CN116281034B

CN116281034B - Corrugated board digital ink-jet printer

Info

Publication number: CN116281034B
Application number: CN202310278280.1A
Authority: CN
Inventors: 方明
Original assignee: Cangzhou Myang Automation Technology Co ltd
Current assignee: Cangzhou Myang Automation Technology Co ltd
Priority date: 2023-03-21
Filing date: 2023-03-21
Publication date: 2023-08-25
Anticipated expiration: 2043-03-21
Also published as: CN116281034A

Abstract

The invention relates to the technical field of printer ink-jet, in particular to a corrugated board digital ink-jet printer. The invention provides a corrugated board digital ink-jet printer which can automatically align and compact corrugated boards in the feeding process. The corrugated board digital ink-jet printer comprises a printer and the like, and also comprises an alignment mechanism and a compaction mechanism, wherein the alignment mechanism is arranged at the left front part of the printer, and the compaction mechanism is arranged at the upper part of the positioning plate. According to the invention, the left side and the right side of the corrugated board can be automatically aligned through inward movement of the positioning plate, meanwhile, when the positioning plate drives the first extrusion frame and the second extrusion frame to move inwards, the first extrusion frame can extrude the calibration frame to rotate backwards to align the front side and the rear side of the corrugated board, the second extrusion frame can downwardly extrude the compaction frame to compact the corrugated board, so that the corrugated board can be automatically aligned and compacted when the corrugated board is fed, and the labor cost is reduced.

Description

Corrugated board digital ink-jet printer

Technical Field

The invention relates to the technical field of printer ink-jet, in particular to a corrugated board digital ink-jet printer.

Background

In the production process of corrugated boards, digital ink-jet printing is required to be carried out on the corrugated boards by using a printer, and in the printing process, feeding work is required to be carried out on the corrugated boards.

Patent publication number is CN 215662504U's patent discloses a corrugated container board inkjet printing device, which comprises a case, the feeding platform of level setting is installed to one side of machine case, the equal level in upside both ends of feeding platform is provided with the expansion plate, and during the use, place corrugated container board on feeding platform earlier, then manual drive expansion plate carries out the motion of vertical direction simultaneously for both ends about the auxiliary roller all supports corrugated container board, so can accomplish corrugated container board's material loading work, can carry and print corrugated container board afterwards.

When the corrugated board of the above patent is fed, the auxiliary roller is driven manually to adjust the left and right positions of the corrugated board, the corrugated board is positioned, and when people need to align the front and back of the corrugated board or press the corrugated board, the front and back positions of the corrugated board can be adjusted manually, and the corrugated board is compacted manually, so that the corrugated board is aligned and compacted manually for many times during each feeding, the labor cost is high, and the printing efficiency is affected.

Disclosure of Invention

In order to overcome the defect that the corrugated board needs to be aligned manually in the prior art and has low working efficiency, the invention provides the corrugated board digital ink-jet printer capable of automatically aligning and compacting the corrugated board in the feeding process.

The corrugated board digital ink-jet printer comprises a printer, a double-shaft motor, a screw rod, a positioning plate and a conveyor, wherein the middle of the front side of the upper part of the printer is connected with the double-shaft motor, the output shaft of the double-shaft motor is connected with the screw rod, the screw rod is connected with the positioning plate in a threaded manner, the positioning plate is attached to the front side of the printer, the conveyor is mounted at the lower part of the printer, the printer further comprises an alignment mechanism and a compaction mechanism, the left front part of the printer is provided with the alignment mechanism, and the upper part of the positioning plate is provided with the compaction mechanism.

Further, alignment mechanism is including support frame, torsional spring, calibration frame and first extrusion frame, and the anterior sliding connection in printing machine has the support frame, and the support frame middle part rotation type is connected with the calibration frame, all is connected with the torsional spring between calibration frame lower part left and right sides and the support frame, and the torsional spring is all around rolling up on the support frame, and two equal sliding connection have first extrusion frame about the support frame, and first extrusion frame rear portion all is connected with locating plate lower part sliding connection, and first extrusion frame front portion inboard all inclines towards the outside and sets up behind, and first extrusion frame front portion inboard and calibration frame extrusion fit.

