JP2018039521A - Packaging device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent an object to be packaged from breaking when the object to be packaged is inserted into a cylindrical film by a feeder.SOLUTION: In a packaging device, an object to be packaged 4 is sequentially supplied by an object to be packaged feeder 20 inside a film 5 that is cylindrically rolled by a former 18, the film 5 and the object to be packaged 4 inside the film are transported downstream while being held between a pair of belt conveyors 81L, 81R of a support machine 80 and first pulleys 82L, 82R of the belt conveyors 81L, 81R are driven by actuators 89L, 89R so as to come close to and be separated from each other.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a packaging apparatus for producing a package by sealing a transported cylindrical film.

  The code | symbol used by patent document 1 is described with a bracket, and the packaging apparatus of patent document 1 is demonstrated. In the technique described in Patent Document 1, a strip-shaped film (8) wound around a supply roll (11) is continuously drawn out, and the film (8) is placed in the middle of the conveyance path of the film (8). Rounded into a cylinder. A plurality of articles (4) to be wrapped are sequentially supplied by a finger conveyor to a position where the film (8) is rolled, and are wrapped in the tubular film (8). Then, the article (4) to be packaged is transported downstream together with the film (8), and the longitudinal seam (10) of the film (8) is continuously sealed by the sealing roller (16), and from the sealing roller (16). Also on the downstream side, the lateral seam (22) of the film (8) is periodically sealed and cut by the end sealer (18). Thereby, a pillow-shaped package is produced sequentially.

  An article to be packaged (4) to be packaged by the packaging device described in Patent Document 1 is composed of a plurality of biscuits (5) stacked in the horizontal direction. Therefore, the conveyor which supplies the article to be packaged (4) conveys the biscuit (5) sandwiched between the pair of front and rear push fingers (6) in order to prevent the biscuit (5) from falling down. On the downstream side, the biscuit (5) wrapped in the film (8) cannot be supported by the pushing finger (6), so the biscuit together with the film (8) between the pair of left and right belt conveyors (25). (5) is inserted, and the film (8) and the biscuit (5) are conveyed to the end sealer (18) by the belt conveyor (25). Here, elastic fingers (38) are provided at predetermined intervals on the outer peripheral surface of the endless belt (26) of the belt conveyor (25), and the film (8) and the biscuits (5) inside thereof are compressed and deformed. It is sandwiched between elastic fingers (38) on both sides.

Japanese Patent No. 3535171

  By the way, omission may occur in the row of the articles to be packaged (4) conveyed by the finger conveyor. That is, the biscuit (5) may not be sandwiched between the pair of front and rear push fingers (6). When such omission occurs, an empty package is produced.

  Therefore, when the missing part reaches the upstream end of the belt conveyor (25) so that an empty package is not produced, the film (8) is conveyed, the belt conveyor (25) is operated, and the end sealer (18) is operated. Can be temporarily stopped. Thereafter, when the omission is eliminated, the film (8) is conveyed, the operation of the belt conveyor (25), and the end sealer after the first package (4) after the omission reaches the upstream end of the belt conveyor (25). The operation (18) is resumed.

  However, when the first article to be packaged (4) after elimination of the loss reaches the upstream end of the belt conveyor (25), the article to be packaged (4) is pushed between the elastic fingers (38) on both sides. At the same time, the article to be packaged (4) and the film (8) are rubbed. Therefore, there exists a possibility that the biscuit (5) of the to-be-packaged item (4) may be damaged.

  Therefore, the present invention has been made in view of the above circumstances. The problem to be solved by the present invention is to prevent breakage of the package object when the package object enters between the endless members (for example, endless belts) on both sides by the feeder.

In order to solve the above problems, the present invention provides a film transporter for transporting a belt-like film in the longitudinal direction of the film, and the film transported by the film feeder is continuously rounded into a cylindrical shape. A former that overlaps both sides of the former, a packaging supply machine that is provided on the upstream side of the former and that feeds a plurality of packages at regular intervals inside the film rounded by the former, and the former A center sealing machine that is provided on the downstream side and continuously seals both side portions of the film stacked by the former, and is provided on the downstream side of the center sealing machine, between the packaged items of the film. An end sealing machine for sealing a portion, and a pair of first pulleys provided on both sides of the former and movably provided so as to contact and separate from each other A pair of second pulleys provided on both sides of the former on the downstream side of the first pulley, and a pair of third pulleys provided on both sides of the film on the downstream side of the second pulley and the center sealing machine. A plurality of pulleys, a pair of endless members arranged on both sides of the film, and a plurality of elastic portions provided on an outer peripheral surface of the endless member. A first drive unit that drives the first pulley to contact and separate from each other, and a second drive that drives the endless member in a direction from the first pulley toward the third pulley via the second pulley. And a drive unit.

  According to the above invention, when the object to be packaged passes through the position between the first pulleys and the pair of first pulleys are separated from each other by the first drive unit, the object to be packaged is not compressed by the elastic part, Friction between the package and the film can be minimized. Therefore, it is possible to prevent the packaged item from being damaged.

  According to the present invention, it is possible to prevent the packaged item from being damaged.

