阅读说明：本技术 一种彩钢瓦轧制成型方法 (Rolling forming method for color steel tile ) 是由 苏刚 付子豪 张云贵 于 2020-12-18 设计创作，主要内容包括：本发明涉及一种彩钢瓦轧制成型方法,具体涉及到一种彩钢瓦轧制成型后自动码垛装置,包括底座、用于码垛堆放彩钢瓦的升降托板机构、水平位移机构、升降调节架、承托导向输送机构和前挡组件；所述承托导向输送机构包括输送驱动电机、两个带座轴承、旋转轴组件、传动皮带和可调导向轮组组件；本发明涉及的方法提供的装置在彩钢瓦轧制成型加工过程中可同步进行彩钢瓦的自动码垛堆放,解决了传统方式下需要通过人工后期整理码垛的麻烦,省时省力,减少了人工成本投入,提高了整体的生产效率；另外可针对不同规格的彩钢瓦进行对应调节,具有普遍的适用性。(The invention relates to a color steel tile roll forming method, in particular to an automatic stacking device after color steel tile roll forming, which comprises a base, a lifting supporting plate mechanism for stacking color steel tiles, a horizontal displacement mechanism, a lifting adjusting frame, a bearing guide conveying mechanism and a front baffle component, wherein the lifting supporting plate mechanism is used for stacking color steel tiles; the bearing guide conveying mechanism comprises a conveying driving motor, two belt seat bearings, a rotating shaft assembly, a transmission belt and an adjustable guide wheel set assembly; the device provided by the method can synchronously automatically stack the color steel tiles in the rolling forming process of the color steel tiles, solves the problem that the stacking needs to be finished in later period manually in the traditional mode, saves time and labor, reduces the labor cost input and improves the overall production efficiency; in addition, the color steel tiles with different specifications can be correspondingly adjusted, and the universal applicability is realized.)

1. A rolling forming method of color steel tiles is characterized in that: the molding method specifically comprises the following steps:

s1, preparing a coil: preparing steel plate coil stock with corresponding color and width required by producing color steel tiles;

s2, roll forming: rolling and forming the released coil stock by using color steel tile rolling and forming equipment for producing color steel tiles of corresponding models;

s3, fixed length slitting: cutting the material belt which is rolled and formed in the step S2 by corresponding length according to the model size of the color steel tile to be produced, thereby obtaining the color steel tile with the required size by cutting;

s4, stacking: automatically stacking the color steel tiles obtained by cutting in the step S3 by an automatic stacking device after the color steel tiles are rolled and formed;

the automatic stacking device for the color steel tiles after rolling forming is further concretely related to the process of rolling forming the color steel tiles by adopting the color steel tile rolling forming method of the steps S1-S4, and comprises a base (1), a lifting supporting plate mechanism (2) for stacking the color steel tiles, a horizontal displacement mechanism (3), a lifting adjusting frame (4), a bearing guide conveying mechanism (5) and a front gear component (6); the lifting supporting plate mechanism (2) is arranged on the base (1), the base (1) is provided with two horizontal displacement mechanisms (3), the two horizontal displacement mechanisms (3) are arranged on two sides of the lifting supporting plate mechanism (2) in a mirror symmetry manner, the two horizontal displacement mechanisms (3) are both provided with the lifting adjusting frames (4) which horizontally move along with the lifting adjusting frames, the lifting adjusting frame (4) comprises a lifting plate (44) capable of vertically lifting, the supporting and guiding conveying mechanisms (5) are correspondingly arranged on the lifting plates (44) of the two lifting adjusting frames (4), and the two supporting and guiding conveying mechanisms (5) are arranged in a mirror symmetry manner, two front baffle components (6) are arranged on one of the lifting plates (44), and the two front baffle components (6) are positioned at the outer side of the bearing guide conveying mechanism (5) on the same lifting plate (44); wherein:

