US20020197140A1 - Apparatus and method for extracting product-filled bags from retainers - Google Patents
Apparatus and method for extracting product-filled bags from retainers Download PDFInfo
- Publication number
- US20020197140A1 US20020197140A1 US10/179,137 US17913702A US2002197140A1 US 20020197140 A1 US20020197140 A1 US 20020197140A1 US 17913702 A US17913702 A US 17913702A US 2002197140 A1 US2002197140 A1 US 2002197140A1
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- Prior art keywords
- cam roller
- cam
- product
- retainers
- frame member
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B61/00—Auxiliary devices, not otherwise provided for, for operating on sheets, blanks, webs, binding material, containers or packages
- B65B61/28—Auxiliary devices, not otherwise provided for, for operating on sheets, blanks, webs, binding material, containers or packages for discharging completed packages from machines
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B35/00—Supplying, feeding, arranging or orientating articles to be packaged
- B65B35/10—Feeding, e.g. conveying, single articles
- B65B35/16—Feeding, e.g. conveying, single articles by grippers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/74—Feeding, transfer, or discharging devices of particular kinds or types
- B65G47/90—Devices for picking-up and depositing articles or materials
- B65G47/902—Devices for picking-up and depositing articles or materials provided with drive systems incorporating rotary and rectilinear movements
Definitions
- the present invention relates to an apparatus for extracting product-filled bags from retainers that are conveyed along a rectilinear path at a specified conveying pitch and speed in a retainer type bag-filling packaging system.
- the gripping means track the conveying of the containers.
- the gripping means are lowered, they grip the upper ends of a plurality of containers, after which the gripping means are raised so as to extract the containers from the retainers.
- the gripping means are then moved to the side of the retainer conveying path and release the gripping action so as to place the containers on a conveying means, after which the gripping means return to their original position and repeat the above-described operation.
- Japanese Patent Application Laid-Open (Kokai) No. 2000-318714 describes a servo loop type extraction apparatus.
- This apparatus is capable of high-speed processing.
- the structure is complicated, and the maintenance and cleaning characteristics are poor.
- the apparatus is large, the cost is increased, and a large installation space is required for the overall packaging system.
- Japanese Patent Application laid-Open (Kokai) No. S57-204802 describes a method for extracting retainers.
- a pair of continuously rotating suspended belts are horizontally disposed in positions above a retainer conveying path, and the areas in the vicinity of the mouth portions of the bags are held by the suspended belts.
- the retainers are conveyed along a lowering path that is inclined downward so that the bags are pulled out of the retainers, and the bags are then released at the end portions of the suspended belts so that the bags are dropped onto a conveyer.
- the present invention was made in the light of the problems encountered in the above-described conventional extraction apparatuses.
- the product-filled bag extraction apparatus is characterized in that it comprises:
- a base member which is disposed so as to be free to make a reciprocating motion along a base guide path that is parallel to a rectilinear path of retainers
- a reciprocating driving means which causes the base member to make the reciprocating motion
- an upward-downward swinging means which causes the frame member to swing upward and downward along with a reciprocating motion of the base member
- a sliding shaft member which is disposed perpendicular to the base guide path and is supported on the frame member so as to be free to advance and retract in a direction of axis thereof
- a holding means which is disposed on a front end portion of the sliding shaft member and is equipped with a pair of holding members that hold areas in the vicinity of mouth portions of product-filled bags,
- an advancing-and-retracting driving means which causes the sliding shaft member to advance and retract
- an opening-and-closing driving means which is attached to the sliding shaft member and advances and retracts together with the sliding shaft member, thus opening and closing the pair of holding members.
- the advancing-and-retracting driving means is comprised of, for instance:
- a swing member which is shaft-supported on a supporting shaft that is parallel on the base member to the base guide path so that the swing member is free to swing, the swing member having a first lever and a second lever,
- a cam roller which is disposed on a tip end of the second lever and has a rotating shaft in a plane that is perpendicular to the base guide path
- an advancing-and-retracting cam which has a cam groove through which the cam roller rolls, the advancing-and-retracting cam being disposed in a plane that is parallel to the base guide path and is free to make a reciprocating motion in the plane;
- the swing member swings along with a reciprocating motion of the advancing-and-retracting cam, and the sliding shaft member advances and retracts in linkage with a swing motion of the swing member.
- the supporting shaft may also be used as the supporting shaft of the frame member, and the swing member may also be fitted over this supporting shaft and shaft-supported so that the swing member is free to pivot.
- the extraction apparatus comprises:
- a base member which is disposed so as to be free to make a reciprocating motion along a base guide path that is parallel to a rectilinear path of retainers
- a reciprocating driving means which causes the base member to make the reciprocating motion
- an upward-downward swinging means which causes the frame member to swing upward and downward along with a reciprocating motion of the base member
- a holding means which is disposed on a front end portion of the frame member and is equipped with a pair of holding members that hold the areas in the vicinity of mouth portions of product-filled bags, and
- an opening-and-closing driving means that opens and closes the pair of holding members.
- the upward-downward swinging means is comprised of, for instance:
- a cam roller which is attached to the cam roller attachment link and has a horizontal axis of rotation in a plane that is perpendicular to the base guide path
- the connecting link, the cam roller attachment link and the frame member form a parallel link mechanism.
- the cam roller is raised and lowered in linkage with a reciprocating motion of the base member, thus causing the cam roller attachment link to perform a translational motion, so that an axis of rotation of the cam roller is maintained in a horizontal attitude.
- a cylindrical roller can be used as the cam roller.
- Such a cylindrical cam roller can withstand a large load.
- an extraction method of the present invention that extracts product-filled bags from retainers that are continuously or intermittently conveyed in a retainer type bag-filling packaging system, and the extraction method includes the steps of:
- the holding members are naturally caused to move while tracking the conveying path at the same speed as the retainers. During this movement, the product-filled bags are held by the holding members and extracted. Furthermore, after the product-filled bags have been dropped, it is necessary for the holding members to return to their original position (on the upstream side). For this movement, the extraction apparatuses of the above-described simplified type can be used. On the other hand, in the case of intermittent conveying and extraction while the conveying is stopped, such a tracking motion and return are unnecessary.
- FIG. 1 is a top view of the extraction apparatus (including three units) according to the present invention.
- FIG. 2 is a sectional side view thereof
- FIG. 3 is a sectional back view thereof
- FIG. 4 is a sectional top view of a part of the holding means and advancing-and-retracting driving means
- FIG. 5 is a sectional top view of a part of the opening-and-losing driving means and advancing-and-retracting driving means;
- FIG. 6 is a top view (partially in cross-section) of a part of the advancing-and-retracting driving means
- FIG. 7 is a side view of the product-filled bag conveying apparatus
- FIG. 8 is a front view of one of the chutes of the conveying apparatus.
- FIGS. 9A through 9D are explanatory diagrams of the extraction method of the present invention.
