of the purposes of the present invention is to provide a continuous bending and stamping laminating machine for asymmetrical bending and bending sheet metal display panels, which can consistently automate the forming operation of the lamina. Another purpose of the present invention is to provide a continuous bending and stamping laminating machine for asymmetrical bending and bending sheet metal display frame, which has the advantages of reducing equipment and labor cost, reducing space occupation, improving manufacturing efficiency, being suitable for mass production, wide molding range, etc. efficacy. Therefore, the present invention provides a continuous bending and stamping laminating machine for asymmetrical bending and bending sheet metal display, which mainly comprises: a reel automatic feeding mechanism for winding a bundle of sheet metal. The sheet is placed and automatically sent out of the sheet metal sheet intermittently; a hook shape punching mechanism is disposed on one side of the roll type automatic feeding mechanism, and has a punching path, and the roll type automatic feeding The sheet metal material fed into the stamping path by the mechanism is punched out by the hook shape punching mechanism; a non-symmetrical bending sheet metal continuous rolling mechanism has a machine and a plurality of asymmetric roller sets And a driving device, the machine is disposed on one side of the hook shape punching mechanism, and the asymmetric roller sets are linearly arranged on the machine along a rolling path, the rolling path The front end is connected to the end of the punching path, and the sheet metal piece fed by the hook shape pressing mechanism enters the rolling path, and is continuously asymmetrically bent and rolled by the asymmetric roller sets. The driving device is disposed in the On the machine platform, the power for operating the asymmetric roller group is provided; a sheet metal cutting and hook bending composite mechanism is disposed on one side of the asymmetric bending sheet metal continuous rolling mechanism, and has a cutting and a bending path, the front end of the cutting and bending path is connected to the end of the rolling path, and the sheet metal piece sent by the asymmetric bending sheet metal continuous rolling mechanism enters the cutting and bending path. And the sheet metal cutting and the hook-and-bending composite mechanism cuts the sheet metal sheet and bends the hook on the sheet metal sheet; a discharging mechanism is disposed on the sheet metal cutting and the hook bending One side of the composite mechanism is connected to the end of the cutting and bending path for collecting the sheet metal material sent by the sheet metal cutting and hook bending composite mechanism; thereby achieving consistent automatic processing and reduction Equipment costs, reduced labor costs, reduced footprint, improved manufacturing efficiency, suitable for mass production, and a wide range of molding.

