JP6077863B2 - Pallet used in assembly line equipment for assembling vehicles - Google Patents

Description

  The present invention relates to a pallet that supports a workpiece to be conveyed in an assembly line of a vehicle, particularly a motorcycle.

  In the assembly of a motorcycle, as disclosed in Patent Document 1, conventionally, a frame and an engine are assembled in an overhead conveyor on an overhead traveling line, and then a wheel and the like are assembled on a slat conveyor on a ground traveling line to assemble a motorcycle. It was.

JP-A-7-223575

  Here, in an assembly line as shown in Patent Document 1, a pallet that supports a work is attached to a slat conveyor. In order to increase the number of assembled vehicles, the pitch of the pallet on the slat conveyor is increased. Need to pack.

  Accordingly, an object of the present invention is to provide a pallet that can increase the number of assemblies.

  The present invention is a pallet used in an assembly line device for assembling a vehicle, the pallet is a pallet main body placed on a conveyor, a support member that is located on the pallet main body and supports a workpiece, The support member is provided so as to be rotatable about a substantially vertical rotation axis with respect to the pallet main body.

  According to the said structure, since a workpiece | work can be rotated by rotating a supporting member, the assembly | attachment operation | work of the components in the front part and rear part of a workpiece | work can be performed easily, As a result, on a conveyance conveyor The pitch of pallets to be placed on can be reduced, and the number of assembled vehicles can be increased.

The present invention preferably further comprises the following configuration.
(1) The support member is provided to be movable up and down in the vertical direction with respect to the pallet body.
(2) The support member includes a front support portion, a center support portion, and a rear support portion, and the front support portion and the center support portion can be changed to a connected state and a non-connected state. The center support portion and the rear support portion can be changed between a connected state and a non-connected state, and the center support portion is arranged around a rotation axis that is substantially perpendicular to the pallet body. It is provided so as to be rotatable, and is provided so that it can be moved up and down.
(3) In the configuration (2), an elevating device that elevates and lowers the central support portion in the vertical direction with respect to the pallet main body is provided.
(4) In the configuration (3), the lifting device is fed from a trolley wire of the conveyor.
(5) In any one of the configurations (2) to (4), the rear support portion includes a clamp device that clamps the wheel of the workpiece by a pair of left and right clamp plates.
(6) In the configuration (5), the clamp device includes a clamp plate driving mechanism, and in clamping the wheel by the clamp device, the clamp plate is stored in the pallet body by the clamp plate drive mechanism. After being brought into an upright state for clamping the wheel from the stored state, it slides in the clamping direction.
(7) In the configuration (6), the clamp plate drive mechanism is configured by a drive screw shaft.
(8) The 1st notch part is formed in the left-right side edge part of the front-end part of the said pallet main body.
(9) The 2nd notch part is formed in the left-right side edge part of the said pallet main body over the front-back direction full length of the said pallet main body.

  According to said structure (1), the height of a workpiece | work can be changed, As a result, workability | operativity can be improved.

  According to the configuration (2), the frame can be supported by the central support portion, the front wheel can be supported by the front support portion, and the rear wheel can be supported by the rear support portion. When the front support part and the center support part are connected, and the center support part and the rear support part are connected, the center support part is moved up and down with respect to the pallet main body. The support part can also be raised and lowered simultaneously with respect to the pallet body.

  According to said structure (3), a center support part can be raised / lowered easily by the raising / lowering apparatus.

  According to the configuration (4), since the power supply of the lifting device is performed using the trolley wire of the conveyor, it is possible to rationally power the lifting device.

  According to the configuration (5), the wheel can be easily held by the clamp device.

  According to the configuration (6), when the clamp device does not clamp the wheel, the clamp plate is housed in the rear support portion, so the clamp plate does not get in the way. In addition, since the clamp plate slides in the clamping direction, the wheel can be easily clamped regardless of the thickness of the wheel.

  The configuration (7) is a specific configuration of the clamp plate drive mechanism, and according to this configuration, the clamp plate drive mechanism can be easily driven by the drive screw shaft.

  According to the configuration (8), the worker can easily approach the front end portion of the pallet, and the workability at the pallet front end portion can be improved.

