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CN204938392U - Sheet material stacking apparatus - Google Patents

Sheet material stacking apparatus Download PDF

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Publication number
CN204938392U
CN204938392U CN201520628954.7U CN201520628954U CN204938392U CN 204938392 U CN204938392 U CN 204938392U CN 201520628954 U CN201520628954 U CN 201520628954U CN 204938392 U CN204938392 U CN 204938392U
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CN
China
Prior art keywords
sheet material
stacking
conveyer
stacking surface
discharge end
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201520628954.7U
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Chinese (zh)
Inventor
M·阿达米
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Guangdong Fosber Intelligent Equipment Co Ltd
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Guangdong Fosber Intelligent Equipment Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by Guangdong Fosber Intelligent Equipment Co Ltd filed Critical Guangdong Fosber Intelligent Equipment Co Ltd
Priority to CN201520628954.7U priority Critical patent/CN204938392U/en
Application granted granted Critical
Publication of CN204938392U publication Critical patent/CN204938392U/en
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H31/00Pile receivers
    • B65H31/30Arrangements for removing completed piles
    • B65H31/3054Arrangements for removing completed piles by moving the surface supporting the lowermost article of the pile, e.g. by using belts or rollers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H29/00Delivering or advancing articles from machines; Advancing articles to or into piles
    • B65H29/50Piling apparatus of which the discharge point moves in accordance with the height to the pile
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2301/00Handling processes for sheets or webs
    • B65H2301/40Type of handling process
    • B65H2301/42Piling, depiling, handling piles
    • B65H2301/421Forming a pile
    • B65H2301/4217Forming multiple piles
    • B65H2301/42172Forming multiple piles simultaneously

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Pile Receivers (AREA)

Abstract

Disclose a kind of sheet material stacking apparatus, this equipment (1) comprises layout and is configured for supplying continuously the sheet material conveyer (11) of multiple sheet material (SS), and described sheet material conveyer has sheet material discharge end.Sheet material stacking apparatus comprises stacking district (15) further, and described stacking district comprises stacking surface (17), and the sheet material carried by sheet material conveyer forms stacking on stacking surface; The motion that stacking surface has rising and declines.The discharge end of sheet material conveyer has the motion (f1) of rising and decline.In addition, the discharge end of sheet material conveyer is mechanically attached to stacking surface (17) and drive actuator (71), with the lift motions of discharge end (73) and the descending motion of stacking surface that make described drive actuator control sheet material conveyer (11), vice versa simultaneously.Effect of the present utility model is: the stacking that effectively can control the sheet material formation rule shape of advancing fast.

Description

Sheet material stacking apparatus
Technical field
The utility model relates to a kind of sheet material stacking apparatus, and for the formation of paperboard sheets stacking, described paperboard sheets is such as but not limited to corrugated board sheet material.
Background technology
In paper industry, paperboard sheets manufactures from the continuous web the same with paper board material, and this continuous web is longitudinally cut to be divided into band, and the further horizontal partition of each band is to form the sheet material of multiple desired length.Sheet material obtained like this is delivered to and forms the stacking of sheet material or the so-called piler of harness or stacking apparatus.These stackings are then delivered to final user, such as, for the manufacture of cardboard case or analogue.Stacking little before transportation or harness may be combined with into large stacking.
The sheet material of quick advance must be stacked carefully with the stacking of formation rule shape.Existing stacking apparatus generally includes the sheet material conveyer receiving continuous print sheet material stream substantially, and this sheet material is extruded (shingled) and is delivered on the stacking surface in stacking district.
The critical aspects of this stacking apparatus be when sheet material leave sheet material conveyer and be stacked form stacking time control strip material.
Known stacking apparatus provides movable stacking surface, and when sheet material stacking is formed on movable stacking surface, this movable stacking surface declines gradually.Other known stacking apparatus provides the movable discharge end of sheet material conveyer, and when uprising at the sheet material stacking of stacking surface, this movable discharge end raises gradually.
Still need in the region of the feeding sheets of stacking surface, improving stacking apparatus from sheet material conveyer.