- FIG. 1 shows an extraction apparatus which is disposed along the rectilinear path of retainers R in a retainer type bag-filling packaging system.
- the retainers R are continuously conveyed in the direction indicated by the arrow at a specified conveying pitch and speed inside a retainer conveying means (screw conveyor) 2 .
- the orientation of the retainers R is regulated by a retainer conveying guide 3 (see FIG. 7) so that the direction of bag width of the product-filled bags W is oriented in the forward-rearward direction.
- a plurality of units of this extraction apparatus 1 are disposed in a row on a base 4 along the rectilinear path, and the respective holding members 5 and 6 are disposed in a straight row.
- the holding members 5 and 6 are initially located on the rectilinear path of the retainers R (in positions indicated by the solid lines in FIG. 1) in an open state, and move while tracking the retainers R in the direction indicated by the arrow.
- the holding members 5 and 6 hold the areas in the vicinity of the mouth portions of a plurality of product-filled bags (4 bags ⁇ 3 units) from the upper side, and are then raised so that the product-filled bags are pulled out of the retainers R (positions indicated by the imaginary lines in FIG. 1). Then, the holding members 5 and 6 are moved out of the rectilinear path of the retainers R, and the holding members 5 and 6 open and drop the product-filled bags.
- the holding members 5 and 6 may initiate the movement out of the rectilinear path while being raised. In either case, the holding members 5 and 6 return to their original positions (positions indicated by the solid lines in FIG. 1) after dropping the product-filled bags and wait until the timing of the next extraction.
- the main section of the extraction apparatus 1 is installed on a base member 7 that makes a reciprocating motion on a base 4 along a base guide path that is parallel to the rectilinear path of the retainers R.
- the base member 7 includes attachment portions 7 b and 7 c (described later) that are fastened to the upper surface of the base main body portion 7 a .
- Slide members 11 are fastened to the undersurface of the base main body portion 7 a , and these slide members 11 are free to slide on slide rails 12 that are fastened to the base 4 .
- the base main body portion 7 a is connected via a connecting rod 13 to a swinging lever 14 (see FIG. 6) which is caused to make a reciprocating swing motion by a driving source that is not shown in the drawings.
- the base member 7 makes a reciprocating motion between the position indicated by the solid lines and the position indicated by the imaginary lines in FIG. 1.
- a supporting shaft 15 is fastened to the attachment portion 7 b parallel to the above-described base guide path, and a frame member 16 is supported on this supporting shaft 15 so that this frame member 16 is free to swing upward and downward.
- the frame member 16 includes a pair of swing supporting portions 16 b , which are attached to the rear portion of the frame main body portion 16 a ; and bearings 19 (see FIG. 5) which are fastened to the end portions of these swing supporting portions 16 b are fitted over the supporting shaft 15 .
- raising-and-lowering supporting portion 16 c (described later) is attached to the lower portion of the frame main body portion 16 a as a part of the frame member 16 .
- An upward-downward swinging means which causes the frame member 16 to swing upward and downward about the supporting shaft 15 is disposed on the lower portion of the frame member 16 .
- the upward-downward swinging means includes a cam roller attachment link 23 , a connecting link 26 , a cam roller 27 and a fixed raising-and-lowering cam 29 .
- the upper end of the cam roller attachment link 23 is pin-connected (via a connecting pin 22 ) to the raising-and-lowering supporting portion 16 c .
- the rear end of the connecting link 26 is pin-connected (via a connecting pin 24 ) to the attachment portion 7 c (see FIG.
- the cam roller 27 is attached to the central portion of the cam roller attachment link 23 so as to face forward, and it has a horizontal axis of rotation in the plane perpendicular to the above-described base guide path.
- the fixed raising-and-lowering cam 29 has a cam groove 28 through which the cam roller 27 rolls.
- the axial centers of the supporting shaft 15 and connecting pin 24 are on the same vertical line, and the distance between the axial centers of the supporting shaft 15 and the connecting pin 22 and the distance between the axial centers of the connecting pin 24 and the connecting pin 25 are set equal to each other. Furthermore, the distance between the axial centers of the supporting shaft 15 and the connecting pin 24 and the distance between the axial centers of the connecting pin 22 and the connecting pin 25 are also set equal to each other.
- a parallel link mechanism consisting of the cam roller attachment link 23 and connecting link 26 , and the frame member 16 and base member 7 , is formed (the each frame member 16 and base member 7 form one joint of the parallel link mechanism).
- the cam roller attachment link 23 performs a translational motion; as a result, the axis of rotation of the cam roller 27 is always maintained in a horizontal attitude. Consequently, a cylindrical roller that can withstand a large load can be used as the cam roller 27 .
- the frame member 16 , etc. are supported by the supporting shaft 15 so that these elements are free to swing, and thus the total weight of these elements is distributed between the supporting shaft 15 and the cam roller 27 . Accordingly, the application of a large load to the cam roller 27 alone can be avoided, and the upward-downward swinging means (and reciprocating driving means) can be reduced in size.
- the cam roller attachment link 23 is raised and lowered with the raising and lowering of the cam roller 27 .
- it is set so that the connecting link 26 that forms one joint of the parallel link mechanism does not incline greatly from the horizontal state.
- the connecting link 26 is merely inclined upward to approximately the same extent. Accordingly, the cam roller attachment link 23 is raised and lowered substantially in a vertical direction. Consequently, the horizontal movement of the cam roller 27 that accompanies this raising and lowering is small, and there is little deviation from the cam groove 28 , such being an advantage of the present invention.
- the sliding shaft member 31 faces in the forward-rearward direction (in the plane perpendicular to the above-described base guide path) on the frame main body portion 16 a and is supported so that the sliding shaft member 31 is free to advance and retract in the axial direction.
- the sliding shaft member 31 consists of a pair of sliding shafts 32 .
- the respective sliding shafts 32 are supported so as to be free to slide in bushes inside bearing holders 33 and 34 which are fastened to the front and rear walls of the frame main body portion 16 a , and a holding means 37 equipped with a pair of holding members 5 and 6 is installed on the front end portions of the sliding shafts 32 .
- the holding means 37 is supported on a supporting frame 38 which is fastened to the front end of the sliding shaft member 31 .
- the holding means 37 includes, along with other elements, a pair of opening-and-closing supporting shafts 41 and 42 , gears 43 and 44 and attachment members 45 and 46 .
- the opening-and-closing supporting shafts 41 are supported so as to be free to pivot inside bearing holders 39 fastened to both side walls.
- the gears 43 and 44 are fastened to the respective opening-and-closing supporting shafts 41 and 42 and engage with each other.
- the attachment members 45 and 46 fasten the holding members 5 and 6 to the lower ends of the respective opening-and-closing supporting shafts 41 and 42 .
