REAM OF PAPER HAVING HEAT SEALABLE WRAPPER
The wrapper for a ream of paper has an inner surface coated with polyethylene. When the wrapper is formed about a ream of paper, the inner layer overlaps and contacts the outer layer along a longitudinal seam. The polyethylene layer is used to create a seal with the application of heat. Areas of the inner surface in proximity to a heat source during the heat sealing process and where a seal will not be beneficial are covered with a heat shield, such as a varnish. In this way, damage to the paper is avoided. The varnish includes Styrenated Acrylic polymer, with Kaolin Clay and ink. The varnish is applied to the wrapper during the same manufacturing process as the polyethylene coating.
The present Patent application claims benefit of U.S. patent application Ser. No. 10/359,160 filed Feb. 6, 2003, and entitled Ream Wrapper For Heat Seal Application Wrap Lines.
FIELD OF INVENTIONThe invention relates to a wrapper for reams of paper that may be heat sealed without damaging the paper.
BACKGROUND OF THE INVENTIONPaper sheets are packaged for shipping and storage in ream quantities of 500 sheets. Each ream of sheets is wrapped by a tubular shaped overwrap having a longitudinal seal. After the tubular form is shaped, the ends are folded to complete the package. To maintain the wrapper in closed position, adhesives or heat seals are used. The cost of hot melt adhesives includes not only the adhesive itself, but also the machinery to apply the adhesive to the wrapper as well as downtime needed to clean adhesive off of machine parts which become coated due to jambs and feed problems.
Some heat sealed wrappers use a coating of low density polyethylene (LDPE) on one surface. The LDPE is softened to a point to allow bonding of the coated surface to the opposite surface of the wrapper. Often, the degree of heating and pressure necessary to effectuate a heat seal causes the polyethylene to bond to the wrapped product.
U.S. Pat. No. 5,250,348 (Knauf) discloses the application of a layer of polyamine, for example, polyethyleneimine (P.E.I.) coated onto the paper substrate on the side opposite of the LDPE. The use of P.E.I. allows the use of low temperature and pressure to effect a heat seal. When sealing carbonless paper, temperatures of 520 to 590 degrees Fahrenheit and pressure of 0.04 pounds per square inch and a dwell time of 1 to 1.5 seconds are sufficient. Carbonless paper is also protected with chip board on the top and bottom so contact with the molten LDPE is prevented along the longitudinal seam.
The use of this laminate as a wrapper for reams of copy paper often causes the polyethylene layer to adhere to the sheet of paper immediately adjacent the longitudinal seam. There is a need in the prior art for a wrapper for reams of paper that does not damage or bond to the paper being packaged.
It is an object of the invention to provide a wrapper for paper sealed by heat without damaging the paper.
It is another object of the invention to provide a heat shield on the inner surface of the wrapper to protect the paper.
It is another object of the invention to selectively place a heat shield to allow the proper amount of bonding.
It is another object of the invention to provide a heat shield in the form of a varnish applied during the formation of the wrapper.
These and other objects of the invention will become apparent to one of ordinary skill in the art after reviewing the disclosure of the invention.
BRIEF SUMMARY OF THE INVENTIONThe wrapper for a ream of paper has an inner surface coated with polyethylene. When the wrapper is formed about a ream of paper, the inner layer overlaps and contacts the outer layer along a longitudinal seam. The polyethylene layer is used to create a seal with the application of heat. Areas of the inner surface in proximity to a heat source during the heat sealing process and where a seal will not be beneficial are covered with a heat shield, such as a varnish. In this way, damage to the paper is avoided. The varnish includes Styrenated Acrylic polymer, with Kaolin Clay and ink. Other possible varnishes include acrylics, clay coatings, Styrene Butadiene Rubber (SBR) latex, polyvinylidene chloride, silicone and inks. The varnish is applied to the wrapper during the same manufacturing process as the polyethylene coating.
The wrapper is folded about a ream of paper. During the folding process, panels are formed in the wrapper to encapsulate the ream of paper. These panels include a set of middle panels covering the top, bottom and sides of the paper, and two sets of end panels, folded inwardly and sealed to form the ends of the package.
The ream of paper is placed in the center of the wrapper on central panel 42. The size of the panel 42 corresponds to the size of the paper being wrapped. The wrapper is folded about the ream of paper, with the panels 44 covering the sides of the ream and the bottom panels 46, 48 folded to cover the bottom of the ream of paper. The bottom panels overlap and are heat sealed together. The end panels are folded inwardly with the two side end panels 66, 68 folded against the ream of paper and the central end panel 62 overlying these two panels. The end panels are folded along lines 48-50 to complete the end seal.
If the print area is small, especially in the seal regions, the primer could be placed under the print. The primer coating can be 100% coverage or pattern coated. A pattern coating will give seals that are easier to open because the bond will fluctuate between areas of high bond force to areas of low bond force. Areas of low bond force within the seal region facilitate opening and separation of plies.
The preferred composition of the laminate is as follows:
Kraft Paper
20 lbs/3,000 ft2 to 80 lbs/3,000 ft2. Typically 50 lbs/3,000 ft2.
LDPE Coating
5 lbs/3,000 ft2 to 20 lbs/3,000 ft2. Typically 10 lbs/3,000 ft2.
Dried Varnish Coating
0.05 lbs/3,000 ft2 to 2 lbs/3,000 ft2. Typically 0.4 lbs/3,000 ft2.
Dried Primer Coating
0.005 lbs/3,000 ft2 to 2 lbs/3,000 ft2. Typically 0.02 lbs/3,000 ft2.