the bearing guide conveying mechanism (5) comprises a conveying driving motor (51), two belt seat bearings (52), a rotating shaft component (53), a transmission belt (54) and an adjustable guide wheel set component (55); the conveying driving motor (51) is fixedly arranged at the side wall end of the lifting plate (44) through a motor fixing frame, a driving belt wheel (511) is arranged on an output shaft of the conveying driving motor (51), and two belt seat bearings (52) are fixedly arranged at the top end of the lifting plate (44); the axial direction of the rotating shaft assembly (53) is perpendicular to the displacement direction of the horizontal displacement mechanism (3), the rotating shaft assembly (53) comprises a first rotating end (531), a second rotating end (532) and two arc shaft plates (533), the first rotating end (531) and the second rotating end (532) are horizontally and rotatably arranged on the two belt seat bearings (52) in a one-to-one correspondence mode, a driven pulley (5311) is arranged at the end part of the first rotating end (531), the driven pulley (5311) is in transmission connection with the driving pulley (511) through the transmission belt (54), the two arc shaft plates (533) are fixedly connected between the first rotating end (531) and the second rotating end (532) and are coaxially arranged in mirror symmetry, and a gap is reserved between the two arc shaft plates (533); the adjustable guide wheel set assembly (55) comprises a bidirectional adjusting screw rod, two threaded connecting blocks (552) and two supporting guide wheels (553); the bidirectional adjusting screw rod penetrates through the two arc shaft plates (533) and is horizontally and rotatably installed between the first rotating end (531) and the second rotating end (532), the two threaded connecting blocks (552) are in one-to-one corresponding threaded connection with two threaded sections with opposite thread turning directions on the bidirectional adjusting screw rod (551), the two threaded connecting blocks (552) are in clearance sliding fit with the two arc shaft plates (533), the two bearing guide wheels (553) are fixedly connected to the two threaded connecting blocks (552) in one-to-one correspondence, and the central shaft of the bearing guide wheel (553) is coincided with the rotating central shaft of the rotating shaft assembly (53).

2. The method for roll forming color steel tiles according to claim 1, wherein the method comprises the following steps: the lifting supporting plate mechanism (2) comprises a lifting driving motor (21), a driving lead screw (22), three driven lead screws (23), a transmission chain (24) and a material supporting plate (25); lifting drive motor (21) fixed mounting be in on base (1), be provided with drive gear (211) on the output shaft of lifting drive motor (21), drive screw (22) and three driven screw (23) rectangle summit distributes and equal vertical rotation sets up on base (1), be provided with driven gear (221) and drive sprocket (222) on drive screw (22), driven gear (221) with drive gear (211) meshing, be provided with driven sprocket (231) on driven screw (23), drive sprocket (222) and three pass through between driven sprocket (231) drive chain (24) meshing transmission, ask flitch (25) to be level setting and threaded connection in drive screw (22) and three on driven screw (23).

3. The method for roll forming color steel tiles according to claim 1, wherein the method comprises the following steps: horizontal displacement mechanism (3) are including horizontal cylinder (31), fixed layer board (32) and two guide arms (33), horizontal cylinder (31) fixed mounting be in on the lateral wall of base (1), fixed layer board (32) with the output fixed connection of horizontal cylinder (31), two guide arm (33) distribute in the both sides of horizontal cylinder (31) and with fixed layer board (32) fixed connection, two guide arm (33) with base (1) lateral wall horizontal sliding fit sets up.

4. The method for roll forming color steel tiles according to claim 3, wherein the method comprises the following steps: the lifting adjusting frame (4) further comprises two guide sleeve upright columns (41) vertically and fixedly mounted on the fixed supporting plate (32), a baffle plate (42) horizontally and fixedly connected between the two guide sleeve upright columns (41), two guide columns (43) which correspond to the top ends of the two guide sleeve upright columns one by one and are in sliding fit with the top ends of the two guide sleeve upright columns (41), and a hand wheel adjusting screw rod (45) which is vertically and rotatably arranged on the baffle plate (42) in a threaded manner; the lifting plate (44) is horizontally and fixedly connected between the top ends of the two guide columns (43), and the top end of the hand wheel adjusting screw rod (45) is rotatably arranged at the bottom end of the lifting plate (44) through a bearing.