  According to the configuration (9), the worker can easily approach from the left and right of the pallet, and workability can be improved. By inserting the claw of the transfer device into the second cutout portion, the pallet can be lifted by the transfer device.

  In short, according to the present invention, it is possible to provide a pallet that can increase the number of assemblies.

It is an upper surface schematic diagram of an assembly line device provided with a pallet concerning an embodiment of the present invention. FIG. 2 is a schematic side view of the assembly line device of FIG. 1. It is the upper surface schematic of a pallet. It is a side schematic diagram of a pallet. It is the front schematic of a pallet. It is the rear surface schematic of a pallet. It is the upper surface schematic of a 2nd bottom plate. It is VIII-VIII sectional drawing of FIG. It is IX-IX sectional drawing of FIG. It is the rear surface schematic of a clamp apparatus. It is a longitudinal cross-sectional view of a clamp apparatus. It is a front schematic diagram which shows the state which the transfer apparatus has lifted the pallet.

  FIG. 1 is a schematic top view of an assembly line apparatus 10 including a pallet according to an embodiment of the present invention. The assembly line 100 is substantially straight from the start end to the end, and the concept of the direction used in the present embodiment is a concept in which the direction from the start end of the assembly line 100 to the end is the front. It will be assumed that they match.

(overall structure)
FIG. 2 is a schematic side view of the assembly line device 10 of FIG. As shown in FIGS. 1 and 2, the assembly line device 10 is an assembly line device for a motorcycle that is a kind of vehicle, and a pallet 1 that supports a work (motorcycle) W and a pallet 1 are placed thereon. And a conveyor 2 for conveying the pallet 1 forward. The pallet 1 is merely placed on the conveyor 2 and is not connected to the conveyor 2. Furthermore, in order to circulate the pallet 1 in the assembly line device 10, the assembly line device 10 includes a return conveyor 3, a return conveyor 4, and a transfer device 5. The return conveyor 3 is provided below the transfer conveyor 2 and returns the pallet 1 on which the workpiece W is not placed toward the rear. The return conveyor 4 is provided in front of the terminal end of the transfer conveyor 2, receives the pallet 1 on which the workpiece W is placed from the transfer conveyor 2, and moves the empty pallet 1 to the return conveyor 3 after the workpiece W moves from the pallet 1. It is supposed to be handed over. For this reason, the return conveyor 4 can move up and down between an upper position 41 that receives the pallet 1 from the transport conveyor 2 and a lower position 42 that delivers the pallet 1 to the return conveyor 3. The transfer device 5 is provided behind the starting end of the conveyor 2, receives an empty pallet 1 from the return conveyor 3, and transfers the empty pallet 1 to the conveyor 2 according to the timing when the workpiece W is placed on the pallet 1. It is supposed to be handed over. For this reason, the transfer device 5 can lift the pallet 1 from the lower position 52 that is received from the return conveyor 3 to the upper position 51 that is delivered to the transport conveyor 2. On both sides of the assembly line apparatus 10, a carriage transport line 90 for the carriage 9 that supplies parts to the assembly line apparatus 10 is provided. The cart conveyance line 90 is configured by a chain, and the cart 9 is conveyed by the cart conveyance line 90 in synchronization with the pallet 1 on the conveyance conveyor 2.

  A power supply line is provided below the transport conveyor 2 along the transport conveyor 2, and the pallet 1 is supplied with power from the power supply line. The power supply line supplies power for operating the pallet 1. The transport conveyor 2 is operated by power feeding from an electric wire different from the power feed line, and the transport conveyor 2 is configured to transfer the pallet 1 from the start end to the end end of the transport conveyor 2, and the power feed line By the power supply to the pallet 1 by the above, the raising / lowering function of the support member of the pallet 1 described below is operated.

(Pallet configuration)
FIG. 3 is a schematic top view of the pallet 1, and FIG. 4 is a schematic side view of the pallet 1. FIG. 5 is a schematic front view of the pallet 1, and FIG. 6 is a schematic rear view of the pallet 1. As shown in FIGS. 3 to 6, the pallet 1 includes a pallet main body 11 placed on the conveyor 2, and a support member 12 that is located on the pallet main body 11 and supports the workpiece W. Yes. The support member 12 includes a front support part 121, a center support part 122, and a rear support part 123.

