Information
-
Patent Grant
-
6568157
-
Patent Number
6,568,157
-
Date Filed
Wednesday, September 20, 200024 years ago
-
Date Issued
Tuesday, May 27, 200321 years ago
-
Inventors
-
Original Assignees
-
Examiners
Agents
- Greenblum & Bernstein, P.L.C.
-
CPC
-
US Classifications
Field of Search
US
- 053 239
- 053 451
- 053 474
- 053 551
- 141 9
- 141 100
- 141 104
- 141 105
- 141 236
- 141 286
-
International Classifications
-
Abstract
During automatic supply and packing of a liquid composition containing granular constituents, a master liquid, not containing the granular constituents, of the liquid composition is continuously supplied to a packing bag formed from a packing film by making bottom and top seals, in this order, on the packing bag with the packing film being stroked and squeezed to remove a part of the master liquid from bag portions where the bottom and top seals are to be formed, and a second liquid, containing the granular constituents, of the liquid composition is intermittently supplied into the packing bag between the bottom and top seals. Thereby, a liquid composition containing granular constituents can be packed with the nearly same efficiency as that in continuous supply and packing of a liquid.
Description
BACKGROUND ART
(a) Technical Field
The present invention relates to a field of automatic filling and packing, and more particularly to a method of packing a liquid composition containing granular constituents and a liquid composition supplying apparatus, adopted in an automatic filling and packing machine to supply and pack, at a high speed, a liquid composition containing regularly or irregularly shaped solids or other granular into a bag formed from a continuously fed packing film having a thermally fusible layer, which is a lamination film in many cases.
(b) Prior Art Statement
When packing in a bag formed from a packing film a liquid composition containing soft or hard granular constituents such as a dressing or hamburger sauce containing minced vegetables or granular spice, pasta sauce containing minced meat, starch syrup containing sesame seeds for fried sweet potato, etc. using an automatic filling and packing machine, a poor seal takes place from time to time. The poor seal is caused by the granular constituents caught between the films at the top and bottom heat seals of the packing bag. More particularly, as the water content of the granular constituents caught between the films at the heat seals is expanded in volume when it is vaporized, the films at the heat seal are not well fused and joined to each other or the films are peeled off. It is the typical conventional measure to make a bottom seal to bottom a packing bag before a liquid composition to be packed is supplied into the bag formed from the packing film, and then a top seal to form the top of the packing bag filled with the composition. The filling of the packing bag with the liquid composition is interrupted during heat sealing at the bottom and top of the packing bag, and the bottom and top seals of the packing bag are formed with such a long distance between them that the liquid composition put into the bag after forming of the bottom seal and rebounded from the bag bottom will not come to a position where the top seal is to be formed.
For intermittent supply of the liquid composition, it is necessary to cease the forming of the bag top until a predetermined amount of the liquid composition is put into the bag. Since the automatic filling and packing machine itself has to be in intermittent operations in this way, the liquid composition containing granular constituents cannot be supplied and packed with so high an efficiency as that in supply and packing of a liquid composition not containing granular constituents.
Also, when a liquid composition containing granular constituents is intermittently supplied and packed, if the liquid viscosity of the composition to be packed is high, the liquid composition will possibly drip unexpectedly after the supply is stopped and the drip be caught between the films at the heat seal of the packing bag, resulting in a poor seal as been described above.
Also, since the distance between the bottom and top of the packing bag is set long as described in the above, the yield of the packing film will be low. In addition, air inevitably sealed in the packing bag during the intermittent supply of the liquid composition, will cause the bag to have a large size and the content of the packing bag to easily be oxidized inside the bag.
SUMMARY OF THE INVENTION
It is a primary object of the present invention to overcome the drawbacks of the prior art by providing a method of packing a liquid composition containing granular constituents and a liquid composition supplying apparatus, in which the liquid composition containing granular constituents is separated into a master liquid not containing the granular constituents and a second liquid containing the granular constituents before supply to a bag formed from a packing film, the master liquid is continuously supplied into the bag by the automatic filling and packing machine as in the conventional packing of a liquid composition not containing granular constituents, while the second liquid is intermittently supplied into the master liquid already existing in the bag after a bottom seal is formed and before a top seal is formed, whereby the packing can be done with nearly same efficiency as that of the continuous supply and packing of a liquid.
