U.S. patent application number 13/252205 was filed with the patent office on 2012-04-05 for bag sealing tape, and banding device and banding method using the bag sealing tape.
This patent application is currently assigned to KYOWA LIMITED. Invention is credited to Yusuke Akiba, Takeshi Fujii, Atsushi Kanda, Tadashi Matsumoto, Hidekazu Oue, Tatsuya Sugiyama, Takaaki Tamada, Masaharu Taniguchi.
Application Number | 20120079793 13/252205 |
Document ID | / |
Family ID | 44925286 |
Filed Date | 2012-04-05 |
United States Patent
Application |
20120079793 |
Kind Code |
A1 |
Oue; Hidekazu ; et
al. |
April 5, 2012 |
Bag Sealing Tape, and Banding Device and Banding Method Using the
Bag Sealing Tape
Abstract
An objective of the present invention is to provide a bag
sealing tape which can be repeatedly used without damaging a banded
object such as a bag or the like when the object is opened, and
which does not have to be separated for disposal; and a banding
device and a banding method using the bag sealing tape. The bag
sealing tape of the present invention includes adhesion zones and
non-adhesion zones, and the adhesion zones are disposed on the
surface of a base film in a stepping stone manner in a length
direction of the base film.
Inventors: |
Oue; Hidekazu; (Osaka,
JP) ; Akiba; Yusuke; (Osaka, JP) ; Sugiyama;
Tatsuya; (Osaka, JP) ; Kanda; Atsushi; (Osaka,
JP) ; Tamada; Takaaki; (Osaka, JP) ;
Matsumoto; Tadashi; (Osaka, JP) ; Taniguchi;
Masaharu; (Osaka, JP) ; Fujii; Takeshi;
(Osaka, JP) |
Assignee: |
KYOWA LIMITED
Osaka
JP
|
Family ID: |
44925286 |
Appl. No.: |
13/252205 |
Filed: |
October 4, 2011 |
Current U.S.
Class: |
53/417 ; 428/189;
428/77; 53/129.1; 53/419 |
Current CPC
Class: |
C09J 2301/204 20200801;
B65B 51/065 20130101; Y10T 428/24752 20150115; B65B 57/04 20130101;
C09J 7/22 20180101; C09J 7/30 20180101; B65B 61/06 20130101; C09J
121/00 20130101; B65B 67/06 20130101; B65D 33/165 20130101; C09J
7/38 20180101 |
Class at
Publication: |
53/417 ;
53/129.1; 53/419; 428/77; 428/189 |
International
Class: |
B65B 51/06 20060101
B65B051/06; C09J 7/02 20060101 C09J007/02; B32B 3/14 20060101
B32B003/14 |
Foreign Application Data
Date |
Code |
Application Number |
Oct 4, 2010 |
JP |
2010-225260 |
Claims
1. A bag sealing tape comprising adhesion zones and non-adhesion
zones, wherein adhesion layers forming the adhesion zones are
adhered to a surface of a base film in a stepping stone manner in a
length direction of the base film.
2. The bag sealing tape according to claim 1, wherein when two of
the adhesion layers are adhered together, a peeling strength (A)
required for separating the two is smaller than an adhesion
strength (B) between one of the adhesion layers and the base
film.
3. The bag sealing tape according to claim 2, wherein the peeling
strength (A) is from 0.1 to 10 N/10 mm.
4. The bag sealing tape according to claim 1, wherein a ratio of a
length of one of the adhesion zones to a length of one of the
non-adhesion zones in the length direction of the bag sealing tape
is from 9:1 to 1:1.5.
5. The bag sealing tape according to claim 1, wherein when one the
non-adhesion zones having a cutting reference position is cut at
the cutting reference position to obtain a first non-adhesion zone
and a second non-adhesion zone, a length (h1) of the first
non-adhesion zone and a length (h2) of the second non-adhesion zone
are both lengths holdable by a user.
6. The bag sealing tape according to claim 1, wherein each of the
adhesion zones is a zone traversing the base film in a width
direction thereof.
7. A banding device using a bag sealing tape which includes
non-adhesion zones, and adhesion zones that are disposed on a
surface of a base film in a stepping stone manner in a length
direction of the base film, the banding device comprising: a tape
holder for holding the bag sealing tape which is wound; cutting
means; and a cutting reference position adjusting mechanism,
wherein when one of the non-adhesion zones of the bag sealing tape
is cut by the cutting means to obtain a first non-adhesion zone and
a second non-adhesion zone, the cutting reference position
adjusting mechanism adjusts a cutting reference position such that
a difference (h1-h2) between a length (h1) of the first
non-adhesion zone and a length (h2) of the second non-adhesion zone
becomes a length recognizable as a holding part by a user after the
cutting, and the cutting means is means for cutting the bag sealing
tape, which has a cutting reference position adjusted by the
cutting reference position adjusting mechanism, at the cutting
reference position after the adjusting.
8. The banding device according to claim 7, the cutting reference
position adjusting mechanism including a gear shaped winding
roller, a retention section, and a piston mechanism disposed at the
retention section, wherein the bag sealing tape is arranged so as
to envelop a gear of the winding roller, and a tip portion of the
gear of the winding roller abuts the retention section via the bag
sealing tape enveloping the tip portion of the gear, and the piston
mechanism is a mechanism for adjusting, in a state where the tip
portion of the gear abuts the retention section, the bag sealing
tape, which is enveloping the tip portion of the gear, to a cutting
reference position by urging the bag sealing tape in a direction of
a trough portion of the gear.
9. The banding device according to claim 8, further comprising a
holding mechanism at a position preceding the winding roller,
wherein the holding mechanism holds the non-adhesion portions of
the bag sealing tape, and functions as a stopper for controlling an
amount of movement of the bag sealing tape.
10. A banding method using a bag sealing tape which includes
non-adhesion zones, and adhesion zones that are disposed on a
surface of a base film in a stepping stone manner in a length
direction of the base film, the method comprising: (1) a drawing
step of drawing out, from a tape holder holding the bag sealing
tape which is wound, the bag sealing tape by a cutting reference
position adjusting mechanism; (2) a banding step of guiding the
drawn bag sealing tape to a gear shaped winding roller which
includes a trough portion for guiding an object to be banded, and
guiding and banding the to-be-banded object while pressing thereof
against the trough portion via the guided bag sealing tape; and (3)
a cutting step of cutting one of the non-adhesion zones by cutting
means disposed at a position following the winding roller to obtain
a first non-adhesion zone and a second non-adhesion zone, such that
a difference (h1-h2) between a length (h1) of the first
non-adhesion zone and a length (h2) of the second non-adhesion zone
becomes a length recognizable as a holding part by a user.
