JP6041379B2 - Heat sealing blade for horizontal sealing roller and manufacturing method - Google Patents

Description

  The present invention relates to a heat sealing blade for a horizontal sealing roller and a method for manufacturing the same, and in many cases, a packaging film having a laminated structure is folded in two at the center in the width direction, and each side portion is vertically When sealing, forming into a cylindrical shape, and continuously or intermittently filling the inside of the cylindrical packaging film with an article to be packaged, the cylindrical packaging film is provided with a transverse seal portion extending over its entire width. This prevents the transfer of excess heat from the heat sealing blade for horizontal sealing rollers (hereinafter referred to as “horizontal sealing blade”) to the packaging material that can be made into a cylindrical packaging film, and thus liquid. Thus, a technique for stably forming an appropriate lateral seal portion is proposed.

  For example, it is applied to an automatic filling and packaging machine to form a horizontal seal portion over the entire width of a cylindrical packaging film by so-called foreign matter seal under continuous filling of a liquid package. As the horizontal seal blade, there is one in which a heat seal surface extending in the axial direction of the horizontal seal roller main body and having an arc shape in the circumferential direction of the horizontal seal roller main body is subjected to a mirror finish over the entire surface.

  However, in such a conventional horizontal sealing blade, when sandwiching the cylindrical packaging film with a pair of horizontal sealing blades and forming the horizontal sealing portion on the packaging film, each horizontal sealing blade has a pair of horizontal sealing blades. Prior to sandwiching the cylindrical packaging film with a required force by the horizontal sealing blade, the cylindrical packaging film is brought into contact with the cylindrical packaging film in a large area and transfers a large amount of heat. The layer will melt excessively and the viscosity of the sealant layer will decrease too much, so the liquid package to be sandwiched between the cylindrical packaging films cannot be effectively pushed away by the horizontal sealing blade, The liquid package remains in the seal portion. As a result, the remaining liquid packaged material becomes high-temperature and high-pressure steam, and the seal of the horizontal seal part is peeled off. From the horizontal seal blade to the tubular packaging film and eventually the liquid packaged product There is also a problem that the packaged material is altered by the supply of a large amount of heat.

Therefore, in order to solve such a problem, the applicant previously disclosed Patent Documents 1 and 2 by making all or part of the heat seal surface forming the arc shape of the horizontal seal blade into a fine uneven rough surface. Effectively reducing the contact area between the sealing blade and the cylindrical packaging film filled with the package, from the horizontal sealing blade to the cylindrical packaging film and the liquid package prior to the action of the horizontal sealing blade A technology to effectively suppress the heat transfer of was proposed.
JP 2005-112454 A JP 2007-168845 A

  However, according to this proposed technique, the required uneven rough surface of the horizontal seal blade is formed by a roughening process such as shot blasting, which requires a lot of work steps for the roughening process. In addition to increasing the cost of the horizontal sealing blade, even if a skilled worker is working, the reproducibility of the rough rough surface is poor, and the convex part formed by shot blasting etc. has a sharp mountain shape, The tip is easy to wear, etc., and the heat transfer rate from the horizontal sealing blade to the tubular packaging film changes as the use continues, so the horizontal sealing portion formed by the horizontal sealing blade It was difficult to maintain a constant quality over a long period of time.

  An object of the present invention is to solve such problems of the proposed technique, and the object of the present invention is to provide the necessary uneven rough surface of the horizontal seal blade with other known techniques, for example, The present invention is to propose a horizontal seal blade for a horizontal seal roller, which is formed by a photo-etching process or the like and solves the above-mentioned problems of the proposed technology, and a method for manufacturing the same.

