CN117208460A - Corrugated carton printer with stacking and paving functions - Google Patents

Abstract

The application relates to the field of printing equipment, in particular to a corrugated carton printer with a stacking and paving function, which comprises a frame, wherein a printing mechanism and a conveyor belt mechanism are arranged on the frame; one end of the frame is provided with a spreading mechanism for spreading the cartons and conveying the cartons onto the conveyor belt mechanism; the stacking mechanism is arranged at the other end of the frame to collect and stack the cartons output by the conveyor belt mechanism. According to the corrugated case printer with the stacking and paving function, the paving mechanism is arranged in the corrugated case printer, and a plurality of stacked cartons can be led out one by one through the paving mechanism, so that the cartons are sequentially paved on the conveying belt mechanism and conveyed to the lower part of the printing mechanism through the conveying belt mechanism to be printed through the printing mechanism.

Description

Corrugated carton printer with stacking and paving functions

Technical Field

The application relates to the field of printing equipment, in particular to a corrugated carton printer with a stacking and paving function.

Background

The corrugated board is manufactured into the corrugated paper box through die cutting, indentation, nailing or sticking. Corrugated cartons are the most widely used packaging products, and the dosage is always the first of various packaging products. The corrugated paper box gradually replaces transport packaging containers such as wooden boxes and the like with excellent usability and good processing performance, and becomes the main force of transport packaging. It not only protects commodity, is convenient for storage, transportation, but also plays the role of beautifying commodity and propaganda commodity. The corrugated case belongs to an environment-friendly product, which is favorable for environmental protection and loading, unloading and transportation.

When the corrugated case is used, information such as characters and patterns are required to be printed generally, in the prior art, when the corrugated case is printed, a plurality of corrugated cases stacked together are required to be manually fed below a printer one by one, and after printing, the corrugated cases are manually stacked, so that more manpower is consumed, the labor intensity is high, and the printing processing efficiency is low.

Disclosure of Invention

The application aims to provide a device which effectively solves the problems in the prior art.

In order to achieve the above purpose, the application provides a corrugated carton printing machine with stacking and paving functions, which comprises a frame, wherein a printing mechanism and a conveyor belt mechanism are arranged on the frame, and the printing mechanism is positioned in the middle of the conveyor belt mechanism so as to print cartons driven on the conveyor belt mechanism; one end of the frame is provided with a spreading mechanism for spreading the cartons and conveying the cartons onto the conveyor belt mechanism; the stacking mechanism is arranged at the other end of the frame to collect and stack the cartons output by the conveyor belt mechanism.

Optionally, the spreading mechanism comprises a blanking box, the blanking box is fixed on the frame, and a carton outlet is formed in one side of the blanking box, which is close to the input end of the conveyor belt mechanism; the bottom surface of the blanking box is in sliding fit with a separate-paving ejection mechanism which is connected with a power mechanism arranged on the blanking box.

Optionally, sliding fit vertical regulating plate on the unloading case, vertical regulating plate lower extreme inserts in the carton export, and vertical regulating plate upper end rotates and connects heightening screw one end, heightening screw other end threaded connection is on the unloading case.

Optionally, the separate-paving ejection mechanism comprises a guide sliding frame, the guide sliding frame slides in a cross slideway on the bottom surface of the blanking box, one end of the guide sliding frame, which is close to the conveying belt mechanism, is in sliding fit with an ejection block, a longitudinal sliding groove is arranged in the middle of the ejection block, a vertical screw rod is fixed in the longitudinal sliding groove, the middle of the vertical screw rod slides on the guide sliding frame, a limit nut is in threaded fit on the vertical screw rod, the limit nut is blocked on the bottom surface of the guide sliding frame, a tensioning pressure spring is sleeved on the vertical screw rod, and the tensioning pressure spring is positioned between the guide sliding frame and the top surface of the longitudinal sliding groove; one end of the guide sliding frame, which is far away from the conveying belt mechanism, is fixed at the upper end of the vertical rod, the lower end of the vertical rod is fixed at one end of the transverse connecting rod, and the transverse connecting rod is fixed at the movable end of the power mechanism.

Optionally, the top of the ejection block is rotationally connected with a rotary roller; one side of the ejection block away from the conveyor belt mechanism is provided with an inclined plane.

