CN212245580U - High-speed ink and water printing machine - Google Patents

High-speed ink and water printing machine Download PDF

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Publication number
CN212245580U
CN212245580U CN202021756232.7U CN202021756232U CN212245580U CN 212245580 U CN212245580 U CN 212245580U CN 202021756232 U CN202021756232 U CN 202021756232U CN 212245580 U CN212245580 U CN 212245580U
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conveying mechanism
conveying
paper
frame
pile
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Chinese (zh)
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冯杰
刘北京
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Guangdong Fungo Printing Technology Co ltd
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Guangdong Fungo Printing Technology Co ltd
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Abstract

The utility model relates to a paper printing technology field specifically discloses a high-speed ink and water printing machine, its characterized in that: the paper cutting machine comprises a feeding device, a printing device, a paper cutting device, a conveying device, a discharging device and a stacking device which are sequentially arranged, wherein a scrap removing device is arranged above the conveying device, and the bottom of the conveying device is connected with a waste collecting device used for collecting waste materials falling off from the conveying device under the scrap removing effect of the scrap removing device; the utility model discloses can accomplish material loading, printing automatically, cut, waste material separation, pile up neatly and pile up the process, have that production efficiency is high, degree of automation is high, low in labor cost's characteristics to can be applicable to not unidimensional cardboard processing.

Description

High-speed ink and water printing machine
Technical Field
The utility model relates to a paper printing technology field, concretely relates to ink and water printing machine.
Background
A paperboard printing machine is a printing device capable of printing desired characters, patterns and other information on the surface of a paperboard; the ink-jet printer is often used for printing appearance patterns on corrugated paper and cartons, and is widely applied to carton production enterprises because the ink-jet printer has the characteristics of low printing cost and convenience in printing.
Corrugated paper and carton printing production process need print, cut, the antidandruff, collect and pile up the process, and this production flow generally goes on for independently among the prior art, has seriously influenced production efficiency.
Disclosure of Invention
The utility model aims at providing a can accomplish the printing automatically, cut, the antidandruff, collect and pile up high-speed ink and water printing machine of manufacturing procedure.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a high-speed ink-and-water printing machine is characterized in that: including loading attachment, printing device, paper cutting device, conveyor, unloader and the pile up neatly device that sets gradually, the conveyor top is equipped with the antidandruff device, the conveyor bottom is connected with the garbage collection device who is used for collecting the waste material that conveyor dropped under the antidandruff effect of antidandruff device.
Further, conveyor sets up and carries the paper cutting output mechanism, transition conveying mechanism and the first conveying mechanism of finished product cardboard including following the direction of delivery in proper order.
Further, the waste collecting device comprises a second conveying mechanism and a third conveying mechanism which are respectively arranged below the paper cutting output mechanism and below the first conveying mechanism, a fourth conveying mechanism is arranged between the second conveying mechanism and the third conveying mechanism, and a discharge end of the fourth conveying mechanism is connected with a waste collecting mechanism.
Furthermore, the waste collecting mechanism comprises a lifting mechanism and a collecting box, wherein the feeding end of the lifting mechanism is arranged at the discharge end of the fourth conveying mechanism, and the collecting box is arranged at the discharge end of the lifting mechanism.
Furthermore, the chip removing device comprises a first chip removing mechanism and a second chip removing mechanism which are respectively arranged above the first conveying mechanism and the transition conveying mechanism.
Further, loading attachment includes the pan feeding platform, the pan feeding baffle that is equipped with vertical setting is in the pan feeding bench, pan feeding baffle bottom is equipped with the paper feeding mouth, pan feeding baffle both sides are equipped with the adjustable stop gear who just is used for injecing cardboard pile both sides border position of position, the pan feeding bench is equipped with the pan feeding conveying mechanism who is used for seeing off the cardboard, pan feeding conveying mechanism both sides are equipped with the support paper mechanism that is used for intermittent type nature to hold up the cardboard, the pan feeding bench still is equipped with the support paper frame that is used for supporting cardboard pile lateral border.
Furthermore, the blanking device comprises a fifth conveying mechanism and a lifting mechanism capable of changing the height of the discharge end of the fifth conveying mechanism, wherein the fifth conveying mechanism is arranged obliquely upwards along the conveying direction, and the stacking device and the discharge end of the fifth conveying mechanism are lifted synchronously.
Further, the stacking device comprises a centering mechanism and a blocking frame, the blocking frame can be driven by a lifting mechanism to lift, a stacking interval is reserved between the discharge end of the fifth conveying mechanism and the blocking frame, and the blocking frame is provided with the centering mechanism used for aligning two sides of the workpiece in the stacking space.
Furthermore, the blocking frame comprises a limiting baffle arranged at one side of the stacking interval far away from the five conveying mechanisms and a connecting beam with one end fixedly connected with the limiting baffle, and the other end of the connecting beam is adjustably arranged on the lifting mechanism.
Furthermore, the centering mechanism comprises a portal frame arranged on the blocking frame and two pneumatic lateral pressing mechanisms arranged on the top beam of the portal frame in an adjustable mode.
