CN117585505A - Flexible material self-centering rolling deviation correcting device - Google Patents

Abstract

The invention belongs to the technical field of material conveying, and particularly discloses a self-centering rolling deviation rectifying device for a flexible material, which comprises supporting legs, wherein side transverse plates are symmetrically arranged on a bottom plate, connecting plates are arranged on the side transverse plates and fixedly connected with a driving motor, and the driving motor is connected with a winding rolling control unit; the winding and rolling control unit comprises a driving transverse block arranged on the output end of the driving motor, and the driving transverse block is connected with a driving transverse groove arranged on the driving rotating shaft; a winding rotary drum is arranged on the driving rotary shaft and connected with the adaptive clamping mechanism; the driving rotating shaft is provided with a driving bevel gear which is connected with the multi-touch moving assembly. According to the invention, through the multi-touch moving assembly, when the position of the flexible material is deviated, the moving position and state of the flexible material can be corrected in real time, so that the flexible material can be rolled at the right center of the roller, the deviation of the material during rolling can be prevented, and the prevention effect is realized.

Description

Flexible material self-centering rolling deviation correcting device

Technical Field

The invention belongs to the technical field of material conveying, and particularly relates to a self-centering rolling deviation correcting device for a flexible material.

Background

The non-woven fabrics in the flexible material are important production materials in the production process of the paper diaper, the non-woven fabrics are uniformly placed in one corner in the production process, and the non-woven fabrics are wound by the winding device, so that the volume of the non-woven fabrics is reduced, the non-woven fabrics cannot occupy space, and the use is convenient.

When the device is used for winding the flexible material, the flexible coiled material can deviate in the process of winding due to the fact that the material has certain elasticity and vibration can be generated in the process of winding, but when the conventional flexible material winding deviation correcting device is used, the offset material can be corrected, but the offset of the material in the process of winding cannot be prevented, and if the offset can be prevented in the process of winding, the unevenness of the flexible material in the process of winding can be avoided.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the self-centering rolling deviation rectifying device for the flexible material, which effectively solves the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the self-centering rolling deviation correcting device for the flexible material comprises supporting legs, wherein a plurality of supporting legs are connected with a bottom plate together, side transverse plates are symmetrically arranged on the bottom plate, connecting plates are arranged on the side transverse plates and fixedly connected with a driving motor, and the driving motor is connected with a winding rolling control unit;

the winding roll control unit comprises a driving transverse block arranged on the output end of the driving motor, and the driving transverse block is connected with a driving transverse groove arranged on the driving rotating shaft; a winding rotary drum is arranged on the driving rotary shaft and connected with the adaptive clamping mechanism; the driving rotating shaft is provided with a driving bevel gear which is connected with the multi-touch moving assembly.

Preferably, the double-touch moving assembly comprises a double-acting bevel gear which is meshed with and connected with a driving bevel gear, a double-acting rotating shaft is arranged on the double-acting bevel gear, the double-acting rotating shaft penetrates through a double-acting base arranged on a bottom plate and is connected with a double-acting pulley, the double-acting pulley is connected with the driving pulley through a transmission belt, a linkage rotating shaft is arranged on the driving pulley, one end of the linkage rotating shaft is in transmission connection with the bottom plate, the other end of the linkage rotating shaft is connected with a linkage cam, the linkage cam is in matched connection with a linkage transverse plate, linkage rods are symmetrically arranged on the linkage transverse plate, and the linkage rods penetrate through a linkage base arranged on the bottom plate and are connected with a linkage circular plate; the linkage rod is sleeved with a linkage spring, one end of the linkage spring is fixedly connected with the linkage transverse plate, and the other end of the linkage spring is fixedly connected with the linkage base.

Preferably, the two linked circular plates are connected with a linked rack together, the linked rack is meshed with a linked gear, a touch rotating shaft is arranged on the linked gear, and the touch rotating shaft penetrates through the touch gear to be in transmission connection with the bottom plate; the touch gear is meshed with two touch racks, touch plates are symmetrically arranged on the touch racks, the two touch plates are connected with a touch rod together, and the touch rod is arranged in a sliding connection with a touch base arranged on the bottom plate; the touch rod is sleeved with a touch spring, one end of the touch spring is fixedly connected with the touch base, the other end of the touch spring is fixedly connected with the touch plate, the touch plate is jointly connected with the touch rack to prolong the guide rod, a fixing seat is arranged on one prolonged guide rod, and the fixing seat is connected with the leveling unit.

Preferably, the winding rotary drum is connected with a plurality of driving rollers in a matched manner, the driving rollers are connected with an auxiliary rotating shaft, and two ends of the auxiliary rotating shaft are connected with auxiliary bases arranged on the bottom plate; and two ends of the driving roller are provided with blocking circular plates which are connected with the distance-adjusting leveling mechanism.