It is another object of the present invention to provide a method of packing a liquid composition containing granular constituents and a liquid composition supplying apparatus, capable of satisfactorily eliminating the drip of the liquid composition containing granular constituents which will cause a poor sealing.
It is still other object of the present invention to provide a method of packing a liquid composition containing granular constituents and a liquid composition supplying apparatus, capable of improving the yield of the packing film and preventing effectively the content of the packing bag from being oxidized inside the bag.
The method of packing the liquid composition containing granular constituents according to the present invention, is characterized in that during automatic supply and packing of the liquid composition containing granular constituents, a master liquid, not containing the granular constituents, of the liquid composition is continuously supplied into a packing bag formed from a packing film by making bottom and top seals, in this order, on the packing bag with the packing film being stoked and squeezed to remove a part of the master liquid from bag portions where the bottom and top seals are to be formed, and a second liquid, containing the granular constituents, of the liquid composition is intermittently supplied into the packing bag between the bottom and top seals.
The second liquid with granular constituents should preferably be prevented, by the pressure of the master liquid, from dripping.
Also the above object can be attained by providing an apparatus for supplying a liquid composition containing granular constituents into a packing bag formed from a continuously fed packing film by forming longitudinal and lateral seals in this order to the packing film, the apparatus including a main conduit through which only a master liquid, not containing the granular constituents, of the liquid composition is supplied and at least a sub conduit through which a second liquid, containing the granular constituents, of the liquid composition is supplied, the sub conduit being open at the free end thereof in an area where the pressure of the master liquid acts.
To this end, the master liquid of the liquid composition containing granular constituents is continuously supplied into the packing bag as in the conventional packing of the liquid composition while the automatic filling and packing machine is continuously operating, and the second liquid containing the granular constituents is intermittently supplied into the master liquid existing in the packing bag between the bottom and top lateral seals formed by stroking and squeezing the packing bag at portions thereof where the bottom and top seals are to be formed. Thus, the time for supplying and packing the liquid composition can be made approximately equal to that for supply and packing of only the master liquid. Namely, the wait time for the liquid composition supply as in intermittent supply of the whole liquid composition to be packed is made unnecessary, so that the packing efficiency can be improved nearly to that for the conventional packing of ordinary liquid compositions.
Owing to the bottom and top lateral seals formed by stroking and squeezing the packing bag at positions where the seals are to be formed, the packing bag can be formed with the liquid composition containing the granular constituents supplied nearly full in the bag. Therefore, oxidation and loss of flavor of the content of the packing bag can effectively be eliminated, since air remaining in the bag can be purged almost completely or completely from inside the bag.
In addition, since the speed of intermittent supply of the second liquid can be made rather slower than that of the intermittent supply of all the liquid composition by intermittently putting the second liquid of relatively small quantity into the master liquid continuously supplied in the packing bag, the granular constituents in the second liquid can sufficiently be prevented from splashing to where the top seal is to be formed even with the distance between the bottom and top of the packing bag not set long. Thus, the yield of the packing film can be improved drastically and also it is possible to more effectively prevent the content of the packing bag from being oxidized inside the bag.
Further, to prevent the drip of the second liquid containing granular constituents, already intermittently supplied in the packing bag, by the pressure of the master liquid which is always under pressure because it is continuously supplied, no negative-pressure suction or the like has to be used after completion of the intermittent supply of the second liquid, and the unexpected drip of the second liquid can positively be prevented irrespectively of the viscosity of the second liquid. Thus, it is possible to eliminate the likelihood that a part of the granular constituents will be caught between the films at the heat seals of the packing bag.
