JP5514518B2 - Compressed bagging method and compressed bagging device - Google Patents

Description

The present invention relates to a compressed bagging method that can be suitably employed when performing a work of reducing the volume of a packaging container such as a tray, a food container, or a plastic bottle formed of a synthetic resin by compression and packing the bag. And a compression bagging apparatus .

When the packaging container is discarded or recycled, it must be collected at each store and then transferred to a factory for recycling. However, these containers, particularly foamed packaging containers, tend to be bulky, and the transport efficiency is significantly deteriorated. Therefore, it is necessary to pack the bag in a reduced volume.
The volume reduction method includes a dissolution method using a volume reduction liquid, a pulverization method using a crushing device, a compression method using a press, etc. Among them, the compression method is excellent in running cost and equipment maintenance. It is said that As one of the compression methods, the waste plastic container is compressed, and after the compression, the volume-reduced waste plastic container is pushed with the pressing plate to move from the compression position to the holding position of the bag, and is directly pushed into the bag with the pressing plate. There has been proposed a method of closing the bag mouth by squeezing the bag mouth after retracting the pressing plate and winding an adhesive tape around the bag mouth (for example, see Patent Document 1).

JP 2000-272614 A

  In the conventional compression method, there is no means to maintain the pressurized state by simply pressing the volume reduction waste plastic container from the compression position to the inside of the bag with a pressing plate, and when closing the bag body after compression. It is difficult to work due to the expansion of the reduced volume plastic container. It is also difficult to increase the volume of the volume-removed waste plastic container stored in the bag. In addition, the shape of the bag is not constant, and the package appearance is deteriorated, which not only deteriorates the loading efficiency on the transport truck but also causes the collapse of the load.

Therefore, the present invention improves the workability when closing the bag body containing the compressed waste plastic container, increases the amount of waste plastic container stored in the bag body by increasing the compression rate, figure is good, and an object thereof is to provide a compression bagging method and compressed bagging equipment for improving the loading efficiency of the track.

  In order to achieve the object, the present invention compresses and compresses the packaging container in the bag body with the plunger while regulating the bag body itself with the regulating frame and maintains the pressurized state from the bag opening. By fixing the container so that it does not come out, it is possible to improve the trouble of packing the bag while suppressing the restoration expansion of the packaging container, and to make the compression bagging method capable of further increasing the compression rate.

Specifically, in the compression bagging method of the present invention, a bag body having a plurality of string members in the vicinity of the bag opening is accommodated in a regulation frame that regulates the shape of the bag body, and compressed into the bag body. The packaging container is filled, and a plunger that can be moved further back from the bag opening is moved forward to compress and compress the packaging container inside the bag while being regulated by a regulation frame. While maintaining the state, the string member is inserted into a plurality of string threading grooves in which the groove opening formed on the pressure surface of the packaging container of the plunger is narrower than the depth of the groove, and is added by each string member. The pressure-compressed packaging container is fixed ,
In order to fill the packaging container into the bag body, the plunger is guided by a filling guide cylinder, the packaging container is conveyed to the filling guide cylinder by a supply means, and the supply means and the container supply port of the filling guide cylinder are provided. It is characterized in that the packaging container is prevented from being squeezed by a squeezing prevention means.

  In order to achieve the above object, the present invention compresses and compresses the packaging container dropped and supplied into the bag body with the filling guide cylinder with the plunger while regulating the bag body itself with the regulating frame, and the pressurized state. By fixing the compressed container so that the compressed container does not come out from the bag opening while maintaining the condition, it is possible to improve the trouble of packing the bag while suppressing the restoration expansion of the packaging container, and to increase the compression rate. Compressed bagging device.

Specifically, the compression bagging device of the present invention includes a bag body provided with a plurality of string members in the vicinity of the bag opening , a regulation frame that accommodates the bag body and regulates the shape of the bag body, A filling guide cylinder that drops and supplies the packaging container into the bag body, and is provided in the filling guide cylinder so as to be movable up and down, descends to the bag opening, and further moves into the bag body to pressurize the packaging container. And a compressible plunger,
The plunger is provided with a string passage groove on the lower pressure surface thereof, through which the plurality of string members can be inserted in a state where the packaging container in the bag body is compressed while being regulated by a regulation frame. The string passage groove is formed so that the groove opening is narrower than the depth of the groove ,
A supply means for supplying a packaging container from the container supply port of the filling guide cylinder when the plunger is raised, and a connecting portion between the supply means and the container supply port of the filling guide cylinder is connected to the container of the packaging container. it shall be the said to and a biting preventing means for preventing the write.

According to the compression bagging method according to the present invention, it is possible to perform the operation of packing the packaging container while suppressing the decompression and expansion more efficiently and at a higher compression rate.
According to the compression bagging apparatus according to the present invention, Ru can be carried out the task of bagging while suppressing the restore inflate the packaging containers raised more efficiently and the compression ratio.

