JP2015013721A - Pallet replacing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance versatility more than usual, while realizing a short cycle time with a simple constitution, in a pallet replacing device.SOLUTION: A pallet replacing device (18) comprises a loading cargo moving mechanism (48) including a pusher (50) for reciprocating between an original position and a completion position for transferring a loading cargo (16) to a second pallet (14) from a first pallet (12) and a sliding member (54) smaller in frictional force with the loading cargo than the second pallet. The pusher is provided on both sides in the width direction, and is movably formed so as to take a closed state of pushing the loading cargo and an opening state of not contacting with the loading cargo in the width direction. The pusher is controlled so as to become the closed state when moving up to the completion position from the original position and to become the opening state until the loading cargo passes through the original position by returning up to the original position from the completion position. The loading cargo is also transferred to the second pallet from the first pallet via the sliding member.

Description

  The present invention relates to a pallet exchanging device for transferring a load from a first pallet to a second pallet.

  As a pallet exchanging device for changing the load from the first pallet to the second pallet, for example, a slide method or a clamp method is known.

  The slide method is a method in which the load is transferred from the first pallet to the second pallet by pushing the load or the pallet. The clamp method is a method in which the load is lifted by the clamp device and is transferred from the first pallet to the second pallet.

  According to the slide method, the configuration of the pallet exchanging device can be simplified. However, when the load is transferred to the second pallet, the frictional force generated between the load and the second pallet is large. Therefore, if the cycle time is shortened, the load collapses or is damaged. Therefore, in order to suppress load collapse and the like, the cycle time must be lengthened.

  According to the clamp method, load collapse or the like can be suppressed. However, a clamping device for floating the load is required, and the configuration of the pallet exchanging device is complicated.

  On the other hand, in the pallet exchanging device described in Patent Document 1, by supplying air, the load is brought into a floating state with respect to the first pallet. Then, with the load floating, the first pallet is pushed out and the second pallet is placed below the load, and the load is transferred to the second pallet by stopping the supply of air. According to this, the configuration can be simplified as compared with the clamp method while shortening the cycle time.

JP 2000-53228 A

  In the pallet exchanging device described in Patent Document 1, since the load is floated by air, it can be applied only to a relatively light load. Moreover, since a guide for preventing air leakage must be attached to the load for each first pallet, the guides must be aligned according to the type of the load. Furthermore, when a plurality of returnable boxes, for example, various kinds of returnable boxes, are loaded on the same first pallet as the load, the balance of the load may be lost due to the pumped air, and damage or the like may occur. Therefore, there is a problem that versatility is low.

  Further, for each first pallet, a guide must be attached to the load, and a cover for preventing air leakage must be attached to the first pallet. Thus, since the apparatus which attaches a guide and a cover with an air supply apparatus is needed, the structure of a pallet exchange apparatus becomes complicated.

  In view of the above problems, an object of the present invention is to provide a pallet exchanging apparatus with higher versatility than before while realizing a short cycle time with a simple configuration.

  The invention disclosed herein employs the following technical means to achieve the above object. Note that the reference numerals in parentheses described in the claims and in this section indicate a corresponding relationship with specific means described in the embodiments described later as one aspect, and limit the technical scope of the invention. Not what you want.

