JP2775993B2 - Transfer device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transport device that transports a transport body to a transport rail corresponding to its destination.

2. Description of the Related Art Conventionally, as a transfer device for transferring a transfer body holding a work-in-process material such as a sewn product in a sewing factory or the like, for example, as disclosed in Japanese Patent Application No. 1-193129 by the present applicant. In addition, there is known an apparatus in which a sorting mechanism connected to a plurality of transport rails for transporting a transport body is controlled by a sorting control unit, and for each transport body, the transport body is sorted and transported to a transport rail corresponding to its destination. This means that the distribution arm is opposed to the transport rail, the transported body transported by the transport rail is loaded onto the distribution arm, and the distribution arm is moved to face one of the transport rails corresponding to the destination of the transported body. , And the transport bodies are respectively carried out to target transport rails.

[Problems to be Solved by the Invention] However, in such a conventional apparatus, the transported bodies transported by the transport rails are sequentially loaded on the sorting arm, and moved to the transport rail corresponding to the destination of the transported body. The operation has been repeatedly performed sequentially for each transported body. Therefore, when a plurality of transport bodies are transported from a plurality of transport rails, the loading and unloading operations are repeated for each transport body. there were.

Therefore, an object of the present invention is to provide a transport apparatus capable of shortening the in-process time of a transport body and improving work efficiency, with the object of solving the above-mentioned problems.

[Means for Solving the Problems] In order to achieve the object, the present invention has the following configuration as means for solving the problems. That is, as illustrated in FIG. 1, a plurality of distribution arms connected to a plurality of transport rails for transporting a transport body and holding the transport body loaded from the transport rail are provided. A distributing mechanism M1 capable of moving the transport body to the transport rail by moving the transport arm in opposition to each other; and controlling the distributing mechanism M1 to distribute, for each of the held transport bodies, the distribution arm to the transport rail corresponding to its destination. And a distributing control means M2 for distributing each of the transport rails, wherein the distributing mechanism M1 comprises: And it is configured to be able to carry out the carrier from one carrier rail and simultaneously carry in another carrier from another carrier rail. Detecting means M3 for detecting the presence of the transport body on each of the transport rails to be loaded into the distribution mechanism M1, and the transport from the distribution arm distributed to the transport rail by the control of the distribution control means M2. If there is a vacancy in another sorting arm when unloading the body, based on the detection result from the detection means M3, whether or not there is the transport body that can be loaded into the transport rail corresponding to the sorting arm. Determining means M4 for determining whether or not there is the transportable body that can be carried into the transporting rail by the determining means M4, transferring the transporting body from the transporting rail to the empty sorting arm. And a carry-in control means M5 for carrying-in.

[Operation] In the transport apparatus of the present invention having the above-described configuration, the distribution control unit M2 controls the distribution mechanism 1 so that the distribution mechanism 1
For each of the transport bodies held in the above, the distribution arm is opposed to the transport rail corresponding to the destination, and each is distributed to the transport rail.

On the other hand, the detecting means M3 can detect the presence of the transport bodies on the transport rails for loading the transport bodies into the sorting mechanism, and the determining means M4 is provided with the sorting arm sorted by the control of the sorting control means M2. If there is a vacancy in another sorting arm when unloading a transfer body from the transfer rail to the transfer rail, there is a transfer body that can be loaded into the transfer rail corresponding to that sorting arm based on the detection result from the detection means M3 It is determined whether or not. Then, when the determining means M4 determines that there is a transportable body that can be loaded into the transport rail, the loading control unit M5 transports the transported body from the transport rail to the empty sorting arm.

That is, the sorting mechanism M1 in the transport device of the present invention.
Is configured so that a plurality of sorting arms can simultaneously face a plurality of transport rails, and can carry out a transport body from one transport rail and simultaneously carry another transport body from another export rail. Generally, the operation of unloading the carrier is preferentially performed. However, if the operation can be carried over after the operation, the carrier is carried in.

[Example] Hereinafter, an example of the present invention will be described in detail with reference to the drawings.

