CN115008830A - Paper product manufacturing system with intelligent collection function - Google Patents

Abstract

The invention provides a paper product manufacturing system with an intelligent collecting function, which relates to the technical field of paper product manufacturing and comprises the following components: the top box is correspondingly arranged on the upper side in the middle of the bottom box; the upright stanchion a is vertically and fixedly arranged on the upper side end surface of the bottom box; the upright post b is vertically and fixedly arranged on the upper side end face of the bottom box, and the upright post b is arranged right behind the upright post a; the vertical fixing device comprises a vertical rod c, wherein the vertical rod c is fixedly installed on the upper side end face of the bottom box, the vertical rod c is installed right behind the vertical rod b, the linkage operation that the structures such as a transverse rod, a limiting rod and a sliding block cannot be jacked through the thickness of the corrugated board is solved, automatic screening cannot be achieved according to the thickness of the corrugated board by the paper product manufacturing system, the intelligent collecting function of the paper product manufacturing system is further reduced, and the cost problem of manual labor is increased.

Description

Paper product manufacturing system with intelligent collection function

Technical Field

The invention relates to the technical field of paper product manufacturing, in particular to a paper product manufacturing system with an intelligent collecting function.

Background

The paper product is an article made of paper as a main material, the paper packaging product mainly comprises a paper box, a paper bag and the like, and when the paper product paper box is manufactured, a paper product manufacturing system is used for operating paper product manufacturing equipment, firstly, a corrugated board is manufactured, then, the corrugated board is subjected to operations such as screening, stacking and the like, then, next workers bond the paper box or nail the paper box, and finally, the paper box paper product is formed.

However, when the corrugated boards are screened and stacked in the existing paper product manufacturing system, no operation structures such as a transverse rod, a limiting rod and a sliding block are installed, and linkage operation of the structures such as the transverse rod, the limiting rod and the sliding block cannot be performed through the thickness of the corrugated board, so that the paper product manufacturing system cannot realize automatic screening according to the thickness of the corrugated board, the intelligent collection function of the paper product manufacturing system is reduced, manual screening and stacking are needed under partial processes, the cost of manual labor is increased, and the working efficiency of the structure of the paper product manufacturing system is greatly reduced.

Disclosure of Invention

In view of this, the invention provides a paper product manufacturing system with an intelligent collecting function, which performs linkage operation of the structures such as the jacking cross rod, the limiting rod and the sliding block through the thickness of the corrugated board, so that the paper product manufacturing system can realize automatic screening according to the thickness of the corrugated board, thereby increasing the intelligent collecting function of the paper product manufacturing system and reducing the cost of manual labor.

The invention provides a paper product manufacturing system with an intelligent collection function, which specifically comprises: the top box is correspondingly arranged on the upper side in the middle of the bottom box; the upright stanchion a is vertically and fixedly arranged on the upper side end surface of the bottom box; the upright post b is vertically and fixedly arranged on the upper side end face of the bottom box, and the upright post b is arranged right behind the upright post a; the upright stanchion c is vertically and fixedly arranged on the upper side end face of the bottom box, the upright stanchion c is arranged right behind the upright stanchion b, and the upright stanchion c, the upright stanchion b and the upright stanchion a are all arranged and arranged on the same straight line; the lifting plate is slidably mounted on the outer end face of the front side of the top box; the pair of sliding blocks are respectively installed on the pair of vertical rods c in a vertically sliding mode; the pair of limiting rods are respectively arranged on the pair of vertical rods b in a penetrating way; and one cross rod is transversely arranged in the pair of vertical rods a in a penetrating manner.

Optionally, the bottom box comprises a groove, a power roller a and a bottom plate, and the groove is formed in the bottom box; the power roller a is rotatably arranged on the front side in the middle of the bottom box; the bottom plate is fixedly arranged on the outer end face of the front side of the bottom box, and the power roller a and the bottom plate are arranged on the same straight line; the top box comprises inserting blocks and a square groove, the group of inserting blocks are respectively arranged on the lower side end surface of the top box, and the inserting blocks are respectively correspondingly arranged in the grooves; the two square grooves are respectively formed in the left end and the right end of the front side of the top box, and the lifting plate is slidably arranged in the square grooves; the upright rod a comprises a sliding groove a, the sliding groove a is formed in the upright rod a, and the cross rod is slidably mounted in the sliding groove a; the vertical rod b comprises a round hole, the round hole is formed in the vertical rod b, and the limiting rod is rotatably installed in the round hole; the pole setting c includes spout b, spout b is seted up on pole setting c, and sliding block slidable mounting is in spout b.