Utility model content
According to an aspect, the utility model provides a kind of sheet material stacking apparatus, comprising:
Sheet material conveyer, described sheet material conveyer is arranged and is configured for supplying multiple sheet material continuously, and described sheet material conveyer has sheet material discharge end; And
Stacking district (stackingbay), described stacking district comprises stacking surface, and the sheet material carried by sheet material conveyer forms stacking or harness on described stacking surface; Stacking surface has rising and descending motion;
The discharge end of sheet material conveyer has rising and descending motion.The discharge end of feeding sheet materials conveyer is mechanically attached to stacking surface and drive actuator, and to make described drive actuator control the lift motions of the discharge end of sheet material conveyer and the descending motion of stacking surface, vice versa simultaneously.
Drive actuator can be electrical motor or analogue.
According to some embodiment, stacking surface is around the first horizontal axis pivotable, and described stacking surface carries out the motion of described rising and decline around this first horizontal axis pivotable simultaneously.
According to some embodiment, sheet material conveyer is around the second horizontal axis pivotable, and described sheet material conveyer carries out the motion raising and decline simultaneously around this second horizontal axis pivotable.
First horizontal axis and the second horizontal axis can be parallel to each other and transverse to the feeding sheet materials direction along feeding sheet materials conveyer.
In a particularly advantageous embodiment, sheet material conveyer comprises one group of delivery member, and this group delivery member is sequentially arranged to most downstream delivery member along feeding sheet materials direction from most upstream delivery member.
Stacking surface can be formed by conveyer, and this conveyer is arranged and is configured for moving up in the side parallel with the direction of feed of the sheet material that sheet material conveyer is carried in stacking district the sheet material be formed on this conveyer.Therefore stacking is cleared in a longitudinal direction, and described longitudinal direction corresponds to the working direction of sheet material along upstream sheet conveyer.
According to some embodiment, stacking surface is connected with the Part I of flexible member; The sheet material discharge end of sheet material conveyer can be connected with the Part II of flexible member; Part between the Part I of compliant member and Part II is pulled around vehicularized rotating drive component, causes the rising of the discharge end of sheet material conveyer and the rising of decline and stacking surface and decline to make the rotation of rotating drive component.
The exit end of feeding sheet materials conveyer can comprise supply roll gap, this supply roll gap construct and the feeding sheet materials be arranged to for carrying along feeding sheet materials conveyer to stacking surface.
Sheet material stacking apparatus can comprise the gate be arranged in above stacking surface further, and described shutter structure is also arranged as formation bearing, and the sheet material carried by sheet material conveyer stops against this bearing.This gate can be arranged on sliding part, and described sliding part can be parallel to stacking surface and move up in feeding sheet materials side.
According on the other hand, provide a kind of method forming sheet material stacking at stacking surface.Described method comprises the steps:
Supply multiple sheet material towards stacking surface along feeding sheet materials conveyer, this feeding sheet materials conveyer has sheet material discharge end, and sheet material is disposed to stacking surface from sheet material discharge end;
When sheet material be stacked in stacking surface increases gradually time, decline stacking surface also raises the sheet material discharge end of feeding sheet materials conveyer simultaneously.
According to favourable embodiment, the contrary decline of the rising of the sheet material discharge end of feeding sheet materials conveyer and descending motion and stacking surface and lift motions can be controlled by same actuator.The sheet material discharge end that such as actuator can both be connected to described feeding sheet materials conveyer by flexible member is also connected to described stacking surface.
Described method can be included in further sheet material by feeding sheet materials conveyer to be delivered on stacking surface along identical direction, direction on empty the step of the sheet material stacking be formed on stacking surface.
There is provided a kind of sheet material stacking apparatus, comprising: sheet material conveyer, described sheet material conveyer is arranged and is configured for supplying multiple sheet material continuously, and described sheet material conveyer has sheet material discharge end; Stacking surface, the sheet material carried by sheet material conveyer forms stacking on described stacking surface; The motion that this stacking surface has rising and declines; It is characterized in that: the sheet material discharge end of described sheet material conveyer has the motion of rising and decline, and stacking surface has contrary decline and the motion of rising.
Preferably, the sheet material discharge end of sheet material conveyer is mechanically attached to stacking surface and drive actuator, to make described drive actuator control the lift motions of the sheet material discharge end of sheet material conveyer and the descending motion of stacking surface, and control the descending motion of the sheet material discharge end of sheet material conveyer and the lift motions of stacking surface simultaneously simultaneously.
Preferably, stacking surface is around the first horizontal axis pivotable, and this stacking surface carries out described rising and descending motion around this first horizontal axis pivotable simultaneously.
