CN210682591U - A carry area swager to construct for rectify - Google Patents

Abstract

The utility model discloses a lifting belt pressing mechanism for correction, which relates to the technical field of gauze processing and solves the problems that the lifting belt is easy to turn over when a clamp device clamps the lifting belt to move along a material supporting groove, so that the side edge of the lifting belt is vertically or obliquely inserted on the material supporting groove, and the lifting belt can not accurately fall on a barium sheet on the gauze, and the lifting belt is inclined or deviated relative to the gauze, thereby effectively improving the welding and positioning precision of the lifting belt on the gauze.

Description

A carry area swager to construct for rectify

Technical Field

The utility model relates to a gauze processing technology field, in particular to carry and take swager constructs for proofreading and correct.

Background

The gauze is comparatively extensive in the application of daily life, and the automated production machinery of this type of gauze of current production generally includes unwinding mechanism, cutting mechanism, gauze folding mechanism, sewing mechanism and discharge mechanism, connects through the conveyer belt between each mechanism for the material after unwinding mechanism unreels, can finally be processed into square handkerchief form multilayer structure gauze finished product and export from discharge mechanism, the appearance of the automated production apparatus of this type of gauze, make the production efficiency of gauze obtain improving greatly.

A material supply source, a material guiding device and a discharging device are arranged on the existing frame; the feeding source, the material guiding device and the blanking device are sequentially arranged along the feeding direction of the lifting belt, a feeding port for outputting the lifting belt is arranged in the material guiding device, and a scissor assembly is arranged at the upstream of the feeding port; however, when the clamp device clamps the lifting belt to move along the supporting trough, the lifting belt is easy to turn over laterally, so that the side edge of the lifting belt is vertically or obliquely inserted into the supporting trough, the lifting belt cannot accurately fall on a barium sheet on gauze, the lifting belt is inclined or deviated relative to the gauze, and the lifting belt is positioned before being welded with the gauze and deviated.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a carry area swager constructs for proofreading and correct has and can improve and carry the positioning accuracy of area on holding in the palm the silo, and then improves effectively and carry the advantage of taking the seam positioning accuracy on the gauze.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides a carry area swager constructs for proofreading and correct, includes the frame and sets up the area feeding mechanism of carrying in the frame, carry area feeding mechanism including holding in the palm the silo and along the first linear movement mechanism that holds in the palm silo axial setting, be equipped with first linear movement mechanism along the axial that holds in the palm the silo in the frame, first linear movement mechanism is including setting up the first stiff end in the frame, be connected with the first expansion end that can follow support silo axial reciprocating motion on the first fixed end, be equipped with the telescopic ejector pin that holds in the palm the silo on the first expansion end, the bottom of ejector pin is higher than hold in the palm the bottom of silo.

The utility model is further provided with that the material pushing rod comprises a contact part and an extension part, and the extension part is connected with the first movable end and is parallel to the bottom of the material supporting groove; the collision part is protruded from the extension part towards the direction deviating from the supporting trough and is connected with the extension part in a smooth transition mode.

By adopting the technical scheme, firstly, the lifting belt is placed in the supporting trough, then the first linear moving mechanism drives the material pushing rod to stretch into the supporting trough through the first movable end and continuously move to the stroke limit point along the axial direction of the supporting trough, at the moment, the material pushing rod can horizontally match and attach part of the lifting belt vertically or obliquely inserted into the supporting trough again, so that the welding positioning precision of the lifting belt and the gauze is improved, the welding effect of the lifting belt and the gauze is effectively improved, and the defective rate of the gauze which is unilateral or incompletely welded on the gauze is reduced; and the mechanical first linear moving mechanism can reduce the influence on the subsequent process, thereby reducing the influence on the welding working efficiency of the lifting belt and the gauze.