FIG. 1 is a schematic side view of a pillow packaging apparatus. FIG. 2 is a block diagram of the pillow packaging apparatus. FIG. 3 is a perspective view of the completed package. FIG. 4 is a plan view of a support machine provided in the pillow packaging apparatus. FIG. 5 is a plan view of the support machine. FIG. 6 is a VI-VI cross-sectional view.

  Embodiments of the present invention will be described below with reference to the drawings. However, the embodiments described below are provided with various technically preferable limitations for carrying out the present invention, and the scope of the present invention is not limited to the following embodiments and illustrated examples.

1. Outline of Pillow Packaging Device and Package FIG. 1 is a schematic side view of the pillow packaging device 1. FIG. 2 is a block diagram of the pillow packaging apparatus 1. FIG. 3 is a perspective view of the package 2 produced by the pillow packaging apparatus 1.

  This pillow wrapping apparatus 1 is an apparatus that sequentially manufactures the package 2 shown in FIG. As shown in FIG. 3, the packaging film 5 of the package 2 in a completed state is in a state of being rolled into a cylindrical shape so as to wrap the article 3, and is further wrapped outside in the circumferential direction of the article 3. The fin-shaped center seal portion (longitudinal stitch) 6 is formed by being partially sealed, and the end portions of the packaging film 5 are sealed on both end surfaces of the package 3. As a result, the end seal portion (horizontal stitch) 7 is formed, and a portion near the end seal portion 7 in the side surface of the packaging film 5 is folded inward to form a gusset (town) 8. It is in the state.

  The articles to be packaged 3 accommodated inside the packaging film 5 are a group consisting of a plurality of plate-like articles 4, and these plate-like articles 4 are in a posture substantially perpendicular to the peripheral surface of the packaging film 5. , In a state of being gathered and stacked. The plate-like article 4 is an article that is difficult or impossible to stand by itself, such as a thin plate-like food (for example, molded potato chips, biscuits, cream sand biscuits), PTP package (blister package), strip package, card, print Circuit board, paperboard, medal, coin or hard sheet.

  As shown in FIGS. 1 and 2, the pillow packaging apparatus 1 includes a transport table 28, a receiving plate (upper plate) 68, a film feeder 10, an article sensor 15, a former (bag making machine) 18, and a packaged article feeder. 20, a transport device 30, an unloading device 35, a gusset forming device 40, a center sealing device (vertical sealing device) 60, an end sealing device (transverse sealing device) 70, a support device 80, and a control unit 100.

  A plurality of articles to be packaged 3 are sequentially supplied to the former 18 at regular intervals by the article supply machine 20, and the strip-shaped film 5 is continuously supplied to the former 18 by the film supplier 10. The film 5 is continuously rolled into a cylindrical shape by the former 18. Thereby, the package 3 is wrapped in the film 5 and the center seal portions 6 on both sides of the film 5 are overlapped. The overlapped center seal portion 6 is continuously sealed and sealed by the center sealer 60. Thereafter, the film 5 and the article to be packaged 3 are conveyed by the conveying device 30 to the gusset forming device 40 and the end sealing device 70. Here, in the section from the former 18 to the upstream side of the end seal machine 70, the film 5 and the inner packaging material 3 are sandwiched by the supporting machine 80 from the side thereof, and the film and the inner packaging object are inside. 3 is supported by a support machine 80.

  In the gusset forming machine 40, the gusset 8 is repeatedly formed by the gusset forming machine 40 on the side surfaces of the portions of the film 5 between the objects to be packaged 3.

  In the end sealing machine 70, each time the part between the objects to be packaged 3 passes through the end sealing machine 70, the part between the objects to be packaged 3 is sealed and cut by the end sealing machine 70. Thereby, the end seal part 7 is formed in the site | part between the to-be-packaged objects 3, and the completed package 2 is cut off. The separated package 2 is conveyed downstream by the unloader 35.

  Hereinafter, each component of the pillow packaging apparatus 1 will be described in detail.

2. Transport base and receiving plate The transport base 28 is a plate-like member, and the article 3 is transported downstream on the transport base 28 by the article supply machine 20. A long groove along the transport direction is formed at the center in the width direction of the transport table 28, and the article 3 to be packaged on the transport table 28 is transported across the long groove. Here, the width direction refers to a horizontal direction orthogonal to the conveyance direction of the article 3 to be packaged, and specifically refers to a direction perpendicular to the paper surface of FIG.

  In addition, a pair of horizontal receiving plates 68 are provided on the downstream side of the transport table 28 so that the height is aligned with the upper surface of the transport table 28. The pair of receiving plates 68 are arranged in a direction (width direction) perpendicular to the paper surface of FIG. 1, and a slit (gap) is formed between these receiving plates 68.

3. Package supply machine and article sensor The package supply machine 20 is a finger conveyor provided upstream of the former 18. The package supply machine 20 includes a first sprocket 21 disposed below the transport table 28 and the former 18, and a second sprocket disposed upstream of the first sprocket 21 and below the transport table 28 ( (Not shown), an endless chain 22 spanned between the first sprocket 21 and the second sprocket, a plurality of feed fingers 23 attached to the endless chain 22 at regular intervals, and an adjacent feed finger 23. And a plurality of support fingers 24 attached to the endless chain 22 at regular intervals, and a servo motor that rotationally drives the first sprocket 21. Pushing fingers 23 and supporting fingers 24 are alternately arranged in the circumferential direction of the endless chain 22. When the endless chain 22 is circulated by the servo motor, the push finger 23 and the support finger 24 pass through the long groove of the transport table 28 and protrude onto the transport table 28 from the second sprocket toward the first sprocket 21. Moving. As a result, the article to be packaged 3 is fed while being sandwiched between the push finger 23 and the support finger 24 on the upstream side thereof, so that the article to be packaged 3 is sequentially supplied to the former 18.