Optionally, the corrugated case printer with stacking and paving functions further comprises a centering clamping plate mechanism; the centering clamping plate mechanism comprises a pushing and pressing connecting rod, one end of a guide transverse plate is fixed by the pushing and pressing connecting rod, the middle part of the guide transverse plate slides in a guide sliding sleeve on the bottom surface of the frame, and a limiting block is fixed at the other end of the guide transverse plate; the pushing connecting rod is positioned at the inner end of the transverse connecting rod and is contacted with the transverse connecting rod when the transverse connecting rod moves towards the direction of the conveyor belt mechanism; two ends of the pushing connecting rod respectively rotate one end of an inclined connecting rod, the other ends of the two inclined connecting rods are rotationally connected with two transmission frames, and the inner end of each transmission frame is connected with the frame through a plurality of reset pressure springs; the two transmission frames are fixed at the outer ends of the two rectangular sliding plates, the middle parts of the two rectangular sliding plates slide at the two ends of the frame, the inner ends of the two rectangular sliding plates are respectively provided with a rectangular sliding groove, a clamping plate body is respectively matched in the two rectangular sliding grooves in a sliding way, and a plurality of buffer pressure springs are respectively fixed between the two clamping plate bodies and the inner side surfaces of the two rectangular sliding grooves; the two clamping plate bodies relatively slide on the top surface of the conveyor belt mechanism.

Optionally, the splint body inner rotates and connects a plurality of deflector rolls placed in the middle of setting side by side, and the axis of deflector roll placed in the middle is perpendicular to conveyer belt mechanism top surface.

Optionally, the printing mechanism is installed above the lifting sliding frame, the middle part of the lifting sliding frame slides on the frame, the lower part of the lifting sliding frame is fixed at the movable end of the electric push rod, and the fixed end of the electric push rod is fixed on the frame.

Optionally, the conveyor belt mechanism comprises a conveyor belt body, the conveyor belt body is sleeved on a plurality of conveyor rollers, the plurality of conveyor rollers rotate on the frame side by side, and two ends of the conveyor belt body are respectively matched with the spreading mechanism and the stacking mechanism; the outer end of one conveying roller is connected with a speed reducer.

Optionally, the stacking mechanism is including installing the case that stacks in the frame, and the one side that stacks the case and be close to conveyer belt mechanism output is equipped with the carton and leads into the mouth, and sliding fit movable supporting plate in the case that stacks, the fixed lift slider of movable supporting plate one end, the lift slider slides in the sideslip way of stacking the case side, and lift slider screw thread fit is on the lead screw, and lead screw one end is connected with the control motor output who installs in stacking the case outside.

The beneficial effects of the application are as follows:

according to the corrugated case printer with the stacking and paving function, the paving mechanism is arranged in the corrugated case printer, a plurality of stacked cartons can be led out one by one through the paving mechanism, so that the cartons are sequentially paved on the conveying belt mechanism and conveyed to the lower part of the printing mechanism through the conveying belt mechanism to be printed through the printing mechanism; the inside is also provided with a stacking mechanism which can collect and stack the cartons output by the conveyor belt mechanism; the spreading and stacking of the cartons are completed manually without relying on manpower, so that the labor intensity is reduced, and the printing and processing efficiency of the cartons is improved effectively; the inside still is equipped with splint mechanism placed in middle, can carry out centering to the carton of spreading on conveyer belt mechanism and put in close the processing for carton direction is adjusted, improves the accuracy of printing position.

In order to make the above objects, features and advantages of the present application more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the related art, the drawings that are required to be used in the description of the embodiments or the related art will be briefly described, and it is apparent that the drawings in the description below are some embodiments of the present application, and other drawings may be obtained according to the drawings without inventive effort for those skilled in the art.

FIG. 1 is a schematic diagram of an overall structure according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an overall structure according to an embodiment of the present application;

FIG. 3 is a cross-sectional view of an overall structure provided by an embodiment of the present application;

fig. 4 is a schematic structural diagram of a rack according to an embodiment of the present application;

FIG. 5 is a schematic diagram of a conveyor belt mechanism according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a paving mechanism according to an embodiment of the present application;

fig. 7 is a schematic structural diagram II of a paving mechanism according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of a split-spread ejection mechanism according to an embodiment of the present application;

fig. 9 is a schematic structural diagram II of a separate-paving ejection mechanism according to an embodiment of the present application;

fig. 10 is a schematic structural diagram of a stacking mechanism according to an embodiment of the present application;

fig. 11 is a schematic view of a centering cleat mechanism according to an embodiment of the present application.