It is explanatory drawing explaining the compression bagging apparatus of one Embodiment of this invention, the principal part of a bag, and the compression bagging method. It is a front view of a compression bagging apparatus. It is a side view of a compression bagging apparatus. It is the XX sectional view taken on the line of FIG. It is a perspective view of a bag. It is a side view of a control frame. It is a front view of a control frame. It is a top view of a control frame. It is operation | movement explanatory drawing of a door lock mechanism. It is an enlarged front view of the string passage groove of the plunger. It is an enlarged front view which shows the 1st modification of the string passage groove | channel of a plunger. It is an enlarged front view which shows the 2nd modification of the string passage groove | channel of a plunger. It is explanatory drawing which shows the modification of a clogging prevention means.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to 10 show a compressed bagging apparatus 1 that packs a packaging container into a reduced volume container (both indicated by a symbol W), and the compressed bagging apparatus 1 that is used directly. The compression container 2 provided with the bag 5 and the control frame 6 is shown.
1 to 4, the packaging container compression bagging apparatus 1 supplies a receiving base 50 on which the compression container 2 is placed and a packaging container (compressed body after compression) W into the compression container 2. And a plunger 52 provided in the filling guide cylinder 51.

  In the present embodiment, a rail 55 is laid on the floor F on which the compression bagging apparatus 1 is installed so as to pass below the apparatus (directly below the filling guide cylinder 51), and along the rail 55. The carriage 56 can be driven. Then, the compression container 2 is loaded on the carriage 56 (the restriction frame 6 is fixed), and is carried into and out of the compression bagging apparatus 1.

The cradle 50 is installed below the filling guide cylinder 51, and can be moved up and down by a lift drive unit 57. The raising / lowering drive unit 57 includes, for example, a jack using a fluid pressure actuator such as air pressure or hydraulic pressure, a pantograph mechanism using a fluid pressure actuator or an electric motor as a drive source, a feed screw mechanism, and the like.
As shown in FIGS. 7 and 8, a loading detection sensor 58 for detecting the carriage 56 is provided at the loading position of the compression container 2 with respect to the filling guide cylinder 51. The circuit is configured so that the lifting drive unit 57 can operate only when it is detected (that is, the cradle 50 can be moved up and down). The carry-in detection sensor 58 may be, for example, a contact sensor such as a proximity switch or a non-contact sensor such as a photoelectric tube switch. However, from the viewpoint of installation environment and certainty of detection operation, the carry-in detection sensor 58 is a contact sensor. Is preferred.

2, 7, and 8, a contact-type sensor is employed as the carry-in detection sensor 58, and the movable detector of the carry-in detection sensor 58 is kicked with respect to the side surface (the outer surface parallel to the rail 55) of the carriage 56. A detected piece 59 is provided for this purpose.
In the present embodiment, as described above, the restriction frame 6 of the compression container 2 is integrated with the carriage 56 and is carried along with the carriage 56 to the lower part of the apparatus. The bottom of the cart 56 is pushed up, and the compression container 2 is moved up and down together with the cart 56.

The compression container 2 can be supported on the top plate (the surface on which the compression container 2 is placed) of the carriage 56, but a through hole is formed inside the carriage 56 so that the cradle 50 can be moved up and down. When 50 is raised, it may be lifted through a through-hole provided in the carriage 56 and the compression container 2 may be directly supported by the receiving stand 50 (the carriage 56 is structured not to be raised or lowered).
2 to 4, the filling guide cylinder 51 is a vertical type in which a cylinder hole is directed vertically by a machine frame 61 provided in a standing manner in a bowl shape by a plurality (four) of columns 60. The packaging container W is dropped and supplied into the bag 5 of the compression container 2 through the inside of the cylindrical hole. The cylindrical hole has an opening shape and an opening size that are slightly smaller than the bag opening 10 of the bag 5.

A container supply port 63 is formed in the middle part of the filling guide cylinder 51, and a supply means 64 for supplying the packaging container W is connected to the container supply port 63. Further, an anti-cracking means 65 is provided at the connecting portion between the supply means 64 and the container supply port 63.
The supply means 64 is, for example, a belt conveyor, and can carry the packaging container W into the filling guide cylinder 51. Note that mechanical driving for conveyance is not necessarily required, and a simple chute or an air chute can be employed.

When the supply means 64 stops the supply of the packaging container W, a part of the anti-cracking means 65 has plunged into the packaging container W and the container supply port 63 present in the vicinity of the container supply port 63. This is for preventing the packaging container W and the like from entering.
That is, if the packaging container W remains in the vicinity of the container supply port 63, when the plunger 52 is lowered, the packaging container W is placed on the plunger 52, or between the plunger 52 and the filling guide tube 51. The packaging container W having such a possibility is removed by air to prevent the entry.