- the holding members 5 and 6 are formed with a broad width parallel to the conveying direction of the retainers R so that the holding members 5 and 6 can hold a plurality of product-filled bags at one time. Furthermore, a holding piece 47 consisting of a rubber material, etc. is attached to the holding part of the holding member 6 , and a floating plate 48 is attached to the holding part of the holding member 5 by means of a pin 49 (the central portion of the floating plate 48 is pin-fastened via a bush). Moreover, a holding piece 51 that likewise consists of a rubber material, etc. is attached in a position that faces the holding piece 47 .
- the advancing-and-retracting driving means that causes the sliding shaft member 31 to advance and retract includes, along with other elements, an advancing-and-retracting block 52 , a swing member 53 , a connecting rod 55 , a cam roller 56 , an advancing-and-retracting cam 58 and a connecting rod 59 .
- the advancing-and-retracting block 52 is fastened to the two sliding shafts 32 inside the box-shaped frame main body portion 16 a .
- the swing member 53 has a first lever 53 a and a second lever 53 b and is shaft-supported on the supporting shaft 15 via a bearing 54 in a swingable fashion.
- the connecting rod 55 connects the first lever 53 a and the advancing-and-retracting block 52 .
- the cam roller 56 is disposed on the tip end of the second lever 53 b and has an axis of rotation in the plane perpendicular to the base guide path.
- the advancing-and-retracting cam 58 has a cam groove 57 through which the cam roller 56 rolls. This advancing-and-retracting cam 58 is disposed in the plane parallel to the above-described base guide path so that the advancing-and-retracting driving cam 58 is free to make a reciprocating swing motion upward and downward within such a plane.
- the connecting rod 59 is connected to the advancing-and-retracting cam 58 and is raised and lowered by a driving source that is not shown in the drawings.
- One end (on the upstream side of the conveying path of the retainers R) of the advancing-and-retracting driving cam 58 is pivotally shaft-supported in a bearing portion 62 that is installed on the side surface of a driving box 61 on the base 4 , and the intermediate portion of this cam 58 is connected to the connecting rod 59 .
- the opening-and-closing driving means that opens and closes the pair of holding members 5 and 6 is comprised of an air cylinder 63 which is disposed on the upper portion of the advancing-and-retracting block 52 , the cylinder rod 64 of this air cylinder 63 , and an opening-and-closing lever 65 which connects the tip end of the cylinder rod 64 and the attachment member 45 .
- the holding members 5 and 6 initiate a movement in the direction indicated by the arrows from the positions indicated by the solid lines in FIG. 1 when the base member 7 begins to move as a result of the swing motion of the swinging lever 14 of the reciprocating driving means.
- the cam roller 27 of the upward-downward swinging means begins to roll along the cam groove 28 of the raising-and-lowering cam 29
- the cam roller 56 of the advancing-and-retracting driving means begins to roll along the cam groove 57 of the advancing-and-retracting cam 58 .
- the base member 7 may stop after the product-filled bags W have been pulled out of the retainers R (positions indicated by the imaginary lines in FIG. 1). Moreover, in the above-described example, the holding members 5 and 6 are raised almost vertically. However, it is also possible to cause the sliding shaft member 31 to advance even further from an intermediate point, so that the product-filled bags W are removed from the conveying path even earlier.
- FIGS. 7 and 8 show a feed-out apparatus which feeds the product-filled bags dropped from the holding members 5 and 6 toward the next process.
- This feed-out apparatus includes a plurality of chutes 66 (that correspond to the respective product-filled bags W) installed in a row along the conveying path of the retainers R in the vicinity of the conveying path, and it also includes a common product conveyor 67 .
- the respective chutes 66 are supported by swing supporting shafts 68 so that the chutes 66 are swingable.
- the angles of inclination of the chutes 66 are varied by respective air cylinders 69 so that the chutes 66 are positioned in a receiving position (see the solid lines in FIG. 7) or an avoidance position (see the imaginary lines in FIG. 7).
- the chutes 66 are ordinarily positioned in the receiving position, so that these chutes 66 receive the product-filled bags W and allow these bags to fall onto the product conveyor 67 .
- the air cylinder 69 of the chute 66 that corresponds to the product-filled bag W that has been removed is actuated, so that the chute 66 swings to the avoidance position.
- the defective bag drops “as is” and is transferred to a separate location via a dropping guide 71 .
- FIGS. 9A through 9D show one configuration of an extraction method for removing product-filled bags W from continuously conveyed retainers R. Contrarily to the method described so far in which the retainers R are conveyed in a vertical attitude, in the method shown in FIGS. 9A through 9D the retainers R are conveyed in an attitude that is inclined in the vertical plane with respect to the conveying direction of the retainers R when the product-filled bags are pulled out.
- the retainers R are guided by a retainer conveying guide 75 so that the retainers R are inclined from a vertical attitude. Then, after the product-filled bags W are pulled out, the retainers R are likewise guided by the retainer conveying guide 75 and returned to a vertical attitude.
- FIGS. 9A through 9B the extraction apparatus 76 used in this extraction method is shown with a portion of the apparatus simplified.
- This extraction apparatus 76 may be viewed as an apparatus in which the sliding shaft member 31 of the extraction apparatus 1 is fastened to the frame main body portion 16 a (no advancing-and-retracting driving means is required).
- this may be described as an apparatus in which the holding means 79 is installed via an appropriate attachment member to the tip of the frame member 16 of the above-described extraction apparatus 1 .
- a shaft member 77 (corresponding to the frame 16 a and sliding shaft member 31 ) makes only an upward-downward swing motion about a supporting shaft 78 (corresponding to the supporting shaft 15 ) that is disposed on a base member (corresponding to the base member 7 ) that is not shown in the drawings.
- a holding means 79 (corresponding to the holding means 37 ) is likewise disposed on the tip end portion of the shaft member 77 .
- the shaft member 77 is arranged so that when the shaft member 77 swings furthest downward, the shaft member 77 is inclined considerably downward and the orientation of the shaft member 77 is substantially perpendicular to the orientation of the inclination of the retainers R, allowing the holding members 80 and 81 to grip the areas in the vicinity of the mouth portions of the product-filled bags W.
- the chutes 82 are provided so as to be movable between a receiving position (solid line) and an avoidance position (imaginary line).
- a receiving position solid line
- an avoidance position imaging line
- the chutes 82 stop in the avoidance position as indicated by the imaginary lines, and the holding members 80 and 81 do not open in the above-described step (c) but instead open at an intermediate point while being lowered, so that the defective bags are dropped before reaching the conveyor 83 .
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- Specific Conveyance Elements (AREA)
Abstract
An apparatus for extracting product-filled bags from retainers that are conveyed along a rectilinear path. The extracting apparatus includes a base member disposed along a base guide path parallel to the rectilinear path of the retainers so that the base member is free to make a reciprocating motion, a frame member supported on a supporting shaft on the base member so as to swing upward and downward, a sliding shaft member supported on the frame member so as to advance and retract, and a holding means disposed on the front end portion of the sliding shaft member. A cylindrical cam roller is attached to a cam roller attachment link which is pin-connected to the lower portion of the frame member, and the cam roller rolls through the cam groove of a raising-and-lowering cam, thus allowing the frame member to swing upward and downward about the supporting shaft.
