CN215159459U - Large-capacity paper folder feeding platform - Google Patents

Abstract

The utility model relates to a paper folder equipment technical field provides a paper folder pay-off platform of large capacity. The utility model relates to a paper folder pay-off platform of large capacity, include: lifting assembly, bottom plate, outer frame, first porter bar, fixed material subassembly, inhaling the material subassembly, removing and inhaling material subassembly, slip pay-off subassembly and sensor, outer frame inside is provided with lifting assembly, and fixed mounting has the bottom plate on the lifting assembly, and first porter bar both ends fixed mounting is at outer frame lateral wall front end, and fixed material subassembly mounting is on first porter bar, inhales the material subassembly setting in first porter bar rear side, and the removal is inhaled the material subassembly setting and is inhaling material subassembly rear side, and slip pay-off subassembly setting is inhaling material subassembly rear side in the removal, and the sensor setting is on first porter bar, and the sensor passes through the circuit and is connected with fixed material subassembly that presses, the utility model discloses the pay-off is stable, can carry out the pay-off operation in batches greatly, and degree of automation is high, uses manpower and materials, convenient to use sparingly.

Description

Large-capacity paper folder feeding platform

Technical Field

The utility model relates to a paper folder equipment technical field has especially related to a paper folder pay-off platform of large capacity.

Background

The paper folding machine is modern printing equipment which is generated along with the modern printing industry, is mainly used for folding paper with different sizes and thicknesses in a design range, and is suitable for large-batch folding of rapid printing centers, production enterprises, official documents and business letters. The folding machine mainly comprises three parts of paper feeding, folding and paper collecting. Various electric appliances, articles for daily use, medicines, cosmetics and the like in life need specifications which are usually folded for many times and put into a packaging box, the requirements of modern production cannot be met by the manual folding method, and the paper folding efficiency can be greatly improved by the paper folding equipment.

The CN201920387528.7 discloses a body paper feeding mechanism for a paper folder, including fixed station, paper folder body, discharge mechanism and drive arrangement, the paper folder body is located the top of fixed station and with fixed station fixed connection, the left side welding of paper folder body has discharge mechanism, the feed inlet has been seted up on the right side of paper folder body, the right side of paper folder body and just to the feed inlet welding have feeding mechanism, the bottom transmission of paper folder body front side is connected with drive arrangement

The paper folding machine is generally provided with a feeding mechanism, however, the traditional feeding mechanism is simple in structure, only one fixing platform fixed at a feeding port is provided with a driving device, paper is easy to incline and fold due to friction force in the feeding process, and even the paper is damaged, so that the work of the paper folding machine is greatly influenced, the yield of finished products is reduced, and the feeding space of the device is too small, so that the paper feeding operation can not be carried out on a large scale, and the problem of low paper feeding efficiency exists.

SUMMERY OF THE UTILITY MODEL

In order to solve the paper and lead to paper slope, fold easily because frictional force at the pay-off in-process, cause the damaged situation of paper even, influence the work of paper folder greatly, reduced off-the-shelf yields, because above-mentioned device pay-off space is too little, the unable operation of form advancing in batches greatly, but also there is the problem of the inefficiency of form advancing, the utility model provides a paper folder pay-off platform of large capacity solves this problem.

A large capacity folder feed platform comprising: lifting component, bottom plate, outer frame, first pay-off pole, fixed material subassembly, inhaling the material subassembly, removing and inhaling material subassembly, slip pay-off subassembly and sensor, outer frame inside is provided with lifting component, and fixed mounting has the bottom plate on the lifting component, and first pay-off pole both ends fixed mounting is at outer frame lateral wall front end, and fixed material subassembly is installed on first pay-off pole, removes to inhale the material subassembly and sets up in first pay-off pole rear side, and slip pay-off subassembly sets up at fixed material subassembly rear side, and the sensor setting is on first pay-off pole, and the sensor passes through the circuit and is connected with fixed material subassembly.

A large capacity folder feed platform comprising: lifting component, bottom plate, outer frame, first stack bar, fixed material subassembly, inhaling the material subassembly, removing and inhaling material subassembly, slip pay-off subassembly and sensor, outer frame inside is provided with lifting component, and fixed mounting has the bottom plate on the lifting component, and first stack bar both ends fixed mounting is at outer frame lateral wall front end, and fixed material subassembly is installed on first stack bar, inhales the material subassembly and sets up in first stack bar rear side, and the removal is inhaled the material subassembly and is set up and inhaling material subassembly rear side, and slip pay-off subassembly sets up and inhales material subassembly rear side in the removal, and the sensor setting is on first stack bar, and the sensor passes through the circuit and is connected with fixed material subassembly of pressing.