  In the present embodiment, the pipe material 66 with one end closed against the boundary portion between the outer side of the container supply port 63 (the outer surface side of the filling guide cylinder 51) and the conveyance end of the supply means 64 from the conveyance surface of the supply means 64. It is designed to be held horizontally in the low position. In the pipe material 66, air injection holes directed to the supply means 64 are formed at a predetermined pitch along the longitudinal direction, and the air is supplied from the end portion that is not closed.

The clogging prevention means 65 supplies air to the pipe material 66, so that the air is ejected vigorously from each air injection hole toward the supply means 64, and away from the container supply port 63. W can be eliminated.
The plunger 52 has a size that substantially fills the inside of the filling guide tube 51 in a plan view, and the packaging container W is sandwiched or passed between the inner surface of the filling guide tube 51. It is supposed not to be. The lower surface of the plunger 52 serves as a container pressurizing surface 52a for pressurizing the packaging container W that has entered the bag 5 of the compression container 2 and filled.

  A beam member 69 is provided on the upper portion of the plunger 52, and both end portions of the beam member 69 penetrate the filling guide tube 51 and protrude outward. In addition, bracket members 70 are connected to both ends of the beam member 69 in an extended manner. An arm 71 is formed by a portion that protrudes on one side of the plunger 52 in the beam member 69 and one bracket member 70 that is connected to the protruding portion. That is, the plunger 52 is provided with a pair of arms 71 and 71 protruding to both sides thereof.

A slider 73 is provided at the front end of the bracket member 70, and a machine bar 61 is provided with a guide bar 74 erected vertically along the support column 60. The slider 73 is attached to the guide bar 74. The plunger 52 is guided so as to move up and down, and the raising and lowering of the plunger 52 in the filling guide cylinder 51 is guided.
The filling guide cylinder 51 is formed with a slit 76 corresponding to the lifting stroke of the plunger 52 in order to allow the arm 71 (both ends of the beam member 69) to move up and down. Further, in order to prevent the packaging container W from leaking from the slit 76, a cover material that protrudes in a flexible fin shape from both sides of the slit 76 and closes other than the penetrating portion of the arm 71. 77 is attached.

The plunger 52 can be moved up and down by left and right air cylinders 80 provided with rod ends connected to the left and right arms 71 (bracket member 70).
The air cylinder 80 has a lower portion fixed to a base member to which the support column 60 is attached, and is disposed on the side of the receiving base 50 and the filling guide cylinder 51 so that the plunger 52 is lowered and lowered.

Since the left and right air cylinders 80 are not arranged above the plunger 52, the installation height of the compression bagging device 1 is lowered, and the air cylinders 80 are arranged between the struts 60 and are erected in the machine frame 61. The installation area is also compact.
The up / down stroke of the plunger 52 is determined so that the upper position is above the container supply port 63 and the lower position is such that the lower portion of the plunger 52 protrudes downward from the lower end of the filling guide cylinder 51.

  That is, after the plunger 52 rises to an upper position beyond the container supply port 63, the packaging container W is supplied from the container supply port 63 into the filling guide tube 51, and then the plunger 52 lowers the lower portion of the filling guide tube. By descending to a position where it projects downward from the lower end of 51, the packaging container W is pressurized in the compression container 2 installed below the filling guide cylinder 51, and compressed by this pressurization. .

  In this embodiment, since the air cylinder 80 is used for the raising / lowering drive of the plunger 52, an air pipe 82 for supplying the discharge air of the air cylinder 80 to the pipe material 66 of the anti-chucking means 65 is provided. The packaging container W which is likely to be caught by the air discharged from the air cylinder 80 at the initial lowering of the plunger 52 is excluded from the container supply port 63.

The string passing means for inserting the string member 20 of the bag 5 to be described later into the lower part of the plunger 52, more specifically, the part where the plunger 52 descends in the filling guide cylinder 51 and protrudes downward from the lower end thereof. 85 is provided.
The stringing means 85 is formed by a plurality of string threading grooves 86 that cross the container pressure surface 52a of the plunger 52 and are opened downward from the container pressure surface 52a. As shown in FIG. 10, each string-passing groove 86 has a substantially inverted trapezoidal shape when viewed from the front, and has a width that is gradually narrowed from the groove back part 86b to the groove opening part 86a. A portion connected to the portion 86b is a narrowly inclined guide surface 86c.

Since each string passage groove 86 has a groove opening 86a formed narrower than the groove deep part 86b, the packaging container W is difficult to enter when pressurized, and the groove deep part 86b is formed wider than the groove opening 86a. Therefore, the string member 20 can easily pass in the longitudinal direction of the groove.
The string passage groove 86 is positioned higher than the bag opening 10 of the bag 5 when the packaging container W filled in the compression container 2 is in a state where the plunger 52 is pressurized as a predetermined lowered position. The groove depth is determined so that at least the groove back portion 86b of the string passage groove 86 is exposed to the outside.