5. The method for roll forming color steel tiles according to claim 1, wherein the method comprises the following steps: the front baffle assembly (6) comprises a slide rail (61), a slide base (62), a locking screw rod (63) and a baffle plate (64); the sliding rail (61) is fixedly installed at the top end of the lifting plate (44), the sliding base (62) is installed on the sliding rail (61) in a horizontal sliding fit mode, a waist-shaped hole (611) is formed in the side wall of the sliding rail (61), the locking screw (63) penetrates through the waist-shaped hole (611) to be in threaded connection with the sliding base (62), and the baffle (64) is vertically and fixedly connected to the sliding base (62).

Technical Field

The invention relates to the technical field of color steel tile production, and particularly provides a color steel tile roll forming method.

Background

Color steel tile, also known as: the color profiling tile is a profiling plate which is formed by rolling, rolling and cold-bending a color coated steel plate into various wave patterns; the color steel tile is suitable for roofing, wall surface, inner wall and outer wall decoration of industrial and civil buildings, warehouses, special buildings, large-span steel structure houses, and the like, has the characteristics of light weight, high strength, rich color, convenient and quick construction, earthquake resistance, fire resistance, rain resistance, long service life, maintenance-free property and the like, and is widely popularized and applied.

Various steel tile is in the roll forming processing production process, adopt the steel sheet coil stock to utilize the forming roll to carry out the roll-in through various steel tile roll forming equipment and carry, the fashioned steel sheet material area of completion roll-in still is whole material area structure, consequently need be cut into the various steel tile of corresponding specification width through cutting the fashioned steel sheet material area branch of roll, various steel tile after cutting need carry out the pile up neatly and stack, thereby be convenient for concentrate stack storage and later stage transportation, and in traditional roll forming production process, all rely on artifical later stage to arrange in order the pile up neatly to the various steel tile finished product of production basically, adopt artifical pile up neatly to stack and waste time and energy, operate futilely, still will increase the cost of labor, and influence holistic production efficiency.

Based on the problems, the invention provides a color steel tile roll forming method, and particularly relates to an automatic stacking device after color steel tile roll forming.

Disclosure of Invention

In order to solve the above problems, the present invention provides a method for rolling and forming color steel tiles, which is used to solve the above problems in the background art.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a rolling forming method for color steel tiles comprises the following steps:

s1, preparing a coil: preparing steel plate coil stock with corresponding color and width required by producing color steel tiles;

s2, roll forming: rolling and forming the released coil stock by using color steel tile rolling and forming equipment for producing color steel tiles of corresponding models;

s3, fixed length slitting: cutting the material belt which is rolled and formed in the step S2 by corresponding length according to the model size of the color steel tile to be produced, thereby obtaining the color steel tile with the required size by cutting;

s4, stacking: automatically stacking the color steel tiles obtained by cutting in the step S3 by an automatic stacking device after the color steel tiles are rolled and formed;

the automatic stacking device after color steel tile roll forming is further concretely related to the process of performing color steel tile roll forming machining by adopting the color steel tile roll forming method of the steps S1-S4, and comprises a base, a lifting supporting plate mechanism for stacking color steel tiles, a horizontal displacement mechanism, a lifting adjusting frame, a bearing guide conveying mechanism and a front gear component; the lifting support plate mechanism is arranged on the base, two horizontal displacement mechanisms are arranged on the base, the two horizontal displacement mechanisms are arranged on the two sides of the lifting support plate mechanism in a mirror symmetry manner, the two horizontal displacement mechanisms are both provided with the lifting adjusting frame which moves horizontally along with the lifting adjusting frame, the lifting adjusting frame comprises a lifting plate capable of vertically lifting, the lifting plates of the two lifting adjusting frames are correspondingly provided with the bearing guide conveying mechanisms, the two bearing guide conveying mechanisms are arranged in a mirror symmetry manner, one lifting plate is provided with two front baffle assemblies, and the two front baffle assemblies are positioned on the outer sides of the bearing guide conveying mechanisms on the same lifting plate; wherein:

