JP7107569B2 - Sealing device and method for packaging paper bag container - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sealing device and method for a packaging paper bag container.

A kraft paper bag, which is a paper bag for packaging, is produced by making a single layer or multiple layers of kraft base paper. In addition, there are also those in which a poly film, laminate film, reinforced kraft paper, or the like is used as the innermost layer. Paper bag containers for packaging include single-bottom bags in which at least one end of a tubular body made of kraft base paper is sealed, and double-bottomed bags in which both the lower end opening and the upper end opening are sealed. .

As a device for sealing the mouth of a paper bag, an automatic bag mouth sealing device described in Patent Document 1 is known. This automatic bag mouth sealing device sandwiches the mouth of a paper bag placed on a belt conveyor device from both sides by a pair of endless belts so that the mouth of the paper bag can be maintained in a flat state and the mouth of the paper bag is stabilized. It is designed so that it passes through the correct route. This pair of endless belts is installed only in a short section at the release paper removing position. Further, the endless belt has pulleys (driving pulleys) rotatably installed on the starting end side and the terminal end side, respectively.

Also known is a filling bag mouth closing device that is placed on a conveyor, holds the upper bag mouth of the filling bag with a pair of clamping belts, and sequentially feeds the filling bag (see, for example, Patent Document 2). The pair of pinching belts pinches the top opening of the filling bag and guides it to a pair of guide plates arranged in front of the sewing machine. Closed tightly.

Further, there is known a bag edge sealing device that has a bottom fused portion that folds and seals the bottom edge of a cylindrical bag material (see, for example, Patent Document 3). This bag edge sealing device transfers the bag material placed on the mounting table by means of a transfer belt, and also transfers the bottom part while holding it by means of a pair of upper and lower endless chain conveyors provided at the bottom fusion part.

In this manner, the apparatus for sealing the opening of a paper bag container transports the paper bag container by placing it on the conveyor, and seals the opening of the paper bag container by pinching the opening of the paper bag container with a clamping device that moves at the same speed as the conveyor. As clamping members for clamping the opening of a paper bag container, there are a pair of endless belts in Patent Document 1, a pair of clamping belts in Patent Document 2, and a pair of endless chain conveyors in Patent Document 3. Some use belts, flat belts, timing belts, and the like.

Japanese Patent Application Laid-Open No. 2002-332013 Japanese Utility Model Laid-Open No. 3-117606 Japanese Utility Model Laid-Open No. 58-167009

When using the endless belt of Patent Document 1, the nipping belt of Patent Document 2, or other V-belts or flat belts, belt tension loosens due to long-term use or changes in the environment (temperature/humidity) depending on the season. A slip occurs in the pulley, resulting in unstable belt running, causing a shift or error in the timing of paper bag transport, resulting in unstable transport and sealing defects.

When the endless chain conveyor of Patent Document 3 or the inwardly curved roller chain shown in FIG. 17 is used, the bushing of the roller chain rotates, so periodic lubrication is required to absorb the friction. In some cases, the supplied oil splashed (dropped) onto the product paper bag, resulting in a defective product. In addition, due to long-term use, the sliding surface of the roller chain pins and bushings wears out, creating gaps and increasing the elongation of the bag feeding pitch (roller chain pitch × number of links). Due to an error in transportation, there were cases where the sealing molding was defective. The insertion opening of the paper bag container conveyed by the inwardly curved roller chain is inclined so that the paper bag container can be smoothly inserted. Paper bag containers to be conveyed bite into the gaps of the inwardly curved roller chain, slackness of the roller chain, and synchronization error (deviation) with the conveying speed of the related bag feeding device may occur, resulting in the inwardly curved roller chain. When the paper bag container bites into the gap of the attachment, the paper bag container may be damaged and become a defective product. In addition, since the inward bending roller chain is made of steel, it has the drawback of rusting after long-term use. There was a problem of becoming In addition, in the inner layer sealing device in the previous process for sealing the bottom of the paper bag container, the inwardly curved roller chain disposed near the side surface of the heat seal bar is heated, and the inside of the paper bag container is in a quasi-welded state. There is a risk that the filling will leak due to insufficient content or insufficient strength. In addition, there is a problem that elongation and rust increase due to repeated heating and cooling of the inwardly curved roller chain. In addition, if maintenance such as periodic tensioning of the roller chain is neglected, it causes problems such as increased noise and early damage.

When transporting a paper bag container with a timing belt, in addition to a driving timing pulley, a plurality of timing pulleys for positioning the timing belt that clamps and transports the paper bag container can be used to transport the paper bag without slipping. However, since the meandering prevention flange of the timing belt attached to the positioning timing pulley is larger than the outer diameter of the timing belt, if the belt is used as it is, the flange will come into contact with the paper bag being transported, causing streaks on the paper bag container. It will be a defective product. Therefore, the outer diameter of the flange is cut slightly smaller than the outer diameter of the timing belt. In the past, it was necessary to temporarily stop the bag making equipment, which led to a decrease in productivity. In addition, if drive timing pulleys are provided on both sides of the timing belt and positioning timing pulleys are not used, the feeding pitch of the drive timing pulleys during high-speed operation will affect the transport of the paper bag container by nipping it with the timing belt. I had a problem with vibration.