The utility model discloses a further setting, the frame is equipped with third rectilinear movement mechanism along the perpendicular to holds in the palm the axial direction of silo, third rectilinear movement mechanism includes the third stiff end that links to each other with the frame, be connected with the third expansion end that can reciprocate to be close to the support silo on the third stiff end, be equipped with the pressure flitch that can stretch into in the support silo on the third expansion end, pressure flitch just is located one side of holding in the palm silo opening direction with the opening phase-match that holds in the palm the silo.

Through adopting above-mentioned technical scheme, when the lifting strap was placed in holding in the palm the silo, the third expansion end drive was pressed the flitch and was moved toward the direction that is close to and holds in the palm the silo, until pressing flitch pressfitting lifting strap on holding in the palm the silo to make to arch up the lifting strap in holding in the palm the silo once more easily and laminate on holding in the palm the silo, so that improve the positioning accuracy of lifting strap on holding in the palm the silo, and then improve the welding positioning accuracy of lifting strap on the gauze effectively.

The utility model discloses a further setting, press the flitch to include along pressing flitch axial first pressure material section, second that connects gradually press the material section and with the third pressure material section that holds in the palm the silo looks assorted, first pressure material section is fixed in the third activity and serves, the axial of second pressure material section and the axial of third pressure material section between the contained angle that deviates from first pressure material section be the obtuse angle.

Through adopting above-mentioned technical scheme, the third section of pressing is used for carrying the area pressfitting to holding in the palm the silo on, because the point of weld of carrying area and gauze is unilateral weld, consequently the axial of second section of pressing and the axial of third section of pressing are the obtuse angle and both reducible shared space, and the installation of third rectilinear movement mechanism in the frame of still being convenient for, and then be convenient for improve and carry the positioning accuracy of area on holding in the palm the silo.

The utility model discloses a further setting, the frame is equipped with the elastic component along the moving direction of second expansion end, the one end of elastic component sets up in the frame, the one end of elastic component sets up in the second expansion end.

Through adopting above-mentioned technical scheme, when the second expansion end drive ejector pin was during toward holding in the palm the silo and remove, the second expansion end carries out elastic compression to the elastic component, both can be convenient for reduce the second expansion end and remove the skew once more of carrying the area position that leads to at the excessive speed, still can provide the elastic potential energy when reseing for the second expansion end for the normal position can be got back to fast to the second expansion end, and then is convenient for improve and carries the work efficiency who takes the adjustment.

The utility model discloses a further setting, be equipped with in the frame and be used for carrying the first swing mechanism of area adjustment, first swing mechanism is including setting up fourth stiff end and the fourth expansion end in the frame, the moving direction perpendicular to of fourth expansion end holds in the palm the axial in material groove, be equipped with on the fourth expansion end and stretch into and contradict in the area material swinging arms that holds in the palm the material inslot.

Through adopting above-mentioned technical scheme, first swing mechanism does the swing action through driving the fourth expansion end to the position of area on holding in the palm the silo is carried in the adjustment of drive area material swinging arms along holding in the palm the silo horizontal direction, so that the area of carrying can laminate as far as possible and place on holding in the palm the silo, with the positioning deviation that causes when reducing the area of carrying because of encircleing or slope place on holding in the palm the silo, and then be convenient for improve the seam positioning accuracy of area of carrying and gauze.

The utility model discloses a further setting, be equipped with the second swing mechanism that is used for carrying the area adjustment in the frame, second swing mechanism is including setting up fifth stiff end and the fifth expansion end in the frame, the moving direction perpendicular to of fifth expansion end holds in the palm the axial of silo, the fifth expansion end sets up in the tip that holds in the palm the silo.

Through adopting above-mentioned technical scheme, can drive during the swing of fifth expansion end and hold in the palm the silo along the horizontal direction swing to use with first swing mechanism phase-match, and then be convenient for further make the lifting belt can laminate fast and place on the blowpit, and then be convenient for improve the positioning accuracy of lifting belt on holding in the palm the silo.