One of the disclosed inventions is a pallet exchanging device for transferring the load (16) from the first pallet (12) to the second pallet (14),
A first conveyor (40) for transporting a first pallet carrying a load to a stopper (38);
A discharge mechanism (42) for discharging the empty first pallet after transferring the load from the first conveyor;
A second conveyor (44) for conveying the second pallet, the conveying direction being the same as the first conveyor;
A supply mechanism (46) for supplying an empty second pallet before placing a load on the standby section (44a) of the second conveyor;
In order to transfer the load from the first pallet to the second pallet, the load is moved from the original position to the completion position where the transfer of the load to the second pallet is completed, the load is pushed in the transport direction, and the load is moved to the second pallet. A load moving mechanism (48) including a pusher (50) that returns from the completed position to the original position after being transferred to
A sliding member (54) which is provided above the standby portion adjacent to the stopper and whose friction force generated between the pallet and the load is smaller than that of the second pallet so that the load pushed by the pusher slides on its surface. When,
A control unit (56) for controlling the operation of the first conveyor, the discharge mechanism, the second conveyor, the supply mechanism, and the load movement mechanism,
The pushers are provided on both sides of the first conveyor and the second conveyor in the width direction orthogonal to the transport direction, and can be arranged in a closed state in which the load is pushed and in an open state in which the load is not contacted in the width direction. Formed to be movable,
The sliding member is formed such that the tip side far from the stopper is thinner than the rear end side close to the stopper, and is bent when a load is placed on the tip side.
The control unit
Closed when moving from the original position to the complete position, returns to the original position from the complete position, opens until the next load passes through the original position, and reciprocates between the original position and the complete position As well as controlling the pusher,
The pusher and the second conveyor are controlled so that the load pushed by the pusher is transferred from the sliding member to the second pallet.

  According to this, the load (16) is transferred from the first pallet (12) to the second pallet (14) via the sliding member (54) while adopting a slide method with a simple structure. Therefore, even if the cycle time is shortened, it is possible to suppress the occurrence of cargo collapse or damage.

  Further, when returning from the completion position to the original position, the pusher (50) is opened so as not to interfere with the next load (16). Thereby, before the pusher (50) returns to the original position, the next first pallet (12) can be carried toward the stopper (38), so that the cycle time can be further shortened.

  Further, the load (16) is pushed by the pusher (50) to be replaced. Therefore, the load (16) that is heavier than the conventional air system can be replaced. Moreover, even if a plurality of returnable boxes are placed as the load (16), the balance of the load (16) is not easily lost as compared with the air system. Moreover, it is not necessary to attach a guide to the load (16) for each first pallet (12). Furthermore, it is possible to cope with a case where a plurality of returnable boxes, for example, a variety of returnable boxes, are placed on the same first pallet (12).

  As described above, versatility can be improved as compared with the conventional one while realizing a short cycle time with a simple configuration.

It is a figure which shows schematic structure of the product shipment line to which the pallet exchange apparatus which concerns on 1st Embodiment was applied. It is a figure for demonstrating the loading of the load in a pallet exchanging apparatus, and changes from (a) to (h) in order. It is a figure which shows schematic structure of a load movement mechanism. It is a figure which shows the connection structure of a pusher. It is a figure which shows the electrical structure of a product shipment line. It is a figure which shows an example of the loading state of a returnable box. It is a figure which shows the modification of a pallet exchange apparatus.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In each embodiment, common or related elements are given the same reference numerals.

(First embodiment)
First, a schematic configuration of a product shipping line to which the pallet exchanging apparatus according to the present embodiment is applied will be described with reference to FIG.

  The product shipping line 10 includes a pallet exchanging device 18 for transferring the load 16 from a pallet 12 used on the premises to a shipping pallet 14 loaded on a truck or the like. Here, the on-site pallet 12 corresponds to the first pallet described in the claims, and the shipping pallet 14 corresponds to the second pallet. The cargo 16 has at least one return box 16a, and a product is accommodated in the return box 16a. The return box 16a has, for example, a box shape with one side opened.

  In addition to the pallet changer 18, the product shipment line 10 includes a product carry-in unit 20, a shipment unit 22, a pallet collection unit 24, a pallet supply unit 26, a pallet storage place 28, and the like.

  The product carry-in unit 20 is a part that supplies the pallet 12 for loading the load 16 to the pallet changer 18. The product carry-in unit 20 includes a conveyance conveyor 30 such as a roller conveyor, and includes a conveyance conveyor 30 that is directly connected to a first conveyor 40 described later.

