US20010025765A1 - Apparatus and method for temporarily retaining articles midway a transport system - Google Patents
Apparatus and method for temporarily retaining articles midway a transport system Download PDFInfo
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- US20010025765A1 US20010025765A1 US09/874,244 US87424401A US2001025765A1 US 20010025765 A1 US20010025765 A1 US 20010025765A1 US 87424401 A US87424401 A US 87424401A US 2001025765 A1 US2001025765 A1 US 2001025765A1
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- Prior art keywords
- conveying surface
- conveyor unit
- rack
- article
- rack units
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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
- B65G47/34—Devices for discharging articles or materials from conveyor
- B65G47/46—Devices for discharging articles or materials from conveyor and distributing, e.g. automatically, to desired points
- B65G47/51—Devices for discharging articles or materials from conveyor and distributing, e.g. automatically, to desired points according to unprogrammed signals, e.g. influenced by supply situation at destination
- B65G47/5104—Devices for discharging articles or materials from conveyor and distributing, e.g. automatically, to desired points according to unprogrammed signals, e.g. influenced by supply situation at destination for articles
- B65G47/515—First In-Last Out systems [FILO]; Last In-First Out systems [LIFO]
- B65G47/5181—First In-Last Out systems [FILO]; Last In-First Out systems [LIFO] using stacking or destacking arrangements or stacks of articles or article-carriers
-
- 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
- B65G2207/00—Indexing codes relating to constructional details, configuration and additional features of a handling device, e.g. Conveyors
- B65G2207/46—Tray unloading features
Definitions
- This invention relates to a transport system for feeding articles from station to station in a continuous manufacturing line and warehouse. More particularly, it relates to an apparatus and method for temporarily retaining articles midway the transport system.
- a continuous manufacturing system includes a transport line in the form of a roller conveyor for feeding stock items or intermediate articles from station to station for processing and finally feeding finished articles to a packaging station or a shipping outlet.
- a transport line in the form of a roller conveyor for feeding stock items or intermediate articles from station to station for processing and finally feeding finished articles to a packaging station or a shipping outlet.
- stock powder and suitable agents are mixed. It is often desired to retain such a mixture for some time at room temperature for aging for allowing the material to gain some drape, texture or body. When the material is heated as by baking, it is also desired to allow the material to cool down at room temperature.
- Exemplary apparatus for temporarily retaining and storing articles midway a transport line are disclosed in Japanese Patent Application Kokai No. 225210/1990 and Japanese Utility Model Application Kokai No. 132008/1990 as comprising two multi-stage racks arranged in a transport line in a conveyance direction whereby articles being conveyed are sequentially loaded in the multi-stage racks and fed back to the transport line.
- an object of the present invention is to provide an apparatus of simple, inexpensive construction for temporarily retaining articles midway a transport line and a retaining method using the apparatus.
- An article retention apparatus for use in a transport system includes a conveyor unit having a conveying surface for supporting and conveying an article horizontally.
- a plurality of rack units each have support means on which an article rests horizontally.
- Suspension means is provided for suspending the plurality of rack units in a vertically spaced apart relationship while keeping the rack units horizontal.
- Drive means is provided for moving up and down the suspension means.
- the conveyor unit and the plurality of rack units are configured such that the rack units may be moved above and below the conveying surface of the conveyor unit without interference between the conveying surface of the conveyor unit and the support means of the rack units.
- the suspension means includes generally flexible strips or chains and the plurality of rack units are attached to the strips or chains at predetermined intervals.
- the conveyor unit comprises a roller conveyor unit having a plurality of rollers arranged in a horizontal plane.
- the rollers at their top define the conveying surface.
- each rack unit is a ladder-shaped rack and the conveyor unit has a plurality of spaced apart rollers, the crosspieces of the ladder-shaped rack and the rollers are alternately arranged in a non-contact interdigitating relationship.
- the conveyor unit comprises at least one belt conveyor unit having an endless belt.
- the belt presents a horizontal upper surface defining the conveying surface.
- articles are retained midway a transport system by placing the plurality of rack units on standby in a stack at a position below the conveying surface of the conveyor unit.
- An article is fed from the transport system to the conveyor unit so that the article rests on the conveying surface.
- the suspension means is lifted upward for moving upward the rack unit of the uppermost stage to emerge above the conveying surface, thereby transferring the article from the conveying surface to the support means of the rack unit.
- the suspension means is lifted in increment each time when a new article is fed and rested on the conveying surface, for moving upward the rack unit of the next lower stage to emerge above the conveying surface, thereby transferring the article from the conveying surface to the support means of the rack unit.
- the respective rack units retain the articles at spaced apart positions above the conveying surface for a desired time. Thereafter, the suspension means is moved downward in increment until each of the rack units is moved below the conveying surface of the conveyor unit, thereby transferring the article from the support means of the rack unit to the conveying surface. The articles are then discharged from the conveyor unit to the transport system.
- a plurality of rack units each having support means on which an article rests horizontally can be suspended by suspension members in a vertically spaced apart relationship while the rack units remain horizontal.
- the conveyor unit and the plurality of rack units are configured such that the rack units may be moved to positions above and below the conveying surface of the conveyor unit (which is the roller plane in the case of a roller conveyor and the belt surface in the case of a belt conveyor) without interference between the conveying surface of the conveyor unit and the support means of the rack units.
- the rack unit of the uppermost stage among a plurality of rack units which have been placed on standby at a position below the conveying surface is lifted upward by the suspension members to emerge above the conveying surface whereby the article on the conveying surface is transferred to the support means of the rack unit. That is, the article rests on the rack unit independent of the conveyor unit.
- Rack units of subsequent lower stages are then sequentially lifted from the standby position to emerge above the conveying surface to thereby sequentially transfer the articles from the conveying surface to the support means of the rack units.
- the articles are stored on the respective rack units which are lifted above the conveyor unit.
- Transport of the articles which have been stored as mentioned above is restarted by moving down the suspension members to cause the rack units to descend from above to below the conveying surface of the roller conveyor unit.
- the article on the rack unit On passage of each rack unit across the conveying surface, the article on the rack unit is left on the conveying surface and then horizontally fed by the conveyor unit along its the conveying surface.
- the articles By sequentially moving the rack units below the conveying surface, the articles are fed from the rack units back to the conveying surface of the conveyor unit and then horizontally fed until they are fed back to the transport system.
- the suspension members are chains or strips which are flexible as a whole
- the chains can flex between the rack units, which allows the rack units, when they are on standby below the conveying surface, to be closely stacked on a stationary surface below the conveying surface.
- FIG. 1 is a perspective view showing an overall transport system having incorporated therein a temporary retention apparatus according to one embodiment of the present invention.
- FIG. 2 is a perspective view showing a roller conveyor unit and rack units included in the exemplary retention tower shown in FIG. 1.
- FIG. 3 is a perspective view showing a drive unit, suspension chains and rack units included in the exemplary retention tower shown in FIG. 1.
- FIG. 4 is a side elevation of rack units in a standby state for illustrating the operation of the retention tower of FIG. 1.
- FIG. 5 is a side elevation similar to FIG. 4, showing the state that articles are being transferred from the roller conveyor to the rack unit of the uppermost stage.
- FIG. 6 is a side elevation similar to FIG. 4, showing the state immediately after the articles have been transferred from the roller conveyor to the rack unit of the uppermost stage.
- FIG. 7 is a side elevation similar to FIG. 4, showing the state that all the rack units of one retention tower are loaded with articles.
- FIG. 8 is a perspective view showing a roller conveyor unit and rack units according to another embodiment.
- FIG. 9 is a plan view of another arrangement of retention towers relative to the main transport line, which is adapted for a first come, first go system.
- FIG. 10 is a schematic elevation of the arrangement of FIG. 9 showing the initial stage at the start of loading articles.