11. The banding method according to claim 10, the cutting reference
position adjusting mechanism including a gear shaped winding
roller, a retention section, and a piston mechanism disposed at the
retention section, wherein the bag sealing tape is arranged so as
to envelop a gear of the winding roller, and a tip portion of the
gear of the winding roller abuts the retention section via the bag
sealing tape enveloping the tip portion of the gear, and the piston
mechanism is a mechanism which adjusts, in a state where the tip
portion of the gear abuts the retention section, the bag sealing
tape, which is enveloping the tip portion of the gear, to a cutting
reference position by forward and backward urgings of the bag
sealing tape in a direction of a trough portion of the gear.
Description
BACKGROUND OF THE INVENTION
[0001] 1. Field of the Invention
[0002] The present invention relates to a bag sealing tape, and a
banding device and a banding method using the bag sealing tape. In
more detail, the present invention relates to a bag sealing tape
capable of being repeatedly used without damaging an object that is
banded by the bag sealing tape; and the present invention also
relates to a banding device and a banding method using the bag
sealing tape.
[0003] 2. Description of the Background Art
[0004] Conventionally, bread, confectioneries, vegetables, fruits,
fresh noodles, frozen food, etc., are placed in a to-be-banded
object such as a plastic bag and the like, and then an opening of
the bag (neck of the bag) is banded with a single-sided pressure
sensitive adhesive tape by using a banding device. In such a case,
the pressure sensitive adhesive tape is placed on the neck of the
to-be-banded object so as to form a ring, and adhesion zones at
both ends of the pressure sensitive adhesive tape are stuck
together so as to overlap with each other. Therefore, it is
difficult to peel off this pressure sensitive adhesive tape when
opening the bag, and it is often the case where the bag is torn, or
the pressure sensitive adhesive tape or the banded object is cut
with scissors to take out contents of the bag. Thus, opening a
banded object takes time and effort, and contents remaining in the
banded object have to be transferred to another container in to be
preserved.
[0005] On the other hand, there have been known repeatedly usable
resin-made banding materials that has a metal core body (e.g.,
wire). To band an object, such a resin-made banding material is
wound around a neck of a to-be-banded object and both ends of the
material are twisted together; and to take out contents, a twisted
portion thereof is unraveled to open the banded object. However, it
has been inconvenient when disposing of such banding materials,
since it is necessary to separate the resin from the wire for
proper disposal of different types of materials.
[0006] In order to solve such a problem, Patent Literature 1
(Japanese Laid-Open Patent Publication No. 2003-335307) discloses a
banding device and a banding structure which can be easily torn
when opening a banded object.
[0007] However, according to the banding structure disclosed in
Patent Literature 1, although the possibility of damaging the bag
is reduced, the banding structure cannot be repeatedly used and
thereby a sufficient solution is not provided with regard to
preservation of contents remaining in the bag.
SUMMARY OF THE INVENTION
[0008] Therefore, an objective of the present invention is to
provide: a bag sealing tape which can be repeatedly used without
damaging a banded object such a bag or the like when it is opened,
and which does not have to be separated for disposal; and a banding
device and a banding method using the bag sealing tape.
[0009] The bag sealing tape of the present invention is a bag
sealing tape including adhesion zones and non-adhesion zones.
Adhesion layers forming the adhesion zones are adhered to the
surface of a base film in a stepping stone manner in a length
direction of the base film. A user can easily hold the non-adhesion
zones when opening a banding body, and thereby the bag sealing tape
is convenient when being opened.
[0010] When two of the adhesion layers are adhered together, a
peeling strength (A) required for separating the two is preferably
smaller than an adhesion strength (B) between one of the adhesion
layers and the base film. More preferably, the peeling strength (A)
is from 0.1 to 10 N/10 mm. The adhesion zones adhered to the base
film will not be peeled off when the user is opening a banding
body. Therefore, in a case where a bag is banded again to preserve
remaining contents, the bag sealing tape of the present invention
can be repeatedly used with further certainty.
[0011] Preferably, a ratio of a length of one of the adhesion zones
to a length of one of the non-adhesion zones in the length
direction of the bag sealing tape is from 9:1 to 1:1.5. With this,
yield rate will improve since the bag sealing tape does not have
excess adhesion zones or non-adhesion zones.
[0012] When one of the non-adhesion zones having a cutting
reference position is cut at the cutting reference position to
obtain a first non-adhesion zone and a second non-adhesion zone, a
length (h1) of the first non-adhesion zone and a length (h2) of the
second non-adhesion zone are both preferably lengths that can be
held effortlessly by the user. The difference (h1-h2) between
lengths of both non-adhesion zones is provided to enable both of
the overlapping holding parts to be easily recognized and easily
picked up by the user in the case where the user tries to open a
banded portion by expanding the holding parts rightward and
leftward or upward and downward, i.e., in opposing directions. A
gap may be provided between both of the holding parts that overlap
with each other after being banded, by embossing the whole surface
of one part of the non-adhesion zone. As a result, convenience when
holding the holding parts improves.
[0013] Each of the adhesion zones is preferably a zone traversing
the base film in a width direction thereof. By having each of the
adhesion zones of the bag sealing tape traversing the base film in
the width direction, banding by using the banding body can be
conducted with more certainty.
[0014] Furthermore, a banding device of the present invention is a
banding device using a bag sealing tape which includes non-adhesion
zones, and adhesion zones that are disposed on a surface of a base
film in a stepping stone manner in a longitudinal direction of the
base film. The banding device includes a tape holder for holding
the wound bag sealing tape, cutting means, and a cutting reference
position adjusting mechanism. When one of the non-adhesion zones of
the bag sealing tape is cut by the cutting means to obtain a first
non-adhesion zone and a second non-adhesion zone, the cutting
reference position adjusting mechanism adjusts a cutting reference
position such that a difference (h1-h2) between a length (h1) of
the first non-adhesion zone and a length (h2) of the second
non-adhesion zone becomes a length that can be recognized by the
user as a holding part after the cutting. The cutting means is
means for cutting the bag sealing tape, which has a cutting
reference position adjusted by the cutting reference position
adjusting mechanism, at the cutting reference position after the
adjusting. When banding a to-be-banded object by using the bag
sealing tape, the banding device can set the difference (h1-h2) of
the non-adhesion zones at a length that the user can hold on, and
thereby opening of the banding body becomes easy.
[0015] The cutting reference position adjusting mechanism
preferably includes a gear shaped winding roller, a retention
section, and a piston mechanism disposed at the retention section.
Preferably, the bag sealing tape is arranged so as to envelop a
gear of the winding roller, and a tip portion of the gear of the
winding roller abuts the retention section via the bag sealing tape
enveloping the tip portion of the gear. Preferably, the piston
mechanism is a mechanism for adjusting, in a state where the tip
portion of the gear abuts the retention section, a cutting
reference position by urging the bag sealing tape, which is
enveloping the tip portion of the gear, in a direction of a trough
portion of the gear. With this, the banding device can adjust the
cutting reference position of the bag sealing tape with more
certainty, and a secure banding can be better reproduced.