The heat seal blade for a horizontal seal roller according to the present invention is disposed horizontally in parallel with each other in close proximity, and is attached to each of a pair of horizontal seal roller bodies that are driven to rotate in opposite directions. The surface of the land portion that extends in the axial direction and contributes to heat sealing together with the sea portion forms an arc shape in the circumferential direction of the horizontal seal roller body, is continuously fed out, and is folded in two in the width direction, for example, in the center portion For example, under continuous or intermittent filling of an article to be packaged in a cylindrical packaging film formed in a cylindrical shape by vertically sealing each side portion of the packaging film that allows a laminated structure by contaminants seal etc., there forms a lateral seal portion over its entire width, each of the heat seal blades i.e. the lateral sealing edges of the lateral seal rollers paired, before Land portion, the Ama and regulations law alternately, for example land portion tessellated, twill form, such provided so as to be arranged in the form of staggered like Rutotomoni, planar total area of該海portion, Lu ranges pairs on 2 0-150 fold flat total area of parts surface, and the plane vertical and horizontal dimensions of the land portion surface, comprising a vertical and horizontal average distance of the land portion as the range of 7 to 7.5 times Is.

Here, preferably , when each of the vertical and horizontal dimensions of the surface of the land portion is in the range of 70 to 100 μm , the vertical and horizontal average interval of the land portion is in the range of 4 90 to 750 μm.

  Moreover, it is preferable that the depth of the sea part with respect to the land part surface shall be the range of 10-20 micrometers, and the raised side wall of a land part is made into a vertical wall.

  In addition, about the arrangement | positioning density (interval) of a land part and the planar area of the land part surface, it is also possible to attach a gradation toward the rotation direction etc. of a heat seal blade.

  And, as described above, the manufacturing method of the present invention is attached horizontally to each of a pair of horizontal seal roller bodies that are horizontally arranged in close proximity to each other and are driven to rotate in opposite directions. The surface of the land portion that extends in the axial direction of the main body and contributes to heat sealing together with the sea portion forms an arc shape in the circumferential direction of the horizontal sealing roller main body, is continuously fed out, and folded in the width direction, for example, in the center portion For example, continuous or intermittent filling of a cylindrical packaging film formed into a cylindrical shape by applying a vertical seal to each side portion of the packaging film that allows a laminated structure. Below, in manufacturing a heat seal blade for a horizontal seal roller that forms a horizontal seal portion over its entire width by a contaminant seal or the like, each heat of a pair of horizontal seal rollers is made. In Lumpur blade, by etching, alternating with the sea the land portion, a grid pattern, on twill, in formed in a zigzag shape or the like.

  In the heat seal blade for the horizontal seal roller of the present invention, the surface of the land portion that contributes to the heat seal together with the sea portion has an arcuate surface that forms an arc shape in the circumferential direction of the horizontal seal roller body, and does not form a sharp mountain shape. Therefore, even when used for a long period of time, there is little wear on the top of the land part, so the heat transfer rate from the heat seal blade to the tubular packaging film is kept constant, and the quality of the horizontal seal part is always excellent. Can be.

  Moreover, in this heat seal blade, the heat transfer coefficient to the tubular packaging film can be made as calculated by providing the land portions and the sea portions alternately and regularly.

  Moreover, excessive heat transfer from the heat seal blade to the tubular packaging film is effectively suppressed by making the total area of the sea area 20 to 150 times larger than the total area of the land surface. In addition, since the pressing force against the cylindrical packaging film is dispersed, damage to the film can be reduced. In addition, when the total plane area of the sea portion is less than 20 times the total plane area of the land surface, the contact area between the tubular packaging film and the lateral heat seal blade is increased, so that the predetermined set temperature is maintained. A large amount of heat is transmitted to the tubular packaging film from the heated horizontal heat seal blade, and foaming or the like occurs in the heat seal portion, which may cause a seal failure. On the other hand, since the contact area between the tubular packaging film and the horizontal heat seal blade is small when the total plane area of the sea is more than 150 times the total plane area of the land surface, from the horizontal heat seal blade A sufficient amount of heat is not transmitted, and there is a risk of a sealing failure such as an unfused portion occurring in the heat-sealed portion, or the tubular packaging film will come into contact with the sea portion, and the packaging film has an excessive amount of heat. May be transmitted.