  The fingers 23 and 24 that have moved to the former 18 are drawn downward at a position between second pulleys 83L and 83R described later on the downstream side of the former 18. The drawn fingers 23 and 24 return to the upstream side under the conveyance table 28 and protrude upward from the long groove of the conveyance table 28 in the upstream portion of the conveyance table 28.

  By the way, omission may occur in the row of the articles to be packaged 3 conveyed by the article supply machine 20. Here, “missing” means that the article 3 is not sandwiched between the push finger 23 and the support finger 24. In order to prevent the empty packaging body 2 from being produced even when such omission occurs, the film supply machine 10, the gusset forming machine 40, and the end seal are kept in a state in which the operation of the package supply machine 20 is continued. The machine 70 temporarily stops.

  An article sensor 15 is provided above the long groove in the upstream portion of the transport table 28 in order to detect whether or not the package 3 is missing. The article sensor 15 is a reflection type optical sensor that projects downward by a projector and receives reflected light from below by a light receiver. Every time the endless chain 22 moves a predetermined distance, the article sensor 15 detects the presence or absence of the package 3 under the article sensor 15. The detection timing by the article sensor 15 is when the portion between the support finger 24 and the pushing finger 23 is positioned below the article sensor 15.

4). Film Feeder The film feed machine 10 is set with a raw roll 11 around which a belt-like film 5 is wound. The film 5 fed out from the original roll 11 is folded back by the roller 12 and guided to the former 18. The film feeder 10 has a feed motor (servo motor) connected to the original fabric roll 11, and the film 5 is fixed from the original fabric roll 11 by rotating the original fabric roll 11 by the feed motor. Feed out to former 18 at speed.

  The conveying speed of the film 5 by the film feeder 10 is approximately equal to the conveying speed of the article 3 (the moving speed of the fingers 23 and 24) by the article supplier 20. Here, in the case where a lack of an object to be packaged occurs between the push finger 23 and the support finger 24, the film supply machine 10 is temporarily stopped. During the temporary stop of the film feeder 10, the fingers 23 and 24 from which the items to be packaged are lost enter the former 18 described later and are pulled under the former 18. Such a temporary stop of the film feeder 10 is continued until the fingers 23 and 24 sandwiching the article 3 pass through the former 18 downstream.

  The feed motor is not limited to the configuration in which the feed motor 11 is connected to the original fabric roll 11, but the feed motor is connected to a feed roller (not shown), and the feed roller is driven by the feed motor, whereby the film 5 is removed from the original fabric roll 11. It may be pulled out.

5. Former The former 18 is provided between the carrier 28 and the receiving plate 68. Further, the former 18 is disposed below the original roll 11, and when the strip-shaped film 5 fed out from the original roll 11 passes through the former 18 to the downstream side, the center of both sides of the film 5 is centered. The film 5 is rolled into a cylindrical shape by the former 18 so that the seal portion 6 is bent downward. Further, the center seal portion 6 is formed in a fin shape so as to overlap with the former 18 and hang down, and protrudes below the receiving plate 68 through the slit of the receiving plate 68.

  On the downstream side of the former 18, a plurality of articles 3 supplied by the article supply machine 20 are placed at predetermined intervals in the longitudinal direction (conveying direction) of the film 5 on the receiving plate 68 and a conveying machine 30 described later. In this state, the film 5 is driven and conveyed downstream. Further, both sides of the film 5 and the packaged article 3 are supported to prevent the packaged article 3 from sliding with respect to the film 5 and to prevent the plate-like article 4 of the packaged article 3 from falling down. Supported by machine 80. The support machine 80 will be described in detail later.

6). Center Seal Machine The center seal machine 60 is provided on the downstream side of the former 18 and below the receiving plate 68. The center sealer 60 seals by heating while sandwiching the center seal portion 6 protruding downward from the slit of the receiving plate 68 from both sides. In the illustrated example, the center sealer 60 includes a pair of left and right bar heaters 61 provided below the receiving plate 68 and a pair of press rollers 62 provided on the downstream side of the bar heater 61. The center seal portion 6 is heated by passing through the gap between the pair of rod-shaped heaters 61. The heated center seal portion 6 is sandwiched at a predetermined pressure by the press roller 62, whereby the center seal portion 6 is sealed. A pair of pinch rollers 63 are provided on the upstream side and the downstream side of the bar heater 61 in the width direction to sandwich the center seal portion 6, and a pair of pinch rollers 63 in the width direction to sandwich the center seal portion 6 are provided on the downstream side of the press roller 62. A pinch roller 64 is provided, and the center seal portion 6 is sent downstream by the pinch rollers 63 and 64. The interval between the pair of rod heaters 61 can be adjusted.