  The shipping unit 22 is a part that transports the load 16 that has been transferred to the shipping pallet 14 by the pallet changer 18, that is, the shipping pallet 14 on which the load 16 is mounted, to a shipping site or a standby site before shipping. . The shipping unit 22 also has a transport conveyor 30, and includes a transport conveyor 30 that is directly connected to a second conveyor 44 described later.

  The pallet collection unit 24 is a part that collects the pallet 12 on the premises that has been emptied by replacing the load 16 from the pallet changer 18. The pallet collection unit 24 also includes a conveyor 30, which includes a conveyor 30 that is supplied with an empty pallet 12 from a discharge chain conveyor 42 described later.

  The pallet collection unit 24 also includes a stacker 32 that stacks the pallets 12 on the premises and delivers them to the next conveyor 30 when the predetermined number of pallets is reached. As shown in FIG. 1, the pallet collection unit 24 extends in a direction orthogonal to the conveyance direction of the first conveyor 40, and the conveyance leading end side is substantially L-shaped folded to the product carry-in unit 20 side. It is configured as a line. The stacked pallets 12 on the pallet collection unit 24 are collected by, for example, a forklift.

  The pallet supply unit 26 is a part that supplies the empty shipping pallet 14 before the load 16 is loaded to the pallet changer 18. The pallet supply unit 26 also includes a transport conveyor 30, and includes a transport conveyor 30 that supplies an empty shipping pallet 14 to a supply chain conveyor 46 described later.

  In this embodiment, the stacked shipping pallets 14 are set in a pallet storage place 28 by, for example, a forklift, and the shipping pallet 14 is automatically supplied from the pallet storage place 28 to the pallet supply unit 26. . The pallet supply unit 26 also includes a destacker 34 that unpacks the stacked shipping pallets 14 and supplies them one by one to the next conveyor 30.

  As shown in FIG. 1, the pallet supply unit 26 is extended in a direction orthogonal to the conveyance direction of the second conveyor 44, and an end portion far from the second conveyor 44 is on the shipping unit 22 side. It is comprised as a broken substantially L-shaped line. And the pallet storage place 28 is connected with the edge part.

  The product shipping line 10 further has a manual conveyor 36. The manual conveyor 36 is a part of the pallet supply unit 26 excluding the conveyor 30 positioned next to the supply chain conveyor 46 and the pallet storage device 28 when the pallet storage 28 is out of order. It is for supplying. In the present embodiment, as shown in FIG. 1, the supply chain conveyor 46 (fourth roller conveyor 44a) is provided so that the shipping pallet 14 can be supplied to the transport conveyor 30 located next to the supply chain conveyor 46. Is provided between the conveyor 30 positioned next to the conveyor belt 30 and the conveyor 30 positioned next to the discharge chain conveyor 42 (first roller conveyor 40a). That is, it is provided next to the second roller conveyor 40b described later.

  Next, the pallet changer 18 will be described.

  The pallet changer 18 includes a stopper 38, a first conveyor 40, a discharge chain conveyor 42, a second conveyor 44, a supply chain conveyor 46, a load moving mechanism 48, a comb tooth plate 54, and a control unit 56.

  The first conveyor 40 conveys the premises pallet 12 on which the load 16 is placed to the stopper 38. As shown in FIGS. 1 and 2, the first conveyor 40 includes a first roller conveyor 40a directly connected to the conveyor 30 of the product carry-in unit 20 and a second roller conveyor 40b directly connected to the first roller conveyor 40a. Have Furthermore, the 1st conveyor 40 has the 3rd roller conveyor 40c arrange | positioned directly under the 1st roller conveyor 40a, as shown in FIG.