In the case of paper bag containers filled with contents (foods, chemicals, etc.) that generally dislike moisture absorption, a poly film or laminate film is used as the innermost layer of the paper bag container, and a predetermined seal width ( 7 mm to 12 mm) is heat-sealed and sealed. If the transportation speed of the paper bag container varies, the heat transfer at the time of heat-sealing becomes non-uniform, and the sealing becomes uneven, resulting in poor sealing. In addition, when sewing the reinforcing paper (crepe tape) that seals the bottom of the paper bag container, if there is variation in the transport speed of the paper bag, the length of the reinforcing paper (crepe tape) will vary, resulting in insufficient sealing strength. Also, there is a risk that the bag will break during the physical distribution and transportation process and the filled contents will leak. Furthermore, when covering the sealing part with an overtape for the purpose of increasing the strength of the sealing part and improving the sealing performance after heat sealing and machine sewing, if the paper bag container conveying speed varies, the cut length of the overtape and adhesion There is a risk that the strength will vary and the contents will leak. Therefore, the conveying means is required to accurately convey continuously or intermittently at equal intervals so as not to interfere with the work processes that follow.

Accordingly, the present invention aims to solve the above problems and provide a sealing device and method for conveying a paper bag container at a predetermined speed and sealing the opening and bottom without damaging or staining the paper bag. aim.

A sealing device for a packaging paper bag container according to the present invention includes a conveyer device for conveying a packaging paper bag container filled with contents in an upright state, a nip device for pinching the packaging paper bag container, and the packaging paper bag. and an opening sealing device for sealing the opening of the container, wherein the nipping device comprises a pair of timing belts on the left side and a timing belt on the right side for sandwiching the packaging paper bag container in the horizontal direction. A timing belt, a plurality of left guide rolls that guide the left timing belt, and a plurality of right guide rolls that guide the right timing belt, wherein the left guide roll and the right guide roll one of which is movable and the other is fixed, and the movable left guide roll or the right guide roll is biased toward the fixed right guide roll or the left guide roll, The left timing belt or the right timing belt is biased in a direction to sandwich the packaging paper bag container by the movable left guide roll or the right guide roll, and the timing belt is formed in an endless loop. The inner surface of the timing belt is formed with a plurality of teeth parallel to each other in the circumferential direction and grooves extending in the circumferential direction. The outer surface of the timing belt is formed flat. The protrusion is formed in the groove, the protrusion is arranged in the groove, the opening sealing device is composed of a plurality of devices for performing different sealing processes, and the left guide roll and the right guide roll are It is characterized by being arranged in a full sealing process by the opening sealing device .

In addition, the method for sealing a paper bag container for packaging according to the present invention includes placing a paper bag container filled with contents in an upright position on a conveyer device, and moving the paper bag container for packaging to the left side of the endless ring. A sealing method comprising horizontally sandwiching a pair of timing belts consisting of a belt and an endless annular right timing belt , conveying it in an opening sealing device, and sealing the opening of the packaging paper bag container, wherein the left side The timing belt is guided by a plurality of left guide rolls, the right timing belt is guided by a plurality of right guide rolls, and the inner surface of the timing belt is provided with a plurality of teeth arranged in a circumferential direction, A groove portion extending in the circumferential direction is formed, the outer surface portion of the timing belt is formed flat, a convex portion formed to protrude from the rotatable guide roll is arranged in the groove portion, and the left guide Either one of the roll and the right guide roll is movable and the other is fixed, and the movable left guide roll or the right guide roll is fixed to the right guide roll or the left guide roll side and the left timing belt or the right timing belt is biased in a direction to sandwich the packaging paper bag container by the movable left guide roll or the right guide roll, and the opening The partial sealing device is composed of a plurality of devices each performing different sealing processes, and the left guide roll and the right guide roll are arranged in the full sealing process by the opening sealing device .

According to the present invention, the packaging paper bag container can be conveyed without variation in the conveying speed, and the upper end (opening) and lower end (bottom) can be sealed. In addition, it is possible to prevent the packaging paper bag container from being damaged or soiled due to transportation.

1 is a plan view showing the sealing device of Example 1. FIG. 1 is a front view showing the sealing device of Example 1. FIG. 2 is a plan view showing the nip device of Example 1. FIG. 4 is a plan view showing the guide roll unit of Example 1. FIG. FIG. 2 is a perspective view showing timing belts of Examples 1 and 2; FIG. 4 is a vertical cross-sectional view showing a sandwiched state of the heavy-duty packaging paper bag in the overtape device of Embodiment 1; 1 is a perspective view showing a trimming device of Example 1. FIG. 1 is a perspective view showing an inner layer sealing device of Example 1. FIG. 1 is a perspective view showing the edge folding device of Example 1. FIG. 1 is a perspective view showing an overtape device and a cutter device of Embodiment 1. FIG. 4 is a schematic diagram showing the configuration of the bottom sealing device of Example 2. FIG. 10 is a list of four types of heavy-duty wrapping paper bags with different sealing specifications and each device constituting the bottom sealing device of Example 2. FIG. FIG. 10 is a plan view showing the inner layer sealing device of Example 2; FIG. 11 is a front view showing an inner layer sealing device of Example 2; FIG. 10 is a vertical cross-sectional view showing a nip device and a sealing device of Example 2; FIG. 11 is a rear view showing the guide roll unit of Example 2; FIG. 10 is a vertical cross-sectional view showing a state in which a paper bag is sandwiched by a conventional inwardly bent roller chain.

Embodiments of the present invention will be described below with reference to the accompanying FIGS. 1 to 16. FIG. The examples described below do not limit the content of the claimed invention. Moreover, not all the configurations described below are essential requirements of the present invention.

1 to 10 show Example 1 of the present invention, and FIGS. 1 and 2 show a heavy packaging paper bag 1, which is a packaging paper bag container made of kraft base paper, filled with contents, and then open at the upper side. A sealing device 3 for sealing the part 2 is shown. The sealing device 3 includes a conveyer device 4, a nip device 5, a trimming device 6, an inner layer sealing device 7, an edge folding device 8, an over tape device 9, a cutter device 10, a drive device 11, an operation panel 12, and a control panel 13. have. In this embodiment, the inner layer sealing device 7, the folding device 8, the overtape device 9, and the cutter device 10 constitute the opening sealing device. The types of equipment that make up the

The heavy-duty packaging paper bag 1 (packaging paper bag container) of this embodiment has a three-layer paper bag structure composed of a poly film layer as the innermost layer and two outer layers of kraft paper. Incidentally, the innermost layer may be a laminate film layer.

