CN101927903A - Stacking method of stack body and stacking arrangement of stack body - Google Patents

Abstract

The invention relates to a stacking method of a stack body and an stacking arrangement of the stack body. The method used for stacking at least one approximately-square stack body can be used for transporting the stack body to a calcinatory and/or a drying oven, the stacks in the stack body can be arranged in various stacking layouts, each stacking layout includes a plurality of stacking columns oriented in parallel to each other. At least one stacking layout can be arranged with at least one of the stack body, the stacking columns and the stacking column sections, the stack body, the stacking columns or the stacking column sections rotates or rotate relative to other stack body, stacking columns or stacking column in the stacking layout. According to the invention, the rotating stack body or stacking columns, or at least one stack body in the at least one rotating stacking column, is or are arranged on one side of the stacking layout in the way that one minimum side surface of the stack body or the stacking columns or single stack body in the stacking columns faces outward. In this way, the stack body is generated in an economic way, and the stack body has a steady structure.

Description

The clamp method of stacker body and the stacked arrangement of stacker body

Technical field

The present invention relates to according to claim 1 summarize being the method that the single stacker body of squarish carries out stacking at least, and the layout of summarizing according to claim 16 that the described stacker body that is used for stacking is carried out.

Background technology

Usually for deposit or transport as the lime sanded brick or watt and so on wall brick and building brick, perhaps become parison at brick pressed compact or the brick produced as during the wall brick of lime sanded brick and so on and the building brick, before doing cure process, can on pallet or transport trolley, particularly on the hardening furnace car, pile stacking to them.Generally, such stacking comprises and a plurality ofly becomes single layering or the layout of parison as stacker body with brick with square basically brick that described stacker body is in the plane that is parallel to each other.In each layering or layout, described brick or brick become a plurality of stackings of parison to be listed as the layout that also is parallel to each other.The stacking of adjacent layering or layout row also can be parallel to each other or same orientation (gleichgerichtet), particularly stacking can also be with vertical row, and this stacker body that makes the upper strata put fully hides the stacker body of putting below it.But, such layout is very unstable.In case slight vibrations occur, such stacking just may collapse at least in part.This danger of collapsing can reduce by mobile method is done on the surface of the overlapped placement of the brick of adjacent layout slightly, and this is enough as a rule.

Known to reduce the danger of collapsing, the orientation that can rotate is mutually separately arranged single layering or layout, this make the layering of in a certain layering, being placed with the stacking row of this layering relatively those stackings of its adjacent layering be listed as with mutual rectangular move mode and set up.This rotation can be carried out in each layering.By the 4th, 119, No. 217 US Patent are for example only specified and are done 90 ° skew at per two branch interlayers as can be known.Yet this continuous rotation of stacking grab bucket arm needs time and energy, although make this way of stacking show the structure of quite stable, but still uneconomical.And, only under the minority combined situation of stacker body size and stacking size, allow to set even rule overlapping of the layering of single mutual rotation.

In addition, by the 3rd, 894, No. 639 US Patent only have a layering that has the stacker body that is rotated layout fully as can be known.What but this layering that is rotated was served as in the prior art is the covering layering of layout, and it has the two passes that allows the arm of fork truck insert.

At last, by the 4th, 014, No. 441 US Patent distribute very different stacker bodies to arrange sample can for single layering as can be known, make that the single stacker body in a layering is arranged mutually orthogonally, and the sample that always has difference for its adjacent layering.Heap although it is so is outstanding with the stability of height, is to time and cost waste but make extremely differentiated in a large number sample.

Summary of the invention

Therefore, task of the present invention is to determine a kind of method that is used for the stacker body stacking, and a kind of layout of the stacker body stacking that obtains in mode described in the invention, by described method and layout, realize the manufacturing of economy especially equally under stable enough situations of heap.

The method that the solution of described task can be summarized according to claim 1, or finish with the layout of being summarized according to claim 16 to stacker body, this is to be disposed in the following manner at least one side of stacking layout by at least one stacker body that is rotated or stacker body row section or at least one stacker body row to finish, and promptly points to outer mode with the minimum lateral of the single stacker body in stacker body or stacker body row section or the stacker body row and finishes.

By the present invention, be arranged in one or more stacker bodies of lining up row each other on the side with being rotated and can create and be relatively fixed a little, it is fixed in simple and economic mode, and has an effect on the edge of stacking.That is, the characteristics of the side of these stackings are to have conventional orientation by: other stacking layouts of stacker body, and the major axis that it had is parallel to the side of stacking and places.Do not have stable especially balanced distribution on this direction of the stacker body put that overlaps each other, this makes run-off the straight when the stacker body on the side may be in existing small vibrations.According to the present invention, the stacker body that is rotated fixedly is achieved by wipe contact in a sense.