- FIG. 11 is a schematic elevation similar to FIG. 10, showing an intermediate stage.
- FIG. 12 is a schematic elevation similar to FIG. 10, showing an final stage when the retention towers are fully loaded with articles.
- FIG. 13 is a schematic elevation similar to FIG. 10, showing a next stage at the start of unloading articles.
- FIG. 14 is a perspective view showing a belt conveyor unit and rack units according to a further embodiment of the present invention.
- FIG. 1 illustrates an overall transport system having incorporated therein a temporary retention apparatus according to one embodiment of the present invention.
- FIGS. 2 and 3 illustrate major components of the retention apparatus.
- a roller conveyor is used as a conveyor unit of the retention apparatus.
- the transport system includes a main transport line 1 in the form of a conventional roller conveyor 1 a for feeding articles 4 in an arrow direction. Disposed perpendicular to the main transport line 1 at a suitable position are a pair of parallel arranged temporary retention towers 2 A and 2 B. A pair of junction conveyors 3 A and 3 B each in the form of a conventional roller conveyor are disposed between the main transport line 1 and the retention towers 2 A and 2 B.
- a pair of ball conveyors 1 b and 1 c are disposed in the sections of the main transport line 1 connected to the junction conveyors 3 A and 3 B for permitting the article 4 on the main transport line 1 to be fed in both a main feed direction along the main transport line 1 and a transverse direction toward the retention towers 2 A and 2 B.
- Each of retention towers 2 A and 2 B includes a roller conveyor unit 6 , a plurality of (six in the illustrated embodiment) rack units 7 A to 7 F, four suspension members 8 A to 8 D, a drive unit 8 , and a pair of upper and lower stage frame units 10 A and 10 B for supporting these components.
- Each of the frame units 10 A and 10 B is constructed from channel bars into a generally rectangular shape.
- the upper frame unit 10 A is stacked on the lower frame unit 10 B, and they are removably joined by means of bolts (not shown) into an assembly.
- bolts not shown
- a two stage stack is illustrated herein, a vertical stack of more than two stages is also possible as will be described later and, of course, a single stage frame unit is acceptable.
- the roller conveyor unit 6 includes a plurality of drive rollers 11 adapted to be driven in both forward and backward directions, a plurality of free rollers 12 adapted to freely rotate, the drive and free rollers 11 and 12 being alternately arranged at predetermined intervals in a parallel array, and plural pairs of vertical stands 13 anchored to a rectangular base 14 .
- Each of the drive and free rollers 11 and 12 at its ends is mounted between a pair of stands 13 for rotation.
- the rollers including drive and free rollers are arranged at a pitch P 2 and has an outer diameter R.
- rollers are parallel arranged in a horizontal plane which is referred to as a roller plane, hereinafter (exactly speaking, the roller plane is defined as a plane SR passing the top of the respective rollers as shown in FIG. 4).
- the roller conveyor unit 6 is accommodated within the lower stage frame unit 10 B of the frame unit assembly, with the base 14 being removably secured to the bottom of the frame unit 10 B by means of bolts (not shown).
- the drive rollers 11 each have a drive motor built therein in the illustrated embodiment although an external drive motor may be coupled to the drive rollers 11 through a suitable transmission mechanism.
- Each of the rack units 7 A to 7 F is of a generally ladder shape including a pair of parallel long side bars 15 a, 15 b and a plurality of spaced apart short crosspieces 16 spanning between the bars 15 a, 15 b as shown in FIGS. 2 and 3.
- the plurality of crosspieces 16 cooperatively form a comb-shaped support means or surface 17 on which an article rests.
- the plurality of crosspieces 16 are arranged at a pitch P 1 which is equal to the pitch P 2 between the conveyor rollers 11 , 12 .
- the spacing S 1 between the adjacent crosspieces 16 is greater than the outer diameter R of the conveyor rollers 11 , 12 .
- the spacing S 2 between the side bars 15 a and 15 b is greater than the width W 1 of the roller conveyor unit 6 (more exactly, the distance between the outer ends of the stands 13 supporting the rollers).
- the crosspieces 16 of the rack units 7 A to 7 F (defining the support means 17 ) pass between the rollers 11 , 12 of the roller conveyor unit 6 and the side bars 15 a, 15 b of the rack units 7 A to 7 F move outside the stands 13 of the roller conveyor unit 6 so that no interference occurs between the rack unit crosspieces 16 and the conveyor rollers 11 , 12 and between the rack unit side bars 15 a, 15 b and the conveyor stands 13 .
- the plurality of rack units 7 a to 7 F are suspended by a drive unit 9 through suspension means including four flexible chains 8 A to 8 D as shown in FIG. 3. More particularly, the rack unit side bars 15 a, 15 b at the outside are provided with fixtures 18 a, 18 b in the form of claws or pins at a longitudinally equidistance from the center of each side bar. The spacing S 3 between the fixtures 18 a and 18 b is reduced from the upper stage to the lower stage rack unit.
- the chains 8 A to 8 D are suspended from the four corners of the drive unit 9 so that they may be moved up and down.
- the chains 8 A to 8 D are removably engaged to the fixtures 18 a, 18 b of the rack units 7 A to 7 F.
- the positions of engagement of the fixtures 18 a, 18 b of the rack units 7 A to 7 F with the chains 8 A to 8 D are at a predetermined spacing along the length of each chain 8 A to 8 D.
- the spacing S 3 between the left and right fixtures 18 a and 18 b of the rack units 7 A to 7 D is reduced as one goes to the lower stage rack unit so that when all the rack units 7 A to 7 f are suspended, the chains 8 A to 8 D are obliquely extended. It is seen from FIG. 1 that a pair of chains 8 A and 8 B define a frusto-triangle shape.
- the drive unit 9 is removably secured to the top of the upper frame unit 10 A of the frame unit assembly by means of bolts (not shown).
- the drive unit 9 includes a rectangular base frame 20 , pillow blocks 21 A to 21 D disposed near the four corners of the frame 20 , rotating shafts 22 a and 22 b extending between the pillow blocks 21 A and 21 C and 21 B and 21 D, respectively, and rotatably supported thereby, and sprockets 23 a to 23 d mounted on the shafts 22 a and 22 b and adapted to be in meshing engagement with the chains 8 A to 8 D for suspending the chains 8 A to 8 D from the drive unit 9 .
- Relay sprockets 24 a, 24 b are mounted on the shaft 22 b and adapted to be in meshing engagement with the chains 8 A, 8 C.
- the distal ends of the chains 8 A to 8 D are extended from the sprockets 24 a, 23 b, 24 b, 23 d and secured to a weight 25 .
- the shaft 22 b is adapted to be driven for rotation by a rotational drive source 27 capable of forward and backward rotation in the form of a geared motor fixedly secured to the base frame 20 , via a rotation transmission mechanism 28 such as a belt.
- FIGS. 1 and 4 to 7 the operation of the temporary retention towers 2 A, 2 B shown in FIGS. 1 to 3 is described.
- the article 4 to be fed and retained is horizontally fed by the main transport line 1 consisting mainly of the roller conveyor 1 a from the left upper position toward the right lower position in FIG. 1.
- the article 4 is a generally rectangular container or pallet in the illustrated embodiment and actually, stock items, intermediate products or final products are placed in the container, but are omitted for the sake of convenience in the figures. Depending on their shape, the stock items or products can be directly placed on the roller conveyor without using the container.
- each article 4 is fed to the ball conveyor 1 b by the main transport line 1 , a pusher (not shown) pushes the article 4 to turn its feed direction at a right angle.
- the articles 4 are then fed to the retention tower 2 A through the junction conveyor 3 A and placed on the rollers 11 , 12 of the roller conveyor unit 6 , that is, on the roller plane SR.