Preferably, sheet material conveyer is around the second horizontal axis pivotable, and the delivery member of most downstream carries out described rising and descending motion around this second horizontal axis pivotable simultaneously.
Preferably, the first horizontal axis and the second horizontal axis are parallel to each other and transverse to the feeding sheet materials direction along sheet material conveyer.
Preferably, sheet material conveyer comprises one group of delivery member that the delivery member along feeding sheet materials direction from most upstream to the delivery member of most downstream is disposed in order, and wherein the delivery member of most downstream forms sheet material discharge end.
Preferably, stacking surface is formed by conveyer, and described conveyer is arranged and is configured for moving up in the side parallel with the direction of the supply of the sheet material carried on stacking surface by sheet material conveyer the sheet material formed on a conveyor.
Preferably, stacking surface is connected with the Part I of flexible member; The sheet material discharge end of sheet material conveyer is connected with the Part II of flexible member; And the centre portion of the Part I of flexible member and Part II is pulled around vehicularized rotation driving part, cause the rising of the sheet material discharge end of sheet material conveyer and the rising of decline and stacking surface and decline to make the rotation of rotation driving part.
Preferably, the exit end of sheet material conveyer comprises supply roll gap, and described supply roll gap constructs and is arranged to the feeding sheet materials carried along sheet material conveyer on stacking surface.
Preferably, comprise the gate be arranged in above stacking surface further, described gate is arranged and is configured to form bearing, and the sheet material carried by sheet material transmitting device stops against bearing.
Preferably, described gate is arranged on sliding part, and described sliding part is parallel to stacking surface and can moves in the direction of the supply of sheet material.
The utility model can control the stacking of the sheet material formation rule shape of advancing fast effectively.
Other characteristic sum beneficial effect of the present utility model will be easier to understand from the following detailed description of one exemplary embodiment.
Accompanying drawing explanation
When considering by reference to following description in detail by reference to the accompanying drawings, more fully understanding and its adjoint many advantages of the embodiment disclosed by the utility model will be easy to obtain and become easier to understand simultaneously, wherein:
Fig. 1 shows the three-dimensional view according to stacking apparatus of the present utility model;
Fig. 2 shows a part of enlarged drawing of Fig. 1;
Fig. 3,4,5 and 6 shows the stacking district forming the end of sheet material conveyer in each step of circulation at stacking, and sheet material is stacked in this place of stacking district and is formed on stacking surface;
Fig. 7 shows the discharge end of sheet material conveyer and the enlarged drawing of stacking surface; And
Fig. 8 A to 8F diagrammatically illustrate stacking formation order and in the formation along the gap in the sheet material stream of sheet material conveyer.
Detailed description of the invention
Figure 1 illustrates the block diagram according to stacking apparatus 1 of the present utility model.Stacking apparatus 1 comprises the supporting construction 3 supporting multiple delivery member 5,7 and 9, and above-mentioned delivery member forms sheet material conveyer (overall by reference number 11 illustrates) together.In the one exemplary embodiment of Fig. 1, provide three delivery member 5,7 and 9, but be understandable that, the delivery member of varying number can be provided.
Just hereafter, supporting construction 3 can be hinged on anchor post or pillar 3A around pivotal axis.
In certain embodiments, each delivery member can be driven by respective motor (such as electrical motor).Two electrical motor 5M and 7M of delivery member 5 and 7 are driven to illustrate by the example in Fig. 1.
Sheet material conveyer 11 has conveyer entrance 11A and conveyer outlet 11B.In mode well known by persons skilled in the art, paperboard sheets is supplied at conveyer entrance 11A place and is extruded by conveying roller (not shown) and Flexible brush 13 or other suitable devices be known in the art.In the embodiment shown in the figures, the top that brush 13 is arranged in the delivery member 5 of most upstream is extruded.Delivery member 9 is delivery member of most downstream in this group delivery member of formation sheet material conveyer 11, and is arranged to such as sheet material is delivered to stacking district or palletizing station 15.
Stacking district 15 comprises stacking surface 17, and described stacking surface can be less horizontal, but in order to become clearly object according to following description, described stacking surface can around by-level inclined position.Stacking surface 17 can be formed by continuous print conveyer band 19.Conveyer band 19 can around the roller 23 directed (see Fig. 3 to 7) in the roller 21 of upstream and downstream.One in roller 21 and 23 can be vehicularized, such as, drives by electrical motor 25.The general direction that term " upstream " and " downstream " refer to sheet material and the stacking that formed by the sheet material be stacked advances.