[0016] Preferably, the banding device further includes a holding
mechanism at a position preceding the winding roller. Preferably,
the holding mechanism holds the non-adhesion portions of the bag
sealing tape, and functions as a stopper for controlling an amount
of movement of the bag sealing tape. With this, for example, even
when the present banding device is automated and the banding bodies
are mass-produced, the banding device can adjust the cutting
reference position of the bag sealing tape with more certainty.
[0017] Furthermore, a banding method of the present invention is a
banding method using the bag sealing tape which includes
non-adhesion zones, and adhesion zones that are disposed on a
surface of a base film in a stepping stone manner in a length
direction of the base film. The banding method includes: (1) a
drawing step of drawing out, from a tape holder holding the bag
sealing tape which is wound, the bag sealing tape by a cutting
reference position adjusting mechanism; (2) a banding step of
guiding the drawn bag sealing tape to a gear shaped winding roller
which includes a trough portion for guiding a to-be-banded object,
and guiding and banding the to-be-banded object while pressing
thereof against the trough portion via the guided bag sealing tape;
and (3) a cutting step of cutting one of the non-adhesion zones by
cutting means disposed at a position following the winding roller
to obtain a first non-adhesion zone and a second non-adhesion zone,
such that a difference (h1-h2) between a length (h1) of the first
non-adhesion zone and a length (h2) of the second non-adhesion zone
becomes a length recognizable as a holding part by a user. When
banding a to-be-banded object by using the bag sealing tape, the
banding method can set the difference (h1-h2) of the non-adhesion
zones at a length that allows the holding part to be recognizable
by the user, and thereby opening of the banding body becomes
easy.
[0018] Preferably, the cutting reference position adjusting
mechanism includes a gear shaped winding roller, a retention
section, and a piston mechanism disposed at the retention section.
Preferably, the bag sealing tape is arranged so as to envelop a
gear of the winding roller, and a tip portion of the gear of the
winding roller abuts the retention section via the bag sealing tape
enveloping the tip portion of the gear. Preferably, the piston
mechanism is a mechanism which adjusts, in a state where the tip
portion of the gear abuts the retention section, a cutting
reference position by urging the bag sealing tape, which is
enveloping the tip portion of the gear, forward and backward in a
direction of a trough portion of the gear. With this, the banding
method can adjust the cutting reference position of the bag sealing
tape with more certainty, and a secure banding can be reproduced
better. For example, even when a factory line is automated by using
the present banding method and the banding bodies are
mass-produced, the cutting reference position of the bag sealing
tape can be adjusted with more certainty.
[0019] The present invention can provide: a bag sealing tape which
can be repeatedly used without damaging a to-be-banded object such
as a bag or the like when the banded object is opened, and which
does not have to be separated for disposal; and a banding device
and a banding method using the bag sealing tape.
[0020] These and other objects, features, aspects and advantages of
the present invention will become more apparent from the following
detailed description of the present invention when taken in
conjunction with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0021] FIG. 1 is a side view of a bag sealing tape according to one
embodiment (Embodiment 1) of the present invention;
[0022] FIG. 2 is a plain view of the bag sealing tape according to
one embodiment (Embodiment 1) of the present invention;
[0023] FIG. 3 is a side view of a bag sealing tape according to one
embodiment (Embodiment 2) of the present invention;
[0024] FIG. 4 is a schematic diagram for describing a banding
device according to one embodiment (Embodiment 3) of the present
invention;
[0025] FIG. 5 is a schematic diagram for describing the banding
device according to one embodiment (Embodiment 3) of the present
invention;
[0026] FIG. 6 is a schematic diagram for describing a banding body
for banding an object by using the banding device according to one
embodiment (Embodiment 3) of the present invention; and
[0027] FIG. 7 is a schematic diagram for describing a cutting
reference position adjusting mechanism of the banding device
according to one embodiment (Embodiment 3) of the present
invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
Embodiment 1
[0028] A bag sealing tape 1 according to Embodiment 1 of the
present invention is shown in FIG. 1 and FIG. 2. The bag sealing
tape 1 of the present embodiment is a bag sealing tape including
non-adhesion zones 3 and adhesion zones 2. Adhesion layers 2a
forming the adhesion zones 2 are adhered to the surface of a base
film 4 in a stepping stone manner in the length direction of the
base film 4. Thus, by having a pressure sensitive adhesive applied
on the surface of the base film 4, the adhesion zones 2 formed by
the adhesion layers 2a are obtained, and the zones not having the
pressure sensitive adhesive applied thereon form the non-adhesion
zones 3.
[0029] The base film 4 is a long film, and there is no particular
limitation in its material, and examples thereof include a film, a
paper, a nonwoven fabric, a cloth, or a lamination of one or more
of those, which consists of polyolefin resins such as polyethylene
and polypropylene, polyester resins such as polyethylene
terephthalate (PET), aromatic vinyl resins such as vinyl chloride
resins, acrylic resins, and polystyrene, synthetic resins such as
polyamide resins, polyimide resins, polycarbonate resins, and
cellulose triacetate, or biodegradable resins such as polylactic
acid. From a standpoint of easily banding an object 5 and having a
proper hardness, PET and biaxial oriented polypropylene (OPP) are
preferable.
[0030] It should be noted that materials obtained by coloring or
printing letters and pictures on these base materials may be
selected and used as appropriate.
[0031] PET is used in the present embodiment. The thickness of the
base film 4 is preferably from 16 .mu.m to 100 .mu.m, more
preferably from 20 .mu.m to 75 .mu.m, and particularly preferably
from 25 .mu.m to 50 .mu.m. If the thickness is smaller than 16
.mu.m, an obtained tape tends to have problems such as splitting,
stretching, or being difficult to be wound on the object 5 due to
not having elasticity. If the thickness is larger than 100 .mu.m,
it tends to be difficult to wind the tape on the object 5 due to
being too hard.
[0032] The pressure sensitive adhesive includes, acrylic pressure
sensitive adhesives, semisolid acrylic copolymers, rubber pressure
sensitive adhesives, hot melt pressure sensitive adhesives,
emulsion pressure sensitive adhesives, UV curable pressure
sensitive adhesives, and the like. Rubber pressure sensitive
adhesives are preferable from the standpoint of having superior
initial adhesive force. In the present embodiment, a rubber
pressure sensitive adhesive is used.
[0033] Those that are preferable when blended in the pressure
sensitive adhesive include natural rubber as a base polymer if
necessary, other polymers, tackifying resins, antiaging agents,
inorganic fillers, softening agents, and the like.
[0034] Such other polymers include butyl rubbers, butadiene
rubbers, isobutylene rubbers, chloroprene rubbers,
styrene-butadiene rubbers, styrene-butadiene-styrene
copolymerization rubbers, styrene-isoprene-styrene copolymerization
rubbers and the like. The blend amount of the other polymer is from
30 to 90 wt % with respect to 100 parts by weight of the pressure
sensitive adhesive. Used in the present embodiment are 15 wt % of
natural rubber, 30 wt % of AMERIPOL 1013N as a styrene-butadiene
rubber, and 15 wt % of Quintac 3433N as a styrene-isoprene-styrene
copolymerization rubber.