Description
- 1. Field of the Invention
- The present invention relates to an apparatus for extracting product-filled bags from retainers that are conveyed along a rectilinear path at a specified conveying pitch and speed in a retainer type bag-filling packaging system.
- 2. Prior Art
- An extraction apparatus of this type is described in, for instance, Japanese Patent Application Laid-Open (Kokai) No. H8-143145. In this robot type extraction apparatus, gripping means that hold containers are moved along multiple axes.
- More specifically, the gripping means track the conveying of the containers. When the gripping means are lowered, they grip the upper ends of a plurality of containers, after which the gripping means are raised so as to extract the containers from the retainers. The gripping means are then moved to the side of the retainer conveying path and release the gripping action so as to place the containers on a conveying means, after which the gripping means return to their original position and repeat the above-described operation.
- However, in the case of this robot type extraction device, the structure and control system that are used in order to cause the gripping means to perform three-dimensional movements are complicated, and the maintenance and cleaning characteristics are poor. Furthermore, when numerous containers are gripped at the same time, the burden on the driving system is large.
- Japanese Patent Application Laid-Open (Kokai) No. 2000-318714 describes a servo loop type extraction apparatus.
- In this servo loop type extraction apparatus, numerous gripping means disposed at equal intervals are moved in one direction along an annular track that has a pair of parallel portions. The gripping means are moved continuously at a constant speed on the first side of the parallel portions and moved intermittently by a distance that is an integral multiple of the attachment spacing of the gripping means on the second side of the parallel portions. The gripping means track the conveying of the retainers on the first side. In this process, an operation in which the gripping means are lowered and grip the upper ends of the bags, after which the gripping means are raised so that the bags are extracted from the retainers, is continuously performed. Then, when the gripping means reach the second side, the gripping means are intermittently stopped, and at the same time, the gripping of a plurality of bags is released so that the bags drop onto a conveyor.
- This apparatus is capable of high-speed processing. However, the structure is complicated, and the maintenance and cleaning characteristics are poor. Furthermore, since the apparatus is large, the cost is increased, and a large installation space is required for the overall packaging system.
- Furthermore, Japanese Patent Application laid-Open (Kokai) No. S57-204802 describes a method for extracting retainers.
- In this extraction method, a pair of continuously rotating suspended belts are horizontally disposed in positions above a retainer conveying path, and the areas in the vicinity of the mouth portions of the bags are held by the suspended belts. The retainers are conveyed along a lowering path that is inclined downward so that the bags are pulled out of the retainers, and the bags are then released at the end portions of the suspended belts so that the bags are dropped onto a conveyer.
- In this method, as in the above-described servo loop system, bag extraction is performed continuously; however, the structure is simple. On the other hand, since the bags are pulled out of the inclined retainers in a vertical attitude, the retainers and bags interfere, resulting in problems such as bag deformation, the generation of damage and pinholes, and the retainers being knocked over.
- The present invention was made in the light of the problems encountered in the above-described conventional extraction apparatuses.
- It is an object of the present invention to provide an extraction apparatus in which the structure and control system are simple, the burden on the driving system is small, and the apparatus can be made compact.
- It is another object of the present invention to provide an extraction method that simplifies the structure of the extraction apparatus even further.
- The above objects are accomplished by a unique structure for an apparatus for extracting product-filled bags from retainers that are conveyed along a rectilinear path at a specified conveying pitch and speed in a retainer type bag-filling packaging system, the product-filled bag extraction apparatus is characterized in that it comprises:
- a base member which is disposed so as to be free to make a reciprocating motion along a base guide path that is parallel to a rectilinear path of retainers,
- a reciprocating driving means which causes the base member to make the reciprocating motion,
- a frame member supported on a supporting shaft which is on the base member disposed parallel to the base guide path so that the frame member is free to swing upward and downward,
- an upward-downward swinging means which causes the frame member to swing upward and downward along with a reciprocating motion of the base member,
- a sliding shaft member which is disposed perpendicular to the base guide path and is supported on the frame member so as to be free to advance and retract in a direction of axis thereof,
- a holding means which is disposed on a front end portion of the sliding shaft member and is equipped with a pair of holding members that hold areas in the vicinity of mouth portions of product-filled bags,
- an advancing-and-retracting driving means which causes the sliding shaft member to advance and retract, and
- an opening-and-closing driving means which is attached to the sliding shaft member and advances and retracts together with the sliding shaft member, thus opening and closing the pair of holding members.
- It is desirable that the above-described holding members be able to hold a plurality of product-filled bags at the same time.
- In the above apparatus for extracting product-filled bags, the advancing-and-retracting driving means is comprised of, for instance:
- a swing member which is shaft-supported on a supporting shaft that is parallel on the base member to the base guide path so that the swing member is free to swing, the swing member having a first lever and a second lever,
- a connecting member which connects the first lever and the sliding shaft member,
- a cam roller which is disposed on a tip end of the second lever and has a rotating shaft in a plane that is perpendicular to the base guide path, and
- an advancing-and-retracting cam which has a cam groove through which the cam roller rolls, the advancing-and-retracting cam being disposed in a plane that is parallel to the base guide path and is free to make a reciprocating motion in the plane; and
- the swing member swings along with a reciprocating motion of the advancing-and-retracting cam, and the sliding shaft member advances and retracts in linkage with a swing motion of the swing member.
- The supporting shaft may also be used as the supporting shaft of the frame member, and the swing member may also be fitted over this supporting shaft and shaft-supported so that the swing member is free to pivot.
- Depending on the conveying configuration of the retainers, it may not be necessary to cause the sliding shaft member to advance and retract. In such a case, the extraction apparatus comprises:
- a base member which is disposed so as to be free to make a reciprocating motion along a base guide path that is parallel to a rectilinear path of retainers,
- a reciprocating driving means which causes the base member to make the reciprocating motion,
- a frame member supported on a supporting shaft which is on the base member disposed parallel to the base guide path so that the frame member is free to swing upward and downward,
- an upward-downward swinging means which causes the frame member to swing upward and downward along with a reciprocating motion of the base member,
- a holding means which is disposed on a front end portion of the frame member and is equipped with a pair of holding members that hold the areas in the vicinity of mouth portions of product-filled bags, and
- an opening-and-closing driving means that opens and closes the pair of holding members.
- This extraction apparatus is simplified in its structure.
- In the above-described two extraction apparatuses of the present invention, the upward-downward swinging means is comprised of, for instance:
- a cam roller attachment link, one end thereof being pin-connected to the frame member,
- a cam roller which is attached to the cam roller attachment link and has a horizontal axis of rotation in a plane that is perpendicular to the base guide path,
- a fixed raising-and-lowering cam which has a cam groove through which the cam roller rolls, and
- a connecting link, one end thereof being pin-connected to another end of the cam roller attachment link and another end thereof being pin-connected to the base member; and
- the connecting link, the cam roller attachment link and the frame member form a parallel link mechanism.