Icon: a frame 1; a printing mechanism 2; a conveyor belt mechanism 3; a conveyor belt body 301; a conveying roller 302; a speed reducer 303; a spreading mechanism 4; a blanking box 401; a longitudinal adjustment plate 402; a height-adjusting screw 403; a stacking mechanism 5; a stack box 501; a movable pallet 502; a lead screw 503; a separate-paving ejection mechanism 6; a guide carriage 601; an ejector block 602; a vertical screw 603; tensioning the compression spring 604; a cross link 605; a rotating roller 606; a centering cleat mechanism 7; pushing the link 701; a guide cross plate 702; a diagonal link 703; a drive rack 704; resetting a compression spring 705; a rectangular slide plate 706; a cleat body 707; centering guide roller 708.

Detailed Description

In order to enable those skilled in the art to better understand the technical solutions of the present application, the technical solutions of the embodiments of the present application will be clearly and completely described below, and it is obvious that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It will be understood that when an element is referred to as being "fixed" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element; when an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are merely for convenience in describing and simplifying the description based on the orientation or positional relationship shown in the drawings, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" or "a number" means two or more, unless specifically defined otherwise.

It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the application to the extent that it can be practiced, since modifications, changes in the proportions, or otherwise, used in the practice of the application, are not intended to be critical to the essential characteristics of the application, but are intended to fall within the spirit and scope of the application. Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the application, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the application may be practiced.

The application is described in further detail below with reference to fig. 1-11.

As shown in fig. 1-11, a corrugated carton printing machine with stacking and paving functions comprises a frame 1, wherein a printing mechanism 2 and a conveyor belt mechanism 3 are arranged on the frame 1, and the printing mechanism 2 is positioned in the middle of the conveyor belt mechanism 3 so as to print cartons driven on the conveyor belt mechanism 3; one end of the frame 1 is provided with a spreading mechanism 4 for spreading the stacked multi-layer cartons and conveying the cartons to the conveyor belt mechanism 3; the other end of the frame 1 is provided with a stacking mechanism 5 for collecting and stacking cartons output by the conveyor belt mechanism 3.

When the corrugated carton printer with the stacking and paving function is used, stacked cartons are put into the paving mechanism 4, a plurality of stacked cartons can be led out one by one through the paving mechanism 4, so that the cartons are sequentially paved on the conveyor mechanism 3 and conveyed to the lower part of the printing mechanism 2 through the conveyor mechanism 3 to be printed through the printing mechanism 2, and the printing mechanism 2 adopts printing equipment purchased in the market; after the paper box is printed, the paper box is conveyed to the direction of the stacking mechanism 5 through the conveying belt mechanism 3 and is conveyed into the stacking mechanism 5 for stacking and collecting, and the automatic paper box printing machine realizes automation of paper box printing, so that the spreading and stacking of the paper box are not required to be completed manually by manpower, the labor cost is reduced, the labor intensity is reduced, and the printing and processing efficiency of the paper box is effectively improved.

The spreading mechanism 4 comprises a blanking box 401, the blanking box 401 is fixed on the frame 1, and a carton outlet is formed in one side, close to the input end of the conveyor belt mechanism 3, of the blanking box 401; the bottom surface of the blanking box 401 is in sliding fit with a separate-paving ejection mechanism 6, and the separate-paving ejection mechanism 6 is connected with a power mechanism arranged on the blanking box 401.

The spreading mechanism 4 is used for leading out a plurality of cartons stacked together one by one, so that the cartons are sequentially spread on the conveyor belt mechanism 3, and printing treatment is carried out; when the carton feeding device is used, a plurality of stacked cartons are put into the blanking box 401, then a power mechanism is started, after the power mechanism is started, the cartons of which the parts of the separate-paving ejection mechanism 6 are positioned at the lowest layer of the blanking box 401 are ejected out of carton outlets, so that the cartons are sequentially ejected onto the conveying belt mechanism 3, and the conveying belt mechanism 3 and the carton outlets are matched and arranged, so that the cartons are conveniently received; the power mechanism can adopt an electric telescopic rod, and the jacking and paving work of a plurality of cartons is realized through the reciprocating telescopic movement of the electric telescopic rod.