[0035] The tackifying resins include hydrogenated petroleum resins,
aliphatic petroleum resins, aromatic petroleum resins,
aliphatic/aromatic copolymerized petroleum resins, alicyclic
petroleum resins, rosin based resins, terpene resins, terpene
phenolic resins, coumarone-indene resins, and the like. The blend
amount of a tackifying resin is from 10 to 70 wt % with respect to
100 parts by weight of the pressure sensitive adhesive. Used in the
present embodiment are 13 wt % of YS resin PX1000 as a terpene
phenolic resin, and 5 wt % of Arkon P-100 and 10 wt % of Arkon P-90
as hydrogenated petroleum resins.
[0036] The blend amount of an antiaging agent is from 0.1 to 10
parts by weight with respect to 100 parts by weight of the pressure
sensitive adhesive. In the present embodiment, 1 wt % of Yoshinox
425, 10 parts by weight of zinc white No. 3 as zinc which is an
inorganic filler, and 1 part by weight of KRONOS KA-10 as titanium
oxide which is a pigment are used.
[0037] The thickness of the adhesion layers 2a is preferably from
10 .mu.m to 25 .mu.m, more preferably from 15 .mu.m to 20 .mu.m,
and particularly preferably from 17 .mu.m to 20 .mu.m. If the
thickness is smaller than 10 .mu.m, an obtained adhesive power is
not sufficient and faulty bandings tend to occur. If the thickness
is larger than 25 .mu.m, the adhesive power is too strong and it
becomes difficult to open the bag or the banded object 5 will be
damaged upon opening; therefore, the objective of the present
invention, which is not to damage the banded object 5 but to enable
easy opening and re-banding, may not be achieved.
[0038] There is no particular limitation in the method for applying
the pressure sensitive adhesive on the base film 4, and various
widely used methods can be used, including application methods
using instruments such as brushes, spatulas, rollers, and caulking
guns, and coating methods using dedicated equipment for mass
production such as air sprays, nozzle sprays, roll coaters, beads,
and the like. In the present embodiment coating is performed by
using a die coater. Preferably, the base film is coated with a
primer in accordance with needs, before having the pressure
sensitive adhesive coated thereon.
[0039] As shown in FIG. 2, in the present embodiment, the adhesion
zones 2 are disposed on the surface of the base film 4 in a
stepping stone manner in the longitudinal direction of the base
film 4. As a result, for example, when a cutting reference position
C of one of the non-adhesion zones 3 is cut and the object 5 is
banded, the object 5 can be sufficiently banded by the adhesion
zones 2, and the non-adhesion zones 3 will appear at the ends of
the bag sealing tape 1 after the cutting. Therefore, the user can
easily hold the ends of the non-adhesion zones 3, and the bag or
the bag sealing tape 1 itself will not be damaged when opening the
bag.
[0040] When the strength required for peeling two adhere adhesion
zones 2 is defined as a peeling strength (A), and when the adhesion
strength between the adhesion zones 2 and the base film 4 is
defined as an adhesion strength (B), the peeling strength (A) is
preferably smaller than the adhesion strength (B). The peeling
strength (A) is further preferably from 0.1 to 10 N/10 mm,
particularly preferably from 1 to 8 N/10 mm, and extremely
preferably from 3 to 5 N/10 mm. For example, there are cases where,
when banding the object 5, the length of one of the adhesion zones
2 is greater than the thickness (mid-portion circumference) of the
banded object 5 and thereby the one adhesion zone 2 adheres itself.
However, even in such cases, by having the peeling strength (A)
smaller than the adhesion strength (B), when releasing the band,
the adhesion zone 2 will not be peeled off the base film 4 due to
one of the adhesion zones 2 strongly adhering to itself. As a
result, re-banding is possible, and repeated use can be achieved
for the tape.
[0041] The length of the adhesion zones 2 needs to be adjusted
depending on the thickness (mid-portion circumference) of the
banded object 5. The length of the adhesion zones 2 is not
particularly limited, and is generally a length of about 40 to 90
mm; and for this length, at minimum, about 5 to 10 mm of the
non-adhesion zones 3 is necessary. The length of the non-adhesion
zones 3 is also not particularly limited, and any length can be
used as long as the length of the non-adhesion zones 3 is one that
can be held by the user, and as long as the length of the
non-adhesion zones 3 is in a range that does not cause a faulty
banding due to having the length of the non-adhesion zones 3 being
too lengthy thus inevitably having the length of the adhesion zones
2 too short. When represented in ratio, the ratio of the length of
the adhesion zones 2 to the length of the non-adhesion zones 3 is
preferable from 9:1 to 1:1.5, further preferably from 7:1 to 1:1.2,
and particularly preferably from 4:1 to 1:1. The sum (hereinafter,
referred to as 1 pitch) of the length of one of the adhesion zones
2 and the length of one of the non-adhesion zones 3 is preferably
about 45 mm to 100 mm, further preferably from 60 mm to 90 mm, and
particularly preferably from 70 to 85 mm. Due to the relationship
the ratio of lengths described above, if a 1-pitch length is
shorter than 45 mm, the non-adhesion zones 3 becomes extremely
short, and thereby it tends to be difficult for the user to hold
on. Furthermore, if the 1-pitch length is longer than 100 mm,
excessive adhesion zones 2 and non-adhesion zones 3 are produced
and convenience tends to deteriorate.
[0042] When one of the non-adhesion zones 3 is cut at the cutting
reference position C to obtained a first non-adhesion zones 3a and
a second non-adhesion zone 3b, a difference (h1-h2) between a
length (h1) of the first non-adhesion zone 3a and a length (h2) of
the second non-adhesion zone 3b is preferably a length recognizable
by the user as a holding part. Here, although "a length
recognizable by the user as a holding part" cannot be strictly
defined since it is influenced by each user's skill level, it is
conceivable that many users will recognize a length as a holding
part if it is, for example, 0.5 mm or longer.
[0043] With the bag sealing tape 1 according to the present
embodiment, a bag sealing tape, which can be repeatedly used
without damaging the banded object 5 such as a bag or the like when
opening the object 5, and which does not have to be separated for
disposal, can be provided.
Embodiment 2
[0044] A bag sealing tape 6 according to the present embodiment is
shown in FIG. 3. The bag sealing tape 6 of the present embodiment
does not differ from the bag sealing tape 1 of Embodiment 1, except
that adhesion zones 7 are zones that traverse the base film 4 in
the width direction.
[0045] In the present embodiment, the adhesion zones 7 traverse the
base film 4 in the width direction. As a result, convenience when
re-pasting a tape is improved, since adhesion area is larger and
the user can easily re-paste a bag sealing tape without using a
special banding device after opening the bag sealing tape which has
been banding the banded object 5.