In certain embodiments, stacking district 15 comprises the second conveyer band 27 in the downstream being arranged in the first conveyer band 19.Conveyer band 19 and 27 is arranged and is controlled as the harness or the stacking S that move paperboard sheets along the direction representated by arrow F continuously.Each stacking or harness S can be tied subsequently and multiple described stacking or harness S can be stacked on such as the chassis of freighting or analogue.
In certain embodiments, the second conveyer band 27 is directed around roller 29 and 31.One in roller 29,31 can be vehicularized.In the embodiment shown in the figures, roller 31 is driven rotation by electrical motor 33.Use two independently direct motor drive two conveyer bands 19 and 27 may be favourable in operation operating speed, this point is by from hereafter becoming clear to the description of the operation of stacking apparatus 1.In current other embodiment more preferred, single electric motor can be utilized to drive two conveyer bands 19 and 27 to move.
Just as is schematically indicated in figure 1, can provide further and empty conveyer device 35, empty conveyer device arrange and be controlled to according to arrow F1 (see Fig. 1) remove motion stacking is removed from stacking district 15.In the embodiment shown in fig. 1, empty conveyer device 35 to be made up of conveyer band 35A and 35B that empty that two are arranged continuously.But also can provide different and empty conveyer, such as only adopt one and empty conveyer or empty conveyer more than two.And emptying direction can be different, such as, be not orthogonal to the working direction F of the stacking on the conveyer band 19 and 27 of stacking district or palletizing station 15.
In certain embodiments, roller 21,23,29 and 31 is supported by pivot frame 37, and conveyer band 19 and 27 is directed around these rollers.Pivot frame 37 can around pivot axis A pivotable, and pivot axis A extends less horizontally and is parallel to the axis of roller 21,23,29 and 31.
In certain embodiments, stacking district 15 can comprise gate 41 further.Gate 41 is supported by bracket 43, and bracket can be arranged movably along guiding piece 45.Be arranged on framework 37, and the opposite side that can be parallel to framework 37 extends guiding piece 45 accessible site.The working direction F that guiding piece 45 is parallel to the sheet material forming stacking S extends.The motion of bracket 43 can be given by axle 49 and gear 51 by electrical motor 47, and this gear can engage to the corresponding tooth bar (not shown) attached on the downside of framework 37.
The rotation of the axle 49 driven by electrical motor 47 controls motion also therefore control door 41 motion in the direction of arrowf of bracket 43.
Gate 41 can around axis B pivotable.Described axis B can be substantially horizontal and be orthogonal to direction F substantially, and be therefore substantially parallel to axis A.In certain embodiments, gate 41 can be controlled by cylinder piston actuator 55 (Fig. 1 and 2) around the pivoting action of axis B.In a preferred embodiment, provide two relative cylinder piston actuators 55, each bracket 43 configures one.In a further embodiment, can imagine and adopt different actuators, such as electro-motor or HM Hydraulic Motor.
Preferably as shown in figs. 2 and 7, the end that framework 37 is relative with axis A is mechanically connected to flexible member 61, and flexible member can be made up of a pair chain 63.It is appreciiable that the described chain 63 of formation flexible member 61 only has one in the drawings.Part I (specifically the first end part 63A of each chain 63) is connected to framework 37 at Reference numeral 65 place.The second end part 63B forming each chain 63 of flexible member 61 can be mechanically constrained to supporting construction 3.More particularly, the second end part 63B can be constrained to supporting construction 3 near the mouth of most downstream delivery member 9.
As mentioned, in certain embodiments, supporting construction 3 is pivotally connected to pillar 3A around axis C (especially see Fig. 1).Axis C can be substantially parallel to axis A.By raising and the end sections 63B of each chain 63 that declines, total 3 and therefore sheet material conveyer 11 are by the movement up and down around axis C pivotable.
Each of two chains 63 of formation flexible member 61 is pulled around corresponding gear 65 (especially see Fig. 1 and 2).More particularly, each chain 63 of formation flexible member 61 has the centre portion between first end part 63A and the second end part 63B.The centre portion of each chain 63 is pulled around corresponding gear 65.