7). Conveyor and Unloader On the downstream side of the pinch roller 64, a belt conveyor type conveyer 30 and an unloader 35 are provided in this order from upstream to downstream. The upper surface of the endless belt of the conveyor 30 extends from the downstream end of the receiving plate 68 toward the downstream side in the horizontal direction. The upper surface of the endless belt of the unloader 35 is separated from the downstream end of the upper surface of the endless belt of the transporter 30 to the downstream side, and extends to the downstream side in the horizontal direction.

  The speed of the transport machine 30 is equal to the transport speed of the film 5 by the film feeder 10.

  The cylindrical film 5 and the article 3 to be packaged inside thereof are sent from the receiving plate 68 onto the endless belt of the transporter 30. Further, the sealed center seal portion 6 is folded so as to be in contact with the lower surface of the tubular film 5 when being sent from the pinch roller 64 onto the endless belt of the transporter 30.

The cylindrical film 5 placed on the endless belt of the transporter 30 and the article 3 to be packaged inside thereof are transported downstream by the endless belt of the transporter 30. The film 5 and the article 3 to be packaged conveyed to the downstream end of the conveyance device 30 are transferred from the endless belt of the conveyance device 30 to the endless belt of the unloader 35. At that time, the packaging body 2 is completed, The film 5 is cut from the upstream side of the package 2.
The package 2 placed on the endless belt of the unloader 35 is conveyed downstream by the endless belt of the unloader 35.
Note that the transport device 30 may not be provided, and an end seal device 70 described later may be provided immediately downstream of the pinch roller 64.

The transport device 30, the unloader 35, and the film supply device 10 are synchronously controlled by the control unit 100. Therefore, when a missing item occurs between the push finger 23 and the support finger 24, the transport unit 30 and the unloader 35 are temporarily stopped by the control unit 100 during the temporary stop of the film supply unit 10. Is done.
The control unit 100 is configured by a control circuit having a programmable logic controller (PLC), for example.

8). Gazette forming machine Folding pieces of the gusset forming machine 40 are provided on both sides between the transporting machine 30 and the unloading machine 35. The gusset forming machine 40 has a drive source (for example, a servo motor), and when the power of the drive source is transmitted to the folded piece, the operation of protruding the folded piece and the operation of drawing it outward are repeated. Here, every time the film 5 is fed a predetermined distance (a distance substantially equal to the interval between the push fingers 24), the folding piece projects inward. Specifically, the timing of the operation in which the folded piece protrudes inward is from the time when the packaging object 3 passes through the gusset forming machine 40 to the time when the next packaging object 3 passes through the gusset forming machine 40. That is, when the part of the film 5 between the adjacent packages 3 is transferred from the endless belt of the transporter 30 to the endless belt of the unloader 35, the folded piece protrudes inward.
When the folded piece protrudes inward, the side surface of the tubular film 5 is folded inward by the folded piece, so that the gusset 8 is formed.

9. End Seal Machine An end seal machine 70 is provided between the transport machine 30 and the unloader 35. The end sealer 70 performs thermocompression bonding and cutting of the film 5 by sandwiching the film 5 up and down each time the film 5 is fed a predetermined distance (distance substantially equal to the interval between the push fingers 24). The timing at which the end sealer 70 thermocompression-bonds the film 5 is from the time the package 3 passes through the end sealer 70 until the next package 3 passes through the end sealer 70. That is, when the part between the adjacent packages 3 in the film 5 is transferred from the endless belt of the transporter 30 to the endless belt of the unloader 35, the cylindrical film 5 is thermocompression bonded by the end sealer 70. And then cut further.

  In the example shown in FIG. 1, the end sealer 70 is a rotary motion sealer. That is, the upper pressurizing unit 71 of the end sealer 70 is rotated by the drive source (servo motor) about the rotation shaft 71a extending in the width direction, and the lower pressurizer 72 of the end sealer 70 is moved. However, it rotates around a rotation shaft 72a below the rotation shaft 71a. Thereby, the pressurization parts 71 and 72 contact and separate from each other. When the pressurizing units 71 and 72 are close to each other, the film 5 is sandwiched between them, and the film 5 is heated by a heater built in the pressurizing units 71 and 72, and is provided in the pressurizing units 71 and 72. The film 5 is cut by the cutting blades 73 and 74.

  The end sealer 70 may be a box motion type sealer. In the case of the box motion type, the pressurizing units 71 and 72 do not rotate around the rotation shafts 71a and 72a, but the following movement is repeated with the power of the drive source (servo motor) in a fixed posture. . That is, the pressurizing units 71 and 72 move downstream at the same speed as the film 5 while the film 5 is sandwiched between the pressurizing units 71 and 72 by being close to each other and then the film 5 is sandwiched therebetween. Thereafter, the pressurizing units 71 and 72 are separated from each other, and then return to the upstream side while maintaining the separated state.

  The end sealer 70, the gusset former 40, and the film feeder 10 are synchronously controlled by the controller 100. Accordingly, when a missing item is generated between the push finger 23 and the support finger 24, the end sealer 70 and the gusset former 40 are controlled by the controller 100 during the temporary stop of the film feeder 10. Paused.

10. Support Machine A support machine 80 is provided in a range from the downstream side of the former 18 to the upstream side of the end seal machine 70. This support machine 80 is to hold the film 5 and the article 3 to be packaged inside thereof in a state of being sandwiched in the width direction.