the bearing guide conveying mechanism comprises a conveying driving motor, two belt seat bearings, a rotating shaft assembly, a transmission belt and an adjustable guide wheel set assembly; the conveying driving motor is fixedly arranged at the side wall end of the lifting plate through a motor fixing frame, a driving belt wheel is arranged on an output shaft of the conveying driving motor, and two belt seat bearings are fixedly arranged at the top end of the lifting plate; the axial direction of the rotating shaft assembly is perpendicular to the displacement direction of the horizontal displacement mechanism, the rotating shaft assembly comprises a first rotating end, a second rotating end and two arc shaft plates, the first rotating end and the second rotating end are horizontally and rotatably arranged on the two belt seat bearings in a one-to-one correspondence mode, a driven belt wheel is arranged at the end part of the first rotating end, the driven belt wheel is in transmission connection with the driving belt wheel through a transmission belt, the two arc shaft plates are fixedly connected between the first rotating end and the second rotating end and are coaxially arranged in a mirror symmetry mode, and a gap is reserved between the two arc shaft plates; the adjustable guide wheel set assembly comprises a bidirectional adjusting screw rod, two threaded connecting blocks and two bearing guide wheels; two-way regulation lead screw is from two pass between the circular arc axial lamella and horizontal rotation install a rotatory end with between the rotatory end No. two threaded connection piece with screw thread revolves to two opposite screw thread section one-to-one threaded connection on the two-way adjusting screw, two threaded connection piece and two clearance sliding fit between the circular arc axial lamella, two bearing leading wheel one-to-one fixed connection is two on the threaded connection piece, just the center pin of bearing leading wheel with the rotation axis coincidence of rotation axis subassembly.

Preferably, the lifting supporting plate mechanism comprises a lifting driving motor, a driving lead screw, three driven lead screws, a transmission chain and a supporting plate; lifting drive motor fixed mounting be in on the base, be provided with drive gear on lifting drive motor's the output shaft, drive screw and three driven screw rectangle summit distributes and equal vertical rotation sets up on the base, be provided with driven gear and drive sprocket on the drive screw, driven gear with drive gear meshing, be provided with driven sprocket on the driven screw, drive sprocket and three pass through between the driven sprocket drive chain meshing transmission, it is level setting and threaded connection to hold in the palm the flitch is the drive screw and three on the driven screw.

Preferably, the horizontal displacement mechanism comprises a horizontal cylinder, a fixed supporting plate and two guide rods, the horizontal cylinder is fixedly installed on the outer side wall of the base, the fixed supporting plate is fixedly connected with the output end of the horizontal cylinder, the two guide rods are distributed on two sides of the horizontal cylinder and fixedly connected with the fixed supporting plate, and the two guide rods are horizontally arranged in a sliding fit with the side wall of the base.

Preferably, the lifting adjusting frame further comprises two guide sleeve upright columns vertically and fixedly mounted on the fixed supporting plate, a baffle plate horizontally and fixedly connected between the two guide sleeve upright columns, two guide columns in one-to-one correspondence and in sliding fit with the top ends of the two guide sleeve upright columns, and a hand wheel adjusting screw rod rotationally arranged on the baffle plate through vertical threads; the lifting plate is horizontally and fixedly connected between the top ends of the two guide pillars, and the top end of the hand wheel adjusting screw is rotatably arranged at the bottom end of the lifting plate through a bearing.

Preferably, the front baffle assembly comprises a slide rail, a slide base, a locking screw and a baffle plate; the sliding rail is fixedly installed at the top end of the lifting plate, the sliding base is installed on the sliding rail in a horizontal sliding fit mode, a waist-shaped hole is formed in the side wall of the sliding rail, the locking screw penetrates through the waist-shaped hole and is in threaded connection with the sliding base, and the baffle is vertically and fixedly connected to the sliding base.