[0046] Except for the difference described above, the materials,
lengths, and physical properties of the base film 4, the
non-adhesion zones 3, and the like are similar to those in
Embodiment 1; and descriptions of those are omitted and reference
characters identical to those in Embodiment 1 are given in FIG. 3.
Furthermore, the material, length, physical properties, and the
like of the adhesion zones 7 are similar to the adhesion zones 2 of
Embodiment 1.
[0047] With the bag sealing tape 6 of the present embodiment, in
addition to the advantageous effects obtained by the bag sealing
tape 1 of Embodiment 1, an advantageous effect of an ability to
band the object 5 with more certainty can be obtained, since the
adhesion zones 7 traverse the base film in the width direction.
Embodiment 3
[0048] Described in the present embodiment are a banding device 8
using the bag sealing tape 1 of Embodiment 1, and a banding method
using the bag sealing tape 1 of Embodiment 1. FIG. 4 shows a
schematic diagram of the banding device 8 of present embodiment. In
FIG. 4, parts (a housing of the banding device 8, etc.) that are
not particularly important for describing the banding device 8 of
the present embodiment are omitted as appropriate.
[0049] The banding device 8 of the present embodiment is a banding
device using the bag sealing tape 1. The bag sealing tape 1
includes the non-adhesion zones 3 and the adhesion zones 2. The
adhesion zones 2 are disposed on the surface of the base film 4 in
a stepping stone manner in the longitudinal direction of the base
film 4. The materials, lengths, and physical properties of the bag
sealing tape 1, the base film 4, the adhesion zones 2, the
non-adhesion zones 3, and the like are similar to those in
Embodiment 1; and descriptions of those are omitted and reference
characters identical to those in Embodiment 1 are given in FIG.
4.
[0050] The banding device 8 of the present embodiment includes a
tape holder 9 for holding the bag sealing tape 1 which is wound,
cutting means 10, and a cutting reference position adjusting
mechanism 11. The cutting means is means for cutting, at the
cutting reference position C, the bag sealing tape 1 whose cutting
reference position C is adjusted by the cutting reference position
adjusting mechanism 11. When the bag sealing tape 1 is cut by the
cutting means 10 and one of the non-adhesion zones 3 is cut to
obtain the first non-adhesion zone 3a and the second non-adhesion
zone 3b, the cutting reference position adjusting mechanism 11 is a
mechanism that adjusts a cutting reference position such that the
difference (h1-h2) between the length (h1) of the first
non-adhesion zone 3a and the length (h2) of the second non-adhesion
zone 3b becomes a length that can be recognized by the user as a
holding part G after the cutting.
[0051] When the bag sealing tape 1 is loaded on the banding device
8, as shown in FIG. 4, the bag sealing tape 1 is wound on the tape
holder 9 and is retained in a housing (not shown) of the banding
device 8. A bag sealing tape 1 drawn out of the tape holder 9 is
fed, via a guide roller, to the cutting reference position
adjusting mechanism 11 located at a position following the tape
holder 9, and is cut by the cutting means 10 after the object 5 has
been banded.
[0052] When the bag sealing tape 1 is cut by the cutting means 10
and one of the non-adhesion zones 3 is cut to obtain the first
non-adhesion zone 3a and the second non-adhesion zone 3b, the
cutting reference position adjusting mechanism 11 is a mechanism
that adjusts the cutting reference position C such that the
difference (h1-h2) between the length (h1) of the first
non-adhesion zone 3a and the length (h2) of the second non-adhesion
zone 3b becomes a length that can be recognized by the user as the
holding part G after the cutting.
[0053] The cutting reference position adjusting mechanism 11
includes a gear shaped winding roller 12, a retention section 13,
and a piston mechanism 14 disposed at the retention section 13. As
shown in FIG. 4, the bag sealing tape 1 is arranged so as to
envelop a ridge portion 12a of a gear of the winding roller 12, and
the ridge portion 12a of the gear of the winding roller 12 abuts
the retention section 13 via the bag sealing tape 1 enveloping the
ridge portion 12a. The piston mechanism 14 is a mechanism for
adjusting, in a state where the ridge portion 12a of the gear abuts
the retention section 13, the cutting reference position C by
urging the bag sealing tape 1, which envelops the ridge portion
12a, forward and backward in a direction of a trough portion 12b of
the gear.
[0054] As shown in FIG. 4, the to-be-banded object 5 is guided to
the trough portion 12b of the winding roller 12 enveloped by the
bag sealing tape 1. The adhesion zones 2 of the bag sealing tape 1
adhere to the surface of the object 5 which has been guided. In
this state where the object 5 is being pressed, the winding roller
12 is rotated in a clockwise direction in FIG. 4. As a result, the
circumference of the object 5 is wrapped by the bag sealing tape 1.
Since the cutting means 10 has not been operated at this point in
time, a predetermined length of the bag sealing tape 1 is drawn out
from the tape holder 9 in accordance with the advance of the object
5.
[0055] Next, when the object 5 travels to where it is shown in FIG.
5, a cutting lever 15 of the cutting means 10 is pressed, and one
of the non-adhesion zones 3 of the bag sealing tape 1 is cut by a
cutting section 10a disposed at the tip of the cutting means 10. At
this point, the cutting reference position C is at a position shown
by an arrow A, and the length (h1) of the first non-adhesion zone
3a obtained by a cut at such position is longer than the length
(h2) of the second non-adhesion zone 3b as shown in FIG. 6.
Therefore, the holding part G, which is to be recognized by the
user when opening the banding body, is provided.
[0056] After the cutting, the cutting lever 15 is returned to a
position before the cutting by an urging member (not shown) such as
a spring and the like. In the present embodiment, such urging
member, and the piston mechanism and a later described holding
mechanism 16 are connected to a cylinder mechanism (not shown)
filled with air. When the cutting lever 15 is returned to the
position before the cutting, the piston mechanism 14 in cooperation
with the cylinder mechanism presses the bag sealing tape 1
enveloping the ridge portion 12a of the winding roller 12, toward a
direction of the trough portion 12b of the gear, as shown in FIG.
7. Next, fine adjustment of a new position of the bag sealing tape
1 which has been already drawn out for the predetermined length is
conducted in the length direction, and preparation for banding a
new object 5 is completed.