  When both the first roller conveyor 40a and the second roller conveyor 40b rotate in the forward direction, the premises pallet 12 on which the load 16 is placed is conveyed to the stopper 38. The second roller conveyor 40b can be rotated not only in the normal direction but also in the reverse direction. The second roller conveyor 40b is provided so as to be able to be raised and lowered. The second roller conveyor 40b is directly connected to the first roller conveyor 40a at the top dead center and directly connected to the third roller conveyor 40c at the bottom dead center. When both the second roller conveyor 40b and the third roller conveyor 40c are reversed while the second roller conveyor 40b is at the bottom dead center, the pallet for premises 12 on the second roller conveyor 40b reaches the third roller conveyor 40c. Be transported.

  The discharge chain conveyor 42 shown in FIG. 2 discharges the premises pallet 12 in an empty state after the load 16 is transferred from the first conveyor 40 to the pallet collection unit 24. The discharge chain conveyor 42 corresponds to the discharge mechanism described in the claims. The discharge chain conveyor 42 is disposed immediately below the third roller conveyor 40c, and is disposed above the third roller conveyor 40c when the empty pallet 12 is discharged to the pallet collection unit 24. It rises to a position below the conveyor 40a. The third roller conveyor 40 c conveys the premises pallet 12 in a direction orthogonal to the conveyance direction of the first conveyor 40, and the premises pallet 12 is paid out to the conveyer 30 constituting the pallet collecting unit 24.

  The second conveyor 44 has the same conveyance direction as the first conveyor 40 and conveys the shipping pallet 14. As shown in FIGS. 1 and 2, the second conveyor 44 is disposed next to the second roller conveyor 40 b in the conveyance direction of the load 16, and is in an empty state supplied from the pallet supply unit 26. A fourth roller conveyor 44a that functions as a standby unit for the pallet 14 is provided. Further, the second conveyor 44 has a fifth roller conveyor 44b that is directly connected to the fourth roller conveyor 44a with the same conveying direction. When both the fourth roller conveyor 44 a and the fifth roller conveyor 44 b rotate normally, the shipping pallet 14 is conveyed toward the shipping unit 22.

  As shown in FIG. 2, the supply chain conveyor 46 transfers the empty shipping pallet 14 before loading the load 16 from the transport conveyor 30 of the pallet supply unit 26 to the fourth roller conveyor 44 a of the second conveyor 44. Supply. The supply chain conveyor 46 corresponds to the supply mechanism described in the claims. The supply chain conveyor 46 is disposed immediately below the fourth roller conveyor 44a, and ascends above the fourth roller conveyor 44a when the shipping pallet 14 is moved to the fourth roller conveyor 44a. Then, the shipping pallet 14 delivered from the transport conveyor 30 of the pallet supply unit 26 is transported in a direction orthogonal to the transport direction of the second conveyor 44, and is transferred onto the fourth roller conveyor 44a as it descends. .

  The load moving mechanism 48 pushes the load 16 and transfers it from the pallet 12 for the premises to the pallet 14 for shipping. As shown in FIGS. 1 and 3, the load moving mechanism 48 is configured to reciprocate the pusher 50 between the pusher 50 that actually pushes the load 16 and the original position and the completion position. Guide rail 52 for guiding the slide. In addition, it has a motor (not shown).

  The above-described original position is set closer to the product carry-in portion 20 than the rear end of the load 16 (the pallet for premises 12) in a state where the pallet for premises 12 is in contact with the stopper. On the other hand, the completion position is a position when the load 16 is completely transferred onto the shipping pallet 14 in the fifth roller conveyor 44b. The pusher 50 moves from the original position to the completion position, pushes the load 16, and returns to the original position from the completion position after the load 16 is transferred to the shipping pallet 14.