Preferably, the lifting assembly comprises: the lifting cylinder is provided with four groups, the four groups are respectively fixedly installed at four corners of the lifting cylinder installation plate, the bottom surface of the lifting cylinder top plate is fixedly connected with the output end of the lifting cylinder, and the lifting support plate is arranged on the top surface of the lifting cylinder top plate.

Preferably, the bottom plate is uniformly provided with ventilating grooves in an array mode, and the middle of the bottom plate is provided with symmetrical loading and unloading grooves.

Preferably, the fixed swaging assembly comprises: pre-compaction material subassembly and slide-shaft material pressing assembly, pre-compaction material subassembly is provided with the multiunit, and the even array of pre-compaction material subassembly is arranged on first porter bar, and slide-shaft material pressing assembly is provided with two sets ofly, sets up respectively in first porter bar both sides, pre-compaction material subassembly includes: pre-compaction tablet, pre-compaction tablet connecting plate, pre-compaction connecting rod, pre-compaction connecting block, pre-compaction pole hasp and pre-compaction piece locking screw, pre-compaction tablet fixed mounting is in pre-compaction tablet connecting plate one end, and pre-compaction tablet connecting plate middle part is provided with the slotted hole, and pre-compaction connecting rod one end is passed the slotted hole and is connected with pre-compaction tablet connecting plate, and the pre-compaction connecting rod other end passes the pre-compaction connecting block and passes through pre-compaction pole hasp connection, and pre-compaction connecting block one side is connected with first porter bar, and pre-compaction piece locking screw is used for locking pre-compaction connecting block and first porter bar.

Preferably, the slide shaft pressing assembly comprises: the sliding shaft mounting plate is fixedly mounted on the first feeding rod, the sliding shaft mounting plate lock catch is arranged on the upper portion of the sliding shaft mounting plate, the side arm of the sliding shaft mounting plate is provided with a long round hole, and the sliding block is mounted in the long round hole through the sliding shaft.

Preferably, the suction assembly comprises: the movable motor is installed on one side of the outer frame, the output end of the movable motor is connected with one end of the movable connecting rod, the other end of the movable connecting rod is connected with the movable rotating block, the movable rotating block is arranged in the protective box, the protective box is connected with the outer frame through the protective box connecting rod, one end of the movable pressing component is movably connected with the middle upper portion of the front end of the protective box, the protective box is provided with the protective box spring installation sleeve, the two groups of the suction mounting blocks are symmetrically arranged on two sides of the protective box respectively, the bottom of the suction cylinder is connected with the suction mounting block, and the suction disc is arranged at the output end of the suction cylinder.

Preferably, the movable swaging assembly comprises: the movable material pressing shaft is fixedly mounted on the middle upper portion of the front end of the protective box, the movable material pressing bearing is mounted inside the upper end of the movable material pressing rod, the movable material pressing bearing is connected with the movable material pressing shaft in a matched mode, the movable material pressing plate is fixedly mounted at the other end of the movable material pressing rod, and the movable material pressing plate is fixedly mounted at one end of the movable material pressing plate.

Preferably, the moving suction assembly comprises: the push pedal, a spring, push pedal spring mounting sleeve, remove the axle, remove and inhale the material cylinder, remove and inhale material sucking disc and horizontal slotted hole, the push pedal sets up inside the protective box, the push pedal upper end is provided with push pedal spring mounting sleeve in front, push pedal one side is changeed the piece position with the activity and is aligned, spring mounting is in push pedal spring mounting sleeve, the outstanding guard box of push pedal opposite side lower extreme, push pedal opposite side lower extreme tip and removal axle fixed connection, it inhales the material cylinder and removes and inhale the material sucking disc and be provided with the multiunit to remove, it inhales material cylinder one end and removal hub connection to remove, it inhales material sucking disc one end fixed mounting and inhales material cylinder output in the removal to remove, even array arranges respectively in removal axle one side, it is provided with horizontal slotted hole to remove the corresponding outer frame department in axle both ends.

