CN214976787U - Unwinding and shaping device for stainless steel coil processing in constructional engineering - Google Patents

Abstract

The utility model discloses a building engineering stainless steel coil of strip processing unreels shaping device, has solved the work efficiency of current decoiler low, and the automation can be poor to and need the workman to carry out the problem of assisting, and it includes transmission device, one side at transmission device top has seted up the pulling notch, and the both sides that are located transmission device and the both sides of pulling notch all install first lateral shifting mechanism, and pulling mechanism is all installed to the one end of two first lateral shifting mechanisms, and the one end at transmission device top is fixed mounting has the flattening case; at first this stainless steel coil of strip processing unreels shaping device can last effectually unreel and the plastic to the coil of strip, the effectual machining efficiency that has improved stainless steel, secondly this stainless steel coil of strip processing unreels shaping device and is power mechanical structure, has higher degree of automation, more convenient during the use, and this stainless steel coil of strip processing unreels shaping device at last need not the workman and carries out the auxiliary processing, and the device can be continuous unreel and the plastic to the coil of strip.

Description

Unwinding and shaping device for stainless steel coil processing in constructional engineering

Technical Field

The utility model belongs to the technical field of building engineering stainless steel coil of strip processing equipment, specifically be a building engineering stainless steel coil of strip processing unreels shaping device.

Background

The steel coil is also called coil steel, and the steel is hot-pressed and cold-pressed into a coil shape, so that various processing is convenient for storage and transportation.

When the steel coil is used in a building factory, an uncoiler is required to uncoil the steel coil, and the steel strip uncoiled by the uncoiler often has irregular shape, so that subsequent processing production is caused; firstly, the working efficiency of the processing mode is low, secondly, the automation performance of the processing mode is poor, and finally, workers are required to perform auxiliary processing, so that the labor intensity of the workers is improved.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a building engineering stainless steel coil of strip processing unreels shaping device, the effectual work efficiency who has solved current decoiler is low, and the automated performance is poor to and need the workman to carry out supplementary problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a building engineering stainless steel coil of strip processing unreels shaping device, including transmission device, the pulling notch has been seted up to one side at transmission device top, first lateral shifting mechanism is all installed to the both sides of pulling notch and the both sides that are located transmission device, pulling mechanism is all installed to two first lateral shifting mechanism's one end, the one end fixed mounting at transmission device top has flattening case, flattening case's top fixed mounting has a fixed support plate, the mid-mounting at fixed support plate top has second lateral shifting mechanism, fixed pull head mechanism is all installed at the both ends at second lateral shifting mechanism middle part, the case is placed to the coil of strip is installed to transmission device's one end, the inside that the case was placed to the coil of strip is equipped with the coil of strip body.

Preferably, the transmission mechanism comprises a transmission slot frame, a first rotating shaft and first rollers, the first rotating shaft is movably arranged on two sides of the top of the transmission slot frame at equal intervals, and the first rollers are fixedly arranged on the surface of the first rotating shaft.

Preferably, the pulling notch is formed in the top of the transmission groove frame, a third rotating shaft is movably mounted on the inner side of the pulling notch and on one side of the middle portion of the top of the transmission groove frame at equal intervals, and a third rolling roller is fixedly mounted on the surface of the third rotating shaft.

Preferably, the equal fixed mounting in both sides of transmission cell frame one end has the fixed block, movable mounting has the second pivot between two fixed blocks, the fixed surface of second pivot installs the second and rolls the roller, the one end movable mounting at transmission cell frame top has the main shaft, the fixed surface of main shaft installs the main roller that rolls, the transmission is connected with the driving chain between the one end of main shaft and the one end of first pivot and third pivot, the one end fixed mounting of transmission cell frame side has first motor, the other end of main shaft is fixed with the output of first motor and is connected.

Preferably, the two first transverse moving mechanisms respectively comprise a groove plate, a first threaded shaft, a second motor and a moving block, the two groove plates are respectively and fixedly installed on two sides of the transmission groove frame, the first threaded shaft is movably installed inside the groove plates, the second motor is fixedly installed at one end of the groove plates, one end of the first threaded shaft is fixedly connected with the output end of the second motor, and the moving block is in threaded connection with the surface of the first threaded shaft.