The sealing device 3 can be arbitrarily moved up and down by adjusting the height position of the sealing device frame 23 with the upper surface 22 of the belt 21 of the conveyer device 4 as a reference. Therefore, when there is a change in the dimensions due to a change in the specification of the heavy-duty packaging paper bag 1 due to the capacity of the filling material, etc., the sealing device frame 23 can be used by adjusting the height. 1 and 2, the heavy packaging paper bag 1 is conveyed from right to left.

The transport conveyor device 4 is a general belt conveyor, and in this embodiment, the heavy packaging paper bag 1 filled with contents is placed and transported with the opening 2 to be sealed facing upward. Therefore, the heavy packaging paper bag 1 is conveyed with the opening 2 facing upward.

In order to stably and accurately seal the opening 2 of the heavy-duty packaging paper bag 1, the nipping device 5 grips the pinched portion 14, which is the lower portion of the opening 2, from the horizontal direction (horizontal direction in the conveying direction). (Nip). As shown in FIGS. 3 and 4, the nip device 5 includes a pair of left and right timing belts 31L and 31R, a pair of left and right timing pulleys 32L and 32R for transmitting rotational power to the timing belts 31L and 31R, and the timing belts 31L and 31R. A pair of left and right guide rolls 33L, 33R for pressing and guiding the 31R against the pinched portion 14 of the heavy packaging paper bag 1, left and right brackets 34L, 34R for mounting the guide rolls 33L, 33R, and brackets 34L, 34R are attached. It has a pair of left and right frames 35L, 35R and a plate spring 36 that presses the left bracket 34L. The sealing device frame 23 is composed of frames 35L and 35R.

As shown in FIG. 5, the timing belts 31L and 31R are each formed in an endless ring shape, and trapezoidal columnar feed teeth 38, which are tooth portions meshing with the timing pulleys 32L and 32R, are formed on the inner surface portion 37 of the timing belts 31L and 31R. are provided side by side at regular intervals in the circumferential direction (longitudinal direction) of. A groove portion 39 is formed by endless groove processing so as to extend over the entire circumferential length of the timing belts 31L and 31R at the central portion in the width direction (lateral direction) of the inner surface portion 37 of the timing belts 31L and 31R. A groove bottom portion 40, which is the bottom surface of the groove portion 39, is flush with portions of the inner surface portions 37 of the timing belts 31L and 31R where the feed teeth 38 are not provided. Therefore, the depth D1 of the groove portion 39 is the same as the height H1 of the feed teeth 38 of the timing belts 31L and 31R. The outer surface portions 41 of the timing belts 31L and 31R are formed flat, and come into contact with the heavy packaging paper bag 1 when the pinched portion 14 of the heavy packaging paper bag 1 is clamped by the outer surface portions 41 .

The timing pulleys 32L and 32R are connected to an output shaft 15 (not shown) of the driving device 11, which is a driving source, and rotate at a predetermined number of revolutions. The rotation speed can be changed by operating the operation panel 12, and is controlled by the control panel 13 so that the rotation speed is set by the operation panel 12. FIG. The number of rotations of the timing pulleys 32L and 32R, that is, the conveying speed of the timing belts 31L and 31R should be the same as the conveying speed of the belt 21 of the conveyer device 4 on which the heavy packaging paper bag 1 is placed and conveyed. is set and controlled to

As shown mainly in FIGS. 4 and 6, the guide rolls 33L and 33R include an annular body portion 42 and an annular body portion 42 which is provided at the center in the thickness direction (vertical direction) of the body portion 42 and protrudes outward. and a rotary shaft portion 44 inserted through a through hole (not shown) drilled in the central portion of the body portion 42 . A bearing (not shown) is provided between the main body portion 42 and the rotating shaft portion 44 so that the main body portion 42 and the convex portion 43 can freely rotate about the rotating shaft portion 44 . there is The projection length L1 of the projection 43 is formed to be equal to or slightly longer than the height H1 of the feed teeth 38 and the depth D1 of the groove 39 of the timing belts 31L and 31R. Also, the thickness T1 of the convex portion 43 is formed to be the same as or slightly smaller than the groove width G1 of the groove portion 39 . Therefore, when the protrusions 43 of the guide rolls 33L and 33R are arranged in the grooves 39 of the timing belts 31L and 31R and the guide rolls 33L and 33R are rotated, the protrusions 43 can be prevented from meandering within the grooves 39. At the same time, it is possible to prevent the timing belts 31L and 31R from meandering in the vertical direction.

A bearing pin 45 of the rotating shaft portion 44 is fixed to the brackets 34L and 34R. The left bracket 34L is attached to the frame 35L so as to be able to move slightly (for example, ±2.5 mm), and the leaf spring 36 moves the timing belt 31L in the direction orthogonal to the transport direction of the heavy packaging paper bag 1. biased towards the side. Therefore, the bracket 34L moves to the timing belt 31L side, and the guide roll 33L fixed to the bracket 34L is always pressed against the timing belt 31L. As a result, the timing belt 31L is urged in the direction of the timing belt 31R, that is, in the direction of pinching the pinched portion 14 of the heavy packaging paper bag 1. As shown in FIG. The right bracket 34R is fixed to the frame 35R so as not to move. Further, although the thickness of the leaf spring 36 in this embodiment is formed to be 1.2 mm, by changing the thickness of the leaf spring 36, the force for urging the bracket 34L can be changed.