To accurately make the intermittent supply of a predetermined amount of the second liquid containing granular constituents, the supply pressure for the second liquid should preferably be higher than the pressure of the master liquid since the pressure of the master liquid always acts on the outlet of the second liquid.
More preferably, the second liquid containing granular constituents should be condensed for intermittent supply to the packing bag. Thereby, the time for supplying the second liquid can be reduced to further improve the packing efficiency while a greater amount of the second liquid can be supplied intermittently.
Also, the liquid composition containing granular constituents should preferably be separated into a master liquid not containing the granular constituents and a second liquid containing the granular constituents before the above-mentioned supply is started, whereby an influence on the process for producing the liquid composition can be eliminated.
According to the present invention, the liquid composition supply apparatus includes a main conduit through which only a master liquid, not containing granular constituents, of a liquid composition is supplied into the packing bag formed from the continuously fed packing film, after forming the longitudinal seals, between the longitudinal and lateral seals formed one after another on the packing bag, and at least a sub conduit through which a second liquid, containing the granular constituents, of the liquid composition is supplied and having the free end thereof open in an area where the pressure of the master liquid acts.
Thereby, the pressure of the master liquid can be made to always act on the open end of the sub conduit by continuously supplying the master liquid incessantly as mentioned above to the packing bag. Therefore, it is possible to more positively prevent the second liquid from dripping subsequently by having the pressure of the master liquid act on the open end of the sub conduit in a direction of forcing back the second liquid upon stopping the pressurizing of the second liquid for supply especially when the intermittent supply of the second liquid through the sub conduit is stopped.
The free end of the sub conduit may be open in the middle of the main conduit. The open position of the free end should preferably be as near the open end of the main conduit as possible, which will more facilitate to adjust the timing of intermittent supply of the second liquid.
Otherwise, with the free ends of the main and sub conduits being open inside a common nozzle whose end is drawn, the liquid composition supplying apparatus according to the present invention can be designed more simple and the timing of intermittent supply can be controlled independently of the flow rate of the master liquid, etc.
More preferably, a separator to separate a liquid composition containing granular constituents into a master liquid not containing granular constituents and a second liquid containing the granular constituents should be provided to which the main and sub conduits are to be connected.
These objects 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
FIG. 1
is a schematic side elevation of an automatic filling and packing machine with which the liquid composition supplying apparatus according to the present invention can be used;
FIG. 2
schematically shows the concept of the present invention;
FIG. 3
graphically shows the relation between liquid supply timing and heat-sealing timing;
FIGS.
4
(
a
) and
4
(
b
) show embodiments of the present invention, respectively; and
FIG. 5
is an axial-section of the separator.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring now to
FIG. 1
, there is schematically illustrated in the form of a side elevation an automatic filling and packing machine with which the liquid composition supplying apparatus according to the present invention can be used. This machine is intended for use to automatically supply and pack a liquid composition containing viscous and granular constituents, etc.
FIG. 1
shows only the major components of the automatic filling and packing machine for the simplicity of the illustration. As shown, the machine includes mainly a supply roll
1
from which a packing film
4
being a laminated film in many cases is supplied, guide rolls
2
and
3
to guide the packing film supplied from the supply roll
1
, a film folder
5
, longitudinal sealing rolls
6
, lateral sealing rolls
7
, a liquid composition supplying apparatus
8
according to the present invention, and cutter rolls
9
.
The packing film
4
continuously supplied from the supply roll
1
is passed over the guide rolls
2
and
3
, folded in the cross direction thereof by the film folder
5
, and then passed between the longitudinal and lateral sealing rolls
6
and
7
in this order. Thus the folded sides of the packing film
4
are joined together along the opposite lateral free ends thereof and a line across the film
4
by the longitudinal and lateral sealing rolls
6
and
7
. Namely, a longitudinal seal and lateral seals are formed as shown hatched in FIG.
1
. Note that the packing film
4
is pulled by the longitudinal and lateral sealing rolls
6
and
7
.