That is, while the packaging container W in the bag 5 is pressurized by the plunger 52, the groove opening 86a of the string passage groove 86 crosses the bag opening 10 at a position beyond the bag opening 10. Therefore, the string member 20 provided in the bag opening 10 can be inserted into the exposed groove inner part 86b, and thereby the bag opening 10 of the bag 5 can be closed by the string member 20.
The compression container 2 will be described. The compression container 2 includes a bag 5 (see FIGS. 1 and 5) that accommodates a volume reduction container, and a regulation frame 6 that restricts the shape of the bag body when the bag 5 is accommodated and the packaging container W is compressed. (See FIGS. 6 to 9).

  The bag 5 is a so-called flexible container bag made of cloth, plastic, paper, or the like, and preferably made of a sheet woven with strong chemical fibers such as polyethylene and polypropylene, and is a rectangular square tube. The bag body 8 includes four peripheral walls (8A to 8D) that form a square tube, and a bag bottom 9 on one end side of the square tube. A bag opening 10 is formed on the surface on the other end side of the tube.

The bag body 8 has a rectangular shape (for example, 520 mm × 600 mm), and has a certain shape retaining property when the bag opening portion 10 is opened. Since it is a body shape, it can be closely arranged and stacked in a plurality of upper and lower stages, and since it is formed of a flexible material, it can be folded when not in use.
The part which forms the bag opening part 10 of the bag body 8 is provided with a pair of opposing two sides as a stringing upper edge part 15 and a perforated upper edge part 16 in its outer peripheral part. In addition, the other two sides of the bag opening 10 facing each other, that is, the outer peripheral portion disposed between the upper edge portions 15 and 16 and facing each other with the bag opening 10 therebetween, Are also provided as closed upper edges 17,18.

  The upper edge portions 15 to 18 are adjacent to each other (four corners of the bag opening 10) by a cut having a predetermined length in the depth direction of the bag body 8, whereby the individual upper edge portions 15 to 18 is divided and formed so as to include flaps 15 a to 18 a that can be bent (oscillated) with respect to the bag body 8. The length of the cut is such that when the upper edge portions 15 to 18 are bent as the flaps 15a to 18a, the bag opening 10 can be closed (a size reaching the opposite side).

In the present embodiment, the protruding dimension of the flap 16a provided on the perforated upper edge 16 is formed to be about half that of the other flaps 15a, 17a, 18a.
In addition, each upper edge part 15-18 says the upper periphery vicinity which forms the bag opening part 10 in the bag body 8, Comprising: It does not say only the part which forms the flaps 15a-18a. In the first place, it is not limited that the cuts are made at adjacent positions (four corners of the bag opening 10) of the respective upper edge portions 15 to 18.

A string member 20 having a length that reaches the opposite side across the bag opening 10 extends from the stringing upper edge 15. A plurality of string members 20 are provided corresponding to a plurality of string threading grooves 86 on the container pressurizing surface 52 a of the plunger 52, and the base end of the string member 20 has a stringing upper edge 15 with respect to the bag body 8. Thus, it is in the vicinity of the fulcrum position where the flap 15a is bent.
Therefore, the string member 20 can be pulled out onto the bag opening 10 before the bag opening 10 is closed by the string pulling upper edge 15. Further, at this time, the base end side of the string member 20 can be held along the opening peripheral portion of the bag opening portion 10 (folding fulcrum position of the flap 15a in the string pull-up upper edge portion 15).

Three string members 20 are provided, but may be two or four or more, and are formed of a material having flexibility and excellent tensile strength such as plastic and cloth. The string connecting portion 21 at the distal end of the string member 20 is provided with a male member having a hook-and-loop fastener on the surface facing the inside of the bag opening 10 when pulled out onto the bag opening 10.
An insertion hole 23 for piercing the string member 20 is provided in the upper edge 16 of the hole. The arrangement and the number of the insertion holes 23 are made to correspond to the arrangement and the number of the string members 20 provided on the stringing upper edge 15.

  The insertion hole 23 may be provided on the flap 16a side or on the bag body 8 side at a fulcrum position where the perforated upper edge 16 is bent as the flap 16a with respect to the bag body 8. In the present embodiment, by arranging the flap 16a side and close to the fulcrum position, the string member 20 passed through the insertion hole 23 can be pulled downward, and along the opening peripheral portion of the bag opening portion 10. It can be held together.

  The string which fixes the string connection part 21 (male member of a hook-and-loop fastener) of the string member 20 pulled out through this insertion hole 23 in the position used as the lower part of the insertion hole 23 in the bag outer surface of the bag body 8. A fixing portion 24 is provided. If the string connecting portion 21 of the string member 20 is a male member of a hook and loop fastener, the string fixing portion 24 is formed of a female member of the hook and loop fastener. Naturally, when the string connecting portion 21 of the string member 20 is a female member of a hook and loop fastener, the string fixing portion 24 is formed of a male member of the hook and loop fastener.