  More specifically, the above numerical range can be realized by setting the vertical and horizontal average interval of the land portion to be 7 to 7.5 times the plane vertical and horizontal dimensions of the land surface. By setting the vertical and horizontal average intervals in this range, the intention from the heat seal blade to the cylindrical packaging film until the tubular packaging film is completely sandwiched between the heat sealing blades located opposite to each other. It is possible to effectively prevent excessive heat transfer.

  That is, when the vertical and horizontal average interval of the land portion is less than 7 times the plane vertical and horizontal dimensions of the land surface, a large amount of heat is applied to the tubular packaging film from the horizontal heat seal blade heated to a predetermined temperature. Since it is transmitted, foaming or the like may occur in the heat seal part (fused part), which may cause a seal failure. Therefore, it is necessary to lower the upper limit value of the seal temperature at which the package can be filled. There is a problem that the allowable temperature range of the seal becomes narrow. On the other hand, in the case of more than 7.5 times, the contact area between the cylindrical packaging film and the land surface of the horizontal heat seal blade is small, so it is necessary to fuse the packaging film from the horizontal heat seal blade. The amount of heat may not be transmitted, so there is a problem that the lower limit of the allowable seal temperature must be set to the high temperature side, and the vertical and horizontal average intervals between the land portions are too far apart, so the tubular packaging film is In addition, it may be in contact with the surface of the sea, and an excessive amount of heat may be transmitted to the packaging film.

  And when the depth of the sea part with respect to the land surface is set to 10 to 30 μm, preferably 10 to 20 μm, excess heat transfer to the tubular packaging film before the heat seal blade reaches the sealing position Can be effectively prevented, while heat transfer from the sea part to the tubular packaging film can be ensured when the heat seal blade reaches the working position, and the formation of an appropriate lateral seal part can be ensured. .

  That is, when the thickness is less than 10 μm, the tubular packaging film may come into contact with the sea portion. On the other hand, when the thickness exceeds 20 μm, there is an influence particularly when the foreign matter is sealed, and the sea depth is covered. There is a possibility that the solid content or the like of the object is caught, and the solid content or the like cannot be handled during the transverse heat sealing.

  Here, when the raised side wall of the land portion is a vertical wall, even if wear or the like occurs on the surface of the land portion due to long-term use, the total area of the land surface can be maintained constant, The horizontal seal portion to be formed can always be made appropriate by keeping the magnification of the total plane area of the sea to the total plane area constant.

  By the way, in the manufacturing method of the present invention, the land portion and the sea portion of the heat seal blade are regularly and alternately formed by etching, so that the required land portion and the sea portion can be easily and inexpensively with a small number of work steps. It can be formed, and land and sea can be formed with high reproducibility without using skilled workers, so the horizontal seal formed by the heat seal blade is always constant by any heat seal blade. Can be.

It is a perspective view which exaggerates the land part, and shows embodiment of the heat seal blade of a pair of horizontal seal roller. It is a front view which illustrates the automatic filling packaging machine which can apply the heat seal blade shown in FIG. It is a fragmentary top view which expands and shows the land part etc. of the heat seal blade shown in FIG. It is an expanded sectional view of one land part formed in the heat seal blade.

Embodiments of the present invention will be described below based on the drawings.
In the perspective view shown in FIG. 1, reference numeral 1 denotes a pair of horizontal seal rollers. The horizontal seal roller pair 1 is arranged in parallel in a close proximity to each other and is driven to rotate in opposite directions. Each horizontal seal roller main body 2 is composed of a horizontal seal roller main body 2, and each horizontal seal roller main body 2 extends in the axial direction, and the surface of the land portion 3 that contributes to heat sealing together with the sea portion 10 has a cross-sectional outer ring shape such as a circle or a polygon. It has a heat seal blade 4 that forms an arc shape in the circumferential direction of the transverse seal roller body 2 that it has.