Optionally, the lifting plate comprises telescopic rods and power rollers b, the top ends of the lower sides of the two telescopic rods are respectively connected and mounted at the left end and the right end of the upper side of the lifting plate, and the top ends of the upper sides of the two telescopic rods are respectively connected and mounted at the upper ends of the inner sides of the square grooves; the group of power rollers b are respectively and rotatably arranged in the lifting plate; the sliding blocks comprise direction adjusting plates, and the direction adjusting plates are fixedly arranged on the inner sides in the middle of the pair of sliding blocks; the limiting rod comprises circular rings, the two circular rings are respectively and fixedly arranged at the top ends of the two sides of the limiting rod, the circular rings arranged on the front side are respectively connected to the cross rod in a sleeved mode, and the circular rings arranged on the rear side are respectively connected to the sliding block in a sleeved mode; the cross rod comprises supporting rods and small wheels, and a group of the supporting rods are vertically arranged on the cross rod respectively; the small wheel is rotatably arranged on the supporting rod.

Advantageous effects

According to the paper product manufacturing system of the embodiments of the invention, compared with the traditional paper product manufacturing system, the paper product manufacturing system realizes intelligent collection, screening and stacking operations of the corrugated boards in the paper product manufacturing process, so that electric energy is saved, the cost of labor force is reduced, and the working efficiency of screening and stacking the corrugated boards in the paper product manufacturing process is improved.

1. In addition, the horizontal pole of installation, structures such as gag lever post and sliding block carry out jack-up steamboat and branch through the corrugated board thickness respectively, steamboat and branch drive the horizontal pole and move, the horizontal pole will drive the gag lever post and swing, the gag lever post drives the sliding block and transfers to the linkage operation that the board moved down, make paper products manufacturing system can realize automatic screening according to the corrugated board thickness, not only reduce power consumption, practice thrift the electric energy, need not artifical screening and pile simultaneously, and then realize paper products manufacturing system's intelligent collection function once more, make and reduce the cost of hand labor when using corrugated container board to carry out paper products manufacturing, still improve the work efficiency of paper products manufacturing system structure greatly.

2. In addition, the top box and the bottom box which are installed can be automatically turned downwards and opened through gravity respectively, so that the time for manually operating the stacked corrugated boards in the paper product manufacturing system is saved, and the operating efficiency in the structure of the paper product manufacturing system is improved.

3. In addition, the direction-adjusting plate of installation is the triangle-shaped platelike structure of slope installation, can be convenient for carry out the perk in the same direction as the limit with corrugated container board, realizes the direction-adjusting task of direction-adjusting board, and corrugated container board will be along transferring to the board removal on the lifter plate, and then realize the pile operation behind the screening to corrugated container board, not only realize paper products manufacturing system's intelligent collection function, still improve the practicality of paper products manufacturing system structure greatly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic left front axial view of an overall structure according to an embodiment of the invention;

FIG. 2 shows a schematic right front axial view of the overall structure according to an embodiment of the invention;

FIG. 3 shows a schematic right-rear axial view of a partial structure according to an embodiment of the invention;

FIG. 4 shows a schematic right front axial view of a partial structure according to an embodiment of the invention;

FIG. 5 shows a schematic axial view of a slider, a limiting rod and a cross bar according to an embodiment of the invention;

FIG. 6 shows a partial exploded isometric view of a bottom box, a top box, a leg a, a leg b, and a leg c, according to an embodiment of the present invention;

FIG. 7 illustrates a schematic axial view of a portion of the lifter plate according to an embodiment of the present invention;

FIG. 8 is an axial view of a slider portion according to an embodiment of the present invention;

FIG. 9 shows a partially exploded isometric view of a restraining rod in accordance with an embodiment of the present invention;

FIG. 10 shows a cross-bar portion schematic axial view in accordance with an embodiment of the present invention;

FIG. 11 shows a block flow diagram according to an embodiment of the invention.