FIG. 2 is a plan view showing a schematic configuration mainly of rails and the like of a transfer device according to an embodiment of the present invention, and FIG. 3 is a side view of the same. The plurality of sorting mechanisms 1a, 1b,... Are installed at a sewing factory or the like at an interval from each other and have the same structure. Therefore, the following description will focus on one sorting mechanism 1a. The sorting mechanism 1a is provided with a column 3 that stands on the floor 2. The support shaft 4 is erected at the upper end of the support column 3 via a mount 5, and a support plate 6 is fixed to the upper end. The station rail support frame 7a in the form of a rectangular frame is supported and fixed on the upper surface of the support plate 6 at an intermediate portion thereof. A pair of parallel bridge rail support frames 7b are arranged adjacent to each other in the distribution mechanism 1a, 1b ...
Are supported and fixed across the support plates 6.

Bridge rails 8 and 10 as transport rails for transporting a transport body 36 to be described later are suspended and supported on a bridge rail support frame 7b by a plurality of suspension brackets 9 and connected to the distribution mechanism 1a. In the present embodiment, the sorting mechanisms 1a and 1b are connected to each other by a pair of parallel bridge rails 8 and 10. Also, as with bridge rails 8 and 10,
Station rail 11 as a transport rail for transporting 36
, Via the work stations ST1, ST2, ST3, ST4,... Arranged around the sorting mechanisms 1a, 1b,.
Is provided in a horseshoe shape so that

Loading portions 8a and 11a are formed at one end of the bridge rail 8 and one end of the station rail 11, and unloading portions 10b and 11b are formed at one end of the bridge rail 10 and the other end of the station rail 11, respectively. 8a, 11a, 10b,
11b are arranged at predetermined heights (45 degrees in this embodiment) at the same height around the distribution mechanism 1a. And
In this embodiment, there are four unloading parts 10b and 11b,
In order to distinguish the bridge rail 10 or the station rail 11 for carrying out the 36, as shown in FIG.
Are predetermined. In this embodiment, four carry-in portions 8a, 11a and carry-out portions 10b, 11b are formed, and are alternately arranged so as to be adjacent to each other.

Furthermore, at the other end of the bridge rail 8, a carry-out portion 8b,
A loading section 10a is formed at the other end of the bridge rail 10, and is connected to the adjacent sorting mechanism 1b. The work stations ST1, ST2, ST3, ST4,... Are formed by a sewing machine such as a sewing machine arranged below the station rail 11.

As shown in FIGS. 4 and 5, the rotating shaft 12 is rotatably penetrated and supported by the support plate 6 of the distribution mechanism 1a via a fixed bracket 13, and a driving sprocket 14 is fixed to a lower end thereof. The driven sprocket 15 is rotatably and position-adjustable via a movable bracket 16 on the lower surface on the other side of the support plate 6 so as to be located on the opposite side of the driving sprocket 14 via the support shaft 4. A pair of interlocking shafts 17 are rotatably and position-adjustable through the movable plate 18 through the support plate 6 so as to be located between the two sprockets 14 and 15, and the lower ends thereof are interlocking sprockets.
19 is fixed.

The endless first chain 20 is mounted so as to straddle the driving sprocket 14 and the driven sprocket 15 of the adjacent distribution mechanism 1b, and includes a plurality of guide sprockets 21 provided on the lower surface of the support plate 6 and the respective suspensions. A plurality of chain guides 22 provided on the metal fitting 9 are stretched along the bridge rails 8 and 10. The endless second chain 23 is mounted on each of the interlocking sprockets 19, and a plurality of guide sprockets 24 provided on the lower surface of the support plate 6 and a plurality of chain guides (not shown in the drawings) provided on each hanging bracket 9. ), It is stretched along the station rail 11.

A motor 26 for driving the chain is mounted on the support plate 6 of the distribution mechanism 1a via support legs 27, and its motor shaft 26
A drive pulley 28 is fixed to a. The driven pulley 29 is fixed to the upper end of the rotating shaft 12, and a timing belt 30 is mounted between the driven pulley 29 and the driving pulley. The three interlocking pulleys 31 are an intermediate portion of the rotating shaft 12 and an interlocking shaft.
Timing belts 32 are mounted on these interlocking pulleys 31, each being fixed to the upper end of 17. A pair of tension pulleys 33 that apply tension to the timing belt 32 are provided on the support plate 6.