  4 and 5 are plan views of the support machine 80, and FIG. 6 is a cross-sectional view taken along the line VI-VI shown in FIG. The support machine 80 has a pair of belt conveyors 81 </ b> L and 81 </ b> R disposed on both sides of the tubular film 5.

  The belt conveyor 81L includes a first pulley 82L, a second pulley 83L, a third pulley 84L, a drive pulley 85L, a guide pulley 86L, a tension pulley 87L, a bracket 88L, an actuator (separation drive unit) 89L, an air tensioner 90L, a drive motor ( The second drive unit 91L, an endless belt (endless member) 92L, and a plurality of elastic portions 93L are provided. The belt conveyor 81R includes a first pulley 82R, a second pulley 83R, a third pulley 84R, a drive pulley 85R, a guide pulley 86R, a tension pulley 87R, a bracket 88R, an actuator (separation drive unit) 89R, an air tensioner 90R, a drive motor ( (Second drive unit) 91R, endless belt (endless member) 92R, and a plurality of elastic portions 93R.

  The belt conveyor 81L and the belt conveyor 81R are disposed symmetrically with respect to a vertical plane passing through the center track Ax of the tubular film 5. The rotation axes of the pulleys 82L to 87L and 82R to 87R of the belt conveyors 81L and 81R are orthogonal to the plane defined by the transport direction and the width direction of the film 5.

  There are two combinations of the endless belt 92L and the plurality of elastic portions 93L, and these two combinations are provided vertically (see FIG. 6). The endless belt 92L is provided above and below because the locus of the gusset forming machine 40 is between the upper and lower endless belts 92L. The same applies to the combination of the endless belt 92R and the plurality of elastic portions 93R.

Further, the pulleys 82L to 87L, the endless belt 92L, and the plurality of elastic portions 93L are disposed above the upper surface of the receiving plate 68 and the conveyor 30 (see FIG. 6). The same applies to the pulleys 82R to 87R, the endless belt 92R, and the plurality of elastic portions 93R.
Since the belt conveyor 81L and the belt conveyor 81R are disposed symmetrically, the belt conveyor 81L will be mainly described in detail below, and the belt conveyor 81R will be described briefly.

  The bracket 88L is formed in an L shape. A first pulley 82L is rotatably attached to one end portion of the bracket 88L, a second pulley 83L is rotatably attached to a bent portion of the bracket 88L, and a movable portion ( For example, a piston rod) is connected. The main body (for example, cylinder tube) of the actuator 89L is connected to the machine frame. The bent portion of the bracket 88L is attached to the machine frame so as to be rotatable about the rotation axis of the second pulley 83L.

  A third pulley 84L is disposed downstream of the second pulley 83L and the center sealer 60. Although the third pulley 84L is disposed on the upstream side of the end sealer 70, the third pulley 84L is not moved to interfere with the pressurizing portions 71 and 72 of the end sealer 70. It is arranged in the vicinity. A drive pulley 85L is disposed on the outer side in the width direction of the third pulley 84L. A guide pulley 86L is disposed on the upstream side of the drive pulley 85L, and a tension pulley 87L is disposed on the upstream side of the guide pulley 86L. The pulleys 85L to 87L are arranged in a straight line along the transport direction on the outer side in the width direction of the pulleys 82L to 84L. The interval between the second pulley 83L and the second pulley 83R is equal to the interval between the third pulley 84L and the third pulley 84R.

  The pulleys 84L to 86L are rotatably attached to the machine frame. The pulley 87L is rotatably attached to the rod of the air tensioner 90L. The cylinder of the air tensioner 90L is fixed to the machine frame.

  The pulleys 82L and 83L are disposed on the downstream side of the former 18 and on the outer side in the width direction of the former 18, and the first pulley 82L is disposed on the upstream side of the second pulley 83L. The film 5 rolled into a cylindrical shape by the former 18 is conveyed downstream between the pulleys 82L to 84L and the pulleys 82R to 84R. The fingers 23 and 24 projecting upward from the long groove of the transport table 28 move downstream between the first pulley 82L and the second pulley 82R, and are pulled down at a position between the pulley 83L and the pulley 83R. .

  The pulleys 82L to 87L are upper and lower two-stage pulleys. The upper endless belt 92L is stretched over the upper stages of the pulleys 82L to 87L, and the lower endless belt 92L is stretched over the lower stages of the pulleys 82L to 87L.

  A plurality of elastic portions 93L are provided at predetermined intervals in the circumferential direction on the outer peripheral surface of the endless belt 92L. The elastic portion 93L protrudes outward from the upper end portion of the outer peripheral surface of the endless belt 92L and is curved downward. The elastic portion 93L and the endless belt 92L are made of an elastomer material.

  When the drive pulley 85L is rotationally driven by the drive motor 91L, the endless belt 92L is driven to circulate in a direction from the first pulley 82L to the third pulley 84L via the second pulley 83L. The speed of the endless belt 92L is equal to the conveying speed of the film 5.

  The drive motor 91L is controlled by the control unit 100 so as to be synchronized with the end sealer 70 and the film feeder 10. Accordingly, when a missing item is generated between the push finger 23 and the support finger 24, the end sealer 70 and the gusset former 40 are controlled by the controller 100 during the temporary stop of the film feeder 10. Paused.