  In addition, the pusher 50 is formed by dividing a plate or bar extending in the width direction into two in the longitudinal direction, and in the width direction orthogonal to the transport direction of the first conveyor 40 and the second conveyor 44 (the transport direction of the load 16). Are provided on both sides. Moreover, each pusher 50 is provided so that opening and closing is possible. The longitudinal direction of each pusher 50 is substantially parallel to the height direction orthogonal to both the transport direction and the width direction in the open state, and is substantially parallel to the width direction in the closed state. The two pushers 50 have the same length and are connected to each other in the closed state. Specifically, as shown in FIG. 4, each pusher 50 has an uneven shape in which the respective one ends are engaged with each other. And in the closed state connected mutually, the pusher 50 straddles the 1st conveyor 40 and the 2nd conveyor 44 in the width direction, and is located above the pallet 12 for premises in the height direction. Therefore, the pusher 50 can push the load 16 in the closed state.

  Since the comb-tooth plate 54 transfers the load 16 from the pallet for premises 12 to the pallet for shipping 14 without collapsing the load, the friction force generated between the pallet for shipping 14 and the load pallet 14 is reduced. Is provided. As shown in FIGS. 1 and 2, the comb-tooth plate 54 is disposed above the fourth roller conveyor 44 a while being adjacent to the stopper 38. The comb-tooth plate 54 corresponds to the sliding member described in the claims.

  The comb-tooth plate 54 has a comb-tooth shape having a plurality of teeth extending in the transport direction. Thus, if it is made comb-like, the contact area with the load 16 can be reduced. Further, the surface of the comb-tooth plate 54 is smooth so that the frictional force with the load 16 is reduced. Accordingly, the load 16 slides on the surface of the comb-tooth plate 54 while being pushed by the pusher 50.

  Further, the comb-tooth plate 54 is configured such that the distal end side far from the stopper 38 is thinner than the rear end side close to the stopper 38 and bends when the load 16 is placed on the distal end side. By this bending, the load 16 can be transferred from the comb tooth plate 54 to the shipping pallet 14 with almost no step.

  As shown in FIG. 5, the control unit 56 includes a first conveyor 40, a discharge chain conveyor 42, and a second conveyor 44 that constitute the pallet exchanging device 18 based on detection signals of sensors 58 such as a photoelectric sensor and a proximity sensor. The operation of the supply chain conveyor 46 and the load moving mechanism 48 is controlled. In this embodiment, the control part 56 is comprised as a control part of the product shipping line 10, and the control part 56 also controls operation | movement of each conveyance conveyor 30, the stacker 32, the stage spreader 34, etc. FIG.

  Next, replacement of the load 16 by the pallet exchanging device 18 will be described with reference to FIGS.

  FIG. 2A shows a state where the product shipping line 10 is in operation and the first on-site pallet 12 is carried into the pallet changer 18. The pusher 50 is in the original position and is in the open state. In FIG. 2A, the on-site pallet 12 on which the load 16 is loaded is transferred from the conveyor 30 to the first roller conveyor 40a by the normal rotation of the conveyor 30 and the first roller conveyor 40a of the product carry-in section 20. It is. The load 16 has not reached the original position.

  The second roller conveyor 40b starts normal rotation before the on-site pallet 12 is placed. Then, by the forward rotation of the second roller conveyor 40b, the on-site pallet 12 on which the load 16 is placed is conveyed to the stopper 38 side, and when the rear end of the load 16 passes through the original position as shown in FIG. The pusher 50 falls in the width direction and is closed. The pusher 50 moves toward the completion position and pushes the load 16 as shown in FIG. The movement of the pusher 50 is controlled such that the load 16 is transferred from the pallet for premises 12 to the stopper 38 in a state where the pallet for premises 12 is in contact with (arrives) the stopper 38. As described above, the load 16 is pushed by the pusher 50, and is transferred onto the comb tooth plate 54 through the stopper 38 from the in-house pallet 12 stopped against the stopper 38.

  Note that the upper surface of the pallet for premises 12 arranged on the second roller conveyor 40b, the upper surface of the stopper 38, and the upper surface of the comb tooth plate 54 are substantially flush with each other. Therefore, the load 16 moves smoothly from the pallet 12 for the campus to the comb-tooth plate 54. Then, as shown in FIG. 2 (d), the load 16 is completely transferred to the comb-tooth plate 54.

  When the load 16 pushed by the pusher 50 moves on the comb tooth plate 54 to the front end side, the front end side of the comb tooth plate 54 bends downward due to the weight of the load 16. On the other hand, when the load 16 is transferred onto the comb-tooth plate 54, the fourth roller conveyor 44 a rotates forward in synchronization with the movement of the pusher 50. Thereby, when the load 16 is pushed out from the comb-tooth plate 54, a part of the shipping pallet 14 is moved onto the fifth roller conveyor 44b. Therefore, as shown in FIG. 2E, the tip of the bent comb-tooth plate 54 comes into contact with the upper surface of the shipping pallet 14 and is transported as the second conveyor 44 rotates forward. Then, the load 16 pushed by the pusher 50 is transferred.

  On the other hand, when the pusher 50 pushes the load 16 and the pallet for premises 12 becomes empty, the second roller conveyor 40b descends as shown in FIG. As shown in FIG. 2 (f), when the second roller conveyor 40b becomes the bottom dead center and is directly connected to the third roller conveyor 40c, both the conveyors 40b and 40c are reversely rotated. The second roller conveyor 40b is conveyed to the third roller conveyor 40c. When the premises pallet 12 is transferred onto the third roller conveyor 40c, the rotation of the second roller conveyor 40b and the third roller conveyor 40c is stopped, and the premises pallet 12 is held on the third roller conveyor 40c. .

  Then, as shown in FIG. 2 (g), the discharge chain conveyor 42 rises and lifts the pallet 12 for premises. Then, the discharge chain conveyor 42 is rotated, and the empty pallet 12 is paid out to the transport conveyor 30 of the pallet collection unit 24. When the in-house pallet 12 is dispensed, the discharge chain conveyor 42 is lowered to the original position before being raised, as shown in FIG.

  As shown in FIG. 2 (f), when the load 16 is completely transferred to the shipping pallet 14, as shown in FIG. 2 (f), the comb-tooth plate 54 is restored from the elastically deformed state. Further, as shown in FIG. 2 (g), the pusher 50 that has fallen rises to the open state, and in this open state, the pusher 50 returns to the original position.

  Further, when the pallet for premises 12 is transferred onto the third roller conveyor 40c, the second roller conveyor 40b rises toward the top dead center as shown in FIG. 2 (g). As shown in FIGS. 2 (f) and 2 (g), the on-site pallet 12 on which the next load 16 is placed is conveyed by normal rotation of the conveying conveyor 30 and the first roller conveyor 40a of the product carry-in section 20. Until the second roller conveyor 40b returns to the top dead center and rotates forward, the pallet for premises 12 on which the next load 16 is placed stands by on the first roller conveyor 40a. Then, when the second roller conveyor 40b reaches the top dead center and is directly connected to the first roller conveyor 40a and rotates forward, the pallet for premises 12 on which the next load 16 is loaded is as shown in FIG. It is conveyed toward the stopper 38 by the second roller conveyor 40b.

  In addition, when the 2nd roller conveyor 40b returns to the top dead center and rotates forward earlier than the pallet 12 for premises which loaded the next load 16 on the 1st roller conveyor 40a waits, the 1st roller conveyor It is conveyed to the stopper 38 without waiting at 40a.

  Here, the pusher 50 returns to the original position from the completed position in the open state. Therefore, the load 16 can pass through the original position before the pusher 50 returns to the original position. In other words, the conveyance of the load 16 and the return of the pusher 50 can be crossed.

  In addition, even after the pusher 50 returns to the original position, the pusher 50 remains open until the load 16 passes through the original position. Therefore, when the pusher 50 returns to the original position before the load 16 passes through the original position, the load 16 can pass through the original position without contacting the pusher 50. Then, the above-described FIG. 2B to FIG.

  Next, the effect of the pallet exchanging device 18 according to this embodiment will be described.