[0057] In the present embodiment, as shown in FIG. 4 and FIG. 5,
the holding mechanism 16 is disposed at a position preceding the
winding roller 12. The holding mechanism 16 is a mechanism that
operates in cooperation with the above described cylinder mechanism
when the cutting lever 15 is pressed by the object 5, and functions
as a stopper for controlling the amount of movement of the bag
sealing tape 1 by holding the non-adhesion zones 3 of the bag
sealing tape 1. As described above, when the bag sealing tape 1 is
wound on the object 5, the bag sealing tape 1 rotates the winding
roller 12 to newly draw out a predetermined length of the bag
sealing tape 1 from the tape holder 9. Furthermore, as described
above, fine adjustment of the position of the new bag sealing tape
1 is conducted through cooperation of the piston mechanism 14 and
the cylinder mechanism when the cutting has been performed. The
holding mechanism 16 holds the non-adhesion zones 3 of the bag
sealing tape 1 such that the bag sealing tape 1 will not be
excessively drawn out by mistake when fine adjustment of the
initial position of the bag sealing tape 1 is conducted, and the
holding mechanism 16 functions as a stopper for controlling the
amount of movement of the bag sealing tape 1. Such mechanism is
enabled by adjustment through the cylinder mechanism conducted
slightly prior to the operation of the piston mechanism 14. With
this, accurate adjustment of the initial position of the bag
sealing tape 1 is possible.
[0058] With the present embodiment, the banding device 8 and the
banding method can be provided for the bag sealing tape 1, which
can be repeatedly used without damaging the banded object 5 such as
a bag or the like when opening the object 5, and which does not
have to be separated for disposal.
[0059] In Embodiments 1 to 3, although an intermittent coating
method for forming an adhesion layer on the base film is employed
as a method to form the adhesion zone, the present invention is not
limited to such method. A method may be employed in which an
adhesion layer is provided on the whole surface of the base film
and then adhesive power of one part of the adhesion layer is
weakened. The method for weakening the adhesive power includes, for
example, a method of locally spraying a powder, a method of
applying a mold releasing agent, and a method of pasting another
member (film, paper, etc.); however, the present invention is not
particularly limited thereto. Furthermore, in Embodiment 3, a
configuration including a piston mechanism, a cylinder mechanism,
and cutting means has been described; however the present invention
is not limited to such configuration, and, for example, the piston
mechanism may be omitted, the cylinder mechanism may be omitted,
and a spring may be employed instead of the piston mechanism.
Furthermore, a sensor function may be provided instead of these
mechanisms; and various mechanisms can be adopted without any
limitation as long as fine adjustment of the cutting reference
position is possible.
[0060] A bag sealing tape of the present invention will be
described in detail by means of examples in the following.
[0061] Evaluation methods are described below.
1. Self-Adhesion Retention Force
[0062] A bag sealing tape having a width of 20 mm and a length of
150 mm was cut, and a part of the tape's adhesion layer was pasted
to another part thereof with one round-trip of compression bonding
by using a 2 kg rubber roller. With one round-trip of compression
bonding using a 2 kg rubber roller, one end of the tape was pasted
onto a SUS304 steel grinded by a #280 waterproof abrasive paper.
After the tape has been kept still for 20 minutes, a 170 g load was
placed on the other end at 40.degree. C., and the time required for
the load to drop was measured.
2. Retention Strength (Shifting Distance)
[0063] A polypropylene bag (a bag constituting an object to be
banded in the examples) was banded by using a banding device
(Pylori Bag Sealer Ace manufactured by KYOWA Ltd.); and a mark was
placed on the tape at a position closest to the bag where the
adhesion layers were pasted together. After keeping it still for 4
days, a shifting distance, which is generated due to peeling,
between the mark and where the adhesion layers were pasted together
after being kept was measured.
3. Self-Adhesion Force
[0064] A bag sealing tape having a width of 20 mm was cut, and the
tape's adhesion layer was pasted to itself with one round-trip of
compression bonding by using a 2 kg rubber roller. 20 minutes after
the pasting, the pasted bag sealing tape was fixed on a tension
test machine (Autograph type AGS-J manufactured by Shimadzu
Corporation), and a T-type peeling was performed at a tension speed
of 300 mm/min. The peeling force was measured and was used as a
self-adhesion force.
4. Practical-use Test
[0065] Bag sealing tapes prepared in Examples 1 to 6, Comparative
Example 1, and Comparative Example 2 were banded by using a banding
device according to Embodiment 3, and respective banded states of
those were evaluated. Evaluations of the banded states were
conducted by a focus group consisting of 4 people (2 males and 2
females; average age of 43), and the ease of opening a bag sealing
tape in a banded state was evaluated. The following standards were
used for evaluation.
Band Integrity
[0066] .circleincircle.: Banding can be performed without any
problem. .largecircle.: No problem in the banding itself, but the
shifting distance was a concern. .DELTA.: Although banding was
maintained, the shifting distance was large and sealing performance
was deficient. x: Insufficient banding, or the bag was not
banded.
Openability
[0067] .circleincircle.: The holding part can be easily held, and
the bag can be opened. .largecircle.: The holding part can be
recognized, and the bag can be opened. x1: The holding part cannot
be held, and even if it could be held, the bag cannot be opened.
x2: The bag cannot be opened, or the bag was torn when being
opened. -: Evaluation was not conducted since the bag was not
banded.
Re-pasting Ability
[0068] .circleincircle.: Re-pasting can be easily performed without
any problem. .largecircle.: Although there was a slight decrease in
adhesive power, re-pasting can be conducted. .DELTA.: Although
there was a decrease in adhesive power, re-pasting can be
conducted. -: Evaluation was not conducted since the bag was not
banded, the bag cannot be opened, or the bag was torn.
[0069] *With regard to tearing in the bag, those that were not torn
were represented as .largecircle., and those that were torn were
represented as x.
Overall Evaluation
[0070] .circleincircle.: Satisfactory in band integrity,
openability, and re-pasting ability. .largecircle.: Almost
satisfactory in band integrity, openability, and re-pasting
ability. .DELTA.: Basically satisfactory, although the level of
satisfaction varied from person to person. x: Unsuitable for
practical use.
[0071] The used materials are shown in the following.
Base film: A 38 .mu.m PET film (absent of any printings)
(manufactured by Futamura Chemical Co., Ltd.)
Pressure Sensitive Adhesive:
[0072] Natural rubber
[0073] Quintac 3433N (rubber manufactured by Zeon Corporation)
[0074] AMERIPOL 1013N (tackifier manufactured by ISP Co., Ltd.)
[0075] Arkon P-90 (hydrogenated petroleum resin manufactured by
Arakawa Chemical Industries, Ltd.)
[0076] Arkon P-100 (hydrogenated petroleum resin manufactured by
Arakawa Chemical Industries, Ltd.)
[0077] YS RESIN PX1000 (tackifier manufactured by Yasuhara Chemical
Co., Ltd.)
[0078] Yoshinox 425 (antiaging agent; API Corporation)
[0079] Zinc white No. 3 (zinc, inorganic filler; Seido Chemical
Industry Co., Ltd.)
[0080] KRONOS KA-10 (titanium oxide, pigment; Titan Kogyo Ltd.)