As shown in FIG. 4, in this embodiment, two left guide rolls 33L, two right guide rolls 33R, one left frame 35L, one right frame 35R and one leaf spring 36 are combined into one. A set of guide roll units 46 is used, and 12 sets of the guide roll units 46 are used (see FIG. 3). The number of guide rolls 33L and 33R that constitute the guide roll unit 46 can be changed as appropriate. Also, the number of guide roll units 46 used in the nip device 5 can be changed as appropriate according to the lengths of the timing belts 31L and 31R.

The trimming device 6 is a device that cuts off the upper end portion of the heavy packaging paper bag 1 placed on the transport conveyor device 4 in order to align the upper end position of the opening 2 when sealing the heavy packaging paper bag 1 . This prevents incomplete sealing when the heavy packaging paper bag 1 is placed on the conveyer device 4 in a tilted state. As shown in FIG. 7, the upper end portion (opening portion 2) of the heavy-duty packaging paper bag 1 carried into the trimming device 6 is cut by slitter knives (not shown) that are rotating blades attached to the left and right sides. , the cut pieces 51 are blown into the duct 53 by the blower 52 and removed from the sealing device 3 . The heavy packaging paper bag 1 from which the upper end portion has been cut off is conveyed to the inner layer sealing device 7 .

As shown in FIG. 8, the inner layer sealing device 7 is a device for heat-sealing the innermost layer of the poly film of the heavy duty packaging paper bag 1 . The inner layer sealing device 7 has a pair of left and right heater blocks 61L and 61R. The heater block 61L on the left side in the conveying direction of the heavy packaging paper bag 1 is slightly movable and is biased by a compression spring 62 toward the heater block 61R. The heater block 61R on the right side in the transport direction of the heavy packaging paper bag 1 is fixed so as not to move. Therefore, the opening 2 of the heavy packaging paper bag 1 carried into the inner layer sealing device 7 is pressurized and heated by the heater blocks 61L and 61R, and the innermost layer poly film is heat-sealed. The temperature setting (maximum 400° C.) of the heater blocks 61L and 61R is set by the operation panel 12 according to the specification of the heavy-duty packaging paper bag 1, and is controlled by the control panel 13 automatically. Furthermore, in order to completely seal the poly film layer of the heavy-duty packaging paper bag 1, a pair of left and right inner layer seal press rolls 63L, 63R arranged at the outlet of the inner layer sealing device 7 pressurize the heat-sealed portion of the opening 2. It is sealed and sealed. After that, the heavy packaging paper bag 1 is conveyed to the folding device 8 .

As shown in FIG. 9, the folding device 8 is a device that doubles the upper portion of the opening 2 by folding it back in order to enhance the prevention of leakage of the contents filled in the heavy-duty packaging paper bag 1 . In order to facilitate the folding of the opening 2, creases are formed in advance by a pair of left and right creasing rolls 71L and 71R. After that, the opening 2 is folded back by the folding forming plate 72 and the heavy packaging paper bag 1 is conveyed to the overtape device 9 . Although the folding margin of the opening 2 in this embodiment is set to 15 mm, this length can be changed as appropriate.

As shown in FIG. 10, the overtape device 9 bends an overtape 82 (inner laminated film/Max width 75 mm) drawn out from a tape stand 81 into an inverted U shape by a tape folding plate 83 . The opening 2, which is doubled by folding back by the folding device 8, is covered with an overtape 82 and is pressed by a pair of left and right tape delivery rolls 84L and 84R (the right tape delivery roll 84R is not shown). is fed out. The delivery speed of the tape delivery rolls 84L, 84R is set to be equal to the transport speed of the left and right timing belts 31L, 31R that transport the heavy packaging paper bag 1 by nipping.

The length of the overtape 82 delivered by the tape delivery rolls 84L and 84R can be arbitrarily set in pulses (for example, 1 pulse=1 mm) on the control panel 12. FIG. The heavy packaging paper bag 1 is conveyed while the sandwiched portion 14 is nipped by the timing belts 31L and 31R and the opening portion 2 is nipped by the tape delivery rolls 84L and 84R, and the over tape 82 is cut by the cutter device 10. Cut to length. The over tape 82 is cut so as to be longer than the bag width of the heavy packaging paper bag 1 in the conveying direction of the heavy packaging paper bag 1 by 15 mm to 20 mm. Note that the length of the overtape 82 can be changed as appropriate.

The overtape device 9 has a pair of left and right heater blocks 85L and 85R similar to those of the inner layer sealing device 7. As shown in FIG. The heater block 85L on the left side in the transport direction is mounted so as to be slightly movable, and is biased by a compression spring 86 toward the heater block 85R. The heater block 85R on the right side in the transport direction is fixed so as not to move. As a result, the inner laminate film of the overtape 82 pressurized and heated by the heater blocks 85L and 85R is melted, and the overtape 82 is heat-sealed and welded to the outer surface of the heavy packaging paper bag 1 . The temperature setting (maximum 400° C.) for heating by the heater blocks 85L and 85R is set by the operation panel 12 according to the specifications of the heavy-duty packaging paper bag 1, and is automatically controlled by the control panel 13. After that, final pressure is applied by a pair of left and right press rolls 87L and 87R arranged at the outlet of the overtape device 9, and the contents filled in the heavy packaging paper bag 1 are sealed so as not to leak out from the overtape device 9. carried out. The press roll 87R is driven at the same speed as the timing belt 31R.

As described above, the drive device 11 functions as a drive source for the timing pulleys 32L and 32R of the nip device 5, but also the inner layer seal press rolls 63L and 63R of the inner layer seal device 7 and the crease roll 71L of the edge folding device 8. , 71R, tape delivery rolls 84L, 84R and press rolls 87L, 87R of the overtape device 9.