As shown in FIG. 3, FIG. 5 and FIG. 7, the carrier 36 is movably connected to the bridge rails 8, 10 or the station rails 11 via a pair of rolling rollers 37, and the sewn product or the like is provided. Is hanger-shaped so that the article can be hung. A pair of engagement rings 3 having a plurality of engagement protrusions 38a on the outer periphery
8 is rotatably supported by a carrier 36, and normally,
The rotation of 8 is regulated by friction means (not shown). Then, with the engagement protrusion 38a of the engagement wheel 38 engaged with the first or second chain 20, 23, the transport body 36 moves along the bridge rail 8, 10 or the station rail 11 by the movement of the chain 20, 23. Transported.

As shown in FIG. 2, a number reading device 39 is mounted on the hanging bracket 9 at the loading sections 8a, 11a of the bridge rail 8 and the station rail 11, and the transport body 36 is connected to the loading bridge rail 8 or 11a. When transported along the station rail 11 to a position corresponding to the number reading device 39, the transport of the transport body 36 is temporarily stopped by contact with a stopper (not shown). The number is read by a carrier identification code mark (not shown) attached to the body 36, and the presence of the carrier 36 is detected. Note that the movement of the chains 20 and 23 is continued even when the carrier 36 is stopped. In this case, the engagement wheel 38 is configured to idle with the movement of the chain against the action of the friction means.

As shown in FIGS. 2, 3, 5, and 6, a rotating body 41 is rotatably supported on a support shaft 4 of the distribution mechanism 1a via a radial bearing 42, and a lower end edge thereof. A thrust bearing 43 is interposed between and the mounting base 5. A plurality of (eight in this embodiment) distribution arms 44 are radially projected and fixed to the outer peripheral edge of the rotating body 41 at predetermined angles (45 degrees in this embodiment). The eight distribution arms simultaneously face the loading sections 8a, 11a or the loading sections 10b, 11b of the bridge rails 8, 10 and the station rails 11 arranged at every 45 degrees as described above, and The first chain 20 or the second chain 23 is configured to be able to be simultaneously carried in from the rails 8 and 11, and extends to a position corresponding to the movement area of the first chain 20 or the second chain 23.

Also, as shown in FIGS. 5 and 8, on the lower surface of the rotating body 41, a detection object 54 is attached at a position corresponding to each of the distribution arms 44. A detector 57 is mounted on the support plate 52 corresponding to the detected object 54, and the detector 57 detects an end of the detected object 54, thereby detecting an origin position of the rotating body 41. It is configured as follows.

A holding rail 45 for holding the carrier 36 is swingably attached to a tip of each of the sorting arms 44 by a shaft 46, and an engagement protrusion 45a is formed at an inner end thereof. Normally, as shown in FIG. 5, the holding rail 45 is held in an inclined state in which the engaging projection 45a is lowered by its own weight, and the transport body 36 is held by the first or second chain 20, 23 to one side. Loading section 8a, 11a of bridge rail 8 or station rail 11
When it is loaded onto the sorting arm 44 from the
36 is lowered along the holding rail 45 to a position where it engages with the engagement protrusion 45a, and the engagement shaft 38 is moved to the first or second chain 20,
It is configured to be released from engagement with 23.

As shown in FIGS. 3 to 6, an arm rotation servomotor 47 that can rotate forward and backward is mounted on the support plate 6, and a drive pulley 48 is fixed to the motor shaft 47a. A driven pulley 49 is fixed to the upper surface of the rotating body 41 in a state of being inserted into the support shaft 4, and a timing belt 50 is mounted between the driven pulley 49 and the driving pulley 48. Then, by rotating the servomotor 47 in the forward or reverse direction, the rotating body 41 rotates 45 degrees in the forward or reverse direction through the driving pulley 48, the timing belt 50 and the driven pulley 49 by a predetermined angle of 45 degrees or an integral multiple thereof. In addition, the distribution arm 44 holding the transfer body 36 can be pivotally disposed at a position facing a predetermined bridge rail 8, 10 or station rail 11.

The servomotor 47 is feedback-controlled based on the detection signal of the detection target 54 from the detector 57 described above. Further, an encoder 72 is mounted inside the servomotor 47, , That is, the rotation angle of the distribution arm 44 is detected.