Kraft paper substrate 12 can be substituted with a paper/film laminate or a single film substrate.
The preferred composition of the heat shield varnish is:
Styrenated Acrylic has a Tg of 0 to 10 degrees Fahrenheit, and a melt temperature of 350 to 370 degrees Fahrenheit. Clay addition levels of 15% or higher give good release of the bottom sheet from the wrapper. Clay levels below 15% have had a slight tack of the varnish to the bottom sheet. Without the use of clay, the varnish would have the potential of sticking to the bottom of the sheet with enough force to distort the paper or dislodge portions of the surface fibers.
The effect of the P.E.I. coating on a laminate can be seen from comparing the four laminates listed below.
1. P.E.I. 100% Coverage
-
- Print 2 color 25% Coverage
- 50# White Extensible Kraft
- 10# LDPE Chevron 1019
- 0.4# Heat Shield Varnish—No Clay
2. P.E.I. 100% Coverage
-
- Print 2 color 25% Coverage
- 50# White Extensible Kraft
- 10# LDPE Chevron 1019
- 0.6# Heat Shield Varnish—No Clay
3. No P.E.I.
-
- Print 2 color 25% Coverage
- 50# White Extensible Kraft
- 10# LDPE Chevron 1019
- 0.4# Heat Shield Varnish—No Clay
4. No P.E.I.
-
- Print 2 color 25% Coverage
- 50# White Extensible Kraft
- 10# LDPE Chevron 1019
- 0.6# Heat Shield Varnish—No Clay
Heat Seal Settings:
Heat Seal Unit Manufacturer=WillPemco
Side Seal Temperatures=345 degrees Fahrenheit
Girth Seal=300 degrees Fahrenheit
Dwell Time=2 seconds
Pressure=1 to 2 psi
The characteristics of each laminate is summarized in the following Table:
Comments:
1. The heavier heat shield varnish coating weight induced a slight CD curl. Curl can cause the wrapper machine to jamb, therefore the lower varnish coating weight was preferred.
2. The slight tack to the bottom sheet did not tear the sheet, but was not considered desirable because surface fiber could become loosened or the sheet could become distorted if the tack level increased.
The effect of the amount of filler in the varnish is seen by comparing the various laminates listed below:
Comments:
1. Clay was preferred because it performed better than Aluminum Oxide as a release agent and clay is lower cost.
While the invention has been described with reference to a preferred embodiment, variations and modifications would be apparent to one of ordinary skill in the art, and the invention encompasses such variations and modifications.
Claims
1. A packaged ream of paper comprising:
- a plurality of pieces of paper stacked to form a ream of paper;
- a wrapper extending from a first side to a second side and between an upper extent and a lower extent to form an outer surface and an inner surface dimensioned to wrap about the ream of paper and form an overlap area along at least a portion of the first side and second side;
- a heat sealable polymer layer applied to at least a portion of the inner surface of the wrapper to secure the wrapper about the ream of paper when subjected to a predetermined temperature and predetermined pressure;
- a primer layer applied to at least a portion of the outer surface of the wrapper to reduce at least one of the predetermined temperature and the predetermined pressure at which the heat sealable polymer layer forms a seal; and
- a melt shield layer at least applied bordering at least a portion of the overlap area on the inner surface of the wrapper to restrict the heat sealable polymer layer from encountering the ream of paper and to protect the ream of paper from contact with molten heat sealable polymer layer when subjected to the predetermined temperature and the predetermined pressure applied to at least the overlap area to secure the wrapper about the ream of paper.
2. The packaged ream of paper of claim 1 wherein the melt shield is a includes at least one of varnish, Styrenated Acrylic polymer latex, Styrenated Acrylic polymer with Kaolin Clay, polyvinylidene chloride, silicone coating, and ink.
3. The packaged ream of paper of claim 1 wherein the primer layer is configured to reduce the predetermined pressure to less than 5 pounds/square inch (psi) and wherein the melt shield layer is configured to maintain structural stability when subjected to greater than 5 psi.
4. The packaged ream of paper of claim 1 wherein the primer layer is configured to reduce the predetermined temperature to less than 400 degrees F. and wherein the melt shied layer is configured to maintain structural stability when subjected to greater than 400 degrees F.
5. The packaged ream of paper of claim 1 wherein the primer layer includes polyethyleneimine (P.E.I.).
6. The packaged ream of paper of claim 1 wherein the heat sealable polymer is arranged along one of the first side and the second side of the wrapper and wherein the melt shield layer is applied over a portion of the heat sealable polymer to restrict the heat sealable polymer to a strip extending at an extremity of the one of the first side and the second side of the wrapper.
7. The packaged ream of paper of claim 1 wherein the heat sealable polymer layer includes a polyethylene layer.
8. The packaged ream of paper of claim 7 wherein the polyethylene layer includes low density polyethylene (LDPE).
9. The packaged ream of paper of claim 1 wherein the melt shield layer extends continuously between the upper extent and the lower extent along the overlap area.
10. The packaged ream of paper of claim 1 wherein the melt shield layer extends at least partially into the overlap area.
11. The packaged ream of paper of claim 1 wherein the heal sealable polymer layer extends over an entirety of the inner surface of the wrapper and the melt shield layer extends over the heat sealable polymer layer except along a lane extending within the overlap area on one of the first side and the second side of the wrapper.
12. The packaged ream of paper of claim 1 wherein the wrapper includes at least one paper and film.
Type: Application
Filed: Oct 22, 2007
Publication Date: Jul 23, 2009
Inventor: Gary H. Knauf (Bear Creek, WI)
Application Number: 11/876,495
International Classification: B65B 51/10 (20060101);