比利时专利BE1020486A3 DEVICE FOR DETACHING PACKAGES FROM A CARRIER BAND COMPRISING HELLS PROVIDED AHEADS BEHIND THE OTHER.

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专利摘要:

公开号:BE1020486A3
申请号:E2011/0434
申请日:2011-07-08
公开日:2013-11-05
发明作者:Oliver Krueger；Ralph Ludwig；Stephan Knotz；Timo Ruemmele
申请人:Zahoransky Ag；
IPC主号:

专利说明:

"Device for detaching packages from a carrier strip comprising hulls arranged one behind the other"
Many objects, such as toothbrushes, are sold in blister packs. During packaging, shells in which the objects will be placed are formed in a carrier strip made of a plastic sheet. The carrier strip is covered with a covering layer, for example of cardboard, and the carrier strip and the cover layer are connected to one another. Then, the individual packages respectively comprising a shell is cut or cut to the matrix of the carrier strip. Die cutting or die cutting takes place in a clockwise fashion for one or more packages most often by means of a tool controlled linearly by a toggle lever, as described for example in DE 10 2007 024 710 A1. For this purpose, high cutting forces, eg 10-20kN, are required. In addition, the complexity of the design is very large to allow precise cutting and editing of the cutting tools is complicated because of the thin slit cutting between punch and die of the toggle lever system.
Another major disadvantage of known cutting devices is that a flange is formed as a cutting residue between the adjacent shells, which is due to the tool, during cutting or die cutting. These flanges have a width which is usually 4 - 6 mm, so that large quantities of waste result in mass production. This has the consequence, on the one hand, of high costs due to the additional consumption of material and also has ecological disadvantages, since the flanges are made of sheet material and material of the cover layer connected to that -this. A separation by species and a reuse of this waste is not therefore possible or only with great difficulties and corresponding costs.
The problem therefore consists in providing a device of the type mentioned at the beginning which must be of simple design and easy maintenance. In addition, separation of packaging should be possible with less use of force. In addition, waste from the remaining flanges between the individual packages should be avoided.
The solution according to the invention to this problem consists in that there is provided a receiving element provided with cavities or recesses for receiving the shells of a carrier strip section and provided with lateral supports located between the cavities or recesses for the hull edges laid flat, in that there is provided an impingement roll provided with a drive to roll it over the cover layer of the carrier strip section disposed in the receiving member, and in that the the impactor roller has a number of cutting or pressing elements arranged one behind the other adapted to the number of packages to be separated from the respective carrier section and / or the supports of the receiving element respectively have cutting elements. or pressing to cut in whole or in part the individual packages of the carrier web section or to introduce material weakenings between individual packages.
A carrier section with a number of hulls which have been formed in a sheet in a downstream forming device and which have been filled with the articles to be packaged in a filling station is fed into the area of the receiving element after the carrier strip section has been connected to the cover layer in a connecting device. The shells are disposed in the cavities or recesses of the receiving member and the carrier section rests on the supports of the receiving member. When the carrier web section is immobilized and placed in the receiving member, the impactor roller is moved over the carrier web section and the individual packages are thereby cut off or separated from one another by a weakening of material. Due to the rolling movement of the impactor roller, the contact surface involved is minimal, which is why very small cutting forces are required for the device and the wear is thus reduced and the service life of the device is lengthened. . Due to the juxtaposition of the cutting or pressing elements in the longitudinal direction of the receiving element or in the rolling direction of the impactor roller, no intermediate flanges are formed as waste during the separation. which the need for material is reduced and a production that is economically and ecologically advantageous is possible.
When the receiving member and the impactor roll are positioned optimally adjusted relative to one another, their distance from each other during machining is such that the carrier section is cut or pressed with the covering layer in the desired manner by the cutting or pressing elements, the cutting or pressing elements, however, not affecting the opposite cutting or pressing elements or the counter-surface, which reduces the wear and increases the service life of the device.
