Methods for applying sliders to reclosable plastic bags

Description

FIELD OF THE INVENTION

This invention generally relates to reclosable plastic bags, and more particularly, to methods of applying sliders to a fastener-carrying plastic web and methods of making reclosable plastic bags by using a pre-applied slider-operated fastener.

BACKGROUND OF THE INVENTION

In one method of making slider-operated reclosable bags, a single bag is made per film index. For example, by drawing five inches of film per index from a fastener-carrying web of film, each unit operation performs a task at locations spaced at five inch increments and a five inch wide bag can be made. In this method, a single preseal forming station, notch forming station, slider inserter station, and end termination forming station are located at five inch increments.

One way to increase the number of bags which can be produced per index is to use a double index and dual unit operations. In other words, rather than drawing five inches of film per index from the fastener-carrying web to make a five inch wide bag, ten inches of film are drawn per index from the fastener-carrying web. By using dual unit operations which are spaced at five inch increments and a double index draw, two five inch wide bags can be made per index rather than a single five inch wide bag per index.

A problem in using a double index draw and dual unit operations to make slider-operated reclosable bags involves interference from the trailing slider. In a typical operation, a guiding mechanism is used to guide the track and insert the slider onto the track as it indexes forward. Where a dual slider inserter step is used in conjunction with a double index, two sliders are inserted onto the track. However, as the film indexes forward, the trailing slider interferes with the guiding mechanism, making this method impracticable.

Hence, there exists a need for methods of applying sliders to fasteners for reclosable bags and methods of making slider-operated reclosable bags using a double index draw and dual unit operations that overcome the problems associated with interference from the trailing slider.

SUMMARY OF THE INVENTION

To overcome the aforementioned shortcomings, the present invention provides methods of making slider-operated reclosable bags using at least a double index and dual unit operations which eliminate interference from the trailing slider. The present invention also provides methods of applying one or more sliders to a fastener-carrying web of plastic film using at least a double index and dual unit operations which eliminate interference from the trailing slider.

According to one embodiment, the invention relates to a method of applying at least two sliders onto a fastener. A fastener is provided which includes first and second opposing tracks having respective first and second interlocking profiles and respective first and second fins which extend from the respective first and second profiles. At least first and second notches are formed into the tracks and fins. The first notch is located downstream from the second notch. The first and second notches assist in defining a first segment and a second segment. The first segment is located upstream from and adjacent to the second notch, and the second segment is located between the first and second notches. First and second sliders are fed into the first notch, where the first slider is located upstream from the second slider. The first slider is applied onto the second segment of the tracks as the fastener indexes forward, the tracks are closed, and the second slider is applied onto the second segment of the tracks as the fastener indexes forward. As the fastener indexes forward, the second slider is released to travel with and remain on the second segment. As the fastener indexes forward, the first slider is passed through the second notch, is applied onto the first segment, and is released to travel with and remain on the first segment of the tracks. The fastener may be applied to a web of plastic film.

The invention further relates to a method of making reclosable plastic bags. A web of plastic film is provided. A fastener is provided which includes first and second opposing tracks having respective first and second interlocking profiles and respective first and second fins which extend from the respective first and second profiles. The first and second fins are sealed to each other. At least first and second notches are formed into the tracks and fins. The first notch is located downstream from the second notch. The first and second notches assist in defining a first segment and a second segment. The first segment is located upstream from and adjacent to the second notch, and the second segment is located between the first and second notches. First and second sliders are fed into the first notch, where the first slider is located upstream from the second slider. The first slider is applied onto the second segment of the tracks as the fastener indexes forward, the tracks are closed, and the second slider is applied onto the second segment of the tracks as the fastener indexes forward. As the fastener indexes forward, the second slider is released to travel with and remain on the second segment. As the fastener indexes forward, the first slider is passed through the second notch and is applied onto the first segment of the tracks. The fastener is conveyed to an end stop applicator where at least a first end stop is formed on the first segment and at least a second end stop is formed on the second segment. The fastener is applied to a web of plastic film, and the web is formed into a plurality of interconnected plastic bags.

According to another embodiment, the invention relates to a method of applying at least two sliders onto a fastener. A fastener is provided which includes first and second opposing tracks having respective first and second interlocking profiles and respective first and second fins which extend from the respective first and second profiles. At least first and second openings are formed into the tracks and fins. The first opening is located downstream from the second opening. The first and second openings assist in defining a first segment and a second segment. The first segment is located upstream from and adjacent to the second opening, and the second segment is located between the first and second openings. The second segment is moved into a different plane from a plane of the first segment. At generally the same, the first slider is fed into the first opening and the second slider is fed into the second opening. As the fastener indexes forward and at generally the same time, the first slider is applied onto the second segment of the tracks and the second slider is applied onto the first segment of the tracks. The fastener may be applied to a web of plastic film.

The invention further relates to a method of making reclosable plastic bags. A web of plastic film is provided. A fastener is provided which includes first and second opposing tracks having respective first and second interlocking profiles and respective first and second fins which extend from the respective first and second profiles. The first and second fins are sealed to each other. At least first and second openings are formed into the tracks and fins. The first opening is located downstream from the second opening. The first and second openings assist in defining a first segment and a second segment. The first segment is located upstream from and adjacent to the second opening, and the second segment is located between the first and second openings. The second segment is moved into a different plane from a plane of the first segment. At generally the same, the first slider is fed into the first opening and the second slider is fed into the second opening. As the fastener indexes forward and at generally the same time, the first slider is applied onto the second segment of the tracks and the second slider is applied onto the first segment of the tracks. The second segment is moved back into the plane of the first segment. The fastener is conveyed to an end stop applicator where at least a first end stop is formed on the first segment and at least a second end stop is formed on the second segment. The fastener is applied to a web of plastic film, and the web is formed into a plurality of interconnected plastic bags.

According to a still further embodiment, the invention relates to a method of applying at least two sliders onto a fastener. A fastener is provided which includes first and second opposing tracks having respective first and second interlocking profiles and respective first and second fins which extend from the respective first and second profiles. At least first and second notches are formed into the tracks and fins. The first notch is located downstream from the second notch. The first and second notches assist in defining a first segment and a second segment. The first segment is located upstream from and adjacent to the second notch, and the second segment is located between the first and second notches. At generally the same time, the first slider is fed into the first notch and the second slider is fed into the second notch. As the fastener indexes forward and at generally the same time, the first slider is applied onto the second segment and the second slider is applied onto the first segment.

The above summary of the present invention is not intended to represent each embodiment, or every aspect, of the present invention. This is the purpose of the figures and the detailed description which follow.

BRIEF DESCRIPTION OF THE DRAWINGS

Other objects and advantages of the invention will become apparent upon reading the following detailed description and upon reference to the drawings in which:

FIG. 1 depicts a method of making a slider-operated fastener.

FIGS. 2
a–2g depict an enlarged view of the slider inserter operation shown in FIG. 1

FIG. 3 depicts a method of making a slider-operated fastener according to an alternative embodiment of the invention.

FIGS. 4
a–4e depict an enlarged view of the slider inserter operation shown in FIG. 3.

FIG. 5 depicts a method of making a slider-operated fastener according to an additional alternative embodiment of the invention.

FIGS. 6
a–6d depict an enlarged view of the slider inserter operation shown in FIG. 5.

FIG. 7 depicts a method for attaching a slider-operated fastener to a flat web of plastic film and then conveying the web to a horizontal FFS machine.

While the invention is susceptible to various modifications and alternative forms, specific embodiments have been shown by way of example in the drawings and will be described in detail herein. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed. Rather, the invention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

DESCRIPTION OF EMBODIMENTS OF THE INVENTION

Turning to the drawings, FIGS. 1 and 2a–2g depict a method of making a slider-operated fastener for use in reclosable plastic bags. In the method, there is provided a continuous fastener 10 including first and second opposing tracks 12, 14. The tracks 12, 14 include respective first and second interlocking profiles 16, 18 and respective first and second fins 20, 22 extending downward from the respective profiles 16, 18. The profile 16 preferably includes a rib, and the profile 18 preferably includes a groove for receiving the rib. Further details concerning the construction of the profiles 16, 18 may be obtained from U.S. Pat. No. 5,007,143 to Herrington, which is incorporated herein by reference in its entirety. The fastener 10 may be unwound from a spool or the like.

The process depicted in FIG. 1 begins by performing a double index draw of fastener 10. For example, for a five inch bag-width, the fastener 10 is drawn ten inches. A double index as used herein is defined as approximately two bag-width distances. The fastener 10 advances two bag-width distances forward by rollers and the like (not shown) to a preseal station. The preseal station includes a first pair of reciprocating seal bars 24a, 26a and a second pair of reciprocating seal bars 24b, 26b. Either each seal bar 24a, 24b, 26a, 26b moves back and forth between open and closed positions or one of the seal bars in the pair is stationary while the other seal bar moves back and forth. At least the seal bars 24a, 24b are heated. The other seal bars 26a, 26b may be heated as well or may simply serve as a backing against which the heated seal bars 24a, 24b apply pressure when the first pair of reciprocating seal bars 24a, 26a and the second pair of reciprocating seal bars 24b, 26b, respectively, are brought together. The temperature, pressure, and dwell time of the first pair of reciprocating seal bars 24a, 26a and the second pair of reciprocating seal bars 24b, 26b are properly adjusted to allow the seal bars to impart generally U-shaped preseals 28, 29.

While the fastener 10 is temporarily stopped at the preseal station, the fins 20, 22 are sealed to each other along the generally U-shaped preseals 28, 29. Preseal 28 includes a pair of opposing sides 28a, 28b and a bottom 28c bridging the opposing sides 28a, 28b while preseal 29 includes a pair of opposing sides 29a, 29b and a bottom 29c bridging the opposing sides 29a, 29b. The opposing sides 28a, 28b and 29a, 29b are generally located along an upper portion of the fins 20, 22 and extend downward from the interlocking profiles 16, 18. The bottoms 28c, 29c are generally located along a lower portion of the fins 20, 22. The seal bars 24a, 24b have generally U-shaped projections 30a, 30b corresponding to the shape of the preseals 28, 29, respectively. Although the preseals 28, 29 are illustrated as being generally U-shaped, the area between the opposing sides 28a, 28b and 29a, 29b of the preseals 28, 29, respectively, may be sealed as well so that the preseals 28, 29 appear like solid rectangles. The preseals 28, 29 extend to the bottom of the profiles 16, 18.