The utility model discloses following beneficial effect has:
the utility model discloses can accomplish material loading, printing automatically, cut, waste material separation, pile up neatly and pile up the process, have that production efficiency is high, degree of automation is high, low in labor cost's characteristics to can be applicable to not unidimensional cardboard processing.
Drawings
Fig. 1 is a schematic side view of the present invention;
FIG. 2 is a schematic perspective view of the feeding device;
FIG. 3 is a schematic perspective view of the feeding device at another angle;
FIG. 4 is a schematic perspective view of the conveying device, the scrap removing device, and the scrap collecting device;
FIG. 5 is a schematic perspective view of the member of FIG. 4 at another angle;
FIG. 6 is a schematic perspective view of the blanking device and the stacking device;
FIG. 7 is a schematic perspective view of a blanking device;
FIG. 8 is a schematic perspective view of the member of FIG. 6 at another angle;
FIG. 9 is an enlarged view taken at A in FIG. 8;
in the figure: 1. a feeding device; 2. a printing device; 3. a paper cutting device; 4. a conveying device; 5. a blanking device; 6. a palletizing device; 7. a dandruff removing device; 8. a waste collection device; 11. a feeding table; 12. a feeding baffle plate; 13. a limiting mechanism; 14. a feeding conveying mechanism; 15. a paper supporting mechanism; 16. a paper supporting frame; 17. a distance adjusting mechanism; 18. a height adjusting mechanism; 41. a paper cutting output mechanism; 42. a transition conveying mechanism; 43. a first conveying mechanism; 51. a fifth conveying mechanism; 52. a lifting mechanism; 53. a sixth conveying mechanism; 61. a centering mechanism; 62. a blocking frame; 63. a material supporting mechanism; 71. a first chip removing mechanism; 72. a second chip removing mechanism; 81. a second conveying mechanism; 82. a third conveying mechanism; 83. a fourth conveying mechanism; 84. a waste collection mechanism; 85. a material guiding inclined plate; 111. a bidirectional screw rod; 112. a guide bar; 131. a connecting frame; 132. a feeding side pressure cylinder; 133. feeding a side pressing plate; 151. a support plate; 152. a paper supporting and lifting mechanism; 161. a material guiding rod; 171. a sliding table; 172. a first rack; 173. a first gear; 174. a first motor; 421. an adjusting cylinder; 422. a first compression bar; 431. a brush; 511. a workpiece guide plate; 512. a second pressing strip; 521. fixing the frame; 522. a lifting frame; 523. a lifting cylinder; 524. a first sprocket; 525. a first chain; 526. a second rack; 527. a second gear; 528. a telescopic frame; 531. an adjustable cylinder; 611. a gantry; 612. a pneumatic side pressure mechanism; 613. a suspension arm; 614. a blanking side pressure cylinder; 615. blanking side pressing plates; 621. a limit baffle; 622. a connecting beam; 623. a second chain; 624. a second sprocket; 625. a third sprocket; 631. a support plate; 632. a material supporting cylinder; 721. a top frame; 722. a side frame; 841. a lifting mechanism; 842. and a collection box.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea claimed in the present invention.
As shown in fig. 1-9, the utility model relates to a high-speed ink-and-water printing machine, which is characterized in that: including loading attachment 1, printing device 2, paper cutting device 3, conveyor 4, unloader 5 and the pile up neatly device 6 that sets gradually, conveyor 4 top is equipped with antidandruff device 7, conveyor 4 bottom is connected with the garbage collection device 8 that is used for collecting the waste material that conveyor 4 dropped under antidandruff effect of antidandruff device 7.
Worth mentioning, the utility model discloses be equipped with the controller for drive control loading attachment 1, printing device 2, paper cutting device 3, conveyor 4, unloader 5 and pile up neatly device 6, antidandruff device 7 and the independent function of garbage collection device 8.
The utility model discloses the during operation, loading attachment 1 is overhead to have the cardboard to pile, loading attachment 1 sees off the cardboard one by one, and the cardboard that sees off loops through printing device 2, paper cutting device 3 and prints, cuts processing and forms the finished product cardboard, and the finished product cardboard gets into and carries in conveyor 4 to by the separation of antidandruff device 7 with unnecessary waste material, collect in the waste material gets into garbage collection device 8, and the finished product cardboard then continues to send into unloader 5, unloader 5 cooperation pile up neatly device 6 will send off the finished product cardboard pile up neatly and pile up, wait to shift the packing and go out goods.
The utility model discloses degree of automation is high, can accomplish material loading, printing automatically, cut, waste material separation, pile up neatly and pile up the process, has the characteristics of high-efficient production, effectively reduces labour cost.
Preferably, the printing unit 2 is a samming roller type ink printing unit capable of printing desired characters or pictures and other information on the exterior of the paper board at a high speed.
Preferably, the paper cutting device 3 is a pressing line grooving machine, and can finish the processes of paper board slitting, indentation, grooving and the like at one time, so that the printed paper board can be directly cut into paper and slit to produce a finished paper board.