Preferably, two pulling mechanism all includes third motor, two-way screw shaft, first top cardboard, first bottom cardboard and first inserted bar, and third motor and two-way screw shaft are installed respectively in the bottom and the top of movable block one end, and the one end of two-way screw shaft is fixed with the output of third motor and is connected, and first top cardboard and first bottom cardboard are threaded connection respectively in the both sides of two-way screw shaft, and first inserted bar activity is pegged graft between the one end of first top cardboard and first bottom cardboard.

Preferably, the bottom of the inner cavity of the flattening box is movably provided with a fourth rotating shaft at equal intervals, and the surface of the fourth rotating shaft is fixedly provided with a fourth roller.

Preferably, the second transverse moving mechanism comprises a fourth motor, a second threaded shaft, a moving plate and two moving grooves, the fourth motor is fixedly installed in the middle of one end of the top of the fixed support plate, the second threaded shaft is fixedly connected to the output end of the fourth motor, one end of the second threaded shaft is movably connected with the middle of the other end of the top of the fixed support plate, the moving plate is connected to the surface of the second threaded shaft in a threaded mode, and the two moving grooves are formed in the same ends of the two sides of the top of the fixed support plate.

Preferably, two fixed pull head mechanisms all include the fifth motor, the third threaded shaft, second bottom cardboard, the montant, second top cardboard and second inserted bar, two fifth motors are fixed mounting respectively at the both ends at movable plate top, two third threaded shafts movable mounting respectively are at the both ends of movable plate bottom, and the one end of two third threaded shafts is fixed with the output of two fifth motors respectively and is connected, two second bottom cardboards threaded connection respectively is in one side of two third threaded shafts, two montants fixed connection respectively are at the both ends of movable plate bottom, and two montants extend to the below of fixed bolster and fixedly connected with second top cardboard respectively through two shifting chutes, the activity of second inserted bar is pegged graft between the one end of second bottom cardboard and second top cardboard.

Preferably, the case is placed to the coil of strip includes the box, the arc wall, main recess, the fifth pivot, the fifth rolls the roller, the sixth motor, vice recess, sixth pivot and sixth roll roller, the box is installed in the below of transmission tank rack one end, the top at the box is seted up to the arc wall, the bottom at the arc wall is seted up to main recess, fifth pivot movable mounting is in the inside of main recess, the fifth rolls roller fixed mounting on the surface of fifth pivot, sixth motor fixed mounting is in the lower part of box one side, and the output of sixth motor is connected with the one end stationary phase of fifth pivot, the both sides inside the arc wall are seted up to vice recess equidistance, sixth pivot fixed mounting is in the inside of vice recess, the surface at the sixth pivot is installed to the sixth roll roller, the coil of strip body is placed in the inside of arc wall.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) in the working process, the stainless steel coil processing, unwinding and shaping device can continuously and effectively unwind and shape a steel coil and effectively improve the processing efficiency of stainless steel by arranging the transmission groove frame, the first rotating shaft, the first rolling roller, the third rotating shaft, the third rolling roller, the main shaft, the main rolling roller, the transmission chain, the first motor, the fourth rotating shaft, the fourth rolling roller, the box body, the arc-shaped groove, the main groove, the fifth rotating shaft, the fifth rolling roller, the sixth motor, the auxiliary groove and the auxiliary groove; the steel coil body is placed into the arc-shaped groove, the end head of the steel coil body is upward, after the end head of the steel coil body enters the flattening box and the transmission groove frame, the sixth motor and the first motor are started simultaneously, the rotation of the sixth motor can drive the steel coil body to rotate and unreel through the fifth rotating shaft and the fifth rolling roller, so that the unreeled steel coil body is forced to enter the flattening box and the transmission groove frame, the first motor can drive the first rotating shaft and the first rolling roller as well as the third rotating shaft and the third rolling roller to rotate through the main shaft and the transmission chain, the steel coil body entering the flattening box and the transmission groove frame is driven to continue to be driven, and the moving steel coil body is flattened and shaped through the third rolling roller and the fourth rolling roller;