As shown in FIGS. 3 and 5, a push-up cylinder 51 is mounted on the mounting base 5 by a support plate 52 below each of the distributing arms 44, and an upper end of the piston rod 51a is provided at the upper end of the piston rod 51a. A push-up body 53 that can be engaged with the holding rail 45 on the distribution arm 44 is provided. Then, the piston rod 51a, which is normally immersed, is protruded and moved as shown in FIG. 5, and when the push-up body 53 is raised, the holding rail 45 supporting the carrier 36 is lowered from the inclined state to the horizontal state. And the engagement wheel 38 on the carrier 36 is moved to the first or second chain.
It is configured to be engaged with 20, 23.

Next, the electric system of this embodiment will be described with reference to a block diagram shown in FIG. Each of the devices is driven and controlled by the electronic control circuit 60 to carry the carrier 36. The electronic control circuit 60 is configured with a well-known CPU 62, ROM 64, and RAM 66 as the center of a logical operation circuit, and is configured by mutually connecting an input / output circuit 68 for performing input / output with an external device via a common bus 70. ing.

The CPU 62 includes a number reading device 39, a detector 57, and an encoder 7.
2.Input / output circuit 68
And input each. On the other hand, these signals and ROM6
4.Based on the data in the RAM 66, the CPU 62
And outputs a drive signal for driving the servo motor 47 via
Similarly, a drive signal of the lifting cylinder 51 is output to a control valve (not shown) through the input / output circuit 68 to
Is controlling the operation of

In addition, the electronic control circuit 60 controls the distribution mechanisms 1a, 1b,.
One electronic control circuit is provided for each electronic control circuit.
60 is connected to a host computer 75, and the host computer 75 controls the entire system. The host computer 75 uses the keyboard 74 to determine the order in which the transporters 36 are transported to the respective work stations ST1,... In accordance with the work process of the sewing product or the like. Entered every time. The host computer 75 outputs to each electronic control circuit 60 a destination instruction indicating which work station ST1,... The transport body 36 should go to next for each transport body 36.
Each electronic control circuit 60 stores the destination instruction from the host computer 75 as the contents of the destination instruction table 76 shown in FIG. Note that the above transfer order is determined by each electronic control circuit.
The electronic control circuit 60 may store the destination instruction for each carrier 36, which is input at 60. When the carrier 36 arrives at the instructed work station ST1,... And receives an end signal indicating that the predetermined work has been performed, the carrier 36 instructs each of the work stations ST1,. It is configured to output to the control circuit 60 and rewrite the destination instruction table 76.

Next, the operation of the transport device of this embodiment and the processing performed in the electronic control circuit 60 will be described with reference to the flowchart shown in FIG.

First, when the chain drive motor 26 provided in the distribution mechanism 1a is rotated, as shown in FIGS. 4 and 5, the first chain 20 is driven via the drive pulley 28, the timing belt 30, and the like. As shown in FIG. 4, the second chain 23 is rotated around the bridge rails 8 and 10 in the counterclockwise direction in FIG. Is moved around in the same direction.

Thereby, the carrier 36 on the bridge rails 8, 10 or the station rails 11 is moved to the bridge rails 8, 10 or the station rails 11 with the engagement wheels 38 engaged with the first or second chains 20, 23. Along the direction of the arrow in FIG.

Then, the transport body 36 transported to the position corresponding to the number reading device 39 along the bridge rail 8 or the station rail 11 is temporarily stopped by a stopper (not shown). At this time, depending on whether the number reading device 39 has read the carrier identification number attached to the carrier 36, the carrier 36 to be loaded into the sorting mechanism 1a.
It is determined whether or not there is, and when it is determined that there is, the following distribution control processing is executed (step 100, hereinafter simply S
Expressed as 100. The same applies hereinafter. ). Next, each distribution arm 44
Each time, the presence or absence of the carrier 36 to be carried into the sorting arm 44 is stored (S110). In this embodiment, each of the sorting arms 44 is distinguished by attaching an arm number 1 to 8, and the loading unit at a position facing the sorting arm 44 of a certain arm number.
The number reading device 39 reads the number of the carrier 36 to be carried into 8a and 11a, and stores "1" and "0" as shown in the carrier sorting table 78 shown in FIG. . In the case shown in FIG. 2, the carrier number 36-2 is almost simultaneously placed in the loading section 8a of the bridge rail 8 connected to the adjacent sorting mechanism 1b and the loading section 11a of the station rail 11 in which the work station ST2 is arranged. , 36-4 are being transported. At the same time, the numbers 36-2 and 36-4 are read by the number reading device 39.
As shown in FIG. 12, “1” is stored for the distribution arm numbers 1 and 3 of the distribution arms 44 opposed to a and 11a. Other sorting arm numbers 2, 4
For Nos. To 8, "0" is stored because there is no transportable carrier 36. In this embodiment, since the carrier 36 may be simultaneously positioned on each of the four rails 8 and 11, up to four carriers 36 may be simultaneously loaded.