Preferred stacker body is wall brick or building brick, and particularly the lime sanded brick perhaps normally is wall brick or building brick, and particularly lime sanded brick institute repressed brick becomes parison.

When stacker body is piled up on the transport trolley, particularly relate to those and be placed in transport trolley, particularly during being built into parison or wall brick and becoming the stacker body of parison and so on the hardening furnace car, for they being transported in hardening equipment or drying oven or the calcinator, stacking can constitute with two kinds of variants especially now.

In first kind of practising way, stacking is orthogonal to the travel direction orientation with the major axis of the one-tenth parison that is arranged in parallel, and/or the mode that the major axis of the one-tenth parison that is rotated is parallel to travel direction orientation is orientated, this is for to for example waving at car, and perhaps the side force when track or running ground unevenness or inaccuracy is stablized.In this case, preferably, the stacking side of seeing from the front and back on travel direction carries out the rotational forming grey cloth is put, with in transportation or the hardening furnace car starts and load is stablized when braking.

Especially when the strength of starting and braking of mobile transportation or hardening furnace car is waved greater than vehicle during application force in its side, more useful is, conventional or parallel-oriented one-tenth parison with its major axis in transportation or the hardening furnace car direction of travelling, and/or the major axis of the one-tenth parison that is rotated is orthogonal to travel direction orientation, and the stacking side of preferably seeing from left side and right side at travel direction is in addition arranged the parison that becomes of rotation.

A kind of stacking especially efficiently structure, it can be finished by using stacking grab bucket, its once pick up single-piece stacking layout and be put into pallet or the hardening furnace car on.But, usually for economic reasons, can use less stacking grab bucket, it repeatedly moves the single stacking piece of its extracting to finish the stacking layout.In a specific embodiment of the present invention, conventional stacking layout produces by the stacker body that only is arranged in parallel, and divides for four steps by this stacking grab bucket, and per step preferably places a stacking piece and produces at matrix in 2 * 2 the matrix.Such stacking piece preferably includes at least two stacker body row that are parallel to each other.

Therefore, grab bucket keeps the one-movement-freedom-degree that needs to stacking, and this grab bucket is to be used to place the single stacking piece that comprises the stacker body row, and wherein the stacker body row arrange it is useful spaced reciprocally, and this makes and the slit occurs between them.Such slit also is beneficial especially in the stacking layout of the stacker body that has the rotation layout.Therefore, these stacker body that has rotated row or stacker body row section can be implemented like this: extend with the layout of rotation between the stacker body row that just are arranged in parallel in routine in these slits.

Preferably, stacking grab bucket is can pick up single stacker body or pick up the whole of interim stacking ground or exist the stacker body row in slit or the mode of part stacker body row to construct with it, and for example described interim stacking ground is belt conveyor or bay-lift.Therefore, above-mentioned slit can be arranged in the rotation layout, and when rotating the stacker body row of arranging in the zone of grasping in the slit, stacking is grabbed bucket and do not picked up one or more stacker bodies.These stacker bodies of not picked up rest on interim stacking on the ground, if necessary, particularly when relating to into parison, can direct waste and old utilization.

In the specific implementations of the present invention, specified a kind of method when with the stacker body column-generation stacking layout of partial rotation, this method may further comprise the steps:

-grasp the stacking piece that comprises two rotation stacker body row, and be put on the side of stacking with the orientation of rotation, described stacking is positioned on its stacking layout of arranging below.

-grasp two row that the stacker body row are inboard, and be placed on the opposed side edges.

-grasp the stacker body row that are that internal placement is specified, and by one or more continuous steps,, be put between the side of having placed the stacker body row that rotated with the parallel orientation of stacking layout of arranging below for it.

This appointed method is listed as by such layout in-to-in stacker body and is further transformed, be that described four placements in 2 * 2 arrange are carried out in the stacking grab bucket, wherein owing to placed the stacking row that rotated, at the in-to-in stacker body on the whole than only arranging that with routine the stacking layout of stacker body row is short.Therefore, in two of four algorithms, the stacker body piece that the stacking grab bucket is picked up has shortened.