  The film 5 rounded by the former 18 and the package 3 inside thereof are sandwiched between the elastic portion 93L and the elastic portion 93R in the range from the first pulleys 82L, 82R to the third pulleys 84L, 84R. It is conveyed downstream in the state. Thereby, the fall of the plate-shaped article 4 of the article 3 to be packaged is prevented. Moreover, the elastic parts 93L and 93R are elastically deformed when the tubular film 5 and the article 3 to be packaged are sandwiched between the elastic parts 93L and 93R. Since the elastic force of the elastic portions 93L and 93R acts toward the inner side in the width direction with respect to the packaged object 3, the packaged object 3 is reliably supported.

  Since the speed of the endless belt 92 </ b> L is equal to the conveying speed of the film 5, the elastic portions 93 </ b> L and 93 </ b> R that are in contact with the cylindrical film 5 move downstream at the same speed as the film 5. Therefore, the film 5 does not slide in the transport direction relative to the elastic portions 93L and 93R.

  The air tensioner 90L can be expanded and contracted in the transport direction. The air tensioner 90L applies a load in the extending direction (the direction in which the tension pulley 87L is separated from the pulley 86L). Thus, a constant tension acts on the endless belt 92L, and the endless belt 92L is kept in a tensioned state.

  The actuator 89L is, for example, an air cylinder, a hydraulic cylinder, an electromagnetic solenoid, or a linear motor. The actuator 89L is driven to move the first pulley 82L in the width direction by driving the bracket 88L so as to swing about the bent portion (see FIGS. 4 and 5). Accordingly, the first pulley 82L and the first pulley 82R are driven by the two actuators 89L and 89R so as to come in contact with and separate from each other in the width direction. When the first pulley 82L moves inward in the width direction, the air tensioner 90L contracts, and when the first pulley 82L moves outward in the width direction, the air tensioner 90L extends.

  As shown in FIG. 4, in the state where the first pulley 82L and the first pulley 82R are close to each other, the pulleys 82L to 84L are arranged in a straight line along the conveyance direction, and the pulleys 82R to 84R are arranged in a straight line. The In this state, the pulleys 82L to 84L of the endless belt 92L and the pulleys 82R to 84R of the endless belt 92R are parallel to each other. That is, the interval between the first pulley 82L and the first pulley 82R is equal to the interval between the second pulley 83L and the second pulley 83R, and is also equal to the interval between the third pulley 84L and the third pulley 84R.

  As shown in FIG. 5, in the state where the first pulley 82L and the first pulley 82R are separated from each other, the portions of the pulleys 82L to 84L and 82R to 84R of the endless belts 92L and 92R bend at the second pulleys 83L and 83R.

  The timing of the contact / separation operation of the actuators 89L and 89R is controlled by the control unit 100.

11. Operation of Pillow Packaging Device The operation of the pillow packaging device 1 will be described in detail.

(1) Steady operation state (when no missing items have occurred)
The controller 100 controls the actuators 89L and 89R, and the pulley 82L and the pulley 82R are maintained in a state in which they are close to each other. Therefore, as shown in FIG. 3, the pulleys 82 </ b> L to 84 </ b> L are arranged in a straight line along the conveyance direction, and the pulleys 82 </ b> R to 84 </ b> R are arranged in a straight line.

  Further, the package supply machine 20 (particularly the servo motor), the film supply machine 10 (particularly the feed motor), the transport machine 30, the unloader 35, the gusset forming machine 40 (particularly the drive source), and the end seal machine 70 ( In particular, the drive source) and the drive motors 91L and 92R of the support machine 80 are controlled at a constant speed by the controller 100.

  Then, the article to be packaged 3 is sequentially supplied to the former 18 by the article supply machine 20, and the film 5 is supplied from the raw roll 11 by the film supplier 10 to the former 18, the center sealing machine 60, the conveying machine 30, and the gusset forming machine 40. And it is sent to the unloader 35 via the end sealer 70. Thereby, the package 2 is created sequentially.

  During the steady operation as described above, every time the endless chain 22 moves a predetermined distance, the article sensor 15 detects the presence or absence of an object to be packaged below the article sensor 15. When the article 3 is detected by the article sensor 15, the control unit 100 controls the article supply machine 20, the film supply machine 10, the transport machine 30, the unloader 35, the gusset forming machine 40, the end seal machine 70, and the support machine. The constant speed control of the 80 drive motors 91L and 91R is continued.

(2) At the time of occurrence of missing of the package When the missing of the package is detected by the article sensor 15, the control unit 100 causes the film feeder 10, the transporter 30, the unloader 35, the gusset former 40, and the end seal. The drive motors 91L and 92R of the machine 70 and the support machine 80 are stopped. The stop timing is after the finger 23, 24 in front of the fingers 23, 24 not sandwiching the article to be packaged is drawn downward at the position between the second pulleys 83L, 83R. Before the fingers 23 and 24 not sandwiching the object reach the former 18.

  By stopping the drive motors 91L and 92R of the film supply device 10, the transport device 30, and the support device 80, the transport of the film 5 is stopped. Further, the protrusion / retraction operation of the folded piece is stopped by stopping the gusset forming machine 40. Further, the contact / separation operation of the pressurizing units 71 and 72 is stopped by stopping the end sealer 70.

  The package 3 supplied last before the stop of the film 5 stops on the downstream side of the pulleys 83L and 83R, and a plurality of packages 3 are cylindrical between the package 3 and the end sealer 70. The film 5 is stopped while being arranged at equal intervals inside the film 5.