The inner layer seal press rolls 63L, 63R, the creased rolls 71L, 71R, the tape delivery rolls 84L, 84R, and the press rolls 87L, 87R are the timing belts 31L, 31R for nipping and conveying the heavy packaging paper bag 1. It is set and controlled to be the same speed as the speed.

The sealing device 3 includes an automatic filling machine (not shown) that fills the heavy packaging paper bag 1 with contents, a palletizing device (not shown) that palletizes the heavy packaging paper bag 1 with the opening 2 sealed, and the like. It is also possible to make a consistent filling and packaging line by connecting with equipment.

Here, the process of sealing the opening 2 of the heavy packaging paper bag 1 filled with contents will be described. First, the heavy packaging paper bag 1 filled with contents is placed on the conveyor device 4 . At this time, the heavy packaging paper bag 1 is in an upright state, with the opening 2 facing upward. When the heavy packaging paper bag 1 is moved along the tipping prevention guide 25 so as not to tip over and is conveyed to the nip device 5 by the transport conveyor device 4, the gripped portion 14 of the heavy packaging paper bag 1 is inserted between the left and right timing belts 31L and 31R. be done. Since the left bracket 34L is pressed by the leaf spring 36, the clamped portion 14 is securely clamped by the left and right timing belts 31L and 31R. The clamped portion 14 is constantly clamped by the timing belts 31L and 31R while being conveyed through the sealing device 3. As shown in FIG. The heavy packaging paper bag 1 in this state is conveyed to the trimming device 6 by the conveyer device 4, and the upper end portion of the opening 2 is cut by the rotating slitter knife. The cut pieces 51 are blown off by the blower 52 and removed into the duct 53 . The heavy-duty packaging paper bag 1 with the upper end portion of the opening 2 removed and the position of the upper end aligned horizontally is conveyed to the inner layer sealing device 7 . In the inner layer sealing device 7, the opening 2 of the heavy packaging paper bag 1 is pressurized and heated from the outer surface side by a pair of left and right heater blocks 61L and 61R, and the innermost polyethylene film layer is heat-sealed to form a heavy packaging paper bag. 1 is conveyed to the folding device 8 . The heavy packaging paper bag 1 carried into the folding device 8 is conveyed to the overtape device 9 after the upper portion of the opening 2 is folded once. In the over-tape device 9, the folded opening 2 is covered with an over-tape 82 folded in an inverted U shape to a half width of the tape width, and pressed by a pair of left and right tape delivery rolls 84L and 84R. is brought out. After that, the portion covered with the overtape 82 is pressurized and heated by a pair of left and right heater blocks 85L and 85R, and the overtape 82 is heat-sealed and welded to the exterior surface of the heavy packaging paper bag 1. FIG. After the overtape 82 is heat-sealed and welded, the heavy packaging paper bag 1 is carried out from the overtape device 9, and the sealing process by the sealing device 3 is completed.

As described above, the sealing device 3 for the heavy packaging paper bag 1 of the present embodiment includes the conveyer device 4 that conveys the heavy packaging paper bag 1 filled with contents in an upright state with the opening 2 for sealing the heavy packaging paper bag 1 facing upward, A sealing device 3 comprising a nipping device 5 for sandwiching the heavy packaging paper bag 1 and an opening sealing device for sealing the opening 2 of the heavy packaging paper bag 1, wherein the nipping device 5 moves the heavy packaging paper bag 1 horizontally. A pair of timing belts 31L, 31R sandwiched between the two, and a plurality of guide rolls 33L, 33R biasing the pair of timing belts 31L, 31R in the direction of sandwiching the heavy packaging paper bag 1. The timing belts 31L, 31R are The timing belts 31L and 31R are formed in an endless annular shape, and a plurality of feed teeth 38 arranged in a circumferential direction and a groove portion 39 extending in the circumferential direction are formed on the inner surface portion 37 of the timing belts 31L and 31R. In order to suppress vertical meandering and vibration of the pair of timing belts 31L and 31R that sandwich the heavy packaging paper bag 1, the timing belt 31L is arranged. , 31R, and delays and errors in the timing of transportation of the heavy packaging paper bag 1 are less likely to occur, and stable transportation can be carried out at a constant speed. Further, since the outer surface portions 41 of the timing belts 31L and 31R that come into contact with the gripped portion 14 of the heavy packaging paper bag 1 are formed flat, the heavy packaging paper bag 1 can be prevented from being damaged or soiled during transportation.

In the method of sealing the heavy packaging paper bag 1 of the present embodiment, the opening 2 for sealing the heavy packaging paper bag 1 filled with contents faces upward, and the heavy packaging paper bag 1 is placed in an upright state on the conveyer device 4, and the heavy packaging paper bag 1 is placed in an upright state. A sealing method for conveying a paper bag 1 horizontally sandwiched between a pair of endless annular timing belts 31L and 31R and sealing the opening 2 of the heavy duty packaging paper bag 1. is formed with a plurality of feed teeth 38 arranged in parallel in the circumferential direction and grooves 39 extending in the circumferential direction, which are formed so as to protrude from the rotatable guide rolls 33L, 33R that bias the timing belts 31L, 31R. A pair of timing belts 31L and 31L for sandwiching the heavy packaging paper bag 1 is formed by arranging the convex portion 43 in the groove portion 39 and biasing the timing belts 31L and 31R in the direction of sandwiching the heavy packaging paper bag 1 by the guide rolls 33L and 33R. In order to suppress vertical meandering and vibration of 31R, loosening of the tension of timing belts 31L and 31R and misalignment and error in transportation timing of heavy packaging paper bag 1 are less likely to occur, and stable transportation is performed at a constant speed. be able to. Further, since the clamped portion 14 of the heavy packaging paper bag 1 is accurately clamped by the flat outer surface portions 41 of the timing belts 31L and 31R, the heavy packaging paper bag 1 can be prevented from being damaged or soiled during transportation.