Preferably, the slide feed assembly comprises: the sliding feeding rod, the pulley assembly, the sliding feeding rod holds up the cylinder and the vertical recess of sliding feeding rod, the vertical recess setting of sliding feeding rod is in the outer frame both sides, sliding feeding rod both ends movable mounting is in the vertical recess of sliding feeding rod, the sliding feeding rod holds up the cylinder and is provided with two sets ofly, be connected with sliding feeding rod both ends respectively, the sliding feeding rod holds up the cylinder and drives sliding feeding rod at the vertical recess up-and-down motion of sliding feeding rod, even array is provided with multiunit pulley assembly on the sliding feeding rod.

Preferably, the sheave assembly includes: pulley connecting rod, pulley motor, pulley shaft and pulley, pulley connecting rod one end is connected with the slip stack feed lever, and the pulley shaft setting is connected with pulley shaft one end at the pulley connecting rod other end, pulley motor output, and the pulley is connected with the pulley shaft other end.

The utility model has the advantages that: the utility model relates to a paper folder pay-off platform of large capacity, include: the utility model discloses a lifting assembly, bottom plate, outer frame, first pay-off pole, fixed material pressing subassembly, material sucking subassembly, removal material sucking subassembly, slip pay-off subassembly and sensor, outer frame inside is provided with lifting assembly, lifting assembly is last fixed mounting has the bottom plate, first pay-off pole both ends fixed mounting is in outer frame lateral wall front end, fixed material pressing subassembly is installed on first pay-off pole, material sucking subassembly sets up in first pay-off pole rear side, remove material sucking subassembly sets up in material sucking subassembly rear side, slip pay-off subassembly sets up in removal material sucking subassembly rear side, the sensor sets up on first pay-off pole, the sensor passes through the circuit and is connected with fixed material pressing subassembly, the utility model discloses pay-off is stable, can carry out the pay-off operation in batches, and degree of automation is high, saves manpower and materials, convenient to use, has guaranteed the level and smooth of paper in the conveying process, has improved finished product yields, has enlarged pay-off space, the production efficiency is improved.

Drawings

FIG. 1 is a side view of the first angle of the present invention;

FIG. 2 is a formal diagram of the lifting assembly of the present invention;

FIG. 3 is a structural isometric view of the bottom plate of the present invention;

fig. 4 is a structural axial view of the first feeding rod and the fixed pressing component of the present invention;

fig. 5 is a structural axial view of the pre-pressing assembly of the present invention;

fig. 6 is a side view of the slide shaft swaging assembly of the present invention;

fig. 7 is a front view of the slide shaft swaging assembly of the present invention;

FIG. 8 is a structural isometric view of the suction assembly and the mobile suction assembly of the present invention;

fig. 9 is a side view of the fixed swaging and suction assemblies and the mobile swaging and sliding feed assemblies of the present invention;

fig. 10 is a side view of the interior of the protective case of the present invention;

fig. 11 is a structural axial view of the movable swaging assembly of the present invention;

fig. 12 is a structural isometric view of the sliding feed assembly of the present invention;

figure 13 is a structural isometric view of the sheave assembly of the present invention;

1. a lifting assembly; 2. a base plate; 3. an outer frame; 4. a first feed bar; 5. fixing a material pressing component; 6. a material suction assembly; 7. moving the suction assembly; 8. a sliding feeding component; 9. a sensor; 11. lifting the cylinder mounting plate; 12. a lifting cylinder; 13. lifting a top plate of the cylinder; 14. lifting the supporting plate; 21. a ventilation groove; 22. loading and unloading the groove; 51. a pre-pressing component; 52. a sliding shaft pressing component; 511. pre-pressing the material sheet; 512. prepressing a material sheet connecting plate; 513. prepressing the connecting rod; 514. prepressing a connecting block; 515. pre-pressing rod locking; 516. pre-pressing a block locking screw; 521. a slide shaft mounting plate; 522. a slide shaft; 523. a slider; 524. a slide shaft mounting plate is locked; 61. a movable motor; 62. a movable connecting rod; 63. a movable rotating block; 64. a protection box; 65. a guard box connecting rod; 66. a movable material pressing component; 67. a material suction mounting block; 68. a material suction cylinder; 69. a material suction disc; 70. the protective box is provided with a sleeve through a spring; 661. a movable pressing shaft; 662. a movable swaging bearing; 663. a movable material pressing rod; 664. a movable pressure plate; 665. a movable material pressing sheet; 71. pushing the plate; 72. a spring; 73. the push plate spring is provided with a sleeve; 74. a movable shaft; 75. moving a material suction cylinder; 76. moving the sucking and washing disc; 77. a transverse oblong hole; 81. sliding the feed bar; 81. sliding the feed bar; 82. a sheave assembly; 83. a sliding feeding rod supports the cylinder; 84. a sliding feed bar longitudinal groove; 821 pulley connecting rods; 822. a pulley motor; 823. a pulley shaft; 824. a pulley.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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 efforts belong to the protection scope of the present invention.