For this reason, the string connecting portion 21 and the string fixing portion 24 of the string member 20 can repeatedly engage and disengage as many times as possible, and suppress the restoring force of the compressed container during engagement. Reliable and strong engagement.
As described above, the closing upper edge portions 17 and 18 are formed in a size capable of closing the bag opening 10 when folded as the flaps 17a and 18a, respectively. One closing upper edge 17 is provided with an outward coupling member 26 with respect to the outer surface thereof, and the other closing upper edge 18 is provided with an inward coupling capable of being coupled with the outward coupling member 26 with respect to the inner surface thereof. A member 25 is provided.

One of the outward coupling member 26 and the inward coupling member 25 may be a male member of a hook-and-loop fastener and the other a female member. In the illustrated example, the outward coupling member 26 is arranged close to the fulcrum position where the closed upper edge 17 bends as the flap 17 a with respect to the bag body 8, and close to the tip position of the closed upper edge 18. An inward coupling member 25 is arranged.
The flaps 15a and 16a may also be provided with inward and outward coupling members 25 and 26. In that case, it is preferable that the flap 16a is provided with the outward coupling member 26 in the vicinity of the insertion hole 23 and the inward coupling member 25 in the vicinity of the tip of the flap 15a.

The bag 5 is preferably provided with flaps 15a, 16a, 17a, 18a to more securely close the bag opening 10. However, the flaps 15a, 16a may be omitted or all the flaps 15a, 16a, 17a, 18a may be closed. It is also possible to close and fix the bag opening 10 with only a plurality of string members 20, omitting it.
As shown in FIGS. 1, 6 to 9, the regulation frame 6 accommodates and holds the bag body 8 of the bag 5, and backs up the pressure when the packaging container W is compressed in the bag body 8, The shape of the bag body 8 is regulated so as not to expand or deform.

The restriction frame 6 has four peripheral walls 11A to 11D corresponding to the four peripheral walls (8A to 8D) of the bag body 8 so as to surround the periphery, and the bag accommodated on the upper end side of the peripheral walls 11A to 11D. A rectangular upper opening for opening the bag opening 10 of the body 8 upward is formed.
The restriction frame 6 is formed of metal, plastic, wood, or the like, and has a shape that fits and fits to the outer peripheral surface of the bag body 8 so that the capacity of the restriction frame 6 can be fully utilized as the capacity of the bag body 8. Yes.

The restriction frame 6 is fixed on the carriage 56. The regulation frame 6 is provided with a bottom portion 12 so as to close the inner sides of the lower ends of the peripheral walls 11A to 11D. The lower portion of the bottom portion 12 is backed up by the top plate of the carriage 56 to form a double structure. It is supposed to be. It is also possible to form the bottom 12 of the regulation frame 6 with the top plate of the carriage 56.
Of the peripheral walls 11A to 11D, the two peripheral walls 11A and 11C which are adjacent to each other are respectively connected to the other peripheral walls 11B and 11D via hinges 30 and 31, respectively, and open and close the inside and outside of the box sideways. It is provided in a free state.

The peripheral walls 11A and 11C that can be freely opened and closed can be engaged and disengaged by a door lock mechanism 32 provided on one peripheral wall 11C in an arrangement toward the vertical sides that are separated from each other. The closed state is held in the engaged state of the door lock mechanism 32.
As shown in FIG. 9, the door lock mechanism 32 is integrated with the operation lever 33 when the operation lever 33 extending in the horizontal direction is swung so as to be pulled out around the pivot 34 (downward in FIG. 9). The hook 37 connected to the link 36 is engaged and disengaged with respect to the other peripheral wall 11A via the arm 35 that swings in FIG.

  Although only one operating lever 33 is provided at a height that is easy to operate for an operator standing on the side of the restriction frame 6 (cart 56), the pivot 34 extends above and below the operating lever 33. The arm 35, the link 36, and the hook 37 are provided at both upper and lower ends. For this reason, the upper and lower hooks 37 are engaged and disengaged simultaneously with respect to the peripheral wall 11A by operating the operation lever 33. In the engaged state, the peripheral wall 11A is also prevented from warping and bending, and the bag body 8 is prevented from protruding. It can be stopped.

An opening 38 that penetrates into and out of the box and opens upward is formed in one of the peripheral walls of the restriction frame 6 (the peripheral wall 11B in the illustrated example). The opening 38 has a string fixing portion so that the string fixing portion 24 provided in the bag 5 can be accommodated in the opening 38 and exposed to the outside when the bag body 8 is accommodated in the restriction frame 6. Openings are made corresponding to the arrangement and number of formations 24.
The opening 38 is provided with a cover 39 that can be opened and closed by swinging the upper end thereof toward the outside of the peripheral wall 11 </ b> B via a lower hinge 40. The cover 39 is provided with a pair of cover lock mechanisms 42 for the left and right side edges thereof, and the cover 38 is firmly held in a state where the opening 38 is closed by these cover lock mechanisms 42.