The blanking box 401 is in sliding fit with a longitudinal adjusting plate 402, the lower end of the longitudinal adjusting plate 402 is inserted into the carton outlet, the upper end of the longitudinal adjusting plate 402 is rotationally connected with one end of a height adjusting screw 403, and the other end of the height adjusting screw 403 is in threaded connection with the blanking box 401.

The position of the vertical adjusting plate 402 inserted into the carton outlet can be adjusted, the contact position between the vertical adjusting plate 402 and the blanking box 401 can be changed by rotating the height adjusting screw 403, the height position of the vertical adjusting plate 402 can be adjusted, and finally the opening size of the carton outlet can be changed, so that the carton box lifting and spreading machine is suitable for the top feeding and spreading work of cartons with different thicknesses, excessive ejection of cartons is prevented, the adjustment is very convenient, and the practicability is strong.

The separate-paving ejection mechanism 6 comprises a guide sliding frame 601, the guide sliding frame 601 slides in a cross slideway on the bottom surface of the blanking box 401, one end of the guide sliding frame 601 close to the conveying belt mechanism 3 is in sliding fit with an ejection block 602, a longitudinal sliding groove is formed in the middle of the ejection block 602, a vertical screw 603 is fixed in the longitudinal sliding groove, the middle of the vertical screw 603 slides on the guide sliding frame 601, a limit nut is in threaded fit on the vertical screw 603, the limit nut is blocked on the bottom surface of the guide sliding frame 601, a tensioning pressure spring 604 is sleeved on the vertical screw 603, and the tensioning pressure spring 604 is positioned between the guide sliding frame 601 and the top surface of the longitudinal sliding groove; the end of the guide carriage 601 far away from the conveyor belt mechanism 3 is fixed at the upper end of a vertical rod, the lower end of the vertical rod is fixed at one end of a transverse connecting rod 605, and the transverse connecting rod 605 is fixed at the movable end of the power mechanism.

The transverse connecting rod 605 in the separate-paving ejection mechanism 6 is connected with a power mechanism, and can move horizontally under the drive of the power mechanism, when the paper box at the lowest layer of the blanking box 401 is required to be ejected from a paper box outlet, the power mechanism drives the connecting rod 605 to move towards the conveying belt mechanism 3, the transverse connecting rod 605 drives the guide carriage 601 to move towards the conveying belt mechanism 3 in a cross slideway at the bottom surface of the blanking box 401 through a vertical rod, and an ejection block 602 at one end of the guide carriage 601 is ejected on the side part of the paper box, so that the paper box is ejected onto the conveying belt mechanism 3 from the paper box outlet; the height position of the ejection block 602 can be adjusted, when the height position is adjusted, the position of the limit nut contacted with the vertical screw 603 can be changed by rotating the limit nut, so that the vertical screw 603 is driven to slide on the guide carriage 601 and compress the tensioning pressure spring 604, finally the length of the ejection block 602 extending to the upper part of the guide carriage 601 is adjusted, the highest position of the ejection block 602 is changed, and the height adjusting device is suitable for ejection work of cartons with different thicknesses.

The top of the ejection block 602 is rotatably connected with a rotary roller 606; the side of the ejector block 602 facing away from the conveyor 3 is provided with a bevel.

When the ejection block 602 moves, as the top of the ejection block is provided with the rotary roller 606, when the ejection block ejects the paper box at the lowest layer, the rotary roller 606 contacts with the top surface of the paper box at the upper layer, and the rotary roller 606 rotates along with the friction contact with the paper box at the upper layer, so that the friction resistance of the ejection block 602 during movement can be reduced, and the friction damage of the ejection block to the paper box at the upper layer can be reduced; the inclined plane is arranged on one side of the ejection block 602 away from the conveyor belt mechanism 3, so that after the carton at the lowest layer is ejected, the inclined plane of the ejection block 602 is contacted with the carton to be ejected at first when resetting, so that a pushing force obliquely upwards is generated on the carton, resetting of the ejection block 602 is facilitated, and when resetting, the inclined plane of the ejection block 602 is contacted with the carton to be ejected, the ejection block 602 can compress the tensioning pressure spring 604 under the gravity of the carton, so that the resistance during resetting is reduced, and the resetting effect is improved.