  As shown in FIG. 4, a first bottom plate 16 and a second bottom plate 17 are provided below the center support portion 122 in order from the bottom. The center support portion 122 and the second bottom plate 17 are connected, and the second bottom plate 17 and the first bottom plate 16 are connected. The pallet body 11 is provided with an elevating device that elevates and lowers the central support portion 122 relative to the pallet body 11. The lifting device includes a pair of sprockets 14, a pair of belt-like bodies (meshing chains) 13, and a belt-like body drive mechanism (not shown). The pallet body 11 is provided with a pair of sprockets 14 that are rotatably supported. The pair of sprockets 14 are provided with a pair of belt-like bodies (meshing chains) 13 that are extended and retracted by the rotation of the sprockets 14. It is wrapped around. One end of the meshing chain 13 is connected to the first bottom plate 16. The pair of sprockets 14 can be rotated by a belt drive mechanism (not shown). A current collector 15 that takes in electric power from a power supply line is provided at the lower part of the pallet body 11, and the belt-like body driving mechanism is supplied with power from the current collector 15. Accordingly, the sprocket 14 is rotated by the belt-like body driving mechanism fed from the current collector 15, and as a result, the meshing chain 13 is extended and retracted in the vertical direction, whereby the first bottom plate 16 and the second bottom plate 17. And the center support part 122 goes up and down in the up-down direction.

  FIG. 7 is a top view of the second bottom plate 17. As shown in FIG. 7, the second bottom plate 17 has a disc shape, and a plate 170 on which a long hole 171 extending in the circumferential direction is formed is attached. An angle θ1 formed by a straight line connecting one end 171a of the long hole 171 and the center C1 of the second bottom plate 17 and a straight line connecting the other end 171b of the long hole 171 and the center C1 of the second bottom plate 17 is 90 degrees. 8 is a cross-sectional view taken along the line VIII-VIII in FIG. 7, and FIG. 9 is a cross-sectional view taken along the line IX-IX in FIG. As shown in FIGS. 7 to 9, in the long hole 171, except for the one end 171a and the other end 171b, the hole diameters of the upper surface and the lower surface are the same, but in the one end 171a and the other end 171b, The hole diameters of the lower surfaces 171a1 and 171b1 are larger than the hole diameters of the upper surfaces 171a2 and 171b2.

  As shown in FIGS. 8 and 9, the center support portion 122 is provided with a pin 18 that is inserted into the long hole 171 of the second bottom plate 17. The pin 18 has a compression coil spring 181 at the upper end portion, and is biased upward by attaching the lower end portion of the compression coil spring 181 to the center support portion 122. Moreover, the pin 18 has the enlarged diameter part 182 whose diameter is expanded from the upper part in a lower end part.

  As shown in FIG. 9, at one end 171 a and the other end 171 b of the long hole 171, the enlarged diameter portion 182 of the pin 18 is fitted to the lower surface 171 a 1 or the lower surface 171 b 1, and the pin 18 is compressed by the compression coil spring 181. Since the pin 18 is biased upward, the pin 18 is fixed to one end 171 a or the other end 171 b of the long hole 171. On the other hand, as shown in FIG. 8, except for one end 171a and the other end 171b of the long hole 171, the enlarged diameter portion 182 of the pin 18 is not fitted to the lower surface 171a1 or the lower surface 171b1, and the pin 18 The inside of the long hole 171 can be moved along the long hole 171. When the pin 18 moves in the long hole 171, the center support portion 122 provided with the pin 18 rotates about a rotation axis Z (see FIG. 4) that is substantially perpendicular to the second bottom plate 17. It is supposed to be. Here, since the second bottom plate 17 is connected to the pallet main body 11 via the first bottom plate 16, when the center support portion 122 rotates with respect to the second bottom plate 17, Will also rotate.

  The operation in which the center support part 122 rotates around the rotation axis Z (FIG. 4) with respect to the pallet main body 11, that is, the rotation in the horizontal direction will be described below.