The longitudinal sealing rolls
6
are disposed in close proximity and in parallel, to each other, and each of them consists of a body
6
a
driven to rotate, and a pair of flange-shaped heat-sealing blades
6
b
contiguous to the ends of the body
6
a
and extending circumferentially of the body
6
a.
As mentioned above, the longitudinal sealing rolls
6
will form a longitudinal seal along the lateral free ends of the folded sides of the packing film
4
being passed between them.
The lateral sealing rolls
7
are disposed similarly to the longitudinal sealing rolls
6
, and each of them consists of a body
7
a
driven to rotate and a pair of heat-sealing blades
7
b
extending longitudinally of the body
7
a
and circularly in the circumferential direction of the body
7
a.
Thus, the lateral sealing rolls
7
will form a lateral seal across the packing film
4
at every predetermined film-longitudinal distance.
As in the above, the longitudinal and lateral seals are given to the packing film
4
. After the packing film
4
is folded and a longitudinal seal is given to the folded packing film
4
, a liquid composition is supplied into the film bag by the supplying apparatus
8
while the folded packing film
4
are kept pressed between the lateral sealing rolls
7
, and then the film bag
4
filled with the liquid composition is given a further lateral seal. The film bag
4
thus sealed is cut along the mid line of a lateral seal
10
by the cutter rolls
9
provided under the lateral sealing rolls
7
. Note that each lateral seal
10
will be a top seal for a packing bag located below the cutting position, and a bottom seal for a packing bag located above the cutting position.
As mentioned above, the liquid composition supplying apparatus
8
according to the present invention can be used with the aforementioned automatic filling and packing machine. As shown in
FIG. 2
, the liquid composition supplying apparatus
8
includes a main conduit
11
for supply of only a liquid not containing granular constituents (will be referred to as “master liquid” hereinafter), of a liquid composition to be packed, and a sub conduit
12
for supply of a liquid containing granular constituents (will be referred to as “second liquid” hereinafter). The sub conduit
12
has an end
12
a
open in an area where a supply pressure for the master liquid acts.
The liquid composition supplying apparatus
8
according to the present invention functions as will be described below. For the automatic supply and packing of a liquid composition containing granular constituents, the liquid composition is supplied into the film bag
4
formed with longitudinal and lateral seals given one after another to the continuously fed packing film
4
, after forming the longitudinal seals, as mentioned above. As shown in
FIG. 3
, the master liquid is continuously supplied into the film bag
4
via the main conduit
11
and the bottom and top of the packing bag are formed by heat-sealing with the bag being stroked and squeezed to remove the master liquid from where the bottom and top seals are to be formed, while the second liquid is intermittently supplied into the packing bag between the bottom and top seals under a supply pressure higher than the pressure of the master liquid and which acts on the open end
12
a
of the sub conduit
12
.
After the second liquid is intermittently supplied into the film bag
4
, the open end
12
a
of the sub conduit
12
is acted on by the pressure of the master liquid always flowing through the main conduit
11
upon stopping the intermittent supply, that is, upon stopping the pressurization of the second liquid, so that the second liquid can be positively prevented from subsequently dripping or leaking from the open end
12
a
of the sub conduit
12
irrespectively of the viscosity of the second liquid.
Thus, the liquid composition containing granular constituents can automatically be supplied and packed efficiently for the same tact time as in continuous supply and packing of only the master liquid, and the bottom and top seals can be formed as in the above in such a manner as to purge the air from the packing bag, thereby effectively preventing the content of the film bag from being oxidized inside the bag, causing loss of flavor of the content.
In addition, the second liquid is intermittently supplied to the master liquid at a relatively low speed to prevent the second liquid containing granular constituents from jumping up. Thus, the distance between the bottom and top of the packing bag (film bag) has not to be intentionally increased, which contributes to an improved yield of the packing film and effective prevention of the bag content from being oxidized and lost in flavor inside the bag.
Further, the pressure of the master liquid can positively eliminate the likelihood that granular constituents in a drip of the second liquid will be caught between the films at the heat seals.