Preferably, the conveying device 4 comprises a paper cutting output mechanism 41, a transition conveying mechanism 42 and a first conveying mechanism 43 which are arranged along the conveying direction in sequence and are used for conveying the finished paperboard; the paper cutting output mechanism 41 is used for outputting the cut finished product paperboard, and the transition conveying mechanism 42 is used for receiving the paper products output by the paper cutting output mechanism 41, receiving the paper products and conveying the paper products to the first conveying mechanism 43 in a smooth transition manner.
Preferably, the waste collecting device 8 includes a second conveying mechanism 81 and a third conveying mechanism 82 respectively disposed below the paper cutting output mechanism 41 and below the first conveying mechanism 43, a fourth conveying mechanism 83 is disposed between the second conveying mechanism 81 and the third conveying mechanism 82, and a waste collecting mechanism 84 is connected to a discharging end of the fourth conveying mechanism 83.
Specifically, the cut paper output mechanism 41, the transition conveying mechanism 42, the first conveying mechanism 43, the second conveying mechanism 81, the third conveying mechanism 82 and the fourth conveying mechanism 83 are continuously conveyed, the scrap removing device 7 is continuously operated to separate and drop the waste paper connected by the paper plates in the first conveying mechanism 43 and the transition conveying mechanism 42, the second conveying mechanism 81 receives part of the waste paper dropped during the cutting process, the third conveying mechanism 82 receives the waste paper dropped from the first conveying mechanism 43, and the fourth conveying mechanism 83 receives the waste paper sent from the third conveying mechanism 82 and the second conveying mechanism 81 and the waste paper dropped directly from the transition conveying mechanism 42, and conveys and transfers the waste paper to the waste material collecting mechanism 84 for centralized collection; this recovery process adopts multistage formula waste paper to concentrate and retrieves, can ensure that the waste material after the paper cutting processing is accomplished can effective separation, can high-efficient recovery waste paper.
Preferably, the fourth conveying mechanism 83 is located below the middle of the transition conveying mechanism 42, so that the waste paper dropped from the middle of the transition conveying mechanism 42 can be directly fed to the fourth conveying mechanism 83, and the waste paper dropped from both sides falls onto the third conveying mechanism 82 and the second conveying mechanism 81, respectively.
Preferably, the cut paper output mechanism 41 is a roller conveyor driven by a motor and disposed up and down, and the roller pinch feeds paper, so that a part of cut paper can be dropped on the second conveying mechanism 81.
Preferably, the second conveying mechanism 81, the third conveying mechanism 82 and the fourth conveying mechanism 83 are all belt conveyors.
Preferably, the second conveying mechanism 81 and the third conveying mechanism 82 are provided with material guiding inclined plates 85 on both sides, and the material guiding inclined plates 85 are used for guiding waste materials and preventing the waste paper from being thrown out of the corresponding conveying mechanisms.
Preferably, the conveying direction of the second conveying mechanism 81 is opposite to the conveying direction of the third conveying mechanism 82, and the conveying direction of the fourth conveying mechanism 83 is perpendicular to the conveying direction of the second conveying mechanism 81; this design enables the second conveyance mechanism 81 and the third conveyance mechanism 82 to convey the waste material toward the fourth conveyance mechanism 83 therebetween.
Preferably, the waste collecting mechanism 84 comprises a lifting mechanism 841 with a feeding end arranged at the discharging end of the fourth conveying mechanism 83 and a collecting box 842 arranged at the discharging end of the lifting mechanism 841; the lifting mechanism 841 lifts the waste fed by the fourth conveying mechanism 83 into the collection tank 842 for collection processing, wherein the collection tank 842 is replaceable.
Preferably, the lifting mechanism 841 is a belt lifter with a baffle.
Preferably, the chip-removing device 7 comprises a first chip-removing mechanism 71 and a second chip-removing mechanism 72, which are arranged above the first conveyor mechanism 43 and the transition conveyor mechanism 42, respectively.
Preferably, the first and second chip removing mechanisms 71 and 72 each comprise a plurality of fans arranged at equal intervals; the fan continuously blows the waste paper on the paper board to fall on the corresponding conveyor, so that the separation of the waste paper is realized.
Preferably, the fans are axial fans and are arranged in an equal-distance arrangement, in this embodiment, three axial fans are used for the first and second chip removing mechanisms 71 and 72, so as to ensure that the wind energy covers the corresponding conveying mechanism.
Preferably, the air outlet angle of the second chip removing mechanism 72 is adjustable; specifically, the fan of the second chip removing mechanism 72 is installed through a top frame 721, two sides of the top frame 721 are connected with the transition conveying mechanism 42 through a side frame 722, wherein an arc groove is formed in the side frame 722, one end of the top frame 721 is hinged to the side frame 722, the other end of the top frame 721 is fixed on the arc groove through a screw, and the inclination angle of the fan can be changed by changing the position of the screw on the arc groove; the air outlet angle of the second scrap removing mechanism 72 is changed, waste paper can be blown up through negative pressure, and the waste paper separating effect is improved.