After forming the preseals 28, 29, the fastener 10 is double indexed (i.e., conveyed approximately two bag-width distances) forward to a notching station. The notching station includes a first pair of reciprocating cutters 32a, 34a and a second pair of reciprocating cutters 32b, 34b. Either each cutter 32a, 32b, 34a, 34b moves back and forth between open and closed positions or one of the cutters in the pair is stationary while the other cutter moves back and forth. Cutters 32a, 32b form rectangular projections while cutters 34a, 34b form rectangular holes for receiving the respective projection. The fastener 10 is temporarily stopped at the notching station so that the preseals 28, 29 become aligned between the separated pairs of reciprocating cutters 32a, 34a and 32b, 34b, respectively. While the fastener 10 is stopped, the pairs of reciprocating cutters 32a, 34a and 32b, 34b are brought together such that the rectangular projections of the cutters 32a, 32b punch rectangular sections 36a, 36b through the rectangular holes of the cutters 34a, 34b, thereby leaving generally U-shaped notches 38a, 38b in the fastener 10. Prior to being punched out, the rectangular sections 36a, 36b are disposed between the opposing sides 28a, 28b and 29a, 29b of the preseals 28, 29 and above the bottoms 28c, 29c of the preseals 28, 29, respectively. Therefore, the preseals 28, 29 generally encompass the notches 38a, 38b and define a periphery thereof such that the preseals 28, 29 provide a leak-resistant barrier to entry into an interior of the fastener 10 between the fins 20, 22 via the notches 38a, 38b. The leak-resistant barrier effectively minimizes leaks in the reclosable plastic bags ultimately formed by the manufacturing process.

The notches 38a, 38b which are formed at the notching station assist in defining or forming the first and second segments 54a, 54b, respectively, on the tracks 12, 14 of the fastener 10. The second segment 54b of the fastener 10 is located downstream from and adjacent to notch 38b. The first segment 54a is located upstream from the second segment 54b and is located between notch 38a and notch 38b. Notch 38b is sufficiently wide to hold at least two sliders. Although the notching station has been described as being equipped with reciprocating cutters, other cutting devices (not shown) such as rotary cutters may also be used in embodiments of the invention.

After forming the notches 38a, 38b, the fastener 10 is double indexed forward to a slider inserter station. As shown in FIGS. 1, 2a–2b and 2e–2g, the slider inserter station includes a single slider inserter unit 56 which includes at least two adjacent rows of sliders. During the double index of the fastener 10, notch 38b becomes aligned with the slider inserter unit 56 and is labeled notch 38d. The slider inserter unit 56 remains stationary as the fastener 10 indexes forward. The slider inserter unit 56 may be, for example, a gravity feeder, a power feeder, or a mechanically driven feeder. Examples of mechanically driven feeders include, but are not limited to, belt feeders, drive wheels, surface drives, and walking beams.

As shown in FIG. 1, the slider inserter station also includes a fastener guide 100 which is located on the third segment 54c of the fastener 10 and upstream from the slider inserter unit 56. The fastener guide 100 assists in positioning the fastener 10 for threading a first slider 40a and a second slider 40b onto the third segment 54c of the tracks 12, 14 of the fastener 10. The fastener guide 100 remains positioned upstream from the slider inserter unit 56 during the indexing process. The slider inserter station further includes a first pair of grippers 41a, 43a and a second pair of grippers 41b, 43b which assist in holding and positioning the first and second sliders 40a, 40b, respectively, as the sliders move along the tracks 12, 14. The first and second pair of grippers 41a, 43a and 41b, 43b have tapered edges 103, 104 and 101, 102, respectively, as shown in FIGS. 2c–2d. Both the fastener guide 100 and the first and second pair of grippers 41a, 43a and 41b, 43b are in a fixed position and remain stationary as the fastener 10 indexes forward. As discussed below in more detail, as the fastener advances, the tapered edges 103, 104 and 101, 102 of the first and second pair of grippers 41a, 43a and 41b, 43b, respectively, close the tracks 12, 14 after being opened when the first and second sliders 40a, 40b are applied onto the fastener 10. At the slider inserter station, the first slider 40a is applied onto the second segment 54b of the tracks 12, 14 and the second slider 40b is applied onto the third segment 54c of the tracks 12, 14 through the process detailed below and shown in FIGS. 1 and 2a–2g. As shown in FIGS. 1 and 2a, the slider inserter unit 56 feeds the first and second sliders 40a, 40b into the notch 38d while the fastener 10 is temporarily stopped (i.e., at dwell). The first pair of grippers 41a, 43a and the second pair of grippers 41b, 43b are positioned to allow the first and second sliders 40a, 40b to be fed unobstructed into the notch 38d. The next two sliders 40c, 40d that are resting in the slider inserter unit 56 are retained in the slider inserter unit 56 until the next double index of the fastener 10. A stop (not shown) such as an escapement or mechanical latch on the slider inserter unit 56 prevents or inhibits sliders 40c, 40d from feeding into notch 38d as the fastener 10 indexes forward during the next double index draw.

As shown in FIGS. 1 and 2a, the first pair of grippers 41a, 43a and the second pair of grippers 41b, 43b are closed around the first and second sliders 40a, 40b, respectively, as the slider inserter unit 56 feeds the first and second sliders 40a, 40b into the notch 38d. Alternatively, the first pair of grippers 41a, 43a and the second pair of grippers 41b, 43b may be open when the slider inserter unit 56 feeds the first and second sliders 40a, 40b into the notch 38d. In this alternative approach, the first pair of grippers 41a, 43a and the second pair of grippers 41b, 43b may subsequently be activated to come in from the side and close around the first and second sliders 40a, 40b, respectively, while the fastener 10 is at dwell. Once the first and second sliders 40a, 40b are in position within the notch 38d, the fastener 10 begins its double index forward as shown in FIGS. 2a–2b. Once the fastener 10 begins its double index forward, the fastener 10 does not stop moving until a full double index has been completed. At the beginning of the double index as shown in FIG. 2a, notch 38d in the fastener 10 is positioned directly below the slider inserter unit 56. As the double index proceeds, notch 38c in the fastener 10 which is located upstream from notch 38d becomes positioned below the slider inserter unit 56. At the end of a full double index, the successive notch in the fastener (i.e., notch 38b) which is located upstream from notches 38c and 38d becomes positioned below the slider inserter unit 56 as shown in FIG. 2g.

The process of applying the first and second sliders 40a, 40b onto the tracks 12, 14 during the double index of the fastener 10 begins as shown in FIGS. 2a–2b by applying the first slider 40a onto the third segment 54c of the tracks 12, 14 followed by applying the second slider 40b onto the third segment 54c of the tracks 12, 14. As index of the fastener 10 is initiated, the first and second pair of grippers 41a, 43a and 41b, 43b remain closed around the first and second sliders 40a, 40b, respectively, to assist in guiding the first and second sliders 40a, 40b onto the tracks 12, 14. Specifically, the first pair of grippers 41a, 43a assist in applying or threading the first slider 40a onto the third segment 54c of the tracks 12, 14. As shown in FIGS. 2b–2c, once the first slider 40a has been applied onto the third segment 54c, the tapered edges 103, 104 on the first pair of grippers 41a, 43a close the tracks 12, 14 so that the second slider 40b can then be applied onto the third segment 54c during index of the fastener 10.

Also as shown in FIGS. 2a–2b, the second pair of grippers 41b, 43b assist in applying or threading the second slider 40b onto the third segment 54c of the tracks 12, 14. As shown in FIGS. 2b–2c, once the second slider 40b has been applied onto the third segment 54c, the tapered edges 101, 102 on the second pair of grippers 41b, 43b close the tracks 12, 14. Upon applying the first and second sliders 40a, 40b onto the third segment 54c of the tracks 12, 14, the first and second pair of grippers 41a, 43a and 41b, 43b assist in guiding the first and second sliders 40a, 40b, respectively, along the tracks 12, 14. Using the tapered edges 103, 104 and 101, 102 of the first and second pair of grippers 41a, 43a and 41b, 43b, respectively, to close the tracks 12, 14 also makes the subsequent step of forming end stops on the bag ends (described below) easier. Although the step of closing the tracks is shown in FIGS. 2a–2c using a first and second pair of grippers 41a, 43a and 41b, 43b having tapered edges 103, 104 and 101, 102, the step of closing the tracks may also be accomplished by alternative methods including with rollers, pins such as dowell pins, or fingers such as pneumatic, supply, or spring-assisted fingers. For example, FIG. 2d shows the first and second pair of grippers 41a′, 43a′, and 41b′, 43b′ equipped with a first and second pair of roller pins 105, 106 and 107, 108, respectively, for use in closing the tracks upon applying the first and second sliders 40a, 40b onto the third segment 54c of the tracks 12, 14.

Turning to FIG. 2e, the fastener 10 continues its double index. Once the fastener 10 has been indexed a distance x from notch 38d, the second pair of grippers 41b, 43b which are closed around the second slider 40b open. By opening the second pair of grippers 41b, 43b, the second slider 40b becomes released to travel with the third segment 54c of the tracks 12, 14 during index of the fastener 10. As the fastener 10 continues to index forward, the first slider 40a passes through the notch 38c and becomes applied or threaded onto the second segment 54b of the tracks 12, 14. The first pair of grippers 41a, 43a remains closed around the first slider 40a to assist in guiding the first slider 40a through the notch 38c and onto the second segment 54b of the tracks 12, 14. The second pair of grippers 41b, 43b remains open so as to avoid interfering with the moving of the first slider 40a through the notch 38c and the applying of the first slider 40a onto the second segment 54b of the tracks 12, 14. As shown in FIG. 2f, the fastener 10 continues its double index. Once the fastener 10 has been indexed a distance y from notch 38c, the first pair of grippers 41a, 43a which are closed around the first slider 40a open. By opening the first pair of grippers 41a, 43a, the first slider 40a becomes released to travel with the second segment 54b of the tracks 12, 14 during index of the fastener 10. FIG. 2g shows the first slider 40a applied on the second segment 54b and the second slider 40b applied on the third segment 54c without the subsequent end stop applicator station components which are described below. FIG. 2g also shows the position of the successive notch in the fastener 10, notch 38b, below the slider inserter unit 56 upon completion of a full double index. FIG. 2g further shows the slider inserter unit 56 holding the next two sliders 40c, 40d at a distance from notch 38b upon completion of a complete double index.