Further, compaction mechanism is including mount, second extrusion frame, compaction frame and reset spring, and locating plate upper portion all is connected with the second extrusion frame, and second extrusion frame inboard all inclines to upper and inner side and sets up, and upper portion left and right sides all is connected with the mount before the printing machine, and sliding connection has the compaction frame between the mount, compaction frame left and right sides and the inboard extrusion cooperation of second extrusion frame, all is connected with reset spring between compaction frame rear portion left and right sides and the mount, and reset spring all winds on the mount.

Further, the printing press further comprises an adjusting mechanism, the adjusting mechanism comprises an adjusting frame, a blocking piece and a compression spring, the adjusting frame is connected to the upper side of the right front portion of the printing press, the adjusting frame is toothed, the blocking piece is connected to the right portion of the supporting frame in a sliding mode, the right front side of the blocking piece is propped against the rear portion of the adjusting frame, and the compression spring is connected between the left side of the upper portion of the blocking piece and the supporting frame.

Further, the buffer mechanism comprises a buffer spring and a buffer frame, the buffer frame is connected to the compaction frame in a sliding mode, the buffer spring is connected between the left part and the right part of the buffer frame and the bottom of the compaction frame, and the buffer spring is wound on the buffer frame.

Further, the automatic feeding device also comprises an auxiliary mechanism, wherein the auxiliary mechanism comprises a servo motor, a belt and rolling elements, the lower parts of the rear parts of the positioning plates are respectively connected with the servo motor, rolling elements are respectively connected to output shafts of the servo motor, the rolling elements are respectively and rotatably connected to the lower parts of the front parts of the positioning plates, and the belt is wound between the upper parts of the two rolling elements which are symmetrical front and back through a conveying wheel.

Further, the automatic printing machine further comprises a moving mechanism, the moving mechanism comprises a pull rope, guide wheels and a treading frame, the guide wheels are connected in the middle of the upper side of the front part of the printing machine, the pull rope is connected to the middle of the calibration frame, the pull rope bypasses the guide wheels, and the treading frame is connected to the lower side of the pull rope.

Further, the pedal comprises an anti-slip pad, and the inner bottom wall of the pedal frame is connected with the anti-slip pad.

The beneficial effects are as follows: 1. according to the invention, the left side and the right side of the corrugated board can be automatically aligned through inward movement of the positioning plate, meanwhile, when the positioning plate drives the first extrusion frame and the second extrusion frame to move inwards, the first extrusion frame can extrude the calibration frame to rotate backwards to align the front side and the rear side of the corrugated board, the second extrusion frame can downwardly extrude the compaction frame to compact the corrugated board, so that the corrugated board can be automatically aligned and compacted when the corrugated board is fed, and the labor cost is reduced.

2. According to the invention, through the cooperation between the adjusting frame and the blocking piece, the adjusting frame can be limited after the adjusting frame adjusts the front and back positions, so that the adjusting frame can smoothly align corrugated boards with different sizes, and the alignment effect is improved.

3. According to the invention, through the cooperation between the buffer spring and the buffer frame, the pressure born by the corrugated board can be buffered, the indentation on the corrugated board is prevented, the printing quality of the corrugated board is improved, and the compacting effect of the corrugated board is not affected.

4. According to the invention, the rolling piece rotates backwards, so that the single corrugated board can be assisted to be conveyed backwards, the single corrugated board can be moved backwards, and the printing effect of the corrugated board is improved.

5. The pedal frame moves downwards, the calibration frame can be pulled forwards to rotate through the pull rope, so that people can conveniently place the corrugated board, and the printing efficiency of the corrugated board is improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective sectional view of the present invention.

Fig. 3 is a perspective cross-sectional view of the alignment mechanism of the present invention.

Fig. 4 is a schematic perspective view of a compacting mechanism of the present invention.

FIG. 5 is a partial perspective cross-sectional view of the compaction mechanism according to the present invention.

Fig. 6 is a schematic perspective view of the auxiliary mechanism of the present invention.

Fig. 7 is a schematic partial perspective view of the auxiliary mechanism of the present invention.

Fig. 8 is a schematic view of a first perspective structure of the adjusting mechanism of the present invention.

Fig. 9 is a schematic view of a second perspective of the adjusting mechanism of the present invention.