The utility model discloses a further setting, be equipped with welding mechanism in the frame, welding mechanism includes along the perpendicular to hold in the palm axial second rectilinear movement mechanism of silo, seam head and seam generator, second rectilinear movement mechanism includes second stiff end and second expansion end, the direction of motion perpendicular to of second expansion end holds in the palm the axial of silo, the seam head sets up on the second expansion end, the second stiff end sets up in the frame, the seam generator sets up on the removal route of seam head and towards the seam head.

Through adopting above-mentioned technical scheme, can be used to carry the seam of area and gauze, after carrying the area and accomplishing the location on holding in the palm the silo, the second expansion end drives soldered connection pressfitting and carries area and gauze both on welding generator, and then makes to carry the area seam on the gauze.

The utility model is further provided with a material supply source, a material guiding device and a blanking device on the frame; the feeding source, the material guiding device and the blanking device are sequentially arranged along the feeding direction of the lifting belt, a feeding port for outputting the lifting belt is arranged in the material guiding device, and a scissors assembly is arranged on the upstream of the feeding port.

Through adopting above-mentioned technical scheme, the feed source can provide the carrying strap sustainably, and the scissors subassembly will draw the carrying strap in the material device to cut into the single section of the same specification.

The utility model discloses a further setting, carry and take feeding mechanism to carry fixture and the sixth rectilinear movement mechanism of area including being used for the centre gripping, sixth rectilinear movement mechanism includes along being on a parallel with the sixth expansion end that holds in the palm feed trough axial displacement and set up the sixth stiff end in the frame, fixture sets up on sixth expansion end.

Through adopting above-mentioned technical scheme, the second expansion end removes to the position that is close to carrying the area, then will carry the area pulling through fixture and place on holding in the palm the silo to in the realization carry the automation process of area and gauze seam.

To sum up, the utility model discloses following beneficial effect has:

1. so as to improve the welding positioning precision of the lifting belt and the gauze and further effectively improve the welding effect of the lifting belt and the gauze;

2. the defective rate that the gauze is welded on the gauze in a single side or incompletely can be reduced conveniently;

3. the positioning precision of the lifting belt on the material supporting groove can be improved conveniently, and the welding positioning precision of the lifting belt on the gauze is further improved effectively.

Generally speaking the utility model discloses, can improve and carry the positioning accuracy of area on holding in the palm the silo, and then improve effectively and carry the seam positioning accuracy of area on the gauze.

Drawings

FIG. 1 is a schematic front view of a belt lifting and pressing mechanism for calibration in this embodiment;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a schematic top view of a tape lifting and pressing mechanism for calibration according to the present embodiment;

FIG. 4 is a schematic left-side view of a belt lifting and pressing mechanism for calibration in the present embodiment;

FIG. 5 is a schematic diagram of a right-side view of a tape lifting and pressing mechanism for correction according to the present embodiment;

fig. 6 is a schematic structural view of the material pressing plate in the present embodiment.