Distance x and distance y are set using conventional techniques for indexing fixed distances of flexible material such as, but not limited to, using the motor position on the index, using a set time delay, or using an encoder on the surface of the tracks 12, 14. Using motor position on the index involves, for example, using a servo motor. With every revolution of a servo motor, a fixed distance of track is fed. Each revolution of the servo motor equals a certain number of pulses, and a certain numbers of pulses equals a certain distance of track. For example, if one revolution of the servo motor equals 30,000 pulses and 30,000 pulses equals 10 inches of track, the grippers will open every 15,000 pulses where the value of x is set at 5 inches. With time delay, a distance of track can be equated to a time measurement. For example, if one inch of track is equated to 1/10 sec, the grippers will open at 4/10 sec when the track moves a distance x of 4 inches. With an encoder, a wheel may be fixed to or mounted on the track to feed a certain portion of the track during each revolution of the servo motor. For example, if one revolution of the servo motor equals 30,000 pulses and 30,000 pulses equals 10 inches of track, the grippers will open every 15,000 pulses where the value of x is set at 5 inches. Through the process detailed above and as shown in FIGS. 2a–2g, the first slider 40a is applied onto the second segment 54b of the tracks 12, 14 and the second slider 40b is applied onto the third segment 54c of the tracks 12, 14. In addition, the process detailed above allows the successive notch, notch 38b, to become positioned below the slider inserter unit 56 such that the next two sliders 40c, 40d which are resting in the slider inserter unit 56 are ready to be fed into notch 38b when the fastener 10 is temporarily at dwell.

After applying the first and second sliders 40a, 40b onto the second and third segments 54b, 54c of the fastener 10, respectively, and completing the double index of the fastener 10, notches 38c, 38d become positioned at an end stop applicator station. In the embodiment shown in FIG. 1, notch 38c becomes positioned between a first pair of chilled, reciprocating molds 47a, 49a and is labeled notch 38e. The second segment 54b which contains slider 40a (labeled 40e) becomes positioned upstream from the first pair of chilled, reciprocating molds 47a, 49a and notch 38e and is labeled 54d. Also as shown in FIG. 1, notch 38d becomes positioned between a second pair of chilled, reciprocating molds 47b, 49b and is labeled notch 38f The third segment 54c which contains slider 40b (labeled 40f) becomes positioned upstream from the second pair of chilled, reciprocating molds 47b, 49b and notch 38f and is labeled 54e.

At the end stop application station, the end stop applicator applies end stops 42a, 44a and 42b, 44b to the respective fastener ends 46a, 48a and 46b, 48b on opposite sides of the respective notches 38e, 38f In the plastic bags ultimately formed by the manufacturing process, end stop 42a is located at the fastener end 46a of one bag, end stop 44a is located at the fastener end 48a of the adjacent bag, while end stop 42b is located at the fastener end 46b of one bag and end stop 44b is located at the fastener end 48b of the adjacent bag. The end stops perform three primary functions: (1) preventing or inhibiting the sliders from going past the ends of the fasteners, (2) holding the profiles together to resist stresses applied to the profiles during normal use of the plastic bag, and (3) minimizing leakage from inside the plastic bag out through the fastener ends.

The end stop applicator station embodiment shown in FIG. 1 includes a first pair of chilled, reciprocating molds 47a, 49a and a second pair of chilled, reciprocating molds 47b, 49b. Either each mold 47a, 47b, 49a, 49b moves back and forth between open and closed positions, or one of the molds in the pair is stationary while the other mold moves back and forth. While the fastener 10 is temporarily stopped, the first and second pair of molds 47a, 49a and 47b, 49b close around the respective fastener ends 46a, 48a and 46b, 48b. A predetermined amount of flowable plastic material is then forced around and between the profiles 16, 18 at the respective fastener ends 46a, 48a and 46b, 48b by a conventional back pressure device (not shown) coupled to a supply tube. The first and second pair of molds 47a, 49a and 47b, 49b form channels for receiving the plastic material and guiding the plastic material to the respective fastener ends 46a, 48a and 46b, 48b. Further details concerning the injection-molded end stops 42a, 42b, 44a, 44b and the method of making the same may be obtained from U.S. patent application Ser. No. 09/636,244 entitled “Injection-Molded End Stop for a Slider-Operated Fastener” which is herein incorporated by reference.

Instead of applying injection-molded end stops, other types of end stops may be applied to the fastener ends 46a, 46b, 48a, 48b including those disclosed in U.S. Pat. Nos. 5,924,173, 5,833,791, 5,482,375, 5,448,807, 5,442,837, 5,405,478, 5,161,286, 5,131,121, 5,088,971, and 5,067,208. In U.S. Pat. No. 5,067,208, for example, each end stop is in the form of a fairly rigid strap/clip that wraps over the top of the fastener. One end of the strap is provided with a rivet-like member that penetrates through the fastener fins and into a cooperating opening at the other end of the strap.

While the fastener 10 is temporarily stopped during the dwell phase of the cycle in the method depicted in FIGS. 1 and 2a–2g, the various stations perform their respective functions on different parts of the continuous fastener 10 spaced apart at approximately at a double index (i.e., approximately two bag-width distances apart) either simultaneously or at generally the same time. Therefore, as (1) the preseal station forms new preseals 28, 29; (2) the notching station forms new notches 38a, 38b within the previously formed preseals 28, 29; (3) the slider insertion station applies sliders 40a, 40b into notch 38d; and (4) the end stop applicator applies end stops 42a, 44a and 42b, 44b proximate the previously applied sliders at approximately the same time. Dwell is accomplished using intermittent index, web shuttle, or by the relative motion of equipment to the fastener.

After each of the stations has completed its respective function on the temporarily stopped fastener 10, movement of the fastener 10 resumes. The fastener 10 moves approximately two bag-width distances forward so that the next station can perform its respective function. The preseals 28, 29 are advantageous because they allow the fastener 10 to be controlled during such downstream operations as notch formation, slider application, and end stop application and when the fastener 10 is tensioned by various rollers in the bag-making machine. The preseals 28, 29 keep the interlocking profiles 16, 18 together and prevent or inhibit them from moving longitudinally relative to each other.

Finished bags may be produced by attaching the slider-operated fastener to a flat web of plastic film and then conveying the web to a vertical or a horizontal form-fill-seal (FFS) machine. One example of a suitable method for attaching the slider-operated fastener to a flat web of plastic film and then conveying the web to a horizontal FFS machine is shown in FIG. 7. As used herein, the term form-fill-seal (FFS) means producing a bag or pouch from a flexible packaging material, inserting a measured amount of product, and closing the bag. The sliders may be mounted to the fastener either before or after the fastener is attached to a flat web of plastic film but prior to conveying the web to the FFS machine. Once the slider-operated fasteners have been attached to the flat web of plastic film, the web is conveyed to a vertical or horizontal FFS machine where the flat web is formed into bags, and the bags are successively filled and sealed.

FIG. 7 depicts one method for attaching the slider-operated fastener 10 to a flat web 50 of plastic film and then conveying the web 50 to a horizontal FFS machine. The fin 20 of the fastener 10 is “tacked” or lightly sealed to a web 50 of plastic film being unwound from a film roll 52. To tack the fastener fin 20 to the moving web 50, there is provided a pair of reciprocating seal bars 55, 57. Either both of the seal bars 55, 57 move back and forth between open and closed positions, or one of the seal bars is stationary while the other seal bar moves back and forth. Both the fastener 10 and the web 50 are temporarily stopped while the seal bars are brought together to tack the fastener 10 to the web 50. Of course, if the fastener 10 produced by the method in FIG. 1 is conveyed directly to the web 50, as opposed to an intermediate storage facility, the stoppage of the fastener 10 and web 50 for tacking can be made to coincide with the stoppage of the fastener 10 in FIG. 1 for forming the preseals and notches, applying the sliders, and forming the end stops. In an alternative embodiment, the seal bars 55, 57 are replaced with a continuous heat sealing mechanism such as a static hot air blower that blows hot air onto the moving fastener. The tacked fastener 10 is carried with the web 50 without shifting relative thereto.

After tacking the fastener 10 to the web 50, the fastener-carrying web 50 is conveyed to the horizontal FFS machine. At a folding station of the FFS machine, the web 50 is folded in half with the fastener 10 inside the web 50 and proximate the fold 51. To fold the web 50, the web 50 is conveyed over a horizontal roller 58, under a triangular folding board 60, and then between a pair of closely spaced vertical rollers 62. The folded web 50 includes a pair of overlapping panels 64, 66 joined along the fold 51.

After folding the web 50, the fastener fins 20, 22 are permanently sealed to the respective web panels 66, 64 by respective seal bars 68, 70. The seal bars 68, 70 are sufficiently wide that they generate the fin seals across the entire width of a bag. Either both of the seal bars 68, 70 move back and forth between open and closed positions, or one of the seal bars is stationary while the other seal bar moves back and forth. The fastener-carrying web 50 is temporarily stopped while the seal bars 68, 70 are brought together to seal the fastener 10 to the web 50. Both of the seal bars 68, 70 are preferably heated. The temperature, pressure, and dwell time of the seal bars 68, 70 are properly adjusted to allow the seal bars 68, 70 to generate the permanent fin seals. In an alternative embodiment, the seal bars 68, 70 are replaced with a continuous heat sealing mechanism such as a pair of hot air blowers that blow heated air onto the respective fastener fins.

After sealing the fins 20, 22 to the respective web panels 66, 64, the web panels 64, 66 are sealed to each other along a side seal 72 by a pair of reciprocating seal bars 74, 76. The side seal 72 is transverse to a direction of movement of the folded web 50 and is aligned with a center of notch 38a (and preseal 28) or notch 38b (and preseal 29). Also, the side seal 72 extends from the folded bottom 51 to an open top 53 of the folded web 50. Either both of the seal bars 74, 76 move back and forth between open and closed positions, or one of the seal bars is stationary while the other seal bar moves back and forth. The folded web 50 is temporarily stopped while the seal bars 74, 76 are brought together to seal the web panels 64, 66 to each other. At least one of the seal bars is heated. The other bar may be heated as well or may simply serve as a backing against which the heated seal bar applies pressure when the seal bars 74, 76 are brought together. The temperature, pressure, and dwell time of the seal bars 74, 76 are properly adjusted to allow the seal bars 74, 76 to generate the side seal 72. After generating the side seal 72, the folded web 50 is conveyed to a cutter 78 for separating the folded web 50 into individual plastic bags. While the folded web 50 is temporarily stopped, the cutter 78 cuts the folded web 50 along a center of the side seal 72 to produce the individual plastic bag 80. The plastic bag 80 is filled with a product through its open top 53 at a filling station 82. Finally, the open top 53 is sealed by a heat sealing mechanism 84. The end result is a filled and sealed bag 80 ready for shipment to a customer such as a grocery store or convenience store.