- Furthermore, the cam roller is raised and lowered in linkage with a reciprocating motion of the base member, thus causing the cam roller attachment link to perform a translational motion, so that an axis of rotation of the cam roller is maintained in a horizontal attitude.
- Consequently, a cylindrical roller can be used as the cam roller. Such a cylindrical cam roller can withstand a large load.
- Furthermore, the above objects are accomplished by an extraction method of the present invention that extracts product-filled bags from retainers that are continuously or intermittently conveyed in a retainer type bag-filling packaging system, and the extraction method includes the steps of:
- inclining retainers in a vertical plane with respect to a retainer conveying direction,
- holding areas in the vicinity of mouth portions of product-filled bags by holding members,
- extracting the product-filled bags substantially along a direction of inclination and transferring the bags out of the retainer conveying path, and
- dropping the product-filled bags.
- By inclining the retainers in the plane perpendicular to the conveying direction, it is possible to convey the product-filled bags to the outside of the retainer conveying path merely by extracting the product-filled bags from the retainers “as is” along the direction of inclination.
- In the case of continuous conveying, the holding members are naturally caused to move while tracking the conveying path at the same speed as the retainers. During this movement, the product-filled bags are held by the holding members and extracted. Furthermore, after the product-filled bags have been dropped, it is necessary for the holding members to return to their original position (on the upstream side). For this movement, the extraction apparatuses of the above-described simplified type can be used. On the other hand, in the case of intermittent conveying and extraction while the conveying is stopped, such a tracking motion and return are unnecessary.
- FIG. 1 is a top view of the extraction apparatus (including three units) according to the present invention;
- FIG. 2 is a sectional side view thereof;
- FIG. 3 is a sectional back view thereof;
- FIG. 4 is a sectional top view of a part of the holding means and advancing-and-retracting driving means;
- FIG. 5 is a sectional top view of a part of the opening-and-losing driving means and advancing-and-retracting driving means;
- FIG. 6 is a top view (partially in cross-section) of a part of the advancing-and-retracting driving means;
- FIG. 7 is a side view of the product-filled bag conveying apparatus;
- FIG. 8 is a front view of one of the chutes of the conveying apparatus; and
- FIGS. 9A through 9D are explanatory diagrams of the extraction method of the present invention.
- The extraction apparatus and extraction method of the present invention will be described below in detail with reference to FIGS. 1 through 9.
- First, FIG. 1 shows an extraction apparatus which is disposed along the rectilinear path of retainers R in a retainer type bag-filling packaging system.
- In this rectilinear path, the retainers R are continuously conveyed in the direction indicated by the arrow at a specified conveying pitch and speed inside a retainer conveying means (screw conveyor)2. The orientation of the retainers R is regulated by a retainer conveying guide 3 (see FIG. 7) so that the direction of bag width of the product-filled bags W is oriented in the forward-rearward direction. A plurality of units of this
extraction apparatus 1 are disposed in a row on abase 4 along the rectilinear path, and therespective holding members - In this extraction apparatus, the holding
members members members members members members - Next, this
extraction apparatus 1 will be described in detail with reference to FIGS. 2 through 6. - As shown especially clearly in FIG. 2, the main section of the
extraction apparatus 1 is installed on abase member 7 that makes a reciprocating motion on abase 4 along a base guide path that is parallel to the rectilinear path of the retainers R. In addition to the basemain body portion 7 a, thebase member 7 includesattachment portions main body portion 7 a. Slide members 11 are fastened to the undersurface of the basemain body portion 7 a, and these slide members 11 are free to slide onslide rails 12 that are fastened to thebase 4. Furthermore, the basemain body portion 7 a is connected via a connectingrod 13 to a swinging lever 14 (see FIG. 6) which is caused to make a reciprocating swing motion by a driving source that is not shown in the drawings. As a result, thebase member 7 makes a reciprocating motion between the position indicated by the solid lines and the position indicated by the imaginary lines in FIG. 1. - A supporting
shaft 15 is fastened to theattachment portion 7 b parallel to the above-described base guide path, and aframe member 16 is supported on this supportingshaft 15 so that thisframe member 16 is free to swing upward and downward. In addition to a box-shaped framemain body portion 16 a, theframe member 16 includes a pair ofswing supporting portions 16 b, which are attached to the rear portion of the framemain body portion 16 a; and bearings 19 (see FIG. 5) which are fastened to the end portions of theseswing supporting portions 16 b are fitted over the supportingshaft 15. Furthermore, raising-and-lowering supportingportion 16 c (described later) is attached to the lower portion of the framemain body portion 16 a as a part of theframe member 16. - An upward-downward swinging means which causes the
frame member 16 to swing upward and downward about the supportingshaft 15 is disposed on the lower portion of theframe member 16. The upward-downward swinging means includes a camroller attachment link 23, a connectinglink 26, acam roller 27 and a fixed raising-and-loweringcam 29. The upper end of the camroller attachment link 23 is pin-connected (via a connecting pin 22) to the raising-and-lowering supportingportion 16 c. The rear end of the connectinglink 26 is pin-connected (via a connecting pin 24) to theattachment portion 7 c (see FIG. 3) of thebase member 7, and the front end of the connectinglink 26 is pin-connected (via a connecting pin 25) to the lower end of the camroller attachment link 23. Thecam roller 27 is attached to the central portion of the camroller attachment link 23 so as to face forward, and it has a horizontal axis of rotation in the plane perpendicular to the above-described base guide path. The fixed raising-and-loweringcam 29 has acam groove 28 through which thecam roller 27 rolls. - In the above-described upward-downward swinging means, the axial centers of the supporting
shaft 15 and connectingpin 24 are on the same vertical line, and the distance between the axial centers of the supportingshaft 15 and the connectingpin 22 and the distance between the axial centers of the connectingpin 24 and the connectingpin 25 are set equal to each other. Furthermore, the distance between the axial centers of the supportingshaft 15 and the connectingpin 24 and the distance between the axial centers of the connectingpin 22 and the connectingpin 25 are also set equal to each other. Thus, a parallel link mechanism consisting of the camroller attachment link 23 and connectinglink 26, and theframe member 16 andbase member 7, is formed (the eachframe member 16 andbase member 7 form one joint of the parallel link mechanism). Accordingly, while thecam roller 27 is raised and lowered in linkage with the reciprocating motion of thebase member 7, the camroller attachment link 23 performs a translational motion; as a result, the axis of rotation of thecam roller 27 is always maintained in a horizontal attitude. Consequently, a cylindrical roller that can withstand a large load can be used as thecam roller 27. - The
frame member 16, etc. are supported by the supportingshaft 15 so that these elements are free to swing, and thus the total weight of these elements is distributed between the supportingshaft 15 and thecam roller 27. Accordingly, the application of a large load to thecam roller 27 alone can be avoided, and the upward-downward swinging means (and reciprocating driving means) can be reduced in size. - Furthermore, the cam