Note that for intermittent supply of the second liquid in a condensed state, the second liquid can be supplied in a large amount for a short time.
For supply and packing of the liquid composition, the liquid composition should desirably be separated into a master liquid not containing granular constituents and a second liquid containing granular constituents.
FIGS.
4
(
a
) and
4
(
b
) are detailed views of the liquid composition supplying apparatus
8
according to the present invention. As shown in FIG.
4
(
a
), the open end
12
a
of the sub conduit
12
is located in the middle of main conduit
11
so that the pressure of the master liquid continuously flowing through the main conduit
11
is allowed to act on the open end
12
a
of the sub conduit
12
. As shown in FIG.
4
(
b
), the main and sub conduits
11
and
12
disposed in parallel to each other are open in a common nozzle
13
whose end opening is drawn perpendicularly to the plane of the drawing, to fill the nozzle
13
with the master liquid during other than the intermittent supply of the second liquid. Therefore, in this case as well, the pressure of the master liquid will act on the open end
12
a
of the sub conduit
12
.
In any case, the second liquid will be applied with the higher supply pressure than that of the master liquid by a pump or the like (not shown), so that the second liquid will be intermittently supplied into the film bag
4
as necessary. After completion of the intermittent supply, as the supply pressure is not further applied, the second liquid will remain in the sub conduit
11
under the pressure of the master liquid, namely, it will not come out of the sub conduit
11
.
Incidentally, when the master liquid is supplied by a pump or the like (not shown) under a pressure of 30 kPa as measured at the open end
12
a
of the sub conduit
11
, the second liquid is supplied under a supply pressure of 40 kPa, which will assure an appropriate intermittent supplying.
In the above embodiment of the present invention, as shown in FIGS.
4
(
a
) and
4
(
b
), there is provided only one sub conduit
12
to supply the second liquid containing granular constituents into the packing bag. However, it should be noted that the present invention is not limited to this sub conduit
12
but more than one sub conduit
12
may of course be provided for the intermittent supply of more than one kind of liquid compositions each containing granular constituents.
FIG. 5
is an axial section of a separator coupled to the upstream ends of the main and sub conduits
11
and
12
. The separator is generally indicated with a reference
14
. As shown, the separator
14
consists of a body
16
having a liquid composition inlet
15
located at the top thereof and a filter
17
provided in the center thereof to filtrate granular constituents. The main conduit
11
is communicated with the inside of the filter
17
while the sub conduit
12
is communicated with the outside of the filter
17
. Thus, the master liquid not containing the granular constituents can be supplied through the main conduit
11
while the second liquid containing the granular constituents can be supplied through the sub conduit
12
. With a pump provided independently for each of the conduits
11
and
12
, a required pressure can be applied to each of the master liquid and second liquid.
Note that the separator
14
may be of any well-known type such as a centrifugal separator or similar one.
As having been described in the foregoing, the liquid composition supplying apparatus according to the present invention permits to supply and pack a liquid composition containing granular constituents with a rather higher efficiency than that in the conventional intermittent supplying and packing, satisfactorily eliminate the likelihood that the drip of the second liquid containing granular constituents will be caught between the films at the heat seals, effectively prevent the content of the film bag formed by the packing machine from being oxidized inside the bag, and considerably improve the yield of the packing film.
Claims
- 1. A method of packing a liquid composition containing granular constituents, comprising:continuously supplying a master liquid, not containing the granular constituents, of the liquid composition into a packing bag formed from a packing film by making bottom and top seals, in this order, on the bag with stroking and squeezing of the packing film to remove a part of the master liquid from portions of the packing bag where the bottom and top seals are to be formed; intermittently and automatically supplying a second liquid, containing the granular constituents, of the liquid composition into the packing bag between the bottom and top seals; and pressure of the master liquid preventing the second liquid containing the granular constituents from dripping during periods when the second liquid is not automatically supplied.
- 2. The method as set forth in claim 1, wherein supply pressure for the second liquid containing granular constituents is higher than pressure of the master liquid.