Embodiment 2 of the present invention is shown in FIGS. 11 to 16. The same parts as those in Embodiment 1 are denoted by the same reference numerals, and detailed description thereof will be omitted. The sealing device of this embodiment is a device that cuts the tubing main body 93 to a specified length in the bag making process, conveys the heavy duty packaging paper bag 1 in a cylindrical shape, and seals the bottom portion 92. . The sealing device of this embodiment includes a bottom sealing device 91 and a nipping device 98 for pinching and conveying the heavy packaging paper bag 1 (tube body 93).

In the bag making process of the heavy duty packaging paper bag 1, the tube body 93 before the bottom 92 is sealed has a three-layer structure composed of a poly film layer as the innermost layer and a kraft paper layer as the outer layer, It is formed in a cylindrical shape. The tube body 93 may have a two-layer structure or a multi-layer bag having four or more layers, and the innermost layer may be a laminated film layer (polyethylene processed paper). In this embodiment, the bottom portion 92 of the tube body 93 is sealed by heat-sealing the innermost polyethylene film layer, sewing the bottom portion 92 and covering the bottom portion 92 with the overtape 82 .

FIG. 11 is a schematic diagram showing the configuration of the bottom sealing device 91 for sealing the bottom 92 of the tube body 93 of this embodiment. I have. The tube main body 93 is sent by the aligning device 100 of the inner layer sealing device 94 shown in FIG. The tube main body 93 mounted on the mounting table 97 is sandwiched by timing belts 104U and 104D and Teflon (registered trademark) belts 126U and 126D (see FIG. 15), which is the upper portion of the bottom portion 92 of the tube main body 93. The portion 99 is nipped and conveyed. 11 to 14, the tube body 93 is transported from the left side of the inner layer sealing device 94 to the right side of the overtape device 96. In FIGS. In this embodiment, the inner layer sealing device 94, the sewing machine sewing device 95, and the overtape device 96 constitute the bottom sealing device 91, but the devices constituting the bottom sealing device 91 are selected according to the sealing specifications of the tube body 93. .

FIG. 12 shows a list of four types ((a) to (d)) of heavy-duty packaging paper bags 1 with different specifications for sealing the bottom portion 92 and each device constituting the bottom portion sealing device 91 . (A) in FIG. 12 is a sealing specification in which inner layer sealing, machine sewing, and overtape processing are performed, and (B) in FIG. 12 is a sealing specification in which inner layer sealing and machine sewing are performed. (c) in 12 is a sealing specification in which machine sewing and overtape processing are performed, and (d) in FIG. 12 is a sealing specification in which machine sewing is performed. For sealing the bottom portion 92 of the heavy-duty packaging paper bag 1 of (a), an inner layer sealing device 94, a sewing machine sewing device 95, and an overtape device 96 are used. In order to seal the bottom portion 92 of the heavy packaging paper bag 1 of (a), an inner layer sealing device 94 and a machine sewing device 95 are used. For the sealing of the bottom portion 92 of the heavy-duty packaging paper bag 1 of (c), a machine sewing device 95 and an overtape device 96 are used. For (d) sealing of the bottom portion 92 of the heavy-duty packaging paper bag 1, a machine sewing device 95 is used. The heavy-duty packaging paper bag 1 of this embodiment corresponds to the specification of (a) sealing.

13 shows a plan view of the inner layer sealing device 94, and FIG. 14 shows a front view of the inner layer sealing device 94. The tube body 93 is intermittently fed one bag at a time from a bag feeder (not shown). It is supplied to the inner layer sealing device 94 . The supplied tube bodies 93 are carried into the alignment device 100 provided in the inner layer sealing device 94 and checked by various detection devices (not shown). (not shown). Then, only the tube main bodies 93 determined to be non-defective are carried into the sealing device 101 of the bottom portion 92 of the tube main bodies 93 provided in the inner layer sealing device 94 .

As shown in FIGS. 15 and 16, the sealing device 101 for the bottom portion 92 of the tube body 93 has an upper frame 102 and a lower frame 103 provided vertically. On one side of the upper frame 102 and the lower frame 103 (on the right side in FIG. 15) are provided a pair of upper and lower timing belts 104U and 104D, a pair of upper and lower guide rolls 105U and 105D for guiding the timing belts 104U and 104D, and an upper guide. and a compression spring 106 that biases the roll 105U downward.

As shown in FIG. 5, the upper and lower timing belts 104U and 104D are formed in an endless annular shape, respectively. 13) are arranged side by side at regular intervals in the circumferential direction (longitudinal direction) of the timing belts 104U and 104D. A groove portion 110 is formed by endless groove processing so as to extend over the entire circumferential length of the timing belts 104U and 104D at the center portion in the width direction (lateral direction) of the inner surface portion 109 of the timing belts 104U and 104D. A groove bottom portion 111, which is the bottom surface of the groove portion 110, is flush with portions of the inner surface portions 109 of the timing belts 104U and 104D where the feed teeth 108 are not provided. Therefore, as shown in FIG. 16, the depth D2 of the groove 110 is the same as the height H2 of the feed teeth 108 of the timing belts 104U and 104D. The outer surface portions 112 of the timing belts 104U and 104D are formed flat, and come into contact with the tube body 93 when the clamped portion 99 is clamped by the outer surface portions 112 . Further, the outer surface portion 112 is arranged horizontally.