Each gear 65 can be driven by corresponding motor (such as electrical motor, HM Hydraulic Motor or analogue).In a preferred embodiment, single-motor can be used for synchronously driving two gears 65.In exemplary embodiment shown in the figure, gear 65 key is connected on axle 67.The two end supports of axle 67 also can be driven by electrical motor 71 or other suitable actuators arbitrary on fixed support structure 69 rotates.
The rotation of the axle 67 controlled by electrical motor 71 causes the motion of two chains 63 forming flexible member 61, to make end sections 63A and the 63B vertically movement in the opposite direction of each chain 63.
Adopt this structure, stacking surface 17 and sheet material conveyer 11 mechanically connect mutually by flexible member 61, to make electrical motor 71 can control strip material conveyer 11 and stacking surface 17 contrary respectively and rising and descending motion simultaneously.
Most downstream delivery member 9 forms the sheet material discharge end 73 of sheet material conveyer 11, and each paperboard sheets supplied by sheet material conveyer 11 is offloaded to stacking surface 17 from this sheet material discharge end, and this will form circulation with reference to stacking afterwards and be described in more detail.
In certain embodiments, supply roll gap can be had in the discharge end of sheet material conveyer 11.Supply roll gap (overall by reference number 75 marks) can be formed by top roll gap roller 77 and bottom roll gap roller 79.In certain embodiments, bottom roll gap roller 79 can be the delivery member 9 of most downstream around in its two directed rollers.Supply roll gap 75 is arranged to make the sheet material carried by sheet material conveyer 11 to be introduced in stacking district 15 and is discharged on stacking surface 17.In certain embodiments, flexible flake 81, brush or one group of such thin slice or brush or other flexible members can be arranged in the front of supply roll gap 75, provide better guiding to give by supply roll gap 75 sheet material be supplied on stacking surface 17.
The structure of the stacking apparatus of the present utility model described, present sequence reference Fig. 3 to 6 will describe its operation in more detail.In figure 3, sheet material stacking S starts to be formed on stacking surface 17.Gate 41 is in the close position and be arranged in distance roller 21 and the such distance of supply roll gap 75 to hold the sheet material of formation stacking S.The position (namely it is from the distance of supply roll gap 75) of gate 41 is determined by the sheet material size in the directionf that must be stacked to be formed stacking S.
Sheet material is supplied to stacking surface 17 along arrow F through supply roll gap 75 by sheet material conveyer 11.In initial stacking step (Fig. 3), framework 37 is positioned at its extreme higher position.On the contrary, supporting construction 3 is arranged in extreme lower position (namely the exit end of sheet material conveyer 11 is at lower position).The far-end (namely it is from the end of the maximum distance of pivot axis A) of framework 37 is positioned at its extreme higher position.
As can being found out by comparison diagram 3 and 4, by supplying sheet material continuously along sheet material conveyer 11, the height of the stacking S be formed on the stacking surface 17 in stacking district 15 is increased.Between stacking S Formation period, in order to stacking sheet material exactly on stacking surface 17, the incident angle of the sheet material track of the topmost Free Surface relative to the stacking formed is made to keep less constant, by making framework 37 little by little decline around axis A pivot frame 37.Simultaneously sheet material conveyer 9 discharge end 73 and therefore supply roll gap 75 by little by little raising around pivot axis C pivot structure 3.These two declines representated by arrow f1 and f2 in Fig. 3 and Fig. 4 and lift motions are passed through by same electrical motor 71 and are controlled by axle 67, gear 65 and the chain 63 forming flexible member 61.
By electrical motor 71 give flexible member 61 and and then the motion of giving stacking surface 17 and giving conveyer 11 can be controlled by the photounit at top or other suitable sensor arbitrary (such as Proximity Sensor or analogue) detecting the stacking S formed.
In Figure 5, stacking S has been completed.Sheet material stream along sheet material conveyer 11 is interrupted as known mode (hereafter can sequence reference Fig. 8 A to 8F do brief description) with this.In order to empty the stacking S be formed in like this in stacking district 15, the actuator 55 by the pivoting action around axis B control door 41 raises gate 41.Meanwhile, electrical motor 47 can control door 41 and bracket 43 along the motion backward of arrow f3 (Fig. 5) to accelerate emptying step.Conveyer band 19 and 27 can be activated by electrical motor 25 and 33 and laterally empty conveyer 35 (Fig. 1) according to arrow F (Fig. 5) stacking S moved to conveyer band 27 from conveyer band 19 and move to from conveyer band 27.By utilizing two independently electrical motors 25 and 33, the motion of conveyer band 27 can be proceeded while stopping conveyer band 19 to move, to remove the stacking S just formed.Gate 41 can return (against arrow F) to its initial position, and stacking S continues mobile along conveyer band 27 simultaneously, can start rapidly to form new stacking S.
