METHOD AND MACHINE FOR MANUFACTURING A BAG COMPRISING HANDLES

专利摘要:
According to a method of manufacturing a bag: - a wall (1, 1a) of the bag is passed along a rotary mounting drum (30) handles (4); a handle (4) is attached to the drum (30), legs (41) of the handle (4) extending along a perimeter of the drum (30) towards the rear in the direction of rotation of the drum (30); ), the legs (41) being connected by a cross member (40); - It turns it with a turning drum (37) so that the legs (41) are at the front of the laying drum; - the handle (4) is deposited on the wall.
公开号:FR3042436A1
申请号:FR1559858
申请日:2015-10-16
公开日:2017-04-21
发明作者:Thomas Fichtner；Vincent Schalck
申请人:Holweg Group SAS；
IPC主号:

专利说明:

Method and machine for making a bag with handles
Technical area
The present invention relates to a method and a machine for making bags such as square bottom bags, having flat handles made of folded, cut, glued materials.
State of the art
Especially commercially used bags are provided for customers to take their purchases. Such bags are sometimes made of paper, partially or totally, and have a tubular portion open at one end and closed at the other end by a bottom, for example rectangular or square. These bags are called square bottom bags. We donate some of these bags of handles so they can be easily transported.
Document US Pat. No. 3,439,591 discloses a method for manufacturing bags comprising such handles. Starting from a continuous strip of paper, transverse cuts are made and U-shaped handles are deposited on either side of the cuts, by gluing the legs of the handles on the strip on one side only of the notch. . Reinforcing sheets are deposited by gluing on each leg to strengthen the connection with the wall of the bag. Then, the band is folded on itself to form a hose, which is cut into sections in the extension of the notches. A bottom is formed by folding and gluing flaps at the end of the section opposite to that carrying the handles. The bag is thus finished, with handles protruding from the open end of the bag. This document also shows a manufacturing station handles. Such a machine requires a specific stacking station, because of the size of the handles that protrude from the body of the bag.
The handles are developed on a fixed station. During this elaboration, the legs of the handles are oriented in the direction of travel of the band. The legs are pinched between a cylinder that guides the tape and a segmented transport. The training of the handles is brutal, the handles having to pass from a very low speed to the speed of scrolling of the band very quickly. This insertion of the handles is a cause of limitation of the rate of manufacture of the bags.
It is proposed in US 5,609,556 to provide the handles so that they do not exceed the opening of the bag. This limits the bulk of the bag for storage and transportation. For this, the handle is formed on a rotating drum whose periphery tangents the path of the wall. The drum receives along a generatrix a band of previously cut material forming a strap that maintains two points. The strap is retained during rotation of the drum so as to fold it close to the holding points in an oblique fold and form the legs of the handle at right angles to a crosspiece held between the two holding points. Then, the legs of the handles are folded on themselves by a folding station to form a base, before being deposited and glued by the base on the wall of the bag. At the folding station, a blade carried by a folding roll marks the fold on the legs, which causes the bases to rise. A folding bar that moves faster than the periphery of the drum causes the bases to fold on the legs.
Holding means temporarily fix the handle along the wall of the bag, until the user of the bag goes against these holding means to deploy the handle. However, this arrangement does not allow to lay reinforcing sheets since the space normally covered by such sheets is already occupied by the folded handle. Thus, the load admitted by such bags is limited. In addition, when using the bag, it acts against the temporary holding means by removing the handles from one another. Finally, concentrated traction is exerted especially on the bonding of the base on the wall at the junction with the rest of the handle. This concentration of traction is likely to initiate a rapid tear at this level of either the wall or the bonding.
In addition, the use of a drum for fitting the handles makes it possible to obtain higher speeds, since the handle has already reached the running speed of the band.
DESCRIPTION OF THE INVENTION The invention therefore aims to provide a method of manufacturing a bag with handles with or without reinforcing sheets for high speeds and a machine implementing such a method.
With these objectives in view, the invention relates to a method of manufacturing a bag according to which: - a wall of the bag is passed along a rotatable mounted handle installation drum; - A grip is attached to the drum, the legs of the handle extending along a perimeter of the drum rearward in the direction of rotation of the drum, the legs being connected by a cross; - the handle is deposited on the wall; characterized in that before the removal of the handle on the wall, it is returned with a turning drum so that the legs are at the front of the laying drum.