As shown in FIG. 15, the guide rolls 105U and 105D include an annular main body portion 113 and an annular convex portion 114 provided at the center of the main body portion 113 in the thickness direction (vertical direction) and projecting outward. , and a rotary shaft portion 115 inserted through a through hole (not shown) drilled in the central portion of the main body portion 113 . A bearing (not shown) is provided between the main body portion 113 and the rotating shaft portion 115 so that the main body portion 113 and the convex portion 114 can freely rotate around the rotating shaft portion 115. there is The projection length L2 of the projection 114 is formed to be equal to or slightly longer than the height H2 of the feed teeth 108 of the timing belts 104U and 104D and the depth D2 of the groove 110 . Also, the thickness T2 of the convex portion 114 is formed to be the same as or slightly shorter than the groove width G2 of the groove portion 110 . Therefore, when the protrusions 114 of the guide rolls 105U and 105D are arranged in the grooves 110 of the timing belts 104U and 104D and the guide rolls 105U and 105D are rotated, the protrusions 114 can be prevented from meandering within the grooves 110. At the same time, it is possible to prevent the timing belts 104U and 104D from vibrating in the horizontal direction (horizontal direction).

A bearing pin 116 of the rotating shaft portion 115 is fixed to a fixed rod portion 117 extending in a direction orthogonal to the rotating shaft portion 115 . A fixed base portion 118 is fixed to the upper frame 102 , and a rectangular bar-shaped fixed base portion 119 is fixed to the fixed base portion 118 . The fixing base portion 119 is provided with an insertion hole 120 that opens vertically, and the fixing rod portion 117 is loosely inserted into the insertion hole 120 . A retaining member 121 is fixed above the fixing base portion 119 and above the fixing rod portion 117 to hold the fixing rod portion 117 so as not to fall off from the fixing base portion 119 . Further, the fixed rod portion 117 is inserted into the compression spring 106, and the compression spring 106 is arranged between the bearing pin 116 of the rotation shaft portion 115 and the fixed base portion 119, thereby compressing the upper guide roll 105U. A spring 106 biases the guide roll 105U side (lower side). The lower guide roll 105D is fixed to the lower frame 103 so that the bearing pin 116 of the rotating shaft portion 115 does not move vertically. Therefore, the upper timing belt 104U is urged to approach the lower timing belt 104D. In other words, the timing belts 104U and 104D are urged in the direction of pinching the pinched portion 99 of the tube body 93 .

As shown in FIG. 16, in this embodiment, upper guide rolls 105U are attached to both ends of one fixed base portion 119, respectively. Therefore, two upper guide rolls 105U, two lower guide rolls 105D, and two compression springs 106 constitute one set of guide roll units 122, and eight sets of these guide roll units 122 are used. (not shown). The number of guide rolls 105U and 105D constituting the guide roll unit 122 can be changed as appropriate. Also, the number of guide roll units 122 used in the sealing device 101 can be changed as appropriate according to the lengths of the timing belts 104U and 104D.

A pair of upper and lower heater blocks 123U and 123D are arranged on the other side of the upper frame 102 and the lower frame 103 (the left side in FIG. 15). The heater blocks 123U and 123D have a pair of upper and lower heater bars 124U and 124D for heat-sealing the innermost layer of the tube body 93, the poly film. The upper heater block 123U is mounted so as to be slightly vertically movable, and is urged by a compression spring 125 toward the heater block 123D (downward). The lower heater block 123D is fixed to the lower frame 103 so as not to move vertically. The heater block 123D is fixed such that a contact surface 127D of a heater bar 124D, which will be described later, is horizontal. A pair of upper and lower Teflon belts 126U and 126D are arranged between the upper and lower heater bars 124U and 124D to sandwich the tube main body 93 and enable smooth transportation. The Teflon belts 126U and 126D are formed in an endless loop, and are set and controlled so as to pinch and convey the tube body 93 at the same speed as the timing belts 104U and 104D. The bottom portion 92 of the tube main body 93 is heated and pressurized by the heater bars 124U and 124D in a state sandwiched between the Teflon belts 126U and 126D to be sealed. The heat seal width (for example, 7 to 12 mm) of the bottom portion 92 can be changed by changing the width of the contact surfaces 127U, 127D of the heater bars 124U, 124D attached to the heater blocks 123U, 123D.

If the innermost layer of the tube main body 93 is not made of a poly film or a laminate film and there is no need for heat sealing, the upper heater block 123U is raised by an operation lever (not shown), and the upper heater bar 124U is opened. Separated from the Teflon belt 126U, the tube main body 93 can be conveyed while being held between the upper and lower Teflon belts 126U and 126D without holding the bottom portion 92 between the heater bars 124U and 124D. In this case, the heater power source (not shown) is turned off, and the heater bars 124U and 124D are not heated.

The tube body 93 , the innermost layer of which is heat-sealed by the sealing device 101 , is conveyed to the machine sewing device 95 by the sealing device 101 while being placed on the mounting table 97 . In the machine sewing device 95, the bottom 92 is covered with a crepe tape 128 which is reinforcing paper, and the bottom 92 is sewn together with the crepe tape 128 with a sewing thread 129 (see JIS Z0102:2004 4.2.6 and FIG. 5d). The tube main body 93 with the bottom portion 92 sewn by machine is conveyed to the overtape device 96 .

The tube main body 93 carried into the overtape device 96 is covered with the crepe tape 128 and sewn by machine. ) are heated and pressurized to be heat-sealed and welded. The overtape 82 is cut to a length necessary and sufficient to cover the crepe tape 128 . After that, final pressure is applied by a pair of upper and lower press rolls (not shown) arranged at the outlet of the overtape device 96 . The bottom portion 92 is completely sealed, and the heavy packaging paper bag 1 is carried out from the overtape device 96, and the sealing process by the bottom portion sealing device 91 is completed.