While the web 50 is temporarily stopped in the method depicted in FIG. 7, the various stations perform their respective functions on different parts of the continuous web 50 simultaneously or at generally the same time. For example, as the fastener 10 is tacked to the web 50 by the seal bars 55, 57, (1) the fastener fins 20, 22 of a previously tacked section of the fastener 10 can be permanently sealed to the respective web panels 64, 66 by respective seal bars 68, 70, (2) the web panels 64, 66 carrying previously sealed fastener fin sections can be sealed to each other along a side seal 72 by the seal bars 74, 76, and (3) the folded web 50 can be cut along a previously generated side seal. After each of the stations has completed its respective function on the stopped web 50, movement of the web 50 is resumed.

While the process described above is directed to a process for attaching the slider-operated fastener 10 to a flat web 50 of plastic film and then conveying the web 50 to a horizontal FFS machine, it is also contemplated that a vertical FFS machine may be used. Further details concerning the method of making the slider-operated fastener 10, attaching the slider-operated fastener 10 to the web 50 of plastic film, and making finished bags may be obtained from U.S. patent application Ser. No. 09/637,038 entitled “Method And Apparatus For Making Reclosable Plastic Bags Using A Pre-Applied Slider-Operated Fastener” which is herein incorporated by reference.

An alternative method of making a slider-operated fastener for use in reclosable plastic bags is shown in FIGS. 3 and 4a–4e. In this alternative method, a double index is used to apply at least two sliders to a fastener by moving or bending portions of the fastener into different planes to apply the sliders. In this method, there is provided a continuous fastener 110 as described above with respect to FIG. 1. The fastener 110 includes first and second opposing tracks 112, 114 which include respective first and second interlocking profiles 116, 118 and respective first and second fins 120, 122 extending downward from the respective profiles 116, 118 as described above with respect to FIG. 1.

The process depicted in FIG. 3 begins by performing a double index draw of fastener 110. The fastener 110 advances two bag-width distances forward by rollers and the like (not shown) to a preseal station similar to the one described above with respect to FIG. 1. The preseal station includes a first pair of reciprocating seal bars 124a, 126a and a second pair of reciprocating seal bars 124b, 126b operating as described above with respect to FIG. 1. As described above with respect to FIG. 1, while the fastener 110 is temporarily stopped at the preseal station, the fins 120, 122 are sealed to each other along the generally U-shaped preseals 128, 129. The preseals 128, 129 which are formed are similar to those described above with respect to FIG. 1. Preseal 128 includes a pair of opposing sides 128a, 128b and a bottom 128c bridging the opposing sides 128a, 128b while preseal 129 includes a pair of opposing sides 129a, 129b and a bottom 129c bridging the opposing sides 129a, 129b. The seal bars 124a, 124b have generally U-shaped projections 130a, 130b which correspond to the shape of the preseals 128, 129, respectively. In addition, as described above with respect to FIG. 1, although the preseals 128, 129 are shown as being generally U-shaped, the area between the opposing sides 128a, 128b and 129a, 129b of the preseals 128, 129, respectively, may also be sealed so that the preseals 128, 129 appear like solid rectangles. The preseals 128, 129 extend to the bottom of the profiles 116, 118.

After forming the preseals 128, 129, the fastener 110 is double indexed forward as shown in FIG. 3 to a notching station similar to that described above with respect to FIG. 1. The notching station includes a first pair of reciprocating cutters 132a, 134a and a second pair of reciprocating cutters 132b, 134b. Cutters 132a, 132b form rectangular projections while cutters 134a, 134b form rectangular holes for receiving the respective projection. As described above with respect to FIG. 1, the fastener 110 is temporarily stopped at the notching station so that preseals 128, 129 become aligned between the separated pairs of reciprocating cutters 132a, 134a and 132b, 134b, respectively. While the fastener 110 is temporarily stopped, the cutters 132a, 134a and 132b, 134b are brought together such that the rectangular projections of the cutters 132a, 132b punch rectangular sections 136a, 136b through the rectangular holes of the respective cutters 134a, 134b leaving generally U-shaped notches 138a, 138b in the fastener 110. Prior to being punched out, the rectangular sections 136a, 136b are disposed between the opposing sides 128a, 128b and 129a, 129b of the preseals 128, 129 and above the bottoms 128c, 129c of the preseals 128, 129. As discussed above, other cutting devices (not shown) such as rotary cutters may be used in embodiments of the invention.

As discussed above, the notches 138a, 138b assist in defining or forming the first and second segments 154a, 154b, respectively, on the tracks 112, 114 of the fastener 110. The second segment 154b of the fastener 110 is located downstream from and adjacent to notch 138b. The first segment 154a is located upstream from the second segment 154b and is located between notch 138a and notch 138b. The notches 138a, 138b are sufficiently wide to hold at least one slider.

Instead of forming generally U-shaped notches 138a, 138b in the fastener 110 as described above, a cut or slit may be made in the fastener 110. Further details concerning the construction of the formation of a cut or slit in the fastener 110 may be obtained from U.S. Pat. No. 5,431,760 to Donovan, which is incorporated herein by reference in its entirety.

After forming the notches 138a, 138b, the fastener 110 is double indexed forward to a slider inserter station. As shown in FIGS. 3 and 4a–4e, the slider inserter station includes first and second slider inserter units 155a, 155b which are located at two separate application sites. During the double index of the fastener 110, notch 138a becomes aligned with the first slider inserter unit 155a and is labeled notch 138c and notch 138b becomes aligned with the second slider inserter unit 155b and is labeled notch 138d. Each slider inserter unit 155a, 155b includes at least one row of sliders. The slider inserter units 155a, 155b remain stationary as the fastener 110 indexes forward. The slider insert units 155a, 155b may be, for example, gravity feeders, power feeders, or mechanically driven feeders.

At the slider inserter station, a first slider 140a is applied onto the second segment 154b of the tracks 112, 114 and a second slider 140b is applied onto the third segment 154c of the tracks 112, 114 through the process detailed below and shown in FIGS. 3 and 4a–4e.

As shown in FIGS. 3 and 4a, the slider inserter station includes a first fastener guide 200 and a second fastener guide 205. The first fastener guide 200 is located on the second segment 154b of the fastener 110 and upstream from the first slider inserter unit 155a. The second fastener guide 205 is located on the third segment 154c of the fastener 110 and upstream from the second slider inserter unit 155b. The first fastener guide 200 includes a first and a second fastener guide portion 208, 209. The second fastener guide 205 includes a first and a second fastener guide portion 210, 211. The first and second fastener guides 200, 205 assist in positioning the fastener 110 for threading the first and second sliders 140a, 140b onto the second and third segments 154b, 154c, respectively, on the tracks 112, 114 of the fastener 110. The first and second fastener guides 200, 205 remain positioned upstream from the respective first and second slider inserter units 155a, 155b during the indexing process.

The slider inserter station further includes a first pair of grippers 141a, 143a and a second pair of grippers 141b, 143b which assist in holding and positioning the first and second sliders 140a, 140b, respectively, as the sliders move along the tracks 112, 114. The first and second pair of grippers 141a, 143a and 141b, 143b have tapered edges 203, 204 and 201, 202, respectively, and are similar to those described above with respect to FIG. 1 and as shown in FIG. 2c. As described above with respect to FIG. 1, the tapered edges 203, 204 and 201, 202 of the first and second pair of grippers 141a, 143a and 141b, 143b, respectively, close the tracks 112, 114 which are opened when the first and second sliders 140a, 140b are applied onto the fastener 110. Using the tapered edges 203, 204 and 201, 202 of the first and second pair of grippers 141a, 143a and 141b, 143b, respectively, to close the tracks 112, 114 also makes the subsequent step of forming end stops on the bag ends (described below) easier. As shown in FIG. 3, the fastener 110 temporarily stops with notch 138c positioned below the first slider inserter unit 155a and notch 138d positioned below the second slider inserter unit 155b. As shown in FIG. 3, the second segment 154b is bent into a first plane and the third segment 154c is bent into a second plane. The first and second planes are positioned or bent at an angle relative to one another that is sufficient to allow the trailing slider 140b to avoid interfering with the first and second slider inserter units 155a, 155b or the first and second pair of grippers 141a, 143a and 141b, 143b. The first and second planes may be positioned at an angle relative to one another which is at least about 20° and less than about 100°.

The second and third segments 154b, 154c of the tracks 112, 114 of the fastener 110 may be positioned at a sufficient angle relative to one another to avoid interfering with the first and second slider inserter units 155a, 155b or the first and second pair of grippers 141a, 143a and 141b, 143b through a variety of methods. One suitable method (not shown) involves pivoting the first and second slider inserter units 155a, 155b in from the side and using the first and second slider inserter units 155a, 155b to move or bend the second and third segments 154b, 154c of the tracks 112, 114 into the first and second planes, respectively, while the fastener 110 is temporarily stopped (i.e., at dwell). Another suitable method involves using separate fingers (not shown) to move or bend the second and third segments 154b, 154c of the tracks 112, 114 into the first and second planes, respectively, either while the fastener 110 is temporarily stopped (ie., at dwell) or while the fastener 110 is being indexed.

Alternatively, only one of the segments of the tracks 112, 114 may be bent to avoid interfering with the first and second slider inserter units 155a, 155b or the first and second pair of grippers 141a, 143a and 141b, 143b. Specifically, the third segment 154c of the tracks 112, 114 may be bent into a plane which is transverse or horizontal to the tracks 112, 114 of the fastener 110 at an angle that is sufficient to allow slider 140b to avoid interfering with the first and second slider inserter units 155a, 155b or the first and second pair of grippers 141a, 143a and 141b, 143b while the second segment 154b is retained in the same plane as the tracks 112, 114 of the fastener 110.

Alternatively, the second segment 154b of the tracks 112, 114 may be bent into a plane which is transverse or horizontal to the tracks 112, 114 of the fastener 110 at an angle that is sufficient to allow slider 140a to avoid interfering with the second slider inserter unit 155b or the second pair of grippers 141b, 143b while the third segment 154c is retained in the same plane as the tracks 112, 114 of the fastener 110.

As shown in FIGS. 3 and 4a, the first slider inserter unit 155a feeds the first slider 140a into the notch 138c and the second slider inserter unit 155b feeds the second slider 140b into the notch 138d at generally the same time while the fastener 110 is temporarily stopped (i.e., at dwell). The first pair of grippers 141a, 143a and the second pair of grippers 141b, 143b are positioned to allow the first and second slider inserter units 155a, 155b to feed the first and second sliders 140a, 140b into notches 138c, 138d, respectively, unobstructed. The next two sliders 140c, 140d that are resting in the first and second slider inserter units 155a, 155b are retained in the first and second slider inserter units 155a, 155b, respectively, until the next double index of the fastener 110. A stop (not shown) such as an escapement or mechanical latch on the first and second slider inserter units 155a, 155b prevents or inhibits sliders 140c, 140d from feeding into the notches 138c, 138d as the fastener 110 indexes forward during the next double index draw.