Reference numerals: 1. an elastic member; 2. a frame; 3. a belt lifting and feeding mechanism; 31. a clamping mechanism; 32. a sixth linear movement mechanism; 321. a sixth movable end; 322. a sixth fixed end; 4. a welding mechanism; 41. a second linear movement mechanism; 411. a second movable end; 412. a second fixed end; 42. welding the head; 43. a weld generator; 5. a first linear moving mechanism; 51. a first movable end; 52. a first fixed end; 6. a material pushing rod; 61. an extension portion; 62. a contact part; 7. a third linear movement mechanism; 71. a third movable end; 72. a third fixed end; 8. a material pressing plate; 81. a first pressing section; 82. a second pressing section; 83. a third pressing section; 9. a first swing mechanism; 91. a fourth movable end; 92. a fourth fixed end; 10. a belt swing lever; 11. a second swing mechanism; 111. a fifth movable end; 112. a fifth fixed end; 12. a material supporting groove; 13. a source of feed material; 14. a material guiding device; 15. a blanking device; 16. a feedwell; 17. a scissor assembly.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b): as shown in fig. 1 to 6, including frame 2 and the lifting belt feeding mechanism 3 that sets up in frame 2, lifting belt feeding mechanism 3 includes holding in the palm silo 12 and along holding in the palm the first linear moving mechanism 5 that silo 12 axial set up, be equipped with first linear moving mechanism 5 along the axial that holds in the palm silo 12 in frame 2, first linear moving mechanism 5 is including setting up the first stiff end 52 in frame 2, be connected with the first expansion end 51 that can follow the reciprocating motion of holding in the palm silo 12 axial on the first stiff end 52, be equipped with the ejector pin 6 that can stretch into in holding in the palm silo 12 on the first expansion end 51, the bottom of ejector pin 6 is higher than the bottom of holding in the palm silo 12. In the present embodiment, the first linear motion mechanism 5, the second linear motion mechanism 41, the third linear motion mechanism 7, and the sixth linear motion mechanism 32 are all linear cylinders commonly used in the art, but are not limited thereto, and any mechanism capable of performing a linear reciprocating motion may be used.

The belt lifting and feeding mechanism 3 comprises a clamping mechanism 31 and a sixth linear moving mechanism 32 for clamping the belt, the sixth linear moving mechanism 32 comprises a sixth movable end 321 and a sixth fixed end 322, the sixth movable end 321 is parallel to the axial direction of the material supporting groove 12, the sixth fixed end 322 is arranged on the rack 2, and the clamping mechanism 31 is arranged on the sixth movable end 321. The sixth movable end 321 moves to a position close to the lifting belt, and then the lifting belt is pulled to be placed on the material supporting groove 12 through the clamping mechanism 31, so that an automatic process of welding the lifting belt and the gauze is realized. The material supporting groove 12 is a groove structure with a U-shaped section. In the present embodiment, the clamping mechanism 31 is a clip type mechanism commonly used in the art, but is not limited thereto, and any mechanism may be used as long as it can perform a clamping function.

The material pushing rod 6 comprises an abutting part 62 and an extending part 61, and the extending part 61 is connected with the first movable end 51 and is parallel to the bottom of the material supporting groove 12; the interference part 62 protrudes from the extension part 61 in a direction away from the supporting trough 12 and is in smooth transition connection with the extension part 61. The abutting portion 62 is a plate with an arc-shaped cross section, and the extending portion 61 is a linear plate.

Frame 2 is equipped with third rectilinear movement mechanism 7 along the axial direction of perpendicular to support silo 12, and third rectilinear movement mechanism 7 includes the third stiff end 72 that links to each other with frame 2, is connected with the third expansion end 71 that can reciprocate to be close to and hold in the palm silo 12 on the third stiff end 72, is equipped with the flitch 8 that can stretch into in holding in the palm silo 12 on the third expansion end 71, and flitch 8 just is located the one side of holding in the palm silo 12 opening direction with the opening phase-match that holds in the palm silo 12. When the lifting belt is placed in the material supporting groove 12, the third movable end 71 drives the pressing plate 8 to move towards the direction close to the material supporting groove 12 until the pressing plate 8 presses the lifting belt on the material supporting groove 12, so that the lifting belt easily arched on the material supporting groove 12 is attached to the material supporting groove 12 again, the positioning accuracy of the lifting belt on the material supporting groove 12 is improved, and the welding positioning accuracy of the lifting belt on gauze is effectively improved.