  Here, each of the pair of horizontal seal roller main bodies 2 is attached to each end portion, and restrains the proximity displacement of both horizontal seal roller main bodies 2 under the contact of the peripheral surface against the action of a predetermined pressing force. The heat seal blades 4 attached to the horizontal seal roller bodies 2 in a linearly extending posture in the axial direction thereof are provided at the end portions in the extending direction. The heat seal blades 4 that oppose each other cooperate to come into contact with each other when forming the horizontal seal portion on the cylindrical packaging film, thereby preventing further proximity of the heat seal blade 4 and thus the pair of horizontal seal roller bodies 2. And arcuate raised protrusions 7, 8 that are the same height as the circular flanges 5, 6 or project radially outwardly from the circular flanges 5, 6.

  Note that the heat seal surface 9 between the arcuate raised protrusions 7 and 8 of the heat seal blade 4 is cylindrical with respect to the arcuate raised protrusions 7 and 8 that are in contact with each other during the heat sealing action of the opposed heat seal blade 4. Thus, the film for packaging is positioned at an interval enough to be held with the force as expected.

  Further, the arcuate raised protrusions 7 and 8 at both ends of the heat seal blade 4 are used as a reference for processing the heat seal surface 9 of the heat seal blade 4 which is separate from the circular flanges 5 and 6 of the horizontal seal roller body 2. Therefore, the troublesomeness of attaching / detaching the heat seal blade 4 to / from the roller body 2 can be eliminated when processing the heat seal surface 9.

  In such a pair of horizontal seal rollers 1, it is necessary to make the circumferential lengths of the pair of horizontal seal roller bodies 2 and the circular flanges 5 and 6 equal so that both the horizontal seal rollers 1 can be operated periodically at the same peripheral speed. In addition, when a plurality of heat seal blades 4 are attached to each of the pair of horizontal seal rollers 1, both are attached around the central axis of the horizontal seal roller body 2 at equal angular intervals. It is preferable for facilitating periodic operation control.

  In the automatic filling and packaging machine 11 shown in FIG. 2 to which the pair of transverse sealing rollers 1 as described above can be applied, the packaging film is attached to the feeding shaft 12 and is often wrapped from the raw roll 13 of the packaging film having a laminated structure. A pair of vertical seal rollers 14 are provided on each side portion of the packaging film F, for example, which is continuously fed out and run through a plurality of guide rollers and folded in half at the center in the width direction. A vertical seal is applied to form a packaging film F into a cylindrical shape, and liquid or other packaged items are continuously or intermittently filled inside the formed cylindrical packaging film CF. A pair of lateral seal rollers 1 forms a lateral seal portion 15 over the entire width of the cylindrical packaging film CF filled with an object to be packaged by a contaminant seal or the like, and a second lateral seal. The roller seal 16 is used to sandwich the lateral seal portion 15 again to increase the strength of the lateral seal portion 15, and thereafter, with the cutting device C, a continuous filling and packaging bag filled and packaged with an article to be packed is By cutting and separating one bag at a time in the center of the width of the seal portion 15 or a plurality of required multiple bags, a liquid packaged item or the like is automatically filled and packaged.

  By the way, in FIG. 3 which expands partially the land part 3 etc. which the surface makes | forms the arc shape in the circumferential direction of the horizontal seal roller main body 2 of the heat seal blade 4, and is a top view, the up-down direction of a figure is for packaging The longitudinal direction corresponding to the feeding direction of the film F, that is, the extending direction of the vertical seal, and the horizontal direction in the figure are the horizontal axis corresponding to the central axis of the horizontal seal roller body 2, that is, the extending direction of the horizontal seal portion 15. Each direction is shown, and the heat seal surface 9 other than the land portion 3 indicates the sea portion 10.

  In addition, in the place shown in FIG. 3, land portions 3 having substantially the same plane surface area are regularly formed in a grid pattern, but the land portions 3 are arranged in a grid pattern by alternating arrangement with the sea portions 10. It can also be formed in a zigzag pattern or the like, and the number of the land portions 3 and / or the planar area of the land surface can be given a gradation in the rotation direction of the heat seal blade.