As described above, the apparatus for sealing the heavy packaging paper bag 1 of the present embodiment has the tube main body 93 sandwiched between the mounting table portion 97 on which the tubular tube main body 93 constituting the heavy packaging paper bag 1 is placed in a lying state. and a bottom portion sealing device 91 that seals the bottom portion 92 of the tube body 93. The nip device 98 includes a pair of timing belts 104U and 104D that sandwich the tube body 93 in the vertical direction. and a plurality of guide rolls 105U and 105D for urging the pair of timing belts 104U and 104D in a direction to sandwich the tube body 93. The timing belts 104U and 104D are formed in an endless annular shape. A plurality of feed teeth 108 arranged in parallel in the circumferential direction and a groove portion 110 extending in the circumferential direction are formed on the inner surface portion 109 of the guide rolls 105U and 105D. By arranging the convex portion 114, the pair of timing belts 104U and 104D sandwiching the tube main body 93 are restrained from meandering and vibrating in the horizontal direction (horizontal direction). It is possible to prevent deviations and errors in the timing of transporting the tube main body 93 and to carry out stable transport at a constant speed. Further, since the outer surface portions 112 of the timing belts 104U and 104D that come into contact with the clamped portion 99 of the tube body 93 are formed flat, it is possible to prevent the tube body 93 from being damaged or soiled during transportation.

Further, in the method of sealing the heavy packaging paper bag 1 of the present embodiment, the cylindrical tube main body 93 constituting the heavy packaging paper bag 1 is laid down and placed on the mounting base portion 97, and the tube main body 93 is placed in a pair of endless In this sealing method, the bottom portion 92 of the tube main body 93 is sealed while being conveyed while being vertically sandwiched by the annular timing belts 104U and 104D. and a groove portion 110 extending in the circumferential direction are formed, and a convex portion 114 formed to protrude from the rotatable guide rolls 105U and 105D for biasing the timing belts 104U and 104D is arranged in the groove portion 110. Then, the pair of timing belts 104U and 104D sandwiching the tube body 93 are meandered in the horizontal direction (lateral direction) by urging the timing belts 104U and 104D in the direction of sandwiching the tube body 93 by the guide rolls 105U and 105D. Also, since the vibration is suppressed, loosening of the tension of the timing belts 104U and 104D and deviation or error in the timing of transporting the tube main body 93 are less likely to occur, and stable transport can be performed at a constant speed. Further, since the pinched portion 99 of the tube main body 93 is pinched by the flat outer surface portions 112 of the timing belts 104U and 104D, the tube main body 93 can be prevented from being damaged or soiled during transportation.

It should be noted that the present invention is not limited to the above embodiments, and various modifications can be made within the scope of the gist of the present invention. For example, in Embodiments 1 and 2, the grooves 39 and 110 are formed by the feed teeth 38 and 108. The widthwise central portion of the inner surface portions 37 and 109 of 104D may be concave, and the groove portions 39 and 110 may be formed by the concave shape and the feed teeth 38 and 108 .

1 Heavy wrapping paper bag (wrapping paper bag container)
2 opening 3 sealing device 4 transfer conveyor device 5 nip device 7 inner layer sealing device (opening sealing device)
8 Closing device (opening sealing device)
9 Overtape device (opening sealing device)
10 cutter device (opening sealing device)
31L timing belt (left timing belt)
31R timing belt (right timing belt)
33L guide roll (left guide roll)
33R guide roll (right guide roll)
37 inner surface portion 38 feed dog (tooth portion)
39 groove portion 41 outer surface portion 43 convex portion

Claims (2)

a conveyer device that conveys the packaging paper bag container filled with contents in an upright state;
a nip device for sandwiching the packaging paper bag container;
and an opening sealing device for sealing the opening of the packaging paper bag container,
The nip device includes a pair of timing belts consisting of a left timing belt and a right timing belt for horizontally sandwiching the packaging paper bag container, a plurality of left guide rolls for guiding the left timing belt, and the a plurality of right guide rolls for guiding the right timing belt;
Either one of the left guide roll and the right guide roll is movable and the other is fixed, and the movable left guide roll or the right guide roll is fixed or the right guide roll or the biased toward the left guide roll,
The left timing belt or the right timing belt is biased in a direction to sandwich the packaging paper bag container by the movable left guide roll or the right guide roll,
The timing belt is formed in an endless ring shape, the inner surface of the timing belt is formed with a plurality of teeth arranged in parallel in the circumferential direction and grooves extending in the circumferential direction, and the outer surface of the timing belt is formed flat. ,
The guide roll is formed with a convex portion protruding outward,
The protrusion is arranged in the groove,
The opening sealing device is composed of a plurality of devices each performing a different sealing process,
A sealing device for a packaging paper bag container, wherein the left guide roll and the right guide roll are arranged in a full sealing process by the opening sealing device. A pair of timing belts consisting of an endless annular left timing belt and an endless annular right timing belt is placed on a conveyer device while a packaging paper bag container filled with contents is placed in an upright state on a conveyer device. A sealing method for horizontally sandwiching and conveying in an opening sealing device to seal the opening of the packaging paper bag container,
guiding the left timing belt with a plurality of left guide rolls, guiding the right timing belt with a plurality of right guide rolls;
A plurality of tooth portions arranged in parallel in the circumferential direction and groove portions extending in the circumferential direction are formed on the inner surface portion of the timing belt, and the outer surface portion of the timing belt is formed flat,
A convex portion formed so as to protrude from the rotatable guide roll is arranged in the groove,
Either one of the left guide roll and the right guide roll is movable and the other is fixed, and the movable left guide roll or the right guide roll is fixed to the right guide roll or the left side is biased toward the guide roll side of
The left timing belt or the right timing belt is biased in a direction to sandwich the packaging paper bag container by the movable left guide roll or the right guide roll,
The opening sealing device is composed of a plurality of devices each performing a different sealing process,
A method for sealing a packaging paper bag container, wherein the left guide roll and the right guide roll are arranged in a full sealing process by the opening sealing device.

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