Therefore harness or the stacking S of sheet material are cleared in the directionf, and described direction F is substantially parallel to the arrival direction of the sheet material forming stacking on stacking surface 17.
In figure 6, the stacking S just formed moves along conveyer band 27, and simultaneously conveyer band 19 is idle to receive next stacking S.Before the follow-up stacking of stacking surface 17 can start to be formed, gate 41 will move back to its operating position place (Fig. 3 and 4).
According to order as described above and with particular reference to Fig. 3 and 4, advantage of the present utility model can be understood easily: physical construction can be used for controlling the relative rising/descending motion of the discharge end 73 of sheet material conveyer 11 and supply roll gap 75 and stacking surface 17 two, the correct mutual Angle Position of this motion maintenance stacking surface and feeding sheet materials track.By utilizing flexible member 61 to be attached to structure 3 and framework 37, balance structure 3 and framework 37, the moment of torsion therefore driving flexible member 61 to need reduces.
Fig. 8 A to 8F again order shows the formation of stacking S and emptying and form clearance G in the script uninterrupted flow of the sheet material SS along sheet material conveyer 11 of it.As one of skill in the art will recognize, once stacking S completes in stacking district 15, such as by a pair jaw 93,91 that can close as shown in Figure 8 B to clamp the sheet material of most downstream of the pack material by forming next stacking, thus obtain the clearance G starting in the fig. 8b to be formed.
By closed jaw 91,93, stop or postponing the sheet material of next most downstream organized, the last sheet material SS be stacked on the stacking S of formation in stacking district 15 is moved on towards supply roll gap 75 simultaneously.Once form enough large clearance G in the script uninterrupted flow of the sheet material SS carried along sheet material conveyer 11, then jaw 91,93 is opened again.Also the formation of clearance G is conducive to by the speed of advance controlling single delivery member 5,6 and 9.
Because the utility model has described about thinking useful and the most optimum example now, be understandable that, the utility model is not limited to disclosed example, also covers on the contrary be included in additional claim spirit and scope in various modification and equivalent constructions.

Claims (19)

1. a sheet material stacking apparatus, comprising:
Sheet material conveyer, described sheet material conveyer is arranged and is configured for supplying multiple sheet material continuously, and described sheet material conveyer has sheet material discharge end;
Stacking surface, the sheet material carried by sheet material conveyer forms stacking on described stacking surface; The motion that this stacking surface has rising and declines;
It is characterized in that: the sheet material discharge end of described sheet material conveyer has the motion of rising and decline, and stacking surface has contrary decline and the motion of rising.
2. sheet material stacking apparatus according to claim 1, it is characterized in that: the sheet material discharge end of sheet material conveyer is mechanically attached to stacking surface and drive actuator, to make described drive actuator control the lift motions of the sheet material discharge end of sheet material conveyer and the descending motion of stacking surface, and control the descending motion of the sheet material discharge end of sheet material conveyer and the lift motions of stacking surface simultaneously simultaneously.
3. sheet material stacking apparatus according to claim 1, is characterized in that: stacking surface is around the first horizontal axis pivotable, and this stacking surface carries out described rising and descending motion around this first horizontal axis pivotable simultaneously.
4. sheet material stacking apparatus according to claim 2, is characterized in that: stacking surface is around the first horizontal axis pivotable, and this stacking surface carries out described rising and descending motion around this first horizontal axis pivotable simultaneously.
5. sheet material stacking apparatus according to claim 1, is characterized in that: sheet material conveyer is around the second horizontal axis pivotable, and the delivery member of most downstream carries out described rising and descending motion around this second horizontal axis pivotable simultaneously.
6. sheet material stacking apparatus according to claim 2, is characterized in that: sheet material conveyer is around the second horizontal axis pivotable, and the delivery member of most downstream carries out described rising and descending motion around this second horizontal axis pivotable simultaneously.