Preferably, a brush 431 is arranged above the conveying end of the first conveying mechanism 43, and the brush 431 can sweep dust and paper scraps on the paperboard, so that the surface cleanness of the paperboard is ensured, and the waste paper separation effect is further improved.
Preferably, the transition conveying mechanism 42 is provided with a first pressing strip 422 for pressing the output finished paperboard onto the transition conveying mechanism 42, and the arrangement of the first pressing strip 422 can ensure that the paperboard is stably conveyed and prevent the paperboard from tilting or sliding downwards in the conveying process.
Preferably, the first pressing strips 422 are plural and are arranged at equal intervals.
Preferably, the first conveying mechanism 43 comprises two round bar conveyors arranged up and down, the round bar conveyors have larger gaps to enable waste paper to fall off, and the round bar conveyors can generate slight vibration under the blowing action of the first scrap removing mechanism 71 to achieve the effect of vibration separation of the waste paper.
Preferably, the transition conveying mechanism 42 is a multi-belt conveyor, and a large gap is formed between belts of the multi-belt conveyor, so that the waste paper can fall off.
Preferably, the transition conveying mechanism 42 is connected with an adjusting cylinder 421 capable of changing the inclination angle thereof, wherein a cylinder body of the adjusting cylinder 421 is hinged with a frame fixedly installed on the whole equipment, a piston rod thereof is hinged with the middle part of the transition conveying mechanism 42, and one end of the transition conveying mechanism 42 is hinged with the frame fixedly installed on the whole equipment; in the actual production process, according to the thickness of the processed paperboard, the paper cutting mechanism needs to adjust the corresponding height, so that the height of the feeding end of the transition conveying mechanism 42 can be changed by adjusting the extension and contraction of the air cylinder 421, and the output height of the paper cutting output mechanism is adapted.
Preferably, loading attachment 1 includes pan feeding platform 11, be equipped with the pan feeding baffle 12 of vertical setting on the pan feeding platform 11, pan feeding baffle 12 bottom is equipped with the paper feeding mouth, pan feeding baffle 12 both sides are equipped with the stop gear 13 that the position is adjustable and be used for injecing cardboard heap both sides border position, be equipped with the pan feeding conveying mechanism 14 that is used for seeing off the cardboard on the pan feeding platform 11, pan feeding conveying mechanism 14 both sides are equipped with the support paper mechanism 15 that is used for intermittent type nature to hold up the cardboard, still be equipped with the support paper frame 16 that is used for supporting cardboard heap outside border on the pan feeding platform 11.
Specifically, before the feeding device 1 feeds paper, a paper board stack to be processed is stacked on the feeding table 11 in advance, the outer side of the paper board stack is supported by the paper supporting frame 16, the inner side of the paper board stack is attached to the feeding baffle 12, and the left side and the right side of the paper board stack are aligned and limited by the limiting mechanism 13; when the paper supporting mechanism 15 is lifted, the paperboard stack is supported by the paper supporting mechanism 15 and the paper supporting frame 16 together and leaves the feeding and conveying mechanism 14, and when the paper supporting mechanism 15 is lowered, the paperboard at the bottommost position of the paperboard stack is contacted with the feeding and conveying mechanism 14 and is conveyed by the feeding and conveying mechanism 14 through a paper feeding opening, so that the paperboard conveying is realized; the feeding interval of each paperboard can be changed by adjusting the lifting frequency of the paper supporting mechanism 5, so that the paper supporting mechanism can be matched with the printing device 2 for use.
It is worth mentioning that the feed opening thickness is more than one paperboard thickness and less than two paperboard thicknesses, thus ensuring that only one paperboard is fed out at a time.
Preferably, the paper supporting mechanism 15 comprises a supporting plate 151 and a supporting plate lifting mechanism 152 for driving the supporting plate 151 to lift and lower back and forth, when the supporting plate 151 is lifted, the top surface of the supporting plate 151 is higher than the conveying surface of the feeding conveying mechanism 14, so that the paper plate stack is separated from the feeding conveying mechanism 14.
Preferably, the paper supporting and lifting mechanism 152 may be a motor-driven swing wheel driving mechanism or a telescopic moving mechanism, and in this embodiment, is preferably a cylinder.
Preferably, the feeding conveyor 14 is a conveyor roller or a belt conveyor driven by a speed reducer, and in this embodiment, the feeding conveyor is preferably a conveyor roller.
Preferably, the feeding table 11 is provided with a two-way screw rod 111 and a guide rod 112 which are horizontally arranged, the two limiting mechanisms 13 are respectively in threaded connection with two threaded portions of the two-way screw rod 111 and are both in sliding connection with the guide rod 112, and the two-way screw rod 111 is connected with a speed reducer; wherein, the speed reducer is connected with the controller electricity, and the workman can start the speed reducer and rotate through setting up the parameter instruction on the controller, and two-way lead screw 111 rotates and changes two then stop gear 13's distance to the counterpoint position of quick change stop gear 13 ensures that the cardboard is applicable to the cardboard pan feeding of different length when still being in pan feeding platform 11 middle parts, makes the utility model has the characteristics of application scope is wide.