  In a state where the pin 18 is inserted into the one end 171a of the elongated hole 171, when the pin 18 is pushed downward against the compression coil spring 181, the fitting between the enlarged diameter portion 182 of the pin 18 and the lower surface 171a1 of the one end 171a is performed. The combined state is released. As a result, the pin 18 can move along the long hole 171 in the long hole 171. When the pin 18 is moved from the one end 171a of the elongated hole 171 toward the other end 171b, the center support portion 122 provided with the pin 18 is in relation to the second bottom plate 17, that is, the pallet main body 11. Rotate with respect to. When the pin 18 reaches the other end portion 171b, the pin 18 is biased upward by the compression coil spring 181. Therefore, the enlarged diameter portion 182 of the pin 18 is fitted to the lower surface 171b1 of the other end portion 171b. As a result, the pin 18 is fixed to the other end 171b. An angle formed by a straight line connecting one end 171a of the long hole 171 and the center C1 of the second bottom plate 17 and a straight line connecting the other end 171b of the long hole 171 and the center C1 of the second bottom plate 17. Since θ1 is 90 degrees, the center support portion 122 is fixed by rotating 90 degrees in the R1 direction with respect to the second bottom plate 17, that is, the pallet body 11. And when returning the center support part 122 to the original position with respect to the pallet main body 11, the pin 18 is moved from the other end part 171b of the long hole 171 to the one end part 171a by performing an operation reverse to the above operation. Then, the central support portion 122 is rotated 90 degrees with respect to the pallet body 11 in the opposite direction, that is, in the R2 direction.

  As shown in FIG. 4, a frame support portion 124 that directly supports the workpiece W is attached to the center support portion 122. The frame support portion 124 includes a lower support portion 125 that supports the center of the workpiece W from below, and a pair of left and right side support portions 126 that support the sides of the workpiece W. The side support portion 126 can be rotated in the front-rear direction about the shaft 126a with respect to the center support portion 122, and as a result, the workpiece W is supported so as to be changeable to a plurality of types of postures. ing. In addition, a plurality of support holes are formed in the side support portion 126, and the posture of the workpiece W can be changed by changing the position of the support hole that supports the workpiece W. Yes. The lower support part 125 and the side support part 126 can be stored in a recess 121 a provided in the front support part 121. Here, the lower support portion 125 is removed from the central support portion 122 and stored in the front support portion 121, and the side support portion 126 rotates forward about the shaft 126 a and is stored in the front support portion 121. The A storage sensor (not shown) for detecting the storage state of the side support part 126 is provided in the front support part 121, and the worker uses the storage sensor to make the side support part 126 be a front support part. It is possible to recognize whether or not the data has been stored in 121.

  As shown in FIG. 3, the center support portion 122 is provided with drive screw shafts 61 and 62 on the front and rear. A shaft support portion 63 is provided on the left and right sides of the drive screw shaft 61, and a shaft support portion 64 is provided on the left and right sides of the drive screw shaft 62. The shaft support part 63 is connected to the front support part 121, and the shaft support part 64 is connected to the rear support part 123. A pair of left and right nuts 65 are screwed onto the drive screw shaft 61, and when the drive screw shaft 61 rotates, the nut 65 is interlocked with the drive screw shaft 61 in opposite directions in the left-right direction. To move. Similarly, a pair of left and right nuts 66 are screwed into the drive screw shaft 62, and the drive screw shaft 62 rotates to rotate the nuts 66 along the drive screw shaft 62 in opposite directions in the left-right direction. It is designed to move in conjunction with. Since the drive screw shaft 61 and the drive screw shaft 62 rotate in conjunction with each other, the nut 65 and the nut 66 move in conjunction with each other. A pair of left and right connecting plates 67 are connected to the nut 65 and the nut 66, respectively. When the nut 65 and the nut 66 move to the left and right, the connecting plate 67 moves to the left and right. And the connection board 67 and the center support part 122 will be in a connection state or a non-connection state by moving the connection board 67 right and left.

  That is, the connection between the center support part 122 and the front support part 121 and the connection between the center support part 122 and the rear support part 123 are performed as follows.