In order to enable your review committee to have a better understanding and recognition of the features and characteristics of this creation, the following preferred embodiments are listed below with reference to the following: Please refer to the first to the twenty-sixth drawings. The display frame asymmetric folding sheet metal continuous rolling and rolling press machine 100 of the preferred embodiment comprises a roll automatic feeding mechanism 10, a hook shape punching mechanism 20, and an asymmetric folding The bending gold continuous rolling mechanism 30, a sheet metal cutting and hook bending composite mechanism 40 and a discharging mechanism 50, wherein: Referring to the first figure and the second figure, the roll automatic feeding mechanism 10 is It is used for placing sheet metal sheets wound in a bundle shape, and automatically continues to intermittently send sheet metal sheets. The reel automatic feeding mechanism 10 has a frame 11, a tray 12, a plurality of barrels 13, a plurality of clamping arms 14 and a feeding electronic control device 15. The rack 11 is stably placed on a ground, and the tray 12 is pivotally mounted on the frame 11. The cartridges 13 are axially connected to the tray 12, and the clamp arms 14 are fastened. The trays 13 are movably disposed on the respective barrels 13 to be placed between the trays 12, the barrels 13 and the clamp arms 14 by a sheet of gold material 91. The feed electronic control device 15 is disposed on the trays On the frame 11, the tray 12 is driven to rotate and stop the rotation. Referring to the first figure and the third figure, the hook shape punching mechanism 20 is used for stamping the hook shape of the edge of the sheet metal sheet. The hook shape punching mechanism 20 has a body 21, a pressing device 22 and a punching device 23. The body 21 is disposed on one side of the automatic roll feeding mechanism 10 and has a punching path 211. The pressing device 22 has a pressing cylinder 221, a pressing block 222 and a pressing bottom plate 223. The pressing cylinder 221 is disposed on the body 21, and the pressing block 222 is coupled to the pressing cylinder 221 and positioned above the preceding portion of the pressing path 211. The pressing plate 223 is disposed at The punching device 23 has a pressing cylinder 231, a punching block 232 and a punching bottom plate 233, and the punching cylinder 231 is disposed on the body 21 at a position below the punching path 211. The punching block 232 is coupled to the press cylinder 231 and located above the stamping path 211. The bottom surface of the stamping block 232 has a hook punch 234 disposed on the body. 21, and positioned below the rear portion of the stamping path 211, the top mask of the stamped bottom plate 233 has a hook die 235. Referring to the first figure and the fourth to seventh figures, the asymmetric bending sheet metal continuous rolling mechanism 30 is used for asymmetric rolling and bending of the sheet metal sheet. The asymmetric bending sheet metal continuous rolling mechanism 30 is disposed on one side of the hook profile pressing structure 20. The asymmetric bending sheet metal continuous rolling mechanism 30 has a machine table 31, a plurality of asymmetric roller groups 32, a driving device 33, and a roll electric control device 34. The machine table 31 can be stably placed on a ground; the asymmetric roller sets 32 are sequentially arranged on the machine table 31 along a rolling path 311, and the front end of the rolling path 311 is The end of the punching path 211 is connected. In this embodiment, 27 sets of asymmetric roller sets 32 are used. The asymmetric roll sets 32 have a left bracket 321 , a right bracket 322 , and a left bracket 323 . a right plate 324, an upper roller 325, a lower roller 326, an upper gear 327, a lower gear 328 and two adjustment rods 329, the left bracket 321 and the right bracket 322 are disposed on the machine, and are spaced apart from each other The left support plate 323 is disposed on the left support 321 , and the right support plate 324 is disposed on the right support 322 . The upper roller 325 is pivoted at one end. Connected to the right carrier 324 and located above the rolling path 311, one end of the lower roller 326 is pivotally connected to the right carrier 324 and located below the rolling path 311, the upper gear 327 The other end of the upper roller 325 is coupled to the left carrier 323, and the lower gear 328 is coupled to the lower roller 326. Between the other end and the left support plate 323, the two adjustment rods 329 are respectively coupled to the