Preferably, the limiting mechanism 13 comprises a connecting frame 131 in threaded connection with the bidirectional screw 111, a feeding side pressure cylinder 132 mounted on the connecting frame 131, and a feeding side pressure plate 133 connected with a piston rod of the feeding side pressure cylinder 132; specifically, the two feeding side pressure cylinders 132 are arranged oppositely, before the paper sheet stacking machine is used, the feeding side pressure cylinders 132 are in a contraction state, so that a worker can conveniently place a paper sheet stack, and after the worker places the paper sheet stack, the controller starts the feeding side pressure cylinders 132 to extend out, so that the feeding side pressure plates 133 limit the edge positions of the two sides of the paper sheet stack, and the quick centering alignment of the paper sheet stack is realized.
Preferably, the top of the feeding side press plate 133 has a slope to facilitate the initial placement or subsequent addition of the cardboard stack.
Preferably, the number of the feeding baffles 12 is two, and the feeding baffles are respectively in threaded connection with two threaded portions of the bidirectional screw 111 and are both in sliding connection with the guide rod 112; the position of the feeding baffle 12 is adjusted in a linkage mode while the position of the limiting mechanism 13 is adjusted, the feeding baffle 12 can be effectively limited, and the paperboard stack is prevented from being placed and deviated.
Preferably, the feeding table 11 is further provided with a distance adjusting mechanism 17 for adjusting a distance between the paper supporting frame 16 and the feeding baffle 12, and the distance adjusting mechanism 17 includes a sliding table 171 connected with the feeding table 11 in a sliding manner, a first rack 172 horizontally installed on the feeding table 11, a first gear 173 matched with the first rack 172, and a first motor 174 installed on the sliding table 171 and used for driving the first gear 173 to rotate; first motor 174 is connected with the controller, and the workman can start first motor 174 drive slip table 171 through controller input parameter instruction and slide, and then changes and hold in the palm distance between paper frame 16 and pan feeding baffle 12, makes the utility model is suitable for a cardboard of different widths is used.
Preferably, the feeding table 11 is further provided with a height adjusting mechanism 18 for adjusting the height of the paper support frame 16, and the height adjusting mechanism 18 is a worm and gear elevator driven by a second motor; the second motor is connected with the controller, the inclination angle of the paperboard pile stored on the paper support frame 16 can be changed through the heightening mechanism 18, the obliquely placed paperboard pile can be tightly attached to the feeding baffle 12, and the offset of the paperboard pile position is effectively prevented.
Preferably, the paper sheet stacking device further comprises a material guiding rod 161, wherein the material guiding rod 161 is installed at the top of the paper support frame 16, and when the stacked paper sheet stacks are higher than the paper support frame 16, the paper sheet stacks at the high positions are limited by the material guiding rod 161 to fall onto the paper support frame 16 in the process of gradually sending out the paper sheet stacks.
Preferably, the guide bar 161 is a round bar to ensure smooth introduction of the cardboard.
Preferably, the material supporting end of the paper supporting frame 16 is higher than the supporting plane of the feeding table 11, so that the paper boards are stacked obliquely, when the feeding and conveying mechanism 14 conveys the bottom paper board, the bottom paper board is flatly placed on the feeding and conveying mechanism 14 after being separated from the material supporting end of the paper supporting frame 16 under the friction force of the feeding and conveying mechanism 14, and is separated from the paper boards above, so that the bottom paper board can be more easily sent out.
Preferably, the blanking device 5 comprises a fifth conveying mechanism 51 and a lifting mechanism 52 which can change the height of the discharging end of the fifth conveying mechanism 51, wherein the fifth conveying mechanism 51 is arranged obliquely upwards along the conveying direction, and the stacking device 6 is lifted synchronously with the discharging end of the fifth conveying mechanism 51.
Fifth conveying mechanism 51 receives the cardboard after the processing is accomplished and is sent to it and counterpoint in pile up neatly device 6 and pile up, because pile up the in-process cardboard height and rise gradually, consequently pile up neatly device 6's counterpoint position risees thereupon, the utility model discloses a discharge end and pile up neatly device 6 of elevating system 52 drive fifth conveying mechanism 51 rise in step, when guaranteeing pile up neatly device 6 and normally accomplish the pile up neatly work, guarantee to have unchangeable height drop relatively between discharge end and the pile up neatly device 6 of fifth conveying mechanism 51, effectively prevented that the cardboard from dropping and producing the condition appearance of slope, skew.