The technical scheme has the following advantages or beneficial effects:

1. the invention provides a color steel tile roll forming method, in particular to an automatic stacking device after color steel tile roll forming, wherein two bearing guide conveying mechanisms are arranged to horizontally bear and guide and convey cut color steel tile finished products, conveying and positioning can be realized through a front baffle component, the two bearing guide conveying mechanisms can be pulled open towards two sides after the front baffle positioning and conveying is finished through horizontal displacement mechanisms which are arranged in one-to-one correspondence with the two bearing guide conveying mechanisms, so that color steel tiles can be automatically separated and fall in a horizontal posture, and the arranged lifting supporting plate mechanism can realize the automatic stacking of the color steel tiles falling on a supporting plate through intermittent falling; in conclusion, the device provided by the invention realizes automatic stacking of color steel tiles through the cooperation of guide conveying, front gear positioning, horizontal blanking and intermittent descending in the rolling forming process of the color steel tiles, solves the trouble that stacking needs to be finished manually in a later period in the traditional mode, can synchronously stack the color steel tiles in the processing process, saves time and labor, reduces the labor cost input and improves the overall production efficiency.

2. The invention provides a color steel tile roll forming method, in particular to an automatic stacking device after color steel tile roll forming, wherein a lifting adjusting frame is arranged to adjust the height of a bearing guide wheel, and an adjustable guide wheel component is arranged to adjust the distance between the bearing guide wheels, so that the color steel tiles with different specifications can be correspondingly adjusted; in conclusion, the device provided by the invention can be used for automatically stacking and piling color steel tiles of different specifications, has universal applicability and can realize universality.

Drawings

The invention and its features, aspects and advantages will become more apparent from reading the following detailed description of non-limiting embodiments with reference to the accompanying drawings. The drawings, in which like numerals refer to like parts throughout the several views and which are not necessarily drawn to scale, emphasis instead being placed upon illustrating the principles of the invention.

FIG. 1 is a flow chart of a method for rolling and forming color steel tiles according to the present invention;

fig. 2 is a schematic perspective view of an automatic stacking device after rolling and forming color steel tiles provided by the invention at a first view angle;

FIG. 3 is an enlarged partial schematic view at A in FIG. 2;

fig. 4 is a schematic perspective view of an automatic stacking device after rolling and forming color steel tiles provided by the invention at a second viewing angle;

FIG. 5 is an enlarged partial schematic view at B in FIG. 4;

fig. 6 is a schematic perspective view of an automatic stacking device after rolling and forming color steel tiles provided by the invention at a third viewing angle;

FIG. 7 is a top view of the automatic stacking device after rolling and forming color steel tiles provided by the invention;

FIG. 8 is a cross-sectional view C-C of FIG. 7;

fig. 9 is a side view of the automatic stacking device after the color steel tile is rolled and formed, provided by the invention.

In the figure: 1. a base; 2. a lifting pallet mechanism; 21. a lifting drive motor; 211. a drive gear; 22. an active lead screw; 221. a driven gear; 222. a drive sprocket; 23. a driven lead screw; 231. a driven sprocket; 24. a drive chain; 25. a material supporting plate; 3. a horizontal displacement mechanism; 31. a horizontal cylinder; 32. fixing the supporting plate; 33. a guide bar; 4. a lifting adjusting frame; 41. a guide sleeve upright post; 42. a baffle plate; 43. a guide post; 44. a lifting plate; 45. a hand wheel adjusting screw; 5. a bearing guide conveying mechanism; 51. a conveying drive motor; 511. a drive pulley; 52. a pedestal bearing; 53. a rotating shaft assembly; 531. a first rotating end; 5311. a driven pulley; 532. a second rotating end; 533. a circular arc shaft plate; 54. a drive belt; 55. an adjustable guide wheel set assembly; 551. a bidirectional adjusting screw; 552. a threaded connection block; 553. supporting a guide wheel; 6. a front fender assembly; 61. a slide rail; 611. a kidney-shaped hole; 62. a slide base; 63. locking the screw rod; 64. and a baffle plate.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings for the purpose of providing those skilled in the art with a more complete, accurate and thorough understanding of the concept and technical solution of the present invention, and to facilitate the implementation thereof, but not to limit the present invention.