That is, when the cover 39 is closed and engaged by the cover lock mechanism 42, when the packaging container W is compressed in the bag 5 accommodated in the restriction frame 6, it acts at a portion corresponding to the opening 38. Thus, the cover 39 can back up the pressure to be applied.
The cover lock mechanism 42 has substantially the same mechanism as the above-described door lock mechanism 32 (see FIG. 9), and as shown in FIGS. 7 and 8, an operation lever 43 extending in the horizontal direction is provided on the front side. When swinging so as to be pulled out to the side (right side in FIG. 8), the hook interlocked with the operation lever 43 engages and disengages the hook receiving projection 44 provided on the side of the opening 38 of the peripheral wall 11B. It has come to occur.

In the restriction frame 6 of the present embodiment, as another additional structure, a clamp 45 that can hold the closed upper edges 17 and 18 around the bag opening 10 of the bag 5 between a pair of opposed peripheral walls 11C and 11D. Is provided. A pair (two) of clamps 45 is provided for each of the peripheral walls 11C and 11D.
These clamps 45 employ a toggle mechanism with a four-bar link, and by swinging the operation lever 46 up and down, the clamp end 47 switches between a state of pressing the peripheral walls 11C and 11D and a state of separating. It has become.

Since such a clamp 45 is provided, the position of the bag opening 10 with respect to the restriction frame 6 can be fixed when the bag body 8 is accommodated with respect to the restriction frame 6. It is possible to prevent the bag opening 10 from being pushed into the restriction frame 6 when stuffing or compressing the packaging container W in the bag body 8.
Next, a packaging method for packaging containers in the compressed bagging apparatus 1 will be described.

  First, on the carriage 56 stopped outside the machine frame 61, the peripheral walls 11A and 11C of the restriction frame 6 of the compression container 2 are opened to accommodate the bag body 8 of the bag 5, or the peripheral walls 11A and 11C are After closing, the bag body 8 is inserted from the upper opening of the restriction frame 6, and the flaps 15a, 16a, 17a, 18a around the bag opening 10 are folded outward along the outer periphery of the upper edge of the restriction frame 6. The outwardly folded flaps 17 a and 18 a are clamped and fixed to the restriction frame 6 by the clamp 45.

Thereafter, the carriage 56 is caused to travel along the rail 55, and the carriage 56 is assumed to be in a state in which the carry-in detection sensor 58 detects the detected piece 59 provided on the carriage 56 below the inside of the machine frame 61 (just below the filling guide cylinder 51). To stop.
In this state, the elevation drive unit 57 is operated to raise the cradle 50. As a result, the compression container 2 is placed on the cradle 50, and when the cradle 50 is further lifted, the upper end of the regulation frame 6 approaches the filling guide tube 51, and is the last indicated by the symbol U in FIG. At the raised position, the bag opening 10 of the bag body 8 is fitted on the lower end of the filling guide tube 51.

The air cylinder 80 is driven to extend at an appropriate stage so far, and the plunger 52 is raised to a position above the container supply port 63 in the filling guide cylinder 51.
Next, the supply means 64 is operated, the packaging container W is dropped and supplied from the container supply port 63 into the filling guide cylinder 51, and the packaging container W is filled into the bag body 8 through the filling guide cylinder 51. .
The air cylinder 80 is driven to contract in a state where the inside of the bag body 8 and the filling guide cylinder 51 is filled with the packaging container W, and the container pressurizing surface 52a of the lower end of the plunger 52 projects downward from the lower end portion of the filling guide cylinder 51. Then, the plunger 52 is fitted into the bag opening 10 of the bag body 8 and further lowered to the back, and the packaging container W in the bag body 8 is compressed and reduced by the plunger 52 that moves opposite to the cradle 50.

Thereafter, the air cylinder 80 is driven to extend, the plunger 52 is raised to a position above the container supply port 63 in the filling guide cylinder 51, and then the supply means 64 is actuated again to guide the filling from the container supply port 63. By supplying the packaging container W into the cylinder 51, the packaging container W is filled again into the regulation frame 6 through the filling guide cylinder 51.
The filling of the packaging container W and the pressurization by the plunger 52 are repeated a predetermined number of times (about 5 times), so that the packaging container W is sufficiently compressed and reduced in the bag body 8.