  When the drive screw shaft 61 and the drive screw shaft 62 rotate in conjunction with each other, the nut 65 moves along the drive screw shaft 61 in opposite directions in the left-right direction, and the nut 66 moves to the drive screw shaft 62. And move in conjunction with each other in opposite directions in the left-right direction. As a result, when the connecting plate 67 moves in the left-right direction opposite to each other and the connecting plate 67 moves in the left-right direction, the inner side portions of the connecting plate 67 are recessed in the central support portion 122. And the connecting plate 67 and the central support portion 122 are connected to each other. Here, since the shaft support portion 63 of the drive screw shaft 61 is connected to the front support portion 121 and the shaft support portion 64 of the drive screw shaft 62 is connected to the rear support portion 123, the center support portion 122 is The front support part 121 and the rear support part 123 are connected to each other through the connection plate 67 and the drive screw shafts 61 and 62. In this state, when the center support part 122 is moved up and down with respect to the pallet main body 11 by the meshing chain 13, the front support part 121 and the rear support part 123 are also raised and lowered at the same time.

  Further, when the drive screw shaft 61 and the drive screw shaft 62 rotate in conjunction with each other and the connecting plate 67 moves in the left and right direction away from each other, the side inner side portion of the connecting plate 67 and the concave portion of the central support portion 122 are moved. The fitting is released, and the connecting plate 67 and the central support portion 122 are disconnected. As a result, the center support part 122 is disconnected from the front support part 121 and the rear support part 123. In this state, when the center support part 122 is moved up and down with respect to the pallet main body 11 by the meshing chain 13, only the center support part 122 is moved up and down in the up and down direction, and the front support part 121 and the rear support part. 123 does not go up and down.

  The pallet 1 is provided with a position sensor for recognizing the position of the support member 12 in the vertical direction. For example, by inputting the upper, middle, and lower positions to the control unit of the assembly line device 10, By simply designating any one of the upper, middle and lower positions, the control unit rotates the sprocket 14 by a predetermined amount and advances and retracts the meshing chain 13 by a predetermined amount in the vertical direction from the recognition result of the position sensor, The support member 12 can automatically be appropriately positioned at any one of the designated upper, middle, and lower positions. Further, according to the request of the worker, the sprocket 14 is further rotated and the meshing chain 13 is advanced and retracted in the vertical direction, so that the vertical position of the support member 12 is changed from any of the above, middle, and lower positions. It is also possible to move it further in the vertical direction by a desired amount. Further, when the vertical position of the support member 12 is defined at each position on the transport conveyor 2 according to the type of the workpiece W placed on the pallet 1, it is placed on the pallet 1 on the control unit. By inputting the type of workpiece W to be transmitted, the control unit causes the sprocket 14 and the meshing chain 13 so that the support member 12 of the pallet becomes a set vertical position at each position on the transport conveyor 2. Is designed to automatically control.

  The rear support 123 includes a clamp device 71 that clamps the rear wheel of the motorcycle. FIG. 10 is a rear view of the clamp device 71, and FIG. 11 is a longitudinal sectional view of the clamp device 71. As shown in FIGS. 10 and 11, the clamp device 71 includes a pair of left and right clamp plates 72 that clamp the wheels, and a pair of left and right clamp plate drive mechanisms 73 that drive the respective clamp plates 72. . Each clamp plate driving mechanism 73 includes a main body portion 74 provided on the rear support portion 123 and a support portion 75 that supports the clamp plate 72. The main body 74 is formed with a bowl-shaped long hole 741 that is bent substantially at a right angle. One end portion of the support portion 75 is configured to support the clamp plate 72, and a shaft portion 751 that moves in the long hole 741 along the long hole 741 is provided at the other end portion. The shaft portion 751 is connected to a nut 76 that moves along the drive screw shaft 77 by the rotation of the drive screw shaft 77. Therefore, when the nut 76 moves along the drive screw shaft 77 by the rotation of the drive screw shaft 77, the shaft portion 751 connected to the nut 76 moves in the long hole 741 along the long hole 741. Here, since the long hole 741 is bent and formed at a substantially right angle, when the drive screw shaft 77 rotates and the nuts 76 move in the direction approaching the left and right directions, as indicated by the one-dot chain line arrow. The clamp plate 72 changes from the housed state housed in the rear support portion 123 to an upright state for clamping the wheel, and then slides in the direction of clamping the wheel.