It should be noted that the installation manners and technical terms mentioned in the present invention are technical terms that have been clearly known in the technical field, and thus, the explanation thereof is not repeated. Moreover, the same reference numerals are used for the same components, which do not affect and should not constitute an exact understanding of the technical solutions for a person skilled in the art.

The first embodiment is described with reference to fig. 1:

the utility model provides a large capacity folder pay-off platform which characterized in that includes: the device comprises a lifting component 1, a bottom plate 2, an outer frame 3, a first feeding rod 4, a fixed pressing component 5, a suction component 6, a movable suction component 7, a sliding feeding component 8 and a sensor 9, wherein the lifting component 1 is arranged in the outer frame 3, the bottom plate 2 is fixedly arranged on the lifting component 1, two ends of the first feeding rod 4 are fixedly arranged at the front end of the side wall of the outer frame 3, the fixed pressing component 5 is arranged on the first feeding rod 4, the suction component 6 is arranged at the rear side of the first feeding rod 4, the movable suction component 7 is arranged at the rear side of the suction component 6, the sliding feeding component 8 is arranged at the rear side of the movable suction component 7, the sensor 9 is arranged on the first feeding rod 4, the sensor 9 is connected with the fixed pressing component 5 through a circuit, so that paper products needing large-batch conveying are placed on the bottom plate 2, the fixed pressing component 5 pre-presses the paper products, and detecting the height of the paper product, when the paper product is consumed, the fixed pressing component 5 cannot pre-press the paper product, the sensor 9 transmits the signal to the lifting component 1, the lifting component 1 lifts the bottom plate 2 until the paper product touches the fixed pressing component 5, the sensor 9 feeds back the paper product in-place signal to the lifting component 1, the lifting component 1 stops working, the material sucking component 6 is used for sucking the first paper of the paper product, the material sucking component 7 is moved to the sliding material feeding component 8, the sliding material feeding component 8 conveys the sucked paper to the next working link, and the operation is repeated in this way to finish the material conveying work of a large batch of paper products.

In the second embodiment, the following is described with reference to fig. 2 on the basis of the first embodiment:

the lifting assembly 1 comprises: lifting cylinder mounting panel 11, lifting cylinder 12, lifting cylinder roof 13 and lifting support plate 14, lifting cylinder 12 is provided with four groups, and fixed mounting is in lifting cylinder mounting panel 11 four corners respectively, and lifting cylinder roof 13 bottom surface and lifting cylinder 12 output end fixed connection are provided with lifting support plate 14 on the lifting cylinder roof 13 top surface, so set up, and lifting cylinder 12 promotes lifting cylinder roof 13 and will lift support plate 14 jack-up.

In the third embodiment, the following description is made with reference to fig. 3 on the basis of the second embodiment:

even array is provided with ventilative recess 21 on bottom plate 2, is provided with the loading and unloading groove 22 of symmetry in the middle of bottom plate 2, so sets up, and ventilative recess 21 prevents that large capacity paper article from directly placing on bottom plate 2, causes paper bottom surface and bottom plate surface suction too big, can't remove whole paper article 1 smoothly, and loading and unloading groove 22 is used for the loading and unloading work of paper article.