By moving the plunger 52 forward further from the bag opening 10, the compression rate by one reciprocation of the plunger 52 can be increased, and the filling rate to the bag 5 can be increased by a plurality of reciprocations.
When pressurizing the packaging container W with the container pressurizing surface 52a of the plunger 52, even if the packaging container W attempts to enter the string passage groove 86 of the string threading means 85, the groove opening 86a is narrower than the groove depth part 86b. Since it is formed, entry of the packaging container W is prevented.

In the bag body 8, the packaging container W is pressurized and becomes a compressed body. The pressure at that time is backed up by the restriction frame 6, and even if the bag body 8 is flexible, it does not expand and deform. The shape of the bag body is regulated, and the compression rate can be increased by applying a large pressure to the packaging container W.
After raising the plunger 52 and supplying the packaging container W into the filling guide cylinder 51, when the plunger 52 is lowered, the exhaust air from the air cylinder 80 is supplied to the anti-chucking means 65, and the pipe material 66 The air is ejected from the air injection holes toward the supply means 64, and the packaging container W in the vicinity of the container supply port 63 is excluded. Thereby, the plunger 52 does not bite the packaging container W, and the packaging container W is not placed on the upper side of the plunger 52.

  After the required number of times of pressurization (final pressurization) by the plunger 52, the container pressurization surface 52a of the plunger 52 is stopped in a state of protruding downward from the lower end of the filling guide cylinder 51, and the pressurization state is maintained as it is. At this stage, the elevating drive unit 57 is operated to lower the cradle 50 slightly. At this time, the upper opening of the restriction frame 6, that is, the position of the bag opening 10 is at the string insertion position indicated by the symbol M in FIG. 2 and the string pressurization of the container pressurizing surface 52 a protruding from the lower end of the filling guide cylinder 51. This is the height at which the means 85 is exposed.

Then, the cover lock mechanism 42 of the restriction frame 6 is released to swing the cover 39 downward, the opening 38 is opened, and the string fixing portion 24 is exposed.
Next, as shown in FIGS. 1 (A) to 1 (B), a string hooking rod 89 having a string connecting portion at the tip is inserted into the string passage groove 86 of the string passage means 85 provided in the plunger 52, and The string member 20 provided on the stringing upper edge 15 of the bag body 8 is hooked and the string hooking rod 89 is pulled out to insert the string member 20 into the string threading groove 86, and the string connecting portion 21 of the string member 20 is It moves to the opposite side of the base end, passes through the insertion hole 23 provided in the upper edge 16 of the perforated hole, and pulls out the string connecting portion 21 of the string member 20 from the insertion hole 23 and opens the restriction frame 6 while pulling it down. It fixes to the string fixing | fixed part 24 exposed to 38.

Since the string passage groove 86 has a groove depth 86b wider than the groove opening 86a, the string hooking rod 89 and the string member 20 hooked on the string hooking rod 89 can easily pass therethrough, and the threaded string member 20 is pulled. , It is pulled out from the narrow groove opening 86a to the bag opening 10 side.
The three drawn string members 20 are placed across the bag opening 10 and fasten and fix the rectangular bag opening 10 at intervals. Then, the string connecting portion 21 and the string fixing portion 24 of the string member 20 can be fixed very simply, reliably and firmly by engaging the male member and the female member of the hook-and-loop fastener.

  By doing in this way, it will be in the state where the compression body W was pressed down with the string member 20 with respect to the bag body 8, the bag opening part 10 will be closed, and the compression body W will not carry out decompression | restoration expansion | swelling. As described above, the compression member W is pressed by the string member 20 while the compression member W is being pressed by the plunger 52, and the compression member W is pressed down. Can be closed, and the compressed body W can be packed up to the full capacity of the bag 8.

Thereafter, the elevation drive unit 57 is operated to lower the cradle 50, so that the regulation frame 6 is separated downward from the filling guide cylinder 51, and the lowest position where the carriage 56 rides on the rail 55 (denoted by D in FIG. 2). ).
Thereafter, the carriage 56 is traveled along the rail 55 to the outside of the machine frame 61, the upper edge 16 of the bag 5 and the upper edge 15 of the cord are folded, and then the upper edge 17 of the closure is folded. Bending and finally bending the closed upper edge 18 to engage the inward coupling member 25 with the outward coupling member 26, and then opening the two peripheral walls 11A, 11C of the restriction frame 6 to open the bag 5 is taken out.

Since the bag 5 taken out from the regulation frame 6 has a rectangular shape that is regulated by the regulation frame 6, the package shape is good. In addition, it can be stacked in multiple upper and lower stages, and the loading efficiency can be increased.
[Modification]
FIG. 11 shows a first modification of the string passage groove 86 at the lower end of the plunger 52. The groove rear portion 86b side portion of the string passage groove 86 is formed in a square shape in front view, and the groove opening 86a side portion is front-facing. It is formed in a generally inverted trapezoidal shape, and the portion of the groove opening 86a that connects to the groove back portion 86b is a narrowly inclined guide surface 86c.