As shown in fig. 1 and 6, the pressure plate 8 includes a first pressure material section 81, a second pressure material section 82 and a third pressure material section 83 matching with the material supporting groove 12, which are sequentially connected along the axial direction of the pressure plate 8, the first pressure material section 81 is fixed on the third movable end 71, and an included angle between the axial direction of the second pressure material section 82 and the axial direction of the third pressure material section 83, which deviates from the first pressure material section 81, is an obtuse angle. The third pressing section 83 is used for pressing the lifting belt onto the supporting trough 12, and the welding point of the lifting belt and gauze is one-side welding, so that the axial direction of the second pressing section 82 and the axial direction of the third pressing section 83 form an obtuse angle, the occupied space can be reduced, the third linear moving mechanism 7 can be conveniently mounted on the rack 2, and the positioning accuracy of the lifting belt on the supporting trough 12 can be improved. The first blanking section 81, the second blanking section 82, and the third blanking section 83 are sheet metal parts produced by bending.

The frame 2 is provided with an elastic member 1 along the moving direction of the second movable end 411, one end of the elastic member 1 is disposed on the frame 2, and one end of the elastic member 1 is disposed on the second movable end 411. When the second movable end 411 drives the material pushing rod 6 to move towards the material supporting groove 12, the second movable end 411 elastically compresses the elastic part 1, so that the belt lifting position deviation caused by the fact that the second movable end 411 moves too fast can be reduced, elastic potential energy during resetting can be provided for the second movable end 411, the second movable end 411 can return to the original position fast, and the work efficiency of belt lifting adjustment can be improved conveniently. The elastic member 1 is a metal spring commonly used in the art.

The frame 2 is provided with a first swing mechanism 9 for lifting a belt to be adjusted, the first swing mechanism 9 comprises a fourth fixed end 92 and a fourth movable end 91 which are arranged on the frame 2, the moving direction of the fourth movable end 91 is perpendicular to the axial direction of the material supporting groove 12, and the fourth movable end 91 is provided with a belt swing rod 10 which can stretch into and abut against the material supporting groove 12. First swing mechanism 9 does the swing action through drive fourth expansion end 91 to drive area material swinging arms 10 and smooth the formula adjustment along holding in the palm the position of taking on the silo 12 of silo 12 horizontal direction, so that the area of carrying can laminate as far as and place on holding in the palm silo 12, with the positioning deviation that causes when reducing the area of carrying because of encircleing or the slope is placed on holding in the palm silo 12, and then be convenient for improve the seam positioning accuracy of area of carrying and gauze.

The frame 2 is provided with a second swing mechanism 11 for adjusting a lifting belt, the second swing mechanism 11 includes a fifth fixed end 112 and a fifth movable end 111 which are arranged on the frame 2, the moving direction of the fifth movable end 111 is perpendicular to the axial direction of the material supporting groove 12, and the fifth movable end 111 is arranged at the end of the material supporting groove 12. The fifth movable end 111 can drive the material supporting groove 12 to swing along the horizontal direction during swinging, so as to be applied in match with the first swinging mechanism 9, further facilitate the rapid fitting and placement of the lifting belt on the discharge chute, and further facilitate the improvement of the positioning precision of the lifting belt on the material supporting groove 12. In the present embodiment, the first swing mechanism 9 and the second swing mechanism 11 are both swing cylinders, but the present invention is not limited thereto, and any mechanism may be used that can perform a horizontal reciprocating swing motion.

Be equipped with welding mechanism 4 on frame 2, welding mechanism 4 includes along the axial second rectilinear movement mechanism 41 of perpendicular to holding in the palm material groove 12, weld head 42 and seam generator 43, second rectilinear movement mechanism 41 includes second stiff end 412 and second expansion end 411, the direction of motion perpendicular to holding in the palm the axial of material groove 12 of second expansion end 411, weld head 42 sets up on second expansion end 411, second stiff end 412 sets up on frame 2, seam generator 43 sets up on the moving path of weld head 42 and towards weld head 42. The welding mechanism 4 can be used for welding the lifting belt and the gauze, and after the lifting belt is positioned on the material supporting groove 12, the second movable end 411 drives the welding head to press the lifting belt and the gauze on the welding generator, so that the lifting belt is welded on the gauze.