left and right support plates 323 and 324 to adjust the left and right support plates 323 and 324 respectively to the left and right support frames. The vertical displacement of 321 and 322 further realizes the function of adjusting the gap between the upper and lower rollers 325 and 326 to meet the rolling demand of different sheet metal thicknesses. The drive unit 33 is configured to provide rotational power to the upper and lower rollers 325, 326 of the asymmetric roller set 32. The driving device 33 has a driving motor 331, a unidirectional transmission mechanism 332 and a transmission shaft 333. The driving motor 331 is disposed on the machine table 31. The universal transmission mechanism 332 is disposed on the machine table 31. The driving motor 331 is coupled to the upper and lower gears 325 and 326 of the asymmetric roller group 32. The transmission shaft 333 is coupled between the universal transmission mechanisms 332 for transmitting between the universal transmission mechanisms 332. Rotating power. The rolling electronic control unit 34 is electrically coupled to the drive motor 331 of the drive unit 33 to control the operation and stop of the drive motor 331 of the drive unit 33. Referring to the first and eighth figures, the sheet metal cutting and hooking and bending composite mechanism 40 is used for cutting the sheet metal sheet and bending the hook of the edge of the sheet metal sheet. The sheet metal cutting and hook bending composite mechanism 40 is disposed on the side of the asymmetric bending sheet metal continuous rolling mechanism 30. The sheet metal cutting and hook bending composite mechanism 40 has a base frame 41 and a cutting pressure. Cylinder 42, an upper plate 43, a cutting blade 44, a large pressing block 45, a pressing cylinder 46, a lower bearing plate 47, a pressing die 48, a small pressing block unit 49, and an infrared Unit (not shown). The base frame 41 is stably placed on a floor, and the base frame 41 has a cutting and bending path 411, and the front end of the cutting and bending path 411 is connected to the end of the rolling path 311. The cutting cylinder 42 is disposed at the top of the base frame 41, and the upper bearing plate 43 is coupled to the cutting cylinder 42, and the cutting blade 44 is coupled to the bottom surface of the upper deck plate 43 and Located at a position above the cutting and bending path 411, the large pressing block 45 is connected to the bottom surface of the lower bearing plate 43 and is located around the cutting blade 44. The pressing bending cylinder 46 is coupled to The bottom plate 47 is coupled to the press bending cylinder 46. The press bending die 48 is coupled to the top surface of the lower bearing plate 47 and is located at the cutting and bending path 411. In the lower position, the top mask of the press bending die 48 has a hollow passage 481 having a small pressing block 491 and a small pressing block spring 492, the small pressing block 491 being Actively disposed on the base frame 41, the small pressing block spring 492 is coupled between the small pressing block 491 and the base frame 41. The infrared unit is disposed on the base frame for illuminating through the cutting The sheet metal material that breaks and bends the path 411. Referring to the first figure, the unloading mechanism 50 is located on one side of the sheet metal cutting and hook bending composite mechanism 40, and is connected to the end of the cutting and bending path 411. The discharge mechanism 50 has a discharge table 51 and a plurality of rollers 52 provided on the discharge table 51. Therefore, the above description is a description of the components of the asymmetric bending and bending sheet metal continuous rolling and rolling laminating machine 100 of the display frame and an assembly method thereof, and then the use characteristics thereof are as follows: First, a bundle of sheet metal sheet 91 is placed between the tray 12 of the roll automatic feeding mechanism 10, the barrel 13 and the holding arm 14, and is activated by the feeding electronic control unit 15. The tray 12 is rotated to feed the sheet metal piece 91 in a sheet form in the front portion of the punching path 211 of the hook shape punching mechanism 20. Then, when the sheet metal material 91 enters a predetermined distance (which is a layer length) in the punching path 211 of the hook shape punching mechanism 20, the feeding electronic control device 15 controls the tray 12 to stop rotating. The pressing block 222 is further lowered by the pressing cylinder 211 of the pressing device 22 to press and fix the sheet