Referring to the attached drawings 1-9, a rolling forming method of color steel tiles specifically comprises the following steps:

s1, preparing a coil: preparing steel plate coil stock with corresponding color and width required by producing color steel tiles;

s2, roll forming: rolling and forming the released coil stock by using color steel tile rolling and forming equipment for producing color steel tiles of corresponding models (the color steel tiles have multiple specifications, namely the rolling section profiles corresponding to each specification are different, and the color steel tile rolling and forming equipment is the existing mechanical equipment for correspondingly rolling and producing color steel tiles of certain specifications);

s3, fixed length slitting: cutting the material belt rolled and formed in the step S2 by a corresponding length according to the size of the color steel tile to be produced (the existing color steel tile roll forming equipment in the step 2 is generally equipped with a cutting die cutting mechanism, and can automatically cut the formed material belt after the roll forming is completed), so as to cut the color steel tile to obtain the color steel tile with the required size;

s4, stacking: automatically stacking the color steel tiles obtained by cutting in the step S3 by an automatic stacking device after the color steel tiles are rolled and formed;

the automatic stacking device after color steel tile roll forming is further concretely related to the process of performing color steel tile roll forming machining by adopting the color steel tile roll forming method of the steps S1-S4, and comprises a base 1, a lifting supporting plate mechanism 2 for stacking color steel tiles, a horizontal displacement mechanism 3, a lifting adjusting frame 4, a bearing guide conveying mechanism 5 and a front gear component 6;

the automatic stacking device can automatically stack the cut color steel tile finished products, and is placed on one side of the cut of the color steel tile roll forming equipment.

Two front baffle components 6 are arranged on one of the lifting plates 44, and the two front baffle components 6 are positioned outside the supporting and guiding conveying mechanism 5 on the same lifting plate 44; the front baffle assembly 6 comprises a slide rail 61, a slide base 62, a locking screw 63 and a baffle plate 64; the slide rail 61 is fixedly welded at the top end of the lifting plate 44, the sliding base 62 is horizontally and slidably mounted on the slide rail 61, a waist-shaped hole 611 is formed in the side wall of the slide rail 61, the locking screw 63 penetrates through the waist-shaped hole 611 to be in threaded connection with the sliding base 62, and the baffle 64 is vertically welded on the sliding base 62. The two front stop elements 6 are arranged on either side of the two support guide wheels 553, so that they can be moved away from the adjusted support guide wheels 553.

The width size of the various steel tiles of different specifications of actual production is inconsistent, and two bearing direction conveying mechanism 5 distribute in the both sides of lift layer board mechanism 2, can basically fall in the central position of holding in the palm flitch 25 after releasing in order to make the various steel tile of carrying between two bearing direction conveying mechanism 5, consequently can adjust two preceding fender subassemblies 6 according to actual conditions, specifically, loosen locking screw 63 through wrench movement, then make baffle 64 move along with it through removing sliding base 62, thereby remove baffle 64 to suitable position, after baffle 64 is in suitable position, wrench movement locking bolt again locks sliding base 62.

The two horizontal displacement mechanisms 3 are respectively provided with a lifting adjusting frame 4 which moves horizontally along with the lifting adjusting frames, the lifting adjusting frames 4 comprise lifting plates 44 which can be vertically lifted, the lifting adjusting frames 4 also comprise two guide sleeve upright columns 41 which are vertically welded and fixedly installed on the fixed supporting plate 32, a baffle plate 42 which is horizontally welded between the two guide sleeve upright columns 41, two guide columns 43 which correspond to the top ends of the two guide sleeve upright columns 41 one by one and are in sliding fit with each other, and a hand wheel adjusting screw 45 which is vertically and spirally arranged on the baffle plate 42; the lifting plate 44 is horizontally welded between the top ends of the two guide posts 43, and the top end of the hand wheel adjusting screw 45 is rotatably arranged at the bottom end of the lifting plate 44 through a bearing.