It is possible that the impactor roller carries the cutting or pressing elements and that the receiving element has flat supports as counter-elements. However, it is also possible that the receiving element carries the cutting or pressing elements and that the impactor roller has a flat abutment surface. Finally, it is possible for both the impactor roller and the support member to carry cutting or pressing elements so that a corresponding impact on the carrier strip section with a cover layer occurs on both sides.
Cutting elements may be provided to completely release the individual packages from the carrier web section. There may also be pressing elements that allow two packages still attached to one another are folded over one another. Combinations of cutting and pressing elements are also conceivable, for example an alternating arrangement of cutting and pressing elements so that the packages are each cut in pairs from the carrier strip and the two packages hung together exhibit in the area of their connection a weakening of material at which the packages can be folded over one another.
After completely rolling the impactor roller on the receiving element, the cut packages are based on the receiving element and can be removed or expelled, which can be done automatically or manually.
The displacement path of the impactor roller preferably extends beyond the receiving member so that all the housings are freely accessible and unhindered removal or expulsion of the packages is possible.
It is suitable for the impactor roll to have a carrier roll and a plurality of cutting or pressing elements which can be releasably applied thereto, are arranged one behind the other in the circumferential direction of the carrier roll and are adapted to the packings. to separate. The cutting or pressing elements can then simply be replaced to provide the device for different packages or to replace damaged or worn cutting or pressing elements. Cutting or pressing elements may be provided for larger packaging or cutting or pressing elements which are dimensioned for several packages so that overall fewer spare parts are provided and the equipment of the carrier roller is provided. can be done more simply and quickly.
In order to be able to introduce a carrier web section into the device and to return the impactor roller back to its starting position after the treatment without touching again the already separated packages, it is advantageous that the receiving element and / or the impactor roller can be positioned transversely to the plane of the carrier strip. In particular, the receiving element can be lowered, the carrier section can be introduced and the receiving element can be raised again, after which the individual hulls land in the cavities or recesses and the belt section carrier is supported on the supports of the receiving element.
The drive for the impactor roller may comprise a linear drive to linearly move the impactor roller along the carrier web section as well as a rotary drive for rotational movement of the impactor roller during linear movement.
Alternatively, the drive for the impactor roller may comprise a rotary drive for a rotational movement of the impactor roller and the axis of rotation of the impactor roller is in this case connected to rotate with a toothed wheel which is engaged with a rack extending along the receiving member for the carrier web section to be treated. The rotational movement of the impactor roller is thus converted by the toothed gear / rack mechanism into a linear motion and only one motor is required to do this, which is why the drive can be carried out in a simple manner, with a small footprint and cheap.
It is also possible that the drive for the impactor roller has a linear drive to linearly move the impactor roller along the carrier web section and that the axis of rotation of the impactor roller is rotatably connected to a gear wheel which is engaged with a rack extending along the receiving member for the carrier web section to be processed. There is no need for a rotary drive. Rotation is achieved by rolling the gear on the rack. In this case, the linear drive may be, for example, a hydraulic drive.
A preferred embodiment provides that the impactor roll has side support rings that rest on rolling surfaces extending along the receiving member for the carrier web section to be treated. This allows a precise positioning of the impactor roller and the receiving element relative to each other in terms of their spacing and thus the adjustment of the slot between the cutting or pressing elements and against -surfaces so that the cutting or pressing elements in the treatment position in question extend to the counter surfaces which can also be formed, as previously described, by cutting or pressing elements or by cons flat but not subject to force. This avoids wear and lengthens the service life of the device.
In this case, the receiving element may preferably have the running surfaces, which simplifies the design.
It is further appropriate that the support rings are designed conically in the axial direction and are mounted axially displaceable on the impactor roll and that the rolling surfaces have a conical surface adapted to the conical surface of the support rings. The distance between the impactor roller and the receiving element can thus be adjusted by corresponding axial positioning of the support rings, for example to compensate for damage to the cutting or pressing elements and to maintain a constant gap between the impactor roller and the pressure roller. receiving element.
The cutting elements may have one or more recesses along their cutting edge. This allows the finishing of partially die-cut packages which are still initially hung together, may also remain in a frame of the carrier section and are thus put on sale, a customer can release a single package of this composite. With a plurality of recesses, a perforation can also be produced, which on the one hand ensures reliable cohesion of the packages and, on the other hand, allows a simple separation of an individual package from this composite.
The linear advancement direction of the impactor roller may be shifted by an angle α relative to the direction of longitudinal extension of the receiving member and the carrier band section placed therein and the cutting elements or pressing can be respectively obliquely arranged at a corresponding angle on the impactor roller.
The impactor roll can thus roll obliquely on the carrier section. This has the advantage that the contact area concerned is reduced when the impactor roll rolls on the carrier web section in the receiving member and is possibly only two or three points, which is why the pressing force between the impactor roller and the receiving member can be further reduced.
To prevent wear and damage and thus extend the service life of the device, it is appropriate that the cutting or pressing elements of the impactor roller and / or the cutting or pressing elements or the supports of the element of reception consist of hardened material.
It may be appropriate that the impactor roll has in the peripheral direction an impact zone equipped with cutting or pressing elements and a free empty zone. With such an embodiment of the impactor roller, it is possible to omit a lift or a transverse positioning to the plane of extension of the carrier web section upon the return of the impactor roller after the treatment, since the impactor roller can come back into position. back without touching the carrier tape section when the empty area is oriented towards the carrier tape section. In this case, the impactor roller must have a corresponding diameter and circumference to have, in spite of the empty zone, an impact zone comprising a corresponding number of cutting or pressing elements to separate the desired number of packages. The path of the impactor roll along the receiving member and beyond it is also, therefore, longer.
The cutting or pressing elements may be provided with additional impact surfaces within their outer contour. These may be provided in particular to apply a perforation inside the separate package, for example for a suspension hole closed at first.
The invention also relates to a package with a shell and a cover layer closing the shell, as it can be manufactured with the device according to the invention. The packaging according to the invention is characterized in that the outer edges of the cover layer and / or the shell edges carrying the cover layer are free of burrs and / or rounded. As a result, there are no sharp cutting edges, which avoids or at least greatly reduces the risk of injury by handling the package, particularly by opening it.
Exemplary embodiments of the device according to the invention will be explained in more detail below on the basis of the drawings.
It is shown, in part diagrammatically, in FIG. 1 a perspective view of a device before the separation of the packages,
Fig. 2 the device of Figure 1 after the separation of the packages,
Fig. 3 a single cutting element,
Fig. 4 a section of carrier tape after the separation of the packages,
Fig. A perspective view of another embodiment of a device before separation of the packages,
Fig. 6 the device of Figure 5 after the separation of the packages,
Fig. 7 a front view of the device of FIG. 6,
Fig. 8 a single cutting element as used on the impactor roller according to FIGS. 5 to 7,
Fig. 9 a section of carrier strip after the separation of the packages with a cutting element according to Figure 8,
Fig. A perspective view of another embodiment of a device with the impact roller rolling obliquely before the separation of the packages,
Fig. 11 a view from above of the device of FIG. 10,
Fig. 12 a perspective view of the device of FIG. 10 after the separation of the packages,
Fig. 13 a view from above of the device of FIG.
Fig. 14 a single cutting element as used on the impactor roller according to Figures 10 to 13,
Fig. 15 and
Fig. 16 respectively a view of the front side of a device with conically extending support rings,
Fig. 17 to
Fig. 22 respectively a cross-sectional view of a support of the receiving member and the impactor roll when separating a package from differently designed cutting or pressing elements, and
Fig. 23 and
Fig. 24 respectively a cross-sectional view of a cut package.
A device, designated in its entirety by 1, for separating packages 2 from a carrier strip has, according to FIG. 1, a receiving element 3 provided with cavities 4 for receiving the shells 5 of a carrier strip section 6 and lateral supports 7 and located between the cavities 4 for the flat shell edges.
A not shown forming device for forming the hulls with an adjacent loading device for introducing the objects to be packaged into the hulls and a device for connecting the hulls to a cover layer 9 are placed downstream of the device 1. This layer cover 9 may consist of a film or a cardboard which on its side is unwound from a roll and prepared in plates and can be glued or welded to the band of shells.
The carrier web section 6 is transported by means of two lateral guide chains 8. In the exemplary embodiment shown, a carrier web section 6 with 12 shells is processed each time. After the carrier web section 6, as shown in Fig. 1, has been transported into the area of the receiving member 3, the receiving member 3 is raised until the individual hulls 5 rest in the seats. cavities 4 of the receiving element 3 and that the shell edges rest on the supports 7 of the receiving element 3.
Next, an impeller roll 10 is lowered onto the carrier web section 6. The impeller roll 10 has a carrier roll 11 and a plurality of cutters 12 removably applied thereto. These cutting elements 12 act on the carrier web section 6 in the lowered position of the impactor roller 10 (FIG. 2). The impingement roll 10 is moved into the lowered position of a starting position (FIG. 1) by a linear drive 14 in an end position (FIG. 2), the impactor roll 10 rolling on the carrier band section 6 during this linear movement. . A rotary drive 15 is provided for this purpose. The linear drive 14 has a drive motor 16, two lateral guide rails 17 and suspensions 18 guided therein for the impeller roll 10.
The cutting elements 12 act respectively on the carrier web section 6 and thus cut the individual packages 2. Since only a small contact area is formed between a cutting element 12 and the carrier web section 6, it is possible to work with a comparatively small pressing force. The transverse rib 19 of a cutting edge of the cutting elements 12 (Figure 3) forms the line of separation of two adjacent packages 2. No waste is thus produced between the individual packages 2 during the separation of the packages 2. It can be seen very well in the top view of a section of the carrier strip 6 treated according to FIG. 4. Next to the individual packages 2 which can be taken or expelled from the cavities 4 of the receiving element 3, there remains only an outer frame 20 as waste.
The individual cutting elements 12 are arranged on the carrier roll 11 so that their cutting edges are arranged against each other without vacuum so that a complete cut is obtained.
The rotary drive 15 may also be out of service during the linear displacement of the impactor roll 10 when a corresponding pressing force is exerted, since, as the impactor roll 10 is mechanically pressed against the carrier web section 6, the rotation takes place automatically and the impactor roller 10 rolls on the carrier web section 6. The rotary drive 15 can then be used to exactly position the impactor roller 10, after the linear return of the impactor roll 10 in its position. departure.
In the device 1 according to FIGS. 5 to 7, the axis of rotation of the rotary drive 15 is connected in rotation with a toothed wheel 21 which is engaged with a rack 22 extending along the element of Thus, an additional linear motion is superimposed on the rotational movement of the impactor roller 10 and a separate linear drive can be dispensed with.
In the device according to FIGS. 5 to 7, the individual cutting elements 12 are designed shorter with respect to the circumferential direction of the impactor roller 10 than in the embodiment according to FIGS. 1 and 2, which is why a slot 23 which The cutting line interrupts each form formed between the individual cutting elements 12 disposed on the carrier roller 11. In addition, the transverse rib 19 of the cutting edge has a recess 24 each time (Fig. 8). As a result, the packages 2 are not completely released from the carrier web section 6 but remain connected to each other and to the frame 20 of the carrier web section 6 by narrow flanges 25 (FIG 9). Thus the entire carrier section 6 with the frame 20 can be placed in a sales display and a customer himself releases a package of the composite.
When a plurality of recesses 24 are provided on the transverse rib, a perforation may also be formed.
As can be seen in particular in FIG. 7, the impactor roller 10 has lateral support rings 26 which rest on rolling surfaces 27 extending along the receiving element 3. The running surfaces 27 and the receiving element 3 in this case forms a unit, grooves 28 being provided between the running surfaces 27 and the supports 7 for receiving the guide chains 8 for the carrier web section 6.
The outer diameter of the support rings 26 is selected, in this case, in such a way that the cutting elements 12 abut exactly on the supports 7 of the receiving element 3 without thereby exerting a great force on the supports 7. therefore, a reliable separation of the packages 2 of the carrier web section 6 is on the one hand ensured, the supports are on the other hand not damaged by the cutting elements 12 and the cutting elements 12 themselves are not not more deteriorated or damaged by the incidence of the receiving element 3 on the supports 7 usually made of hardened steel. This allows long useful life of the device 1.
Figures 15 and 16 show an improvement in which the support rings 26 are of conical design in the axial direction. The running surfaces 27 has a conical surface adapted to this contour. The support rings 26 are further mounted axially adjustable. The distance between the supports 7 of the receiving element 3 and the cutting elements 12 of the impactor roller 10 can thus be adjusted by axial adjustment of the support rings 26. This may be particularly suitable for compensating the increasing distance in the event of deterioration. cutting elements 12 and thus guarantee a constant cutting quality. Figure 15 shows the device 1 with support rings 26 axially closer together. In FIG. 16, the support rings 26 are moved outwardly so that the impactor roller 10 is positioned closer to the receiving element 3.
In the device 1 according to FIGS. 10 to 13, the linear advancement direction of the impingement roll 10 is offset by an angle α with respect to the direction of longitudinal extension of the receiving member 3 and the band section. carrier 6 placed in it (Fig. 11). The individual cutting elements 12 (FIG 14) are respectively formed and arranged on the carrier roller correspondingly obliquely to obtain nevertheless straight cuts for the packages 2, corresponding to the shells 5, when the impactor roll 10 rolls on the section carrier strip 6 (Fig. 12, 13).
As a result, the contact area concerned between the impingement roll 10 and the carrier web section 6 is reduced as the impingement roll 10 rolls on it, thereby enabling lower pressing forces to be applied between the impeller roll 10 and the receiving member 3. The contact surface ideally consists of only two or three points at any time during the rolling motion.
Figures 17 to 22 show, in cross-section, different combinations of cutting and pressing elements 12, 13 acting on the carrier web section 6 made of shell packaging material 29 and a cover layer 9.
In Figures 17 to 19, the impactor roller not shown here has cutting elements 12 and the support 7 of the receiving element 3 is a flat surface.
In Fig. 17, the cutting element has a cutting edge for separating two packages 2 whose cutting edges form an angle of about 90 °. A package 2 separated by such cutting elements 12 is shown in FIG. 23, the object to be packaged in the shell 5 not being shown. By pressing the cover layer 9 from above, the cutting edges of the cutting element 12 press the material of the covering layer inwards, resulting in a lasting deformation. As a result, the cover layer 9, generally made of cardboard, has no corner or sharp edge. The edges are without burr and rounded. A risk of injury against the finished package 2 is thus avoided.
The embodiments according to Figs. 18 and 19 are similar to that of Fig. 17, with a sharper cutting angle being provided in Fig. 18 and a profiled cutting edge being provided in Fig. 19.
In FIG. 20, a cutting element 12 is also provided on the support 7 of the receiving element 3. As a result, the carrier web section is subjected to the action of the two cutting elements from above and same time from below and results in a package 2 as shown in Figure 24 for which both the edges of the cover layer 9 and the underlying blister packaging material 29 are rounded and without burrs and sharp edges of the packaging are even better removed.
In the device according to FIG. 21, instead of a cutting element, there is provided a blunt pressing element 13 without a cutting edge with which adjacent packagings 2 are not separated from each other, only a weakening of material is formed by depression. This makes it possible, for example, to fold the adjacent packagings 2 on this separation line.
Cutting elements 12 and pressing elements 13 may, for example, be alternately arranged one behind the other along an impactor roll 10 to form pairs of packages which may be sold as a double package.
The distance between the impactor roller 10 and the supports 7 of the receiving element 3 is measured in this case in such a way that a vacuum remains, and the pressing element 13, as shown in FIG. does the cover layer 9 but not the blister pack material 29.
In FIG. 22, the impactor roller 10 itself has neither a cutting element nor a pressing element but only serves as a abutment surface for the cutting element 12 disposed on the support 7 of the receiving element 3. cutting to separate the packages 2 takes place in this case exclusively from below.