  As shown in FIG. 3, first notch portions are formed at the left and right end portions 11 a of the front end portion of the pallet body 11. Further, as shown in FIGS. 5 and 6, a second notch portion 11 b is formed in the lower part of the left and right end portions of the pallet main body 11 over the entire length in the front-rear direction of the pallet main body 11. FIG. 12 is a front view showing a state where the transfer device 5 lifts the pallet 1. As shown in FIG. 12, the transfer device 5 includes a pair of left and right claws 51 that grip the pallet 1. When the transfer device 5 lifts the pallet 1, the claw 51 has the second notch portion 11 b. To be inserted.

  Hereinafter, the operation of the assembly line apparatus 10 will be described with reference to FIGS. 1 and 2.

  First, in the first station S <b> 1, the transfer device 5 places an empty pallet 1 on which the work W is not placed on the transport conveyor 2 at a timing when the work W is placed on the transport conveyor 2. . Here, the timing at which the workpiece W is placed on the transport conveyor 2 means that the engine unit and the frame unit are assembled on the pallet 1 in the first station S1, and then the pallet 1 is moved forward by the transport conveyor 2. It means the timing of moving to. Then, the frame unit carried in from the frame assembly unit line (not shown) is assembled to the engine unit carried in from the engine assembly unit line (not shown), supported on the pallet 1 as a work W, and assembled. Be started. At this time, the connection between the front support part 121 and the center support part 122 is released, and the connection between the center support part 122 and the rear support part 123 is also released. And only the center support part 122 raises with the meshing chain 13, and is located upwards.

  When the pallet 1 reaches the second station S2, the central support 122 is moved around the Z axis by moving the pin 18 of the central support 122 from one end 171a of the elongated hole 171 of the second bottom plate 17 to the other end 171b. The front wheels supplied from the carriage 9 which is rotated 90 degrees in the R1 direction, is located on the side of the assembly line 100 (right side in this embodiment) and is conveyed in synchronization with the pallet 1 on the conveyor 2. Assemble the front parts. In this state, the workpiece W faces in the left-right direction.

  When the pallet 1 reaches the third station S3, the pin 18 is moved from the other end portion 171b of the elongated hole 171 of the second bottom plate 17 to the one end portion 171a, whereby the central support portion 122 is opposite to the R1 direction around the Z axis. Turn 90 degrees in the direction R2. In this state, the workpiece W faces in the front-rear direction.

  When the pallet 1 reaches the fourth station S4, the rear wheel and the rear part supplied from the side parts cart of the assembly line 100 are assembled.

  When the pallet 1 reaches the fifth station S5, the center support part 122 is lowered by the meshing chain 13 until the front wheel comes into contact with the front support part 121 and the rear wheel comes into contact with the rear support part 123. Then, the clamp device 71 clamps and fixes the rear wheel from the left and right. As a result, the workpiece W is self-supported on the pallet 1 by the front wheel, the rear wheel, and the rear wheel clamped by the clamping device 71, so that it is not necessary to support the workpiece W by the frame support portion 124. And is stored in the front support portion 121. And the drive screw shafts 61 and 62 are rotated, the front support part 121 and the center support part 122 are connected, and the center support part 122 and the back support part 123 are connected. And the front support part 121, the center support part 122, and the rear support part 123 are moved up and down by the meshing chain 13, and the remaining parts are assembled at an appropriate height so that the workpiece W can be used as a motorcycle. Complete.

  When the workpiece W is completed as a motorcycle, the conveyor portion of the return conveyor 4 is rotated in the same direction as the transfer conveyor 2, and the pallet 1 is received from the transfer conveyor 2 to the return conveyor 4 with the workpiece W placed thereon. hand over. Then, the rear wheel clamp by the clamp device 71 is released, and the work W completed as a motorcycle is carried out to the front of the return conveyor 4. When the workpiece W runs out on the pallet 1, the return conveyor 4 is lowered from the upper position 41 to the lower position 42.

  When the return conveyor 4 is located at the lowered position 42, the conveyor portion of the return conveyor 4 is rotated in the opposite direction, and the conveyor portion of the return conveyor 3 is further rotated to move the return conveyor 4 to the return conveyor 3. Deliver empty pallet 1. Then, the empty pallet 1 is transported from the front end portion of the return conveyor 3 to the rear end portion by the return conveyor 3 at a speed higher than that of the transport conveyor 2. An empty pallet 1 is located at the rear end of the return conveyor 3, and the engine unit and the frame unit are assembled on the pallet 1 in the first station S1, and then the pallet 1 is moved forward by the conveyor 2. Thereafter, the pallet 1 on the return conveyor 3 is lifted by the transfer device 5, and the pallet 1 is delivered to the transport conveyor 2. As described above, the pallet 1 circulates through the assembly line 100.

  According to the assembly line device 10 configured as described above, the following effects can be exhibited.

(1) The workpiece W can be rotated by rotating the support member 12 around the Z axis with respect to the pallet body 11, and as a result, the assembly of components, for example, front wheels can be easily performed. . Moreover, since the workpiece | work W can be rotated in a horizontal direction, the assembly | attachment operation | work of the components in the front part and the rear part of the workpiece | work W can be performed easily, As a result, the pallet 1 mounted on the conveyance conveyor 2 It is possible to increase the number of assembled vehicles by narrowing the pitch.

(2) Since the support member 12 is provided so as to be movable up and down with respect to the pallet main body 11 by the meshing chain 13, the height of the workpiece W can be changed. Since the height of the workpiece W can be adjusted, workability can be improved.

(3) Since the pallet 1 includes the front support part 121, the center support part 122, and the rear support part 123, the center support part 122 supports the motorcycle frame, and the front support part supports the motorcycle front wheels. In addition, the rear wheel of the motorcycle can be supported by the rear support portion. Moreover, since the front support part 121 and the center support part 122 can be connected, and the center support part 122 and the rear support part 123 can be connected, the front support part 121 and the center support part 122 are connected. When the central support 122 is moved up and down with respect to the pallet body 11 by connecting the central support 122 and the rear support 123 in the connected state, the front support 121 and the rear support 123 are also The pallet body 11 can be moved up and down simultaneously.

(4) Since the meshing chain 13 of the elevating device is wound around a pair of sprockets 14 rotatably supported on the pallet main body 11 so as to be advanced and retracted, the central support portion 122 is meshed. The chain 13 can be easily raised and lowered.

(5) Since feeding of the belt-like body driving mechanism is performed using the trolley wire of the conveyor 2, the belt-like body driving mechanism can be rationally fed.

(6) Since the rear support portion 123 is provided with the clamp device 71, the rear wheel of the motorcycle can be fixed from the side by the clamp device 71. As a result, the motorcycle can be held.

(7) The clamp plate 72 of the clamp device 71 is clamped after the clamp plate driving mechanism 73 is brought into the standing state for clamping the rear wheel of the motorcycle from the storage state stored in the rear support portion 123. To slide. As a result, when the clamp device 71 does not clamp the rear wheel, the clamp plate 72 is accommodated in the rear support portion 123. Therefore, when the pallet 1 is returned by the return conveyor 3, for example, the clamp plate 72 becomes an obstacle. There is nothing. In addition, since the clamp plate 72 slides in the clamping direction, the rear wheel can be appropriately clamped regardless of the thickness (width) of the rear wheel.

(8) The rotation of the drive screw shaft causes the nut 76 to move along the drive screw shaft. As a result, the shaft portion 751 connected to the nut 76 moves in the long hole 741. The clamp plate drive mechanism 73 can be easily driven by the drive screw shaft.

(9) Since the first notch portion 11a is formed at the left and right end portions of the front end portion of the pallet main body 11, the worker can easily approach the front end portion of the pallet 1, and the workpiece at the pallet front end portion The assembly workability of W can be improved.

(10) Since the second notch portion 11b is formed in the lower part of the left and right side end portions of the pallet main body 11 over the entire length of the pallet main body 11 in the front-rear direction, the worker is closer to the pallet 1 from the left and right. This facilitates the assembly workability of the workpiece W. Moreover, since the 2nd notch part 11b can be utilized as a support part of the transfer apparatus 5 by inserting the nail | claw 51 of the transfer apparatus 5 in the 2nd notch part 11b, the pallet 1 can be lifted.

(11) Since the pallet 1 is not connected to the transport conveyor 2 and is merely placed on the transport conveyor 2, only changing the pitch of the pallet 1 placed on the transport conveyor 2 The assembly number can be changed. That is, the assembly number can be easily changed. Since the pallet 1 is a heavy object and has a shape with excellent stability in the mounted state, the pallet 1 is stably positioned on the transport conveyor 2 even if it is not fixed to the transport conveyor 2. Further, in the conventional assembly line, because of the attachment for suspending the frame on the overhead conveyor, some assembly parts cannot be assembled on the overhead conveyor, and the assembly process is restricted. However, in the assembly line apparatus 10 having the above-described configuration, since all assembly is performed by the pallet 1 on the transport conveyor 2, there is no restriction on the assembly process, and the degree of freedom of the assembly process can be improved.