(2) the stainless steel coil processing, unwinding and shaping device is of a power mechanical structure by being provided with the transmission mechanism, the first transverse moving mechanism, the pulling mechanism, the flattening box, the fixed support plate, the second transverse moving mechanism, the fixed pull head mechanism and the steel coil placing box, so that the stainless steel coil processing, unwinding and shaping device has higher automation degree and is more convenient to use; the first motor, the second motor, the third motor, the fourth motor, the fifth motor and the sixth motor provide power for the device, and manual assistance is not needed;

(3) the unwinding shaping device for processing the stainless steel coil is free from auxiliary processing by workers, and can continuously unwind and shape the coil steel; the fourth motor is started, so that the moving plate drives the second bottom clamping plate and the second top clamping plate to move towards the steel coil body, the second bottom clamping plate tilts the end part of the steel coil body in the moving process, then the fifth motor is started, the second bottom clamping plate moves towards the second top clamping plate on the surface of the third threaded shaft, the second bottom clamping plate and the second top clamping plate clamp the end part of the steel coil body fixedly, and then the fourth motor is started, so that the second bottom clamping plate and the second top clamping plate move the end part of the steel coil body into the flattening box and the transmission groove frame; when the steel coil body unreeled to last, through starting the third motor, made first top cardboard and first bottom cardboard carry out the chucking to the coil steel that flattens fixed, then starting the second motor, make the movable block drive first top cardboard and first bottom cardboard and stimulate the coil steel that flattens, make its coil steel that will not flatten draw into the inside of flattening case and transmission groove frame and flatten.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of the conveying mechanism and the flattening box of the present invention;

fig. 3 is a schematic structural view of the first lateral moving mechanism and the pulling mechanism of the present invention;

fig. 4 is a schematic structural view of the fixed supporting plate and the second lateral moving mechanism of the present invention;

fig. 5 is a schematic view of the present invention in partial cross section in fig. 4;

fig. 6 is a schematic view of a cross-sectional structure of the steel coil placement box of the present invention;

in the figure: 1. a transport mechanism; 2. pulling the notch; 3. a first lateral movement mechanism; 4. a pulling mechanism; 5. flattening the box; 6. fixing the support plate; 7. a second lateral movement mechanism; 8. a slider fixing mechanism; 9. a steel coil placing box; 10. a steel coil body; 11. a transmission slot rack; 1101. a fixed block; 1102. a second rotating shaft; 1103. a second roll; 12. a first rotating shaft; 13. a first roll; 14. a third rotating shaft; 15. a third roller; 16. a main shaft; 17. a main roller; 18. a drive chain; 19. a first motor; 20. a groove plate; 21. a first threaded shaft; 22. a second motor; 23. a moving block; 24. a third motor; 25. a bidirectional threaded shaft; 26. a sixth roll; 27. a first top card; 28. a first bottom card; 29. a first plunger; 30. a fourth rotating shaft; 31. a fourth roll; 32. a fourth motor; 33. a second threaded shaft; 34. moving the plate; 35. a moving groove; 36. a fifth motor; 37. a third threaded shaft; 38. a second bottom cardboard; 39. a vertical rod; 40. a second top card; 41. a second plunger; 42. a box body; 43. an arc-shaped slot; 44. a main groove; 45. a fifth rotating shaft; 46. a fifth roller; 47. a sixth motor; 48. a secondary groove; 49. and a secondary groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the first embodiment, as shown in fig. 1, fig. 2, fig. 4, fig. 5 and fig. 6, the present invention comprises a transmission mechanism 1, a pulling notch 2 is formed on one side of the top of the transmission mechanism 1, first traverse mechanisms 3 are mounted on both sides of the pulling notch 2 and on both sides of the transmission mechanism 1, a pulling mechanism 4 is mounted on one end of each of the two first traverse mechanisms 3, a pressing box 5 is fixedly mounted on one end of the top of the transmission mechanism 1, the steel coil can be pressed by the pressing box 5, a fixed support plate 6 is fixedly mounted on the top of the pressing box 5, a second traverse mechanism 7 and a fixed pull head mechanism 8 can be stably mounted by the fixed support plate 6, a second traverse mechanism 7 is mounted in the middle of the top of the fixed support plate 6, fixed pull head mechanisms 8 are mounted at both ends of the middle of the second traverse mechanism 7, the one end of transmission device 1 is installed the coil of strip and is placed case 9, and the coil of strip is placed the inside of case 9 and is equipped with coil of strip body 10, places the setting of case 9 through the coil of strip, can effectually place coil of strip body 10.