Next, referring to the destination instruction table 76 of FIG. 11, based on the number read by the number reading device 39, in order to distribute the carrier 36 to the rails 10, 11 according to the destination instruction,
The rotation angle of the number of the distributing arm 44 to be rotated is calculated. Then, as shown in the carrier distribution table 78 of FIG. 12, the distribution command is set by storing the rotation angle and the destination rail number for each distribution arm 44 (S120). If there are a plurality of carriers 36 whose existence has been confirmed in S110, for all carriers 36, S1
The process of 20 is repeated, and for each number of the distribution arm 44, the rotation angle and the destination rail number are stored, and a distribution command is set (S130).

In the case of the present embodiment, first, for the carrier number 36-4, since the destination is the work station ST2, the distribution arm 44 of the distribution arm number 1 is rotated clockwise, and The rotation angle -135 ° facing the carry-in portion 11b of the station rail 11 and the destination rail number are stored. Then, the processing of S120 and S130 is repeated to store the rotation angle 45 ° and the destination rail number for the carrier number 36-2.

After the necessary sorting command is stored in the carrier sorting table 78 in this manner, the loading unit in which the transporter 36 exists is located.
The stoppers 8a and 11a are retracted to release the stop of the transport body 36, and as shown in FIG. 5, all the transport bodies 36 whose presence has been detected by the processing of S100 are distributed from the loading sections 8a and 11a. It is carried on the arm 44 (S140). Then, the holding wheel 45 is lowered by its own weight to a position where it engages with the engaging protrusion 45a on the holding rail 45 in the downwardly inclined state, and the engaging wheel 38 is released from engagement with the first or second chain 20, 23, and is conveyed. Body 36 is holding rail
Holds stationary on 45.

In this state, based on the carrier sorting table 78,
By rotating the servo motor 47 for arm rotation by a predetermined angle,
The rotator 41 is rotated in the forward or reverse direction via the driving pulley 48 or the like.
The distribution arm 44 of the destination rail number
(S150). The distributing arm of the distributing arm number 1 at this rotationally arranged position
Each lifting body 53 is raised by the lifting cylinder 51 corresponding to 44, the holding rail 45 is rotated from the downwardly inclined state to the horizontal state, and each transport body 36 is raised, and the engagement wheel 38 is moved to the first or second position. The two chains 20, 23 are engaged. And the first or second
With the movement of the chains 20, 23, the carrier 36 is unloaded from the sorting arm 44 to the unloading units 10b, 11b (S160).

At this time, the carrier 36 to be carried into the sorting mechanism 1a
It is determined whether or not there is, as in S100, based on whether or not the number reading device 39 has read the carrier identification number attached to the carrier 36 (S170). If there is no carrier 36 to be carried in, it is determined whether or not there is a carrier 36 in the sorting mechanism 1a (S180). If there is a carrier 36, S150 is performed until there is no carrier 36 in the sorting mechanism 1a. To S170 are repeated. In the case shown in FIG. 12 of the present embodiment, the distribution arm 44 of the distribution arm number 3 is disposed so as to face the discharge section 10b of the destination rail number, and the transport body 36 of the transport body number 36-2 is moved to the discharge section 10b. When the carrier is removed from the sorting mechanism 1a and the carrier 36 is no longer present, the process returns to S100 and the following processing is repeatedly executed.

When the carrier 36 reaches a position on the station rail 11 corresponding to the work stations ST1,.
The movement of the carrier 36 is stopped by the stopper projecting above the station rail 11. In this state, an operator such as a sewing manufacturer removes an article such as a sewn product from the carrier 36, performs an operation such as sewing on the article, and returns the article to the carrier 36. Evacuated, carrier 36
Is restarted.

On the other hand, if a new transport body 36 is transported to any of the loading sections 8a, 11a while the processing of S110 to S160 is being performed, the transport body to be loaded into the sorting mechanism 1a in S170.
It is determined that there is a carrier 36, and it is determined whether or not the carrier 36 can be carried into the sorting mechanism 1a (S190). The determination as to whether or not to be carried in is made by checking whether or not there is a vacant space in the distribution arm 44 disposed opposite to the carry-in sections 8a and 11a to which the carrier 36 has been carried. The presence or absence of the carrier 36 corresponding to the arm number is determined by “1” or “0”.

If there is a space in the distribution arm 44 and the carrier 36 can be carried in, “1” indicating the existence of the carrier 36 to be carried is stored in the distribution arm 44 (S200). Next, similarly to S120, the destination instruction table 76
, And calculates a rotation angle for distributing the carrier 36 to the rails 10 and 11 according to the destination instruction based on the read number, and stores the rotation angle and the destination rail number for each distribution arm 44. Then, a distribution command is set (S210). When there are a plurality of transporting bodies 36 to be carried in, the processing of S190 to S210 is repeated for all the transporting bodies 36, the rotation angle and the destination rail number are stored for each distribution arm 44, and a distribution command is set. Yes (S220). Thirteenth
In the case shown in FIG. 14, the transporter number 36-1 is transferred from the work station ST2 to the unloading section 11b, and the transporter number 36-3 is transferred from the work station ST1 to the unloading section 11b. Since the sorting arms 44 of the sorting arms No. 4 and No. 8 facing the two unloading sections 11b which have been carried in respectively are vacant, "1" is stored in the carrier sorting table 78 (FIG. 14) for that. . In this embodiment, in the case where the odd-numbered distribution arms 44 of the distribution arm numbers 1, 3, 5, and 7 are arranged to face the unloading sections 8b and 11b,
The distribution arms 44 of even distribution arm numbers 2, 4, 6, and 8 are configured to face the loading sections 8a and 11a. Then, a new rotation angle is set for the distribution arm number 3, and a new distribution arm number 4,
No. 36-1, which is carried into the sorting arm 44 of No. 8;
36-3, the destination instruction table 76 in FIG.
And store the rotation angle and the destination rail number.
After storing the sorting instruction in this way, the stopper is retracted to release the stop of the transport body 36, and the transport body 36 is loaded onto the sorting arm 44 from the loading sections 8a and 11a (S23).
0), and proceed to S180.

If it is determined in step S180 that there is the transport body 36 in the sorting mechanism 1a, the processes in step S150 and subsequent steps are repeated. In the case of the above-described embodiment, the carrier sorting table 78 shown in FIG.
, The sorting arm 44 is rotated by 180 °, the sorting arm 44 of the sorting arm number 3 and the unloading section 8b of the bridge rail 8 of the destination rail number are arranged to face each other, and the carrier body number is 36-2. Out. Then, while repeating the above-described processing, a new carrier 36
Is carried into one of the carry-in sections 8a, 11a, S190
The following processing is repeated. For example, in the case shown in FIGS. 15 and 16, the transporter number 36-5 is transferred from the work station ST2 to the loading portion 11a, and the transporter number 36-6 is transferred from the bridge rail 8 to Each has been carried into the carry-in part 8a. In this case, the carrier of carrier number 36-6
Since the distribution arm 44 of the distribution arm number 6 facing the carry-in portion 8a into which 36 is carried is empty, the processes of S200 and S210 are performed as described above. But the carrier number
The distributing arm 44 of the distributing arm number 8 facing the carry-in portion 11a into which the transporter 36-5 is loaded has already contained the transporter 36 of the transporter number 36-3 and the transporter number 36.
Since the carrier 36 of -5 cannot be carried in, the processing of S190 is repeatedly executed, and the processing of S220 is performed without performing the processing of S200 and S210.
Move on to processing.

In this embodiment, the number reading device 39 is a detecting means.
The electronic control circuit 60 corresponds to the distribution control means M2, the determination means M4, and the carry-in control means M5. Then, among the processes executed by the electronic control circuit 60, the processes of S150, S160, and S180 shown in the flowchart of FIG. 10 correspond to the processes as the distribution control unit M2. Further, the processing of S170 and S190 corresponds to the processing as the determination means M4, and the processing of S200 and S230 corresponds to the processing as the carry-in control means M5.

As described above, when the transfer device 36 of the present invention unloads the transfer body 36 from the predetermined distribution arm 44 to the rails 10 and 11, the other distribution arm 44 has an empty space and the rails 8 and 11 opposed to the empty space. If there is a transport body 36 that can be loaded, the transport body 36 is loaded into the empty distribution arm 44 from the rails 8 and 11, and the transport body 36 is transported from the predetermined distribution arm 44 to the rails 10 and 11, respectively. Therefore, the carrier 36 can be carried in at the same time as the carrier 36 is carried out, so that all the carriers 36 in the sorting mechanisms 1a, 1b,.
It is not necessary to carry out the transfer to 10b and 11b and wait for all the distributing arms 44 to be completely emptied.
The work time of 36 can be shortened, and work efficiency can be improved.

As described above, the present invention is not limited to such embodiments at all, and can be implemented in various modes without departing from the gist of the present invention. In the above embodiment, the sorting arm 44
Are arranged radially every 45 degrees, but the number of distribution arms 44 may be increased, for example, to 10 every 36 degrees depending on the application.

[Effects of the Invention] As described in detail above, the transport device of the present invention sequentially transports a transport body to an empty sorting arm, so that it is possible to shorten the in-process time of the transport body and improve work efficiency. It has the effect of being able to.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating the basic configuration of the present invention, FIG. 2 is a plan view mainly showing the schematic configuration of rails and the like of a transfer device according to an embodiment of the present invention, and FIG. FIG. 4 is a plan view showing the drive configuration of the distribution mechanism of the present embodiment.
4 is a sectional view taken along line AA of FIG. 4, FIG. 6 is a sectional view taken along line BB of FIG. 4, FIG. 7 is a sectional view taken along line CC of FIG. 5, and FIG. D sectional view, FIG. 9 is a block diagram showing a configuration of an electric system of the present embodiment, FIG. 10 is a flowchart showing a distribution control process performed in the electronic control circuit of the present embodiment,
FIG. 11 is an explanatory diagram showing a destination instruction table of the transporter of the present embodiment, FIG. 12 is an explanatory diagram showing a transporter distribution table of the present embodiment, and FIGS. 13 and 15 are distribution control of the present embodiment. FIG. 14 is a diagram illustrating an example of movement of a transport body for explaining processing, FIG.
FIG. 13 is an explanatory diagram showing the carrier sorting table in the case of FIG. 13, and FIG. 16 is an explanatory diagram showing the carrier sorting table in the case of FIG. M1, 1a, 1b Distributing mechanism M2 Distributing control means M3 Detection means M4 Judging means M5 Loading control means 8, 10 Bridge rail (= transport rail) 11 Station rail (= (Conveyor rail) 36 Carrier 39 Number reader 44 Sorting arm 60 Electronic control circuit

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code FI D05B 33/00 D05B 33/00

Claims (1)

(57) [Claims] A plurality of distribution arms connected to a plurality of transportation rails for transporting the transportation body and holding the transportation body loaded from the transportation rail, wherein each distribution arm is moved to face the transportation rail. A distributing mechanism capable of unloading the transport body to the transport rail; controlling the distributing mechanism so that for each of the held transport bodies, a distributing arm is opposed to the transport rail corresponding to the destination of the transport body; A transport device that transports the transported body, the distribution mechanism comprising: a plurality of distribution arms, wherein the plurality of distribution arms can simultaneously face a plurality of the transport rails, and from one transport rail. It is configured such that another carrier can be carried in from another carrying rail at the same time as carrying out the carrier, and carrying the carrier to the sorting mechanism. Detecting means for detecting the presence of the transport body on the transport rail, and the other when the transport body is unloaded to the transport rail from the distribution arm distributed by the control of the distribution control means. Judging means for judging whether or not there is the transfer body capable of being loaded into the transfer rail corresponding to the sorting arm based on a detection result from the detecting means when there is an empty space in the sorting arm; When the determination unit determines that there is the transport body that can be loaded into the transport rail, a loading control unit that loads the transport body from the transport rail to the empty sorting arm. A conveying device characterized by the above-mentioned.