- the articles 4 resting on the roller plane (or conveying surface) SR are shown in FIG. 4.
- the initial state shown in FIG. 4 is a standby state wherein the chains 8 A to 8 D are extended to the maximum length and the rack units 7 A to 7 F are vertically closely overlaid in a stack below the conveyor rollers 11 , 12 .
- the respective slack sections of the chains 8 A to 8 D each between two adjacent ones of the rack units 7 A to 7 F sag under gravity in a J bent shape.
- the rotational drive source 27 such as a geared motor of the drive unit 9 is actuated.
- the rotational drive force is transmitted to the shaft 22 b through the transmission mechanism 28 whereby the sprockets 24 a, 24 b, 23 a to 23 d are rotated to pull up the chains 8 A to 8 D.
- the rack unit 7 A of the uppermost stage is then lifted upward with its attitude kept horizontal as shown in FIG. 5.
- the rack unit 7 A moves upward past the roller plane SR, the articles 4 resting on the roller plane SR are picked up by the plurality of crosspieces 16 of the rack unit 7 A serving as the support means 17 . That is, the articles 4 are transferred from the rollers 11 , 12 of the roller conveyor unit 6 to the rack unit 7 A. This state is shown in FIG. 6.
- the rack units 7 C to 7 F of subsequent stages are sequentially lifted in the same manner as described above whereby the articles 4 are transferred to the rack units 7 C to 7 F.
- all the rack units 7 A to 7 F are above the roller plane SR as shown in FIG. 7.
- lifting of the rack units 7 A to 7 F by the chains 8 A to 8 D is intermittent in this embodiment, the rack units 7 A to 7 F can be continuously lifted if the roller conveyor unit 6 can be loaded with a set of articles 4 in appropriate timing or in a synchronous manner.
- the articles are fed back to the main transport line from the retention towers 2 A and 2 B by repeating the above-mentioned operation in a reverse manner. More particularly, the rotational drive source 27 of one retention tower 2 A is actuated in the reverse direction to extend downward the chains 8 A to 8 D a predetermined distance.
- the rack unit 7 F of the lowermost stage is moved from above to below the roller plane SR of the roller conveyor unit 6 whereby the articles 4 on the support means 17 (crosspieces 16 ) of the rack unit 7 F are left on the roller plane SR. Then the drive rollers 11 of the roller conveyor unit 6 are driven in the reverse direction to feed the articles 4 toward the junction conveyor 3 A along the roller plane SR.
- the articles 4 are discharged from the retention tower 2 A to the junction conveyor 3 A by which they are fed to the ball conveyor 1 b in the main transport line 1 .
- a pusher (not shown) pushes each of the articles to turn its feed direction from the ball conveyor 1 b toward the main transport line 1 .
- the articles are fed forward by the roller conveyor 1 a along the main transport line 1 .
- the rack unit 7 E of the second lower stage is moved from above to below the conveyor roller plane SR whereby the articles 4 are transferred from the rack unit 7 E to the roller plane SR and thereafter fed back to the main transport line 1 in the same manner as described above.
- the articles 4 on the rack units 7 D to 7 A are sequentially fed back to the main transport line 1 in a similar manner.
- the chains 8 A to 8 D are obliquely extended when the rack units 7 A to 7 F are lifted as shown in FIGS. 1 and 7.
- the oblique extension of chains 8 A to 8 D is effective for restraining the rack units 7 A to 7 F from swing motion in a longitudinal direction (parallel to the loading and unloading direction of the articles 4 to and from the retention towers 2 A, 2 B), thus holding the rack units relatively stable.
- the fixtures 18 a, 18 b are horizontally offset between the vertically adjacent ones of the rack units 7 A to 7 F, permitting the slack chain sections between the adjacent ones of the fixtures 18 a (or 18 b ) to sag in J shape. This is effective for preventing the slack chain sections between the vertically adjacent ones of the rack units 7 A to 7 F from tangling with the fixtures 18 a, 18 b or other parts or with each other. Then on lifting, the rack units 7 a to 7 F can be moved up smoothly without any twining of the chains 8 A to 8 D with the fixtures 18 a, 18 b and any mutual entangling of the chains 8 A to 8 D.
- each retention towers 2 A, 2 B the number of rack units 7 A to 7 F suspended from the chains 8 A to 8 D is increased and the number of the vertically stacked frame units 10 A, 10 B is optionally increased. Since the chains 8 A to 8 D are removably engaged with the fixtures 18 a, 18 b and the upper and lower frame units 10 A and 10 B are removably connected, it is quite easy to install an additional rack unit or units and an additional frame unit.
- the entire tower is an assembly of unit structures in the illustrated embodiment. This is advantageous when the entire tower is to be installed in a containment with a narrow inlet because the respective units can be carried into the containment and assembled at an installation site therein.
- FIG. 8 illustrates another example of the roller conveyor unit 6 and rack units 7 A to 7 F of the retention tower according to the present invention.
- each of the drive and free rollers 11 and 12 of the roller conveyor unit 6 consists of two or more roller segments.
- the roller conveyor unit 6 of FIG. 8 includes two rows of drive and free roller segments.
- One row is a series of drive roller segments 11 A and free roller segments 12 A alternately arranged parallel at a predetermined spacing and the other row is a series of drive roller segments 11 B and free roller segments 12 B alternately arranged parallel at a predetermined spacing.
- the roller segments 11 A, 12 A of one row are supported for rotation by stands 13 a, 13 b and the roller segments 11 B, 12 B of the other row are supported for rotation by stands 13 c, 13 d.
- the one row is laterally spaced from the other row, that is, a spacing is left between the stands 13 b and 13 c.
- Each of the rack units 7 A to 7 F includes a rectangular frame 32 having longitudinal and transverse sides.
- a center support rod 33 A longitudinally straddles between the transverse sides at the center.
- Side support rods 33 B, 33 C longitudinally extend between the transverse sides at a distance S 4 from the center.
- the spacing S 4 between the center support rod 33 A and side support rods 33 B, 33 C of each rack unit 7 A to 7 F is greater than the width W 2 of each roller conveyor unit row (more exactly, the distance between the outer ends of the stands 13 c, 13 d supporting the roller segments).
- the longitudinal sides of the rack unit frame at the outside are provided with fixtures 18 a, 18 b at a longitudinally equidistance from the center of each side for removable engagement with the chains 8 A to 8 D.
- the rack units 7 A to 7 F can be moved up and down by the chains 8 A to 8 D.
- the rack units 7 A to 7 F can be moved below and above the roller plane of the roller conveyor unit 6 without any interference therebetween, that is, without any interference between the support rods 33 A to 33 C of the rack units 7 A to 7 F and the roller segments 11 A, 11 B, 12 A, 12 B and stands 13 a to 13 d of the roller conveyor unit 6 . Then articles can be transferred between the roller plane of the roller conveyor unit 6 and the rack units 7 A to 7 F.
- FIG. 9 shows in plan view another arrangement including a multiplicity of retention towers, for example, five retention towers 2 A to 2 E.
- Each of the retention towers 2 A to 2 E is of the same structure as the previously mentioned retention tower 2 A of FIG. 1.
- the main transport line 1 consists mainly of a roller conveyor 1 a and includes ball conveyors 1 b to 1 f at positions corresponding to the retention towers 2 A to 2 E.
- Each of the ball conveyors 1 b to 1 f is of the same construction as that in the FIG. 1 embodiment capable of turning the feed direction of an article at right angles.
- Junction conveyors 3 A to 3 E are disposed between the ball conveyors 1 b to 1 f and the retention towers 2 A to 2 E, respectively.