Preferably, the lifting mechanism 52 comprises a fixed frame 521, a lifting frame 522 connected with the frame 521 in a lifting manner, a lifting cylinder 523 mounted on the frame 521, a first chain wheel 524 connected with a piston rod of the lifting cylinder 523, and a first chain 525 matched with the first chain wheel 524, one end of the first chain 525 is fixedly connected with the frame 521, the other end of the first chain is fixedly connected with the lifting frame 522, and the discharge end of the fifth conveying mechanism 51 and the stacking device 6 are both mounted on the lifting frame 522; specifically, the lifting cylinder 523 extends out to drive the first chain wheel 524 to ascend, so as to change the matching position of the first chain 525 and the first chain wheel 524, that is, to lift the lifting frame 522, and vice versa; by utilizing the movable pulley principle, the output force of the lifting cylinder 523 can be reduced, the model selection difficulty of the lifting cylinder 523 is reduced, and the equipment cost is reduced; since the discharge end of the fifth conveyor mechanism 51 and the palletizing device 6 are both mounted on the crane 522, the discharge end of the fifth conveyor mechanism 51 and the palletizing device 6 can be lifted and lowered synchronously.
Preferably, the fifth conveying mechanism 51 is a belt conveyor, and a belt roller shaft at the discharging end of the fifth conveying mechanism is rotatably connected with the lifting frame 522, so that the height of the discharging end of the conveying mechanism 2 is ensured to be changed along with the change of the lifting frame 522.
Preferably, the fifth conveying mechanism 51 is a multi-belt type belt conveyor, and a workpiece guide plate 511 is arranged between belts at the discharging end of the fifth conveying mechanism, so that the paper boards can be smoothly fed into the stacking device 6.
Preferably, the device further comprises a sixth conveying mechanism 53 with an adjustable inclination angle, wherein the sixth conveying mechanism 53 is a belt conveyor and is in transmission connection with a belt roller at the feeding end of the fifth conveying mechanism 51; can change through adjusting sixth conveying mechanism 53 the utility model discloses a receive the position height of cardboard, can match the ink and water printing machine of different ejection of compact heights and use to can adjust according to the place, have the wide characteristics of application scope.
Preferably, the frame 521 is hinged to an adjustable cylinder 531, and the adjustable cylinder 531 is hinged to the middle of the sixth conveying mechanism 53, so that the inclination angle of the sixth conveying mechanism 53 can be changed by extending and contracting the adjustable cylinder 531.
Preferably, the lifting mechanism 52 further comprises a second rack 526 vertically fixed on the frame 521, and a second gear 527 engaged with the second rack 526, wherein the second gear 527 is rotatably mounted on the lifting frame 522; second gear 527 second rack 526 cooperation is gone up and down spacing direction, can effectively improve the utility model discloses a structural stability.
Preferably, the second gear 527 is installed on a belt roller shaft at the discharge end of the belt conveyor, which is the fifth conveying mechanism 51, and is rotatably connected with the lifting frame 522.
Preferably, a plurality of second pressing bars 512 which are arranged at equal intervals and used for pressing materials are arranged above the fifth conveying mechanism 51; the second pressing strips and the second pressing strips 22 are arranged, so that the stable conveying of the paper boards can be ensured, and the paper boards are prevented from tilting or sliding downwards in the conveying process.
Preferably, the fifth conveying mechanism 51 is fixed with a gantry pressing frame 23, and the second pressing bar 512 is installed on the gantry pressing frame 23.
Preferably, a telescopic rack 528 is mounted on the frame 521, and the feeding end of the fifth conveying mechanism 51 is slidably connected with the telescopic rack 528; since the lifting frame 522 is vertically lifted, the telescopic frame 528 is provided as a connection unit between the frame 521 and the fifth conveying mechanism 51, so that the belt can be prevented from being torn off during the lifting process of the fifth conveying mechanism 51.
Preferably, the stacking device 6 comprises a centering mechanism 61 for aligning two sides of the workpiece and a blocking frame 62 for limiting the position of the output tail end of the workpiece, the blocking frame 62 can be driven by the lifting mechanism 52 to lift, a stacking interval is reserved between the discharge end of the fifth conveying mechanism 51 and the blocking frame 62, and the centering mechanism 61 for aligning two sides of the workpiece in the stacking space is arranged on the blocking frame 62.
When the stacking device 6 is in an initial state, the lifting mechanism 52 drives the blocking frame 62 to be located at the lowest position, the fifth conveying mechanism 51 receives a finished paperboard fed by a front station and then conveys the finished paperboard to a stacking interval, the outer side of the finished paperboard is limited by the blocking frame 62 and falls into the stacking interval, the centering mechanism 61 is started to limit the positions of two sides of the finished paperboard, then the centering mechanism 61 is reset, then the lifting mechanism 52 drives the blocking frame 62 to rise by the thickness of one paperboard, and the process is repeated thereafter to stack a plurality of paperboards in the stacking interval in order.
It is worth mentioning that a forklift or a bearing plate can be placed below the stacking interval to collect finished paperboard piles, so that workers can transfer the paperboard piles in batches conveniently.
