CN1404453A - Method and device for packaging a block consisting of compressible material, and a packaged block - Google Patents

Abstract

In a method and an apparatus for packaging a block consisting of compressible material, a material block is compressed by approaching two pressing units (120,122), the block being shifted in the compressed condition either against a spread film and wrapped by this film or, alternatively, the film is shifted against the material block and drawn over the material block. The ends of the film are weld together.

Description

The method of packing compressible material piece realizes the device of this method and packs piece accordingly

The present invention relates to a kind of method that is used to pack as claim 1 compressible material piece as described in the preamble, be used to pack as the related device of as described in the preamble of claim 5 and the piece of packing by means of said method and device.

These class methods and device are exclusively used in the material block that is made of gassiness material (airlaid material) and are used as further processing to make amenities.

This material block is open in DE29910039U1.This material block is made of the braided fabric material, and this fabric is divided into a plurality of adjacent tapes and is perforated.The end of each tape is stitched together with ad hoc fashion and forms a continuous tape.

Made, material block is compressed to a certain degree and inserts a plastic bag with compressive state.

Plastic bag by artificial bonding sealing after, the pressure release on the material block is so thereby material block expands and to press the various piece of plastic bag inwall.In this state, material block has low relatively delivered volume and advantages of higher stability.

But its shortcoming is the insertion of compression material piece with respect to plastic bag, the soaring and fill all and manually finish of the sealing of plastic bag and plastic bag.Thereby make product processing slowly, material block costs an arm and a leg.

DE19640953A1 discloses a kind of method of packing compressible amenities, and wherein a plurality of identical amenitiess are arranged in parallel with each other and are pushed into a continuous plastic hose as the piece packing through the conical entrance pipe.After filling by this way, plastic hose is cut off and seals between two adjacent blocks.This method with respect to the defective of other method be with amenities insert plastic hose motion must with the transfer movement transverse intersection of previous amenities, this has strengthened the required amount of space of package packing machine significantly, thereby makes machinery more expensive.Another shortcoming is only can use the plastic hose of finite length, thereby run out its within a short period of time.In other words, this means and interrupt continuous packaging process continually.In addition, this plastic casing price is relatively costly.This method also has a great technological deficiency to be that it needs a pushing force, and this power is distributed at conical entrance pipe place, with bigger component amenities is pushed flexible pipe, guarantees the compression of amenities simultaneously with less component.Bigger material block can not be effectively incompressible.But only improve whole thrust and might damage amenities.

The present invention is based on that the packing method that improves the piece product contain compressible material proposes, and this method allows to use big compressive force and continuous working circulation.

Another task of the present invention provides the device of this method of realization, and this device is durable, simple and with low cost.

Another task of the present invention provides corresponding packing piece.

Related method task is solved by the characteristic of claim 1.Some of this method change in dependent claims 2 to 7 to be described.

Related device task is solved by the characteristic of claim 8, and the useful variation of this device is described in dependent claims 9 to 24 subsequently.

The feature of packing piece is described in claim 25.

The present invention has overcome the existing in prior technology defective.

The distinctive advantage of the present invention is, the extremely Rational structure of device especially is fit to upstream process.This advantage at first is direction, and wherein the packing of material block is consistent with the throughput direction of preceding material piece.In addition, do not use employed costliness in other disclosed file, unmanageable bag film or membrane casing, and be to use the film of corresponding simple cheap.This film is easy to install on the direction that intersects with the material block throughput direction.This means that people can implement and the matched two kinds of embodiment of existing existing manufacturing installation very simply, promptly or the film of tension towards fixing material block motion, perhaps material block is towards fixing film movement.It would, of course, also be possible to material block and lateral thin-film move relative to each other at the same rate.

The film that use is wound on the film roll is very favorable.This can guarantee a long-time unremitting operation.In actual the use, the film section of the coiling length that requires is cut off from the film of continuous tension, and the two ends of the two ends of the film that is tightened up and film cut-out are fused to together simultaneously.

As what above briefly touched upon, the present invention includes two embodiment.In first embodiment, film is helped pull a cart to material block, and in second embodiment, material block is pushed in the curtain of film formation.

The device of packing compressible material piece by a kind of modification applicable to the process units that various variations are arranged.This has strengthened the range of use of this device.

The present invention also will be described in detail in conjunction with the accompanying drawings hereinafter with reference to embodiment, wherein:

Fig. 1 shows the lateral plan according to apparatus of the present invention, is compressed at this position material block;

Fig. 2 shows the lateral plan of apparatus of the present invention, is sent to movable packaging facilities at this position material block;

Fig. 3 shows the lateral plan of apparatus of the present invention, at this position material block by film wrapped;

Fig. 4 shows the compression member of primary importance;

Fig. 5 shows the compression member of the second place;

Fig. 6 shows the compression member of the 3rd position;

Fig. 7 shows the compression member of the 4th position;

Fig. 8 shows the diagrammatic view according to apparatus of the present invention;

The top view of Fig. 9 displayed map 8.

According to Fig. 1, this device mainly comprises gas booster compressor 1 and the packaging facilities 2 that is used for material block 3, and the above-mentioned material piece contains aerated materials.

Gas booster compressor 1 is positioned at the end of conveyer chain, and this conveyer chain does not show at this, only represents with a directional arrow.Gas booster compressor 1 comprises a framework 4, and this framework 4 has frame base 5, some frame columns 6 and a top frame plate 7.

Be fixed to the hydraulic actuating cylinder part 8 that has on the top frame plate 7, this hydraulic actuating cylinder part 8 has hydraulic actuating cylinder 9 and piston rod 10.

One compression member 11 is arranged between piston rod 10 and base 5, and this compression member 11 is described in detail from diverse location in accompanying drawing 4 to 7, and compression member 11 is designed to hold material block 3.For reaching this purpose, compression member 11 comprises a bottom fixedly compressive plate 12 and top compressive plate 13, and this top compressive plate 13 is done the perpendicular movement of limited extent by piston rod 10.The throughput direction of the material block 3 between bottom compressive plate 12 and the top compressive plate 13 is provided with twice base angle compressed tracks 14 and twice drift angle compressed tracks 15, the position and the size fit of their two cover lever arms and four main body sides shown in material block 3 throughput directions.

But two base angles compressions guide rail 14 and two drift angles compression guide rail 15 are designed to make it relative to each other to reach with respect to bottom compressive plate 12 and top compressive plate 13 vertical shifting in some way.Thereby two base angles compressions guide rail 14 can with respect to the bottom fixedly compressive plate 12 move a height, when base angle compression guide rail 14 arrives its extreme higher positions, as shown in Figure 6 and Figure 7, free zone 16 bottom this has highly formed.Equally, two drift angles compression guide rail 15 also can move a height with respect to top compressive plate 13, to form free zone, maximum top 17.Compression member 11 also is equipped with a fixing device (not shown), and this device is fixed two base angles compression guide rail 14 with respect to two drift angles compressions guide rail 15, thereby makes compression material piece 3 not lose any pressure and be raised.This fixing device is hydraulic actuator preferably.

Packaging facilities 2 comprises 18, one film fused component 19 of a film strain component and a movable part 20, and these parts are arranged on the downstream of gas booster compressor 1 in turn.Film strain component 18 comprises a pivot bearing, and this bearing is used for film roll 21 and top idler roller 22, and film roll and idler roller are used for film 23, and their width is consistent with the width of material block 3.

Idler roller 22 is tensioned to this degree in advance, and promptly film 23 can be released from its vertical reference position under a level load, if this load cancellation, film 23 can be replied its vertical reference position again.Between film roll 21 and idler roller 22, a pair of lower roller 24 is set at the below of material block 3, and a pair of apex roller 25 is set at the top of material block 3, and the design of this two pair roller is to be used for guiding and the both sides of the film of rectifying a deviation.Two pair rollers 24,25, film roll 21 and idler roller 22 preferably are installed on the framework 4 of gas booster compressor 1.

Movable part 20 comprises a framework 26 and a movable balladeur train 27 the most basically.In the side towards gas booster compressor 1, movable balladeur train 27 has bottom carrying jaw 28 and top carrying jaw 29, two jaws that one vertical spacing is arranged each other, and this is consistent with the height of material block 3 at interval.Top carrying jaw 29 also is designed to and can vertically moves, and is connected to an actuating device (not shown).Two carrying jaws 28, the position in the removable path of 29 length and movable balladeur train 27 and length are designed as follows, promptly at an end position of movable part 20, two carrying jaws 28,29 engage the compression member 11 of gas booster compressor 1, and at the last clamping material block of the whole thickness (depth) of material block 3, and remove fully from compression member 11 in position, the other end.

As shown in Figure 7, two carrying jaws 28,29 are made by plate material, and its cross sectional dimensions allows it to insert between two adjacent angles compression guide rails 14,15.

Bottom carrying jaw 28 and top carrying jaw 29 its all be equipped with near the free end of film 23 one with its crossing film push rod 30, this push rod 30 is used for the whole width of contact membrane 23.This two films push rod 30 is fixed on carrying jaw 28 bottoms, bottom at a certain distance and the material thickness of guide rail 14,15 is compressed to offset the angle in carrying jaw 29 tops, top.

Between the reference position of film 23 and film push rod 30, there is an adequate space to be used for being provided with film fused component 19.Film fused component 19 is equipped with two welding bars 31 that can vertically move, this welding bar 31 is clamped the whole width of film 23, and keeps a sphere of action and and then it is contacted with each other at control position for movable part 20 in the reference position outside of film and push rod.A welding bar 31 is equipped with a separating metal silk in addition, and this metal filament runs through the whole length of welding bar 31, and works along the centre of welding bar 31.The separating metal silk is arranged on the plane at area of heating place of welding bar 31, thereby makes film 23 first weldings, separates in the welding surface more subsequently.Other fusion techniques also can be used at this.

According to Fig. 1, in reference position, the position shown in material block 3 is sent to, promptly material block 3 is placed on two jiaos of compression guide rails 14.By operation hydraulic actuating cylinder parts 3, compression member 11 act on subsequently, and result's two drift angles compress that guide rail 15 moves down and material block 3 exerted pressure and fully compressed until material block 3.This position as shown in Figure 4.The apparatus for fastening (not shown) is effect subsequently also, and it fixes two base angles compression guide rail 14 and two drift angles compression guide rail 15 relative to each other.Cancel pressure from compression member 11 now, compression member 11 is removed on the direction that makes progress.Top compressive plate 13 rises and forms top clearance envelope 17 shown in Figure 5 from two drift angles compression guide rail 15 earlier.Along with the carrying out of motion, drift angle compression guide rail 15, material block 3 and base angle compression guide rail 14 are done as a whole also from 12 rises of bottom compressive plate, thereby form bottom clearance envelope (Fig. 6).

As shown in Figure 2, the movable balladeur train 27 of movable part 20 enters the compression member of opening 11 subsequently.When this happens, the bottom carrying jaw 28 that has film push rod 30 as shown in Figure 7 enters bottom clearance envelope 16, and the top carrying jaw 29 that has a film push rod 30 enters top clearance envelope 17.

In this moving process, two film push rods, 30 beginning contact membranes 23 also push it two clearance envelopes 16 and 17 under the help of two pair rollers 24,25.The jaw 29 of top carrying subsequently moves down and material block 3 is clamped between two carrying jaws 28,29.The pressure that is used for base angle and drift angle compression guide rail 14,15 removes from fixing device subsequently, thus releasable material piece 3, so the movable balladeur train on the movable part 20 27 moves back to its reference position backward in company with the material block 3 of part encapsulation as shown in Figure 3.In the moving process of movable balladeur train 27, always the be tensioned pre-tensioning of roller 22 of film 23 clamps.After arriving the end position of movable balladeur train 27, two welding bars 31 move on to together and spur film 23 and self are provided with and at original place clamping double-ply film 23 until two welding bars 31.Two overlapping films 23 are welded to together by heat and pressure subsequently, and then the separated metal filament in the downstream in the middle of welded seam separates.Material block 3 sealed fully by a slice film that downcuts from film 23 now and within it side be fused, thereby and cut surplus film 23 and also be fused and form bonded assembly film 23 again.

The second embodiment of the present invention referring now to 8 and Fig. 9 be described.

Fig. 8 and Fig. 9 have from left to right shown a gas booster compressor 110, another adjacent position of packaging facilities 112 thereafter and Fig. 8 and Fig. 9 right-hand side, and this position can be designed to one second packaging facilities, but is referred to as winding unit 114 for the ease of differentiation.

Gas booster compressor 110 has an elongated higher framework, and this framework has a rectangular base plate 116, adds up to four pillars that extend upwardly 118 on four angles of framework.The withstand voltage load-transfer device 120 of a frame fixation is arranged between the pillar 118 at lower position.This load-transfer device for example can be the apron conveyer of being made with the hinge connection by aluminium strip.This feedway moves to its right side from the left side of Fig. 8 and Fig. 9, promptly moves to packaging facilities 112 from gas booster compressor 110.

Gas booster compressor 110 also has a top belt 122, and this top belt 122 is mainly used in bottom belt 120 and matches, but it also can move along frame vertical straight, or rather, move along the pillar 118 of framework.For this purpose, guides 124,126 also is contained on the pillar 118, and be contained in the both sides of framework, promptly the front and rear on Fig. 8 and the drawn plane of Fig. 9 turns leading screw 128 and vertically is provided with, this leading screw is regulated by spindle nut 130, and this spindle nut is fixed on the top belt 122.Leading screw 128 is installed in top and the bottom connecting struts 132,134, and connecting struts 132,134 connects the top and the bottom of lateral brace 118 respectively, and lay respectively at behind load-transfer device 120,122 throughput directions and.Be installed in the adapter shaft 136 that also has on the top connecting struts 132, this adapter shaft 136 turns round perpendicular to throughput direction, and is driven by electrical motor 138, and cooperates with 128 transmissions of two leading screws by the finishing bevel gear cuter that does not have among the figure to show in detail.The rotating band movable wire thick stick 128 of electrical motor 138 rotates, because by adapter shaft 136, thereby the rotation between them is synchronous, thereby causes that the withstand voltage load-transfer device 122 in top promotes or descends.

At throughput direction, promptly towards the right side of Fig. 8 and Fig. 9, packaging facilities 112 follows gas booster compressor 110 closely and is provided with.Packaging facilities also has a base plate 140, has four pillars 142,144,146,148 on four angles of rectangular base plate 140.

At the input side of packaging facilities 112, promptly there is feed arrangement in the left side of Fig. 8 and Fig. 9, and this device allows to form vertical film curtain by film from the feeding of top and bottom in input side the place ahead.Specifically, feed arrangement comprises top and bottom correction roller 150,152,154,156.Two films are pulled out from material roller 160,162 places, and material roller 160,162 do not show in Fig. 8, and can see in Fig. 9, and film is set at the side of packaging facilities 112 and through 150,152 corrections of bevelled correction roller.

Contain four pillars 142 that are fixed on packaging facilities 112 frameworks herein, 144, also have the bottom belt 164 of a frame fixation, this load-transfer device 164 is positioned at the plane of the load-transfer device 120 of gas booster compressor mentioned above, and is that edge direction from left to right is driven equally.Load-transfer device 164 also can be by the made apron conveyer of aluminium strip.Situation whatsoever, it all is designed to pressure-resistance structure.Load-transfer device 164 is worked with top belt 166, and this top belt 166 can rise or descend with respect to bottom belt 164.For reaching this purpose, top belt 166 is suspended under the help of leading screw 168,170, and leading screw 168,170 is positioned on the horizontal top longeron 172,174 on packaging facilities 112 frameworks.The rotation of leading screw 168,170 makes that top belt 166 is raised or descends.Top belt 166 scalable, thus compacting that obtains in gas booster compressor 110 and compression can keep in packaging facilities 112.

Gas booster compressor 110 and packaging facilities 112 service conditions are as follows.

During beginning, the article that a pile will be packed are for example made diaper, and the non-woven medium of Ms's health pad etc. is put on the bottom belt 120 of gas booster compressor 110 from the left side of Fig. 8 and Fig. 9.Leading screw 128 is fallen top belt 122 by electrical motor 138 driven rotary subsequently, and stacking target is compressed, thereby air is squeezed away from stacking target, and packaging volume reduces.Two load-transfer devices, 120,122 runnings are subsequently moved, so compressed stacking target is pulled to the input side of packaging facilities 112 from left to right.Compressed stacking target and contacted with the formed vertical curtain in top and bottom at this, in previous step, top and bottom thin film be about intermediate altitude place's welding between two load-transfer devices of the curtain left and right sides.

Carry on right side in Fig. 8 and Fig. 9 compresses the stacking target band and in the space between two load-transfer devices 164,166 that the curtain that contains two films enters packaging facilities 112 to the right, and in this process, curtain is pulled out from two feed rollers.In case when stacking target is positioned between two load-transfer devices 164,166 position fully, be meshed from the film of top and bottom feeding and top and bottom correction roller 176,178, this roller of rectifying a deviation can vertically move on guides 180.Guides 180 is located immediately on the side vertical rack 182 of packaging facilities input side.In case two films that top and lower roller are supplied with are gathered together at the intermediate altitude place, they are fused to together by welding that does not show in detail among the figure and cut-out parts with regard to one, separate subsequently, thereby on the one hand, they connect at the rear portion of existing stacking material, on the other hand, the connection that keeps curtain.Next stacking target can be pushed curtain to now.

According to the present invention, described film is made of as the thick material of 100 μ m relative high-quality material up to now.Its effect is to absorb stacking target because whole elastic-restoring forces that compression produces.This film does not need the whole width tension of relative stacking target.The effect of described film is not to cover stacking target fully with dust protection, moisture and other pollution, and only be to absorb elastic-restoring force.The material packing that meets hygienic requirements according to the present invention occurs in the another location, in this article, is positioned at the downstream of packaging facilities, is designed to winding apparatus 114.

Winding apparatus 114 is only represented with sketch map.Its effect is with cheap veryyer thin membrane material traversed by throughput direction and the vertical used film direction coiling stacking target of packaging facilities.This operation be by making stacking target around the axle rotation that is parallel to throughput direction running, or with similar satellite rings around mode with film stacking target is reeled.

The existing many embodiment of this class winding apparatus are disclosed and are not theme of the present invention.But, the present invention includes following idea promptly needs through hygienically packaged, compression, particularly the square stacking target of resilient material is packaged in the following way, promptly begin with more expensive firm membraneous material coiling stacking target, be offset 90 ° of direction coiling stacking targets with cheap thin and not really firm membraneous material subsequently, thereby obtain the health closure member of a big difficulty infiltration.

There is an output table 184 in the downstream of winding apparatus 114, and the stacking target of having reeled can be taken away with hand or use forklift from this quilt, or is sent to a unshowned conveyer.

Claims (25)

1. method of packing the compressible material piece, wherein a load is applied to material block (3) and goes up producing compression, and this pressure is through design-calculated and apply in a certain direction, material block under loading condition by winding film, material block discharged down from loading condition after coiling was finished, and it is characterized in that

The film (23) that is applied with the material block (3) of load and is parallel to pressure direction tension is brought together, thereby with three perimeter surface of film (23) coiling material piece (3),

The pressure that is used for forming compression is replaced at the lip-deep pressure of material block of having reeled with same directive effect, keeping the compression of equal extent,

Film (23) is forced into together at the 4th periphery surface of material block (3), and welding also separates.

2. the method for claim 1 is characterized in that, material block (3) is pushed to the film (23) of tension.

3. method as claimed in claim 2 is characterized in that, film (23) unclamps from film roll (21).

4. method as claimed in claim 3 is characterized in that, film (23) unclamps from film roll (21), is fused to together and separates along welded side seam middle part.

5. as the described method of arbitrary claim in the claim 1 to 4, it is characterized in that, material block (3) is compressed by two withstand voltage load-transfer devices (120,122), and is pushed between two withstand voltage load-transfer devices in tensioning film and packaging facilities (112) downstream by the latter under compressive state.

6. method as claimed in claim 5, it is characterized in that, welding that is provided and shutoff device (176,178) at the film of the intermediate altitude place, rear portion of the material block that is positioned at packaging facilities (112) pulling from top and bottom feeding, they are fused to together and separate them subsequently as follows, promptly film still keeps connecting at the rear portion of material block and the inboard of new curtain.

7. as claim 5 or 6 described methods, it is characterized in that, it is one solid that material block is at first used, high-quality thin-film is reeled in a direction, the film of choosing needs to absorb the elastic-restoring force that compression is produced, and material block is by cheap and thin reeling along the direction perpendicular to first direction as health leak free film subsequently.

8. a device of packing the compressible material piece comprises gas booster compressor (1,110) and packaging facilities (2,112), and wherein gas booster compressor is used to form compression material piece (3), and packaging facilities is used for packing piece (3), it is characterized in that,

Gas booster compressor (1,110) comprise removable compression member (11), these parts (11) have the device at opposite side clamping material block, packaging facilities (2,112) have the device that holds material block (3) and keep the material block compressive state, one film tension part (18) is arranged between gas booster compressor and packaging facilities, and these parts are used for the film that tensioning is parallel to gas booster compressor, and a film fused component (19) is arranged between film tension part and the packaging facilities (112).

9. device as claimed in claim 8 is characterized in that, compression member (11) has two base angles compression guide rail (14) and two drift angles compression guide rail (15) and clamping part, and this clamping part catches angle compression guide rail (14,15) to be used for it is supported on a desired location.

10. device as claimed in claim 9, it is characterized in that, compression member (11) has the fixedly removable compressive plate of a compressive plate (12) and a top (13) of a bottom, two jiaos of compression guide rails (14,15) be designed so that it can rise to produce clearance envelope (16,17) at clamped position with respect to base compression plate (12).

11. device as claimed in claim 8, it is characterized in that, film tension part (18) is equipped with the film roll (21) that is used for continuous film (23) on the one hand, on the other hand, idler roller (22) is housed, this idler roller (22) is by pre-tensioning, so under a horizontal load, it is pulled out from vertical reference position, and when horizontal load was cancelled, it returned back to its reference position.

12. device as claimed in claim 8 is characterized in that, between film roll (21) and idler roller (22), two rollers that are used for guiding and correction film (23) are provided with each other at certain intervals, and this is at interval greater than material block (3).

13. device as claimed in claim 9 is characterized in that, is used to guide and two rollers of the film of rectifying a deviation are the pair of rolls (24) of bottom and the pair of rolls (25) at top.

14. device as claimed in claim 5 is characterized in that, film fused component (19) has two welding bars (31) to be used to connect the free end of film (23), and at least one welding bar is designed to movably.

15. device as claimed in claim 11, it is characterized in that, one welding bar (31) is equipped with the separating metal silk in addition, this metal filament works along the whole length extension of welding bar (31) and in the centre of welding bar (31), the separating metal silk is arranged in the plane at welding bar (31) area of heating place, so film at first is fused, separate at the welding inner side surface subsequently.

16. device as claimed in claim 8, it is characterized in that, the receiving-member of packaging facilities (2) has bottom carrying jaw (28) and top carrying jaw (29) at least, the position of carrying jaw and be dimensioned to clearance envelope (16 with compression member (11), 17) position and size are consistent, and each carrying jaw has a film handspike (30) on the end of the most close compression member (11).

17. as the described device of arbitrary claim in the claim 8 to 17, it is characterized in that, the receiving-member of packaging facilities (2) is designed to have the movable part (20) of framework (26) and movable balladeur train (27), and it can move with respect to the fixedly compression member (11) of gas booster compressor (1).

18. device as claimed in claim 8, it is characterized in that, the device that gas booster compressor (110) is used at opposite side fastening material piece is withstand voltage load-transfer device (120,122), thereby this load-transfer device to the material block pressurization with the material block compression together, and along with the rotation of load-transfer device is transported to packaging facilities (112) with material block.

19. device as claimed in claim 8 is characterized in that, packaging facilities (112) is used for the fastening material piece and keeps the device of its compressive state is withstand voltage load-transfer device (164,166), and this load-transfer device is driven along the packaging facilities Way out.

20., it is characterized in that the load-transfer device (120,122,164,166) of gas booster compressor (110) and/or packaging facilities (112) contains the lath that is made of rigid batten as claim 18 or 19 described devices.

21. as the described device of arbitrary claim in the claim 18 to 20, it is characterized in that gas booster compressor is used for the device that the device of compression material piece and packaging facilities (112) be used to keep compressive state and all comprises the load-transfer device (120 that under(-)chassis is fixing and the top can move down and can stop, 122,164,166).

22., it is characterized in that top and bottom thin film feed arrangement (150,152,154,156,158,160,162) are arranged as the described device of arbitrary claim in the claim 18 to 21 on the input side of packaging facilities (112).

23. device as claimed in claim 22 is characterized in that, feed arrangement is a correction roller (150,152,154,156,158), and it allows film to be directed from the above and below along the front portion perpendicular to the packaging facilities input side.

24., it is characterized in that vertically movably a welding and a shutoff device (176,178) arranged as the described device of arbitrary claim in the claim 18 to 23 on the input side of packaging facilities (112).

25. pack piece by the material that compressible material constitutes; it is characterized in that; basically square style material block first direction by solid plastic film roll around; the selection of this plastic film is that it can absorb the restoring force of compression material; material block is reeled with suitable thin material fully in the second direction perpendicular to first direction subsequently, and this thin material is used for the protective material piece and stops dust and moisture.

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