As shown in FIGS. 3 and 4a, the first pair of grippers 141a, 143a and the second pair of grippers 141b, 143b are closed around the first and second sliders 140a, 140b, respectively, as the first and second slider inserter units 155a, 155b feed the first and second sliders 140a, 140b into the notches 138c, 138d, respectively. Alternatively, the first pair of grippers 141a, 143a and the second pair of grippers 141b, 143b may be open when the first and second slider inserter units 155a, 155b feed the first and second sliders 140a, 140b into the respective notches 138c, 138d. In this alternative approach, the first pair of grippers 141a, 143a may be activated to come in from the side and close around the first slider 140a and the second pair of grippers 141b, 143b may be activated to come in from the side and close around the second slider 140b while the fastener 110 is at dwell.

Once the first and second sliders 140a, 140b are in position within the notches 138c, 138d respectively, the first slider 140a is now in position to become applied or threaded onto the second segment 154b of the tracks 112, 114 and the second slider 140b is now in position to become applied or threaded onto the third segment 154c of the tracks 112, 114 once the double index of the fastener 110 begins.

As shown in FIG. 3, at the beginning of the double index, notch 138c is positioned directly below the first slider inserter unit 155a while notch 138d is positioned directly below the second slider inserter unit 155b. FIGS. 3 and 4a show the fastener 110 beginning its double index forward. Once the fastener 110 begins its double index forward, the fastener 110 does not stop moving until a full double index has been completed. As the fastener 110 begins its index, the first slider 140a becomes applied or threaded onto the second segment 154b of the tracks 112, 114 and the second slider 140b becomes applied or threaded onto the third segment 154c of the tracks 112, 114 at generally the same time. As index of the fastener 110 is initiated, the first and second pair of grippers 141a, 143a and 141b, 143b remain closed around the first and second sliders 140a, 140b, respectively, to assist in guiding the first and second sliders 140a, 140b onto the tracks 112, 114. Specifically, the first pair of grippers 141a, 143a assist in applying the first slider 140a onto the second segment 154b of the tracks 112, 114. The second pair of grippers 141b, 143b assist in applying the second slider 140b onto the third segment 154c of the tracks 112, 114. As shown in FIG. 4a, once the first slider 140a has been applied onto the second segment 154b, the tapered edges 203, 204 on the first pair of grippers 141a, 143a close the tracks 112, 114. Once the second slider 140b has been applied onto the third segment 154c, the tapered edges 201, 202 on the second pair of grippers 141b, 143b close the tracks 112, 114. As described with respect to FIG. 1 and FIGS. 2a–2d, the step of closing the tracks may be accomplished by methods other than using tapered edges on the first and second pair of grippers 141a, 143a and 141b, 143b. As shown in FIGS. 4b–4d, once the fastener 110 has been indexed a distance x from the respective notches 138c, 138d, the first pair of grippers 141a, 143a and the second pair of grippers 141b, 143b open, respectively. Also, once the fastener 110 has been indexed a distance x from the respective notches 138c, 138d, the first and second fastener guide portions 208, 209 of the first fastener guide 200 and the first and second fastener guide portions 210, 211 of the second fastener guide 205 open, respectively. Distance x is set using conventional techniques for indexing fixed distances of flexible material as described above with respect to FIG. 1. The first and second fastener guide portions 208, 209 of the first fastener guide 200 and the first and second fastener guide portions 210, 211 of the second fastener guide 205 may open simultaneously or at generally the same time. Alternatively, the first and second pair of grippers 141a, 143a and 141b, 143b and the first and second fastener guide portions 208, 209 and the first and second fastener guide portions 210, 211 may open simultaneously or at generally the same time. By opening the first pair of grippers 141a, 143a and the first and second fastener guide portions 208, 209 of the first fastener guide 200, the first slider 140a becomes released to travel with the second segment 154b of the tracks 112, 114. By opening the second pair of grippers 141b, 143b and the first and second fastener guide portions 210, 211 of the second fastener guide 205, the second slider 140b becomes released to travel with the third segment 154c of the tracks 112, 114.

As shown in FIG. 4e, once the first slider 140a has been applied onto the second segment 154b of the tracks 112, 114 and the second slider 140b has been applied onto the third segment 154c of the tracks 112, 114, the second and third segments 154b, 154c are rotated such that each segment is again in the same plane as the remainder of the tracks 112, 114 of the fastener 110 (i.e., in a vertical position as depicted in FIG. 4e). By rotating the second and third segments 154b, 154c back into the same plane as the remainder of the tracks 112, 114, the second and third segments 154b, 154c may proceed to an end stop applicator station. The first and second pair of grippers 141a, 143a and 141b, 143b may move to facilitate the rotation of the second and third segments 154b, 154c. FIG. 4e shows the fastener 110 upon completion of the double index without the first and second pair of grippers 141a, 143a and 141b, 143b.

Through the process detailed above and as shown in FIGS. 3 and 4a–4e, the first slider 140a is applied onto the second segment 154b of the tracks 112, 114 and the second slider 140b is applied onto the third segment 154c of the tracks 112, 114.

After applying the first and second sliders 140a, 140b onto the second and third segments 154b, 154c of the fastener 110, respectively, and rotating the second and third segments 154b, 154c back into the same plane as the remainder of the tracks 112, 114, the double index of the fastener 110 is completed such that notches 138c, 138d become positioned at an end stop applicator station similar to the one described with respect to FIG. 1. In the embodiment shown in FIG. 3, notch 138c becomes positioned between a first pair of chilled, reciprocating molds 147a, 149a and is labeled notch 138e. The second segment 154b which contains slider 140a (labeled 140e) becomes positioned upstream from the first pair of chilled, reciprocating molds 147a, 149a and notch 138e and is labeled 154d. Also as shown in FIG. 3, notch 138d becomes positioned between a second pair of chilled, reciprocating molds 147b, 149b and is labeled notch 138f. The third segment 154c which contains slider 140b (labeled 140f) becomes positioned upstream from the second pair of chilled, reciprocating molds 147b, 149b and notch 138f and is labeled 154e. Also upon completing the double index, notch 138a becomes positioned below the first slider inserter unit 155a (see notch labeled 138c in FIG. 3) and notch 138b becomes positioned below the second slider inserter unit 155b (see notch labeled 138d in FIG. 3) such that the next two sliders 140c, 140d which are resting in the first and second slider inserter units 155a, 155b, respectively, are ready to be fed into notches 138c, 138d, respectively.

At the end stop applicator station, the end stop applicator applies end stops 142a, 144a and 142b, 144b to the respective fastener ends 146a, 148a and 146b, 148b on opposite sides of the respective notches 138e, 138f. In the plastic bags ultimately formed by the manufacturing process, end stop 142a is located at the fastener end 146a of one bag, end stop 144a is located at the fastener end 148a of the adjacent bag, while end stop 142b is located at the fastener end 146b of one bag and end stop 144b is located at the fastener end 148b of the adjacent bag.

The end stop applicator station may include a first pair of chilled, reciprocating molds 147a, 149a and a second pair of chilled, reciprocating molds 147b, 149b which operate similar to those shown in FIG. 1 and described above with respect to FIG. 1. Also as described above with respect to FIG. 1, instead of applying injection-molded end stops, other types of end stops may be applied to the fastener ends 146a, 146b, 148a, 148b.

While the fastener 110 is temporarily stopped during the dwell phase of the cycle in the method depicted in FIGS. 3 and 4a–4e, the various stations perform their respective functions on different parts of the continuous fastener 110 spaced apart at approximately at a double index (i.e., approximately two bag-width distances apart) either simultaneously or at generally the same time. Therefore, as (1) the preseal station forms new preseals 128, 129; (2) the notching station forms new notches 138a, 138b within the previously formed preseals 128, 129; (3) the slider insertion station applies sliders 140a, 140b into the notches 138c, 138d; and (4) the end stop applicator applies end stops 142a, 144a and 142b, 144b proximate the previously applied sliders at approximately the same time. Dwell is accomplished as described above with respect to FIG. 1. After each of the stations has completed its respective function on the temporarily stopped fastener 110, movement of the fastener 110 is resumed. The fastener 110 is moved approximately two bag-width distances forward so that the next station can perform its respective function as described above with respect to FIG. 1.

While the process described above is directed to a process of forming two preseals, forming two notches within the preseals, applying two sliders into the previously formed notches, and applying two end stops proximate the previously applied sliders by having the various stations perform their respective functions on different parts of the continuous fastener 110 spaced approximately at a double index either simultaneously or at generally the same time, it is contemplated that the process may be modified. For example, the process may be modified by having the various stations perform their respective functions on different parts of the continuous fastener 110 spaced approximately at a triple index, a quadruple index, etc. either simultaneously or at generally the same time. In other words, the process could be modified to form three or more preseals, to form three or more notches within the preseals, to apply three or more sliders into the previously formed notches, and to apply three or more end stops proximate the previously applied sliders by having the various stations perform their respective functions on different parts of the continuous fastener 110 spaced approximately at a triple index, a quadruple index, etc. either simultaneously or at generally the same time. After applying the end stops 142a, 144a and 142b, 144b using the process described above, the fastener 110 is preferably applied to a flat web of plastic film that is then formed, filled with product, and made into individual plastic bags as described above with respect to FIG. 1. As described above, the fastener 110 may alternatively be conveyed to a storage medium, such as a spool, and placed in an intermediate storage facility, and then applied to the plastic film at a later time. Finished bags may be produced by attaching the slider-operated fastener to a flat web of plastic film and then conveying the web to a vertical FFS machine or a horizontal FFS machine as described above with respect to FIG. 1. As described above, FIG. 7 depicts one method for attaching the slider-operated fastener 110 to a flat web of plastic film. An additional alternative method of making a slider-operated fastener for use in reclosable plastic bags is shown in FIGS. 5 and 6a–6d. In this embodiment, a double index is used to apply at least two sliders to a fastener via two slider inserter units and opening a guider to allow the trailing slider to travel along on the tracks of the fastener. In this method, there is provided a continuous fastener 210 as described above with respect to FIG. 1. The fastener 210 includes first and second opposing tracks 212, 214 which include respective first and second interlocking profiles 216, 218 and respective first and second fins 220, 222 extending downward from the respective profiles 216, 218 as described above with respect to FIG. 1.