metal member 91 between the pressing block 222 and the pressing plate 223 (as shown in FIG. 9). Then, the stamping block 232 is pressed downward by the pressing cylinder 231 (as shown in FIG. 10), so that the card is connected to the front end of the front panel by the hook punch 234. The hook 92 is formed by press forming (as shown in FIG. 11). After the hook 92 is formed into a shape, the press cylinder 231 and the punching block 232 are returned upward to the original position, and then the pressing cylinder 221 and the pressing are pressed. Block 222 also returns upward to the home position. Then, the reel automatic feeding mechanism 10 is again operated to continuously feed the sheet metal sheet 91, and the sheet metal sheet 91 which has been formed into the shape of the hook 92 is subjected to rolling in the asymmetric bending sheet metal continuous rolling mechanism 30. In the path, a bending process is performed for each of the three sets of asymmetric roller sets 32. In this embodiment, 27 sets of three sets of asymmetric roller sets 32 are used to perform a total of nine asymmetric bending corner bending processes. (See Figures 12 to 24). Wherein, a reverse hook forming wheel 391 and a lower pressing wheel 392 (shown in FIG. 6) may be added to the specific asymmetric roller set 32 to bend the vertical back hook portion of the sheet metal sheet 91, or A plane correction wheel 393 and a side angle correction wheel 394 (as shown in the seventh figure) are added to the last three sets of asymmetric roller sets 32 at the end of the rolling path 311 to correct the final size of the laminate, so that the laminate is finally The size is accurate. Then, the sheet metal sheet which has been rolled by the asymmetric roller group 32 is again sent through the rolling path 311, and enters the cutting and bending path 411 of the sheet metal cutting and hook bending composite mechanism 40. After the infrared unit illuminates the shape of the punching punch, the feeding electronic control device 15 automatically controls the tray 12 to stop, and the rolling electronic control device 34 automatically controls the driving device 33 to stop running. At this time, the cutting cylinder 42 of the sheet metal cutting and hook bending composite mechanism 40 drives the cutting blade 44 and the large pressing block 45 to descend (as shown in the twenty-fifth figure), and the large pressing block 45 is During the lowering process, the small pressing block 491 is pressed down, so that the sheet metal piece 91 is pressed and fixed by the small pressing block 491, and the cutting blade 44 enters the hollow channel 481 of the press bending die 48 to The sheet metal sheet 91 is cut. Next, the press bending cylinder 46 drives the press bending die 48 up, so that the hook 92 on the sheet metal piece 91 is bent by the press bending die 48. When the sheet metal piece 91 located in the cutting and bending path 411 is cut and bent by the sheet metal cutting and the hook bending composite mechanism 40, the cutting cylinder 42, the cutting blade 44, and the large pressure are cut. The compact block 45 is displaced upwardly to return to the home position, and the small compression block 491 is pushed by the small compression block spring 492 to return upward to the home position. Immediately thereafter, the press bending cylinder 46 and the press bending die 48 are returned downward to the original position. At this time, the front sheet metal sheet has been formed into a layer of plate 93, and the feeding electronic control device 15 and the rolling electric control device 34 synchronously control the reel automatic feeding mechanism 10 and the asymmetric bending sheet metal continuous rolling mechanism 30 to continue. The operation advances the sheet metal sheet and advances the formed sheet 93 into the discharge mechanism 50 (as shown in Fig. 26) for collection. Therefore, the creation of the material from the sheet metal material, the stamping of the hook shape, the asymmetrical bending, the cutting, the bending of the hook to the laminating of the sheet can be continuously and automatically cycled to achieve a fast operation, It is suitable for mass production, single equipment, low equipment cost, low manpower and high molding precision. The above description is only for the preferred embodiment provided by the present invention, and is not intended to limit the scope of implementation of the present invention. All of the relevant artisans in the art are equally varied according to the present creation, and should belong to the present invention. The scope of coverage.