roller attachment link 23 is raised and lowered with the raising and lowering of thecam roller 27. In the present invention, it is set so that the connectinglink 26 that forms one joint of the parallel link mechanism does not incline greatly from the horizontal state. In other words, even when thecam roller 27 is lowered to the maximum extent so that the connectinglink 26 is maximally inclined downward, the attitude of the connectinglink 26 is close to horizontal as shown in FIG. 2. When thecam roller 27 is raised to the maximum extent, the connectinglink 26 is merely inclined upward to approximately the same extent. Accordingly, the camroller attachment link 23 is raised and lowered substantially in a vertical direction. Consequently, the horizontal movement of thecam roller 27 that accompanies this raising and lowering is small, and there is little deviation from thecam groove 28, such being an advantage of the present invention. - The sliding
shaft member 31 faces in the forward-rearward direction (in the plane perpendicular to the above-described base guide path) on the framemain body portion 16 a and is supported so that the slidingshaft member 31 is free to advance and retract in the axial direction. The slidingshaft member 31 consists of a pair of slidingshafts 32. The respective slidingshafts 32 are supported so as to be free to slide in bushes inside bearingholders main body portion 16 a, and a holding means 37 equipped with a pair of holdingmembers shafts 32. - As shown in FIG. 4, the holding means37 is supported on a supporting
frame 38 which is fastened to the front end of the slidingshaft member 31. The holding means 37 includes, along with other elements, a pair of opening-and-closing supporting shafts attachment members closing supporting shafts 41 are supported so as to be free to pivot inside bearingholders 39 fastened to both side walls. Thegears closing supporting shafts attachment members members closing supporting shafts - The holding
members members piece 47 consisting of a rubber material, etc. is attached to the holding part of the holdingmember 6, and a floatingplate 48 is attached to the holding part of the holdingmember 5 by means of a pin 49 (the central portion of the floatingplate 48 is pin-fastened via a bush). Moreover, a holdingpiece 51 that likewise consists of a rubber material, etc. is attached in a position that faces the holdingpiece 47. - The advancing-and-retracting driving means that causes the sliding
shaft member 31 to advance and retract includes, along with other elements, an advancing-and-retractingblock 52, aswing member 53, a connectingrod 55, acam roller 56, an advancing-and-retractingcam 58 and a connectingrod 59. The advancing-and-retractingblock 52 is fastened to the two slidingshafts 32 inside the box-shaped framemain body portion 16 a. Theswing member 53 has afirst lever 53 a and asecond lever 53 b and is shaft-supported on the supportingshaft 15 via abearing 54 in a swingable fashion. The connectingrod 55 connects thefirst lever 53 a and the advancing-and-retractingblock 52. Thecam roller 56 is disposed on the tip end of thesecond lever 53 b and has an axis of rotation in the plane perpendicular to the base guide path. The advancing-and-retractingcam 58 has acam groove 57 through which thecam roller 56 rolls. This advancing-and-retractingcam 58 is disposed in the plane parallel to the above-described base guide path so that the advancing-and-retractingdriving cam 58 is free to make a reciprocating swing motion upward and downward within such a plane. The connectingrod 59 is connected to the advancing-and-retractingcam 58 and is raised and lowered by a driving source that is not shown in the drawings. One end (on the upstream side of the conveying path of the retainers R) of the advancing-and-retractingdriving cam 58 is pivotally shaft-supported in a bearingportion 62 that is installed on the side surface of a driving box 61 on thebase 4, and the intermediate portion of thiscam 58 is connected to the connectingrod 59. - When the connecting
rod 59 is raised and lowered so that the advancing-and-retractingcam 58 makes a reciprocating swing motion upward and downward, thecam roller 56 andswing member 53 swing. As a result, the advancing-and-retractingblock 52 and slidingshaft member 31 are advanced and retracted (see the positions indicated by solid lines and the positions indicated by imaginary lines in FIG. 2). - The opening-and-closing driving means that opens and closes the pair of holding
members air cylinder 63 which is disposed on the upper portion of the advancing-and-retractingblock 52, thecylinder rod 64 of thisair cylinder 63, and an opening-and-closinglever 65 which connects the tip end of thecylinder rod 64 and theattachment member 45. When theair cylinder 63 is actuated and thecylinder rod 64 is extended, the holdingmembers cylinder rod 64 is retracted, the holding members close in linkage with this retraction. - Though an example of the operation of the
extraction apparatus 1 is described above, the description of such an operation will be supplemented as follows: - (1) The holding
members base member 7 begins to move as a result of the swing motion of the swinginglever 14 of the reciprocating driving means. At the same time, thecam roller 27 of the upward-downward swinging means begins to roll along thecam groove 28 of the raising-and-loweringcam 29, and thecam roller 56 of the advancing-and-retracting driving means begins to roll along thecam groove 57 of the advancing-and-retractingcam 58. - (2) When the movement of the holding
members air cylinder 63 of the opening-and-closing driving means is immediately actuated. As a result, the holdingmembers - (3) Next, the
cam roller 27 is raised along thecam groove 28. As a result, theframe member 16 swings upward about the supportingshaft 15, and the holdingmembers rod 59 begins to rise at an intermediate point; consequently, the advancing-and-retractingcam 58 swings upward, and the slidingshaft member 31 advances. As a result, the holdingmembers - (4) The advancing-and-retracting
cam 58 swings further upward, and the slidingshaft member 31 advances, so that the product-filled bags W held by the holdingmembers members - (5) Then, the reciprocating driving means and advancing-and-retracting driving means are actuated in reverse, so that the holding
members - The
base member 7 may stop after the product-filled bags W have been pulled out of the retainers R (positions indicated by the imaginary lines in FIG. 1). Moreover, in the above-described example, the holdingmembers shaft member 31 to advance even further from an intermediate point, so that the product-filled bags W are removed from the conveying path even earlier. - FIGS. 7 and 8 show a feed-out apparatus which feeds the product-filled bags dropped from the holding
members - This feed-out apparatus includes a plurality of chutes66 (that correspond to the respective product-filled bags W) installed in a row along the conveying path of the retainers R in the vicinity of the conveying path, and it also includes a
common product conveyor 67. Therespective chutes 66 are supported by swing supporting shafts 68 so that thechutes 66 are swingable. The angles of inclination of thechutes 66 are varied by respective air cylinders 69 so that thechutes 66 are positioned in a receiving position (see the solid lines in FIG. 7) or an avoidance position (see the imaginary lines in FIG. 7). - The
chutes 66 are ordinarily positioned in the receiving position, so that thesechutes 66 receive the product-filled bags W and allow these bags to fall onto theproduct conveyor 67. However, in cases where, for example, it is detected by a detection means installed on the upstream side of the conveying path of the retainers R that a certain product-filled bag W is a defective bag, then the air cylinder 69 of thechute 66 that corresponds to the product-filled bag W that has been removed is actuated, so that thechute 66 swings to the avoidance position. As a result, the defective bag drops “as is” and is transferred to a separate location via a droppingguide 71. - Alternatively, it can be arranged so that when a defective bag is detected the set of four product-filled bags W including the defective bag is not pulled out by the
extraction apparatus 1 but is instead removed by a separate extraction apparatus on the downstream side of theextraction apparatus 1. In this case, there is no need to incline thechutes 66, and the air cylinders 69 are unnecessary. - FIGS. 9A through 9D show one configuration of an extraction method for removing product-filled bags W from continuously conveyed retainers R. Contrarily to the method described so far in which the retainers R are conveyed in a vertical attitude, in the method shown in FIGS. 9A through 9D the retainers R are conveyed in an attitude that is inclined in the vertical plane with respect to the conveying direction of the retainers R when the product-filled bags are pulled out.