The process depicted in FIG. 5 begins by performing a double index draw of fastener 210. The fastener 210 advances two bag-width distances forward by rollers and the like (not shown) to a preseal station similar to the one described above with respect to FIG. 1. The preseal station includes a first pair of reciprocating seal bars 224a, 226a and a second pair of reciprocating seal bars 224b, 226b operating as described above with respect to FIG. 1. As described above with respect to FIG. 1, while the fastener 210 is temporarily stopped at the preseal station, the fins 220, 222 are sealed to each other along the generally U-shaped preseals 228, 229. The preseals 228, 229 are similar to those described above with respect to FIG. 1. Preseal 228 includes a pair of opposing sides 228a, 228b and a bottom 228c bridging the opposing sides 228a, 228b while preseal 229 includes a pair of opposing sides 229a, 229b and a bottom 229c bridging the opposing sides 229a, 229b. The seal bars 224a, 224b have generally U-shaped projections 230a, 230b which correspond to the shape of the respective preseals 228, 229. In addition, as described above with respect to FIG. 1, although the preseals 228, 229 are shown as being generally U-shaped, the area between the opposing sides 228a, 228b and 229a, 229b of the preseals 228, 229, respectively, may also be sealed so that the preseals 228, 229 appear like solid rectangles. The preseals 228, 229 extend to the bottom of the profiles 216, 218.

After forming the preseals 228, 229, the fastener 210 is double indexed forward to a notching station as shown in FIG. 5. The notching station operates similar to that shown in FIG. 1 and described above. The notching station includes a first pair of reciprocating cutters 232a, 234a and a second pair of reciprocating cutters 232b, 234b. Cutters 232a, 232b form rectangular projections while cutters 234a, 234b form rectangular holes for receiving the respective projection. As described above with respect to FIG. 1, the fastener 210 is temporarily stopped at the notching station so that preseals 228, 229 become aligned between the separated pairs of reciprocating cutters 232a, 234a and 232b, 234b, respectively. While the fastener 210 is temporarily stopped, the cutters 232a, 234a and 232b, 234b are brought together such that the rectangular projections of the cutters 232a, 232b punch rectangular sections 236a, 236b through the rectangular holes of the respective cutters 232a, 234b leaving generally U-shaped notches 238a, 238b in the fastener 210. Prior to being punched out, the rectangular sections 236a, 236b are disposed between the opposing sides 228a, 228b and 229a, 229b of the preseals 228, 229 and above the bottoms 228c, 229c of the preseals 228, 229. Although the notching station has been described as being equipped with reciprocating cutters, other cutting devices (not shown) such as rotary cutters may be used in embodiments of the invention.

As discussed above, the notches 238a, 238b assist in defining or forming the first and second segments 254a, 254b on the tracks 212, 214, respectively, of the fastener 210. The second segment 254b of the fastener 210 is located downstream from and adjacent to notch 238b. The first segment 254a of the fastener 210 is located upstream from the second segment 254b and is located between notch 238a and notch 238b. The notches 238a, 238b are sufficiently wide to hold at least one slider.

After forming the notches 238a, 238b, the fastener 210 is double indexed forward to a slider inserter station. As shown in FIGS. 5 and 6a–6d, the slider inserter station includes first and second slider inserter units 255a, 255b which are located at two separate application sites. During the double index of the fastener 210, notch 238a becomes aligned with the first slider inserter unit 255a and is labeled notch 238c and notch 238b becomes aligned with the second slider inserter unit 255b and is labeled notch 238d. Each slider inserter unit 255a, 255b includes at least one row of sliders. The slider inserter units 255a, 255b remain stationary as the fastener 210 indexes forward. The slider insert units 255a, 255b may be, for example, gravity feeders, power feeders, or mechanically driven feeders.

At the slider inserter station, a first slider 240a is applied onto the second segment 254b of the tracks 212, 214 and a second slider 240b is applied onto the third segment 254c of the tracks 212, 214 through the process detailed below and shown in FIGS. 5 and 6a–6d.

As shown in FIGS. 5 and 6a, the slider inserter station includes a first fastener guide 300 and a second fastener guide 305. The first fastener guide 300 is located on the second segment 254b of the fastener 210 and upstream from the first slider inserter unit 255a. The second fastener guide 305 is located on the third segment 254c of the fastener 210 and upstream from the second slider inserter unit 255b. The second fastener guide 305 includes a first and a second fastener guide portion 310, 311. The first and second fastener guides 300, 305 assist in positioning the fastener 210 for threading the first and second sliders 240a, 240b onto the second and third segments 254b, 254c, respectively, on the tracks 212, 214 of the fastener 210. The first and second fastener guides 200, 205 remain positioned upstream from the respective first and second slider inserter units 255a, 255b during indexing.

The slider inserter station further includes a first pair of grippers 241a, 243a and a second pair of grippers 241b, 243b which assist in holding and positioning the first and second sliders 240a, 240b, respectively, as the sliders move along the tracks 212, 214. The first and second pair of grippers 241a, 243a and 241b, 243b have tapered edges 303, 304 and 301, 302, respectively, and are similar to those described above with respect to FIG. 1 and as shown in FIG. 2c. As described above with respect to FIG. 1, the tapered edges 303, 304 and 301, 302 of the first and second pair of grippers 241a, 243a and 241b, 243b respectively, close the tracks 212, 214 which are opened when the first and second sliders 240a, 240b are applied onto the fastener 210. By closing the tracks 212, 214 with the respective tapered edges 303, 304 and 301, 302 of the first and second pair of grippers 241a, 243a and 241b, 243b, the subsequent step of forming end stops on the bag ends (described below) is easier.

As shown in FIG. 5 the fastener 210 temporarily stops with notch 238c positioned below the first slider inserter unit 255a and notch 238d positioned below the second slider inserter unit 255b. While the fastener 210 is temporarily stopped (i.e., at dwell), the first slider inserter unit 255a feeds the first slider 240a into the notch 238c and the second slider inserter unit 255b feeds the second slider 240b into the notch 238d at generally the same time. The first pair of grippers 241a, 243a and the second pair of grippers 241b, 243b are positioned to allow the first and second slider inserter units 255a, 255b to feed the first and second sliders 240a, 240b into notches 238c, 238d, respectively, unobstructed. The next two sliders 240c, 240d that are resting in the first and second slider inserter units 255a, 255b, respectively, are retained in the first and second slider inserter units 255a, 255b until the next double index of the fastener 210. A stop (not shown) such as an escapement or mechanical latch on the first and second slider inserter units 255a, 255b prevents or inhibits sliders 240c, 240d from feeding into the notches 238c, 238d as the fastener 210 indexes forward during the next double index draw.

As shown in FIGS. 5 and 6a, the first pair of grippers 241a, 243a and the second pair of grippers 241b, 243b are closed around the first and second sliders 240a, 240b, respectively, as the first and second slider inserter units 255a, 255b feed the first and second sliders 240a, 240b into the notches 238c, 238d, respectively. Alternatively, the first pair of grippers 241a, 243a and the second pair of grippers 241b, 243b may be open when the first and second slider inserter units 255a, 255b feed the first and second sliders 240a, 240b into the respective notches 238c, 238d. In this alternative approach, the first pair of grippers 241a, 243a may be activated to come in from the side and close around the first slider 240a and the second pair of grippers 241b, 243b may be activated to come in from the side and close around the second slider 240b while the fastener 210 is at dwell. Once the first and second sliders 240a, 240b are in position within the notches 238c, 238d respectively, the first slider 240a is now in position to become applied or threaded onto the second segment 254b and the second slider 240b is now in position to become applied or threaded onto the third segment 254c of the tracks 212, 214 once the double index of the fastener 210 begins.

As shown in FIG. 5, at the beginning of the double index, notch 238c is positioned directly below the first slider inserter unit 255a while notch 238d is positioned directly below the second slider inserter unit 255b. FIG. 6a shows the fastener 210 beginning its double index forward. Once the fastener 210 begins its double index forward, the fastener 210 does not stop moving until a full double index has been completed. As the fastener 210 begins its index, the first slider 240a becomes applied or threaded onto the second segment 254b of the tracks 212, 214 and the second slider 240b becomes applied or threaded onto the third segment 254c of the tracks 212, 214 at generally the same time. As index of the fastener 210 is initiated, the first and second pair of grippers 241a, 243a and 241b, 243b remain closed around the first and second sliders 240a, 240b, respectively, to assist in guiding the first and second sliders 240a, 240b onto the tracks 212, 214. Specifically, the first pair of grippers 241a, 243a assist in applying the first slider 240a onto the second segment 254b of the tracks 212, 214. The second pair of grippers 241b, 243b assist in applying the second slider 240b onto the third segment 254c of the tracks 212, 214. As shown in FIGS. 6a–6c, once the fastener 210 has been indexed a distance x from the respective notches 238c, 238d the first pair of grippers 241a, 243a and the second pair of grippers 241b, 243b open, respectively. By opening the first pair of grippers 241a, 243a, the first slider 240a becomes released to travel with the second segment 254b of the tracks 212, 214. Distance x is set using conventional techniques for indexing fixed distances of flexible material as described above with respect to FIG. 1. By opening the second pair of grippers 241b, 243b, the second slider 240b becomes released to travel with the third segment 254c of the tracks 212, 214. Also, once the fastener 210 has been indexed a distance x from notch 238d the first and second fastener guide portions 310, 311 of the second fastener guide 305 open to allow the trailing slider 240b to pass by unobstructed during the fastener 210 index. The first pair of grippers 241a, 243a and the second pair of grippers 241b, 243b and the first and second fastener guide portions 301, 311 of the second fastener guide 305 may open simultaneously or at generally the same time.