Preferably, the leveling unit comprises a rope arranged on the fixed seat, the rope is connected with the paying-off wheel through a fixed movable pulley arranged on the bottom plate, a movable thread shaft is arranged on the paying-off wheel, and the movable thread shaft is connected with a movable base arranged on the bottom plate; the movable thread shaft is symmetrically provided with movable transverse blocks, positioning blocks are symmetrically arranged on the movable transverse blocks, and the positioning blocks are in sliding connection with positioning rods arranged on the movable base; the translational square plates are symmetrically provided with translational rods, and the two translational rods are jointly connected with the different plates; the translation rod is sleeved with a translation spring, one end of the translation spring is fixedly connected with the contact-connection different plate, the other end of the translation spring is fixedly connected with the translation square plate, and one translation square plate is provided with a moving rack which is connected with the sweeping component.

Preferably, the linkage square plate is arranged on the extension guide rod, extension round rods are symmetrically arranged on the linkage square plate, one ends of the extension round rods are connected with the extension round plates, the other ends of the extension round rods are fixedly connected with the movable square plate, and the movable square plate is provided with an elastic cushion; the extension round bar is sleeved with an extension spring, one end of the extension spring is fixedly connected with the linkage square plate, and the other end of the extension spring is fixedly connected with the movable square plate.

Preferably, the adaptive clamping mechanism comprises an attaching round wheel which is matched and connected with the winding rotary drum, an attaching rotary rod is arranged on the attaching round wheel, the attaching rotary rod is connected with a hinged differential plate, a plurality of hinged differential plates are provided with hinged rotating shafts, two ends of each hinged rotating shaft penetrate through hinged bases arranged on the lateral transverse plates and are connected with limiting differential blocks, the limiting differential blocks are in sliding connection with the limiting differential rods, two ends of each limiting differential rod are fixedly connected with limiting bases arranged on the hinged bases, limiting springs are sleeved on the limiting differential rods, one ends of each limiting spring are fixedly connected with the hinged bases, and the other ends of the limiting springs are fixedly connected with the limiting differential blocks; the hinge-type rolling machine comprises a hinge-type different plate, a rolling drum, a control link rod, a rolling drum, a rolling guide plate and a rolling guide plate, wherein the hinge-type different plate is provided with a plurality of matched round wheels which are matched and connected with the inclined square blocks; the other end is connected with the touch limiting alarm unit.

Preferably, the distance adjusting leveling mechanism comprises a blocking rod arranged on a blocking circular plate, the blocking rod penetrates through a blocking base arranged on the auxiliary base to be connected with the directional circular plate, a directional spring is sleeved on the blocking rod, one end of the directional spring is connected with the directional circular plate, and the other end of the directional spring is connected with the blocking base; the locking device is characterized in that a plurality of locking grooves are formed in the blocking rod and are connected with the locking rods, the two locking rods are connected with the locking transverse plates jointly, guide blocks are symmetrically arranged on the locking transverse plates and are connected with the guide rods in a sliding mode, two ends of the guide rods are connected with guide bases arranged on auxiliary bases, guide springs are sleeved on the guide rods, one ends of the guide springs are connected with the guide bases, and the other ends of the guide springs are connected with the guide blocks.

Preferably, the purging component comprises a linking gear which is meshed with the linking rack and is connected with the linking rack, a braking rotating shaft is arranged on the linking gear, one end of the braking rotating shaft is in transmission connection with a braking base arranged on the bottom plate, the other end of the braking rotating shaft is connected with a braking bevel gear, the braking bevel gear is meshed with a driven bevel gear, the driven bevel gear is provided with a driven rotating shaft, the driven rotating shaft penetrates through a driven base arranged on the bottom plate and is connected with a driven pulley, the driven pulley is connected with a driving pulley through a linkage belt, the driving pulley is provided with a driving rotating shaft, and the driving rotating shaft penetrates through a driving base arranged on the driven base and is connected with a plurality of fan blades.

Preferably, the touch limiting alarm unit comprises a guide square rod arranged on the control link rod, the guide square rod is arranged in sliding connection with guide sleeves, and the two guide sleeves are connected with the bottom plate through a linkage frame; the inner bottom surface of the guide sleeve is connected with the guide square rod through a guide spring; the control link rod is provided with an L-shaped rod, the L-shaped rod is connected with an L-shaped barrel arranged on the guide sleeve in a matched mode, the L-shaped barrel and the L-shaped rod are provided with contact pieces, and the contact of the two contact pieces is connected with a driving motor in a matched mode through a control box arranged on the bottom plate.

Compared with the prior art, the invention has the beneficial effects that:

1) The invention can monitor the moving position state of the flexible material, and when the position of the flexible material is deviated, the moving position and state of the flexible material can be corrected in real time, so that the flexible material can be rolled at the right center of the roller, thereby preventing the deviation of the material during rolling, achieving the prevention effect, ensuring that the flexible material can be complete during rolling, and improving the quality of the rolled finished product;

2) When the rolling rotary drum is used for rolling materials, when the rolling circular diameter is gradually increased, the rolling circular diameter is matched with the laminating rotary drum through the laminating circular wheels and the laminating rotary rod, so that the hinging rotary shaft on the hinging different plate is in limit rotation on the hinging base, then the limiting different block on the hinging rotary shaft is in limit rotation in the limiting different rod, the limiting spring is in a buffering state, the two coordination circular wheels are made to move in opposite directions, so that the two coordination circular wheels are contacted with the two inclined planes of the inclined square, the auxiliary circular wheels on the control link rod are gradually far away from the rolling rotary drum, and the rolling material can be rolled by taking the rolling rotary drum as the circle center through the cooperation of the plurality of laminating circular wheels and the auxiliary circular wheels;