- 3. The method as set forth in claim 2, wherein the second liquid containing granular constituents is condensed for supply to the packing bag.
- 4. The method as set forth in claim 2, wherein the liquid composition containing granular constituents is separated in advance into a master liquid not containing the granular constituents and a second liquid containing the granular constituents.
- 5. The method as set forth in claim 2, wherein the master liquid is supplied through a main conduit through which only the master liquid, not containing the granular constituents, of the liquid composition is supplied, the second liquid containing the granular constituents is supplied through at least one sub conduit, and the sub conduit is open at a free end thereof in an area where pressure of the master liquid acts.
- 6. The method as set forth in claim 5, wherein the sub conduit is open at the free end thereof in the middle of the main conduit.
- 7. The method as set forth in claim 5, wherein the main conduit and sub conduit are open at respective ends in a common nozzle whose end is drawn.
- 8. The method as set forth in claim 5, further comprising a separator to separate the liquid composition containing granular constituents into the master liquid and second liquid, the main and sub conduits being coupled to the separator.
- 9. The method as set forth in claim 1, wherein the second liquid containing granular constituents is condensed for supply to the packing bag.
- 10. The method as set forth in claim 9, wherein the liquid composition containing granular constituents is separated in advance into a master liquid not containing the granular constituents and a second liquid containing the granular constituents.
- 11. The method as set forth in claim 9, wherein the master liquid is supplied through a main conduit through which only the master liquid, not containing the granular constituents, of the liquid composition is supplied, the second liquid containing the granular constituents is supplied through at least one sub conduit, and the sub conduit is open at a free end thereof in an area where pressure of the master liquid acts.
- 12. The method as set forth in claim 11, wherein the sub conduit is open at the free end thereof in the middle of the main conduit.
- 13. The method as set forth in claim 11, wherein the main conduit and sub conduit are open at respective ends in a common nozzle whose end is drawn.
- 14. The method as set forth in claim 11, further comprising a separator to separate the liquid composition containing granular constituents into the master liquid and second liquid, the main and sub conduits being coupled to the separator.
- 15. The method as set forth in claim 1, wherein the liquid composition containing granular constituents is separated in advance into a master liquid not containing the granular constituents and a second liquid containing the granular constituents.
- 16. The method as set forth in claim 15, wherein the master liquid is supplied through a main conduit through which only the master liquid, not containing the granular constituents, of the liquid composition is supplied, the second liquid containing the granular constituents is supplied through at least one sub conduit, and the sub conduit is open at a free end thereof in an area where pressure of the master liquid acts.
- 17. The method as set forth in claim 16, wherein the sub conduit is open at the free end thereof in the middle of the main conduit.
- 18. The method as set forth in claim 16, wherein the main conduit and sub conduit are open at respective ends in a common nozzle whose end is drawn.
- 19. The method as set forth in claim 1, wherein the master liquid is supplied through a main conduit through which only the master liquid, not containing the granular constituents, of the liquid composition is supplied, the second liquid containing the granular constituents is supplied through at least one sub conduit, and the sub conduit is open at a free end thereof in an area where pressure of the master liquid acts.
- 20. The method as set forth in claim 19, wherein the sub conduit is open at the free end thereof in the middle of the main conduit.
- 21. The method as set forth in claim 19, wherein the main conduit and sub conduit are open at respective ends in a common nozzle whose end is drawn.
- 22. The method as set forth in claim 19, further comprising a separator to separate the liquid composition containing granular constituents into the master liquid and second liquid, the main and sub conduits being coupled to the separator.
Priority Claims (2)
Number |
Date |
Country |
Kind |
2000-083591 |
Mar 2000 |
JP |
|
2000-139913 |
May 2000 |
JP |
|
US Referenced Citations (7)
Foreign Referenced Citations (2)
Number |
Date |
Country |
64-37303 |
Feb 1989 |
JP |
1-188328 |
Jul 1989 |
JP |