7. sheet material stacking apparatus according to claim 3, is characterized in that: sheet material conveyer is around the second horizontal axis pivotable, and the delivery member of most downstream carries out the motion of described rising and decline simultaneously around this second horizontal axis pivotable.
8. sheet material stacking apparatus according to claim 4, is characterized in that: sheet material conveyer is around the second horizontal axis pivotable, and the delivery member of most downstream carries out the motion raising and decline simultaneously around this second horizontal axis pivotable.
9. sheet material stacking apparatus according to claim 6, is characterized in that: the first horizontal axis and the second horizontal axis are parallel to each other and transverse to the feeding sheet materials direction along sheet material conveyer.
10. sheet material stacking apparatus according to claim 1, it is characterized in that: sheet material conveyer comprises one group of delivery member that the delivery member along feeding sheet materials direction from most upstream to the delivery member of most downstream is disposed in order, and wherein the delivery member of most downstream forms sheet material discharge end.
11. sheet material stacking apparatuss according to any one of claim 2 to 9, it is characterized in that: sheet material conveyer comprises one group of delivery member that the delivery member along feeding sheet materials direction from most upstream to the delivery member of most downstream is disposed in order, and wherein the delivery member of most downstream forms sheet material discharge end.
12. sheet material stacking apparatuss according to claim 1, it is characterized in that: stacking surface is formed by conveyer, described conveyer is arranged and is configured for moving up in the side parallel with the direction of the supply of the sheet material carried on stacking surface by sheet material conveyer the sheet material formed on a conveyor.
13. sheet material stacking apparatuss according to claim 2, it is characterized in that: stacking surface is formed by conveyer, described conveyer is arranged and is configured for moving up in the side parallel with the direction of the supply of the sheet material carried on stacking surface by sheet material conveyer the sheet material formed on a conveyor.
14. sheet material stacking apparatuss according to claim 1, is characterized in that: stacking surface is connected with the Part I of flexible member; The sheet material discharge end of sheet material conveyer is connected with the Part II of flexible member; And the centre portion of the Part I of flexible member and Part II is pulled around vehicularized rotation driving part, cause the rising of the sheet material discharge end of sheet material conveyer and the rising of decline and stacking surface and decline to make the rotation of rotation driving part.
15. sheet material stacking apparatuss according to any one of claim 2 to 10,12 and 13, is characterized in that: stacking surface is connected with the Part I of flexible member; The sheet material discharge end of sheet material conveyer is connected with the Part II of flexible member; And the centre portion of the Part I of flexible member and Part II is pulled around vehicularized rotation driving part, cause the rising of the sheet material discharge end of sheet material conveyer and the rising of decline and stacking surface and decline to make the rotation of rotation driving part.
16. sheet material stacking apparatuss according to claim 1, is characterized in that: the exit end of sheet material conveyer comprises supply roll gap, and described supply roll gap constructs and is arranged to the feeding sheet materials carried along sheet material conveyer on stacking surface.
17. sheet material stacking apparatuss according to any one of claim 2 to 10,12,13 and 14, it is characterized in that: the exit end of sheet material conveyer comprises supply roll gap, described supply roll gap constructs and is arranged to the feeding sheet materials carried along sheet material conveyer on stacking surface.
18. sheet material stacking apparatuss according to any one of claim 1 to 10,12,13,14 and 16, it is characterized in that: comprise the gate be arranged in above stacking surface further, described gate is arranged and is configured to form bearing, and the sheet material carried by sheet material transmitting device stops against bearing.
19. sheet material stacking apparatuss according to claim 18, is characterized in that: described gate is arranged on sliding part, and described sliding part is parallel to stacking surface and can moves in the direction of the supply of sheet material.
CN201520628954.7U 2015-08-19 2015-08-19 Sheet material stacking apparatus Active CN204938392U (en)

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Application Number Priority Date Filing Date Title
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108622709A (en) * 2017-03-22 2018-10-09 广东佛斯伯智能设备有限公司 Sheet material stacker and the method for forming sheet material stacking

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108622709A (en) * 2017-03-22 2018-10-09 广东佛斯伯智能设备有限公司 Sheet material stacker and the method for forming sheet material stacking
EP3378810B1 (en) 2017-03-22 2022-10-12 Guangdong Fosber Intelligent Equipment Co., Ltd. Up-stacker for forming stacks of sheets and method of forming stacks of sheets

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