100‧‧‧Display frame asymmetric bending sheet metal continuous rolling and stamping laminating machine

10‧‧‧Roll type automatic feeding mechanism

11‧‧‧Rack

12‧‧‧Tray

13‧‧‧Bowl

14‧‧‧Fixed arm

15‧‧‧Feed electric control device

20‧‧‧ hook shape punching mechanism

21‧‧‧ body

211‧‧‧Pressing path

22‧‧‧Compacting device

221‧‧‧pressing cylinder

222‧‧‧Crimping block

223‧‧‧Compressed bottom plate

23‧‧‧ Stamping device

231‧‧‧Pressing cylinder

232‧‧ ‧ Stamping block

234‧‧‧ Snap hook

233‧‧‧ Stamped base plate

235‧‧‧Cut die

30‧‧‧Asymmetric bending sheet metal continuous rolling mechanism

31‧‧‧ machine

311‧‧‧Rolling path

32‧‧‧Asymmetric roller set

321‧‧‧left bracket

322‧‧‧right bracket

323‧‧‧left board

324‧‧‧right board

325‧‧‧Upper roller

326‧‧‧ Lower roller

327‧‧‧Upper gear

328‧‧‧ lower gear

329‧‧‧Adjustment rod

391‧‧‧Reverse forming wheel

392‧‧‧ lower pressure wheel

393‧‧‧ Planar correction wheel

394‧‧‧Side angle correction wheel

33‧‧‧ drive

331‧‧‧Drive motor

332‧‧‧ universal transmission

333‧‧‧ drive shaft

34‧‧‧Rolling electric control device

40‧‧‧ sheet metal cutting and hook bending composite mechanism

41‧‧‧ pedestal

411‧‧‧cutting the bending path

42‧‧‧Cut cylinder

43‧‧‧Upper board

44‧‧‧cutting knife

45‧‧‧Great compression block

46‧‧‧pressure cylinders for bending

47‧‧‧Lower board

48‧‧‧Bending die

481‧‧‧ hollow channel

49‧‧‧Small compression block unit

491‧‧‧Small compression block

492‧‧‧Small compression block spring

50‧‧‧Discharge mechanism

51‧‧‧Unloading station

52‧‧‧Roller

91‧‧‧ gold sheet

92‧‧‧ card hook

93‧‧‧layer

The first figure is a perspective view of a preferred embodiment of the present invention. The second drawing is a perspective view of a partial member of the embodiment shown in the first figure. The third figure is a perspective view of a partial member of the embodiment shown in the first figure. The fourth figure is a perspective view of a partial member of the embodiment shown in the first figure. The fifth drawing is a perspective view of a partial member of the embodiment shown in the first figure. The sixth drawing is a perspective view of a partial member of the embodiment shown in the first figure. The seventh drawing is a perspective view of a partial member of the embodiment shown in the first figure. The eighth figure is a perspective view of a partial member of the embodiment shown in the first figure. The ninth to eleventh drawings are diagrams showing the operation of the embodiment shown in the first figure. Twelfth to twenty-fourth are schematic diagrams showing changes in the processing of the sheet metal by the creation of the sheet metal sheet. The twenty-fifth to twenty-sixth drawings are diagrams showing the operation of the embodiment shown in the first figure.

Claims (10)