(12) The conveyor 1, the return conveyor 3, the return conveyor 4, and the transfer device 5 can easily circulate the pallet 1 in the assembly line 100. Moreover, since the conveyance conveyor 2 and the return conveyor 3 are arrange | positioned up and down, the space of the assembly line apparatus 10 can be utilized effectively.

  In the above embodiment, the assembly line 100 is substantially linear from the start end to the end, but the assembly line may be bent or arcuate.

  In the above embodiment, the side support portion 126 of the frame support portion 124 rotates forward about the shaft 126 a and is stored in the front support portion 121, but with respect to the center support portion 122. It may be configured to be removable and stored in the front support portion 121.

  In the above embodiment, the transfer device 5 is configured to lift the pallet 1 from the return conveyor 3 with a crane or a lift and transfer it to the transport conveyor 2, but it moves up and down like the return conveyor 4. It may be a conveyor.

  In the above embodiment, the pallet used in the motorcycle assembly line device has been described as an example. However, the pallet of the present invention is not limited to a motorcycle, and can be used in an assembly line device for all vehicles.

  Various modifications and changes can be made without departing from the spirit and scope of the invention as set forth in the appended claims.

  In the present invention, since a pallet capable of increasing the number of assemblies can be provided, the industrial utility value is great.

DESCRIPTION OF SYMBOLS 1 Pallet 11 Pallet main body 11a 1st notch part 11b 2nd notch part 12 Support member 121 Front support part 122 Center support part 123 Back support part 124 Frame support part 125 Lower support part 126 Side support part 13 Engagement chain 14 Sprocket 16 First bottom plate 17 Second bottom plate 2 Conveyor 3 Return conveyor 4 Return conveyor 5 Transfer device 61 Drive screw shaft 62 Drive screw shaft 63 Axis support portion 64 Axis support portion 65 Nut 66 Nut 71 Clamp device 72 Clamp plate 73 Clamp Plate drive mechanism 74 Main body part 741 Long hole 75 Support part 751 Shaft part 76 Nut 77 Drive screw shaft 9 Cart 90 Cart transport line 10 Assembly line device 100 Assembly line W Workpiece

Claims (8)

A pallet used in an assembly line device for assembling a vehicle,
The pallet includes a pallet main body placed on a conveyor, and a support member that is positioned on the pallet main body and supports a workpiece,
The support member includes a front support part, a center support part, and a rear support part,
The front support part and the center support part can be changed to a connected state and a non-connected state,
The center support portion and the rear support portion can be changed to a connected state and a non-connected state,
The pallet is characterized in that the central support portion is provided so as to be rotatable about a substantially vertical rotation axis with respect to the pallet main body, and is provided so as to be vertically movable .
The pallet of Claim 1 provided with the raising / lowering apparatus which raises / lowers the said center support part with respect to the said pallet main body to an up-down direction.
The pallet according to claim 2 , wherein the lifting device is supplied with power from a trolley wire of the conveyor.
The pallet according to any one of claims 1 to 3 , wherein the rear support portion includes a clamp device that clamps the wheel of the workpiece by a pair of left and right clamp plates.
The clamp device includes a clamp plate drive mechanism,
In the clamping of the wheel by the clamping device, the clamping plate is moved in the clamping direction after being brought into the standing state for clamping the wheel from the housed state accommodated in the rear support portion by the clamping plate driving mechanism. 5. A pallet according to claim 4 , which is adapted to slide.
The pallet according to claim 5 , wherein the clamp plate drive mechanism is constituted by a drive screw shaft.
The pallet according to any one of claims 1 to 6 , wherein a first cutout portion is formed at left and right end portions of the front end portion of the pallet main body.
The pallet as described in any one of Claims 1-7 in which the 2nd notch part is formed in the left-right side edge part of the said pallet main body over the front-back direction full length of the said pallet main body.

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