The fourth embodiment is explained in conjunction with fig. 1 and 4 and fig. 5 and 6 and 7 on the basis of the third embodiment:

the fixed material pressing component 5 comprises: material subassembly 51 and slide-shaft material pressing component 52 are pressed to pre-compaction, pre-compaction subassembly 51 is provided with the multiunit, and the even array of pre-compaction subassembly 51 is arranged on first porter bar 4, and slide-shaft material pressing component 52 is provided with two sets ofly, sets up respectively in first porter bar 4 both sides, pre-compaction subassembly 51 includes: pre-compaction tablet 511, pre-compaction tablet connecting plate 512, pre-compaction connecting rod 513, pre-compaction connecting block 514, pre-compaction pole hasp 515 and pre-compaction piece shrink screw 516, pre-compaction tablet 511 fixed mounting is in pre-compaction tablet connecting plate 512 one end, pre-compaction tablet connecting plate 512 middle part is provided with the slotted hole, pre-compaction connecting rod 513 one end is passed the slotted hole and is connected with pre-compaction tablet connecting plate 512, the pre-compaction connecting rod 513 other end passes pre-compaction connecting block 514 and passes through pre-compaction pole hasp 515 to be connected, pre-compaction connecting block 514 one side is connected with first porter bar 4, pre-compaction piece locking screw is used for locking pre-compaction connecting block 214 and first porter bar 4, pre-compaction connecting block 514 includes at slide-shaft pressure material subassembly 52: the sliding shaft mounting plate 521 is fixedly mounted on the first feeding rod 4, the sliding shaft mounting plate lock 524 is arranged on the upper portion of the sliding shaft mounting plate 521, a long round hole is formed in a side arm of the sliding shaft mounting plate 521, the sliding block 523 is mounted in the long round hole through the sliding shaft 522, the pre-pressing assembly 51 is used for detecting the relative position of a large-capacity paper product, the sliding shaft pressing assembly 52 is used for assisting pressing, the sliding shaft pressing assembly has the advantage of flexible pressing, the long round hole is formed in the middle of the pre-pressing sheet connecting plate 512, the pre-pressing sheet connecting plate 512 can be adjusted front and back and is convenient to use, the pre-pressing connecting block 514 can be adjusted left and right on the first feeding rod 4, the sliding shaft mounting plate 521 can be adjusted left and right on the first feeding rod 4, and the sliding block 523 can slide up and down on the sliding shaft mounting plate 521.

The fifth embodiment is explained with reference to fig. 1 and 8, and fig. 9 and 10 and 11 on the basis of the fourth embodiment:

the suction assembly 6 comprises: the device comprises a movable motor 61, a movable connecting rod 62, a movable rotating block 63, a protective box 64, a protective box connecting rod 65, a movable pressing assembly 66, a suction mounting block 67, a suction cylinder 68, a suction tray 69 and a protective box spring mounting sleeve 70, wherein the movable motor 61 is mounted on one side of an outer frame 3, the output end of the movable motor 61 is connected with one end of the movable connecting rod 62, the other end of the movable connecting rod 62 is connected with the movable rotating block 63, the movable rotating block 63 is arranged in the protective box 64, the protective box 64 is connected with the outer frame 3 through the protective box connecting rod 65, one end of the movable pressing assembly 66 is movably connected with the middle upper part of the front end of the protective box 64, the protective box spring mounting sleeve 70 is arranged on the rear surface inside the protective box 64, two groups of the suction mounting blocks 67 are arranged and symmetrically arranged on two sides of the protective box 64 respectively, the bottom of the suction cylinder 68 is connected with the suction mounting block 67, the suction tray 69 is arranged at the output end of the suction cylinder 68, so set up, activity motor 61 drives movable connecting rod 62 and rotates, and movable connecting rod 62 drives movable commentaries on classics piece 63 and rotates, and the flange of movable commentaries on classics piece 63 can make movable pressing material subassembly 66 carry out pendulum motion, inhales material cylinder 68 and is used for controlling and inhales the material dish 69 up-and-down motion, inhales material dish 69 and is used for inhaling the first paper of paper article.

The sixth embodiment is explained in conjunction with fig. 1 and 8 and fig. 9 and 10 and 11 on the basis of the fifth embodiment:

the movable swaging assembly 66 includes: the movable material pressing shaft 661, the movable material pressing bearing 662, the movable material pressing rod 663, the movable material pressing plate 664 and the movable material pressing sheet 665 are fixedly installed on the middle upper portion of the front end of the protection box 64, the movable material pressing bearing 662 is installed inside the upper end of the movable material pressing rod 663, the movable material pressing bearing 662 is connected with the movable material pressing shaft 661 in a matched mode, the movable material pressing plate 664 is fixedly installed at the other end of the movable material pressing rod 663, the movable material pressing sheet 665 is fixedly installed at one end of the movable material pressing plate 664, the movable material pressing rod 663 can swing on the movable material pressing bearing 662 through the movable material pressing shaft 661, the movable material pressing plate 664 can be adjusted forwards and backwards, and the movable material pressing sheet 665 is used for formal material pressing.