- More specifically, in the retainer conveying device (screw conveyor)74, as shown in FIGS. 9A through 9D, the retainers R are guided by a
retainer conveying guide 75 so that the retainers R are inclined from a vertical attitude. Then, after the product-filled bags W are pulled out, the retainers R are likewise guided by theretainer conveying guide 75 and returned to a vertical attitude. - In FIGS. 9A through 9B, the
extraction apparatus 76 used in this extraction method is shown with a portion of the apparatus simplified. Thisextraction apparatus 76 may be viewed as an apparatus in which the slidingshaft member 31 of theextraction apparatus 1 is fastened to the framemain body portion 16 a (no advancing-and-retracting driving means is required). Alternatively, this may be described as an apparatus in which the holding means 79 is installed via an appropriate attachment member to the tip of theframe member 16 of the above-describedextraction apparatus 1. In other words, a shaft member 77 (corresponding to theframe 16 a and sliding shaft member 31) makes only an upward-downward swing motion about a supporting shaft 78 (corresponding to the supporting shaft 15) that is disposed on a base member (corresponding to the base member 7) that is not shown in the drawings. A holding means 79 (corresponding to the holding means 37) is likewise disposed on the tip end portion of theshaft member 77. Furthermore, theshaft member 77 is arranged so that when theshaft member 77 swings furthest downward, theshaft member 77 is inclined considerably downward and the orientation of theshaft member 77 is substantially perpendicular to the orientation of the inclination of the retainers R, allowing the holdingmembers - The process of the extraction method will be described as follows with reference to FIGS.9A through 9D:
- (a) The retainers R accommodating the product-filled bags W that are to be extracted next are conveyed in a vertical attitude in front of the
extraction apparatus 76. From this point, the retainers R are guided by theretainer conveying guide 75 and are gradually inclined. Meanwhile, theextraction apparatus 76 is in the process of returning to its original position along a base guide path that is parallel to the conveying path of the retainers R, and theshaft member 77 has begun to swing toward a position underneath. - (b) The
extraction apparatus 76 that has returned to its original position begins to track the retainers R, and the holdingmembers - (c) Next, the
shaft member 77 swings upward, and the holdingmembers extraction apparatus 76 along the base guide path stops; meanwhile, the retainers R from which the product-filled bags W have been pulled out are guided by theretainer conveying guide 75 and gradually returned to a vertical attitude. When theshaft member 77 swings upward, the product-filled bags W are raised in a circular-arc-form movement, and the bags are naturally conveyed to the outside of the conveying path of the retainers R. In the raised position, the holdingmembers chutes 82 and are further dropped onto aproduct conveyor 83. Thechutes 82 are provided so as to be movable between a receiving position (solid line) and an avoidance position (imaginary line). When theshaft member 77 swings upward, thechutes 82 move to the avoidance position so that interference with the product-filled bags W is avoided, and thechutes 82 return to the receiving position before the holdingmembers - (d) After the product-filled bags W drop, the
extraction apparatus 76 begins to return to its original position, and theshaft member 77 begins to swing downward. Furthermore, the retainers R from which the product-filled bags W have been pulled out have returned to a vertical attitude at this point in time. - Meanwhile, in cases where product-filled bags W that have been pulled out are defective, the
chutes 82 stop in the avoidance position as indicated by the imaginary lines, and the holdingmembers conveyor 83. - Furthermore, in cases where the product-filled bags are pulled out while the retainers R are continuously conveyed, it is necessary to cause the holding members to make a tracking movement along the conveying path at the same speed as the retainers as described above. However, in the case of intermittent conveying in which the retainers R are stopped when the bags are pulled out, the above-described tracking motion and return are unnecessary. Accordingly, the reciprocating driving means is also not required.
- As seen from the above, according to the present invention, it is possible to obtain an extraction apparatus in which the structure and control system are simple, the burden on the driving system is small, and the size of the apparatus can be reduced. Furthermore, the extraction method of the present invention allows the structure of the extraction apparatus to be further simplified.
Claims (7)
1. An apparatus for extracting product-filled bags from retainers that are conveyed along a rectilinear path at a specified conveying pitch and speed in a retainer type bag-filling packaging system, said product-filled bag extraction apparatus comprising:
a base member which is disposed so as to be free to make a reciprocating motion along a base guide path that is parallel to a rectilinear path of retainers,
a reciprocating driving means which causes said base member to make said reciprocating motion,
a frame member supported on a supporting shaft which is on said base member disposed parallel to said base guide path so that said frame member is free to swing upward and downward,
an upward-downward swinging means which causes said frame member to swing upward and downward along with a reciprocating motion of said base member,
a sliding shaft member which is disposed perpendicular to said base guide path and is supported on said frame member so as to be free to advance and retract in a direction of axis thereof,
a holding means which is disposed on a front end portion of said sliding shaft member and is equipped with a pair of holding members that hold areas in the vicinity of mouth portions of product-filled bags,
an advancing-and-retracting driving means which causes said sliding shaft member to advance and retract, and
an opening-and-closing driving means which is attached to said sliding shaft member and advances and retracts together with said sliding shaft member, thus opening and closing said pair of holding members.
2. The apparatus for extracting product-filled bags according to claim 1 , wherein said advancing-and-retracting driving means is comprised of:
a swing member which is shaft-supported on a supporting shaft that is parallel on said base member to said base guide path so that said swing member is free to swing, said swing member having a first lever and a second lever,
a connecting member which connects said first lever and said sliding shaft member,
a cam roller which is disposed on a tip end of said second lever and has a rotating shaft in a plane that is perpendicular to said base guide path, and
an advancing-and-retracting cam which has a cam groove through which said cam roller rolls, said advancing-and-retracting cam being disposed in a plane that is parallel to said base guide path and is free to make a reciprocating motion in said plane, and wherein
said swing member swings along with a reciprocating motion of said advancing-and-retracting cam, and said sliding shaft member advances and retracts in linkage with a swing motion of said swing member.