The invention relates to an asymmetric bending and bending sheet metal continuous rolling and stamping laminating machine, which mainly comprises: a reel automatic feeding mechanism for placing a bundle of sheet metal sheets and automatically The sheet metal stamping mechanism is disposed on one side of the reel automatic feeding mechanism, and has a punching path, which is fed into the stamping path by the reel automatic feeding mechanism. The gold sheet is punched out by the hook shape punching mechanism; a non-symmetrical bending sheet metal continuous rolling mechanism has a machine, a plurality of asymmetric roller sets and a driving device, the machine The stage is disposed on one side of the punching mechanism of the hook, and the asymmetric roller sets are linearly arranged on the machine along a rolling path, and the front end of the rolling path and the punching path are The ends are connected, and the sheet metal piece fed by the hook shape pressing mechanism enters the rolling path, and is continuously asymmetrically bent and rolled by the asymmetric roller sets, and the driving device is disposed on the On the machine, to provide, etc. The power of the symmetrical roller set is operated; a sheet metal cutting and hook bending composite mechanism is disposed on one side of the asymmetric bending sheet metal continuous rolling mechanism, and has a cutting and bending path, the cutting and bending The front end of the pressure path is connected to the end of the rolling path, and the sheet metal piece sent by the asymmetric bending sheet metal continuous rolling mechanism enters the cutting and bending path, and is cut and hooked by the sheet metal. The bending and pressing composite mechanism cuts the sheet metal sheet and bends the hook on the sheet metal sheet; a discharging mechanism is disposed on one side of the sheet metal cutting and hooking and bending composite mechanism, and The ends of the cutting and bending paths are connected to collect the sheet metal sheets sent by the sheet metal cutting and hooking and bending composite mechanism. According to the invention of claim 1, the asymmetric bending sheet metal sheet continuous rolling and rolling laminating machine of the display frame, wherein the reel automatic feeding mechanism has a frame, a tray, a plurality of barrels, a plurality of solid clamping arms and a feeding electronic control device; the tray is pivotally mounted on the frame, the cartridges are axially connected to the tray, and the clamping arms are movable radially Provided on the respective barrels for placing the sheet metal material between the tray, the barrel and the fixing arm, the feeding electronic control device is disposed on the frame to drive the tray to rotate and Stop the rotator. According to the invention of claim 1, the asymmetric bending sheet metal sheet continuous rolling and rolling laminating machine of the display frame, wherein the hook shape punching mechanism has a body, a pressing device and a punching device; The device is disposed on the body for pressing the sheet metal in the stamping path, and the punching device is disposed on the body for stamping the sheet metal in the stamping path to form a hook. According to the third aspect of the patent application, the asymmetric bending sheet metal sheet continuous rolling and rolling laminating machine of the display frame, wherein the machine system is disposed on one side of the automatic feeding mechanism of the reel, the pressing device has a a pressing cylinder, a pressing block and a pressing bottom plate, the pressing cylinder is disposed on the body, and the pressing block is coupled with the pressing cylinder and is located before the punching path In the upper position, the pressing bottom plate is disposed on the body and located below the front portion of the punching path, so that the pressing block is driven by the pressing cylinder to press down the sheet metal sheet located in the punching path; The pressing device has a pressing cylinder, a punching block and a punching plate, and the punching cylinder is disposed on the body, and the punching block is coupled to the pressing cylinder and is located behind the punching path. Position, the bottom surface of the stamping block has a hook punching body disposed on the body and located below the rear portion of the stamping path, and the top mask of the stamping bottom plate has a hook die for the stamping Using a pressure cylinder to drive the stamping block The stamp is stamped out on the sheet metal sheet located in the stamping path. According to the invention of claim 1, the asymmetric bending sheet metal sheet continuous rolling and rolling laminating machine of the display frame, wherein the number of the asymmetric roller groups of the asymmetric bending sheet metal continuous rolling mechanism is 27 groups . The asymmetric bending sheet metal sheet continuous rolling and rolling laminating machine according to the first aspect of the patent application scope, wherein the asymmetric roller group of the asymmetric bending sheet metal continuous rolling mechanism has a left bracket and a right a bracket, a left carrier, a right carrier, an upper roller, a lower roller, an upper gear, a lower gear and two adjustment levers, the left bracket and the right bracket are disposed on the machine, and are spaced apart from each other The left side of the rolling plate is disposed on the left side of the rolling frame, the left side plate is disposed on the left side frame, and the right side of the upper roller is pivotally connected to the right side plate. And located at a position above the rolling path, one end of the lower roller is pivotally connected to the right carrier plate and located below the rolling path, the upper gear train is coupled to the other end of the upper roller and the left The lower gear is coupled between the other end of the lower roller and the left carrier, and the two adjustment bars are respectively coupled to the left and the right carrier to respectively respectively support the left and right sides. Adjust the vertical displacement of the plate relative to the left and right brackets, and then adjust the upper and lower rollers The gap between the wheels. According to the sixth aspect of the patent application, the asymmetric bending sheet metal sheet continuous rolling and rolling laminating machine of the display frame, wherein the driving device of the asymmetric bending sheet metal continuous rolling mechanism has a driving motor and a 20,000-way transmission mechanism And a drive shaft, the drive motor is disposed on the machine, the universal transmission mechanism is disposed on the machine, and is coupled to the drive motor and the upper and lower gears of the asymmetric roller sets. The drive shaft is coupled between the universal joint mechanisms. According to the seventh aspect of the patent application, the asymmetric bending sheet metal sheet continuous rolling and rolling laminating machine of the display frame, wherein the asymmetric bending sheet metal continuous rolling mechanism further has a roll rolling electric control device, the roll rolling electric The control device is electrically coupled to the drive motor of the drive device to control the drive motor of the drive device to operate and stop. According to the invention of claim 1, the asymmetric bending sheet metal sheet continuous rolling and rolling laminating machine of the display frame, wherein the sheet metal cutting and hook bending composite mechanism has a base frame and a cutting pressure cylinder, An upper plate, a cutting blade, a large pressing block, a pressure bending cylinder, a lower bearing plate, a pressing bending die, a small pressing block unit and an infrared unit; the cutting pressure cylinder system is arranged The top plate is coupled to the cutting cylinder at a top portion of the base frame, and the cutting blade is coupled to a bottom surface of the upper plate and located above the cutting and bending path, the large The pressing block is connected to the bottom surface of the lower bearing plate and located at the periphery of the cutting blade, and the pressure bending cylinder is coupled to the bottom of the base frame, and the lower bearing plate is coupled to the pressure bending cylinder The press bending mold is connected to the top surface of the lower bearing plate and located below the cutting and bending path, the top mask of the pressing mold has a hollow passage, and the small pressing block unit has a small a pressing block and a small pressing block spring, the small pressing block is movably disposed on the base frame, the small pressing block The spring is coupled between the small pressing block and the base frame, and the infrared unit is disposed on the base frame for illuminating the sheet metal material passing through the cutting and bending paths. According to the invention of claim 1, the asymmetric bending sheet metal sheet continuous rolling and rolling laminating machine of the display frame, wherein the discharging mechanism has a discharging platform and a plurality of rollers disposed on the discharging platform.