The seventh embodiment is explained in conjunction with fig. 1 and 8 and fig. 9 and 10 and 11 on the basis of the sixth embodiment:

the mobile suction assembly 7 comprises: the push plate 71, the spring 72, a push plate spring mounting sleeve 73, a moving shaft 74, a moving material suction cylinder 75, a moving material suction cup 76 and a transverse long circular hole 77, wherein the push plate 71 is arranged inside the protective box 64, the push plate spring mounting sleeve 73 is arranged in front of the upper end of the push plate 71, one side of the push plate 71 is aligned with the position of the movable rotating block 63, the spring 72 is arranged in the push plate spring mounting sleeve 73, the lower end of the other side of the push plate 71 protrudes out of the protective box 64, the end part of the lower end of the other side of the push plate 71 is fixedly connected with the moving shaft 74, a plurality of groups of the moving material suction cylinders 75 and the moving material suction cup 76 are arranged, one end of the moving material suction cup 75 is fixedly arranged at the output end of the moving material suction cylinder 75 and respectively and uniformly arrayed at one side of the moving shaft 74, the transverse long circular holes 77 are arranged at the two ends of the moving shaft 74 corresponding to the outer frame 3, and the push plate 71 can move through the flange of the movable rotating block 63, at this time, the push plate 71 compresses the spring 72, when the movable rotating block 63 rotates to the flange far away from the push plate 71, the spring 72 is released, the push plate 71 is reset, and the material suction cylinder 75 is moved to suck the first paper and convey the first paper to the sliding feed assembly 8.

In the eighth embodiment, the explanation is made with reference to fig. 12 and 13 on the basis of the seventh embodiment:

the slide feed assembly 8 comprises: slip feed rod 81, pulley assembly 82, slip feed rod holds up cylinder 83 and the vertical recess 84 of slip feed rod, the vertical recess 84 of slip feed rod sets up in outer frame 3 both sides, slip feed rod 81 both ends movable mounting is in the vertical recess 84 of slip feed rod, slip feed rod holds up cylinder 83 and is provided with two sets ofly, be connected with slip feed rod 81 both ends respectively, slip feed rod holds up cylinder 83 and drives slip feed rod 81 and move from top to bottom at the vertical recess 84 of slip feed rod, even array is provided with multiunit pulley assembly 82 on the slip feed rod 81, pulley assembly 82 includes: pulley connecting rod 821, pulley motor 822, pulley shaft 823 and pulley 824, pulley connecting rod 821 one end is connected with slip feed rod 81, and pulley shaft 823 sets up at the pulley connecting rod 821 other end, and pulley motor 822 output is connected with pulley shaft 823 one end, and pulley 824 is connected with the pulley shaft 823 other end, so set up, pulley connecting rod 821 can transversely adjust at slip feed rod 81 for handle the inconsistent paper article of width, and pulley 824 can be driven by pulley motor 822, rotates on pulley shaft 823.

The utility model discloses a theory of operation: the utility model provides a large capacity folder pay-off platform which characterized in that includes: the automatic paper feeding device comprises a lifting component 1, a bottom plate 2, an outer frame 3, a first feeding rod 4, a fixed pressing component 5, a suction component 6, a movable suction component 7, a sliding feeding component 8 and a sensor 9, wherein the lifting component 1 is arranged inside the outer frame 3, the bottom plate 2 is fixedly arranged on the lifting component 1, two ends of the first feeding rod 4 are fixedly arranged at the front end of the side wall of the outer frame 3, the fixed pressing component 5 is arranged on the first feeding rod 4, the suction component 6 is arranged at the rear side of the first feeding rod 4, the movable suction component 7 is arranged at the rear side of the suction component 6, the sliding feeding component 8 is arranged at the rear side of the movable suction component 7, the sensor 9 is arranged on the first feeding rod 4, the sensor 9 is connected with the fixed pressing component 5 through a circuit, a worker puts paper needing to be conveyed in large batch into the bottom plate 2, the fixed pressing component 5 pre-presses the paper and detects the height of the paper, when the paper products are consumed, the fixed pressing component 5 cannot pre-press the paper products, the sensor 9 transmits the signal to the lifting component 1, the lifting component 1 lifts the bottom plate 2 until the paper products touch the fixed pressing component 5, the sensor 9 feeds the paper product in-place signal back to the lifting component 1, the lifting component 1 stops working, the material sucking component 6 is used for sucking up the first paper of the paper products, the material sucking component 7 is moved to move the sucked paper to the sliding feeding component 8, the sliding feeding component 8 conveys the sucked paper to the next working link, and the operation is repeated in this way, so that the material conveying work of a large batch of paper products is completed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof; the present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

The above, only do the preferred embodiment of the present invention, not used to limit the present invention, all the technical matters of the present invention should be included in the protection scope of the present invention for any slight modification, equivalent replacement and improvement of the above embodiments.