List of reference numerals

1. A bottom box; 101. a groove; 102. a power roller a; 103. a base plate; 2. a top box; 201. inserting a block; 202. a square groove; 3. a vertical rod a; 301. a chute a; 4. a vertical rod b; 401. a circular hole; 5. c, erecting a rod; 501. a chute b; 6. a lifting plate; 601. a telescopic rod; 602. a power roller b; 7. a slider; 701. a direction adjusting plate; 8. a limiting rod; 801. a circular ring; 9. a cross bar; 901. a strut; 902. a small wheel.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to fig. 11:

the invention provides a paper product manufacturing system with an intelligent collection function, which comprises: the production line comprises a bottom box 1, wherein the bottom box 1 is the last operation structure and step for sorting and screening corrugated boards in a paper product manufacturing system, qualified corrugated boards are to be continuously subjected to the next operation step for producing paper products, the bottom box 1 and a top box 2 provide operation convenience for the intelligent collection function of the paper product manufacturing system, the top box 2 and the top box 2 are correspondingly arranged on the upper side in the middle of the bottom box 1, the top box 2 and the bottom box 1 are respectively positioned at the upper position and the lower position, the corrugated boards can be respectively placed after being screened, and the practicability of the paper product manufacturing system is improved; the upright post a3 and the upright post a3 are vertically and fixedly arranged on the upper end face of the bottom case 1, the upright post a3 is a structure vertically arranged on the bottom case 1, the position of the cross rod 9 is limited, the cross rod 9 can be transversely moved on the upright post a3, and the use firmness of the structure of the paper product manufacturing system is ensured; the upright post b4 and the upright post b4 are vertically and fixedly mounted on the upper side end face of the bottom case 1, the upright post b4 is mounted right behind the upright post a3, and the upright post b4 is a structure for limiting the limiting rod 8, so that the limiting rod 8 can flexibly rotate on the upright post b4, and the structure of the plaster paper product manufacturing system is convenient to use; upright c5 and upright c5 are vertically and fixedly mounted on the upper end face of the bottom case 1, upright c5 is mounted right behind upright b4, upright c5, upright b4 and upright a3 are all arranged and mounted on the same straight line, and upright c5 is used for mounting and limiting the sliding block 7, and meanwhile, the sliding block 7 can be flexibly moved inside the structure of upright c5, so that the sliding block 7 cannot be easily displaced in operation and mounting, and the service life of the paper product manufacturing system structure is prolonged again.

In addition, according to the embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 3, the upright c5, the upright b4 and the upright a3 are all installed on the same straight line, so that the upright c5, the upright b4 and the upright a3 can be used for the limiting rod 8, the sliding block 7, the cross rod 9 and other structures, and further, the operational rationality of the structure of the paper product manufacturing system can be ensured; the lifting plate 6 is arranged on the outer end face of the front side of the top box 2 in a sliding mode, the lifting plate 6 is of a flat plate structure capable of moving up and down, the operation that the screened corrugated paper is sequentially stacked on the inner side of the top box 2 is achieved, the workload of manual stacking is greatly reduced, and convenience is brought to use of a paper product manufacturing system; the sliding blocks 7 are respectively installed on the vertical rods c5 in a vertically sliding mode, the sliding blocks 7 are used for assisting in driving the moving direction of the finished corrugated board to move, and therefore the screening efficiency of the finished corrugated board is improved; the limiting rods 8 and the pair of limiting rods 8 are respectively installed on the pair of upright rods b4 in a penetrating mode, the limiting rods 8 are mutually connected, the sliding blocks 7 and the cross rods 9 are respectively connected and controlled by the limiting rods 8, the sliding blocks 7 are used for carrying out linkage operation on the cross rods 9, and linkage operation is achieved according to the passing of corrugated boards in the paper product manufacturing system structure; horizontal pole 9, a horizontal pole 9 transversely run through and install in a pair of pole setting a3, horizontal pole 9 through 8 realization of gag lever post and sliding block 7 mutually support, need not to carry out single operation horizontal pole 9 and sliding block 7 alone again, and then improve the simple operation nature of the screening corrugated paper of paper products manufacturing system structure once more.