- FIG. 9 permits for a first come-first go system. After temporary retention of the articles in the retention towers 2 A to 2 E, those articles which are earlier loaded in the retention towers 2 A to 2 E can be unloaded earlier than the later loaded ones. Exemplary operation is described at several stages shown in FIGS. 10 to 13 .
- the first retention tower 2 A at the farthest side in the feed direction of the main transport line 1 is left empty.
- the second retention tower 2 B is sequentially loaded with articles 4 - 11 to 4 - 16 coming from the main transport line 1 .
- the first come article 4 - 11 is placed on the uppermost stage rack unit and subsequent articles 4 - 12 to 4 - 16 are placed on the lower stage rack units in accordance with their order of arrival.
- the third retention tower 2 C is sequentially loaded with articles 4 - 21 to 4 - 24 as shown in FIG. 11.
- the fourth and fifth retention towers 2 D and 2 E are sequentially loaded with articles in a similar manner.
- the articles 4 - 11 to 4 - 16 in the second retention tower 2 B are once discharged to the main transport line 1 and fed back along a U-shaped route via a part of the main transport line 1 , but to the first retention tower 2 A, which are loaded with the articles 4 - 11 to 4 - 16 .
- the order of stacking the articles in the first retention tower 2 A is reverse to the order of stacking of the articles 4 - 11 to 4 - 16 in the second retention tower 2 B. That is, the articles are loaded in the first retention tower 2 A in the order of from 4 - 16 (top) to 4 - 11 (bottom). Differently stated, the article 4 - 11 which was first loaded in the second retention tower 2 B is located at the lowermost stage in the first retention tower 2 A and the articles which were later loaded in the second retention tower 2 B are located at higher stages in the first retention tower 2 A.
- FIG. 12 shows the final state when the articles 4 - 41 to 4 - 46 have been relocated from the fifth retention tower 2 E to the fourth retention tower 2 D. It will be understood that in each of the retention towers 2 A to 2 D, articles of earlier arrival are located at lower stages. At this point, the fifth retention tower 2 E is empty.
- the articles 4 - 11 to 4 - 16 are unloaded from the first retention tower 2 A to the main transport line 1 as shown in FIG. 13.
- the article 4 - 11 at the lowermost stage of the first retention tower 2 A is first unloaded and thereafter articles 4 - 12 to 4 - 16 are sequentially unloaded in the order of from lower to upper stages.
- the first come article is first discharged and the second and later come articles are discharged in the order of their arrival.
- the articles are similarly discharged sequentially from each of the second to fourth retention towers 2 B to 2 E to the main transport line 1 .
- FIG. 14 there is illustrated a further embodiment of the retention apparatus according to the present invention in which a belt conveyor unit 51 is used as the conveyor unit in combination with rack units 7 A to 7 F.
- the belt conveyor unit 51 includes a pair of belt conveyors 51 A and 51 B arranged parallel such that their upper surfaces are horizontal. The upper belt surfaces cooperatively define a conveying surface.
- Each of the belt conveyors 51 A and 51 B includes an endless belt 53 A, 53 B extended between a drive roller 55 and a drive roller 57 .
- the rollers 55 and 57 are supported by upright support arms 59 .
- the drive roller 55 is coupled to rotational drive means (not shown).
- a bed 61 Disposed between the rollers 55 and 57 and immediately below the upper section of the belt 53 A, 53 B is a bed 61 for supporting the belt upper section horizontally between the rollers 55 and 57 while the belt travels.
- the bed 61 is supported by upright support arms 63 .
- each rack unit 7 A to 7 F are of the same construction as shown in FIG. 8, they need not be described in detail.
- the spacing S 4 between the center support rod 33 A and side support rods 33 B, 33 C of each rack unit 7 A to 7 F is greater than the width W 3 of each belt conveyor 51 A or 51 B.
- the rack units 7 A to 7 F can be moved up and down by the chains 8 A to 8 D.
- the rack units 7 A to 7 F can be moved below and above the conveying surface (upper belt surface) of the belt conveyor unit 51 without any interference therebetween, that is, without any interference between the support rods 33 A to 33 C of the rack units 7 A to 7 F and the belts 53 A and 53 B and support arms 59 , 63 of the belt conveyors 51 A and 51 B of the belt conveyor unit 51 . Then articles can be transferred between the conveying surface of the belt conveyor unit 51 and the rack units 7 A to 7 F.
- suspension means are comprised of flexible strips or chains.
- the rack units can be closely stacked with the suspension chains made loose.
- it is unnecessary to substantially elevate the conveying surface. This allows not only the overall apparatus to be compact, but also the height of the conveying surface to match with the height of the existing roller or belt conveyor line. Then the retention apparatus can be easily applied to the existing conveyor line.
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- Attitude Control For Articles On Conveyors (AREA)
Abstract
An article retention apparatus includes a roller conveyor unit with a plurality of rollers arranged in a horizontal plane and a plurality of ladder-shaped rack units on which articles rest. The roller conveyor unit and rack units are configured such that the rack units may be moved above and below the plane of the conveyor unit rollers without interference between the conveyor unit rollers and the rack units. By lifting the rack units one by one from below the roller plane to emerge above the roller plane, the article is transferred from the roller conveyor unit to the rack unit. The articles are taken aside of a transport system and temporarily retained by the apparatus. A belt conveyor unit can be used instead of the roller conveyor unit.
Description
- 1. Field of the Invention
- This invention relates to a transport system for feeding articles from station to station in a continuous manufacturing line and warehouse. More particularly, it relates to an apparatus and method for temporarily retaining articles midway the transport system.
- 2. Prior Art
- A continuous manufacturing system includes a transport line in the form of a roller conveyor for feeding stock items or intermediate articles from station to station for processing and finally feeding finished articles to a packaging station or a shipping outlet. Midway the transport line, there sometimes arises a need to temporarily retain the stock items, intermediate articles or finished articles for a relatively short time. For example, in a process for manufacturing edible items including bread, cakes, noodles, and paste items, stock powder and suitable agents are mixed. It is often desired to retain such a mixture for some time at room temperature for aging for allowing the material to gain some drape, texture or body. When the material is heated as by baking, it is also desired to allow the material to cool down at room temperature. In such a situation, if one attempts to perform aging or cooling while the articles are being fed along the transport line, the line must be extremely extended. If the articles are removed off the line for aging or cooling purpose, then the process becomes discontinuous, resulting in less efficient operation. It is, therefore, desirable to temporarily retain the articles midway the transport line for aging or cooling. In another situation where there is a difference in processing speed between upstream and downstream stations, it is also desirable to temporarily retain articles midway the transport line between these stations. In a still further situation where articles are continuously fed along a transport line from within a warehouse to a shipping exit, if shipping is intermittent, it is desirable to temporarily retain articles midway the transport line.
- Exemplary apparatus for temporarily retaining and storing articles midway a transport line are disclosed in Japanese Patent Application Kokai No. 225210/1990 and Japanese Utility Model Application Kokai No. 132008/1990 as comprising two multi-stage racks arranged in a transport line in a conveyance direction whereby articles being conveyed are sequentially loaded in the multi-stage racks and fed back to the transport line.
- These apparatus have a satisfactory function of temporarily retaining and storing articles midway the transport line, but require a relatively complex and expensive mechanism for loading articles in the multi-stage racks. Because of the complex mechanism, maintenance is rather difficult.
- Therefore, an object of the present invention is to provide an apparatus of simple, inexpensive construction for temporarily retaining articles midway a transport line and a retaining method using the apparatus.
- An article retention apparatus for use in a transport system according to the present invention includes a conveyor unit having a conveying surface for supporting and conveying an article horizontally. A plurality of rack units each have support means on which an article rests horizontally. Suspension means is provided for suspending the plurality of rack units in a vertically spaced apart relationship while keeping the rack units horizontal. Drive means is provided for moving up and down the suspension means. The conveyor unit and the plurality of rack units are configured such that the rack units may be moved above and below the conveying surface of the conveyor unit without interference between the conveying surface of the conveyor unit and the support means of the rack units.