Turning the handle before laying on the wall, the handle on the wall has the legs forward and crosses backwards. Typically, the legs are stuck to the wall and the sleepers are located beyond the edge of the bag. The laying can be done before the separation of the bags, on the inside or outside of the bag. In this case, the wall is previously notched transversely so that the handles are deposited over these notches, the final cut of the bag being made in the extension of the notches. In this case, two handle removal stations are placed side by side or longitudinally offset. The laying can also be done after the separation of the hose sections, before or after the formation of the bottom on the sections, and in this case typically outside thereof. As the installation of the handles is carried out in a continuous process, without abrupt acceleration of these, one can achieve the installation of the handles at a great rate, with more than 250 pieces per minute.
According to a constructive arrangement, in order to perform the inversion, the handle cross-member is grasped by the turning drum tangential to the periphery of the laying drum, the ends of the legs are introduced by means of a blade carried by the turning drum. in a clamp of the laying drum and releasing the cross member by bringing the handle against the periphery of the laying drum. The reversal is in the continuity of the rotation of the laying drum and that of the overturning drum. No sudden acceleration is imparted to the handle in this operation, which provides a significant rate. The cross member is moved away from the periphery of the laying drum by the turning drum. By grasping the end of the legs, the laying drum drives them past the crossbar which is held by the turning drum, so that the legs pass to the front.
According to an improvement, depositing at least one reinforcing sheet by at least partially covering at least one leg before turning the handle. After turning, the reinforcing sheet will be on the side of the laying drum, then cover the leg or legs being glued to the wall. This technique is applicable for the fitting of handles both inside and outside the bags. The connection of the handle with the wall is thus reinforced.
According to another improvement, the speed of rotation of the laying drum is controlled during a rotation of a lathe to place the handle at the speed of the wall and at the interval separating two successive bags. This allows the process to be used to manufacture bags of variable length, not conditioned by the perimeter of the drum. In the period between two successive poses, the speed of the drum is free and can be slowed to let a longer wall length to make long bags, or accelerated to make short bags. The speed is adjusted again during the exposure period to match the speed of movement of the wall. The invention also relates to a bag-making machine with handles comprising means of transport for passing a wall of the bag along a rotary-mounted handle installation drum, hooking means for hanging a handle on the drum, the legs of the handle extending along a perimeter of the drum rearward in the direction of rotation of the drum, the legs being connected by a cross member, the attachment means being configured to deposit the handle on the wall; , characterized in that it comprises a turning drum for turning the handle before removing the handle on the wall and so that the legs are at the front on the laying drum.
According to a constructive arrangement, to perform the turning, the turning drum is rotatable and tangential to the periphery of the laying drum and comprises a cross clamp to grip the handle by the crosspiece during its passage between the laying drum and the drum and a blade adapted to introduce the end of the legs into a leg clamp of the laying drum, the cross member being configured to release the cross member after the leg nip by the leg clamp, the machine further comprising guiding means for returning the handle against the periphery of the laying drum after the overturning drum and before the installation of the handle.
According to an improvement, the machine comprises a reinforcing sheet deposition station upstream of the overturning drum for depositing at least one reinforcing sheet covering at least partially at least one leg.
According to another improvement, the machine comprises control means for controlling the rotational speed of the laying drum during a rotation of a lathe and placing the handle at the speed of the wall and the interval separating two successive bags .
According to various embodiments: the machine comprises a formation station for a hose placed downstream of the laying drum; The machine comprises a formation station for a hose placed upstream of the laying drum and a bottom formation station downstream of the laying drum; The machine comprises a formation station for a hose placed upstream of a bottom formation station, which is upstream of the laying drum.