  The control unit 100 stops the package supply machine 20 even while the drive motors 91L and 92R of the film supply machine 10, the conveyance machine 30, the unloading machine 35, the gusset forming machine 40, the end seal machine 70, and the support machine 80 are stopped. Instead, keep driving at a constant speed.

  When the endless chain 22 moves a predetermined distance while the drive motors 91L and 92R of the film supply device 10, the transport device 30, the unloading device 35, the gusset forming device 40, the end seal device 70 and the support device 80 are stopped, the article sensor 15 The article sensor 15 detects the presence or absence of an article to be packaged below the item. When the article sensor 15 detects a missing item to be wrapped, the control unit 100 drives the drive motor 91L of the film feeder 10, the transporter 30, the unloader 35, the gusset former 40, the end sealer 70, and the supporter 80. Continue to stop 92R.

(3) When restarting operation after a loss occurs (when the loss is resolved)
The article to be packaged 3 is detected for the first time by the article sensor 15 after the drive motors 91L and 92R of the film supply device 10, the transport device 30, the unloading device 35, the gusset forming device 40, the end seal device 70 and the support device 80 are stopped. Then, the control unit 100 controls the actuators 89L and 89R, and the pulley 82L and the pulley 82R are separated from each other (see FIG. 5). When the actuators 89L and 89R are operated by the control unit 100 and the pulleys 82L and 82R are separated from each other, the fingers 23 and 24 sandwiching the article 3 to be packaged detected by the article sensor 15 reach the pulleys 82L and 82R. It is before.

  Thereafter, the fingers 23 and 24 sandwiching the package 3 detected by the article sensor 15 reach the former 18, and the package 3 enters the cylindrical film 5. Then, the support finger 24 passes between the pulleys 82L and 82R, and the article 3 to be packaged also reaches between the pulleys 82L and 82R. Since the pulleys 82L and 82R are separated from each other, the article 3 to be packaged that reaches between the pulleys 82L and 82R does not hit the elastic portions 93L and 93R through the cylindrical film 5. Therefore, breakage of the plate-like article 4 of the article 3 can be prevented.

  After the support finger 24 passes downstream between the pulleys 82L and 82R, the control unit 100 drives the film supply device 10, the transport device 30, the unloader 35, the gusset forming device 40, the end seal device 70, and the support device 80. The motors 91L and 92R are operated to control at a constant speed.

  After the operation of the drive motors 91L and 92R of the film supply device 10, the transport device 30, the unloading device 35, the gusset forming device 40, the end seal device 70, and the support device 80, the transport speed of the film 5 by the film supply device 10 is to be packaged. The control unit 100 controls the actuators 89L and 89R at a timing equal to the conveyance speed of the article 3 to be packaged by the feeder 20, and the pulley 82L and the pulley 82R come close to each other. Therefore, the article 3 to be packaged that has entered the cylindrical film 5 is sandwiched between the elastic portions 93L and 93R. At this time, since the moving speed of the elastic parts 93L and 93R, the transport speed of the film 5 and the moving speed of the article 3 are equal to each other, the article 3 is relatively downstream with respect to the film 5 and the elastic parts 93L and 93R. Don't slip. That is, there is no stress that the package 3 receives from the film 5, and no frictional resistance between the package 3 and the film 5 against the driving force of the push finger 23 occurs. Therefore, breakage of the plate-like article 4 of the article 3 can be prevented.

  After the pulley 82L and the pulley 82R come close to each other, the state is the same as that in the steady operation described above.

12 Effect (1) During the steady operation, the cylindrical film 5 and the article 3 to be packaged inside thereof are transported at the same speed as the elastic portions 93L and 93R while being sandwiched between the elastic portions 93L and 93R. Further, it is possible to prevent the plate-like article 4 of the article 3 from falling. Moreover, the film 5 of the completed package 2 fits perfectly with the outer shape of the entire packaged object 3, and the wrinkles and slack of the film 5 can be minimized.

(2) When the steady operation is resumed, the first pulleys 82L and 82R are separated from each other. Therefore, when the article 3 enters the inside of the stopped cylindrical film 5, the article 3 is not compressed, and friction between the article 3 and the film 5 can be minimized. . Therefore, it contributes to prevention of breakage of the plate-like article 4 of the article 3 to be packaged.

13. Modifications As mentioned above, although the form for implementing this invention was demonstrated, the said embodiment is for making an understanding of this invention easy, and is not for limiting and interpreting this invention. The embodiments of the present invention can be changed and improved without departing from the spirit of the present invention, and the present invention includes equivalents thereof. Changes from the above embodiment will be described below. You may apply combining each change point demonstrated below.