- Preferably the suspension means includes generally flexible strips or chains and the plurality of rack units are attached to the strips or chains at predetermined intervals.
- In one preferred embodiment, the conveyor unit comprises a roller conveyor unit having a plurality of rollers arranged in a horizontal plane. The rollers at their top define the conveying surface. More preferably, each rack unit is a ladder-shaped rack and the conveyor unit has a plurality of spaced apart rollers, the crosspieces of the ladder-shaped rack and the rollers are alternately arranged in a non-contact interdigitating relationship.
- In another preferred embodiment, the conveyor unit comprises at least one belt conveyor unit having an endless belt. The belt presents a horizontal upper surface defining the conveying surface.
- Using the article retention apparatus, articles are retained midway a transport system by placing the plurality of rack units on standby in a stack at a position below the conveying surface of the conveyor unit. An article is fed from the transport system to the conveyor unit so that the article rests on the conveying surface. The suspension means is lifted upward for moving upward the rack unit of the uppermost stage to emerge above the conveying surface, thereby transferring the article from the conveying surface to the support means of the rack unit. The suspension means is lifted in increment each time when a new article is fed and rested on the conveying surface, for moving upward the rack unit of the next lower stage to emerge above the conveying surface, thereby transferring the article from the conveying surface to the support means of the rack unit. The respective rack units retain the articles at spaced apart positions above the conveying surface for a desired time. Thereafter, the suspension means is moved downward in increment until each of the rack units is moved below the conveying surface of the conveyor unit, thereby transferring the article from the support means of the rack unit to the conveying surface. The articles are then discharged from the conveyor unit to the transport system.
- In the article retaining apparatus of the invention, a plurality of rack units each having support means on which an article rests horizontally can be suspended by suspension members in a vertically spaced apart relationship while the rack units remain horizontal. The conveyor unit and the plurality of rack units are configured such that the rack units may be moved to positions above and below the conveying surface of the conveyor unit (which is the roller plane in the case of a roller conveyor and the belt surface in the case of a belt conveyor) without interference between the conveying surface of the conveyor unit and the support means of the rack units. Therefore, in retaining an article which has been fed to the conveying surface of the conveyor unit from the transport system, the rack unit of the uppermost stage among a plurality of rack units which have been placed on standby at a position below the conveying surface is lifted upward by the suspension members to emerge above the conveying surface whereby the article on the conveying surface is transferred to the support means of the rack unit. That is, the article rests on the rack unit independent of the conveyor unit. Rack units of subsequent lower stages are then sequentially lifted from the standby position to emerge above the conveying surface to thereby sequentially transfer the articles from the conveying surface to the support means of the rack units. The articles are stored on the respective rack units which are lifted above the conveyor unit.
- Transport of the articles which have been stored as mentioned above is restarted by moving down the suspension members to cause the rack units to descend from above to below the conveying surface of the roller conveyor unit. On passage of each rack unit across the conveying surface, the article on the rack unit is left on the conveying surface and then horizontally fed by the conveyor unit along its the conveying surface. By sequentially moving the rack units below the conveying surface, the articles are fed from the rack units back to the conveying surface of the conveyor unit and then horizontally fed until they are fed back to the transport system.
- In the preferred embodiment wherein the suspension members are chains or strips which are flexible as a whole, the chains can flex between the rack units, which allows the rack units, when they are on standby below the conveying surface, to be closely stacked on a stationary surface below the conveying surface.
- FIG. 1 is a perspective view showing an overall transport system having incorporated therein a temporary retention apparatus according to one embodiment of the present invention.
- FIG. 2 is a perspective view showing a roller conveyor unit and rack units included in the exemplary retention tower shown in FIG. 1.
- FIG. 3 is a perspective view showing a drive unit, suspension chains and rack units included in the exemplary retention tower shown in FIG. 1.
- FIG. 4 is a side elevation of rack units in a standby state for illustrating the operation of the retention tower of FIG. 1.
- FIG. 5 is a side elevation similar to FIG. 4, showing the state that articles are being transferred from the roller conveyor to the rack unit of the uppermost stage.
- FIG. 6 is a side elevation similar to FIG. 4, showing the state immediately after the articles have been transferred from the roller conveyor to the rack unit of the uppermost stage.
- FIG. 7 is a side elevation similar to FIG. 4, showing the state that all the rack units of one retention tower are loaded with articles.
- FIG. 8 is a perspective view showing a roller conveyor unit and rack units according to another embodiment.
- FIG. 9 is a plan view of another arrangement of retention towers relative to the main transport line, which is adapted for a first come, first go system.
- FIG. 10 is a schematic elevation of the arrangement of FIG. 9 showing the initial stage at the start of loading articles.
- FIG. 11 is a schematic elevation similar to FIG. 10, showing an intermediate stage.
- FIG. 12 is a schematic elevation similar to FIG. 10, showing an final stage when the retention towers are fully loaded with articles.
- FIG. 13 is a schematic elevation similar to FIG. 10, showing a next stage at the start of unloading articles.
- FIG. 14 is a perspective view showing a belt conveyor unit and rack units according to a further embodiment of the present invention.
- FIG. 1 illustrates an overall transport system having incorporated therein a temporary retention apparatus according to one embodiment of the present invention. FIGS. 2 and 3 illustrate major components of the retention apparatus. In this embodiment, a roller conveyor is used as a conveyor unit of the retention apparatus.
- In FIG. 1, the transport system includes a
main transport line 1 in the form of aconventional roller conveyor 1 a for feedingarticles 4 in an arrow direction. Disposed perpendicular to themain transport line 1 at a suitable position are a pair of parallel arrangedtemporary retention towers junction conveyors main transport line 1 and the retention towers 2A and 2B. A pair ofball conveyors 1 b and 1 c are disposed in the sections of themain transport line 1 connected to thejunction conveyors article 4 on themain transport line 1 to be fed in both a main feed direction along themain transport line 1 and a transverse direction toward the retention towers 2A and 2B. - The retention towers2A and 2B are described in detail. Since these two
retention towers retention towers roller conveyor unit 6, a plurality of (six in the illustrated embodiment)rack units 7A to 7F, foursuspension members 8A to 8D, a drive unit 8, and a pair of upper and lowerstage frame units 10A and 10B for supporting these components. - Each of the
frame units 10A and 10B is constructed from channel bars into a generally rectangular shape. The upper frame unit 10A is stacked on thelower frame unit 10B, and they are removably joined by means of bolts (not shown) into an assembly. Although a two stage stack is illustrated herein, a vertical stack of more than two stages is also possible as will be described later and, of course, a single stage frame unit is acceptable. - Referring to FIG. 2, the
roller conveyor unit 6 includes a plurality ofdrive rollers 11 adapted to be driven in both forward and backward directions, a plurality offree rollers 12 adapted to freely rotate, the drive andfree rollers vertical stands 13 anchored to arectangular base 14. Each of the drive andfree rollers stands 13 for rotation. The rollers including drive and free rollers are arranged at a pitch P2 and has an outer diameter R. The rollers are parallel arranged in a horizontal plane which is referred to as a roller plane, hereinafter (exactly speaking, the roller plane is defined as a plane SR passing the top of the respective rollers as shown in FIG. 4). Theroller conveyor unit 6 is accommodated within the lowerstage frame unit 10B of the frame unit assembly, with the base 14 being removably secured to the bottom of theframe unit 10B by means of bolts (not shown). Thedrive rollers 11 each have a drive motor built therein in the illustrated embodiment although an external drive motor may be coupled to thedrive rollers 11 through a suitable transmission mechanism. - Each of the
rack units 7A to 7F is of a generally ladder shape including a pair of parallel long side bars 15 a, 15 b and a plurality of spaced apartshort crosspieces 16 spanning between thebars crosspieces 16 cooperatively form a comb-shaped support means or surface 17 on which an article rests. The plurality ofcrosspieces 16 are arranged at a pitch P1 which is equal to the pitch P2 between theconveyor rollers adjacent crosspieces 16 is greater than the outer diameter R of theconveyor rollers stands 13 supporting the rollers). When therack units 7A to 7F are vertically moved above and below the roller plane (a plane passing the top of the respective rollers, also referred to as a conveying surface) with their attitude kept horizontal, thecrosspieces 16 of therack units 7A to 7F (defining the support means 17) pass between therollers roller conveyor unit 6 and the side bars 15 a, 15 b of therack units 7A to 7F move outside thestands 13 of theroller conveyor unit 6 so that no interference occurs between therack unit crosspieces 16 and theconveyor rollers - The plurality of rack units7 a to 7F are suspended by a
drive unit 9 through suspension means including fourflexible chains 8A to 8D as shown in FIG. 3. More particularly, the rack unit side bars 15 a, 15 b at the outside are provided withfixtures fixtures chains 8A to 8D are suspended from the four corners of thedrive unit 9 so that they may be moved up and down. Thechains 8A to 8D are removably engaged to thefixtures rack units 7A to 7F. The positions of engagement of thefixtures rack units 7A to 7F with thechains 8A to 8D are at a predetermined spacing along the length of eachchain 8A to 8D. The spacing S3 between the left andright fixtures rack units 7A to 7D is reduced as one goes to the lower stage rack unit so that when all therack units 7A to 7 f are suspended, thechains 8A to 8D are obliquely extended. It is seen from FIG. 1 that a pair ofchains - The
drive unit 9 is removably secured to the top of the upper frame unit 10A of the frame unit assembly by means of bolts (not shown). As shown in FIG. 3, thedrive unit 9 includes arectangular base frame 20, pillow blocks 21A to 21D disposed near the four corners of theframe 20, rotatingshafts sprockets 23 a to 23 d mounted on theshafts chains 8A to 8D for suspending thechains 8A to 8D from thedrive unit 9.Relay sprockets 24 a, 24 b are mounted on theshaft 22 b and adapted to be in meshing engagement with thechains chains 8A to 8D are extended from thesprockets weight 25. Theshaft 22 b is adapted to be driven for rotation by arotational drive source 27 capable of forward and backward rotation in the form of a geared motor fixedly secured to thebase frame 20, via arotation transmission mechanism 28 such as a belt. - Referring to FIGS. 1 and 4 to7, the operation of the
temporary retention towers - The
article 4 to be fed and retained is horizontally fed by themain transport line 1 consisting mainly of theroller conveyor 1 a from the left upper position toward the right lower position in FIG. 1. Thearticle 4 is a generally rectangular container or pallet in the illustrated embodiment and actually, stock items, intermediate products or final products are placed in the container, but are omitted for the sake of convenience in the figures. Depending on their shape, the stock items or products can be directly placed on the roller conveyor without using the container. - When each
article 4 is fed to theball conveyor 1 b by themain transport line 1, a pusher (not shown) pushes thearticle 4 to turn its feed direction at a right angle. Thearticles 4 are then fed to theretention tower 2A through thejunction conveyor 3A and placed on therollers roller conveyor unit 6, that is, on the roller plane SR. Thearticles 4 resting on the roller plane (or conveying surface) SR are shown in FIG. 4. The initial state shown in FIG. 4 is a standby state wherein thechains 8A to 8D are extended to the maximum length and therack units 7A to 7F are vertically closely overlaid in a stack below theconveyor rollers chains 8A to 8D each between two adjacent ones of therack units 7A to 7F sag under gravity in a J bent shape. - Once the
articles 4 rest on the roller plane SR, therotational drive source 27 such as a geared motor of thedrive unit 9 is actuated. The rotational drive force is transmitted to theshaft 22 b through thetransmission mechanism 28 whereby thesprockets chains 8A to 8D. Therack unit 7A of the uppermost stage is then lifted upward with its attitude kept horizontal as shown in FIG. 5. When therack unit 7A moves upward past the roller plane SR, thearticles 4 resting on the roller plane SR are picked up by the plurality ofcrosspieces 16 of therack unit 7A serving as the support means 17. That is, thearticles 4 are transferred from therollers roller conveyor unit 6 to therack unit 7A. This state is shown in FIG. 6. - Then the lifting of the
chains 8A to 8D or thedrive source 27 is interrupted. During this quiescent period, a next set ofarticles 4 are fed from themain transport line 1 to theroller conveyor unit 6 in the same manner as described above. Once thearticles 4 have rested on the roller plane SR, therotational drive source 27 of thedrive unit 9 is actuated again to pull up thechains 8A to 8D whereby therack unit 7B of the second upper stage is lifted from below to above the roller plane SR. Then thearticles 4 on the roller plane SR are transferred to therack unit 7B. - Thereafter, the
rack units 7C to 7F of subsequent stages are sequentially lifted in the same manner as described above whereby thearticles 4 are transferred to therack units 7C to 7F. When thearticles 4 have been transferred to therack unit 7F of the lowermost stage, all therack units 7A to 7F are above the roller plane SR as shown in FIG. 7. Although lifting of therack units 7A to 7F by thechains 8A to 8D is intermittent in this embodiment, therack units 7A to 7F can be continuously lifted if theroller conveyor unit 6 can be loaded with a set ofarticles 4 in appropriate timing or in a synchronous manner. - When one
retention tower 2A is fully loaded with articles in this way,subsequent articles 4 are fed from themain transport line 1 to theother retention tower 2B via ball conveyor 1 c andjunction conveyor 3B whereupon therack units 7A to 7F of theother retention tower 2B are sequentially loaded with articles in the same manner as described above. - After the articles are retained and stored for a predetermined time, the articles are fed back to the main transport line from the retention towers2A and 2B by repeating the above-mentioned operation in a reverse manner. More particularly, the
rotational drive source 27 of oneretention tower 2A is actuated in the reverse direction to extend downward thechains 8A to 8D a predetermined distance. Therack unit 7F of the lowermost stage is moved from above to below the roller plane SR of theroller conveyor unit 6 whereby thearticles 4 on the support means 17 (crosspieces 16) of therack unit 7F are left on the roller plane SR. Then thedrive rollers 11 of theroller conveyor unit 6 are driven in the reverse direction to feed thearticles 4 toward thejunction conveyor 3A along the roller plane SR. Thearticles 4 are discharged from theretention tower 2A to thejunction conveyor 3A by which they are fed to theball conveyor 1 b in themain transport line 1. A pusher (not shown) pushes each of the articles to turn its feed direction from theball conveyor 1 b toward themain transport line 1. The articles are fed forward by theroller conveyor 1 a along themain transport line 1. Next, therack unit 7E of the second lower stage is moved from above to below the conveyor roller plane SR whereby thearticles 4 are transferred from therack unit 7E to the roller plane SR and thereafter fed back to themain transport line 1 in the same manner as described above. Thereafter, thearticles 4 on therack units 7D to 7A are sequentially fed back to themain transport line 1 in a similar manner. - Since the spacing S3 between the