Example 1
[0081] Materials shown in Table 1 were mixed, and toluene was added
thereto. The mixture was agitated and melted for 240 minutes at
30.degree. C. to obtain a pressure sensitive adhesive. A base film
(a PET film having a thickness of 38 .mu.m) was coated with the
obtained pressure sensitive adhesive by using a die coater such
that an adhesive thickness thereon became 20 .mu.m, was dried with
heat at 80.degree. C., and was sliced into 9 mm wide strips to
obtain a bag sealing tape. In the obtained bag sealing tape, the
length of an adhesion zone was 60 mm, and the length of a
non-adhesion zone was 20 mm. Evaluations of self-adhesion retention
force, retention strength, and self-adhesion force were conducted
by using the obtained bag sealing tape. The results are shown in
Table 2. In addition, with the obtained bag sealing tape, a
to-be-banded object (designed for bread manufacturers; a PP bag for
six slices of bread; thickness around a neck of the bag was 32 mm)
was banded by using the banding device according to Embodiment 3,
and the banding was completed by cutting the bag sealing tape such
that the length of the first non-adhesion zone was 11 mm and the
length of the second non-adhesion zone was 9 mm. A practical-use
test was performed on an obtained banding body. The results are
shown in Table 2.
Example 2
[0082] Materials shown in Table 1 were mixed, and toluene was added
thereto. The mixture was agitated and melted for 240 minutes at
30.degree. C. to obtain a pressure sensitive adhesive. A base film
(a PET film having a thickness of 38 .mu.m) was coated with the
obtained pressure sensitive adhesive by using a die coater such
that an adhesive thickness thereon became 20 .mu.m, was dried with
heat at 80.degree. C., and was sliced into 9 mm wide strips to
obtain a bag sealing tape. In the obtained bag sealing tape, the
length of an adhesion zone was 60 mm, and the length of a
non-adhesion zone was 20 mm. Evaluations of self-adhesion retention
force, retention strength, and self-adhesion force were conducted
by using the obtained bag sealing tape. The results are shown in
Table 2. In addition, with the obtained bag sealing tape, a
to-be-banded object (designed for bread manufacturers; a PP bag for
six slices of bread; thickness around a neck of the bag was 32 mm)
was banded by using the banding device according to Embodiment 3,
and the banding was completed by cutting the bag sealing tape such
that the length of the first non-adhesion zone was 11 mm and the
length of the second non-adhesion zone was 9 mm. A practical-use
test was performed on an obtained banding body. The results are
shown in Table 2.
Example 3
[0083] Materials shown in Table 1 were mixed, and toluene was added
thereto. The mixture was agitated and melted for 240 minutes at
30.degree. C. to obtain a pressure sensitive adhesive. A base film
(a PET film having a thickness of 38 .mu.m) was coated with the
obtained pressure sensitive adhesive by using a die coater such
that an adhesive thickness thereon became 20 .mu.m, was dried with
heat at 80.degree. C., and was sliced into 9 mm wide strips to
obtain a bag sealing tape. In the obtained bag sealing tape, the
length of an adhesion zone was 69 mm and the length of a
non-adhesion zone was 11 mm. Evaluations of self-adhesion retention
force, retention strength, and self-adhesion force were conducted
by using the obtained bag sealing tape. The results are shown in
Table 2. In addition, with the obtained bag sealing tape, a
to-be-banded object (designed for bread manufacturers; a PP bag for
six slices of bread; thickness around a neck of the bag was 32 mm)
was banded by using the banding device according to Embodiment 3,
and the banding was completed by cutting the bag sealing tape such
that the length of the first non-adhesion zone was 6 mm and the
length of the second non-adhesion zone was 5 mm. A practical-use
test was performed on an obtained banding body. The results are
shown in Table 2.
Example 4
[0084] Materials shown in Table 1 were mixed, and toluene was added
thereto. The mixture was agitated and melted for 240 minutes at
30.degree. C. to obtain a pressure sensitive adhesive. A base film
(a PET film having a thickness of 38 .mu.m) was coated with the
obtained pressure sensitive adhesive by using a die coater such
that an adhesive thickness thereon became 20 .mu.m, was dried with
heat at 80.degree. C., and was sliced into 9 mm wide strips to
obtain a bag sealing tape. In the obtained bag sealing tape, the
length of an adhesion zone was 60 mm, and the length of a
non-adhesion zone was 20 mm. Evaluations of self-adhesion retention
force, retention strength, and self-adhesion force were conducted
by using the obtained bag sealing tape. The results are shown in
Table 2. In addition, with the obtained bag sealing tape, a
to-be-banded object (designed for bread manufacturers; a PP bag for
six slices of bread; thickness around a neck of the bag was 32 mm)
was banded by using the banding device according to Embodiment 3,
and the banding was completed by cutting the bag sealing tape such
that the length of the first non-adhesion zone was 11 mm and the
length of the second non-adhesion zone was 9 mm. A practical-use
test was performed on an obtained banding body. The results are
shown in Table 2.
Example 5
[0085] Materials shown in Table 1 were mixed, and toluene was added
thereto. The mixture was agitated and melted for 240 minutes at
30.degree. C. to obtain a pressure sensitive adhesive. A base film
(a PET film having a thickness of 38 .mu.m) was coated with the
obtained pressure sensitive adhesive by using a die coater such
that an adhesive thickness thereon became 20 .mu.m, was dried with
heat at 80.degree. C., and was sliced into 9 mm wide strips to
obtain a bag sealing tape. In the obtained bag sealing tape, the
length of an adhesion zone was 28 mm and the length of a
non-adhesion zone was 20 mm. Evaluations of self-adhesion retention
force, retention strength, and self-adhesion force were conducted
by using the obtained bag sealing tape. The results are shown in
Table 2. In addition, with the obtained bag sealing tape, a
to-be-banded object (designed for bread manufacturers; a PP bag for
six slices of bread; thickness around a neck of the bag was 32 mm)
was banded by using the banding device according to Embodiment 3,
and the banding was completed by cutting the bag sealing tape such
that the length of the first non-adhesion zone was 11 mm and the
length of the second non-adhesion zone was 9 mm. A practical-use
test was performed on an obtained banding body. The results are
shown in Table 2.
Example 6
[0086] Materials shown in Table 1 were mixed, and toluene was added
thereto. The mixture was agitated and melted for 240 minutes at
30.degree. C. to obtain a pressure sensitive adhesive. A base film
(a PET film having a thickness of 38 .mu.m) was coated with the
obtained pressure sensitive adhesive by using a die coater such
that an adhesive thickness thereon became 20 .mu.m, was dried with
heat at 80.degree. C., and was sliced into 9 mm wide strips to
obtain a bag sealing tape. In the obtained bag sealing tape, the
length of an adhesion zone was 76 mm and the length of a
non-adhesion zone was 5 mm. Evaluations of self-adhesion retention
force, retention strength, and self-adhesion force were conducted
by using the obtained bag sealing tape. The results are shown in
Table 2. In addition, with the obtained bag sealing tape, a
to-be-banded object (designed for bread manufacturers; a PP bag for
six slices of bread; thickness around a neck of the bag was 32 mm)
was banded by using the banding device according to Embodiment 3,
and the banding was completed by cutting the bag sealing tape such
that the length of the first non-adhesion zone was 3 mm and the
length of the second non-adhesion zone was 2 mm. A practical-use
test was performed on an obtained banding body. The results are
shown in Table 2.