3. An apparatus for extracting product-filled bags from retainers that are conveyed along a rectilinear path at a specified conveying pitch and speed in a retainer type bag-filling packaging system, said product-filled bag extraction apparatus comprising:
a base member which is disposed so as to be free to make a reciprocating motion along a base guide path that is parallel to a rectilinear path of retainers,
a reciprocating driving means which causes said base member to make said reciprocating motion,
a frame member supported on a supporting shaft which is on said base member disposed parallel to said base guide path so that said frame member is free to swing upward and downward,
an upward-downward swinging means which causes said frame member to swing upward and downward along with a reciprocating motion of said base member,
a holding means which is disposed on a front end portion of said frame member and is equipped with a pair of holding members that hold areas in the vicinity of mouth portions of product-filled bags, and
an opening-and-closing driving means that opens and closes said pair of holding members.
4. The apparatus for extracting product-filled bags according to claim 1 , wherein said upward-downward swinging means is comprised of:
a cam roller attachment link, one end thereof being pin-connected to said frame member,
a cam roller which is attached to said cam roller attachment link and has a horizontal axis of rotation in a plane that is perpendicular to said base guide path,
a fixed raising-and-lowering cam which has a cam groove through which said cam roller rolls, and
a connecting link, one end thereof being pin-connected to another end of said cam roller attachment link and another end thereof being pin-connected to said base member; and wherein
said connecting link, said cam roller attachment link and said frame member form a parallel link mechanism, and
said cam roller is raised and lowered in linkage with a reciprocating motion of said base member, causing said cam roller attachment link to perform a translational motion, so that an axis of rotation of said cam roller is maintained in a horizontal attitude.
5. The apparatus for extracting product-filled bags according to claim 2 , wherein said upward-downward swinging means is comprised of:
a cam roller attachment link, one end thereof being pin-connected to said frame member,
a cam roller which is attached to said cam roller attachment link and has a horizontal axis of rotation in a plane that is perpendicular to said base guide path,
a fixed raising-and-lowering cam which has a cam groove through which said cam roller rolls, and
a connecting link, one end thereof being pin-connected to another end of said cam roller attachment link and another end thereof being pin-connected to said base member; and wherein
said connecting link, said cam roller attachment link and said frame member form a parallel link mechanism, and
said cam roller is raised and lowered in linkage with a reciprocating motion of said base member, causing said cam roller attachment link to perform a translational motion, so that an axis of rotation of said cam roller is maintained in a horizontal attitude.
6. The apparatus for extracting product-filled bags according to claim 3 , wherein said upward-downward swinging means is comprised of:
a cam roller attachment link, one end thereof being pin-connected to said frame member,
a cam roller which is attached to said cam roller attachment link and has a horizontal axis of rotation in a plane that is perpendicular to said base guide path,
a fixed raising-and-lowering cam which has a cam groove through which said cam roller rolls, and
a connecting link, one end thereof being pin-connected to another end of said cam roller attachment link and another end thereof being pin-connected to said base member; and wherein
said connecting link, said cam roller attachment link and said frame member form a parallel link mechanism, and
said cam roller is raised and lowered in linkage with a reciprocating motion of said base member, causing said cam roller attachment link to perform a translational motion, so that an axis of rotation of said cam roller is maintained in a horizontal attitude.
7. An extraction method for extracting product-filled bags from retainers that are continuously or intermittently conveyed in a retainer type bag-filling packaging system, said product-filled bag extraction method comprising the steps of:
inclining retainers in a vertical plane with respect to a retainer conveying direction,
holding areas in the vicinity of mouth portions of product-filled bags by holding members,
extracting said product-filled bags substantially along a direction of inclination and transferring said bags out of said retainer conveying path, and
dropping said product-filled bags.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2001-192027 | 2001-06-25 | ||
JP2001192027A JP2003011931A (en) | 2001-06-25 | 2001-06-25 | Device for and method of taking out product bag from retainer |
Publications (1)
Publication Number | Publication Date |
---|---|
US20020197140A1 true US20020197140A1 (en) | 2002-12-26 |
Family
ID=19030541
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US10/179,137 Abandoned US20020197140A1 (en) | 2001-06-25 | 2002-06-25 | Apparatus and method for extracting product-filled bags from retainers |
Country Status (3)
Country | Link |
---|---|
US (1) | US20020197140A1 (en) |
EP (1) | EP1270463A3 (en) |
JP (1) | JP2003011931A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109051779A (en) * | 2018-08-17 | 2018-12-21 | 湖州亨力木业有限公司 | Check device after a kind of japanning of timber |
CN113697476A (en) * | 2021-08-13 | 2021-11-26 | 罗浩 | Garden building construction structure |
US11643284B2 (en) * | 2017-09-01 | 2023-05-09 | Ats Automation Tooling Systems Inc. | Method and apparatus for part transfer and transport in an assembly line |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6724895B1 (en) | 1998-06-18 | 2004-04-20 | Supersensor (Proprietary) Limited | Electronic identification system and method with source authenticity verification |
US7137000B2 (en) | 2001-08-24 | 2006-11-14 | Zih Corp. | Method and apparatus for article authentication |
US20030061947A1 (en) | 2001-10-01 | 2003-04-03 | Hohberger Clive P. | Method and apparatus for associating on demand certain selected media and value-adding elements |
DE102011011642A1 (en) * | 2011-02-18 | 2012-08-23 | Iwk Verpackungstechnik Gmbh | packaging machine |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH08143145A (en) * | 1994-11-22 | 1996-06-04 | Shizukou Kk | Method and device for mounting article on and demounting it from holding body |
JPH09254931A (en) * | 1996-03-27 | 1997-09-30 | Toyo Jidoki Co Ltd | Apparatus for taking out packaging bag in vacuum-packaging machine |
JP2000318714A (en) * | 1999-03-11 | 2000-11-21 | Toyo Jidoki Co Ltd | Intermittent discharge unit for container in continuously filling/packaging system |
-
2001
- 2001-06-25 JP JP2001192027A patent/JP2003011931A/en not_active Withdrawn
-
2002
- 2002-06-25 EP EP02014169A patent/EP1270463A3/en not_active Withdrawn
- 2002-06-25 US US10/179,137 patent/US20020197140A1/en not_active Abandoned
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11643284B2 (en) * | 2017-09-01 | 2023-05-09 | Ats Automation Tooling Systems Inc. | Method and apparatus for part transfer and transport in an assembly line |
CN109051779A (en) * | 2018-08-17 | 2018-12-21 | 湖州亨力木业有限公司 | Check device after a kind of japanning of timber |
CN113697476A (en) * | 2021-08-13 | 2021-11-26 | 罗浩 | Garden building construction structure |
Also Published As
Publication number | Publication date |
---|---|
EP1270463A3 (en) | 2004-12-08 |
EP1270463A2 (en) | 2003-01-02 |
JP2003011931A (en) | 2003-01-15 |
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Owner name: TOYO JIDOKI CO., LTD., JAPAN Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:HIRAMOTO, SHINICHI;TSUTSUI, SHOJI;REEL/FRAME:013049/0330 Effective date: 20020618 |
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Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |