Transporter / sorter and transport box |
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申请号 | EP07021196.6 | 申请日 | 2005-06-29 | 公开(公告)号 | EP1911532B1 | 公开(公告)日 | 2012-02-29 |
申请人 | NEC Corporation; | 发明人 | Yoshitani, Kazuhito; | ||||
摘要 | |||||||
权利要求 | |||||||
说明书全文 | The present invention relates to a transporter/sorter and a transporter box, more particularly, to a transporter/sorter for transporting and sorting transport articles as large-size home-distributed envelopes and a transport box to be used with such transporter. Up to date, documents, magazines, books, CD cases etc., are sent as home-distributed mails and post mails. The documents, magazines, etc. that are sent are accommodated in large vinyl or paper envelopes or cardboard or thick paper cases for home distribution or post mails. Sometimes, magazines or the like are sent without being accommodated in envelopes or cases but by merely bound with strips or in the bear state. Large-size envelopes and cases as noted above (including post cards and small envelopes) are sorted by special transporters/sorters. A prior art transporter/sorter (for transporting and sorting post cards or small envelopes) will now be described with reference to drawings. As shown in The transport wagons 530 are coupled for revolution via joints 5131 inserted in the perpendicular direction (see Fig. 23). The transport wagons 530 and the joints 5131 constitute a chain conveyor 560. With rotation of sprockets (not shown) that are provided on the chain conveyor 560, the transport wagons 530 are caused to undergo excursion inside the guide rail 550. The transport boxes 520 have a shape of a substantially rectangular box. Each transport box 520 is provided, on a side face of the outer side of the guide rail 550, with an accommodating port (not shown) , through which a transport article 5101 is fed (i.e., thrown) and, on the bottom, with a rotary bottom lid (not shown into) for discharging the transport article 5101. The transport boxes 520 are hung from alternate ones of the coupled transport wagons 530 (see The frame 510 includes a plurality of section frames 5111 and a feeder frame 5112 (see The section frames 5111 each has a plurality of stackers 5113, in which transport articles 5101 discharged from the transport boxes 520 are stacked. The feeder frame 5112 has a feeder 513 for feeding transport articles 5101 via the belt to the transport box 520. Generally, the stackers 5113 and the feeder 513 are disposed in a straight transport part of the transport box 520. The operation of the transporter/sorter 500 will now be described. Transport articles 5101 (i.e. postal matter, mainly post cards and small envelopes) are transported one by one from the feeder frame 5112 via the belt 514 to the feeder 513. Then, each transport article 5101 is thrown into a predetermined transport box 520 by the feeder 513. The transport boxes 520 are transported at a constant speed by a drive means (not shown) for moving the chain conveyor 560. In the transporter/sorter 500, as shown in Fig. 23, the transport boxers 520 are spaced apart at a constant pitch (pitch L3 = pitch L4). That is, the pitch of the transport boxes 520 are set to L4, at which the inner halves of adjacent transport boxes 520 do not interfere (i.e., are not in contact) with one another in the curved portions of the guide rail 550. The transport articles 5101 which are transported in each transport box 520 are discharged into predetermined stackers 5113 in the section frames 5111 for different destinations, respectively. In other words, the transporter/sorter 500 sorts out the transport articles 5101 during transport thereof for different destinations, respectively. Another example of a conventional transporter/sorter will be described with reference to Figs. 25 - 27. In The frame 5110 comprises a plurality of section frames 5111 and four feeder frames 5112. The section frames 5111 are provided with a plurality of stackers 5113 for stacking transport articles 5101 discharged from the transport boxes 520. On the other hand, the feeder frames 5112 comprise feeder frames 512 for feeding stacked transport articles 5101 one by one, belts 514 for transporting the fed transport articles 5101, and feeding means 513 for transporting the fed transport articles 5101 to the transport boxes 520. It is to be noted that the stackers 5113 and the feeding means 513 are generally disposed at the straight transport portions for the transport boxes 520. The transport articles 5101 may be post cards, documents, magazines, books, CD cases, etc., but not limited thereto. In Additionally, the transport box 520 is depending from the guide rail 550 by way of inter-coupled transport wagons (not shown). The transport boxes 520 are supported onto the guide rail 550 in such a manner that the center of gravity of each transport box 520 is immediately below the guide rail 550 as seen from the top. Each of the transport boxes 520 is formed with a feeding port 5123 on the side face in the outer direction through which the transport articles may be thrown. Each of the accommodating chambers 5121 is made to have a constant width W in the transport direction over the entire area as seen from the front. Accordingly, the width in the transport direction of the feeding space 5124 which is used when the transport articles 5101 are fed is also W (constant) over the entire area as seen from the front. The transport boxes 520 are formed with a revolving bottom lid 518 at the bottom of each accommodating chamber 5121 as discharging means for the transport articles 5101. The bottom lid 518 is pivotally supported at both ends in such a manner that the bottom lid 518 is in the open state (see the solid arrow in Also, the engagement plate 583 is coupled to an abutment plate 584 which is pivotally supported in a biased in the closed state (see the dotted arrow in The bottom lid 518 is arranged so that, when the transport box 520 is transported over a predetermined stacker 5113, a pin 586 of a solenoid 585 (see Moreover, when the transport box 520 passes the last stacker 5113, the bottom lid 518 in the open state is in contact with a bottom plate (not shown) disposed at the lower portion of the transport box 520, thereby revolving the bottom lid 518 in the closing direction. When the bottom lid 518 is closed, the notch 582 engages with the engagement plate 583 and the bottom lid 518 remains in the closed state. It is to be noted, however, that the discharging means is not limited to the above configuration comprising the bottom lid 518. As shown in Now, the operation of the transporter/sorter 500 as sown in The transporter/sorter 500 transports the transport articles 5101 which are fed by the belts 514 of the feeder 512 one by one to the feeding means 513. Then, the feeding means 513 feeds the transport articles 5101 to the predetermined accommodating chamber 5121. It is to be noted that, in general, the most upstream (or a first) feeding means 513 feeds the transport articles 5101 to the leading (or a first) accommodating chamber 5121 in the transport direction. Then, the subsequently downstream (second, third and fourth) feeding means 513 feed the transport articles 5101 to the sequential (second, third and fourth) accommodating chambers 5121. In Then, in Upon completion of the feeding, the feeding means 513 decreases the swinging speed and stops. Subsequently, the feeding means 513 swings in the opposite (returning) direction and stops to resume the ready condition in preparation for the next feeding as shown in It is to be noted that the transport articles 5101 are thrown into the feeding spaces 5124 from the feeding ports 5123 in substantially horizontal direction and fall downward by colliding with inner side plates 5125. And the fallen transport articles 5101 are clamped by the outer side plate 5126 (see Then, the transporter/sorter 500 transport the transport boxes 520 in which the transport articles 5101 are fed along the guide rail 550 to the section frames 5111 by driving means (not shown). And the transporter/sorter 500 opens the bottom lids 518 for discharging the transport articles 5101 into the respective stackers 5113 depending on their destinations. That is, the transporter/sorter 500 can classify the transport articles 5101 to their destinations while being transported. Incidentally, let the width of each accommodating chamber 5121 in the transport direction be W and the thickness of the transport article 5101 in the transport direction be t as shown in Fig. 26b, the gap Δ of the feeding spaces 5124 in the transport direction is Δ = W-t (mm). Transport density of the transport boxes 520 is given by t/W (%) on the assumption that the thickness of the partitioning plates 5122 is negligible small. Furthermore, the feeding time required for stably feeding the transport articles 5101 is proportional to Δ and counter proportional to the transport speed v of the transport boxes 520. As understood from the above relationship, if the transport density is increased in order to improve the transport capacity of the transport boxes 520, Δ decreases and thus reducing the feeding time, thereby decreasing feeding stability. Similarly, if the transport speed v is increased in order to improve the processing capacity of the transporter/sorter 500, Δ decreases and thus reducing the feeding time, thereby decreasing feeding stability. On the other hand, if the feeding speed of the feeding means 513 is made constant, since the feeding time increases as the length of the transport article 5101 in the feeding direction becomes longer, it is necessary to increase the gap Δ in the transport direction or decrease the transport speed v. Since the transporter/sorter 500 can improve processing capacity by increasing the transport density, various techniques have been developed. Japanese patent publication no. In this transporter/sorter, a transport box pitch varying mechanism for varying the pitch of transport boxes is provided at the boundaries between straight and curved portions of an endless loop path. The density of mounting of transport boxes in the straight portions thus can be increased, and the transfer speed in the straight portions can be held at a minimum necessary value. With this arrangement, without reduction of the transport article processing capacity, it is possible to ensure stable operations of feeding and discharging transport articles. Although the variable pitch type transporter/sorter could increase the processing capacity by realizing higher transport density at the straight portions, the market demands are to provide further improvement on the processing capacity. However, in the high density transport, the adjacent transport boxes are almost in contact with one another. In order to further increase the processing capacity of the transporter/sorter, it is required to reduce the gap Δ of the accommodating chambers in the transport direction or to increase the transport speed v of the transport boxes. However, the prior art transporters/sorters as described hereinabove have the following problems. In the prior art transporter/sorter 500 shown in Also, in the transporter/sorter 500 the number of transport articles 5101 processed per unit time depends on the transfer speed of the transport wagons 530. That is, the processing number can be increased depending on the transport speed. However, the transporter/sorter 500 has a drawback that increasing the transport speed gives rise to unstable operations of feeding (i.e., throwing) and discharging transport articles 5101, executed with respect to the transport boxes 520 being transferred, thus leading to reliability deterioration in the operation of processing the transport articles 5101. As a further drawback of the transporter/sorter 500, reducing the transfer speed to make stable the operations of feeding and discharging the transport articles 5101, reduces efficiency of mounting the transport boxes 520 in the straight portions, thus reducing the unit time process capacity of the transporter/sorter 500. The transporter/sorter as shown in Particularly, if the transport articles become larger in the feeding direction, the feeding time becomes longer. The extended feeding time is a bottleneck for improving the processing capacity of the transporter/sorter. On the other hand, the transporter/sorter of variable transport box pitch type as disclosed in the above patent publication has a problem that the transport box pitch varying mechanism is complicated in arrangement and control, and therefore it is impossible to reduce, for instance, the cost of manufacture. It is an object of the present invention to provide a transport box and a transporter/sorter having larger width between feeding spaces in the accommodating chamber in the transport direction, thereby increasing the transport density and improving transport capacity while stabilizing the feeding operation of the transport articles. This object is achieved by a transport box as claimed in claims 1 and 2, respectively; the dependent claims are related to further developments of the invenion. According to an aspect of the present invention, there is provided a transport box for receiving transport articles fed from a feeding port of an accommodating chamber, comprising: a feeding accommodating part provided in an upper part of the accommodating chamber and having a feeding space with a large transport-direction width; two or more discharging accommodating parts disposed in a lower part of the accommodating chamber and partitioned from one another in the transport direction; and a guide means for selectively causing the transport articles fed to the feeding accommodating part to fall into predetermined one(s) of the discharging accommodating parts. With this arrangement, it is possible to ensure stable feeding operation and increase the transport density, thus improving the transport capacity. According to a further aspect of the present invention, there is provided a transport box for receiving transport articles fed from feeding ports in accommodating chambers, comprising: one or more partitioning members each partitioning adjacent ones of the accommodating chambers and revolved to increase the transport-direction width of the feeding spaces in the accommodating chambers; and revolving means for selectively causing the partitioning members to revolve. With this arrangement, by causing revolution of the partitioning members, it is possible to selectively increase the transport direction width of the feeding space, ensure stable feeding operation and increase the transport density. According to a further aspect of the present invention, there is provided either one of the above transport box, wherein the transport-direction width of the feeding spaces in the accommodating chambers is different depending on the transport articles. With this arrangement, transport articles can be fed to the accommodating rooms in the best feeding spaces in dependence on the thickness or transport direction dimension of the transport articles. Thus, it is possible to ensure stable feeding operation and increase the transport density. According to a further aspect of the present invention, there is provided the above transport box, wherein each of the accommodating chambers has a discharging means for discharging the fed transport articles. With this arrangement, it is possible to automatically discharge and sort out transport articles. Other objects and features of the present invention will be clarified from the following description with reference to attached drawings.
Preferred embodiments of the transport box according to the present invention will now be described with reference to the drawings. Referring to Referring to The transport box 20 has accommodating chambers 22a and 22b, each having the bottom provided with a rotary bottom lid 21 for discharging transport articles 3 downward. The transport articles 3 may be documents, magazines, books, CD cases, etc. greater in size than a post card, but this is by no means limitative. The transport boxes 20 are supported in a state that they are entirely found on the outer side of the guide rail 50. With this arrangement of the transporter/sorter 1, it is possible to reduce the pitch of the transport wagons 30 in the curved portions of the guide rail 50 in a range that adjacent transport boxes do not contact with one another. Particularly, in this embodiment all the transport boxes 20 are found to be on the outer side of the guide rail 50. With this arrangement, even by setting the pitch L1 of the transport boxes 20 in the straight parts of the guide rail 50 to the minimum value, the transport boxes 20 can be moved along the curved portions of the guide rail 50 without possibility of contacting with adjacent boxes (see In the transporter/sorter 1, in the straight and curved portions of the guide rail 50 the pitch of the transport boxes 20 is made constant (pitch L1 = pitch L2). Also, in the straight parts of the guide rail 50, the pitch L1 of the transport boxes 20 includes a small gap Δ SMALL. However, the gap Δ SMALL is very small, permitting improvement of the efficiency of mounting the transport boxes 20 in the straight portions of the transporter/sorter 1 and also permitting improvement of the transport density. In the transporter/sorter 1, each of the transport boxes 20 is provided, at the front face, with a substantially plate-like shock absorber 23 of rubber or the like elastic material (see Each transport box 20 has a mounting member 32 secured to its side face on the inner side (i.e., the inner side of the guide rail 50) for its mounting on the associated transport wagon 30, that is, for its support in cantilever support by a support arm of the transport wagon 30. With this arrangement, it is possible to simplify the shape of a support arm 33 of the transport wagon 30 and reduce the cost of manufacture. Since the transport boxes 20 are supported by cantilever support, the transporter/sorter 1 can be called as side support transporter/sorter. In this embodiment, each of the transport boxes 20 has two accommodation chambers 22a and 22b so as to be able to accommodate two transport articles 3 at a time. With this arrangement, one transport wagon 30 can transport two transport articles 3 at a time, and it is possible to reduce the equipment cost. The accommodation chambers 22a and 22b may not be limited to two but may be more than two. Each of the transport boxes 20 is supported in a state that its upper part is slanted by about 20 degrees from the vertical toward the progress direction (see While the transport articles 3 are assumed to have substantially rectangular plate-like shapes such as large home-distributed envelopes, such shapes are by no means limitative. Each of the transport wagons 30 includes a base 34 having a hook-shape in the top view, a plurality of roller bearings 35a - 35f provided on the base 34, a mounting member 32 mounted on the transport box 20 and the support arm 33 for coupling together the mounting member 32 and the base 34. The roller bearings 35a - 35f roll along inner grooves 51 and 52 and a rail groove 54 of the guide rail 50, whereby the transport wagon 30 is movably supported on the guide rail 50. In this embodiment, each transport wagon 30 is supported on the guide rail 50 by the roller bearing 35a mounted on the bottom on the side opposite progress direction side, the roller bearing 35b mounted inward on the side opposite the process direction side, roller bearings 35c and 35d mounted outward on the side opposite the progress direction side, the roller bearing 35e mounted inward on the progress direction side and the roller bearing 35f mounted inward in the progress direction side. The roller bearings 35a, 35f also function as joints for coupling together adjacent transport wagons 30, and the coupled transport wagons 30 can be moved along the curved portions in the horizontal and vertical directions. The above arrangement of the transport wagons 30 is by no means limitative. The guide rail 50 is a metal rail having the inner grooves 51 - 53 and the rail groove 54 for supporting the roller bearings 35a - 35f of the transport wagon 30. The transporter/sorter 1 is arranged such that the rail groove 54 is formed on the side face of the outer side of the guide rail 50. With this arrangement of the transporter/sorter 1, it is possible to reduce the overhung extent of the cantilever support of the transport box 20, thus reducing the mechanical load and improving the durability of the roller bearings 35a - 35f. In this example, the guide rail 50 is in the form of an oval loop, but this shape is by no means limitative. Now, the operation of the sorter/transporter 1 will be described. Transport articles 3 are transported one by one from the feeder frame 12 via the belt 14 to the feeder 13, and then to predetermined transport boxes 20. The transport boxes 20 are transported at a constant speed by a driving means (not shown), which drives the chain conveyor 60. As shown in While transport boxes 20 are transported along the curved portions of the guide rail 50, the orbit of the transport wagons 30 traces the circumference with a radius R. During this time, although the pitch L2 of the transport wagons 30 is not changed, the outer side pitch L2' of the transport boxes 20 is greater than the pitch L1. Thus, the transport boxes 20 pass through the curved portions of the guide rail 50 without interference with one another. The transport articles 3 transported in the transport boxes 20 are discharged into predetermined stackers 11a in the section frames 11 for individual destinations, respectively. That is, while transporting transport articles 3, the transporter/sorter 1 sorts out the transport articles 3 for individual destinations. With this arrangement of the transporter/sorter 1, the efficiency of mounting transport boxes 20 in the straight portions of the guide rail 50 is improved to (pitch L3/pitch L1) times as compared to the prior art transporter/sorter 500. Thus, in the transporter/sorter 1, the number of transport articles 3 processed per unit time is increased to (pitch L3/pitch L1) times as compared to the prior art transporter/sorter 500 without increasing the transport speed of the transport boxes 20. Also, in the transporter/sorter 1, by reducing the transport speed of the transport boxes 20, the operations of feeding and discharging transport articles 3 can be stabilized with the same number of transport articles 3 processed per unit time as in the prior art transporter/sorter 500. Furthermore, in the transporter/sorter 1, by appropriately adjusting the transport speed of the transport boxes 20 the operations of feeding and discharging transport articles 3 can be stabilized while increasing the number of transport articles 3 processed per unit time as compared to the prior art transporter/sorter 500. Still further, in the transporter/sorter 1, unlike the transporter/sorter of variable transport box pitch type as disclosed in the above mentioned Japanese patent publication, it is not necessary to provide any transport box pitch varying mechanism at the boundaries between the straight and curved parts of the endless loop path. Thus, it is possible to simplify the arrangement and control and greatly reduce the equipment cost. Moreover, in the transporter/sorter 1, transport articles 3 can be fed to the transport boxes 20 from the top thereof and discharged downward from the bottom. Thus, it is possible to improve the degree of design freedom. While only a preferred embodiment of the transporter/sorter according to the present invention has been shown and described, this embodiment is by no means limitative, and various changes and modifications are possible without departing from the scope of the present invention. For example, while the endless loop path has a single-stage arrangement in the height direction, this arrangement is by no means limitative, and the present invention is applicable as well to endless loop paths with arrangements having two or more stages. While the transporter/sorter according to the present invention is particularly suited for such transport articles as documents, magazines, books, CD cases, etc., greater in size than a post card, such transporter/sorter for large transport articles is by no means limitative, and the present invention is suitably applicable as well to transporter/sorters for small transport articles such as post cards and small envelopes. However, by reducing the transport direction gap Δ of the accommodating rooms in the transport boxes of the transporter/sorter or increasing the transport speed v of the transport boxes, before completion of the feeding of transport articles the transport articles will be brought into contact with the partitioning members on the counter-transport direction side of the accommodating rooms. Therefore, the feeding may be unstable or may not be enabled. Particularly, with enlarged transport articles with increased transport direction dimension, the feeding time is increased. The increased feeding time poses a problem that the process capacity of the transporter/sorter can not be improved. To solve the above problem, the present invention has an object of providing a transport box and a transporter/sorter, which permits increasing the transport density and improving the transport capacity, while providing for stable operation of feeding transport articles by increasing the transport direction width of the feeding spaces in the accommodating rooms. In addition, the transporter/sorter according to the present invention permits improving the process capacity and also ensure stable feeding operation to improve its yield factor. Now, embodiments of the transport box according to the present invention will be described in greater details with reference to Referring to As shown in As shown in In the transport box 111, feeding ports 123a and 123b of the adjacent accommodating chambers 121a and 121b are provided on the opposite sides. With this arrangement, it is possible to utilize the space-saved feeding spaces 124a and 124b to increase the transport density. The third accommodating chamber 121c has substantially the same arrangement as the first accommodating chamber 121a, and the fourth accommodating chamber 121d has substantially the same arrangement as the second accommodating chamber 121b. The remainder of the arrangement is substantially the same as in the prior art transporter/sorter 520. Referring to In this way, with the transport box 111 of the above arrangement it is possible to extend the feeding time, improve the stability of the feeding operation, and increase the transport density of transport articles, thereby improving the transport capability. The example useful for understanding the present invention relates to the first embodiment of the transport box 111. As shown in With this arrangement, the transport direction gap Δ of the transport box 111 is increased by about 17.5 (i.e., W - W1) mm to correspondingly extend the feeding time. It is thus possible to stabilize the feeding operation and increase the transport speed v. Now, Referring to The accommodating chamber 131a comprises an accommodating part 134a for feeding, two accommodating parts 135a and 136a for discharging and a guide means 137a. The accommodating part 134a for feeding is provided in an upper part of the accommodating chamber 131a. The accommodating part 134a has a feeding space 1341 having a wide transport direction width, and permits extension of the feeding time. The transport direction width of the feeding space 1341 is constant over the entire area in the front view. The accommodating part 134a for feeding further has a feeding port 133a on the outer side of the guide rail 150. The accommodating parts 135a and 136a are provided in a lower part of the feeding chamber 131a. The accommodating parts 135a and 136a for discharging are partitioned by the partitioning member 132a such that they have substantially the same transport direction width. Thus, the transport direction width of the accommodating parts 135a and 136a for discharging is about one half the transport direction width of the accommodating part 1341 for feeding. The transport direction width of the accommodating parts 135a and 136a for discharging is set such as to permit feeding and discharging transport articles 101 without any trouble, and is constant over the entire area in the front view. Each of the accommodating parts 135a and 136a for discharging has a bottom lid 118 provided on the bottom, thus permitting transport articles 101 to fall in predetermined stacking parts 1113. Between the accommodating part 134a for feeding and the accommodating parts 135a and 136a for discharging, a guide means 137a is provided, which has a front revolving member 1371a provided for revolving on a transport direction side wall 1373a, a rear revolving member 1372a mounted for revolving on a wall 1374a on the anti-transport direction side, and a drive means for causing revolution of the revolving members 1371a and 1372a. In the top view, the revolving members 1371a and 1372a in the closed state thereof have such a shape that a plurality of projections (not shown) mesh with one another. In their closed state, the revolving members 1371a and 1372a project at right angles from the walls 1373a and 1374a, respectively, in a half open state their ends are found right above the distal end odd the partitioning member 132a (shown by dashed lies in At the time of shifting a transport article 101 accommodated in the accommodating part 134a for feeding to the accommodating part 135a for discharging, the guide means 137a opens the forward revolving member 1371a and half opens the rearward revolving member 1372a. In this way, the transport article 101 accommodated in the accommodating part 134a for feeding can be selectively caused to fall into the accommodating part 135a for discharging. At the time of shifting a transport article 101 accommodated in the accommodating part 134a for feeding to the accommodating part 136a for discharging, the guide means 137a opens the rearward revolving member 1372a, and half opens the forward revolving member 1371a. In this way, the transport article 101 accommodated in the accommodating part 134a for feeding can be selectively caused to fall into the accommodating part 136a for discharging. The above arrangement of the guide means 137a is by no means limitative. For example, such an arrangement may be made that the distal end of the partitioning member 132a is evolved to the transport direction side or the anti-transport direction side. The remainder of the arrangement is substantially the same as in the prior art transport box 520. The operation of the transport box 111a having the above arrangement will now be described with reference to Referring to Referring to Referring to Referring to Referring to In this way, the instant embodiment of the transport box 111a transports the transport articles 101 in the state thereof accommodated in the accommodating parts 135a, 136a, 135b, 136b, 135c, 136c, 135d, 136d with a small transport direction width. Thus, it is possible to increase the transport density. Also, in their feeding, the transport articles 101 are fed to the feeding space 1341 having a large transport direction width. Thus, it is possible to stabilize the feeding operation. A second example of the present invention relates to the first embodiment of the transport box 111a according to the present invention. As shown in With this arrangement of the transport box 111a, compared to the first example of the transport box 111 the transport direction gap Δ is increased by about 25 (i.e., 80 - 55) mm, and the feeding time is correspondingly extended. Thus, it is possible to stabilize the feeding operation and further increase the transport speed v. Now, Referring to The first accommodating chamber 141a has an accommodating part 144a for feeding, which is disposed above the transport box 111b and serves to receive transport articles 101 fed to it, and an accommodating chamber 145a for discharging, disposed under he accommodating part 144a for feeding and accommodating transport articles 101. The accommodating part 144a for feeding has a feeding space 14441a having a large transport direction width. The transport direction width of the accommodating part 145a for discharging is set to be smaller than the transport direction width of the feeding space 1441a. Transport articles 101 fed to the feeding space 1441a of the accommodating part 144a for feeding, are caused to fall into and accommodated in the accommodating part 145a for discharging. At this time, the slanted partitioning member 142a causes the transport articles 101 to fall smoothly. With this arrangement, transport articles 101 can be fed to the feeding space 1441a having a large transport direction width. Thus, it is possible to extend the feeding time and stabilize the feeding operation. Also, since transport articles are transported in their state accommodated in the accommodating part 145a for discharging having a small transport direction width, it is possible to increase the transport density. The accommodating part 144a for feeding further has its bottom provided with the bottom lid 118 corresponding to the transport direction width of the accommodating part 145a for discharging, and it discharges the accommodated transport articles 101 into predetermined stacking parts 1113. The second accommodating chamber 141b is disposed side-by-side with the accommodating part 145a for discharging in the first accommodating chamber 141a, and has a feeding space 1441b having a large transport direction width. With this arrangement, transport articles 101 can be fed to the feeding space 1441b having a large transport direction width. Thus, it is possible to extend the feeding time and stabilize the feeding operation. The second accommodating part 141b further has its bottom provided with a lid 118 corresponding to the transport direction width of the accommodating chamber 141b, and it discharges the accommodated transport articles 101 to predetermined stacking parts 1113. The remainder of the arrangement is substantially the same as in the prior art transport box 520. Now, the operation of the transport box 111b of the above arrangement will be described. Firstly, the transport box 111b is transported with the bottom lids 118 in the closed state, and the first feeder 112 feeds transport articles 101 to the feeding space 1441a of the first accommodating chamber 141a. Then, the second feeder 112 feeds transport articles 101 to the feeding space 1441b of the second accommodating chamber 141b. Then, the third feeder 112 feeds transport articles 101 to the feeding space 1441c of the third feeding chamber 141c. Then, the fourth feeder 112 feeds transport articles 101 to the feeding space 1441d of the fourth accommodating chamber 141d. The transport articles 101 fed to the feeding spaces 1441a and 1441c are caused to fall into and accommodated in the accommodating chambers 145a and 145c for discharging. When the transport box 111b is transported to be above a predetermined accommodating part 1111, it opens a bottom lid 118 to discharge the transport article 101. With this arrangement, in the instant example of the transport box 111b, the first and third accommodating chambers 141a and 141c feed transport articles 101 to the feeding spaces 1441a and 1441c having a large transport direction width. Thus, it is possible to increase the feeding time and to ensure stable feeding operation. Furthermore, since transport articles are transported in their state accommodated in the accommodating parts 145a and 145c for discharging having a small transport direction width. Thus, it is possible to increase the transport density. The above arrangement of the example is by no means limitative. For example, in the transport box 111b' shown in With this arrangement, the fed transport articles 101 can be accommodated in a stable state in the accommodating parts 144a and 144c for feeding. A third example relates to transport box 111b. As shown in With this arrangement, by providing the first and the third accommodating chambers 141a and 141c in the transport box 111b, it is possible to increase the transport density to about 28 (i.e., (60 + 55) / (35 + 55) - 1) per cent. Now, Referring to As shown in When the partitioning member 152a, for instance, is undergoing revolution to the counter-transport direction side, the transport direction width of the feeding space 154a of the first accommodating chamber 151a is increased to extend the transport time. Thus, it is possible to stabilize the feeding operation (see As shown in The remainder of the arrangement is substantially the same as the prior art transport box 520. Now, the operation of the transport box 111b having the arrangement will be described with reference to Referring to Then, by the right side revolving means 116 as shown in In this way, by causing the partitioning members 152a and 152c to undergo revolution to the counter-transport direction side, this embodiment of the transport box 111c can increase the transport direction width of the feeding spaces 154a and 154c and improve feeding stability. Also, by causing the partitioning members 152a and 152c to undergo revolution to the transport direction side, it is possible to increase the transport direction width of the feeding spaces 154b and 154d and improve the feeding stability. Furthermore, the transport box 111c can increase the transport density. It is to be noted that the above arrangement of the embodiment is by no means limitative. Now, Referring to The partitioning members 152a and 152c have hinges 1521 mounted on the inner end, and their outer end is caused by a linear motor 116a as a revolving means to undergo revolution to a transport direction side position, a center position and a counter-transport direction side position. The revolving means is not limited to the above linear motor 116a. A plurality of guide members (such as rubber strips) 1522 are coupled to the lower ends of the partitioning members 152a and 152c. The guide members 1522 guide transport articles 101 to be set on the top of the corresponding bottom lid 118. The remainder of the arrangement is substantially the same as the above transport box 111c. By causing the partitioning members 152a and 152c to undergo revolution to the counter-transport direction side position, the transport box 111c' of the above arrangement can increase the transport direction width of the feeding spaces 154a and 154c, thereby improving feeding stability. Also by causing the partitioning members 152a and 152c to undergo revolution at the transport direction side position, the transport box 111c' can increase the transport direction width of the feeding spaces 154b and 154d, thereby improving feeding stability. When transport articles 101 are fed to the accommodating chambers 151a - 151d, the partitioning members 152c and 152c are revolved to the center position, and are guided by the guide member 1522 to be set on the top of the corresponding bottom lids 118 for discharging thereby. In this way, the transport box 111c' can ensure stable feeding operation by causing revolution of the partitioning members 152a and 152c. A fourth example of the present invention relates to the transport box 111c' as an application of the second embodiment. As shown in With this arrangement of the transport box 111c, the transport direction gap Δ is increased by about 20 (i.e.. W - W1) mm. Thus, it is possible to increase the feeding time, ensure stable feeding operation and increase the transport speed v. The present invention is also useful for the transporter/sorter having the above transport boxes 111, 111a, 111b, 111b', 111c, 111c', etc. The transport box according to the present invention are particularly suited to such take-out articles as documents, magazines, books, CD cases, etc., larger in size than a post card, such large take-out articles are by no means limitative, and the invention is suitably applicable as well to small take-out articles such as post cards and small envelopes. |