FIG. 12 shows a second modification of the string passage groove 86 at the lower end of the plunger 52. The groove back portion 86b side portion of the string passage groove 86 is formed in a circular shape in front view, and the groove opening portion 86a side portion is circular. The portion of the groove opening 86a connected to the groove back portion 86b is a narrow arcuate guide surface 86c.
Since the string opening groove 86 of the first and second modifications has a groove opening 86a formed narrower than the groove back part 86b, it is difficult for the packaging container W to enter when pressurizing, and the groove back part 86b. Is formed wider than the groove opening 86a, the string member 20 is easy to pass in the longitudinal direction of the groove, and the inserted string member 20 is pulled out from the groove back part 86b through the groove opening 86a to the outside of the groove. In addition, the guide surface 86c having an inclined surface shape or an arc surface shape can be smoothly formed.

  FIG. 13 shows a modification of the jam prevention means 65, and a shutter 90 that opens and closes the container supply port 63 is provided on the outer surface side of the filling guide cylinder 51. The shutter 90 closes the container supply port 63 by elevating it with a motor via a rack and pinion 91, for example, and lowers the packaging container W facing the container supply port 63 from the supply means 64 on the lower side. Then, the shutter 90 is lifted and removed, so that the packaging container W is not caught when the plunger 52 is lowered.

The shutter 90 does not need to be completely closed up to the upper part of the container supply port 63, and when the shutter 90 is raised, the supply of the packaging container W by the supply means 64 may be stopped or continued. .
When the shutter 90 is raised while the supply of the packaging container W by the supply means 64 is continued, the packaging container W supplied by the shutter 90 can be retained, and when the plunger 52 is next raised, the shutter 90 is lowered. Then, the container supply port 63 is opened, and a large amount of the packaging container W that has remained can be supplied to the container supply port 63 at a time.

In FIG. 13, an air discharge pipe member 66 communicating with the air cylinder 80 and the air pipe 82 shown in the above embodiment is also provided, and the anti-cracking means 65 is provided along with the pipe member 66 or a pipe. A shutter 90 can be provided instead of the material 66.
The present invention is not limited to the above-described embodiments and modifications, and can be modified as appropriate.
For example, the compression bagging apparatus 1 may be configured to perform the compression operation by moving the plunger 52 in the horizontal direction in a state where the filling guide cylinder 51 is laid down sideways.

  The rail 55 that guides the traveling of the carriage 56 is not necessarily required and can be omitted. Further, the carriage 56 itself can be omitted, and the restriction frame 6 containing the bag 5 may be directly taken in and out below the machine frame 61.

DESCRIPTION OF SYMBOLS 1 Compression bag packing apparatus 2 Compression container 5 Bag 6 Restriction frame 8 Bag body 10 Bag opening part 20 String member 50 Receptacle 51 Filling guide cylinder 52 Plunger 52a Container pressurization surface 61 Machine frame 63 Container supply port 64 Supply means 65 Cram Preventing means 85 Stringing means 86 Stringing groove 86a Groove opening 86b Groove depth W Packaging container (compressed body)

Claims (2)

A bag body having a plurality of string members in the vicinity of the bag opening is accommodated in a regulation frame that regulates the shape of the bag body, and a packaging container for compression is filled into the bag body, and further from the bag opening. A plunger that can be moved to the back is moved forward to compress and compress the packaging container inside the bag with a restriction frame, and the plunger is added to the packaging container while maintaining the pressurized state by the plunger. The string member is inserted through a plurality of string passage grooves formed in the pressure surface with a groove opening narrower than the groove depth, and the packaging container compressed and compressed by each string member is fixed.
In order to fill the packaging container into the bag body, the plunger is guided by a filling guide cylinder, the packaging container is conveyed to the filling guide cylinder by a supply means, and the supply means and the container supply port of the filling guide cylinder are provided. A method for packing in a compressed bag, characterized in that the container for packing at the connecting portion is prevented from being jammed by means of preventing jamming. A bag body provided with a plurality of string members near the bag opening, a regulation frame that accommodates the bag body and regulates the shape of the bag body, and a filling guide tube that drops and supplies the packaging container into the bag body , Provided in the filling guide cylinder so as to be able to move up and down, and further down to the bag opening, further moving to the bag body, pressurizing and compressing the packaging container, and provided with a plunger that can be compressed,
The plunger is provided with a string passage groove on the lower pressure surface thereof, through which the plurality of string members can be inserted in a state where the packaging container in the bag body is compressed while being regulated by a regulation frame. The string passage groove is formed so that the groove opening is narrower than the depth of the groove,
A supply means for supplying a packaging container from the container supply port of the filling guide cylinder when the plunger is raised, and a connecting portion between the supply means and the container supply port of the filling guide cylinder is connected to the container of the packaging container. A compression bagging apparatus, comprising: a clogging prevention means for preventing clogging.

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