(1) In the above embodiment, immediately before resumption of steady operation (after the film motor 10, the transport device 30, the unloader 35, the gusset forming device 40, the end seal device 70, and the drive motors 91L and 92R of the support device 80, the article sensor 15), the pulley 82L and the pulley 82R are separated from each other. On the other hand, when the pulley 82L and the pulley 82R are separated from each other, the drive motors 91L and 92R of the film feeder 10, the transporter 30, the unloader 35, the gusset former 40, the end sealer 70, and the supporter 80 are stopped. After the stop, it may be any time before the fingers 23 and 24 sandwiching the article 3 to be packaged first detected by the article sensor 15 reach the pulleys 82L and 82R.
For example, the control unit 100 controls the actuators 89L and 89R immediately after the drive motors 91L and 92R of the film supply device 10, the transport device 30, the unloading device 35, the gusset forming device 40, the end seal device 70, and the support device 80 are stopped. As a result, the pulley 82L and the pulley 82R are separated from each other. Then, the pulleys 82L and 82R are maintained in the separated state until the fingers 23 and 24 that sandwich the article 3 to be packaged first pass through the pulleys 82L and 82R. Then, after the support finger 24 that supports the article 3 to be packaged first detected passes between the pulleys 82L and 82R to the downstream side, the control unit 100 performs the film feeder 10, the transporter 30, the unloader 35, and the gusset. The drive motors 91L and 92R of the forming machine 40, the end seal machine 70, and the support machine 80 are operated to control at a constant speed. Thereafter, the control unit 100 controls the actuators 89L and 89R at the timing when the film 5 becomes the same speed as the article 3 to be packaged, and the pulley 82L and the pulley 82R come close to each other.

(2) The shape and form of the elastic portion 93L may be changed. For example, the elastic portion 93L may have a fin shape that is inclined in the direction opposite to the circumferential direction with respect to the outer circumferential surface of the endless belt 92L, or is distributed on the outer circumferential surface of the endless belt 92L and the outer circumferential surface of the endless belt 92L. The hair material may be provided so as to protrude obliquely in the direction opposite to the circumferential direction. The same applies to the elastic portion 93R.

(3) In the above embodiment, the pillow packaging device 1 is a normal pillow packaging device, but may be a reverse pillow packaging device. In the case of the reverse pillow packaging apparatus, the original fabric roll 11 is provided below the former 18. The film 5 is rolled into a cylindrical shape by the former 18 so that the center seal portions 6 on both sides of the film 5 conveyed from the raw roll 11 to the former 18 are bent upward. The center sealing machine 60 provided on the downstream side of the former 18 is disposed on the upper side of the tubular film 5.

  DESCRIPTION OF SYMBOLS 1 ... Pillow packaging apparatus, 2 ... Packaging body, 3 ... Packaged article, 4 ... Plate-shaped article, 5 ... Film, 10 ... Film feeder, 15 ... Article sensor, 18 ... Former, 20 ... Package supply machine, 30 ... Conveyor, 35 ... Unloader, 40 ... Gazette forming machine, 60 ... Center seal machine, 70 ... End seal machine, 80 ... Support machine, 82L / 82R ... First pulley, 83L / 83R ... Second pulley, 84L 84R: third pulley, 89L, 89R ... actuator (first drive unit), 91L / 91R ... drive motor (second drive unit), 92L / 92R ... endless belt (endless member) 93L / 93R ... elastic portion

Claims (4)

A film feeder for transporting a belt-like film in the longitudinal direction of the film;
A former that continuously rounds the film conveyed by the film feeder into a cylindrical shape, and overlaps both sides of the film;
A package supply machine that is provided upstream of the former and supplies a plurality of packages at regular intervals to the inside of the film rounded by the former;
A center sealing machine that is provided downstream of the former and continuously seals both sides of the film stacked by the former;
An end sealing machine that is provided on the downstream side of the center sealing machine and seals a portion of the film between the items to be packaged;
A pair of first pulleys provided on both sides of the former and on the downstream side of the former so as to be movable toward and away from each other;
A pair of second pulleys provided on both sides of the former and on the downstream side of the first pulley;
A pair of third pulleys provided on both sides of the film on the downstream side of the second pulley and on the upstream side in the vicinity of the end sealer;
A pair of endless members that are stretched over the first pulley, the second pulley, and the third pulley and disposed on both sides of the film;
A plurality of elastic portions provided on the outer peripheral surface of the endless member;
A first drive unit that drives the first pulleys to contact and separate from each other;
A packaging device, comprising: a second driving unit configured to drive the endless member in a direction from the first pulley toward the third pulley via the second pulley.   The distance between the second pulley and the third pulley is equal, and the distance between the first pulleys brought closer to each other by the first driving unit is equal to the distance between the second pulleys. The packaging device described. A control unit for controlling the film supply machine, the package supply machine, the end seal machine, the first drive unit and the second drive unit;
In the state where the missing of the article to be conveyed conveyed by the article supply machine has not occurred, the control unit brings the first pulley closer to each other with the first drive unit, and the film supply unit, Actuate the package supply machine, the end seal machine and the second drive unit;
When a missing item to be packaged conveyed by the packaged material feeder occurs, the control unit stops the film feeder, the end sealer, and the second drive unit,
When the omission disappears after the occurrence of omission of the package to be transported by the package supply machine, the first package after the omission to be transported by the package supply machine reaches the former. The control unit operates the film supply machine, the end seal machine, and the second driving unit in a state where the first pulley is separated from the first driving unit, and then the first driving unit operates the first driving unit. The packaging apparatus according to claim 1 or 2, wherein the pulleys are brought close to each other.   The timing at which the first pulley is brought closer to each other by the first drive unit is a timing at which the transport speed of the film by the film feeder becomes equal to the transport speed of the article to be packaged by the article supply machine. The packaging device according to claim 3, wherein

Images