The frame 2 is provided with a material supply source 13, a material guiding device 14 and a blanking device 15; the feeding source 13, the material guiding device 14 and the blanking device 15 are sequentially arranged along the feeding direction of the lifting belt, a feeding port 16 for outputting the lifting belt is arranged in the material guiding device 14, and a scissors assembly 17 is arranged on the upstream of the feeding port 16. The supply 13 can continuously supply the carrying strap, and the scissors assembly 17 cuts the carrying strap in the guiding device 14 into single sections of the same specification.

The supply source 13 includes a feed roller around which a lifting belt is wound; the material guiding device 14 comprises a swing arm capable of swinging relative to the material roller, and the swing arm is closer to the material supporting groove 12 than the material roller; a tensioning belt is wound on the material roller, and the head end and the tail end of the tensioning belt are jointly fixed on the swing arm; a plurality of driving wheels for tensioning the lifting belt are arranged on the swing arm, and a plurality of fixed wheels matched with the driving wheels are arranged on the rack 2; the lifting belt is led out by the material roller and alternately passes through the fixed wheel and the driving wheel to enter the scissors assembly 17 to form a material leading path. The material guiding device 14 comprises a first driving motor, a feeding roller connected with the first driving motor, a pressing roller and a guide wheel; the compression roller is abutted against the feeding roller; the guide wheel is positioned below the feeding roller. The material guiding device 14 further comprises a material strip for guiding the trend of the lifting belt, the material strip is positioned at the downstream of the feeding roller, and a channel for the lifting belt to pass through is arranged in the material strip; a clearance opening is formed on the material strip, and the scissors assembly 17 is correspondingly arranged with the clearance opening; a feedwell 16 is formed in the strand downstream of the evacuation port. The frame 2 is provided with a feeding device for pushing the lifting belt out of the material strip, and the feeding device is correspondingly arranged with the feeding port 16.

The working process and principle are as follows: firstly, a lifting belt is placed in a supporting trough 12, then a first linear moving mechanism 5 drives a material pushing rod 6 to stretch into the supporting trough 12 through a first movable end 51 and continuously moves to a stroke limit point along the axial direction of the supporting trough 12, at the moment, the material pushing rod 6 can horizontally match and attach part of the lifting belt vertically or obliquely inserted into the supporting trough 12 again, so that the welding positioning precision of the lifting belt and gauze is improved, the welding effect of the lifting belt and gauze is effectively improved, and the defective rate of unilateral or incomplete welding of gauze on the gauze is reduced; and the mechanical first linear moving mechanism 5 can reduce the influence on the subsequent process, thereby reducing the influence on the welding working efficiency of the lifting belt and the gauze.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (10)

1. A belt lifting and pressing mechanism for correction, which comprises a frame (2) and a belt lifting and feeding mechanism (3) arranged on the frame (2), the belt lifting and feeding mechanism (3) comprises a material supporting groove (12) and a first linear moving mechanism (5) which is axially arranged along the material supporting groove (12), it is characterized in that a first linear moving mechanism (5) is arranged on the machine frame (2) along the axial direction of the material supporting groove (12), the first linear moving mechanism (5) comprises a first fixed end (52) arranged on the frame (2), the first fixed end (52) is connected with a first movable end (51) which can axially reciprocate along the material supporting groove (12), the first movable end (51) is provided with a material pushing rod (6) which can extend into the material supporting groove (12), the bottom of the material pushing rod (6) is higher than the bottom of the material supporting groove (12).

2. The tape lift nip for calibration according to claim 1, characterized in that the ejector ram (6) comprises an interference portion (62) and an extension portion (61), the extension portion (61) being connected to the first movable end (51) and being parallel to the bottom of the chute (12); the interference part (62) protrudes from the extension part (61) towards the direction deviating from the supporting trough (12) and is connected with the extension part (61) in a smooth transition mode.