  Here, in the heat seal blade 4 of the present invention, the total plane area of the sea portion 10 is in the range of 20 to 150 times the total plane area of the surface of the land portion 3.

  For this reason, the vertical and horizontal average distance δ of the land portion 3 is preferably set to 490 to 750 μm with respect to the vertical and horizontal dimensions α and β of the surface of the land portion 3 which can be set to 70 to 100 μm, for example. Is in the range of 7 to 7.5 times the vertical and horizontal dimensions α and β of the surface of the land portion 3.

  On the other hand, the depth of the sea portion 10 with respect to the surface of the land portion 3 is preferably in the range of 10 to 20 μm as described above, and the raised side surface of the land portion 3 is preferably a vertical wall.

  That is, as exemplified by the enlarged cross-sectional area in FIG. 4, the raised side surface 3 a of the land portion 3 should be formed as vertically as possible. This is preferable for preventing changes in the amount of heat transferred to the film CF as much as possible.

  On the other hand, the formation mode of the sea part 10 that causes the bulge of the land part 3 is as long as a sufficient amount of heat can be transmitted from the sea part 10 to the sandwiched tubular packaging film CF at the time of the action of the opposing heat seal blade 4. However, there is no particular problem.

  In addition, regular alternate formation by etching of the land portion 3 and the sea portion 10 of the heat seal blades 4 of the paired horizontal seal rollers 1 according to the manufacturing method of the present invention can be performed by photolithography. For example, the heat seal blade material, which can be made into alloy tool steel, is first cleaned to remove dust and oxide film on the surface, and then an oxide film is formed on the surface of the heat seal blade material and an etching resist. The film is pasted under heat and pressure, and exposed with the film mask in close contact with the etching resist film to transfer the mask pattern onto the etching resist film.

  Then, the exposed one is developed and washed with pure water. In this case, in the negative type, the exposed portion is cured and remains. Thereafter, post-baking treatment is performed at 140 ° C. for 30 minutes in order to improve the adhesion between the etching resist film and the oxide film and to improve the corrosion resistance. Subsequently, the oxide film not covered with the etching resist film is treated at room temperature (for example, Under the condition of 23 ° C., etching is performed by wet etching for 30 minutes, and finally, the etching resist film covering the oxide film is removed and washed with pure water.

  According to these things, the heat seal blade 4 as mentioned above specified by this invention in which the land part 3 and the sea part 10 exist regularly alternately will be manufactured.

  Using each of the heat seal blade of the embodiment according to the present invention and the heat seal blade of the comparative example, the proper lateral width for each heat seal blade with the filling speed of the package and the heating temperature of the heat seal blade as parameters. When the temperature range which can form a seal part was measured, the result shown in Table 1 was obtained. In addition, the conditions of each heat seal blade used in the examples and comparative examples are as shown in Table 1.

  Here, the packaging film has a two-layer structure of a 15 μm-thick biaxially stretched nylon film and a 50 μm-thick linear low-density polyethylene, and as an automatic filling and packaging machine, a DANGAN TYPE-III standard machine (Produced by Taisei Ramik Co., Ltd.), filling pitch, that is, the formation pitch of the horizontal seal portion is 63 mm, the packaged material is 15 g (30 ° C.), and the pressing force of the pair of horizontal seal rollers is It was set to 400 kPa and 320 kPa on the left and right, respectively.

  Since the heat supply from the heat-seal blade to the packaging film is stable and can effectively prevent excess heat transfer, the seal blade of the example has a temperature of 50 ° C. over a temperature range of 50 ° C. at a filling speed of 6 m / min. At a film speed of 12 m / min, an appropriate lateral seal portion 15 can be formed over a temperature range exceeding 60 ° C., and at a film speed of 25 m / min, over a temperature range of about 50 ° C., these temperature ranges. Is a wider range than the temperature range of the sealing blades of Comparative Example 1 and Comparative Example 2. In addition, in the sealing blade (etching processing sealing blade) of the example, the total plane area of the sea portion with respect to the total plane area of the land surface was 20 times the limit of etching processing, and the one less than 20 times could not be processed. On the other hand, when it exceeded 150 times, the result was almost the same as the smooth mirror finished seal blade of Comparative Example 1.