Through the process detailed above and as shown in FIGS. 5 and 6a–6d, the first slider 240a is applied onto the second segment 254b of the tracks 212, 214 and the second slider 240b is applied onto the third segment 254c of the tracks 212, 214. FIG. 6d shows the beginning of the successive dwell phase of the cycle, where the first slider inserter unit 255a feeds the successive slider 240c into the notch 238a and the second slider inserter unit 255b feeds the successive slider 240b into the notch 238b at generally the same time while the fastener 210 is temporarily stopped

After applying the first and second sliders 240a, 240b onto the second and third segments 254b, 254c of the fastener 210, respectively, the double index of the fastener 210 is completed such that notches 238c, 238d become positioned at an end stop applicator station similar to the one described with respect to FIG. 1. In the embodiment shown in FIG. 5, notch 238c becomes positioned between a first pair of chilled, reciprocating molds 247a, 249a and is labeled notch 238e. The second segment 254b which contains slider 240a (labeled 240e) becomes positioned upstream from the first pair of chilled, reciprocating molds 247a, 249a and notch 238e and is labeled 254d. Also as shown in FIG. 5, notch 238d becomes positioned between a second pair of chilled, reciprocating molds 247b, 249b and is labeled notch 238f. The third segment 254c which contains slider 240b (labeled 240f) becomes positioned upstream from the second pair of chilled, reciprocating molds 247b, 249b and notch 238f and is labeled 254e. Also upon completing the double index, notch 238a becomes positioned below the first slider inserter unit 255a (see notch labeled 238c in FIG. 5) and notch 238b becomes positioned below the second slider inserter unit 255b (see notch labeled 238d in FIG. 5) such that the next two sliders 240c, 240d which are resting in the first and second slider inserter units 255a, 255b, respectively, are ready to be fed into notches 238c, 238d, respectively. At the end stop applicator station, the end stop applicator applies end stops 242a, 244a and 242b, 244b to the respective fastener ends 246a, 248a and 246b, 248b on opposite sides of the respective notches 238e, 238f. In the plastic bags ultimately formed by the manufacturing process, end stop 242a is located at the fastener end 246a of one bag, end stop 244a is located at the fastener end 248a of the adjacent bag, while end stop 242b is located at the fastener end 246b of one bag and end stop 244b is located at the fastener end 248b of the adjacent bag. The end stop applicator station may include a first pair of chilled, reciprocating molds 247a, 249a and a second pair of chilled, reciprocating molds 247b, 249b which operate similar to those shown in FIG. 1 and described above. Also as described above with respect to FIG. 1, end stops other than injection-molded end stops may be applied to the fastener ends 246a, 246b, 248a, 248b.

While the fastener 210 is temporarily stopped during the dwell phase of the cycle in the method depicted in FIGS. 5 and 6a–6d, the various stations perform their respective functions on different parts of the continuous fastener 210 spaced apart at approximately at a double index (i.e., approximately two bag-width distances apart) either simultaneously or at generally the same time. Therefore, as (1) the preseal station forms new preseals 228, 229; (2) the notching station forms new notches 238a, 238b within the previously formed preseals 228, 229; (3) the slider insertion station applies sliders 240a, 240b into the notches 238c, 238d; and (4) the end stop applicator applies end stops 242a, 244a and 242b, 244b proximate the previously applied sliders at approximately the same time. Dwell is accomplished as described above with respect to FIG. 1. After each station has completed its respective function on the temporarily stopped fastener 210, movement of the fastener 210 is resumed. The fastener 210 is moved approximately two bag-width distances forward so that the next station can perform its respective function as described above with respect to FIG. 1.

While the process described above is directed to a process of forming two preseals, forming two notches within the preseals, applying two sliders into the previously formed notches, and applying two end stops proximate the previously applied sliders by having the various stations perform their respective functions on different parts of the continuous fastener 210 spaced approximately at a double index either simultaneously or at generally the same time, it is contemplated that the process may be modified. For example, the process may could be modified by having the various stations perform their respective functions on different parts of the continuous fastener 210 spaced approximately at a triple index, a quadruple index, etc. either simultaneously or at generally the same time. In other words, the process could be modified to form three or more preseals, to form three or more notches within the preseals, to apply three or more sliders into the previously formed notches, and to apply three or more end stops proximate the previously applied sliders by having the various stations perform their respective functions on different parts of the continuous fastener 210 spaced approximately at a triple index, a quadruple index, etc. either simultaneously or at generally the same time. After applying the end stops 242a, 244a and 242b, 244b using the method as described above, the fastener 210 is preferably applied to a flat web of plastic film that is then formed, filled with product, and made into individual plastic bags as described with respect to FIG. 1. Alternatively, as described above, the fastener 210 may be conveyed to a storage medium, and placed in an intermediate storage facility, and then applied to the plastic film at a later time. Finished bags may be produced by applying or attaching the slider-operated fastener to a flat web of plastic film and then conveying the web to a vertical FFS machine or a horizontal FFS machine as detailed above. FIG. 7 described above depicts one method for applying or attaching the slider-operated fastener 210 to a flat web of plastic film.

While the present invention has been described with reference to one or more particular embodiments, those skilled in the art will recognize that many changes may be made thereto without departing from the spirit and scope of the present invention. Each of these embodiments and obvious variations thereof is contemplated as falling within the spirit and scope of the claimed invention, which is set forth in the following claims.

Claims

1. A method of applying at least two sliders onto a fastener comprising: providing the fastener, the fastener including first and second opposing tracks, the first and second tracks including respective first and second interlocking profiles and respective first and second fins extending from the respective first and second profiles;forming at least a first and a second notch into the tracks and the fins, the first notch is located downstream from the second notch, the first and second notches assist in defining a first segment and a second segment, the first segment is located upstream from and adjacent to the second notch, the second segment is located between the first notch and the second notch;feeding a first and a second slider into the first notch, the first slider is located upstream from the second slider;applying the first slider onto the second segment of the tracks as the fastener indexes forward;closing the second segment of the tracks;applying the second slider onto the second segment of the tracks as the fastener indexes forward;releasing the second slider to travel with and remain on the second segment of the tracks as the fastener indexes forward;passing the first slider through the second notch as the fastener indexes forward;applying the first slider onto the first segment of the tracks as the fastener indexes forward; andreleasing the first slider to travel with and remain on the first segment of the tracks as the fastener indexes forward.
2. The method of claim 1, wherein the step of forming the first notch and the second notch is accomplished with a reciprocating cutter or a rotary cutter.
3. The method of claim 1, wherein the step of feeding is accomplished with a single slider inserter unit aligned with the first notch, wherein the slider inserter unit includes at least two adjacent rows of sliders.
4. The method of claim 3, wherein the slider inserter unit is a gravity feeder, a power feeder, or a mechanically driven feeder.
5. The method of claim 1, wherein the step of feeding occurs while the fastener is temporarily stopped.
6. The method of claim 1, wherein the steps of applying are accomplished by threading.
7. The method of claim 1, wherein the step of applying the first slider onto the first segment of the tracks is accomplished with a first pair of grippers and the step of applying the second slider onto the second segment of the tracks is accomplished with a second pair of grippers.
8. The method of claim 1, wherein the step of closing is accomplished with a pair of rollers, a pair of pins, or a pair of fingers.
9. The method of claim 1, wherein the step of closing is accomplished with a first pair of grippers having tapered edges which close around the first slider.
10. The method of claim 1, wherein the step of passing the first slider through the second notch is accomplished with a first pair of grippers.
11. The method of claim 1, wherein the first notch and the second notch are defined by a respective pair of opposing sides and a respective bottom bridging the opposing sides.
12. The method of claim 1, wherein the first notch and the second notch are generally U-shaped.
13. The method of claim 1, wherein the step of releasing the second slider to travel with and remain on the second segment of the tracks is accomplished with a first pair of grippers and the step of releasing the first slider to travel with and remain on the first segment of the tracks is accomplished with a second pair of grippers.
14. A method of applying at least two sliders onto a web of plastic film comprising: providing a web of plastic film;providing a fastener including first and second opposing tracks, the first and second tracks including respective first and second interlocking profiles and respective first and second fins extending from the respective first and second profiles;forming at least a first and a second notch into the tracks and the fins, the first notch is located downstream from the second notch, the first and second notches assist in defining a first segment and a second segment, the first segment is located upstream from and adjacent to the second notch, the second segment is located between the first notch and the second notch;feeding the first and second sliders into the first notch, the first slider is located upstream from the second slider;applying the first slider onto the second segment of the tracks as the fastener indexes forward;closing the second segment of the tracks;applying the second slider onto the second segment of the tracks as the fastener indexes forward;releasing the second slider to travel with and remain on the second segment of the tracks as the fastener indexes forward;passing the first slider through the second notch as the fastener indexes forward;applying the first slider onto the first segment of the tracks as the fastener indexes forward;releasing the first slider to travel with and remain on the first segment of the tracks as the fastener indexes forward; andattaching the fastener to the web of plastic film.
15. The method of claim 14, wherein the step of feeding is accomplished with a single slider inserter unit aligned with the first notch, wherein the slider inserter unit includes at least two adjacent rows of sliders.
16. The method of claim 15, wherein the slider inserter unit is a gravity feeder, a power feeder, or a mechanically driven feeder.
17. The method of claim 14, wherein the step of feeding occurs while the fastener is temporarily stopped.
18. The method of claim 14, wherein the steps of applying are accomplished by threading.
19. The method of claim 14, wherein the step of applying the first slider onto the first segment of the tracks is accomplished with a first pair of grippers and the step of applying the second slider onto the second segment of the tracks is accomplished with a second pair of grippers.
20. The method of claim 14, wherein the step of closing is accomplished with a pair of rollers, a pair of pins, or a pair of fingers.
21. The method of claim 14, wherein the step of closing is accomplished with a first pair of grippers having tapered edges which close around the first slider.
22. The method of claim 14, wherein the step of passing the first slider through the second notch is accomplished with a first pair of grippers.
23. The method of claim 14, wherein the step of releasing the second slider to travel with and remain on the second segment of the tracks is accomplished with a first pair of grippers and the step of releasing the first slider to travel with and remain on the first segment of the tracks is accomplished with a second pair of grippers.
24. A method of making reclosable plastic bags comprising: providing a web of plastic film;providing a fastener including first and second opposing tracks, the first and second tracks including respective first and second interlocking profiles and respective first and second fins extending from the respective first and second profiles;sealing the first and second fins to each other;forming at least a first and a second notch into the tracks and the fins, the first notch is located downstream from the second notch, the first and second notches assist in defining a first segment and a second segment, the first segment is located upstream from and adjacent to the second notch, the second segment is located between the first notch and the second notch;feeding the first and second sliders into the first notch, the first slider is located upstream from the second slider;applying the first slider onto the second segment of the tracks as the fastener indexes forward;closing the second segment of the tracks;applying the second slider onto the second segment of the tracks as the fastener indexes forward;releasing the second slider to travel with and remain on the second segment of the tracks as the fastener indexes forward;passing the first slider through the second notch as the fastener indexes forward;applying the first slider onto the first segment of the tracks as the fastener indexes forward;releasing the first slider to travel with and remain on the first segment of the tracks as the fastener indexes forward;conveying the fastener to an end stop applicator;forming at least a first end stop on the first segment of the tracks and at least a second end stop on the second segment of the tracks;attaching the fastener to the web of plastic film; andforming the web into a plurality of interconnected plastic bags.
25. The method of claim 24, further comprising the step of successively filling and sealing the plurality of interconnected plastic bags.

CROSS REFERENCE TO RELATED APPLICATION

The present application is a divisional of U.S. application Ser. No. 10/245,080, filed Sep. 17, 2002 now U.S. Pat. No. 6,780,146.