Fig. 10 is a schematic perspective view of a buffer mechanism according to the present invention.

Fig. 11 is a schematic perspective view of a moving mechanism according to the present invention.

Reference numerals: the printing press comprises a 1-printing press, a 2-biaxial motor, a 21-screw, a 22-positioning plate, a 3-conveyor, a 4-aligning mechanism, a 41-supporting frame, a 42-torsion spring, a 43-calibration frame, a 44-first extrusion frame, a 5-compacting mechanism, a 51-fixing frame, a 52-second extrusion frame, a 53-compacting frame, a 54-return spring, a 6-auxiliary mechanism, a 61-servo motor, a 62-belt, a 63-rolling member, a 7-adjusting mechanism, a 71-adjusting frame, a 72-blocking member, a 73-compression spring, a 8-buffering mechanism, a 81-buffering spring, a 82-buffering frame, a 9-moving mechanism, a 91-pulling rope, a 92-guiding wheel and a 93-treading frame.

Detailed Description

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

Example 1

The corrugated board digital ink-jet printer comprises a printer 1, a double-shaft motor 2, a screw rod 21, positioning plates 22, a conveyor 3, an alignment mechanism 4 and a compacting mechanism 5, wherein the double-shaft motor 2 is bolted in the middle of the front side of the upper part of the printer 1, the number of the screw rods 21 is two, the two screw rods 21 are respectively connected to the output shafts of the double-shaft motor 2 through couplings, the number of the positioning plates 22 is two, the two positioning plates 22 are respectively connected to the screw rods 21 in a threaded manner, the positioning plates 22 are attached to the front side of the printer 1, the conveyor 3 is arranged at the lower part of the printer 1, the left front part of the printer 1 is provided with the alignment mechanism 4, the alignment mechanism 4 can automatically align the front and the rear of the corrugated board, the upper part of the positioning plates 22 is provided with the compacting mechanism 5, and the compacting mechanism 5 can automatically compact the corrugated board.

As shown in fig. 1 and 3, the alignment mechanism 4 includes a supporting frame 41, torsion springs 42, a calibration frame 43 and a first extrusion frame 44, the supporting frame 41 is slidably connected to the left front portion of the printer 1, the calibration frame 43 is rotatably connected to the middle portion of the supporting frame 41, the number of the torsion springs 42 is two, the two torsion springs 42 are respectively connected between the left and right sides of the lower portion of the calibration frame 43 and the supporting frame 41, the torsion springs 42 are wound on the supporting frame 41, the number of the first extrusion frames 44 is two, the two first extrusion frames 44 are slidably connected to the left and right portions of the supporting frame 41, the rear portions of the first extrusion frames 44 are slidably connected to the lower portion of the positioning plate 22, the front inner sides of the first extrusion frames 44 are obliquely arranged towards the rear outer sides, and the front inner sides of the first extrusion frames 44 are in extrusion fit with the calibration frames 43.

As shown in fig. 1, 4 and 5, the compacting mechanism 5 includes two fixing frames 51, two second pressing frames 52, two compacting frames 53 and two return springs 54, the two second pressing frames 52 are respectively fixedly connected to the upper portion of the positioning plate 22, the inner sides of the second pressing frames 52 are all inclined toward the upper inner side, the number of the fixing frames 51 is two, the two fixing frames 51 are respectively connected to the left and right sides of the upper front portion of the printing machine 1, the compacting frames 53 are slidably connected between the fixing frames 51, the left and right sides of the compacting frames 53 are in press fit with the inner sides of the second pressing frames 52, the number of the return springs 54 is two, the two return springs 54 are respectively connected between the left and right sides of the rear portion of the compacting frames 53 and the fixing frames 51, and the return springs 54 are wound around the fixing frames 51.

When the corrugated board digital ink-jet printer 1 is used, firstly, corrugated boards to be printed are stacked on the front upper side of a conveyor 3, the stacked corrugated boards are positioned between two positioning boards 22 and behind a calibration frame 43, then a double-shaft motor 2 is started, the output shaft of the double-shaft motor 2 is controlled to perform forward and reverse rotation, then a screw rod 21 is driven to perform forward and reverse rotation, the positioning boards 22 are driven to perform internal and external movement, when the positioning boards 22 move inwards, the positioning boards 22 squeeze the left side and the right side of the corrugated boards, so that the left side and the right side of the corrugated boards are aligned, and when the positioning boards 22 move inwards, the positioning boards 22 also drive a first squeezing frame 44 to move inwards, then the calibration frame 43 is squeezed backwards, the calibration frame 43 rotates backwards, the torsion spring 42 is twisted, the backward rotation of the calibration frame 43 can squeeze the corrugated boards stacked on the conveyor 3 backwards, at this time, under the extrusion fit of the front side of the printer 1, the front and rear positions of the stacked corrugated boards can be aligned, then when the positioning plate 22 drives the first extrusion frame 44 to move outwards, and the alignment frame 43 is no longer extruded, the alignment frame 43 rotates forwards under the action of the torsion spring 42, and as the positioning plate 22 repeatedly drives the first extrusion frame 44 to move inwards and outwards, the alignment frame 43 also intermittently rotates backwards to align the front side and the rear side of the corrugated boards, so that the stacked corrugated boards can be automatically aligned intermittently, and when the positioning plate 22 moves inwards, the positioning plate 22 also drives the second extrusion frame 52 to move inwards, then the compaction frame 53 extrudes downwards to compact the corrugated boards, the gap between the corrugated boards is reduced, and then the reset spring 54 is compressed, and then when the positioning plate 22 drives the second extrusion frame 52 to move outwards, when not pressing compaction frame 53, under reset spring 54's effect, compaction frame 53 upwards moves to reset, so can intermittent type nature carry out the compaction to corrugated container board, after corrugated container board's material loading work is over, open printer 1 and conveyer 3, conveyer 3 can carry corrugated container board one by one backward, and when corrugated container board carries in printer 1 backward, printer 1 can carry out digital inkjet printing to corrugated container board, after corrugated container board printing finishes, with printer 1, biax motor 2 and conveyer 3 close, can print corrugated container board repeatedly the operation more, and at corrugated container board material loading's in-process, can be automatic to corrugated container board to right and compact, need not manual alignment and compaction, reduce labour cost.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 8 and 9, the device further comprises an adjusting mechanism 7, wherein the adjusting mechanism 7 comprises an adjusting frame 71, a blocking member 72 and a compression spring 73, the adjusting frame 71 is fixedly connected to the upper side of the right front part of the printer 1, the adjusting frame 71 is toothed, the blocking member 72 is slidably connected to the right part of the supporting frame 41, the right front side of the blocking member 72 is propped against the rear part of the adjusting frame 71, and the compression spring 73 is connected between the left side of the upper part of the blocking member 72 and the supporting frame 41.

When corrugated boards with different sizes are needed to be aligned, the adjusting mechanism 7 can be used for operation, if the size of the corrugated board to be aligned is larger, the blocking piece 72 is pulled leftwards, so that the right part of the blocking piece 72 is far away from the adjusting frame 71, then the compression spring 73 is compressed, then the supporting frame 41 and the calibration frame 43 are moved forwards, the distance between the calibration frame 43 and the front side of the upper part of the printer 1 is pulled away, after the supporting frame 41 and the calibration frame 43 are moved forwards to a destination, the blocking piece 72 is loosened, under the action of the compression spring 73, the blocking piece 72 is moved backwards to be clamped into the adjusting frame 71, at this moment, the adjusting frame 71 can limit the supporting frame 41 and the calibration frame 43 through the blocking piece 72, the corrugated board with larger size can be fed, in the feeding process, if the size of the corrugated board to be aligned is smaller, the supporting frame 41 is pushed backwards, in the moving process, then the blocking piece 72 can be moved leftwards and rightwards, the compression spring 73 is correspondingly compressed, and the corrugated board with different sizes can be aligned, so that the corrugated board with different size ranges can be aligned.

As shown in fig. 1 and 10, the device further comprises a buffer mechanism 8, the buffer mechanism 8 comprises buffer springs 81 and buffer frames 82, the buffer frames 82 are slidably connected to the compacting frame 53, the number of the buffer springs 81 is two, the two buffer springs 81 are respectively connected between the left and right parts of the buffer frames 82 and the bottom of the compacting frame 53, and the buffer springs 81 are wound on the buffer frames 82.

When the compacting frame 53 presses the corrugated board, if the pressure of the compacting frame 53 is high, the compacting frame 53 may leave an indentation on the corrugated board, in order to avoid this phenomenon, the buffer mechanism 8 may be used to operate, when the compacting frame 53 drives the buffer frame 82 to move downward, the buffer frame 82 compacts the corrugated board when the buffer frame 82 contacts with the uppermost corrugated board, and the uppermost corrugated board presses the buffer frame 82 upward, so that the buffer spring 81 is compressed, the pressure born by the corrugated board can be buffered, the indentation is avoided, when the compacting frame 53 drives the buffer frame 82 to move upward away from the corrugated board, the buffer frame 82 moves downward on the compacting frame 53 under the action of the buffer spring 81, so that the pressure born by the corrugated board can be buffered, the occurrence of the indentation on the corrugated board is prevented, and the compacting effect of the corrugated board is not affected.

As shown in fig. 1, 6 and 7, the auxiliary mechanism 6 is further included, the auxiliary mechanism 6 includes two servo motors 61, two belts 62 and rolling members 63, the two servo motors 61 are respectively installed at the rear lower portion of the positioning plate 22, the number of the rolling members 63 is four, wherein the two rolling members 63 are respectively connected to the output shaft of the servo motor 61 through a coupling, the other two rolling members 63 are respectively and rotatably connected to the front lower portion of the positioning plate 22, the number of the belts 62 is two, and the two belts 62 are respectively wound between the upper portions of the two rolling members 63 which are symmetrical front and back through transmission wheels.

When corrugated boards are compacted, friction force between the corrugated boards may be increased, in order to avoid blocking when the single corrugated board is conveyed backwards, the auxiliary mechanism 6 can be used for assisting the lowest corrugated board to be conveyed backwards, the servo motor 61 is started first, the output shaft of the servo motor 61 drives the rear rolling element 63 to rotate backwards, then the belt 62 drives the front rolling element 63 to rotate backwards, at the moment, the rolling element 63 assists the corrugated boards to move backwards, the single corrugated board can move backwards smoothly, and after the corrugated boards are printed, the servo motor 61 is closed.

As shown in fig. 1 and 11, the device further comprises a moving mechanism 9, the moving mechanism 9 comprises a pull rope 91, a guide wheel 92 and a treading frame 93, the guide wheel 92 is installed in the middle of the upper front part of the printer 1, the pull rope 91 is connected to the middle of the calibration frame 43, the pull rope 91 bypasses the guide wheel 92, the treading frame 93 is fixedly connected to the lower side of the pull rope 91, a non-slip mat is connected to the inner bottom wall of the treading frame 93, and the non-slip mat can prevent the sole of a foot from slipping when people treads the treading frame 93.

When people place corrugated container board, in order to make things convenient for people to place corrugated container board, the movable mechanism 9 rotates forward with calibration frame 43, tramples frame 93 downwards at first, then pull rope 91 front lower side direction drop-down, pull rope 91 can pull calibration frame 43 to rotate this moment for calibration frame 43 is forward to the horizontality, so can make things convenient for people to place corrugated container board, after corrugated container board places, unclamp and trample frame 93, calibration frame 43 can automatic backward rotation this moment, then will trample frame 93 through pull rope 91 and pull up, can accelerate the speed of placing corrugated container board, improve corrugated container board's printing efficiency.

It is to be understood that the above description is intended to be illustrative only and is not intended to be limiting. Those skilled in the art will appreciate variations of the present invention that are intended to be included within the scope of the claims herein.

Claims

1. Corrugated board digital inkjet printer, including printing machine (1), biax motor (2), lead screw (21), locating plate (22) and conveyer (3), be connected with biax motor (2) in the middle of printing machine (1) upper portion front side, all be connected with lead screw (21) on the output shaft of biax motor (2), all screw thread connection has locating plate (22) on lead screw (21), locating plate (22) all laminate with printing machine (1) front side, printing machine (1) lower part installs conveyer (3), its characterized in that: the printing machine also comprises an alignment mechanism (4) and a compaction mechanism (5), wherein the alignment mechanism (4) is arranged at the left front part of the printing machine (1), and the compaction mechanism (5) is arranged at the upper part of the positioning plate (22);

the alignment mechanism (4) comprises a supporting frame (41), torsion springs (42), a calibration frame (43) and a first extrusion frame (44), wherein the supporting frame (41) is connected to the left front part of the printer (1) in a sliding mode, the calibration frame (43) is connected to the middle part of the supporting frame (41) in a rotating mode, the torsion springs (42) are connected between the left side and the right side of the lower part of the calibration frame (43) and the supporting frame (41), the torsion springs (42) are wound on the supporting frame (41), the first extrusion frame (44) is connected to the left side and the right side of the supporting frame (41) in a sliding mode, the rear part of the first extrusion frame (44) is connected to the lower part of the positioning plate (22) in a sliding mode, the inner side of the front part of the first extrusion frame (44) is obliquely arranged towards the rear outer side, and the inner side of the front part of the first extrusion frame (44) is in extrusion fit with the calibration frame (43).

The compaction mechanism (5) comprises a fixing frame (51), a second extrusion frame (52), compaction frames (53) and reset springs (54), wherein the second extrusion frame (52) is connected to the upper portion of the positioning plate (22), the inner sides of the second extrusion frames (52) are obliquely arranged towards the upper inner side, the fixing frames (51) are connected to the left side and the right side of the front upper portion of the printing machine (1), the compaction frames (53) are connected between the fixing frames (51) in a sliding mode, the left side and the right side of the compaction frames (53) are in extrusion fit with the inner sides of the second extrusion frames (52), the reset springs (54) are connected between the left side and the right side of the rear portion of the compaction frames (53) and the fixing frames (51), and the reset springs (54) are wound on the fixing frames (51).

2. The corrugated board digital inkjet printer according to claim 1, wherein: the printing machine is characterized by further comprising an adjusting mechanism (7), wherein the adjusting mechanism (7) comprises an adjusting frame (71), a blocking piece (72) and a compression spring (73), the adjusting frame (71) is connected to the upper side of the right front portion of the printing machine (1), the adjusting frame (71) is toothed, the blocking piece (72) is connected to the right portion of the supporting frame (41) in a sliding mode, the right front side of the blocking piece (72) is propped against the rear portion of the adjusting frame (71), and the compression spring (73) is connected between the left side of the upper portion of the blocking piece (72) and the supporting frame (41).

3. The corrugated board digital inkjet printer according to claim 2, wherein: the device is characterized by further comprising a buffer mechanism (8), wherein the buffer mechanism (8) comprises a buffer spring (81) and a buffer frame (82), the buffer frame (82) is connected to the compaction frame (53) in a sliding mode, the buffer spring (81) is connected between the left part and the right part of the buffer frame (82) and the bottom of the compaction frame (53), and the buffer spring (81) is wound on the buffer frame (82).

4. A corrugated board digital inkjet printer according to claim 3 wherein: the automatic rolling device is characterized by further comprising an auxiliary mechanism (6), wherein the auxiliary mechanism (6) comprises a servo motor (61), a belt (62) and rolling elements (63), the lower portions of the rear portions of the positioning plates (22) are respectively connected with the servo motor (61), the rolling elements (63) are respectively connected to the output shafts of the servo motor (61), the rolling elements (63) are respectively and rotatably connected to the front lower portions of the positioning plates (22), and the belt (62) is respectively wound between the upper portions of the two rolling elements (63) which are symmetrical front and rear through a conveying wheel.

5. The corrugated board digital inkjet printer according to claim 4 wherein: the automatic printing machine is characterized by further comprising a moving mechanism (9), wherein the moving mechanism (9) comprises a pull rope (91), guide wheels (92) and a pedal frame (93), the guide wheels (92) are connected in the middle of the upper side of the front part of the printing machine (1), the pull rope (91) is connected in the middle of the calibration frame (43), the pull rope (91) bypasses the guide wheels (92), and the pedal frame (93) is connected to the lower side of the pull rope (91).

6. The corrugated board digital inkjet printer according to claim 5 wherein: the pedal type bicycle further comprises an anti-slip pad, and the inner bottom wall of the pedal frame (93) is connected with the anti-slip pad.