Claims (10)

1. The utility model provides a large capacity folder pay-off platform which characterized in that includes: a lifting component (1), a bottom plate (2), an outer frame (3), a first feeding rod (4), a fixed pressing component (5), a material sucking component (6), a movable material sucking component (7), a sliding feeding component (8) and a sensor (9), the utility model discloses a material lifting device, including outer frame (3), fixed mounting has bottom plate (2) on the subassembly (1) lifts, first porter bar (4) both ends fixed mounting is at outer frame (3) lateral wall front end, fixed material pressing subassembly (5) are installed on first porter bar (4), inhale material subassembly (6) and set up in first porter bar (4) rear side, it inhales material subassembly (7) and sets up and inhaling material subassembly (6) rear side to remove, material subassembly (7) rear side is inhaled in the removal in slip pay-off subassembly (8) setting, sensor (9) set up on first porter bar (4), sensor (9) are connected with fixed material pressing subassembly (5) through the circuit.

2. A high capacity paper folder feeding platform according to claim 1, characterized in that said lifting assembly (1) comprises: the lifting cylinder comprises a lifting cylinder mounting plate (11), lifting cylinders (12), a lifting cylinder top plate (13) and lifting support plates (14), wherein the lifting cylinders (12) are provided with four groups and are respectively fixedly mounted at four corners of the lifting cylinder mounting plate (11), the bottom surfaces of the lifting cylinder top plate (13) are fixedly connected with the output ends of the lifting cylinders (12), and the lifting support plates (14) are arranged on the top surface of the lifting cylinder top plate (13).

3. A high capacity paper folder feeding platform according to claim 2, characterized in that the bottom plate (2) is provided with air permeable grooves (21) in uniform array, and the middle of the bottom plate (2) is provided with symmetrical loading and unloading grooves (22).

4. A high capacity folder feed platform according to claim 3 wherein said stationary nip assembly (5) comprises: material subassembly (51) and slide-shaft pressing component (52) are expected in advance, material subassembly (51) are provided with the multiunit in advance, and material subassembly (51) is evenly arranged on first porter bar (4) in advance, and slide-shaft pressing component (52) are provided with two sets ofly, set up respectively in first porter bar (4) both sides, material subassembly (51) include in advance: pre-pressing material piece (511), pre-pressing material piece connecting plate (512), pre-pressing connecting rod (513), pre-pressing connecting block (514), pre-pressing rod lock catch (515) and pre-pressing block locking screw (516), pre-pressing material piece (511) fixed mounting is in pre-pressing material piece connecting plate (512) one end, pre-pressing material piece connecting plate (512) middle part is provided with the slotted hole, pre-pressing connecting rod (513) one end is passed the slotted hole and is connected with pre-pressing material piece connecting plate (512), pre-pressing connecting rod (513) other end passes pre-pressing connecting block (514) and passes through pre-pressing rod lock catch (515) to be connected, pre-pressing connecting block (514) one side is connected with first porter bar (4), pre-pressing block locking screw (516) are used for locking pre-pressing connecting block (514) and first porter bar (4).

5. The high capacity folder feed platform as recited in claim 4 wherein the spool press assembly (52) comprises: the feeding device comprises a sliding shaft mounting plate (521), a sliding shaft (522), a sliding block (523) and a sliding shaft mounting plate lock catch (524), wherein the sliding shaft mounting plate (521) is fixedly mounted on the first feeding rod (4), the sliding shaft mounting plate lock catch (524) is arranged on the upper portion of the sliding shaft mounting plate (521), a long round hole is formed in a side arm of the sliding shaft mounting plate (521), and the sliding block (523) is mounted in the long round hole through the sliding shaft (522).