Be established with aforesaid method, or the stability of the stacking that has been established can also improve, this be by: the adjacent stacker body row stacking layout of being put by the phase laying up, that be parallel to each other orientation have the axial offset that is parallel to the row between single stacking layout.By this way, in addition the stacker body of placing in a usual manner all existed mutually between slighter wipe contact fix, when with respect to the rotation orientation and since slight area is overlapping also exist mutually between slighter wipe contact fix.

By in the first half of stacking, arranging the stacking layout of the stacker body that has at least one rotation, can realize a good especially stable stacking.Fix in order to obtain this extra high wipe contact, when this be useful when laying out in the present first half zone on the lower side.By this way, on the other sidely can provide a kind of high wipe contact effect with the stacking layout of conventional arranged in orientation again, this effect helps obtaining big pressure.

As optional or additional method to method described above, because hardening furnace car or pallet is cargo-carring saves time, it uses as a kind of special economic means, this is by again stacker body being arranged on the stacking with a plurality of stacking layouts, when at least one algorithm of when building stacking, using of having specified according to invention, the stacking grab bucket is from interim stacking ground, particularly picking up one on belt conveyor or the bay-lift can be by the stacking piece of its extracting, and be put on pallet or the hardening furnace car, and this stacking piece comprises the stacker body row that at least two phase laying ups are put.In order can especially to work, two stacker body row that at least two phase laying ups are put can be preferably grasped in the stacking grab bucket with saving time, and wherein two stacker body row are that each horizontal arrangement is used.When placing the adjacent stacker body row of being put by the phase laying up two stacking layouts, that be parallel to each other orientation, and this stacker body also is of value in this case and stablizes this layout when being listed as designated to be parallel to the axial offset of the row between single stacking layout.

In a specific implementations of these selectable or additional methods availalbes, the stacking layout is only with the stacker body that is arranged in parallel, by placing the stacker body row that at least two phase laying ups put and having the rotation stacker body or the mode of stacker body row section or stacker body row, make with one or more single layer clamp method steps.By this way, be exactly that also stable manner produces stacking with economical especially.

Description of drawings

Now, the present invention further sets forth according to the diagram of following examples.Wherein:

Fig. 1 a-d: front elevation, lateral plan and the birds-eye view of the hardening furnace car of a fully loaded lime sanded brick moulding base;

Fig. 2: the fully loaded hardening furnace car that has the stacking grab bucket;

The grab bucket hand of the stacking grab bucket of Fig. 3: Fig. 2;

Fig. 4 a-c is to Figure 10 a-c: in the continuous working step, and the hardening furnace car when being listed as loading layout with the brick of part rotation;

In these figure, the partial sum size that corresponds to each other is furnished with identical Reference numeral.

The specific embodiment

When making the quadrel Dinas brickes, at first produce lime sanded brick moulding base by brick machine, must provide cure process to it then.In order to become these parisons to be transported to hardening furnace or curing system, used so-called hardening furnace car 30, it can load a large amount of one-tenth parisons 32, and one coexists and sails hardening furnace on the orbital arrangement 34.

The loading of hardening furnace car 30 is born by stacking grab bucket 36, pick up biserial on the bay-lift that described grab bucket 36 can never be shown with its grab bucket hand 38 and become parison 32, and it is placed on the hardening furnace car 30, each shows the one-tenth parison 32 of predetermined number described double-bank, is 17 as shown in the example.Shown in the grab bucket hand 38 of stacking grab bucket 36 rotatable on vertical axle.The grab bucket of grab bucket hand 38 refers to that 40 can individually control, this makes can pick up stacking grab bucket 36 altogether 34 complete biserial becomes parison 32, but also can only pick up the one-tenth parison row (promptly lacking single one-tenth parison) that single one-tenth parison 32 or part become the parison row or have the slit.

In described embodiment, 13 layer 42,44 altogether of hardening furnace car 30 usefulness, 46 one-tenth parison 32 load.It can certainly be more or less hierarchy number.Comprising following seven layers and the 9th add up to 136 formation of lots bases to eleventh floor 42, it is arranged with four every row 34 formation of lots bases 32 of parallel columns.The 12 and the 13 layer 44 every layer number of packages that half is only arranged, promptly have the every row 17 formation of lots bases 32 of four row, and it is provided at the center of eleventh floor 42.

In order to play stable stacking, single layering 42,44 axially on micro displacement each other, this makes that single one-tenth parison 32 is not fully smooth for its one-tenth parison 32 of putting below, but its adjacent one-tenth parison also partly hides.The vibrations that such stable absorption is less, this makes stacking can not collapse.

But collapse in order to avoid fully, such axial offset is not enough for bigger vibrations.Therefore, make the 8th layer 46 with extra stable structure method.Promptly have only four in-to-ins row here, every row are arranged 25 formation of lots bases 32 in a usual manner, its orientation be parallel in its lower section with the layering 42,44 of putting above in become parison 32.Be created as parison 32 on right side and limit, left side (from the travel direction of hardening furnace car 30), it is orthogonal to in-to-in and becomes parison 32 to arrange, and with a directed outside of two sides of its minimum, and promptly its major axis is orthogonal to travel direction and puts.

The structure of the conventional layering of carrying out according to Fig. 1 c 42, be by stacking grab bucket 36 with four algorithms single stacking piece A, B, C, D be placed on hardening furnace car 30 or put below layers 42 on 2 * 2-matrix arrangements in.By this way, form the layering of having described 42 with the every row 34 formation of lots bases 32 of four row.In order to allow the grab bucket of stacking grab bucket 36 refer to that 40 have enough free activity spaces, between four row, there is slit 48.

Now as the 8th layer 46 of structure as described in Fig. 4 to 10.At first, to 4c, on the limit, left side of layer 7 42, place the stacking piece according to Fig. 4 a.Again by 2 row I.1 and I.2, the stacking piece that every row 17 formation of lots bases 32 are formed is at first discharged fully by grab bucket arm 38.In an intermediate steps, as described in the 5c, grab bucket hand 38 moves the width of half stacking piece as Fig. 5 a, makes the outer rows grab bucket I.1 of grasping the stacking piece originally refer to 40, can catch inboard row now I.2.According to Fig. 6 a to 6c, can finish this intermediate steps by I.2 inboard row are moved to right edge.

The 8th layer 46 is filled by placement in-to-in stacking piece II.1, II.2, III, IV according to Fig. 7 to 10 subsequently.

At first, stacker body II.1 and II.2 are taken together from bay-lift according to Fig. 7 a to 7c and Fig. 8 a to 8c.Each comprises two part biserials stacking piece II.1 and II.2, and eight of every row become parison 32.Similarly, grasp approximate stacking piece completely with grab bucket hand 38, wherein two grab buckets at consecutive number 9 places refer to that 40 do not carry into parison 32.The grab bucket by consecutive number 10 to 17 places refer to 40 carry part stacking piece II.2 during, refer to that by the grab bucket at consecutive number 1 to 8 place the 40 one-tenth parisons of picking up 32 have constituted part stacking piece II.1.Now part stacking piece II.1 and II.2 are with these two row that are placed on rotation by cornerwise mode step by step I.1 and next door I.2 (Fig. 7 c and Fig. 8 c).

At last, also take and place stacking piece III (Fig. 9 c) and IV (Figure 10 c), make by this way the 8th layer of 46 complete filling according to Fig. 9 and 10.In whole diagrammatic sketch, the picture of getting back is the slit 48 between single row during to conventional layering 42.

I.1 and I.2 the time, 17 14 of becoming in the parisons 32 are only caught in stacking grab bucket 36 at every turn at the rotation in these two outsides of packing into row, and give in the position 5,9 to stay the room with 13 the parison 32 that becomes.By this way, also 50 places between the rotation row in the outside are extended in the slit 48 between the row that formed stacker body II.1, II.2, III, IV, and this makes grab bucket hand 38 can stop when inserting inner stacking piece II.1, II.2, III, IV inside.

Packing into after the 8th layer 46, also placing the 9th in the manner described to eleventh floor 42 and the 12 and the 13 layer 44, this makes hardening furnace car 30 be loaded fully from now on.

Reference numerals list

1...17 the position of single one-tenth parison in the stacking piece

30 hardening furnace cars

32 one-tenth parisons

34 orbital arrangement

The grab bucket of 36 stackings

38 grab bucket hands

40 grab buckets refer to

42,44,46 layerings

48,50 slits

A, B, C, the stacking piece of the conventional layering of D

I.1, outer rows I.2

II.1, II.2, III, IV have the inboard stacking piece of layering of the one-tenth parison of rotation

Claims (23)

1. be used for the stacker body of squarish at least, particularly with the wall brick or the building brick of for example lime sanded brick, perhaps wall brick becomes parison or building brick to become parison to carry out the method for stacking, it for example can be used for transporting to hardening equipment, wherein arrange the stacking of described stacker body with multiple stacking layout, each stacking layout has all comprised the stacker body row of a plurality of orientations that are parallel to each other, and arrange at least one stacking layout with in stacker body or stacker body row or the stacker body row section at least one, described stacker body or stacker body row or stacker body row section have been rotated with respect to other stacker bodies of described stacking layout or stacker body row or stacker body row section, particularly with the orientation rotation of nearly orthogonal at least, it is characterized in that, with at least one stacker body (32) that has rotated or stacker body row section, (I.1 perhaps at least one stacker body that has rotated row, I.2), a minimum lateral with the single stacker body (32) in described stacker body (32) or described stacker body row section or the described stacker body row is pointed to outer mode, is arranged at least one side of stacking layout (46).

2. method according to claim 1, it is characterized in that, the stacking that becomes parison or building brick to become parison (32) to constitute by wall brick is placed to transport trolley, particularly on the hardening furnace car (30), the major axis or the long side surface of the described one-tenth parison (32) that wherein, is arranged in parallel are orientated on the travel direction of described hardening furnace car (30); And/or major axis and the long side surface of the one-tenth parison that has rotated are orientated perpendicular to described travel direction; And/or the described one-tenth parison (32) that has rotated is arranged on the limit, left side and right edge of stacking.

3. method according to claim 1, it is characterized in that the stacking that becomes parison or building brick to become parison (32) to constitute by wall brick is placed to transport trolley, particularly on the hardening furnace car (30), the major axis of the described one-tenth parison (32) that wherein, is arranged in parallel or long side surface are orthogonal to the travel direction orientation; And/or the major axis of the one-tenth parison that has rotated and long side surface are parallel to described travel direction orientation; And/or the described one-tenth parison (32) that has rotated is arranged on the front side edge and back side edge of stacking.

4. according to each described method in the claim 1 to 3, it is characterized in that, divide four algorithms by stacking grab bucket (36), per step is being put into matrix arrangements by the stacking piece (A, B, C, D) of its extracting, particularly the mode in 2 * 2 matrix arrangements produces the stacking layout with the described stacker body (32) that only is arranged in parallel.

5. method according to claim 4 is characterized in that, stacking piece (A, B, C, D) comprises two parallel stacker body row.

6. according to each described method in the claim 1 to 5, it is characterized in that, arrange spaced described stacker body row, make slit (48) between it, to occur.

7. method according to claim 6, it is characterized in that described stacker body (32) that rotation is arranged or stacker body row (I.1, I.2) or stacker body row section are arranged such that the described slit (48) between the described stacker body row (II.1, II.2, III, IV) extends in described stacker body (32) that rotation is arranged or stacker body row (I.1, I.2) or stacker body row section.

8. according to each described method in the claim 1 to 7, it is characterized in that, stacking grab bucket (36) is particularly picked up the stacker body row that single stacker body (32) or part stacker body row or whole stacker body were listed as or had the slit from interim stacking ground on belt conveyor or the bay-lift.

9. according to the described method of the claim 8 relevant with claim 7, it is characterized in that, when to specifying the stacker body row (I.1, I.2) will be rotated layout when grasping, the one or more stacker bodies (32) in specifying zone, slit (50) are not grasped in described stacking grab bucket (36).

10. according to each described method in the claim 1 to 9, it is characterized in that, have the stacking layout (46) of the stacker body row of partial rotation with following step production:

-grasp two stacker bodies row (I.1, I.2) of complete stacking piece, and be placed on the side of stacking with the orientation of rotation, aforementioned stacking is positioned on the stacking layout (42) of being arranged below it;

-grasp row (I.2) inboard in described two stacker bodies row, and be placed on the opposed side edges;

-with one or more continuous steps, extracting is used to be arranged in in-to-in and specifies stacker body row (II.1, II.2, III, IV), and, be placed between the described side of having placed the stacker body row (I.1, I.2) that rotated with the parallel orientation of stacking layout of below it, being arranged.

11. method according to claim 10, it is characterized in that, carry out the layout of in-to-in stacker body row with the stacker body that only is arranged in parallel, this divides four steps to realize by stacking grab bucket (36), each step is placed in matrix arrangements can be by a stacking piece (II.1 of its extracting, II.2, III, IV), wherein, in four algorithms, it is the stacking pieces that are used for being grasped and being placed by the stacking grab bucket stacker body row that comprise shortening that two steps are arranged, particularly, placing the stacker body row (II.1 of described shortening, II.2) there are two step by step in the same algorithm.

12. according to each described method in the claim 1 to 11, it is characterized in that, when the adjacent stacker body row of the orientation that is parallel to each other of placing the stacking layout (42) that the phase laying up puts, specify the axial offset that is parallel to the row between the single stacking layout (42).

13. be used for stacker body, particularly with the wall brick or the building brick of for example lime sanded brick, perhaps wall brick becomes parison or building brick to become parison to carry out the method for stacking, it for example can be used for transporting to hardening equipment, wherein arrange the stacking of described stacker body with multiple stacking layout, particularly as in the claim 1 to 12 as described in each, it is characterized in that, when producing stacking, specify at least one algorithm, wherein stacking grab bucket (36) is from interim stacking ground, particularly pick up on belt conveyor or the bay-lift and can and be put into pallet or transport trolley by the stacker body of its extracting, particularly on the hardening furnace car, the stacking piece comprises the stacker body row that at least two phase laying ups are put, particularly at least two two stacker body row of being put by the phase laying up that horizontal parallel is arranged.

14. method according to claim 13 is characterized in that, when the adjacent stacker body row of the orientation that is parallel to each other of placing two stacking layouts that the phase laying up puts, appointment is parallel to the axial offset of the single pair of row between the stacking layout.

15. according to each all with claim 1 to 12 in each relevant claim 13 or 14 described methods, it is characterized in that, the described stacking layout stacker body (32) that only is arranged in parallel, make by place stacker body row and the stacking layout (46) that at least two phase laying ups put with one or more individual layer clamp method steps, described stacking layout (46) has the stacker body (32) that rotated or stacker body row section or stacker body and is listed as.

16. to approximate at least stacker body with square profiles, the layout of the wall brick of lime sanded brick or building brick for example particularly, it for example can be used for transporting to hardening equipment, wherein arrange the stacking of described stacker body with multiple stacking layout, each stacking layout comprises the stacker body row of a plurality of orientations that are parallel to each other, and arrange at least one stacking layout with in stacker body or stacker body row or the stacker body row section at least one, described stacker body or stacker body row or stacker body row section have been rotated with respect to other stacker bodies of described stacking layout or stacker body row or stacker body row, particularly the orientation of handing over down to Shaozheng is rotated, it is characterized in that, stacker body (32) that at least one has rotated or stacker body row section, perhaps at least one stacker body that has rotated row, with described stacker body (32) or described stacker body row section or described stacker body row (I.1, a minimum lateral of the single stacker body (32) I.2) is pointed to outer mode, is arranged at least one side of described stacking layout (46).

17. layout according to claim 16, it is characterized in that, the stacking that becomes parison or building brick to become parison (32) to constitute by wall brick is placed to transport trolley, particularly on the hardening furnace car (30), the major axis or the long side surface of the described one-tenth parison (32) that is arranged in parallel are orientated on the travel direction of described hardening furnace car (30); And/or major axis and the long side surface of the one-tenth parison that has rotated are orientated perpendicular to described travel direction; And/or the described one-tenth parison (32) that has rotated is disposed on the limit, left side and right edge of described stacking.

18. layout according to claim 16, it is characterized in that, the stacking that becomes parison or building brick to become parison (32) to constitute by wall brick is placed to transport trolley, particularly on the hardening furnace car (30), the major axis of the described one-tenth parison (32) that is arranged in parallel or long side surface are perpendicular to the travel direction orientation of described hardening furnace car (30); And/or the major axis of the one-tenth parison that has rotated and long side surface are parallel to described travel direction orientation; And/or the described one-tenth parison (32) that has rotated is disposed on the front side edge and back side edge of described stacking.

19., it is characterized in that between described stacker body row, having slit (48) according to claim 16,17 or 18 described layouts.

20. layout according to claim 19 is characterized in that, between the described stacker body row that are arranged in parallel, extend in the layout of the stacker body (32) that has rotated or stacker body row (I.1, I.2) or stacker body row section slit (48).

21. according to each described layout in the claim 16 to 20, it is characterized in that, with at least one stacker body (32) that has rotated or stacker body row section, perhaps at least one stacker body row (I.1, I.2) that rotated is arranged in stacking layout (46) in the first half of described stacking.

22. layout according to claim 21 is characterized in that, described laying out in the present described first half zone on the lower side.

23. according to each described layout in the claim 16 to 22, wherein, the adjacent stacker body row of the orientation that is parallel to each other of the stacking layout (42) that the phase laying up is put have the axial offset that is parallel to the row between the single stacking layout (42).

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