3. The tape lifting and pressing mechanism for correction according to claim 1, wherein the rack (2) is provided with a third linear moving mechanism (7) along a direction perpendicular to the axial direction of the material supporting groove (12), the third linear moving mechanism (7) comprises a third fixed end (72) connected with the rack (2), the third fixed end (72) is connected with a third movable end (71) which can be close to the material supporting groove (12) in a reciprocating manner, the third movable end (71) is provided with a pressing plate (8) which can stretch into the material supporting groove (12), and the pressing plate (8) is matched with an opening of the material supporting groove (12) and is positioned on one side of the opening direction of the material supporting groove (12).

4. The belt-lifting pressing mechanism for correction according to claim 3, wherein the pressing plate (8) comprises a first pressing section (81), a second pressing section (82) and a third pressing section (83) matched with the supporting trough (12), the first pressing section (81) is sequentially connected along the axial direction of the pressing plate (8), the first pressing section (81) is fixed on the third movable end (71), and an included angle between the axial direction of the second pressing section (82) and the axial direction of the third pressing section (83) and departing from the first pressing section (81) is an obtuse angle.

5. A belt-lifting and material-pressing mechanism for correction according to claim 1, characterized in that the frame (2) is provided with an elastic member (1) along the moving direction of the second movable end (411), one end of the elastic member (1) is arranged on the frame (2), and one end of the elastic member (1) is arranged on the second movable end (411).

6. The tape lifting and pressing mechanism for correction according to claim 1, wherein a first swing mechanism (9) for adjusting the tape lifting is arranged on the frame (2), the first swing mechanism (9) comprises a fourth fixed end (92) and a fourth movable end (91) which are arranged on the frame (2), the moving direction of the fourth movable end (91) is perpendicular to the axial direction of the material supporting groove (12), and a tape swing rod (10) which can extend into and abut against the material supporting groove (12) is arranged on the fourth movable end (91).

7. The tape lifting and pressing mechanism for correction according to claim 1, wherein a second swing mechanism (11) for adjusting the lifting tape is arranged on the frame (2), the second swing mechanism (11) comprises a fifth fixed end (112) and a fifth movable end (111) which are arranged on the frame (2), the moving direction of the fifth movable end (111) is perpendicular to the axial direction of the material supporting groove (12), and the fifth movable end (111) is arranged at the end of the material supporting groove (12).

8. The tape lifting and pressing mechanism for correction according to claim 1, wherein a welding mechanism (4) is arranged on the frame (2), the welding mechanism (4) comprises a second linear moving mechanism (41) perpendicular to the axial direction of the material supporting groove (12), a welding head (42) and a welding generator (43), the second linear moving mechanism (41) comprises a second fixed end (412) and a second movable end (411), the moving direction of the second movable end (411) is perpendicular to the axial direction of the material supporting groove (12), the welding head (42) is arranged on the second movable end (411), the second fixed end (412) is arranged on the frame (2), and the welding generator (43) is arranged on the moving path of the welding head (42) and faces the welding head (42).

9. The belt lifting and pressing mechanism for correction according to claim 1, wherein a feeding source (13), a guiding device (14) and a blanking device (15) are arranged on the frame (2); the feeding source (13), the material guiding device (14) and the blanking device (15) are sequentially arranged along the feeding direction of the lifting belt, a feeding port (16) used for outputting the lifting belt is arranged in the material guiding device (14), and a scissors assembly (17) is arranged on the upstream of the feeding port (16).

10. The tape-lifting and pressing mechanism for correction according to claim 1, wherein the tape-lifting and feeding mechanism (3) comprises a clamping mechanism (31) for clamping a lifting tape and a sixth linear moving mechanism (32), the sixth linear moving mechanism (32) comprises a sixth movable end (321) moving along an axial direction parallel to the material-holding groove (12) and a sixth fixed end (322) arranged on the frame (2), and the clamping mechanism (31) is arranged on the sixth movable end (321).

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