In the second embodiment, based on the first embodiment, as shown in fig. 2, the transmission mechanism 1 includes a transmission trough 11, a first rotating shaft 12 and first rollers 13, the first rotating shaft 12 is movably mounted on two sides of the top of the transmission trough 11 at equal intervals, the first rollers 13 are fixedly mounted on the surface of the first rotating shaft 12, and the flattened coil steel can be effectively transmitted through the arrangement of the transmission trough 11, the first rotating shaft 12 and the first rollers 13.

In the third embodiment, on the basis of the first embodiment, as shown in fig. 2, the pulling notch 2 is formed in the top of the transmission trough frame 11, the third rotating shaft 14 is movably mounted on the inner side of the pulling notch 2 and on one side of the middle of the top of the transmission trough frame 11 at equal intervals, the third rolling roller 15 is fixedly mounted on the surface of the third rotating shaft 14, and the flattened coil steel can be effectively transmitted through the third rotating shaft 14 and the third rolling roller 15.

Fourth embodiment, on the basis of the second embodiment, as shown in fig. 1 and 2, fixed blocks 1101 are fixedly installed on both sides of one end of the conveying trough frame 11, a second rotating shaft 1102 is movably installed between the two fixed blocks 1101, a second rolling roller 1103 is fixedly installed on the surface of the second rotating shaft 1102, the conveying trough frame can effectively drive the coil steel by the arrangement of the fixed blocks 1101, the second rotating shaft 1102 and the second rolling roller 1103, a main shaft 16 is movably installed at one end of the top of the conveying trough frame 11, a main rolling roller 17 is fixedly installed on the surface of the main shaft 16, a transmission chain 18 is in transmission connection between one end of the main shaft 16 and one ends of the first rotating shaft 12 and the third rotating shaft 14, a first motor 19 is fixedly installed at one end of the side of the conveying trough frame 11, the other end of the main shaft 16 is fixedly connected with an output end of the first motor 19, and by the arrangement of the main shaft 16, the main rolling roller 17, the transmission chain 18 and the first motor 19, so that the first rotating shaft 12 and the third rotating shaft 14 can be effectively driven to rotate.

Fifth embodiment, on the basis of the first embodiment, as shown in fig. 3, each of the two first lateral moving mechanisms 3 includes a groove plate 20, a first threaded shaft 21, a second motor 22, and a moving block 23, the two groove plates 20 are respectively and fixedly mounted on two sides of the transmission groove rack 11, the first threaded shaft 21 is movably mounted inside the groove plate 20, the second motor 22 is fixedly mounted at one end of the groove plate 20, one end of the first threaded shaft 21 is fixedly connected with an output end of the second motor 22, the moving block 23 is in threaded connection with the surface of the first threaded shaft 21, and the pulling mechanism 4 can be effectively driven to move left and right through the arrangement of the groove plate 20, the first threaded shaft 21, the second motor 22, and the moving block 23.

Sixth embodiment, on the basis of the first embodiment, as shown in fig. 3, each of the two pulling mechanisms 4 includes a third motor 24, a two-way threaded shaft 25, a first top chuck 27, a first bottom chuck 28, and a first inserting rod 29, the third motor 24 and the two-way threaded shaft 25 are respectively installed at the bottom and the top of one end of the moving block 23, one end of the two-way threaded shaft 25 is fixedly connected to an output end of the third motor 24, the first top chuck 27 and the first bottom chuck 28 are respectively screwed to two sides of the two-way threaded shaft 25, the first inserting rod 29 is movably inserted between one ends of the first top chuck 27 and the first bottom chuck 28, and the flattened coil steel can be effectively and fixedly pulled by the third motor 24, the two-way threaded shaft 25, the first top chuck 27, the first bottom chuck 28, and the first inserting rod 29.

Seventh embodiment, on the basis of the first embodiment, as shown in fig. 2, a fourth rotating shaft 30 is movably installed at the bottom of the inner cavity of the flattening box 5 at equal intervals, a fourth roller 31 is fixedly installed on the surface of the fourth rotating shaft 30, and the fourth rotating shaft 30 and the fourth roller 31 are arranged, so that the moving coil steel can be effectively flattened.

Eighth embodiment, based on the first embodiment, as shown in fig. 4 and 5, the second lateral moving mechanism 7 includes a fourth motor 32, a second threaded shaft 33, a moving plate 34 and two moving grooves 35, the fourth motor 32 is fixedly installed in the middle of one end of the top of the fixed support plate 6, the second threaded shaft 33 is fixedly connected to the output end of the fourth motor 32, one end of the second threaded shaft 33 is movably connected to the middle of the other end of the top of the fixed support plate 6, the moving plate 34 is screwed on the surface of the second threaded shaft 33, the two moving grooves 35 are opened at the same end of two sides of the top of the fixed support plate 6, and the fourth motor 32, the second threaded shaft 33, the moving plate 34 and the two moving grooves 35 are arranged to effectively drive the fixed slider mechanism 8 to move left and right.

Ninth embodiment, on the basis of the first embodiment, as shown in fig. 4 and 5, each of the two fixed slider mechanisms 8 comprises a fifth motor 36, a third threaded shaft 37, a second bottom catch plate 38, a vertical rod 39, a second top catch plate 40 and a second insert rod 41, the two fifth motors 36 are respectively and fixedly installed at two ends of the top of the moving plate 34, the two third threaded shafts 37 are respectively and movably installed at two ends of the bottom of the moving plate 34, one end of each of the two third threaded shafts 37 is respectively and fixedly connected with the output ends of the two fifth motors 36, the two second bottom catch plates 38 are respectively and threadedly connected to one side of the two third threaded shafts 37, the two vertical rods 39 are respectively and fixedly connected to two ends of the bottom of the moving plate 34, the two vertical rods 39 extend to the lower side of the fixed support plate 6 through the two moving grooves 35 and are respectively and fixedly connected with the second top catch plates 40, the second insert rod 41 is movably inserted between one ends of the second bottom catch plates 38 and the second top catch plates 40, through the setting of fifth motor 36, third threaded shaft 37, second bottom cardboard 38, montant 39, second top cardboard 40 and second inserted bar 41, make it can be effectual to the head portion of coil of strip steel fixed chucking.

In the tenth embodiment, based on the first embodiment, as shown in fig. 1 and 6, the steel coil placement box 9 includes a box 42, an arc-shaped groove 43, a main groove 44, a fifth rotating shaft 45, a fifth rolling roller 46, a sixth motor 47, an auxiliary groove 48, a sixth rotating shaft 49, and a sixth rolling roller 26, the box 42 is installed below one end of the transmission rack 11, the arc-shaped groove 43 is opened at the top of the box 42, the main groove 44 is opened at the bottom of the arc-shaped groove 43, the fifth rotating shaft 45 is movably installed inside the main groove 44, the fifth rolling roller 46 is fixedly installed on the surface of the fifth rotating shaft 45, the sixth motor 47 is fixedly installed at the lower portion of one side of the box 42, the output end of the sixth motor 47 is fixedly connected with one end of the fifth rotating shaft 45, the auxiliary grooves 48 are opened at two sides of the inside of the arc-shaped groove 43 at equal intervals, the sixth rotating shaft 49 is fixedly installed inside the auxiliary groove 48, the sixth rolling roller 26 is installed on the surface of the sixth rotating shaft 49, the steel coil body 10 is placed in the arc-shaped groove 43, and through the arrangement of the box body 42, the arc-shaped groove 43, the main groove 44, the fifth rotating shaft 45, the fifth rolling roller 46, the sixth motor 47, the auxiliary groove 48, the sixth rotating shaft 49 and the sixth rolling roller 26, the steel coil body 10 can be effectively driven to rotate and coil steel.

In this embodiment: the first motor 19, the second motor 22, the third motor 24, the fourth motor 32, the fifth motor 36 and the sixth motor 47 are all three-phase positive and negative rotation motors of 6M200GU-C type.

The working principle is as follows: the steel coil body 10 is put into the arc-shaped groove 43, and the end part of the steel coil body is upward; by starting the fourth motor 32, the moving plate 34 drives the second bottom clamping plate 38 and the second top clamping plate 40 to move towards the steel coil body 10, the second bottom clamping plate 38 tilts the end part of the steel coil body 10 in the moving process, then the fifth motor 36 is started, the second bottom clamping plate 38 moves towards the second top clamping plate 40 on the surface of the third threaded shaft 37, the second bottom clamping plate 38 and the second top clamping plate 40 clamp and fix the end part of the steel coil body 10, and then the fourth motor 32 is started, so that the second bottom clamping plate 38 and the second top clamping plate 40 move the end part of the steel coil body 10 into the flattening box 5 and the transmission slot frame 11; after the end of the steel coil body 10 enters the interior of the flattening box 5 and the transmission slot frame 11, by simultaneously starting the sixth motor 47 and the first motor 19, the rotation of the sixth motor 47 can drive the steel coil body 10 to rotate and unreel through the fifth rotating shaft 45 and the fifth roller 46, so that the unreeled steel coil body 10 is forced to enter the interior of the flattening box 5 and the transmission slot frame 11, and the start of the first motor 19 can drive the first rotating shaft 12 and the first roller 13, and the third rotating shaft 14 and the third roller 15 to rotate through the main shaft 16 and the transmission chain 18, so that the steel coil body 10 entering the interior of the flattening box 5 and the transmission slot frame 11 is continuously transmitted, and the moving steel coil body 10 is flattened and shaped through the third roller 15 and the fourth roller 31; when the steel coil body 10 is unreeled to the end, through starting the third motor 24, make first top cardboard 27 and first bottom cardboard 28 carry out the chucking to the coil steel who flattens fixed, then start second motor 22, make the movable block 23 drive first top cardboard 27 and first bottom cardboard 28 and pull the coil steel who flattens, make it draw in the inside of flattening case 5 and transmission truss 11 with the coil steel who does not flatten and flatten.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a building engineering stainless steel coil of strip processing unreels shaping device, includes transport mechanism (1), its characterized in that: pulling notch (2) have been seted up to one side at transmission device (1) top, first lateral shifting mechanism (3) have all been installed to the both sides of pulling notch (2) and the both sides that are located transmission device (1), pulling mechanism (4) are all installed to the one end of two first lateral shifting mechanism (3), the one end fixed mounting at transmission device (1) top has flattening case (5), the top fixed mounting who flattens case (5) has fixed support plate (6), the mid-mounting at fixed support plate (6) top has second lateral shifting mechanism (7), fixed pull head mechanism (8) are all installed at the both ends at second lateral shifting mechanism (7) middle part, the one end of transmission device (1) is installed the coil of strip and is placed case (9), the inside that the coil of strip placed case (9) is equipped with coil of strip body (10).

2. The unwinding shaping device for the stainless steel coil processing in the building engineering according to claim 1, characterized in that: the conveying mechanism (1) comprises a conveying trough frame (11), a first rotating shaft (12) and first rolling rollers (13), wherein the first rotating shaft (12) is movably arranged on two sides of the top of the conveying trough frame (11) at equal intervals, and the first rolling rollers (13) are fixedly arranged on the surface of the first rotating shaft (12).

3. The unwinding shaping device for the stainless steel coil processing in the building engineering according to claim 1, characterized in that: the top at transmission cell frame (11) is seted up in pulling notch (2), and the inboard of pulling notch (2) and the equidistance movable mounting that is located one side at transmission cell frame (11) top middle part have third pivot (14), and the fixed surface of third pivot (14) installs third and rolls roller (15).

4. The unwinding shaping device for the stainless steel coil processing in the building engineering according to claim 2, characterized in that: the equal fixed mounting in both sides of transmission cell frame (11) one end has fixed block (1101), movable mounting has second pivot (1102) between two fixed blocks (1101), the fixed surface of second pivot (1102) installs second and rolls roller (1103), the one end movable mounting at transmission cell frame (11) top has main shaft (16), the fixed surface of main shaft (16) installs main roller (17) that rolls, the transmission is connected with driving chain (18) between the one end of main shaft (16) and the one end of first pivot (12) and third pivot (14), the one end fixed mounting of transmission cell frame (11) side has first motor (19), the other end of main shaft (16) is connected with the output stationary phase of first motor (19).

5. The unwinding shaping device for the stainless steel coil processing in the building engineering according to claim 1, characterized in that: two first traverse mechanisms (3) all include frid (20), first screw thread axle (21), second motor (22) and movable block (23), two frids (20) are the both sides of fixed mounting transmission groove frame (11) respectively, first screw thread axle (21) movable mounting is in the inside of frid (20), second motor (22) fixed mounting is in the one end of frid (20), the one end of first screw thread axle (21) is connected with the output stationary phase of second motor (22), movable block (23) threaded connection is on the surface of first screw thread axle (21).