  Thus, in the heat seal blade 4 of the present invention, since the surface of the land portion 3 is an arcuate surface that forms an arc shape in the circumferential direction of the lateral seal roller body 2, the wear resistance of the surface of the land portion 3 is improved. The amount of heat transmitted from the blade 4 to the tubular packaging film CF can be sufficiently suppressed over a long period of time due to the presence of the sea portion 10, and the excellent lateral seal portion 15 can always be formed.

  Further, in the heat seal blade 4, the land portions 3 and the sea portions 10 are regularly and alternately formed, so that the amount of heat transferred from the heat seal blade 4 to the tubular packaging film CF is changed to the tubular packaging film CF. It can be as calculated in relation to the contact area and the like. In addition, by making the total plane area of the sea portion 10 in the range of 20 to 150 times the total plane area of the land 3 surface, it is possible to effectively transfer excess heat from the heat seal blade to the tubular packaging film. In addition to being able to suppress, since the pressing force to the cylindrical packaging film is dispersed, damage to the film can be reduced.

DESCRIPTION OF SYMBOLS 1 A pair of horizontal seal roller 2 A horizontal seal roller main body 3 Land part 4 Heat seal blades 5 and 6 Circular flanges 7 and 8 Arc-shaped protruding protrusion 9 Heat seal surface 10 Sea part 14 A pair of vertical seal roller 15 A horizontal seal part F Packaging film CF tubular packaging film

Claims (5)

Mounted in parallel in close proximity to each other and attached to each of a pair of transverse seal roller bodies that are driven to rotate in opposite directions, and extend in the axial direction of the transverse seal roller body, and the surface of the land portion is transverse A cylindrical packaging film formed in a cylindrical shape by forming a circular arc in the circumferential direction of the seal roller body, and by vertically sealing each side portion of the packaging film that has been continuously run and folded in the width direction. A heat seal blade for a horizontal seal roller that forms a horizontal seal portion over the entire width,
Each heat-sealing blades of the transverse sealing rollers paired, the land portion, Ama and regulations law to Rutotomoni provided alternately, flat total area of該海section, in the plane the total area of the land portion surface in the range of 2 0 to 150-fold against and to the plane vertical and horizontal dimensions of the land portion surface, transverse sealing the aspect average interval of the land portion, characterized in that in the range of 7 to 7.5 times Heat seal blade for rollers. 2. The heat seal blade for a horizontal seal roller according to claim 1, wherein a vertical and horizontal dimension of the land portion surface is in a range of 70 to 100 μm, and a vertical and horizontal average interval of the land portion is in a range of 490 to 750 μm. . Wherein the raised side walls of the land portion, the lateral seal rollers for heat-sealing blade according to claim 1 or 2, characterized in that a vertical wall.   The heat seal blade for a horizontal seal roller according to any one of claims 1 to 3, wherein the land portion and the sea portion are alternately provided in a grid pattern, a twill pattern, or a staggered pattern. Mounted in parallel in close proximity to each other and attached to each of a pair of transverse seal roller bodies that are driven to rotate in opposite directions, and extend in the axial direction of the transverse seal roller body, and the surface of the land portion is transverse A cylindrical packaging film formed in a cylindrical shape by forming a circular arc in the circumferential direction of the seal roller body, and by vertically sealing each side portion of the packaging film that has been continuously run and folded in the width direction. In producing the heat seal blade for a horizontal seal roller according to any one of claims 1 to 4, wherein the horizontal seal portion is formed over the entire width.
Each heat sealing blade method horizontal sealing roller heat seal blades to form a regularly alternating the sea Metropolitan and the land portion by etching of the horizontal sealing rollers paired.

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