fixtures rack units 7A to 7F is reduced from the upper stage to the lower stage rack unit, thechains 8A to 8D are obliquely extended when therack units 7A to 7F are lifted as shown in FIGS. 1 and 7. As compared with parallel or vertical extension, the oblique extension ofchains 8A to 8D is effective for restraining therack units 7A to 7F from swing motion in a longitudinal direction (parallel to the loading and unloading direction of thearticles 4 to and from the retention towers 2A, 2B), thus holding the rack units relatively stable. When therack units 7A to 7F are stacked below the roller plane SR, thefixtures rack units 7A to 7F, permitting the slack chain sections between the adjacent ones of thefixtures 18 a (or 18 b) to sag in J shape. This is effective for preventing the slack chain sections between the vertically adjacent ones of therack units 7A to 7F from tangling with thefixtures chains 8A to 8D with thefixtures chains 8A to 8D. - If it is desired to increase the capacity of each retention towers2A, 2B to accommodate articles in the illustrated embodiment, the number of
rack units 7A to 7F suspended from thechains 8A to 8D is increased and the number of the vertically stackedframe units 10A, 10B is optionally increased. Since thechains 8A to 8D are removably engaged with thefixtures lower frame units 10A and 10B are removably connected, it is quite easy to install an additional rack unit or units and an additional frame unit. The entire tower is an assembly of unit structures in the illustrated embodiment. This is advantageous when the entire tower is to be installed in a containment with a narrow inlet because the respective units can be carried into the containment and assembled at an installation site therein. - FIG. 8 illustrates another example of the
roller conveyor unit 6 andrack units 7A to 7F of the retention tower according to the present invention. - In FIG. 8, each of the drive and
free rollers roller conveyor unit 6 consists of two or more roller segments. Theroller conveyor unit 6 of FIG. 8 includes two rows of drive and free roller segments. One row is a series ofdrive roller segments 11A andfree roller segments 12A alternately arranged parallel at a predetermined spacing and the other row is a series ofdrive roller segments 11B andfree roller segments 12B alternately arranged parallel at a predetermined spacing. Theroller segments roller segments stands - Each of the
rack units 7A to 7F includes arectangular frame 32 having longitudinal and transverse sides. Acenter support rod 33A longitudinally straddles between the transverse sides at the center.Side support rods center support rod 33A andside support rods rack unit 7A to 7F is greater than the width W2 of each roller conveyor unit row (more exactly, the distance between the outer ends of thestands fixtures chains 8A to 8D. - Also in the example shown in FIG. 8, the
rack units 7A to 7F can be moved up and down by thechains 8A to 8D. Therack units 7A to 7F can be moved below and above the roller plane of theroller conveyor unit 6 without any interference therebetween, that is, without any interference between thesupport rods 33A to 33C of therack units 7A to 7F and theroller segments roller conveyor unit 6. Then articles can be transferred between the roller plane of theroller conveyor unit 6 and therack units 7A to 7F. - FIG. 9 shows in plan view another arrangement including a multiplicity of retention towers, for example, five
retention towers 2A to 2E. Each of the retention towers 2A to 2E is of the same structure as the previously mentionedretention tower 2A of FIG. 1. - In FIG. 9, the
main transport line 1 consists mainly of aroller conveyor 1 a and includesball conveyors 1 b to 1 f at positions corresponding to the retention towers 2A to 2E. Each of theball conveyors 1 b to 1 f is of the same construction as that in the FIG. 1 embodiment capable of turning the feed direction of an article at right angles.Junction conveyors 3A to 3E are disposed between theball conveyors 1 b to 1 f and the retention towers 2A to 2E, respectively. - The arrangement shown in FIG. 9 permits for a first come-first go system. After temporary retention of the articles in the retention towers2A to 2E, those articles which are earlier loaded in the retention towers 2A to 2E can be unloaded earlier than the later loaded ones. Exemplary operation is described at several stages shown in FIGS. 10 to 13.
- First referring to FIG. 10, the
first retention tower 2A at the farthest side in the feed direction of themain transport line 1 is left empty. Thesecond retention tower 2B is sequentially loaded with articles 4-11 to 4-16 coming from themain transport line 1. The first come article 4-11 is placed on the uppermost stage rack unit and subsequent articles 4-12 to 4-16 are placed on the lower stage rack units in accordance with their order of arrival. - When the
second retention tower 2B is fully loaded, thethird retention tower 2C is sequentially loaded with articles 4-21 to 4-24 as shown in FIG. 11. Thereafter, the fourth and fifth retention towers 2D and 2E are sequentially loaded with articles in a similar manner. On the other hand, after thesecond retention tower 2B has been fully loaded, as also shown in FIG. 11, the articles 4-11 to 4-16 in thesecond retention tower 2B are once discharged to themain transport line 1 and fed back along a U-shaped route via a part of themain transport line 1, but to thefirst retention tower 2A, which are loaded with the articles 4-11 to 4-16. At this point, the order of stacking the articles in thefirst retention tower 2A is reverse to the order of stacking of the articles 4-11 to 4-16 in thesecond retention tower 2B. That is, the articles are loaded in thefirst retention tower 2A in the order of from 4-16 (top) to 4-11 (bottom). Differently stated, the article 4-11 which was first loaded in thesecond retention tower 2B is located at the lowermost stage in thefirst retention tower 2A and the articles which were later loaded in thesecond retention tower 2B are located at higher stages in thefirst retention tower 2A. - After all the articles4-11 to 4-16 are relocated from the
second retention tower 2B to thefirst retention tower 2A in this way, the articles in thethird retention tower 2C are once discharged and relocated to thesecond retention tower 2B in a similar manner. Thereafter the same procedure is repeated. FIG. 12 shows the final state when the articles 4-41 to 4-46 have been relocated from thefifth retention tower 2E to thefourth retention tower 2D. It will be understood that in each of the retention towers 2A to 2D, articles of earlier arrival are located at lower stages. At this point, thefifth retention tower 2E is empty. - At the point of time when a predetermined time has passed since the start of loading of articles, that is, when at least the first come article has finished aging or heat release, the articles4-11 to 4-16 are unloaded from the
first retention tower 2A to themain transport line 1 as shown in FIG. 13. At this point, the article 4-11 at the lowermost stage of thefirst retention tower 2A is first unloaded and thereafter articles 4-12 to 4-16 are sequentially unloaded in the order of from lower to upper stages. This means that from theretention tower 2A, the first come article is first discharged and the second and later come articles are discharged in the order of their arrival. Thereafter, the articles are similarly discharged sequentially from each of the second to fourth retention towers 2B to 2E to themain transport line 1. - In this way, articles are sequentially discharged from the retention towers2A to 2E to the
main transport line 1 in the order of their arrival or loading. That is, the first come article goes out first. Then all the articles reside in the tower for an equal duration. This arrangement is best suited where an exact residence time is strictly required. - It will be understood that even when a plurality of articles rest on each of
rack units 7A to 7F (see FIG. 1) within each of the retention towers 2A to 2E, the configuration of FIGS. 10 to 13 permits the first come, first go system to be also applied to the plurality of articles in the single rack unit. - Referring to FIG. 14, there is illustrated a further embodiment of the retention apparatus according to the present invention in which a
belt conveyor unit 51 is used as the conveyor unit in combination withrack units 7A to 7F. Thebelt conveyor unit 51 includes a pair ofbelt conveyors belt conveyors endless belt drive roller 55 and adrive roller 57. Therollers upright support arms 59. Thedrive roller 55 is coupled to rotational drive means (not shown). Disposed between therollers belt bed 61 for supporting the belt upper section horizontally between therollers bed 61 is supported byupright support arms 63. - Since the
rack units 7A to 7F are of the same construction as shown in FIG. 8, they need not be described in detail. The spacing S4 between thecenter support rod 33A andside support rods rack unit 7A to 7F is greater than the width W3 of eachbelt conveyor - Also in the embodiment shown in FIG. 14, the
rack units 7A to 7F can be moved up and down by thechains 8A to 8D. Therack units 7A to 7F can be moved below and above the conveying surface (upper belt surface) of thebelt conveyor unit 51 without any interference therebetween, that is, without any interference between thesupport rods 33A to 33C of therack units 7A to 7F and thebelts arms belt conveyors belt conveyor unit 51. Then articles can be transferred between the conveying surface of thebelt conveyor unit 51 and therack units 7A to 7F. - There has been described an article retention apparatus combined with a transport system according to the present invention. By lifting the rack units from below to above the conveying surface (roller plane or belt surface) of the roller or belt conveyor unit, articles are transferred from the conveying surface to the rack units. Simply by holding the rack units suspended above the conveying surface, the articles are retained and stored in the retention apparatus. By lowering the rack units from above to below the conveying surface of the conveyor unit, articles are transferred from the rack units to the conveyor unit and fed back to the main transport line. The apparatus has many benefits including simple construction, low cost, a smaller number of drives, and ease of maintenance.