In addition, according to the embodiment of the invention, as shown in fig. 1 and fig. 6, the bottom case 1 comprises a groove 101, a power roller a102 and a bottom plate 103, the groove 101 is formed in the bottom case 1, the buckle installation of the bottom case 1 on the top case 2 can be realized through the groove 101 formed in the bottom case 1, the firm installation between the top case 2 and the bottom case 1 is ensured, and meanwhile, the box openings turned outwards are connected and installed on the rear end faces of the top case 2 and the bottom case 1, so that the top case 2 and the bottom case 1 can be flexibly opened and closed for use, corrugated boards stacked in the top case 2 and the bottom case 1 can be conveniently and completely taken out, and the flexible convenience of using the top case 2 and the bottom case 1 is improved; the power roller a102 is rotatably arranged on the central front side of the bottom box 1, the power roller a102 is a structure driven by a motor to rotate, and the corrugated board after the transverse cutting and segmentation operation is quickly transmitted to the next operation structure; bottom plate 103 fixed mounting is on the outside terminal surface of the front side of under casing 1, and bottom plate 103 is the dull and stereotyped structure of corresponding installation in under casing 1 inboard rear end, and power roller a102 and bottom plate 103 install on same straight line, will be the main operation structure that corrugated container board conveying was placed in under casing 1, will carry out the position from corrugated container board that power roller a102 went up and guide to under casing 1 in, and then improve corrugated container board's automatic pile efficiency.

In another embodiment, the back sides of the top box 2 and the bottom box 1 can be provided with outward folded box openings to be replaced by open windows in a flat-open mode, so that the opening and closing operations of the top box 2 and the bottom box 1 are realized, and can finish the operation of taking out the corrugated paper boards stacked in the top box 2 and the bottom box 1, but compared with the box openings of the top box 2 and the bottom box 1 which are turned outwards, when the box opening which is turned outwards is used, the box opening switches of the top box 2 and the bottom box 1 are opened, the box opening is automatically turned downwards through gravity, but a flat-open window is used, when the opening switches of the top box 2 and the bottom box 1 are opened, the box opening can not be automatically opened towards the left side or the right side by gravity, and the opening operation towards the left side or the right side also needs to be manually performed, the time for manually operating the stacked corrugated cardboards in the paper product manufacturing system is increased, and the operating efficiency in the paper product manufacturing system structure is further reduced.

In addition, according to the embodiment of the present invention, as shown in fig. 2 and 6, the top box 2 includes the insertion blocks 201 and the square grooves 202, a group of insertion blocks 201 are respectively arranged and installed on the lower side end surface of the top box 2, the insertion blocks 201 are respectively and correspondingly installed in the grooves 101, the insertion blocks 201 are correspondingly inserted in the grooves 101, and the bottom box 1 and the top box 2 are ensured to be installed firmly; two prescription shape grooves 202 are seted up respectively at the both ends of controlling of top case 2 front side, and lifter plate 6 slidable mounting is in square groove 202, the setup of square groove 202 is convenient for correspond inboard lifter plate 6 and is installed and remove spacingly, lifter plate 6 will strictly move the front side at top case 2 according to the setup position of square groove 202, prevent simultaneously that lifter plate 6 from shifting, it is more convenient still to make the cooperation of lifter plate 6 and top case 2 use simultaneously, reduce the error rate of lifter plate 6 in the operation of top case 2 outside, and then improve lifter plate 6's operating efficiency.

In addition, according to the embodiment of the present invention, as shown in fig. 4 and 6, the upright a3 includes the sliding groove a301, the sliding groove a301 is opened on the upright a3, and the cross bar 9 is slidably mounted in the sliding groove a301, the sliding groove a301 is a moving track of the cross bar 9, the cross bar 9 moves up and down on the upright a3 along the sliding groove a301, so as to ensure that the transverse mounting of the cross bar 9 realizes vertical translation operation; the upright rod b4 comprises a round hole 401, the round hole 401 is formed in the upright rod b4, the limiting rod 8 is rotatably installed in the round hole 401, the round hole 401 formed in the inner side of the upright rod b4 is convenient for limiting the installation position of the limiting rod 8, so that the limiting rod 8 can flexibly rotate in the round hole 401, and the operation of the limiting rod 8 for bidirectionally connecting the cross rod 9 and the sliding block 7 is realized; pole setting c5 includes spout b501, spout b501 sets up on pole setting c5, and sliding block 7 slidable mounting is in spout b501, the hollow structure of spout b501 is exactly the removal orbit of sliding block 7, sliding block 7 will reciprocate on pole setting c5 through spout b501, make sliding block 7 also realize the lift operation, and sliding block 7 and horizontal pole 9 are the structure of reverse operation, when horizontal pole 9 rebound and on the upper end position of pole setting a3, horizontal pole 9 will drive gag lever post 8 and carry out synchronous rotation, and realize that gag lever post 8 is driving sliding block 7 rebound and on the lower extreme position of pole setting c5, guaranteed sliding block 7 again, the fastness of gag lever post 8 and the structural operation of horizontal pole 9, and then extension sliding block 7, the life of gag lever post 8 and horizontal pole 9.

In addition, according to the embodiment of the present invention, as shown in fig. 3 and 7, the lifting plate 6 includes the telescopic rods 601 and the power rollers b602, the top ends of the lower sides of the two telescopic rods 601 are respectively connected and installed at the left and right ends of the upper side of the lifting plate 6, and the top ends of the upper sides of the two telescopic rods 601 are respectively connected and installed at the upper inner side of the square groove 202, the lifting plate 6 is installed on the top box 2 by the structural installation of the telescopic rods 601 and the square groove 202, and the telescopic rods 601 are telescopic rod structures, and the telescopic operation of the telescopic rods 601 can control the height of the lifting plate 6 on the top box 2, and simultaneously the telescopic rods 601 are installed with the induction controllers, the telescopic rods 601 can be gradually adjusted and contracted according to the number of each corrugated cardboard placed in the top box 2, and the lifting plate 6 is gradually moved to the upper side of the top box 2, so that the corrugated cardboards placed on the upper side are sequentially stacked by the lifting plate 6, the messy phenomenon of the corrugated board is avoided, so that the operation of the lifting plate 6 is more practical; a set of power roller b602 rotates respectively and installs in lifter plate 6, power roller b602 embeds installs the motor, the motor will control a set of power roller b602 and rotate, make the height adjustment of placing of lifter plate 6 back, will start power roller b602 and rotate, power roller b602 conveys corrugated container board to top case 2, the operation of placing pile corrugated container board manually realizes automaticly through the structure, will realize the intelligent collection function of paper products manufacturing system, the operating efficiency in the paper products manufacturing system structure is greatly improved.

Furthermore, according to the embodiment of the present invention, as shown in fig. 5 and 8, the sliding blocks 7 include direction-adjusting plates 701, the direction-adjusting plates 701 are fixedly installed at the central inner sides of the pair of sliding blocks 7, the direction-adjusting plates 701 on the sliding blocks 7 are obliquely installed triangular plate-shaped structures, which will play a main role in sorting and screening corrugated boards, and the triangular plate-shaped structures obliquely installed on the direction-adjusting plates 701 facilitate the corrugated boards to be tilted along the sides, the tilted ends of the corrugated boards will be connected to and moved on the direction-adjusting plates 701 through the transmission of the power rollers a102, after the corrugated boards are stacked in the top box 2 by the lifting plates 6, the left lower side of the top box 2 will be automatically reset, the lower sides of the lifting plates 6 and the direction-adjusting plates 701 are located on the same straight line, at this time, the direction-adjusting plates 701 will realize direction-adjusting, the corrugated boards will be moved on the lifting plates 6 along the direction-adjusting plates 701, to realize the stacking operation after screening of the corrugated boards, the intelligent collection function of the paper product manufacturing system is realized again, and the practicability of the paper product manufacturing system structure is improved again.

In addition, according to the embodiment of the present invention, as shown in fig. 5 and 9, the limiting rod 8 includes two circular rings 801, the two circular rings 801 are respectively and fixedly installed at the top ends of the two sides of the limiting rod 8, the circular rings 801 installed at the front side are respectively and annularly sleeved on the cross rod 9, the circular rings 801 installed at the rear side are respectively and annularly sleeved on the sliding block 7, the circular rings 801 are in an elliptical ring structure, and when the sliding block 7 and the cross rod 9 are linked and limited, a certain structural space can be reserved for the movement of the sliding block 7 and the cross rod 9, so that the sliding block 7 and the cross rod 9 can be adjusted by themselves when the structure is used, and the reasonability of the limiting rod 8 in the mutual engagement between the sliding block 7 and the cross rod 9 is ensured.

Further, according to an embodiment of the present invention, as shown in fig. 5 and 10, the cross bar 9 includes struts 901 and small wheels 902, a group of struts 901 are vertically installed on the cross bar 9, respectively, and the struts 901 are vertically installed and used vertically; when the corrugated board is used, the supporting rod 901 and the small wheel 902 are mounted and limited on the vertical rod a3 through the cross rod 9, the power roller a102 moves the rotation-transmitted corrugated board to the direction of the bottom box 1 and the top box 2, the small wheel 902 at the lower side is firstly directly connected with the corrugated board, the small wheel 902 rotates in the power roller a102 along with the movement of the corrugated board, the lower side of the small wheel 902 is correspondingly mounted at the upper side of the corrugated board, the small wheel 902 and the supporting rod 901 are jacked up through the thickness of the corrugated board, when the thickness of the corrugated board is qualified, the small wheel 902 and the supporting rod 901 are jacked up in a small range, so that the cross rod 9 is also lifted up in the vertical rod a3 in a small range, and the cross rod 9 drives the limiting rod 8 to swing in a small range, and the limiting rod 8 is not enough to drive the sliding block 7 and the direction adjusting plate 701 to move downwards, so that the qualified corrugated board moves from the bottom plate 103 to the bottom box 1 through the power roller a102, when the thickness of the corrugated board is thick and unqualified, the small wheel 902 and the support bar 901 are jacked up by the super-thick corrugated board, the cross rod 9 drives the limit rod 8 to swing, the limit rod 8 drives the sliding block 7 and the direction-adjusting board 701 to move downwards, the corrugated board can be automatically screened according to the thickness, thereby not only reducing the power consumption and saving the power, meanwhile, the practicability of the paper product manufacturing system structure is greatly improved, manual screening, screening and stacking are not needed, and then realize paper products manufacturing system's intelligent collection function for reduce the cost of hand labor power when using corrugated container board to carry out paper products manufacturing, still improve the work efficiency of paper products manufacturing system structure greatly.

The specific use mode and function of the embodiment are as follows: in the invention, when corrugated boards are used for manufacturing paper products, the top box 2 and the bottom box 1 are correspondingly arranged in the groove 101 through the inserting block 201, then the paper product manufacturing system with an intelligent collecting function automatically controls when the corrugated boards are transversely segmented, the power roller a102 moves the rotation transmission corrugated boards to the direction of the bottom box 1 and the top box 2, the small wheel 902 at the lower side is firstly directly connected with the corrugated boards, the small wheel 902 rotates in the power roller a102 along with the movement of the corrugated boards, the lower side of the small wheel 902 is correspondingly arranged at the upper side of the corrugated boards, the small wheel 902 and the supporting rod 901 are jacked up through the thickness of the corrugated boards, when the thickness of the corrugated boards is qualified, the small wheel 902 and the supporting rod 901 are jacked up in a small range, so that the cross rod 9 is also lifted up along the sliding groove a301 and moves in the vertical rod a3, two circular rings 801 on the limiting rod 8 are respectively connected to the sliding block 7 and the cross rod 9 in a sleeved mode, the cross rod 9 drives the limiting rod 8 to rotate and swing in a small range in the round hole 401 formed in the upright rod b4, so that the limiting rod 8 cannot drive the sliding block 7 and the direction adjusting plate 701 to move downwards, and qualified corrugated boards can move from the bottom plate 103 to the bottom box 1 through the power roller a 102;

and when the thickness of the corrugated board is thicker and unqualified, the small wheel 902 and the support bar 901 are jacked upwards by the super-thick corrugated board, the cross bar 9 drives the limit rod 8 to swing, the limit rod 8 drives the sliding block 7 and the direction-adjusting board 701 to move downwards along the sliding groove b501 arranged on the vertical bar c5, the direction-adjusting board 701 is correspondingly arranged on the bottom plate 103, the triangular board-shaped structure obliquely arranged on the direction-adjusting board 701 tilts the corrugated board along the edge, the tilted end of the corrugated board is connected and moves on the direction-adjusting board 701 through the transmission of the power roller a102, the corrugated board enters the lifting board 6 through the direction-adjusting board 701, the lifting board 6 contracts through the telescopic rod 601 to move in the square groove 202, the corrugated board moves along with the lifting board 6, and the power roller b602 is started to rotate after the corrugated board is placed at the set height on the lifting board 6, the power roller b602 conveys the corrugated boards into the top box 2, the lifting plate 6 automatically resets the left lower side of the top box 2 after the corrugated boards are stacked in the top box 2, the lifting plate 6 and the lower side of the direction adjusting plate 701 are on the same straight line, at the moment, the direction adjusting plate 701 is used for adjusting the direction, the corrugated boards move on the lifting plate 6 along the direction adjusting plate 701, and therefore the automatic screening operation process of the paper product manufacturing system according to the thickness of the corrugated boards is completed.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (10)

1. Paper product manufacturing system with intelligent collection function, characterized by, includes: the device comprises a bottom box (1) and a top box (2), wherein the top box (2) is correspondingly arranged on the upper side in the middle of the bottom box (1); the upright stanchion a (3), the upright stanchion a (3) is vertically and fixedly arranged on the upper side end face of the bottom case (1); the upright post b (4) is vertically and fixedly arranged on the upper side end face of the bottom case (1), and the upright post b (4) is arranged right behind the upright post a (3); the upright stanchion c (5) is vertically and fixedly arranged on the upper side end face of the bottom case (1), and the upright stanchion c (5) is arranged right behind the upright stanchion b (4); the lifting plate (6) is slidably mounted on the outer end face of the front side of the top box (2); the sliding blocks (7) are respectively installed on the vertical rods (c) (5) in a vertically sliding mode; the pair of limiting rods (8) are respectively arranged on the pair of upright rods (b (4) in a penetrating manner; the cross rods (9), one cross rod (9) transversely runs through and is installed in the pair of vertical rods a (3).

2. The paper product manufacturing system with intelligent collection of claim 1, wherein: the bottom box (1) comprises a groove (101), a power roller a (102) and a bottom plate (103), and the groove (101) is formed in the bottom box (1); the power roller a (102) is rotatably arranged on the middle front side of the bottom box (1); the bottom plate (103) is fixedly arranged on the outer end face of the front side of the bottom box (1).

3. The paper product manufacturing system with intelligent collection of claim 2, wherein: the top box (2) comprises inserting blocks (201) and square grooves (202), a group of inserting blocks (201) are respectively arranged on the lower side end face of the top box (2), and the inserting blocks (201) are respectively and correspondingly arranged in the grooves (101); the two square grooves (202) are respectively arranged at the left end and the right end of the front side of the top box (2), and the lifting plate (6) is slidably arranged in the square grooves (202).

4. The paper product manufacturing system with intelligent collection of claim 1, wherein: pole setting a (3) include spout a (301), spout a (301) are seted up on pole setting a (3), and horizontal pole (9) slidable mounting is in spout a (301).

5. The paper product manufacturing system with intelligent collection of claim 1, wherein: pole setting b (4) include round hole (401), round hole (401) are seted up on pole setting b (4), and gag lever post (8) rotate and install in round hole (401).

6. The paper product manufacturing system with intelligent collection of claim 1, wherein: the vertical rod c (5) comprises a sliding groove b (501), the sliding groove b (501) is arranged on the vertical rod c (5), and the sliding block (7) is slidably mounted in the sliding groove b (501).

7. The paper product manufacturing system with intelligent collection of claim 3, wherein: the lifting plate (6) comprises telescopic rods (601) and power rollers b (602), the top ends of the lower sides of the two telescopic rods (601) are respectively connected and mounted at the left end and the right end of the upper side of the lifting plate (6), and the top ends of the upper sides of the two telescopic rods (601) are respectively connected and mounted at the upper end of the inner side of the square groove (202); and a group of power rollers b (602) are respectively and rotatably arranged in the lifting plate (6).

8. The paper product manufacturing system with intelligent collection of claim 1, wherein: the sliding blocks (7) comprise direction adjusting plates (701), and the direction adjusting plates (701) are fixedly installed on the middle inner sides of the sliding blocks (7).

9. The paper product manufacturing system with intelligent collection of claim 1, wherein: the limiting rod (8) comprises circular rings (801), the circular rings (801) are fixedly mounted at the top ends of the two sides of the limiting rod (8) respectively, the circular rings (801) mounted on the front side are connected to the cross rod (9) in a sleeved mode respectively, and the circular rings (801) mounted on the rear side are connected to the sliding block (7) in a sleeved mode respectively.

10. The paper product manufacturing system with intelligent collection of claim 1, wherein: the cross rod (9) comprises supporting rods (901) and small wheels (902), and a group of the supporting rods (901) are vertically arranged on the cross rod (9) respectively; the small wheel (902) is rotatably arranged on the support rod (901).

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