  In the present embodiment, a slide method is adopted in which the load 16 is transferred from the pallet for premises 12 to the pallet for shipping 14 by being pushed by the pusher 50. Since the slide method is employed in this way, the configuration can be simplified as compared with the clamp method. In addition, while adopting the slide method, the pallet 12 for the premises is not directly transferred to the shipping pallet 14, but is replaced via the comb-tooth plate 54 having a smaller frictional force with the load 16 than the shipping pallet 14. . Therefore, even if the cycle time is shortened, it is possible to suppress the occurrence of cargo collapse or damage. That is, the cycle time can be shortened.

  In particular, the shipping pallet 14 employed as the second pallet has a very large frictional force with the load 16 in order to prevent the collapse of the load during transportation by a truck or the like. However, since it is replaced via the comb-tooth plate 54, even if the cycle time is shortened, it is possible to suppress the occurrence of load collapse and damage.

  If the pusher is not divided into two and can only be closed, the pusher returns to the original position, and then the pusher is lowered or the conveyor is raised, and then the load is loaded. The first pallet will pass through the original position. On the other hand, according to the present embodiment, the pusher 50 is divided into two in the width direction, the pusher 50 is returned from the completion position to the original position, and is opened until the next load 16 passes through the original position. The Therefore, since the conveyance of the load 16 and the return of the pusher 50 can be crossed, the cycle time can be further shortened.

  Further, since the load 16 is pushed and replaced by the pusher 50 in the closed state, it is possible to load even the heavy load 16 as compared with the air method. For example, a load 16 of 100 kg or more can be replaced. Further, since the load 16 is pushed by the pusher 50, as shown in FIG. 6, even when a plurality of return boxes 16a are loaded on the same premises pallet 12 as the load 16, they can be loaded onto the shipping pallet 14. Furthermore, even when a plurality of types of returnable boxes 16 a are loaded as a load 16 as shown in FIG. 6, they can be loaded onto the shipping pallet 14. Further, unlike the air system, since it is not necessary to cover each pallet 12 on the premises, the configuration can be simplified. As shown in FIG. 6, when a plurality of return boxes 16 a are fixed by the binding band 60, the stability of the load 16 can be increased.

  As described above, versatility can be improved as compared with the conventional one while realizing a short cycle time with a simple configuration.

  Moreover, in this embodiment, the comb-tooth plate 54 is employ | adopted as a sliding member. According to this, compared with a flat plate-shaped sliding member, the contact area with the load 16 can be reduced, and the load 16 can be easily slid. Moreover, since it becomes easy to bend with the weight of the load 16 by setting it as a comb-tooth shape, the transfer from the sliding member to the shipping pallet 14 can be made easy. However, the sliding member is not limited to a comb shape (comb plate 54). For example, a flat sliding member can be employed.

  In the present embodiment, in addition to the above, the lengths of the pushers 50 on both sides in the width direction are substantially equal to each other. Therefore, it is possible to suppress the load from being biased to one (longer) pusher 50. That is, bending of the pusher 50 can be suppressed. However, the pusher 50 may have a different length.

  Furthermore, in this embodiment, since the pushers 50 are connected in the closed state, bending of the pushers 50 can be more effectively suppressed. However, the pushers 50 may not be connected to each other in the closed state, for example, a predetermined gap may be provided between the pushers 50.

  The preferred embodiments of the present invention have been described above. However, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the present invention.

  In the product shipping line 10, the configuration of the part excluding the pallet exchanging device 18 is not limited to the above example. For example, it is good also as a structure which does not have the manual entry conveyor 36. FIG.