3) According to the invention, the two driving rollers and the winding drum are arranged in a staggered manner, so that the flexible material is V-shaped when being wound, the flexible material is stretched to the greatest extent, the deflection of the elastic coiled material during winding is avoided, meanwhile, the incompletion during winding is avoided, and the winding efficiency is improved;

4) According to the invention, the positions of the blocking circular plates in the driving roller can be timely adjusted according to different sizes of rolling materials, and the distance between each locking groove is the same, when the blocking circular plates move to the required positions, an operator can reset and move the two locking rods by loosening the locking transverse plates, so that the two locking rods are driven to reset by the reset of the guide springs and enter the locking grooves, and the blocking rods are limited at the current positions and cannot reset, so that the two blocking circular plates are limited at the current positions according to different sizes of the materials, and the deviation of the materials during rolling of the device can be avoided to a certain extent, and the materials can be leveled during rolling.

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 the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the winding drum of the present invention;

FIG. 3 is a schematic view of a movable panel structure according to the present invention;

FIG. 4 is a schematic view of a cam linkage structure according to the present invention;

FIG. 5 is a schematic view of a blocking circular plate structure according to the present invention;

FIG. 6 is a schematic view of a stop lever according to the present invention;

FIG. 7 is a schematic view of a touch-linked panel structure according to the present invention;

FIG. 8 is a schematic view of a touch lever according to the present invention;

FIG. 9 is a schematic view of a guide sleeve according to the present invention;

FIG. 10 is a schematic view of a fan blade according to the present invention;

in the figure: 1. support legs; 2. a bottom plate; 3. a side cross plate; 4. a connecting plate; 5. a driving motor; 6. driving the transverse block; 7. driving the rotating shaft; 8. driving the transverse groove; 9. a winding rotary drum; 10. driving a bevel gear; 11. double-acting bevel gears; 12. a double-acting rotating shaft; 13. a double-acting base; 14. a double-acting pulley; 15. a transmission belt; 16. a drive pulley; 17. a linkage rotating shaft; 18. a linked cam; 19. a linkage cross plate; 20. a linkage rod; 21. a linkage base; 22. a linkage circular plate; 23. a linkage spring; 24. a linkage rack; 25. a linkage gear; 26. touching the rotating shaft; 27. touching the gear; 28. touching the rack; 29. a touch plate; 30. a touch lever; 31. touching the base; 32. a touch spring; 33. extending the guide rod; 34. a fixing seat; 35. a driving roller; 36. an auxiliary rotating shaft; 37. an auxiliary base; 38. a blocking circular plate; 39. a rope; 40. a fixed pulley; 41. a paying-off wheel; 42. a moving screw shaft; 43. a moving base; 44. a transverse moving block; 45. a positioning block; 46. a positioning rod; 47. translational square boards; 48. a translation rod; 49. a contact connection different plate; 50. a translation spring; 51. a rack is engaged; 52. a linkage square plate; 53. extending the round rod; 54. attaching a square plate; 55. an elastic cushion; 56. a tension spring; 57. attaching a round wheel; 58. attaching a rotating rod; 59. hinging the different plate; 60. hinging the rotating shaft; 61. hinging the base; 62. limiting different blocks; 63. a limiting special rod; 64. a limit base; 65. a limit spring; 66. a circular wheel is matched; 67. oblique square blocks; 68. a control link; 69. auxiliary round wheels; 70. a blocking lever; 71. a blocking base; 72. a directional circular plate; 73. a directional spring; 74. a capture slot; 75. a capture lever; 76. a locking transverse plate; 77. a guide block; 78. a guide rod; 79. a guide base; 80. a guide spring; 81. a connecting gear; 82. braking the rotating shaft; 83. a brake base; 84. braking a bevel gear; 85. a driven bevel gear; 86. a driven rotating shaft; 87. a driven base; 88. a driven pulley; 89. a linkage belt; 90. a driving pulley; 91. a driving rotating shaft; 92. an active base; 93. a fan blade; 94. a guide square rod; 95. a guide sleeve; 96. a guide spring; 97. an L-shaped rod; 98. an L-shaped barrel; 99. a contact; 100. and a control box.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 10, the self-centering winding deviation rectifying device for flexible materials comprises supporting legs 1, wherein a plurality of supporting legs 1 are connected with a bottom plate 2 together, side transverse plates 3 are symmetrically arranged on the bottom plate 2, connecting plates 4 are arranged on the side transverse plates 3, the connecting plates 4 are fixedly connected with a driving motor 5, and the driving motor 5 is connected with a winding control unit.