6. A high capacity folder feeder platform according to claim 5, wherein said suction assembly (6) comprises: the device comprises a movable motor (61), a movable connecting rod (62), a movable rotating block (63), a protection box (64), a protection box connecting rod (65), a movable pressing assembly (66), a suction mounting block (67), a suction cylinder (68), a suction disc (69) and a protection box spring mounting sleeve (70), wherein the movable motor (61) is mounted on one side of an outer frame (3), the output end of the movable motor (61) is connected with one end of the movable connecting rod (62), the other end of the movable connecting rod (62) is connected with the movable rotating block (63), the movable rotating block (63) is arranged in the protection box (64), the protection box (64) is connected with the outer frame (3) through the protection box connecting rod (65), one end of the movable pressing assembly (66) is movably connected with the middle upper part of the front end of the protection box (64), the protection box spring mounting sleeve (70) is arranged on the rear surface inside the protection box (64), and two groups of suction mounting blocks (67) are arranged, the material suction device is symmetrically arranged on two sides of the protective box (64), the bottom of the material suction cylinder (68) is connected with the material suction mounting block (67), and the material suction disc (69) is arranged at the output end of the material suction cylinder (68).

7. The high capacity folder infeed platform as claimed in claim 6 wherein said movable nip assembly (66) comprises: the movable material pressing device comprises a movable material pressing shaft (661), a movable material pressing bearing (662), a movable material pressing rod (663), a movable material pressing plate (664) and a movable material pressing sheet (665), wherein the movable material pressing shaft (661) is fixedly installed on the middle upper portion of the front end of the protection box (64), the movable material pressing bearing (662) is installed inside the upper end of the movable material pressing rod (663), the movable material pressing bearing (662) is connected with the movable material pressing shaft (661) in a matched mode, the movable material pressing plate (664) is fixedly installed at the other end of the movable material pressing rod (663), and the movable material pressing sheet (665) is fixedly installed at one end of the movable material pressing plate (664).

8. A high capacity folder feeder platform according to claim 7, wherein said moving suction assembly (7) comprises: the material suction device comprises a push plate (71), springs (72), a push plate spring mounting sleeve (73), a moving shaft (74), a moving material suction cylinder (75), a moving material suction cup (76) and a transverse long circular hole (77), wherein the push plate (71) is arranged inside a protective box (64), the push plate spring mounting sleeve (73) is arranged in front of the upper end of the push plate (71), one side of the push plate (71) is aligned with a movable rotating block (63), the springs (72) are arranged in the push plate spring mounting sleeve (73), the lower end of the other side of the push plate (71) protrudes out of the protective box (64), the end part of the lower end of the other side of the push plate (71) is fixedly connected with the moving shaft (74), a plurality of groups of moving material suction cylinders (75) and moving material suction cups (76) are arranged, one end of the moving material suction cylinder (75) is connected with the moving shaft (74), one end of the moving material suction cup (76) is fixedly arranged at the output end of the moving material suction cylinder (75), the two ends of the moving shaft (74) are provided with transverse oblong holes (77) corresponding to the outer frame (3).

9. A high capacity folder feeder platform according to claim 8, wherein said slide feeder assembly (8) comprises: the sliding feeding rod comprises a sliding feeding rod (81), pulley assemblies (82), a sliding feeding rod supporting cylinder (83) and a sliding feeding rod longitudinal groove (84), wherein the sliding feeding rod longitudinal groove (84) is formed in the two sides of an outer frame (3), the two ends of the sliding feeding rod (81) are movably installed in the sliding feeding rod longitudinal groove (84), the sliding feeding rod supporting cylinder (83) is provided with two groups and is respectively connected with the two ends of the sliding feeding rod (81), the sliding feeding rod supporting cylinder (83) drives the sliding feeding rod (81) to move up and down in the sliding feeding rod longitudinal groove (84), and a plurality of groups of pulley assemblies (82) are uniformly arranged on the sliding feeding rod (81) in an array mode.

10. A high capacity folder feeder platform according to claim 9 wherein said pulley assembly (82) comprises: pulley connecting rod (821), pulley motor (822), pulley shaft (823) and pulley (824), pulley connecting rod (821) one end is connected with slip pay-off pole (81), and pulley shaft (823) sets up at pulley connecting rod (821) other end, and pulley motor (822) output is connected with pulley shaft (823) one end, and pulley (824) are connected with pulley shaft (823) other end.

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