Comparative Example 1
[0087] Materials shown in Table 1 were mixed, and toluene was added
thereto. The mixture was agitated and melted for 240 minutes at
30.degree. C. to obtain a pressure sensitive adhesive. A base film
(a PET film having a thickness of 38 .mu.m) was coated with the
obtained pressure sensitive adhesive by using a die coater such
that an adhesive thickness thereon became 20 .mu.m, was dried with
heat at 80.degree. C., and was sliced into 9 mm wide strips to
obtain a bag sealing tape. The obtained bag sealing tape is a
conventional one that does not have a non-adhesion zone.
Evaluations of self-adhesion retention force, retention strength,
and self-adhesion force were conducted by using the obtained bag
sealing tape. The results are shown in Table 2. In addition, with
the obtained bag sealing tape, a to-be-banded object (designed for
bread manufacturers; a PP bag for six slices of bread; thickness
around a neck of the bag was 32 mm) was banded by using the banding
device according to Embodiment 3, and the banding was completed by
cutting the bag sealing tape such that a misalignment of about 1 mm
was generated between the edges of the pasted tape. A practical-use
test was performed on an obtained banding body. The results are
shown in Table 2.
Comparative Example 2
[0088] Materials shown in Table 1 were mixed, and toluene was added
thereto. The mixture was agitated and melted for 240 minutes at
30.degree. C. to obtain a pressure sensitive adhesive. A base film
(a PET film having a thickness of 38 .mu.m) was coated with the
obtained pressure sensitive adhesive by using a die coater such
that an adhesive thickness thereon became 20 .mu.m, was dried with
heat at 80.degree. C., and was sliced into 9 mm wide strips to
obtain a bag sealing tape. In the obtained bag sealing tape, the
length of an adhesion zone was 28 mm and the length of a
non-adhesion zone was 37 mm. Evaluations of self-adhesion retention
force, retention strength, and self-adhesion force were conducted
by using the obtained bag sealing tape. The results are shown in
Table 2. In addition, with the obtained bag sealing tape, a
to-be-banded object (designed for bread manufacturers; a PP bag for
six slices of bread; thickness around a neck of the bag was 32 mm)
was banded by using the banding device according to Embodiment 3,
and the banding was completed by cutting the bag sealing tape such
that the length of the first non-adhesion zone was 20 mm and the
length of the second non-adhesion zone was 17 mm. A practical-use
test was performed on an obtained banding body. The results are
shown in Table 2.
TABLE-US-00001 TABLE 1 Example 1 Example 3 Com- Example 6 parative
Comparative Exam- Exam- Exam- Exam- Example 2 ple 2 ple 4 ple 5 ple
1 Natural rubber 15 25 10 36 Quintac 3433N 15 10 15 10 8 AMERIPOL
1013N 30 30 40 30 Arkon P-100 5 5 5 8 Arkon P-90 10 18 10 YS RESIN
PX1000 13 18 38 17 Quintone D200 11 Yoshinox 425 1 1 1 1 1 Zinc
white No. 3 10 10 10 10 17 (zinc) KRONOS KA-10 1 1 1 1 2 (titanium
oxide) Total 100 100 100 100 100
TABLE-US-00002 TABLE 2 Adhesion Retention Peeling Strength Strength
Strength Tear in Bag Self-adhesion Shifting Self-adhesion
Determina- Practical-use Test Retention Distance Force tion Band
Re-pasting Overall Force [mm] [mm] [n/10 mm] .largecircle. or X Sex
Age Integrity Openability Ability Evaluation Example 1 2 min. 45
sec. 3.0 4.98 .largecircle. Male A 36 .circleincircle.
.circleincircle. .circleincircle. .circleincircle. Male B 48
.circleincircle. .circleincircle. .circleincircle. Female C 60
.circleincircle. .circleincircle. .circleincircle. Female D 28
.circleincircle. .circleincircle. .circleincircle. Example 2 2 min.
42 sec. 7.7 5.37 .largecircle. Male A 36 .circleincircle.
.circleincircle. .largecircle. .largecircle. Male B 48
.largecircle. .circleincircle. .largecircle. Female C 60
.largecircle. .circleincircle. .largecircle. Female D 28
.largecircle. .circleincircle. .largecircle. Example 3 2 min. 45
sec. 3.0 4.98 .largecircle. Male A 36 .circleincircle.
.largecircle. .circleincircle. .circleincircle. Male B 48
.circleincircle. .largecircle. .circleincircle. Female C 60
.circleincircle. .largecircle. .circleincircle. Female D 28
.circleincircle. .circleincircle. .circleincircle. Example 4 34
sec. 10.0 4.12 .largecircle. Male A 36 .DELTA. .circleincircle.
.largecircle. .DELTA. Male B 48 .DELTA. .circleincircle.
.largecircle. Female C 60 X .circleincircle. .DELTA. Female D 28 X
.circleincircle. .DELTA. Example 5 12 min. 14 sec. 1.5 4.51 .DELTA.
Male A 36 .circleincircle. .largecircle. .circleincircle. .DELTA.
Male B 48 .circleincircle. .times.2 -- Female C 60 .circleincircle.
.times.2 -- Female D 28 .circleincircle. .largecircle.
.largecircle. Example 6 2 min. 45 sec. 3.0 4.98 .largecircle. Male
A 36 .circleincircle. .largecircle. .largecircle. .circleincircle.
Male B 48 .circleincircle. .largecircle. .largecircle. Female C 60
.circleincircle. .largecircle. .largecircle. Female D 28
.circleincircle. .circleincircle. .circleincircle. Comparative 3
min. 04 sec. 1.0 5.0 X Male A 36 .circleincircle. .times.1 -- X
Example 1 Male B 48 .circleincircle. .times.1 -- Female C 60
.circleincircle. .times.1 -- Female D 28 .circleincircle. .times.1
-- Comparative 2 min. 45 sec. Banding cannot 4.98 -- Male A 36 X --
-- X Example 2 be conducted Male B 48 X -- -- due to Female C 60 X
-- -- insufficient Female D 28 X -- -- adhesion zone length
[0089] When bread, confectioneries, vegetables, fruits fresh
noodles, frozen food, etc., are placed in a to-be-banded object
such as a plastic bag and the like, and when the object is banded;
the bag sealing tape, and the banding device and the banding method
using the bag sealing tape of the present invention can be
repeatedly used without damaging the object when opening a banding
body. Furthermore, since the bag sealing tape consists of materials
that do not have to be separated for disposal, it is convenient
when disposing the bag sealing tape.
[0090] While the invention has been described in detail, the
foregoing description is in all aspects illustrative and not
restrictive. It will be understood that numerous other
modifications and variations can be devised without departing from
the scope of the invention.
* * * * *