- The preferred embodiment wherein the suspension means are comprised of flexible strips or chains is advantageous in that when a plurality of rack units are in a standby position below the conveying surface of the conveyor unit, the rack units can be closely stacked with the suspension chains made loose. When it is desired to use a larger number of rack units in order to increase the accommodation capacity, it is unnecessary to substantially elevate the conveying surface. This allows not only the overall apparatus to be compact, but also the height of the conveying surface to match with the height of the existing roller or belt conveyor line. Then the retention apparatus can be easily applied to the existing conveyor line.
- Although some preferred embodiments have been described, many modifications and variations may be made thereto in the light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described.
Claims (5)
1. An article retention apparatus for use in a transport system, comprising
a conveyor unit including a conveying surface for supporting and conveying an article horizontally,
a plurality of rack units each having support means on which the article rests horizontally,
suspension means for suspending the plurality of rack units in a vertically spaced apart relationship while keeping the rack units horizontal, and
drive means for moving up and down the suspension means,
wherein said conveyor unit and said plurality of rack units are configured such that the rack units may be moved above and below the conveying surface of said conveyor unit without interference between the conveying surface of said conveyor unit and the support means of said rack units.
2. The article retention apparatus of wherein said suspension means includes generally flexible strips and said plurality of rack units are attached to the strips at predetermined intervals.
claim 1
3. The article retention apparatus of wherein said conveyor unit comprises a roller conveyor unit having a plurality of rollers arranged in a horizontal plane, the rollers at their top defining the conveying surface.
claim 1
4. The article retention apparatus of wherein said conveyor unit comprises at least one belt conveyor unit having an endless belt, the belt presenting a horizontal upper surface defining the conveying surface.
claim 1
5. A method for retaining articles midway a transport system using the article retention apparatus of ,
claim 1
placing said plurality of rack units on standby in a stack at a position below the conveying surface of the conveyor unit,
feeding an article from the transport system to the conveyor unit so that the article rests on the conveying surface,
lifting upward the suspension means for moving upward the rack unit of the uppermost stage to emerge above the conveying surface, thereby transferring the article from the conveying surface to the support means of the rack unit,
sequentially lifting upward the suspension means each time when a new article is fed and rested on the conveying surface, for moving upward the rack unit of the next lower stage to emerge above the conveying surface, thereby transferring the article from the conveying surface of the conveyor unit to the support means of the rack unit,
permitting the respective rack units to retain the articles at spaced apart positions above the conveying surface,
thereafter, sequentially moving downward the suspension means until each of the rack units descends below the conveying surface of the conveyor unit, thereby transferring the article from the support means of the rack unit back to the conveying surface, and
discharging the article from the conveyor unit to the transport system.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
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US09/874,244 US20010025765A1 (en) | 1992-12-10 | 2001-06-06 | Apparatus and method for temporarily retaining articles midway a transport system |
US10/067,861 US20020088686A1 (en) | 1992-12-10 | 2002-02-08 | Apparatus and method for temporarily retaining articles midway a transport system |
US10/281,114 US6609606B2 (en) | 1992-12-10 | 2002-10-28 | Apparatus and method for temporarily retaining articles midway a transport system |
Applications Claiming Priority (8)
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JP4-352668 | 1992-12-10 | ||
JP4352668A JPH06171715A (en) | 1992-12-10 | 1992-12-10 | Device and method for storing article in transporting facility |
US16180293A | 1993-12-06 | 1993-12-06 | |
US36516294A | 1994-12-28 | 1994-12-28 | |
US52524395A | 1995-09-08 | 1995-09-08 | |
US70393196A | 1996-08-28 | 1996-08-28 | |
US95074997A | 1997-10-15 | 1997-10-15 | |
US09/874,244 US20010025765A1 (en) | 1992-12-10 | 2001-06-06 | Apparatus and method for temporarily retaining articles midway a transport system |
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US95074997A Continuation | 1992-12-10 | 1997-10-15 |
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US10/067,861 Continuation US20020088686A1 (en) | 1992-12-10 | 2002-02-08 | Apparatus and method for temporarily retaining articles midway a transport system |
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US20010025765A1 true US20010025765A1 (en) | 2001-10-04 |
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US09/874,244 Abandoned US20010025765A1 (en) | 1992-12-10 | 2001-06-06 | Apparatus and method for temporarily retaining articles midway a transport system |
US10/067,861 Abandoned US20020088686A1 (en) | 1992-12-10 | 2002-02-08 | Apparatus and method for temporarily retaining articles midway a transport system |
US10/281,114 Expired - Fee Related US6609606B2 (en) | 1992-12-10 | 2002-10-28 | Apparatus and method for temporarily retaining articles midway a transport system |
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US10/067,861 Abandoned US20020088686A1 (en) | 1992-12-10 | 2002-02-08 | Apparatus and method for temporarily retaining articles midway a transport system |
US10/281,114 Expired - Fee Related US6609606B2 (en) | 1992-12-10 | 2002-10-28 | Apparatus and method for temporarily retaining articles midway a transport system |
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US (3) | US20010025765A1 (en) |
EP (1) | EP0601828B1 (en) |
JP (1) | JPH06171715A (en) |
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Cited By (17)
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US20050045574A1 (en) * | 2003-09-03 | 2005-03-03 | Stingel Frederick J. | Container storage and dispensing apparatus with adjustable container position |
US20070020067A1 (en) * | 2005-07-22 | 2007-01-25 | Au Optronics Corporation | Storage cassette for large panel glass substrates |
US20080217268A1 (en) * | 2006-11-15 | 2008-09-11 | Daifuku Co., Ltd. | Frame system for an article storage apparatus |
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- 1993-12-07 EP EP93309811A patent/EP0601828B1/en not_active Expired - Lifetime
- 1993-12-08 AU AU52241/93A patent/AU5224193A/en not_active Abandoned
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CN111071684A (en) * | 2020-01-02 | 2020-04-28 | 无锡职业技术学院 | Stereoscopic warehouse ex-warehouse lifting device |
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US20230249908A1 (en) * | 2020-07-09 | 2023-08-10 | Conteyor International Nv | Storage rack with a vertically movable compartment system |
CN113173411A (en) * | 2021-03-25 | 2021-07-27 | 福州新福兴浮法玻璃有限公司 | Connecting device for float glass production line and coating production line and control method thereof |
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Also Published As
Publication number | Publication date |
---|---|
EP0601828A3 (en) | 1994-12-07 |
JPH06171715A (en) | 1994-06-21 |
AU5224193A (en) | 1994-06-23 |
EP0601828A2 (en) | 1994-06-15 |
EP0601828B1 (en) | 1998-06-10 |
US20030051975A1 (en) | 2003-03-20 |
US20020088686A1 (en) | 2002-07-11 |
US6609606B2 (en) | 2003-08-26 |
DE69319075D1 (en) | 1998-07-16 |
DE69319075T2 (en) | 1999-02-25 |
AU2684597A (en) | 1997-09-18 |
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