US Referenced Citations (203)

Number	Name	Date	Kind
2091617	Sundback	May 1937	A
3225429	Fady	Dec 1965	A
3225993	Hall	Dec 1965	A
3381592	Ravel	May 1968	A
3416396	Donner	Dec 1968	A
3473589	Gotz	Oct 1969	A
3532571	Ausnit	Oct 1970	A
RE27174	Ausnit	Sep 1971	E
3608439	Ausnit	Sep 1971	A
3612382	Littell	Oct 1971	A
3613524	Behr et al.	Oct 1971	A
3701191	Laguerrre	Oct 1972	A
3701192	Laguerre	Oct 1972	A
3713923	LaGuerre	Jan 1973	A
3785111	Pike	Jan 1974	A
3839128	Arai	Oct 1974	A
3948705	Ausnit	Apr 1976	A
3962007	Heimberger	Jun 1976	A
4094729	Boccia	Jun 1978	A
4196030	Ausnit	Apr 1980	A
4240241	Sanborn, Jr.	Dec 1980	A
4246288	Sanborn, Jr.	Jan 1981	A
4277241	Schulze	Jul 1981	A
4309233	Akashi	Jan 1982	A
4341575	Herz	Jul 1982	A
4355494	Tilman	Oct 1982	A
4372793	Herz	Feb 1983	A
4415386	Ferrell et al.	Nov 1983	A
4430070	Ausnit	Feb 1984	A
4437293	Sanborn, Jr.	Mar 1984	A
4517788	Scheffers	May 1985	A
4528224	Ausnit	Jul 1985	A
4563319	Ausnit et al.	Jan 1986	A
4581006	Hugues et al.	Apr 1986	A
4582549	Ferrell	Apr 1986	A
4601694	Ausnit	Jul 1986	A
4615083	Mayerhofer	Oct 1986	A
4617683	Christoff	Oct 1986	A
4651504	Bentsen	Mar 1987	A
4655862	Christoff et al.	Apr 1987	A
4663915	Van Erden et al.	May 1987	A
4666536	Van Erden et al.	May 1987	A
4673383	Bentsen	Jun 1987	A
4691372	Van Erden	Sep 1987	A
4703518	Ausnit	Oct 1987	A
4709398	Ausnit	Nov 1987	A
4709533	Ausnit	Dec 1987	A
4710157	Posey	Dec 1987	A
4782951	Griesbach et al.	Nov 1988	A
4787880	Ausnit	Nov 1988	A
4790126	Boeckmann	Dec 1988	A
4807300	Ausnit et al.	Feb 1989	A
4812074	Ausnit et al.	Mar 1989	A
4840012	Boeckmann	Jun 1989	A
4840611	Van Erden et al.	Jun 1989	A
4844759	Boeckmann	Jul 1989	A
4850178	Ausnit	Jul 1989	A
4876842	Ausnit	Oct 1989	A
4878987	Ven Erden	Nov 1989	A
4892414	Ausnit	Jan 1990	A
4892512	Branson	Jan 1990	A
4894975	Ausnit	Jan 1990	A
4909017	McMahon et al.	Mar 1990	A
4924655	Posey	May 1990	A
4925318	Sorensen	May 1990	A
4929225	Ausnit et al.	May 1990	A
4941307	Wojcik	Jul 1990	A
4969309	Schwarz et al.	Nov 1990	A
4974395	McMahon	Dec 1990	A
4993212	Veoukas	Feb 1991	A
5005707	Hustad et al.	Apr 1991	A
5007142	Herrington	Apr 1991	A
5007143	Herrington	Apr 1991	A
5010627	Herrington	Apr 1991	A
5014498	McMahon	May 1991	A
5027584	McMahon et al.	Jul 1991	A
5036643	Bodolay	Aug 1991	A
5042224	McMahon	Aug 1991	A
5046300	Custer et al.	Sep 1991	A
5063639	Boeckmann et al.	Nov 1991	A
5067208	Herrington, Jr.	Nov 1991	A
5072571	Boeckmann	Dec 1991	A
5085031	McDonald	Feb 1992	A
5088971	Herrington	Feb 1992	A
5092831	James et al.	Mar 1992	A
5096516	McDonald et al.	Mar 1992	A
5103555	Mizuno et al.	Apr 1992	A
5105603	Natterer	Apr 1992	A
5107658	Hustad et al.	Apr 1992	A
5111643	Hobock	May 1992	A
5116301	Robinson et al.	May 1992	A
5127208	Custer et al.	Jul 1992	A
5131121	Herrington, Jr.	Jul 1992	A
5147272	Richison et al.	Sep 1992	A
5152613	Herrington, Jr.	Oct 1992	A
5161286	Herrington, Jr.	Nov 1992	A
5179816	Wojnicki	Jan 1993	A
5188461	Sorensen	Feb 1993	A
5211482	Tilman	May 1993	A
5247781	Runge	Sep 1993	A
5254073	Richison et al.	Oct 1993	A
5259904	Ausnit	Nov 1993	A
5273511	Boeckmann	Dec 1993	A
5274852	Hogan	Jan 1994	A
5301395	Richardson et al.	Apr 1994	A
5322579	Van Erden	Jun 1994	A
5334127	Bruno et al.	Aug 1994	A
5383989	McMahon	Jan 1995	A
5400565	Terminella et al.	Mar 1995	A
5400568	Kanemitsu et al.	Mar 1995	A
5405478	Richardson et al.	Apr 1995	A
5405629	Marnocha et al.	Apr 1995	A
5412924	Ausnit	May 1995	A
5415904	Takubo et al.	May 1995	A
5425216	Ausnit	Jun 1995	A
5425825	Rasko et al.	Jun 1995	A
5426830	Richardson et al.	Jun 1995	A
5431760	Donovan	Jul 1995	A
5435864	Machacek et al.	Jul 1995	A
5442837	Morgan	Aug 1995	A
5442838	Richardson et al.	Aug 1995	A
5443535	Oda	Aug 1995	A
5448807	Herrington, Jr.	Sep 1995	A
5448808	Gross	Sep 1995	A
5470156	May	Nov 1995	A
5482375	Richardson et al.	Jan 1996	A
5489252	May	Feb 1996	A
5492411	May	Feb 1996	A
5505037	Terminella et al.	Apr 1996	A
5509735	May	Apr 1996	A
5511884	Bruno et al.	Apr 1996	A
5519982	Herber et al.	May 1996	A
5525363	Herber et al.	Jun 1996	A
5542902	Richison et al.	Aug 1996	A
5551127	May	Sep 1996	A
5551208	Van Erden	Sep 1996	A
5557907	Malin et al.	Sep 1996	A
5558613	Tilman et al.	Sep 1996	A
5561966	English	Oct 1996	A
5564259	Stolmeier	Oct 1996	A
5573614	Tilman et al.	Nov 1996	A
5592802	Malin et al.	Jan 1997	A
5603123	Chupa	Feb 1997	A
5613934	May	Mar 1997	A
5628566	Schreiter	May 1997	A
5647671	May	Jul 1997	A
5661852	Kessler	Sep 1997	A
5669715	Dobreski et al.	Sep 1997	A
5682730	Dobreski	Nov 1997	A
5694646	Roberts	Dec 1997	A
5722128	Toney et al.	Mar 1998	A
5725312	May	Mar 1998	A
5775812	St. Phillips et al.	Jul 1998	A
5782733	Yeager	Jul 1998	A
5788378	Thomas	Aug 1998	A
5823933	Yeager	Oct 1998	A
5833791	Bryniarski et al.	Nov 1998	A
5851070	Dobreski et al.	Dec 1998	A
5867875	Beck et al.	Feb 1999	A
5896627	Cappel et al.	Apr 1999	A
5906438	Laudenberg	May 1999	A
5956924	Thieman	Sep 1999	A
5964532	St. Phillips et al.	Oct 1999	A
6044621	Malin et al.	Apr 2000	A
6135636	Randall	Oct 2000	A
6138436	Malin et al.	Oct 2000	A
6138439	McMahon et al.	Oct 2000	A
6161271	Schreiter	Dec 2000	A
6178722	McMahon	Jan 2001	B1
6199256	Revnew et al.	Mar 2001	B1
6244021	Ausnit et al.	Jun 2001	B1
6266871	Edwards	Jul 2001	B1
6286189	Provan et al.	Sep 2001	B1
6289561	Provan et al.	Sep 2001	B1
6292986	Provan et al.	Sep 2001	B1
6293896	Buchman	Sep 2001	B1
6347437	Provan et al.	Feb 2002	B2
6360513	Strand et al.	Mar 2002	B1
6364530	Buchman	Apr 2002	B1
6376035	Dobreski et al.	Apr 2002	B1
6418605	Kettner	Jul 2002	B1
6419391	Thomas	Jul 2002	B2
6427421	Belmont et al.	Aug 2002	B1
6470551	Provan et al.	Oct 2002	B1
6477820	Dutra et al.	Nov 2002	B1
6494018	Vanderlee et al.	Dec 2002	B1
6508969	Kolovich et al.	Jan 2003	B1
6517242	Buchman	Feb 2003	B1
6517473	Cappel	Feb 2003	B1
6526632	Blythe et al.	Mar 2003	B1
6526726	Strand et al.	Mar 2003	B1
6581358	Buchman	Jun 2003	B2
6611996	Blythe et al.	Sep 2003	B2
6622353	Provan et al.	Sep 2003	B2
6635139	Bohn et al.	Oct 2003	B2
6648044	Bohn et al.	Nov 2003	B2
6662410	Kolovich et al.	Dec 2003	B2
6686005	White et al.	Feb 2004	B2
6713152	Chen et al.	Mar 2004	B2
6780146	Thomas et al.	Aug 2004	B2
6821589	Dobreski et al.	Nov 2004	B2
6871473	Dutt et al.	Mar 2005	B1
6942608	Linton et al.	Sep 2005	B2

Foreign Referenced Citations (9)

Number	Date	Country
0 939 034	Sep 1999	EP
0 978 450	Feb 2000	EP
1 026 077	Aug 2000	EP
2 085 519	Apr 1982	GB
WO 9529604	Nov 1995	WO
WO 9535046	Dec 1995	WO
WO 9535047	Dec 1995	WO
WO 9535048	Dec 1995	WO
WO 9924325	May 1999	WO

Related Publications (1)

	Number	Date	Country
	20050022352 A1	Feb 2005	US

Divisions (1)

	Number	Date	Country
Parent	10245080	Sep 2002	US
Child	10922357		US

Methods for applying sliders to reclosable plastic bags

Information

Patent Number

Date Filed

Date Issued

Inventors

Original Assignees

Examiners

Agents

CPC

US Classifications

Field of Search

US

International Classifications

Disclaimer

Term Extension