The winding and rolling control unit comprises a driving transverse block 6 arranged at the output end of a driving motor 5, the driving transverse block 6 is connected with a driving transverse groove 8 arranged on a driving rotating shaft 7, a winding rotating drum 9 is arranged on the driving rotating shaft 7, the winding rotating drum 9 is connected with a suitable moving clamping mechanism, a driving bevel gear 10 is arranged on the driving rotating shaft 7, the driving bevel gear 10 is connected with a re-touch moving assembly, the winding rotating drum 9 is connected with a plurality of driving rollers 35 in a matched manner, the driving rollers 35 are connected with an auxiliary rotating shaft 36, and two ends of the auxiliary rotating shaft 36 are connected with auxiliary bases 37 arranged on a bottom plate 2; the two ends of the driving roller 35 are provided with a blocking circular plate 38, and the blocking circular plate 38 is connected with the distance-adjusting leveling mechanism.

The operator winds the front part of the flexible material onto the winding drum 9 through the two driving rollers 35 in sequence, then starts the driving motor 5, and drives the driving transverse block 6 on the output end of the driving motor to drive the driving rotating shaft 7 to rotate, so that the winding drum 9 rotates and winds the flexible material, and winding operation is performed on the flexible material.

It should be noted that, the two driving rollers 35 and the winding drum 9 are arranged in a staggered manner, that is, the heights of the two driving rollers and the winding drum 9 in the vertical height direction are different, so that the flexible material is in a V shape when being wound, the flexible material is stretched to the greatest extent, the deflection of the elastic coiled material during winding is avoided, meanwhile, the incompleteness during winding is avoided, and the winding efficiency is improved.

In some embodiments, the multi-touch moving assembly comprises a multi-motion bevel gear 11 which is in meshed connection with a drive bevel gear 10, wherein a multi-motion rotating shaft 12 is installed on the multi-motion bevel gear 11, the multi-motion rotating shaft 12 passes through a multi-motion base 13 arranged on a bottom plate 2 and is connected with a multi-motion pulley 14, the multi-motion pulley 14 is connected with a drive pulley 16 through a driving belt 15, a linkage rotating shaft 17 is installed on the drive pulley 16, one end of the linkage rotating shaft 17 is in driving connection with the bottom plate 2, the other end of the linkage rotating shaft is connected with a linkage cam 18, the linkage cam 18 is in matched connection with a linkage transverse plate 19, linkage rods 20 are symmetrically installed on the linkage transverse plate 19, and the linkage rods 20 pass through a linkage base 21 arranged on the bottom plate 2 and are connected with a linkage circular plate 22; the linkage rod 20 is sleeved with a linkage spring 23, one end of the linkage spring 23 is fixedly connected with the linkage transverse plate 19, and the other end of the linkage spring is fixedly connected with the linkage base 21.

Simultaneously, the two linkage circular plates 22 are connected with a linkage rack 24 together, the linkage rack 24 is meshed with a linkage gear 25, a touch rotating shaft 26 is arranged on the linkage gear 25, and the touch rotating shaft 26 passes through the touch gear 27 to be in transmission connection with the bottom plate 2; the touch gear 27 is engaged with two touch racks 28, touch plates 29 are symmetrically arranged on the touch racks 28, the two touch plates 29 are jointly connected with a touch rod 30, and the touch rod 30 is in sliding connection with a touch base 31 arranged on the bottom plate 2; the touch bar 30 is sleeved with a touch spring 32, one end of the touch spring 32 is fixedly connected with the touch base 31, the other end of the touch spring 32 is fixedly connected with the touch plate 29, the touch plate 29 and the touch rack 28 are jointly connected with an extension guide rod 33, one extension guide rod 33 is provided with a fixing seat 34, and the fixing seat 34 is connected with the leveling unit; the linkage square plate 52 is arranged on the extension guide rod 33, extension round rods 53 are symmetrically arranged on the linkage square plate 52, one ends of the extension round rods 53 are connected with the extension round plates, the other ends of the extension round rods 53 are fixedly connected with the movable square plate 54, and an elastic cushion 55 is arranged on the movable square plate 54; an extension spring 56 is sleeved on the extension round rod 53, one end of the extension spring 56 is fixedly connected with the linkage square plate 52, and the other end of the extension spring 56 is fixedly connected with the movable square plate 54.

It can be understood that, through the arrangement, the invention can drive the driving bevel gear 10 to rotate while driving the rotating shaft 7 to rotate, so that the driving bevel gear 11 is meshed with the driving bevel gear to rotate, the driving pulley 16 is driven to rotate by the driving belt 15 through the driving pulley 14 on the driving rotating shaft 12, so that the linkage cam 18 on the linkage rotating shaft 17 rotates, and is in reciprocating contact with the linkage transverse plate 19, so that the linkage transverse plate is limited to reciprocate in the linkage base 21 through the linkage rod 20, and the linkage spring 23 is in a buffer and reset state continuously, so that the linkage rack 24 reciprocates and meshes with the linkage gear 25 to reciprocate;

when the meshing linkage gear 25 reciprocates, the triggering gear 27 can be driven to rotate by the triggering rotating shaft 26, so that the triggering gear 27 reciprocally engages the two triggering racks 28 to move, the triggering racks 28 are limited to move in the triggering base 31 by the triggering rod 30, the triggering springs 32 are in a buffering and resetting state, so that the triggering racks 28 are in a state of opposite and opposite movement, the movable square plates 54 on the two linkage square plates 52 are enabled to move opposite or opposite by the extending guide rods 33, and the elastic cushions 55 on the movable square plates 54 are contacted with two side surfaces of the flexible material, so that damage to the side surfaces can be avoided.

When the driving motor 5 carries out winding operation on the flexible material through the winding drum 9, the two movable square plates 54 are driven to move in opposite directions or relatively, and when the flexible material is driven by the driving roller 35, the moving position state of the flexible material can be monitored through the operation, namely, if one side of the flexible material is contacted with the movable square plate 54 on one side, and the other side is not contacted with the movable square plate 54 on the other side, the movement of the flexible material is indicated.

Before winding the flexible material, the shortest distance between the two movable plates 54 in the opposite moving state may be adjusted based on the width of the flexible material, that is, when the flexible material does not deviate, the flexible material should just pass through the movable plate 54 in the closest state between the two movable plates in the opposite moving state, and if one side of the flexible material contacts with the movable plate 54 or wrinkles, the flexible material deviates during conveying.

In some embodiments, the leveling unit of the present invention includes a rope 39 disposed on the fixed seat 34, where the rope 39 is connected to a paying-off wheel 41 through a fixed pulley 40 disposed on the base plate 2, and the paying-off wheel 41 is mounted with a moving thread shaft 42, and the moving thread shaft 42 is connected to a moving base 43 disposed on the base plate 2; a movable transverse block 44 is symmetrically arranged on the movable threaded shaft 42, positioning blocks 45 are symmetrically arranged on the movable transverse block 44, and the positioning blocks 45 are in sliding connection with positioning rods 46 arranged on the movable base 43; a translation square plate 47 is arranged on the movable transverse block 44, translation rods 48 are symmetrically arranged on the translation square plate 47, and the two translation rods 48 are jointly connected with a different plate 49; the translation rod 48 is sleeved with a translation spring 50, one end of the translation spring 50 is fixedly connected with the contact-connection different plate 49, the other end of the translation spring is fixedly connected with the translation square plate 47, one translation square plate 47 is provided with a locking rack 51, and the locking rack 51 is connected with the purging component.

It will be appreciated that when the extension guide 33 moves forward to drive the fixing seat 34 to move, the extension guide 33 drives the paying-off wheel 41 to rotate through the rope 39 and the fixed pulley 40, so that the movable threaded shaft 42 rotates, threads at two ends of the movable threaded shaft 42 are opposite, so that the two movable transverse blocks 44 move in opposite directions in the positioning rod 46, meanwhile, a spring (not shown in the figure) is mounted on the movable threaded shaft 42, when the extension guide 33 moves in a resetting manner, the spring which is originally in a buffering state is gradually reset, so that the movable threaded shaft 42 rotates in a resetting manner, the two movable transverse blocks 44 move in a resetting manner, the movable contact different plates 49 on the movable contact square plates 47 are continuously in opposite and opposite moving states under the influence of the double contact moving assembly, so that wrinkles on the material are flattened, the flexible material is smoother during winding, and impurities, sundries and the like adhered on the material can be cleaned, and uneven after the winding can be avoided.

In other embodiments, the adaptive clamping mechanism of the invention comprises an adaptive round wheel 57 which is matched and connected with a winding drum 9, an adaptive rotating rod 58 is arranged on the adaptive round wheel 57, the adaptive rotating rod 58 is connected with a hinged differential plate 59, a plurality of hinged differential plates 59 are provided with hinged rotating shafts 60, two ends of the two hinged rotating shafts 60 penetrate through hinged bases 61 arranged on side transverse plates 3 and are connected with limiting differential blocks 62, the limiting differential blocks 62 are connected with limiting differential rods 63 in a sliding manner, two ends of the limiting differential rods 63 are fixedly connected with limiting bases 64 arranged on the hinged bases 61, limiting springs 65 are sleeved on the limiting differential rods 63, one ends of the limiting springs 65 are fixedly connected with the hinged bases 61, and the other ends of the limiting springs 65 are fixedly connected with the limiting differential blocks 62; the hinge-moving different plate 59 is provided with a matched round wheel 66, a plurality of matched round wheels 66 are connected with the inclined square blocks 67 in a matched mode, the two inclined square blocks 67 are connected with a control link 68 together, one end of the control link 68 is provided with an auxiliary round wheel 69, the auxiliary round wheel 69 is connected with the winding drum 9 in a matched mode, and the other end of the auxiliary round wheel 69 is connected with the touch limiting alarm unit.

It will be appreciated that when the winding drum 9 winds the material, the circular diameter of the winding becomes gradually larger, so that the winding drum is matched with the laminating round wheel 57 and the laminating rotary rod 58, the hinged rotating shaft 60 on the hinged different plate 59 is limited to rotate on the hinged base 61, then the limited different block 62 on the hinged rotating shaft 60 is limited to rotate in the limited different rod 63, the limiting spring 65 is in a buffer state, so that the two matched round wheels 66 move oppositely, and the two matched round wheels 66 are contacted with two inclined surfaces of the inclined square block 67, so that the auxiliary round wheels 69 on the control link 68 are gradually far away from the winding drum 9, and the winding drum 9 is matched with the auxiliary round wheels 69 through the plurality of laminating round wheels 57, so that the wound material can be wound by taking the winding drum 9 as the circle center.

In other embodiments, the distance adjusting and leveling mechanism of the invention comprises a blocking rod 70 arranged on a blocking circular plate 38, wherein the blocking rod 70 is connected with a directional circular plate 72 by passing through a blocking base 71 arranged on an auxiliary base 37, a directional spring 73 is sleeved on the blocking rod 70, one end of the directional spring 73 is connected with the directional circular plate 72, and the other end of the directional spring 73 is connected with the blocking base 71; the blocking rod 70 is provided with a plurality of locking grooves 74, the locking grooves 74 are connected with the locking rods 75, the two locking rods 75 are connected with the locking transverse plates 76 together, guide blocks 77 are symmetrically arranged on the locking transverse plates 76, the guide blocks 77 are slidably connected with the guide rods 78, two ends of the guide rods 78 are connected with guide bases 79 arranged on the auxiliary bases 37, guide springs 80 are sleeved on the guide rods 78, one ends of the guide springs 80 are connected with the guide bases 79, and the other ends of the guide springs are connected with the guide blocks 77.

Through pulling down the locking diaphragm 76, make it pass through guide block 77 and limit movement in guide bar 78 for guide spring 80 is in the state of buffering, thereby make the locking lever 75 on the locking diaphragm 76 leave locking groove 74, remove the spacing setting to blocking lever 70, make the spacing removal of operating personnel control blocking plectane 38 in driving roller 35, make blocking plectane 38 pass through blocking lever 70 and limit movement in blocking base 71, thereby make the state of directional spring 73 buffering, operating personnel is according to the size difference of rolling material, the position of blocking plectane 38 in driving roller 35 is adjusted in due time.

And the interval of every locking groove 74 is the same, after blocking the plectane 38 and removing to required position, operating personnel is through loosening locking diaphragm 76 for the reset of guide spring 80 drives two locking bars 75 and resets and remove, makes it enter into locking groove 74, thereby with blocking the spacing in current position of pole 70 and can not reset, makes two blocking the plectane 38 according to the size difference of material, and spacing in current position, thereby can avoid the device material to take place the skew when the rolling to a certain extent, makes the material can be leveled when the rolling.

In some embodiments, the purging component comprises an engagement gear 81 in engagement connection with the engagement rack 51, a braking rotating shaft 82 is arranged on the engagement gear 81, one end of the braking rotating shaft 82 is in transmission connection with a braking base 83 arranged on the base plate 2, the other end of the braking rotating shaft 82 is connected with a braking bevel gear 84, the braking bevel gear 84 is in engagement connection with a driven bevel gear 85, a driven rotating shaft 86 is arranged on the driven bevel gear 85, the driven rotating shaft 86 passes through a driven base 87 arranged on the base plate 2 and is connected with a driven pulley 88, the driven pulley 88 is connected with a driving pulley 90 through a linkage belt 89, a driving rotating shaft 91 is arranged on the driving pulley 90, and the driving rotating shaft 91 passes through a driving base 92 arranged on the driven base 87 and is connected with a plurality of fan blades 93.

It should be noted that, when the translation square plate 47 moves, the translation rack 51 is driven to move at the same time, so that the translation square plate engages with the translation gear 81 to rotate reciprocally, so that the braking bevel gear 84 on the braking rotating shaft 82 rotates reciprocally, and then engages with the driven bevel gear 85 to rotate, because the braking bevel gear 84 and the driven bevel gear 85 are different in size, the rotation speed of the driven bevel gear 85 is faster than that of the braking rotating shaft 82, so that the driving rotating shaft 91 drives the driving pulley 90 to rotate fast through the driving rotating shaft 86, the driven pulley 88 and the linkage belt 89, so that the driving rotating shaft 91 drives the fan blades 93 to rotate reciprocally fast, so that the fan blades 93 are in a forward rotating state and a reverse rotating state continuously, generated strong wind can clean dust and the like adhered on flexible materials, the quality problem of a finished product after winding is avoided, meanwhile, the wind can influence the driving motor 5, and the heat dissipation effect is achieved on the driving motor 5.

In other embodiments, the touch limiting alarm unit comprises a guide square rod 94 arranged on the control link 68, the guide square rod 94 is in sliding connection with a guide sleeve 95, and the two guide sleeves 95 are connected with the bottom plate 2 through a linkage frame; the inner bottom surface of the guide sleeve 95 is connected with the guide square rod 94 through a guide spring 96; the control link 68 is provided with an L-shaped rod 97, the L-shaped rod 97 is connected with an L-shaped barrel 98 arranged on the guide sleeve 95 in a matched mode, the L-shaped barrel 98 and the L-shaped rod 97 are provided with contact pieces 99, and the contact of the two contact pieces 99 is connected with the driving motor 5 in a matched mode through a control box 100 arranged on the bottom plate 2.

It can be appreciated that, through the above arrangement, when the two oblique square blocks 67 drive the guide square rod 94 through the control link 68, the guide square rod 94 is limited to move in the guide sleeve 95, so that the guide spring 96 is in a buffer state, and the L rod 97 enters the L barrel 98 to perform a positioning movement function, and meanwhile, the L rod 97 contacts with the contact piece 99 on the L barrel 98, so that a signal is sent to the control box 100, and an interrupt signal is sent to the driving motor 5 by the control box 100, so that the driving motor 5 is not operated any more, and the flexible material wound on the winding drum 9 is wound to a predicted size, so that the diameters of coiled materials on each winding drum 9 are the same, and the precision of the winding drum 9 in winding is improved.

It is noted that relational terms such as first and second, and the like are 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. Moreover, 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 understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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. A flexible material is from centering rolling deviation correcting device which characterized in that: the automatic winding and controlling device comprises supporting legs (1), wherein a plurality of supporting legs (1) are connected with a bottom plate (2) together, side transverse plates (3) are symmetrically arranged on the bottom plate (2), connecting plates (4) are arranged on the side transverse plates (3), the connecting plates (4) are fixedly connected with a driving motor (5), and the driving motor (5) is connected with a winding and controlling unit;

the winding and rolling control unit comprises a driving transverse block (6) arranged at the output end of the driving motor (5), and the driving transverse block (6) is connected with a driving transverse groove (8) arranged on the driving rotating shaft (7); a winding rotary drum (9) is arranged on the driving rotary shaft (7), and the winding rotary drum (9) is connected with the adaptive clamping mechanism; the driving rotating shaft (7) is provided with a driving bevel gear (10), and the driving bevel gear (10) is connected with the multi-touch moving assembly.

2. The flexible material self-centering winding and rectifying device according to claim 1, wherein: the double-contact moving assembly comprises a double-acting bevel gear (11) which is meshed with a driving bevel gear (10), a double-acting rotating shaft (12) is arranged on the double-acting bevel gear (11), the double-acting rotating shaft (12) penetrates through a double-acting base (13) arranged on a bottom plate (2) and is connected with a double-acting pulley (14), the double-acting pulley (14) is connected with a driving pulley (16) through a driving belt (15), a linkage rotating shaft (17) is arranged on the driving pulley (16), one end of the linkage rotating shaft (17) is in transmission connection with the bottom plate (2), the other end of the linkage rotating shaft is connected with a linkage cam (18), the linkage cam (18) is in matched connection with a linkage transverse plate (19), linkage rods (20) are symmetrically arranged on the linkage transverse plate (19), and the linkage rods (20) penetrate through a linkage base (21) arranged on the bottom plate (2) and are connected with a linkage circular plate (22). The linkage rod (20) is sleeved with a linkage spring (23), one end of the linkage spring (23) is fixedly connected with the linkage transverse plate (19), and the other end of the linkage spring is fixedly connected with the linkage base (21).

3. The flexible material self-centering winding and rectifying device according to claim 2, characterized in that: the two linkage circular plates (22) are jointly connected with a linkage rack (24), the linkage rack (24) is meshed with a linkage gear (25), a touch rotating shaft (26) is arranged on the linkage gear (25), and the touch rotating shaft (26) passes through a touch gear (27) to be in transmission connection with the bottom plate (2); the touch gear (27) is connected with two touch racks (28) in a meshed manner, touch plates (29) are symmetrically arranged on the touch racks (28), the two touch plates (29) are connected with a touch rod (30) together, and the touch rod (30) is connected with a touch base (31) arranged on the bottom plate (2) in a sliding manner; the touch rod (30) is sleeved with a touch spring (32), one end of the touch spring (32) is fixedly connected with the touch base (31), the other end of the touch spring is fixedly connected with the touch plate (29), the touch plate (29) is jointly connected with the touch rack (28) to extend the guide rod (33), a fixed seat (34) is mounted on one of the extension guide rods (33), and the fixed seat (34) is connected with the leveling unit.

4. The flexible material self-centering winding and rectifying device according to claim 1, wherein: the winding drum (9) is connected with a plurality of driving rollers (35), the driving rollers (35) are connected with an auxiliary rotating shaft (36), and two ends of the auxiliary rotating shaft (36) are connected with auxiliary bases (37) arranged on the bottom plate (2); and two ends of the driving roller (35) are provided with blocking circular plates (38), and the blocking circular plates (38) are connected with the distance-adjusting leveling mechanism.

5. The flexible material self-centering winding and rectifying device according to claim 3, wherein: the leveling unit comprises a rope (39) arranged on the fixed seat (34), the rope (39) is connected with a paying-off wheel (41) through a fixed movable pulley (40) arranged on the bottom plate (2), a movable thread shaft (42) is arranged on the paying-off wheel (41), and the movable thread shaft (42) is connected with a movable base (43) arranged on the bottom plate (2); a moving transverse block (44) is symmetrically arranged on the moving threaded shaft (42), positioning blocks (45) are symmetrically arranged on the moving transverse block (44), and the positioning blocks (45) are in sliding connection with positioning rods (46) arranged on the moving base (43); a translational square plate (47) is arranged on the moving transverse block (44), translational rods (48) are symmetrically arranged on the translational square plate (47), and the two translational rods (48) are jointly connected with a contact linkage plate (49); the translation rod (48) is sleeved with a translation spring (50), one end of the translation spring (50) is fixedly connected with the contact-connection different plate (49), the other end of the translation spring is fixedly connected with the translation square plate (47), one translation square plate (47) is provided with a connecting rack (51), and the connecting rack (51) is connected with the purging component.

6. The flexible material self-centering winding and rectifying device according to claim 3, wherein: the linkage square plate (52) is arranged on the extension guide rod (33), extension round rods (53) are symmetrically arranged on the linkage square plate (52), one end of each extension round rod (53) is connected with the extension round plate, the other end of each extension round rod is fixedly connected with the corresponding movable square plate (54), and an elastic soft cushion (55) is arranged on the corresponding movable square plate (54); an extension spring (56) is sleeved on the extension round rod (53), one end of the extension spring (56) is fixedly connected with the linkage square plate (52), and the other end of the extension spring is fixedly connected with the movable square plate (54).

7. The flexible material self-centering winding and rectifying device according to claim 1, wherein: the adaptive clamping mechanism comprises an attaching round wheel (57) which is matched and connected with a winding rotary drum (9), an attaching rotary rod (58) is arranged on the attaching round wheel (57), the attaching rotary rod (58) is connected with a hinging different plate (59), a plurality of hinging rotary shafts (60) are arranged on the hinging different plates (59), two ends of the two hinging rotary shafts (60) penetrate through hinging bases (61) which are arranged on side transverse plates (3) and are connected with limiting different blocks (62), the limiting different blocks (62) are arranged in a sliding connection mode with the limiting different rods (63), two ends of the limiting different rods (63) are fixedly connected with limiting bases (64) which are arranged on the hinging bases (61), limiting springs (65) are sleeved on the limiting different rods (63), one ends of the limiting springs (65) are fixedly connected with the hinging bases (61), and the other ends of the limiting springs are fixedly connected with the limiting different blocks (62); a plurality of matched round wheels (66) are arranged on the hinged differential plate (59), the matched round wheels (66) are connected with the inclined square blocks (67) in a matched mode, the two inclined square blocks (67) are connected with a control link rod (68) together, one end of the control link rod (68) is provided with an auxiliary round wheel (69), and the auxiliary round wheel (69) is connected with the winding rotary drum (9) in a matched mode; the other end is connected with the touch limiting alarm unit.

8. The flexible material self-centering winding and rectifying device according to claim 4, wherein: the distance-adjusting leveling mechanism comprises a blocking rod (70) arranged on a blocking circular plate (38), the blocking rod (70) is connected with a directional circular plate (72) by penetrating through a blocking base (71) arranged on an auxiliary base (37), a directional spring (73) is sleeved on the blocking rod (70), one end of the directional spring (73) is connected with the directional circular plate (72), and the other end of the directional spring is connected with the blocking base (71); be equipped with a plurality of locking groove (74) on blocking lever (70), locking groove (74) are connected with locking lever (75) and are set up, and locking diaphragm (76) are connected jointly to two locking levers (75), and the symmetry is equipped with guide block (77) on locking diaphragm (76), and guide block (77) and guide rod (78) sliding connection set up, and guide base (79) that are equipped with on both ends and the assistance base (37) of guide rod (78) are connected and are set up, the cover is equipped with guide spring (80) on guide rod (78), and one end and guide base (79) of guide spring (80) are connected, and the other end is connected with guide block (77) and is set up.

9. The flexible material self-centering winding and rectifying device according to claim 5, wherein: the purging component comprises a holding gear (81) which is connected with the holding rack (51) in a meshed mode, a braking rotating shaft (82) is arranged on the holding gear (81), one end of the braking rotating shaft (82) is in transmission connection with a braking base (83) arranged on a bottom plate (2), the other end of the braking rotating shaft is connected with a braking bevel gear (84), the braking bevel gear (84) is connected with a driven bevel gear (85), a driven rotating shaft (86) is arranged on the driven bevel gear (85), the driven rotating shaft (86) penetrates through a driven base (87) arranged on the bottom plate (2) to be connected with a driven pulley (88), the driven pulley (88) is connected with a driving pulley (90) through a linkage belt (89), a driving rotating shaft (91) is arranged on the driving pulley (90), and the driving rotating shaft (91) penetrates through a driving base (92) arranged on the driven base (87) to be connected with a plurality of fan blades (93).

10. The flexible material self-centering winding and rectifying device according to claim 7, wherein: the touch limiting warning unit comprises a guide square rod (94) arranged on the control link rod (68), the guide square rod (94) is connected with guide sleeves (95) in a sliding manner, and the two guide sleeves (95) are connected with the bottom plate (2) through a linkage frame; the inner bottom surface of the guide sleeve (95) is connected with the guide square rod (94) through a guide spring (96); the control link rod (68) is provided with an L-shaped rod (97), the L-shaped rod (97) is connected with an L-shaped barrel (98) arranged on the guide sleeve (95) in a matched mode, the L-shaped barrel (98) and the L-shaped rod (97) are provided with contact pieces (99), and the contact of the two contact pieces (99) is connected with the driving motor (5) in a matched mode through a control box (100) arranged on the bottom plate (2).