Preferably, the blocking frame 62 comprises a limiting baffle 621 arranged on one side of the stacking area far away from the five conveying mechanisms 51 and a connecting beam 622 with one end fixedly connected with the limiting baffle 621, and the other end of the connecting beam 622 is adjustably mounted on the lifting frame 522 of the lifting mechanism 52; the width of the stacking interval can be changed by adjusting the position of the connecting beam 622 on the lifting frame 522, so that the distance between the limiting baffle 621 and the fifth conveying mechanism 51 is matched with the width of the paper board, the front and rear positions of the paper board entering the stacking interval are limited, and automatic blanking front and rear alignment is realized; in addition, the lifting mechanism 52 drives the lifting frame 522 to lift, so as to drive the limit baffle 621 to vertically lift.
Preferably, the blocking frame 62 further comprises a second chain 623, two ends of the second chain 623 are fixed to two ends of a connecting beam 622, the connecting beam 622 is slidably connected with a lifting frame 522, the lifting frame 522 is rotatably connected with a second chain wheel 624 engaged with the second chain 623, and the second chain wheel 624 is connected with a first hand wheel; the worker can rotate the first hand wheel to drive the second chain 623 engaged with the second chain wheel 624, i.e. the position where the second chain 623 is engaged with the second chain wheel 624 is changed to drive the connecting beam 622 to move on the crane 522, i.e. the horizontal position of the connecting beam 622 is changed.
It should be mentioned that the lifting frame 522 is also rotatably connected with a tensioning wheel to ensure that the second chain 623 and the second chain wheel 624 can be tightly matched.
Preferably, the centering mechanism 61 is slidably connected with the connecting beam 622, the centering mechanism 61 is rotatably connected with a third chain wheel 625, and the third chain wheel 625 is meshed with the second chain 623 and is connected with a second hand wheel; the worker turns the second wheel to change the position of the centering mechanism 61 on the connecting beam 622 and adjust the centering mechanism 61 to the middle position of the palletizing section, so that the centering mechanism 61 can effectively complete the centering task.
It is worth mentioning that the centering mechanism 61 is slidably connected to the connecting beam 622 via pulleys.
Preferably, the centering mechanism 61 comprises a portal frame 611 mounted on the blocking frame 62 and two pneumatic lateral pressure mechanisms 612 which are adjustably mounted on the top beam of the portal frame 611; adjust two lateral pressure mechanisms 612 positions on portal frame 611 and can change centering mechanism 61's counterpoint position, make it to match cardboard length counterpoint, consequently, the utility model discloses can adjust according to cardboard length, width, be applicable to not unidimensional cardboard pile up neatly, have the wide characteristics of application scope.
Preferably, the lateral pressing mechanism 612 comprises a suspension arm 613 connected with the top beam of the gantry 611, a feeding lateral pressing cylinder 614 mounted on the suspension arm 613, and a feeding lateral pressing plate 615 connected with the piston rod of the feeding lateral pressing cylinder 614; after the paperboard falls into the stacking interval, the blanking side pressure cylinder 614 extends out to enable the blanking side pressure plate 615 to push the edges of the left side and the right side of the paperboard, and alignment can be completed.
Preferably, the top of the boom 613 is slidably connected to the top beam of the gantry 611 and is locked by a screw threadedly connected to the boom 613, that is, the screw tightly pushes the top beam of the gantry 611 to increase the friction between the boom 613 and the gantry 611.
Preferably, the top of the blanking side pressing plate 615 is provided with a paperboard guide inclined surface, the design of the inclined surface enables the centering mechanism 61 to be started without resetting, the original operation flow can be simplified, and the paperboard falling into the stacking interval can be aligned through the limit baffle 621 and the blanking side pressing plate 615.
Preferably, the material supporting mechanism 63 is arranged at the bottom of the blocking frame 62, the material supporting mechanism 63 comprises a supporting plate 631 hinged with the bottom of the blocking frame 62, and a material supporting cylinder 632 fixed on the blocking frame 62, and a piston rod of the material supporting cylinder 632 is hinged with the supporting plate 631; because a space for storing a bearing plate or a forklift needs to be reserved below the stacking interval, the blocking frame 62 still has a considerable distance with the ground when descending to the lowest position, and the material supporting mechanism 63 is arranged as a temporary supporting mechanism, so that the forklift can be conveniently replaced in the continuous production process; the material supporting cylinder 632 contracts to enable the support plate 631 to be in a horizontal state, at the moment, the paper plates are supported by the support plate 631 when falling into a stacking interval, a bearing plate or a forklift is arranged below the support plate 631, a certain amount of paper plate stacks are arranged on the support plate 631 (the certain amount of paper plate stacks ensure that the topmost paper plates still fall into the action range of the side pressing mechanism after the paper plates fall into the bearing plate or the forklift), the material supporting cylinder 632 is extended to enable the support plate 631 to be in a vertical state, and stacked paper plates vertically fall.
Preferably, the number of the material supporting mechanisms 63 is two, and the two supporting plates 631 are respectively arranged at the bottoms of the limiting baffle 621 and the lifting frame 522.
The utility model discloses can accomplish material loading, printing automatically, cut, waste material separation, pile up neatly and pile up the process, have that production efficiency is high, degree of automation is high, low in labor cost's characteristics to can be applicable to not unidimensional cardboard processing.
Various other changes and modifications may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such changes and modifications should fall within the scope of the present invention.