According to one variant, the turning station is completed or replaced by a folding station to fold and fold the legs in two parts one over the other along a fold line, the cross-section part being called strap while that the remaining part is called the base. Thus, the bonding of the handle on the wall is made by the bases, the crossbar being closer to the bottom. When using the folding station, the turning station is dismantled or not used. The turning station can also be transformed into a folding station, as will be seen later. By this arrangement, the machine can be used for the manufacture of different models, with straight handles that protrude from the edge of the bag or with folded handles that do not protrude.
For folding, according to a constructive arrangement, a guide bar is used which moves faster than the periphery of the drum to drive, fold and fold the bases on the shoulder straps.
In development, a reinforcing sheet laying station is also used, at least partially covering the base of at least one leg before folding the base by gluing the reinforcing sheet on the base and the wall.
According to other provisions: - the reinforcing sheet is deposited in a position such that the reinforcing sheet is folded with the bases during the folding operation. This forms a flap without adding specific means to fold it, taking advantage of the folding operation of the legs. Such a flap reinforces the tear resistance of the reinforcing sheet in a particularly stressed area. - Baste bases before folding against the reinforcing sheet. BRIEF DESCRIPTION OF THE DRAWINGS The invention will be better understood and other features and advantages will appear on reading the description which follows, the description referring to the appended drawings among which: FIG. 1 represents a side view of a bag making machine according to a first embodiment of the invention; FIG. 2 is a view similar to FIG. 1 of a machine according to a second embodiment of the invention; FIG. 2a is a view similar to FIG. 1 of a machine according to a third embodiment of the invention; FIG. 3 is a view of detail III of FIG. 1; - Figures 4 to 7 are views of detail IV of Figure 3 in different phases of the process implemented by the machine; - Figures 4a and 7a are perspective views of the laying drum in a position respectively corresponding to that of Figures 4 and 7; - Figure 8 shows a side view of a bag manufacturing machine according to a fourth embodiment, by modifying the machine according to the invention and according to a first variant; FIG. 8a shows a second variant of the first and third embodiments, in which the stations are not opposite one another but offset, as in the second embodiment; - Figures 9 to 11 are perspective views of a detail of the machine of Figure 8 according to different phases of manufacture; FIG. 12 is a side view of the detail of FIGS. 9 to 11, in a subsequent phase; FIG. 13 is a perspective view of the hose having received a handle according to the fourth embodiment; FIG. 14 is a sectional view of the bag of FIG. 13 along plane XIV-XIV; FIGS. 15 and 16 are views similar to FIGS. 9 and 10, respectively, in the manufacture of a bag according to a second variant of the fourth embodiment of the invention; - Figures 17 and 18 are similar views respectively to Figures 13 and 14 of the bag manufactured according to the method of Figures 15 and 16.
DETAILED DESCRIPTION
A bag-making machine according to a first embodiment of the invention, as shown in FIG. 1, comprises, in a manner known per se, a formation station 9 of a casing 1 from a band of a flexible material 1a such as plain or preprinted paper, aluminum or plastic film or the like or a mixture of these materials. The strip of material 1a is unwound from a reel on a reel, not shown. It can be printed beforehand or at the exit of the reel. The casing 1 is generally formed with bellows, but this feature does not affect the invention which could be implemented on bags without bellows. The machine then comprises successively, in the conveying direction of the casing 1, two sizing stations 2, two hand-laying stations 3 according to the invention and facing one another, a cutting station 6 , a bottom formation station 7 and then a stacking station 8. The document WO 2013/190208 A1 shows an example of a formation station of the bottom 7. The laying stations of the handles 3 comprise laying drums 30 placed next to each other. from each other to deposit handles on both sides of the casing 1, so that the handles will be outside the bag.
In a second embodiment, provided for the bag to have handles inside and shown in Figure 2, the handles 4 are placed on the strip of material 1a before the formation of the casing 1. For this, the machine comprises two handle-laying stations 3, arranged in an offset manner both in the direction of the web of material 1a and transversely to this direction.
In a third embodiment, provided for the bag to have handles on the outside and shown in Figure 2a, the handles 4 are placed on the bags already formed at the exit of the folding station 7. For this, the two hand-laying stations 3 are placed downstream of the folding station 7, one facing the other.
In a variant not shown, the handles are placed after cutting the hose sections but before the formation of the bottom.
Figure 8a shows two staggered sizing stations each with an individual presser 3a.
In these three embodiments, the hand laying stations 3 are arranged in a similar manner which will now be described with reference to FIGS. 3 to 6. Each handle 4 comprises a cross member 40 connecting two legs 41 substantially at right angles, as can be seen in FIG. see for example in Figure 9. Each laying drum 30 is rotated so that its peripheral speed is the same as the speed of travel of the casing 1 passes before him at the time of removal of the handles. The station for placing the handles 3 comprises hooking means for hanging the handle 4 on the drum so that the legs 41 of the handle 4 extend along a perimeter of the drum 30 towards the rear in the direction of rotation. drum. Referring to Figure 3, it further comprises a dispensing roller 31 for depositing on the drum 30 strips that will form the handles 4 by folding legs 41, in a manner that is not detailed here, optionally a device depositing 33 of reinforcing sheets 5, and a turning drum 37 to turn the handle before removing the handle 4 on the wall and so that the legs 41 are at the front of the laying drum. The turning drum 37, mounted counter-rotating relative to the laying drum, is tangent to the periphery of the laying drum 30 and has a cross-piece clamp 370 for gripping the handle by the crosspiece 40 as it passes between the laying drum 30 and the turning drum 37 and a blade 371 adapted to introduce the end of the legs 41 into a leg clamp 302 of the delivery drum 30. The cross member 370 is configured to release the cross member 40 after the nipping of the legs 41 by the leg clamp 302. The laying station 3 further comprises guide means 38 for returning the handle against the periphery of the laying drum 30 after the turning drum 37 and before the installation of the handle 4 on the wall 1.
The gluing station 2 deposits glue on the wall 1 in the zones intended to receive the legs 41 of the handles 4 and the optional reinforcing sheet 5.
During operation, a strap is deposited by the dispensing roller 31 on the laying drum 30 and held thereon by the hooking means which grips the crosspiece 40, during the formation of the handle 4. The parts of the strap on either side of the cross member 40 are folded in a fold at 45 ° so as to form the pmbes 41 at 90 ° relative to the cross 40. In the case where the dispensing device 33 is provided and operational, glue is deposited on the legs 41 by the device 32 and a reinforcing sheet 5 is deposited on the legs 41 of the handle 4. When the cross member 40 reaches the level of the turning drum 37, it is grasped by the cross member 370 of it, as shown in Figure 4, and released by the attachment means. The rotating drum 37, in rotation, carries with it the cross 40, as shown in Figure 5. The blade 371 then arrives at the end of the legs 41 and pushes them between jaws of the leg clamp 302. The jaws tighten the end of the legs 41, while the blade 371 is disengaged. The cross member 40 is then released by the cross member 370 of the turning drum 37. The guide means 38 obstruct the cross member 40 and forces it to come back from the leg clamp 302 which holds the legs 41, as as shown in FIGS. 6 and 7. The optional reinforcing sheet 5 is thus placed between the periphery of the laying drum 30 and the legs 41. Thereafter, the handle 4 is completely turned over, as shown in FIG. is deposited on the wall 1 which received locally glue.
Figure 8 shows exclusively the sizing station 2 and the laying station of the handles 3, according to a fourth embodiment using a machine according to the invention. This embodiment differs from the three previous ones in that the laying station does not comprise a turning drum 37, but an adhesive application device 32 followed by a folding device. In practice, the turning drum 37 can be used by neutralizing the clamp 370, and by operating the blade 371 with an offset with another clamp 301. Thus, the same machine can be used to implement the method described above or that which will be described below.
In this embodiment, the legs 41 are divided into two parts along a fold line 410, the cross-member portion 40 being called strap 411 while the remaining portion is called the base 412.
Figures 9 to 12 show the drum 30 schematically. The laying drum 30 comprises grippers 301 for gripping each leg 41 of the handle 4 along the future fold lines 410 between the base 412 and the shoulder strap 411. At the glue application device 32, the The station 3 further comprises a folding blade 34 rotatably mounted and a folding bar 35 pivotally mounted along an axis slightly eccentric with respect to the axis of the drum 30. The function of the blade of FIG. Folding 34 may be performed by the folding blade 371 of the turning roller 37. The folding bar 35 is movably mounted between a recoil position as shown in Figures 8 and 10 and a folding position shown in Figure 12 and in mixed lines in Figure 8. The folding blade 34 is configured to form the fold, which also results in the bases 412 being raised after their passage to the right of the folding bar 35 in the retracted position, so that the b Ases 412 are driven by the folding bar 35 in its path to the folding position. The path of the folding bar 35 between these two positions is such that the folding bar 35 approaches the surface of the drum 30 as it moves from the retracted position to the folding position. The turning drum 37 can fulfill the function of the device 34 by using the folding blade 371 and by neutralizing the cross clamp 370. The folding bar 35 can also be removable, thereby converting the same machine into a machine according to the invention. one of the first three embodiments of the machine according to the fourth embodiment. In this case, the clamp 302 is for example removable and is replaced by the clamp 301 to adapt its position and its functionality.
According to a first variant of the fourth embodiment, the machine further comprises a laying device 33 of reinforcing sheets 5 for depositing a reinforcing sheet 5 on each handle 4, covering the straps 411, as shown in FIG. 9, between the dispensing roller 31 of the handles 4 and the deflection zone of the folding bar 35.
In operation, the casing 1 passes between the two drums 30 of the handles 4 and runs in the direction of the arrow F1, the drums 30 being rotated synchronously with the casing 1. Each dispensing roller 31 deposits a strap for forming a handle 4 on the drum 30 which then grips the handle 4 by the legs 41 thanks to the clamps 301. The cross member 40 is deposited at the front with respect to the direction of rotation of the drum 30. During rotation of the drum 30, the glue application device 32 deposits glue on the bases 412, the dispensing device 33 deposits the reinforcing sheet 5 on the straps 411 of the handle 4, as shown in FIG. 41 extends beyond the folding bar 35, the folding blade 34 raises the bases 412, while the folding bar 35 accelerates to catch the handle 4 by driving the bases 412 with it, so as to fold them on the straps 411 in borrowing The folding bar 35 stops its movement to the folding position, just before the gap 36 between the two drums 30. At this position, the bases 412 are placed. against the shoulder straps 411, as shown in FIG. 12. The bases 412 and the reinforcing sheet 5 come into contact with the wall 1 on which the gluing is carried out by pressing, facing a glued zone 10 deposited on the hose beforehand by the sizing station 2. The clamps 301 release the legs 41 so that the handle 4 is transferred to the casing 1. A glued area on the wall comes into contact with the cross member 40 to thereby maintain it against the wall, which forms holding means 42.
In a second variant of the fourth embodiment, shown in Figures 15 to 18, the reinforcing sheet 5 'is deposited in a position such that it covers the legs 41 on either side of the fold line 410, and therefore both on the bases 412 and on the straps 411, so that it is folded with the bases 412 during the folding operation. The rest of the process is identical to the fourth embodiment.
The resulting bag provides a 5 'backing sheet stuck to the wall of the bag over the height of the bases 412 and a flap 50 which extends beyond the fold line 410, as shown in FIG.
In a variant of the first embodiment, not shown, the folding of the legs 41 is performed on the dispensing roller 31 and not on the drum 30. This arrangement allows the handle 4 to have the opposite face once deposited on the wall 1 , in comparison with the mode shown in Figure 3. This variant is also applicable to all other embodiments. The invention is not limited to the embodiments which have just been described by way of example. The backing sheet 5 can be separated to apply in two pieces, one for each base. It can also extend over the entire length of the bases, even beyond or on the contrary below opposite ends to the fold line. The handles could be placed side-by-side on the tape before the hose was formed so that the handles would then be inside the bag.
The machine can be adapted to receive either the overturning drum or the folding station. The same machine can be easily modified to change the type of bags produced. But the machine may also comprise the periphery of the laying drum both the overturning drum and the folding device, in a manner offset by the periphery. It goes without saying that in this configuration, these two devices are not in service simultaneously.
An inversion station may be interposed between the handgrip station and the hose formation station. The inversion station makes it possible to invert the top and the bottom of the band 1a. Thus, the handles are found on the inside or outside of the bag.
The handle could be transported by means of transport between the laying drum 30 and the wall 1.

权利要求:
Claims (11)
[1" id="c-fr-0001]
1. A method of manufacturing a bag according to which: - a wall (1, 1a) of the bag is passed along a rotary mounting drum (30) of handles (4); - a handle (4) is attached to the drum (30), legs (41) of the handle (4) extending along a perimeter of the drum (30) towards the rear in the direction of rotation of the laying drum (30), the legs (41) being connected by a cross member (40); - the handle (4) is deposited on the wall; characterized in that before the removal of the handle (4) on the wall, it is turned back by means of a turning drum (37) so that the legs (41) are at the front on the laying drum (30).
[2" id="c-fr-0002]
2. A method of manufacturing a bag according to claim 1, wherein, to perform the reversal, one grasps the crossbar (40) of the handle (4) by the overturning drum (37) tangential to the periphery of the drum. pose, is introduced, through a blade (371) carried by the overturning drum (37), the ends of the legs (41) in a clamp (302) of the laying drum (30) and releases the cross member (40). ) by bringing the handle (4) against the periphery of the laying drum (30).
[3" id="c-fr-0003]
3. A method of manufacturing a bag according to one of claims 1 or 2, wherein depositing at least one reinforcing sheet (5) covering at least partially at least one leg (41) before the reversal of the handle (4).
[4" id="c-fr-0004]
4. Method according to one of the preceding claims, wherein the speed of rotation of the laying drum (30) is controlled during a rotation of a lathe to put the handle (4) at the speed of the wall (1). ) and the interval separating two successive bags.
[5" id="c-fr-0005]
5. Bag making machine with handles comprising means of transport for passing a wall (1,1a) of the bag along a rotary mounting drum (30) of handles (4) rotatably mounted, hooking means for hanging a handle (4) on the delivery drum (30), legs (41) of the handle (4) extending along a perimeter of the drum (30) rearwards in the direction of rotation of the drum ( 30), the legs (41) being connected by a crossmember (40), the attachment means being configured to deposit the handle (4) on the wall, characterized in that it comprises a turning drum (37) for return the handle (4) before removing the handle (4) on the wall and so that the legs are at the front of the laying drum (30) and that it is intended to implement the process according to one of claims 1 to 4.
[6" id="c-fr-0006]
6. Machine according to claim 5, wherein, to perform the reversal, the turning drum (37) is rotatable and tangential to the periphery of the laying drum (30) and comprises a cross clamp (370) to grip the handle (4) by the crosspiece (40) during its passage between the laying drum (30) and the turning drum (37) and a blade (371) adapted to introduce the ends of the legs (41) in a clamp of leg (302) of the laying drum, the cross clamp (370) being configured to release the cross member (40) after the leg gripping (41) by the leg clamp, the machine further comprising guide means (38); ) to return the handle (4) against the periphery of the laying drum after the turning drum (37) and before the installation of the handle (4).
[7" id="c-fr-0007]
7. Machine according to one of claims 5 or 6, characterized in that it comprises a reinforcing sheet removal station (5) upstream of the overturning drum (37) for depositing at least one reinforcing sheet (5). ) at least partially covering at least one leg.
[8" id="c-fr-0008]
8. Machine according to one of claims 5 to 7, characterized in that it comprises control means for controlling the speed of rotation of the laying drum (30) during a rotation of a lathe and put the handle (4) at the speed of the wall (1) and the interval separating two successive bags.
[9" id="c-fr-0009]
9. Machine according to one of claims 5 to 8, characterized in that it comprises a forming station of a hose (9) placed downstream of the laying drum.
[10" id="c-fr-0010]
10. Machine according to one of claims 5 to 8, characterized in that it comprises a forming station of a hose (9) placed upstream of the laying drum (30) and a formation station (7). ) downstream of the laying drum (30).
[11" id="c-fr-0011]
11. Machine according to one of claims 5 to 8, characterized in that it comprises a forming station of a hose (9) placed upstream of a bottom formation station (7), which is upstream laying drum (30).

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ES2178559B1|2000-08-04|2003-09-01|Daumar Talleres|PERFECTION OF PRODUCT PACKING MACHINES IN MESH BAGS WITH HANDLE.|

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AU2003280015A1|2002-10-24|2004-05-13|Lionel Nicholas Mantzivis|Bag with handle|

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GB2405373B|2003-08-14|2005-08-31|Dempson Packaging Ltd|Method and apparatus for manufacturing handles for bags|

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ITBS20050072A1|2005-06-14|2006-12-15|D & C S R L|COMPOSITE MATERIAL, IN PARTICULAR TO CARRY OUT SHOPPING BAGS, BAGS, BAGS, CONTAINERS, BOXES AND SIMILAR FOR THE PACKAGING OR TRANSPORT OF ITEMS|

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US8764618B2|2011-01-27|2014-07-01|Duro Bag Manufacturing Company|Clampless bar mechanism for a paper bag bottoming mechanism|

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US9108380B2|2011-08-19|2015-08-18|The Glad Products Company|Trash bag with odor control and method of making same|

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NL2008045C2|2011-12-27|2013-07-01|Hendrik Jan Berg|Bag with pre-applied strap handle.|

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US9522510B2|2012-04-09|2016-12-20|Tension International, Inc.|System and method for controlling web output in an envelope processing apparatus|

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FR2992254B1|2012-06-20|2014-08-15|Holweg Sas|MACHINE FOR MANUFACTURING BAGS WITH FLAT BOTTOM.|

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US10035319B2|2014-12-19|2018-07-31|Cmd Corporation|Method and apparatus for sealing a web|FR3030352B1|2014-12-19|2018-09-07|Holweg Group|METHOD AND MACHINE FOR MANUFACTURING BAGS|

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FR3039453B1|2015-07-31|2017-08-11|Holweg Group|MACHINE AND METHOD FOR MANUFACTURING BAGS|

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EP3412264B1|2017-06-07|2020-01-29|Ontex BVBA|System and method for tearing off and rolling up a strip of absorbent fiber sheet|

法律状态:
2016-09-16| PLFP| Fee payment|Year of fee payment: 2 |

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2017-04-21| PLSC| Publication of the preliminary search report|Effective date: 20170421 |

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2017-09-27| PLFP| Fee payment|Year of fee payment: 3 |

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2018-10-31| PLFP| Fee payment|Year of fee payment: 4 |

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2019-10-29| PLFP| Fee payment|Year of fee payment: 5 |

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2020-10-30| PLFP| Fee payment|Year of fee payment: 6 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1559858A|FR3042436B1|2015-10-16|2015-10-16|METHOD AND MACHINE FOR MANUFACTURING A BAG COMPRISING HANDLES|FR1559858A| FR3042436B1|2015-10-16|2015-10-16|METHOD AND MACHINE FOR MANUFACTURING A BAG COMPRISING HANDLES|

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US15/768,232| US10737455B2|2015-10-16|2016-10-11|Method and machine for manufacturing a bag comprising handle|

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PCT/FR2016/052623| WO2017064409A1|2015-10-16|2016-10-11|Method and machine for manufacturing a bag comprising handles|

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EP16794696.1A| EP3362276B1|2015-10-16|2016-10-11|Method and machine for manufacturing a bag comprising handles|