Because the conveying height of various steel tile roll forming equipment to accomplishing the various steel tile after cutting is fixed, and the protruding profile of wave form of the various steel tile of different specifications is different, consequently, place the effective contact of profile realization that can with various steel tile at ground rear support leading wheel 553 in order to guarantee the device, consequently, accessible is adjusted lift adjustment frame 4 as required and is makeed the bearing direction in 5 of bearing direction conveying mechanism to be in corresponding height, specifically, thereby rotate hand wheel adjusting screw 45 through the hand wheel and pulling lifter plate 44 descends or promote lifter plate 44 and rise, make the regulation back, the protruding indent end of wave form on the various steel tile can just contact with bearing leading wheel 553, make promptly and still be in the high position of cutting and keep the horizontality with bearing leading wheel 553 after contacting, thereby guarantee that bearing leading wheel 553 can normally realize the direction and carry.

The two bearing guide conveying mechanisms 5 are arranged on the lifting plates 44 of the two lifting adjusting frames 4 correspondingly, the two bearing guide conveying mechanisms 5 are arranged in a mirror symmetry mode, and each bearing guide conveying mechanism 5 comprises a conveying driving motor 51, two belt seat bearings 52, a rotating shaft component 53, a transmission belt 54 and an adjustable guide wheel set component 55; a conveying driving motor 51 is fixedly arranged at the side wall end of the lifting plate 44 through a motor fixing frame, a driving belt wheel 511 is arranged on an output shaft of the conveying driving motor 51, and two belt seat bearings 52 are fixedly arranged at the top end of the lifting plate 44 through bolt locking; the axial direction of the rotating shaft component 53 is perpendicular to the displacement direction of the horizontal displacement mechanism 3, the rotating shaft component 53 comprises a first rotating end 531, a second rotating end 532 and two arc shaft plates 533, the first rotating end 531 and the second rotating end 532 are horizontally and rotatably arranged on the two belt seat bearings 52 in a one-to-one correspondence mode, a driven belt pulley 5311 is arranged at the end part of the first rotating end 531, the driven belt pulley 5311 is in transmission connection with the driving belt pulley 511 through a transmission belt 54, the two arc shaft plates 533 are fixedly connected between the first rotating end 531 and the second rotating end 532 and are coaxially arranged in mirror symmetry, and a gap is reserved between the two arc shaft plates 533;

the adjustable guide wheel set assembly 55 comprises a bidirectional adjusting lead screw, two threaded connection blocks 552 and two supporting guide wheels 553; the bidirectional adjusting screw rod penetrates through the two circular arc shaft plates 533 and is horizontally installed between the first rotating end 531 and the second rotating end 532 in a rotating mode, the two threaded connection blocks 552 are in threaded connection with the bidirectional adjusting screw rod 551 in a threaded mode in a one-to-one correspondence mode, the two threaded connection blocks 552 are in clearance sliding fit with the two circular arc shaft plates 533, the two bearing guide wheels 553 are fixedly connected to the two threaded connection blocks 552 in a one-to-one correspondence mode, and the central axis of each bearing guide wheel 553 coincides with the rotating central axis of the rotating shaft assembly 53.

Because the bellied interval of various steel tile structure wave form of different specifications is different, consequently the setting of adjustable direction wheelset subassembly 55 can carry out the interval regulation of bearing leading wheel 553 to the various steel tile of different specification structures (mainly refer to the various steel tile that the protruding interval of adjacent wave form is different), it is specific, through rotating arbitrary side of two-way adjusting screw 551, thereby drive bearing leading wheel 553 along with two threaded connection piece 552 synchronous phase motion or dorsad motion, then the adjustment changes the interval of two bearing leading wheels 553 and suits with the specification of the various steel tile of roll forming.

When the spacing and height adjustment of the supporting guide wheels 553 is completed according to actual requirements and the adjustment of the front baffle component 6 is completed according to actual requirements, that is, the supporting guide wheels 553 in the two supporting and guiding conveying mechanisms 5 are aligned with the wave-shaped bulges of the cut color steel tiles and can horizontally support and contact the color steel tiles, so as to cooperate with the automatic stacking of the color steel tiles in the rolling and forming production process of the color steel tiles, the supporting and guiding conveying mechanisms 5 drive the cut color steel tile finished products to be conveyed forwards until the cut color steel tiles are conveyed to the contact position with the baffle plate 64, specifically, the conveying driving motor 51 is started to drive the rotating shaft component 53 to horizontally rotate on the two belt seat bearings 52 through the transmission belt 54, and in view of the side view of fig. 9, the supporting guide wheels 553 can rotate anticlockwise, and the cut finished color steel tiles can be conveyed forwards by the two supporting and guiding conveying mechanisms 5 in a relaying manner, and until the color steel tiles are stopped by the stop plate 64, the color steel tiles will cross between the two support guide conveying mechanisms 5 and be horizontally lifted by the four support guide wheels 553.