Claims (10)

1. A high-speed ink-and-water printing machine is characterized in that: the paper cutting device is characterized by comprising a feeding device (1), a printing device (2), a paper cutting device (3), a conveying device (4), a discharging device (5) and a stacking device (6) which are sequentially arranged, wherein a chip removing device (7) is arranged above the conveying device (4), and a waste collecting device (8) used for collecting waste materials falling off under the chip removing effect of the chip removing device (7) of the conveying device (4) is connected to the bottom of the conveying device (4).
2. A high speed ink and water printing press as claimed in claim 1, wherein: the conveying device (4) comprises a paper cutting output mechanism (41), a transition conveying mechanism (42) and a first conveying mechanism (43) which are sequentially arranged along the conveying direction and used for conveying finished paperboards.
3. A high speed ink and water printing press as claimed in claim 2, wherein: waste material collection device (8) are including locating second conveying mechanism (81) and third conveying mechanism (82) of cutting a sheet of paper output mechanism (41) below and first conveying mechanism (43) below respectively, be equipped with fourth conveying mechanism (83) between second conveying mechanism (81) and third conveying mechanism (82), the discharge end of fourth conveying mechanism (83) is connected with waste material collection mechanism (84).
4. A high speed ink and water printing press as claimed in claim 3, wherein: the waste collecting mechanism (84) comprises a lifting mechanism (841) with a feeding end arranged at the discharge end of the fourth conveying mechanism (83) and a collecting box (842) arranged at the discharge end of the lifting mechanism (841).
5. A high speed ink and water printing press as claimed in claim 2, wherein: the chip removing device (7) comprises a first chip removing mechanism (71) and a second chip removing mechanism (72) which are respectively arranged above the first conveying mechanism (43) and the transition conveying mechanism (42).
6. A high speed ink and water printing press as claimed in claim 1, wherein: loading attachment (1) is including pan feeding platform (11), be equipped with pan feeding baffle (12) of vertical setting on pan feeding platform (11), pan feeding baffle (12) bottom is equipped with the paper feeding mouth, pan feeding baffle (12) both sides are equipped with position adjustable and are used for injecing stop gear (13) that cardboard pile both sides border position, be equipped with pan feeding conveying mechanism (14) that are used for seeing off the cardboard on pan feeding platform (11), pan feeding conveying mechanism (14) both sides are equipped with support paper mechanism (15) that are used for intermittent type nature to hold up the cardboard, still be equipped with on pan feeding platform (11) and be used for bearing cardboard pile lateral border hold in the palm paper frame (16).
7. A high speed ink and water printing press as claimed in claim 1, wherein: the blanking device (5) comprises a fifth conveying mechanism (51) and a lifting mechanism (52) capable of changing the height of the discharge end of the fifth conveying mechanism (51) in an inclined upward mode along the conveying direction, and the stacking device (6) and the discharge end of the fifth conveying mechanism (51) lift synchronously.
8. A high speed ink and water printing press as claimed in claim 7, wherein: pile up neatly device (6) are including centering mechanism (61) and keep off frame (62), keep off frame (62) and can be gone up and down by elevating system (52) drive, fifth conveying mechanism (51) discharge end with keep off and leave the pile up neatly interval between frame (62), be equipped with on keeping off frame (62) and be arranged in centering mechanism (61) that the work piece both sides were adjusted well in the pile up neatly space.
9. A high speed ink and water printing press as claimed in claim 8, wherein: the blocking frame (62) comprises a limiting baffle (621) arranged at one side of the stacking interval far away from the five conveying mechanisms (51) and a connecting beam (622) with one end fixedly connected with the limiting baffle (621), and the other end of the connecting beam (622) is adjustably arranged on the lifting mechanism (52).
10. A high speed ink and water printing press as claimed in claim 8, wherein: the centering mechanism (61) comprises a portal frame (611) arranged on the blocking frame (62) and two pneumatic lateral pressure mechanisms (612) arranged on a top beam of the portal frame (611) in an adjustable position.
CN202021756232.7U 2020-08-20 2020-08-20 High-speed ink and water printing machine Active CN212245580U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202021756232.7U CN212245580U (en) 2020-08-20 2020-08-20 High-speed ink and water printing machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202021756232.7U CN212245580U (en) 2020-08-20 2020-08-20 High-speed ink and water printing machine

Publications (1)

Publication Number Publication Date
CN212245580U true CN212245580U (en) 2020-12-29

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Application Number Title Priority Date Filing Date
CN202021756232.7U Active CN212245580U (en) 2020-08-20 2020-08-20 High-speed ink and water printing machine

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113942297A (en) * 2021-10-21 2022-01-18 广东丰高印刷科技股份有限公司 A printing four-color machine for producing various box

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113942297A (en) * 2021-10-21 2022-01-18 广东丰高印刷科技股份有限公司 A printing four-color machine for producing various box
CN113942297B (en) * 2021-10-21 2023-08-15 广东丰高印刷科技股份有限公司 A four-color machine of printing for producing various box

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