The corrugated case printer with the stacking and paving function further comprises a centering clamping plate mechanism 7; the centering clamping plate mechanism 7 comprises a pushing connecting rod 701, one end of a guide transverse plate 702 is fixed by the pushing connecting rod 701, the middle part of the guide transverse plate 702 slides in a guide sliding sleeve on the bottom surface of the frame 1, and a limiting block is fixed at the other end of the guide transverse plate 702; the pressing link 701 is located inside the cross link 605 to contact the cross link 605 when the cross link 605 moves in the direction of the conveyor belt mechanism 3; two ends of the pushing connecting rod 701 respectively rotate one end of an inclined connecting rod 703, the other ends of the two inclined connecting rods 703 are rotationally connected with two transmission frames 704, and the inner end of each transmission frame 704 is connected with the frame 1 through a plurality of reset pressure springs 705; the two transmission frames 704 are fixed at the outer ends of the two rectangular sliding plates 706, the middle parts of the two rectangular sliding plates 706 slide at the two ends of the frame 1, rectangular sliding grooves are respectively formed in the inner ends of the two rectangular sliding plates 706, a clamping plate body 707 is respectively matched in the two rectangular sliding grooves in a sliding manner, and a plurality of buffer pressure springs are respectively fixed between the two clamping plate bodies 707 and the inner side surfaces of the two rectangular sliding grooves; the two cleat bodies 707 slide relatively over the top surface of the conveyor belt mechanism 3.

The application is internally provided with a centering clamping plate mechanism 7, after the power mechanism drives the transverse connecting rod 605 to move for a certain distance, the transverse connecting rod 605 can be contacted with the pushing connecting rod 701 and pushes the pushing connecting rod 701 to move towards the conveying belt mechanism 3, at the moment, the pushing connecting rod 701 drives one end of the two inclined connecting rods 703 to move towards the conveying belt mechanism 3, the other end of the two inclined connecting rods 703 drives the two transmission frames 704 to move towards each other and compress the plurality of reset pressure springs 705, the two transmission frames 704 drive the two rectangular sliding plates 706 to slide towards each other on the frame 1, so that the two clamping plate bodies 707 are driven to move towards each other, the paper boxes paved on the conveying belt mechanism 3 are centered and returned through the two clamping plate bodies 707, the direction of the paper boxes is aligned, the accuracy of printing positions is improved, a plurality of buffer pressure springs are fixed between the two clamping plate bodies 707 and the inner side faces of the two rectangular sliding grooves, a certain amplitude of elastic buffer springs are arranged between the clamping plate bodies 707 and the side faces of the paper boxes, and the centering damage is ensured, and the paper boxes are reduced.

The inner end of the clamping plate body 707 is rotatably connected with a plurality of centering guide rollers 708 which are arranged side by side, and the axis of the centering guide rollers 708 is perpendicular to the top surface of the conveyor belt mechanism 3. The arrangement of the plurality of centering guide rollers 708 which are arranged side by side at the inner ends of the clamping plate bodies 707 ensures that the pushing of the cartons by the ejection blocks 602 and the conveying of the cartons by the conveyor belt mechanism 3 are not affected when the cartons are centered and gathered by the two clamping plate bodies 707.

The printing mechanism 2 is arranged above the lifting sliding frame, the middle part of the lifting sliding frame slides on the frame 1, the lower part of the lifting sliding frame is fixed at the movable end of the electric push rod, and the fixed end of the electric push rod is fixed on the frame 1.

The electric push rod can drive the lifting sliding frame to perform lifting motion after being started, and the lifting sliding frame is used for driving the height position of the printing mechanism 2 to be adjusted, when the paper box is conveyed to the lower side of the printing mechanism 2, the printing mechanism 2 is controlled to descend and contact with the paper box, so that printing work is completed, and after printing is completed, the printing mechanism 2 is controlled to ascend, so that the output of the paper box is not affected.