Be provided with two horizontal displacement mechanism 3 on base 1, 3 mirror symmetry of two horizontal displacement mechanisms distribute and set up the both sides at lifting support plate mechanism 2, horizontal displacement mechanism 3 includes horizontal cylinder 31, fixed layer board 32 and two guide arms 33, horizontal cylinder 31 passes through bolt fixed mounting on base 1's lateral wall, fixed layer board 32 and horizontal cylinder 31's output fixed connection, two guide arms 33 distribute in horizontal cylinder 31 both sides and with fixed layer board 32 fixed connection, two guide arms 33 set up with base 1 lateral wall horizontal sliding fit.

After carrying the color steel tile to the position of contacting with baffle 64 through two direction conveying mechanism, carry driving motor 51 to pause work, and the horizontal cylinder 31 that distributes in both sides will correspond the fixed layer board 32 of pulling, two fixed layer boards 32 will move dorsad, then the whole that two sets of lift adjustment frame 4 and bearing direction conveying mechanism 5 constitute will be along with two fixed layer boards 32 synchronous dorsad motion, along with going on of motion, the color steel tile will break away from four bearing leading wheels 553, and be horizontal gesture and fall on the layer board 25 that holds in the palm that lies in the below.

The lifting support plate mechanism 2 is arranged on the base 1, and the lifting support plate mechanism 2 comprises a lifting driving motor 21, a driving lead screw 22, three driven lead screws 23, a transmission chain 24 and a material supporting plate 25; lifting drive motor 21 passes through bolt fixed mounting on base 1, be provided with drive gear 211 on lifting drive motor 21's the output shaft, drive screw 22 and three driven screw 23 rectangle summit distribute and equal vertical rotation sets up on base 1, be provided with driven gear 221 and drive sprocket 222 on the drive screw 22, driven gear 221 and drive gear 211 mesh, be provided with driven sprocket 231 on the driven screw 23, through the meshing transmission of drive chain 24 between drive sprocket 222 and the three driven sprocket 231, ask flitch 25 to be level setting and threaded connection on drive screw 22 and three driven screw 23.

The color steel tiles separated from the four supporting guide wheels 553 directly fall on the material supporting plate 25 below, and at the initial stage, the material supporting plate 25 is at a height position slightly lower than the lifting plate 44 (when the height of the lifting adjusting frame 4 is adjusted, the height of the material supporting plate 25 can be adjusted adaptively), the lifting supporting plate mechanism 2 intermittently and automatically descends in the stacking process of the color steel tiles, specifically, after the color steel tiles fall on the material supporting plate 25, the lifting driving motor 21 is started to drive the driving gear 211 to rotate, the driving gear 211 drives the driven gear 221 to drive the driving lead screw 22 to rotate, then the driving sprocket 222 drives the three driven sprockets 231 to synchronously rotate along with the driving lead screw 24, then drives the three driven lead screws 23 to synchronously rotate along with the driving lead screw 22, then the material supporting plate 25 can automatically descend, in the stacking process, the lifting plate 44 automatically descends to a height equal to the wave height of the formed and processed color steel tiles after new color steel tiles are stacked, and then automatic stacking and stacking can be achieved.

Those skilled in the art will appreciate that variations may be implemented by those skilled in the art in combination with the prior art and the above-described embodiments, and will not be described in detail herein. Such variations do not affect the essence of the present invention and are not described herein.

The above description is of the preferred embodiment of the invention. It is to be understood that the invention is not limited to the particular embodiments described above, in that devices and structures not described in detail are understood to be implemented in a manner common in the art; it will be understood by those skilled in the art that various changes and modifications may be made, or equivalents may be modified, without departing from the spirit of the invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.