  Further, the configuration of the pallet changer 18 is not limited to the above example. For example, when there is no manual conveyor 36 between the transport conveyor 30 located next to the fourth roller conveyor 44a and the transport conveyor 30 located next to the first roller conveyor 40a, the discharge chain It is not necessary to return the pallet for premises 12 from the stopper 38 to a position where the conveyor 42 is located. Therefore, for example, as shown in FIG. 7, the first conveyor 40 may include only the first roller conveyor 40 a. In FIG. 7, the discharge chain conveyor 42 is disposed immediately below the first roller conveyor 40a, and the first roller conveyor 40a is lowered or the discharge chain conveyor 42 is raised so that the discharge chain conveyor 42 The pallet 12 is paid out.

  Although the example of the pallet for premises 12 as the first pallet and the shipping pallet 14 as the second pallet is shown, the present invention can be applied to other combinations.

10 ... Product shipment line, 12 ... Pallet for premises (first pallet), 14 ... Pallet for shipment (second pallet), 16 ... Load, 16a ... Return box, 18 ... Pallet changer, 20 ... product loading section, 22 ... shipping section, 24 ... pallet collection section, 26 ... pallet supply section, 28 ... pallet storage, 30 ... transport conveyor, 32 ... Stacking machine, 34 ... Stacking machine, 36 ... Manual conveyor, 38 ... Stopper, 40 ... First conveyor, 40a ... First roller conveyor, 40b .. second roller conveyor, 40c ... third roller conveyor, 42 ... discharge chain conveyor (discharge mechanism), 44 ... second conveyor, 44a ... fourth roller conveyor (standby section), 44b ... Fifth roller conveyor 46 ... Supply chain conveyor (supply mechanism), 48 ... Load movement mechanism, 50 ... Pusher, 52 ... Guide rail, 54 ... Comb plate (sliding member), 56 ... Control unit, 58... Sensor, 60.

Claims (5)

A pallet changer for transferring a load (16) from a first pallet (12) to a second pallet (14),
A first conveyor (40) for transporting the first pallet carrying the load to a stopper (38);
A discharge mechanism (42) for discharging the first pallet in an empty state after transferring the load from the first conveyor;
A second conveyor (44) for conveying the second pallet, the conveying direction being the same as the first conveyor;
A supply mechanism (46) for supplying the second pallet in an empty state before placing the load on the standby section (44a) of the second conveyor;
In order to transfer the load from the first pallet to the second pallet, the load is moved from the original position to the completion position where the transfer of the load to the second pallet is completed, and the load is pushed in the transport direction. And a load moving mechanism (48) including a pusher (50) for returning from the completion position to the original position after the load is transferred to the second pallet;
The frictional force generated between the load and the second pallet is smaller than that of the second pallet so that the load that is provided above the standby portion adjacent to the stopper and is pushed by the pusher on its surface slides. A sliding member (54),
A control unit (56) for controlling the operation of the first conveyor, the discharge mechanism, the second conveyor, the supply mechanism, and the load movement mechanism,
The pushers are respectively provided on both sides in the width direction of the first conveyor and the second conveyor orthogonal to the transport direction, and are in a closed state in which the load is pushed and in an open state in which the load is not contacted in the width direction. Formed so that it can be placed,
The sliding member is formed such that a distal end side far from the stopper is thinner than a rear end side close to the stopper and is bent when the load is placed on the distal end side,
The controller is
When moving from the original position to the completion position, the closed state is established, the original position is returned from the completion position to the original position, and the original position is opened until the next load is passed. And controlling the pusher to reciprocate between and the completion position,
The pallet exchanging apparatus, wherein the pusher and the second conveyor are controlled so that the load pushed by the pusher is transferred from the sliding member to the second pallet.   The pallet exchanging apparatus according to claim 1, wherein the sliding member (54) has a comb shape extending in the conveying direction.   The pallet exchanging apparatus according to claim 1 or 2, wherein the two pushers (50) have the same length.   The pallet exchanging apparatus according to any one of claims 1 to 3, wherein the two pushers (50) are connected to each other in the closed state. The first pallet (12) is a pallet for premises,
The pallet exchanging apparatus according to any one of claims 1 to 4, wherein the second pallet (14) is a shipping pallet.

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