The conveyor belt mechanism 3 comprises a conveyor belt body 301, the conveyor belt body 301 is sleeved on a plurality of conveyor rollers 302, the conveyor rollers 302 are rotated on the frame 1 side by side, and two ends of the conveyor belt body 301 are respectively matched with the spreading mechanism 4 and the stacking mechanism 5; the outer end of one conveying roller 302 is connected with a speed reducer 303.

The speed reducer 303 can drive the conveying rollers 302 to rotate after being started, when the conveying rollers 302 rotate, the conveying rollers 302 can be driven to synchronously rotate through the conveying belt body 301, and the conveying operation of the cartons is driven through the rotation of the conveying belt body 301; the top surface of the conveyor belt body 301 is coplanar with the bottom surface of the interior of the blanking box 401, so as to realize smooth guiding-out of the cartons.

The stacking mechanism 5 comprises a stacking box 501 arranged on the frame 1, a paper box inlet is formed in one side, close to the output end of the conveyor belt mechanism 3, of the stacking box 501, a movable supporting plate 502 is slidably matched with the stacking box 501, a lifting sliding block is fixed at one end of the movable supporting plate 502 and slides in a side sliding channel on the side face of the stacking box 501, the lifting sliding block is in threaded fit with a lead screw 503, and one end of the lead screw 503 is connected with the output end of a control motor arranged on the outer side of the stacking box 501.

The carton stacking device is characterized in that a carton inlet is formed in one side, close to the output end of the conveyor belt mechanism 3, of the stacked cartons 501, the printed cartons can be output to the carton inlet through the conveyor belt mechanism 3 and are conveyed to the movable supporting plate 502, the cartons are supported through the movable supporting plate 502, the height of the movable supporting plate 502 is gradually reduced along with gradual output of a plurality of cartons, the cartons are stacked, the height of the movable supporting plate 502 is adjusted through a control motor, the control motor can drive a lead screw 503 to rotate after being started, the contact position of the lead screw 503 with a lifting sliding block is changed when the lead screw 503 rotates, and accordingly the movable supporting plate 502 is driven to slide in the stacked cartons 501 through the lifting sliding block, and the position of the movable supporting plate 502 is adjusted.

In the description, each embodiment is described in a progressive manner, and each embodiment is mainly described by the differences from other embodiments, so that the same similar parts among the embodiments are mutually referred. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the application can be made without departing from the principles of the application and these modifications and adaptations are intended to be within the scope of the application as defined in the following claims.

Claims (10)

1. The corrugated carton printer with the stacking and paving function is characterized by comprising a frame (1), wherein a printing mechanism (2) and a conveying belt mechanism (3) are arranged on the frame (1), and the printing mechanism (2) is positioned in the middle of the conveying belt mechanism (3) so as to print cartons driven on the conveying belt mechanism (3); one end of the frame (1) is provided with a spreading mechanism (4) for spreading the stacked multi-layer cartons and conveying the cartons to the conveyor belt mechanism (3); the other end of the frame (1) is provided with a stacking mechanism (5) for collecting and stacking cartons output by the conveyor belt mechanism (3).

2. The corrugated carton printing machine with the stacking and paving function according to claim 1, wherein the paving mechanism (4) comprises a blanking box (401), the blanking box (401) is fixed on the frame (1), and a carton outlet is formed in one side, close to the input end of the conveying belt mechanism (3), of the blanking box (401); the bottom surface of the blanking box (401) is in sliding fit with a separate-paving ejection mechanism (6), and the separate-paving ejection mechanism (6) is connected with a power mechanism arranged on the blanking box (401).

3. The corrugated case printer with the stacking and paving function according to claim 2, wherein the blanking box (401) is in sliding fit with a longitudinal adjusting plate (402), the lower end of the longitudinal adjusting plate (402) is inserted into a carton outlet, the upper end of the longitudinal adjusting plate (402) is rotatably connected with one end of a height adjusting screw (403), and the other end of the height adjusting screw (403) is in threaded connection with the blanking box (401).