权利要求:
Claims (15)
[1]
1. Device (1) for separating packages (2) from a carrier strip which comprises shells (5) arranged one behind the other and which is connected to a cover layer (9), characterized in that there is provided a receiving member (3) comprising cavities (4) or recesses for receiving the shells (5) of a carrier band section (6) and lateral supports (7) and located between the cavities (4) or recesses for flat shell edges, in that an impinging roll (10) is provided with a drive for rolling it on the cover layer (9) of the carrier web section (6) disposed in the element for receiving (3), and in that the impactor roller (10) has a number of cutting or pressing elements (12, 13) arranged one behind the other adapted to the number of packages (2) to be separated from the respective carrier section (6) and / or supports (7) of the receiving element (3) have pressing the cutting or pressing elements (12, 13) to completely or partially cut the individual packings (2) of the carrier web section (6) to introduce material losses between the individual packages (2).
[2]
2. Device according to claim 1, characterized in that the impactor roller (10) has a carrier roller (11) and a plurality of cutting or pressing elements (12, 13) releasably applicable thereto, arranged one at a time. behind the others in the peripheral direction of the carrier roller (11), adapted to the packages (2) to be separated.
[3]
3. Device according to claim 1 or 2, characterized in that the receiving element (3) and / or the impactor roller (10) can be positioned transversely to the plane of the carrier strip.
[4]
4. Device according to any one of claims 1 to 3, characterized in that the drive for the impactor roller (10) has a linear drive (14) for linearly moving the impactor roller (10) along the section of carrier web (6) and a rotary drive (15) for rotational movement of the impactor roller (10) during linear movement.
[5]
5. Device according to any one of claims 1 to 3, characterized in that the drive for the impactor roller (10) has a rotary drive (15) for a rotational movement of the impactor roll (10), and in that that the axis of rotation of the impactor roller (10) is rotatably connected to a toothed wheel (21) which is engaged with a rack (22) extending along the receiving element (3) for the carrier section (6) to be treated.
[6]
6. Device according to any one of claims 1 to 3, characterized in that the drive for the impactor roller (10) has a linear drive (14) for linear displacement of the impactor roller (10) along the section of the carrier belt (6), and in that the axis of rotation of the impactor roll (10) is integrally connected in rotation with a toothed wheel (21) which is engaged with a rack (22) extending along the receiving element (3) for the carrier web section (6) to be processed.
[7]
Device according to one of Claims 1 to 6, characterized in that the impactor roller (10) has lateral support rings (26) which rest on rolling surfaces (27) extending along the receiving element (3) for the carrier web section (6) to be treated.
[8]
8. Device according to claim 7, characterized in that the receiving element (3) has the rolling surfaces (27).
[9]
9. Device according to claim 7 or 8, characterized in that the support rings (26) are designed conically in the axial direction and are mounted axially displaceable on the impactor roller (10) and in that the rolling surfaces (27) have a conical surface adapted to the conical surface of the support rings (26).
[10]
10. Device according to any one of claims 1 to 9, characterized in that the cutting elements (12) have along their cutting edge one or more recesses (24).
[11]
11. Device according to any one of claims 1 to 10, characterized in that the linear advancement direction of the impactor roller (10) is offset by an angle with respect to the direction of longitudinal extension of the element receiving member (3) and the carrier section (6) placed therein and in that the cutting or pressing elements (12, 13) are respectively obliquely arranged at a corresponding angle on the impactor roll ( 10).
[12]
Device according to one of Claims 1 to 11, characterized in that the cutting or pressing elements (12, 13) of the impactor roller (10) and / or the cutting or pressing elements (12, 13) ) or the supports (7) of the receiving element (3) consist of hardened material.
[13]
13. Device according to any one of claims 1 to 12, characterized in that different cutting or pressing elements (12, 13) are provided on the impactor roll (10).
[14]
14. Device according to any one of claims 1 to 13, characterized in that the impactor roll (10) has in the peripheral direction an impact zone equipped with cutting or pressing elements (12, 13) and a free empty area.
[15]
15. Packaging (2) with a shell (5) and a cover layer (9) closing the shell (5), characterized in that the outer edges of the cover layer (9) and / or the bearing shell edges the cover layer are free of burrs and / or rounded.

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同族专利:

公开号 | 公开日

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DE102010026801A1|2012-01-12|

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CN201049476Y|2006-12-19|2008-04-23|南通环球塑料工程有限公司|Hobbing device|CN103072309A|2013-02-26|2013-05-01|江阴市汇通包装机械有限公司|Hot sealing mechanism for square bag|

WO2018093787A1|2016-11-15|2018-05-24|Cloud Packaging Solutions Llc|Machine for cutting pouches with shaped perimeter edge, method and pouch|

KR102193604B1|2019-10-07|2020-12-21|김행관|Film Punching Apparatus|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

DE201010026801|DE102010026801A1|2010-07-10|2010-07-10|Device for separating packages from a carrier web with blister bubbles arranged one behind the other|

DE102010026801|2010-07-10|

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