6. The unwinding shaping device for the stainless steel coil processing in the building engineering according to claim 1, characterized in that: two pulling mechanism (4) all include third motor (24), two-way screw shaft (25), first top cardboard (27), first bottom cardboard (28) and first inserted bar (29), and bottom and top at movable block (23) one end are installed respectively to third motor (24) and two-way screw shaft (25), and the output stationary phase of one end and third motor (24) of two-way screw shaft (25) is connected, and threaded connection is in the both sides of two-way screw shaft (25) respectively in first top cardboard (27) and first bottom cardboard (28), and first inserted bar (29) activity is pegged graft between the one end of first top cardboard (27) and first bottom cardboard (28).

7. The unwinding shaping device for the stainless steel coil processing in the building engineering according to claim 1, characterized in that: the bottom of the inner cavity of the flattening box (5) is movably provided with a fourth rotating shaft (30) at equal intervals, and the surface of the fourth rotating shaft (30) is fixedly provided with a fourth rolling roller (31).

8. The unwinding shaping device for the stainless steel coil processing in the building engineering according to claim 1, characterized in that: second lateral shifting mechanism (7) includes fourth motor (32), second threaded shaft (33), movable plate (34) and two shifting chutes (35), fourth motor (32) fixed mounting is in the middle part of fixed bolster (6) top one end, second threaded shaft (33) fixed connection is at the output of fourth motor (32), and the one end of second threaded shaft (33) is connected with the middle part activity of the fixed bolster (6) top other end, movable plate (34) threaded connection is on the surface of second threaded shaft (33), two shifting chutes (35) are seted up at the same end of fixed bolster (6) top both sides.

9. The unwinding shaping device for the stainless steel coil processing in the building engineering according to claim 1, characterized in that: the two fixed pull head mechanisms (8) respectively comprise fifth motors (36), third threaded shafts (37), second bottom clamping plates (38), vertical rods (39), second top clamping plates (40) and second insert rods (41), the two fifth motors (36) are respectively and fixedly arranged at two ends of the top of the movable plate (34), the two third threaded shafts (37) are respectively and movably arranged at two ends of the bottom of the movable plate (34), one ends of the two third threaded shafts (37) are respectively and fixedly connected with output ends of the two fifth motors (36), the two second bottom clamping plates (38) are respectively and fixedly connected with one sides of the two third threaded shafts (37) in a threaded manner, the two vertical rods (39) are respectively and fixedly connected with two ends of the bottom of the movable plate (34), the two vertical rods (39) extend to the lower part of the fixed supporting plate (6) through the two moving grooves (35) and are respectively and fixedly connected with the second top clamping plates (40), the second inserting rod (41) is movably inserted between one end of the second bottom clamping plate (38) and one end of the second top clamping plate (40).

10. The unwinding shaping device for the stainless steel coil processing in the building engineering according to claim 1, characterized in that: the steel coil placing box (9) comprises a box body (42), an arc-shaped groove (43), a main groove (44), a fifth rotating shaft (45), a fifth rolling roller (46), a sixth motor (47), an auxiliary groove (48), a sixth rotating shaft (49) and a sixth rolling roller (26), wherein the box body (42) is installed below one end of a transmission groove frame (11), the arc-shaped groove (43) is formed in the top of the box body (42), the main groove (44) is formed in the bottom of the arc-shaped groove (43), the fifth rotating shaft (45) is movably installed in the main groove (44), the fifth rolling roller (46) is fixedly installed on the surface of the fifth rotating shaft (45), the sixth motor (47) is fixedly installed on the lower portion of one side of the box body (42), the output end of the sixth motor (47) is fixedly connected with one end of the fifth rotating shaft (45), the auxiliary grooves (48) are equidistantly formed in two sides of the inner portion of the arc-shaped groove (43), the sixth rotating shaft (49) is fixedly arranged in the auxiliary groove (48), the sixth rolling roller (26) is arranged on the surface of the sixth rotating shaft (49), and the steel coil body (10) is arranged in the arc-shaped groove (43).

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