4. A corrugated case printer with stacking and paving functions according to claim 3, wherein the separate paving ejection mechanism (6) comprises a guide sliding frame (601), the guide sliding frame (601) slides in a cross slideway on the bottom surface of the blanking box (401), one end of the guide sliding frame (601) close to the conveying belt mechanism (3) is in sliding fit with an ejection block (602), a longitudinal sliding groove is formed in the middle of the ejection block (602), a vertical screw (603) is fixed in the longitudinal sliding groove, the middle of the vertical screw (603) slides on the guide sliding frame (601), a limit nut is in threaded fit with the vertical screw (603), the limit nut is blocked on the bottom surface of the guide sliding frame (601), a tensioning pressure spring (604) is sleeved on the vertical screw (603), and the tensioning pressure spring (604) is located between the guide sliding frame (601) and the top surface of the longitudinal sliding groove; one end of the guide sliding frame (601) far away from the conveying belt mechanism (3) is fixed at the upper end of the vertical rod, the lower end of the vertical rod is fixed at one end of the transverse connecting rod (605), and the transverse connecting rod (605) is fixed at the movable end of the power mechanism.

5. The corrugated box printer with stacking and paving function according to claim 4, wherein the top of the ejection block (602) is rotatably connected with a rotary roller (606); an inclined plane is arranged on one side of the ejection block (602) away from the conveyor belt mechanism (3).

6. A corrugated box printer with stacking and paving function according to claim 4, further comprising a centering clamping plate mechanism (7); the centering clamping plate mechanism (7) comprises a pushing connecting rod (701), one end of a guide transverse plate (702) is fixed by the pushing connecting rod (701), the middle part of the guide transverse plate (702) slides in a guide sliding sleeve on the bottom surface of the frame (1), and a limiting block is fixed at the other end of the guide transverse plate (702); the pushing link (701) is positioned inside the transverse link (605) to be in contact with the transverse link (605) when the transverse link (605) moves in the direction of the conveyor belt mechanism (3); two ends of the pushing connecting rod (701) respectively rotate one end of an inclined connecting rod (703), the other ends of the two inclined connecting rods (703) are rotationally connected with two transmission frames (704), and the inner end of each transmission frame (704) is connected with the frame (1) through a plurality of reset pressure springs (705); the two transmission frames (704) are fixed at the outer ends of two rectangular sliding plates (706), the middle parts of the two rectangular sliding plates (706) slide at the two ends of the frame (1), rectangular sliding grooves are respectively arranged at the inner ends of the two rectangular sliding plates (706), a clamping plate body (707) is respectively matched in the two rectangular sliding grooves in a sliding manner, and a plurality of buffer pressure springs are respectively fixed between the two clamping plate bodies (707) and the inner sides of the two rectangular sliding grooves; the two clamp plate bodies (707) slide relatively on the top surface of the conveyor belt mechanism (3).

7. A corrugated box printing machine with stacking and paving function according to claim 6, characterized in that the inner end of the clamping plate body (707) is rotatably connected with a plurality of centering guide rollers (708) arranged side by side, and the axis of the centering guide rollers (708) is perpendicular to the top surface of the conveying belt mechanism (3).

8. The corrugated case printer with the stacking and paving function according to claim 1, wherein the printing mechanism (2) is arranged above a lifting sliding frame, the middle part of the lifting sliding frame slides on a frame (1), the lower part of the lifting sliding frame is fixed at the movable end of an electric push rod, and the fixed end of the electric push rod is fixed on the frame (1).

9. The corrugated case printer with the stacking and paving function according to claim 1, wherein the conveyor belt mechanism (3) comprises a conveyor belt body (301), the conveyor belt body (301) is sleeved on a plurality of conveyor rollers (302), the plurality of conveyor rollers (302) are rotated on the frame (1) side by side, and two ends of the conveyor belt body (301) are respectively matched with the paving mechanism (4) and the stacking mechanism (5); the outer end of one conveying roller (302) is connected with a speed reducer (303).

10. The corrugated case printer with the stacking and paving function according to claim 1, wherein the stacking mechanism (5) comprises a stacking case (501) arranged on the frame (1), a paper case inlet is formed in one side, close to the output end of the conveying belt mechanism (3), of the stacking case (501), a movable supporting plate (502) is slidably matched in the stacking case (501), a lifting sliding block is fixed at one end of the movable supporting plate (502), the lifting sliding block slides in a side slideway on the side surface of the stacking case (501), the lifting sliding block is in threaded fit with a lead screw (503), and one end of the lead screw (503) is connected with the output end of a control motor arranged on the outer side of the stacking case (501).