JP6074769B2 - Loading equipment - Google Patents

Description

The present invention provides a mounting portion having a rectangular shape in plan view for mounting and supporting an article, and a back portion and a pair of side portions in a state of rising from three of the four sides forming the outer edge of the mounting portion. An arrangement determining method for determining an arrangement for stacking articles in a plurality of stages with respect to the provided loading section, and a loading installation for stacking articles on the loading section in an arrangement determined by the arrangement determining method About bei.

  As a loading part in which articles are stacked in such a loading facility, for example, there is a cage car described in Japanese Patent Application Laid-Open No. 2008-189228 (Patent Document 1), and such a loading part (cage car). A plurality of articles are stacked on each other so that the plurality of articles can be transported together by a cart.

JP 2008-189228 A

As shown in FIG. 2 of Patent Literature 1, there is one kind of article to be loaded to be loaded on the loading section, and when the one kind of article is stacked on the loading section in two rows, the articles in order. Articles can be efficiently stacked simply by stacking them on the loading section.
When there are multiple types of articles with different lengths, widths, and heights, the arrangement for stacking the articles in a plurality of stages is determined in advance by the sequencing method. In addition, by stacking on the loading unit based on the predetermined arrangement, it becomes easy to stack the article on the loading unit in a state where the storage efficiency is good.
However, when the arrangement is determined in advance and the article is stacked on the loading section, a large gap is formed between the stacked article and the side surface portion of the loading section. Then, there is a possibility that the article moves to the side surface side and the article collapses, and there are cases where a plurality of types of articles cannot be stably stacked on the stacking portion in a plurality of stages.

  Therefore, an array arrangement method capable of stably stacking a plurality of types of articles in a plurality of stages on the loading section, and a loading facility for loading the loading section with the arrangement determined by the arrangement determining method Is desired.

The characteristic configuration of the loading facility according to the present invention is provided with a transfer device that is stacked on a placement unit, and a control device that controls the operation of the transfer device, and has a plan view for placing and supporting an article. said mounting portion of the rectangular shape, to the back portion and the pair of side portions in a state in which rises from three sides and, stowage provided with portions of the four sides forming the outer edge of the mounting section, wherein In the loading facility for loading the article on the loading unit in the arrangement determined by the arrangement determining method in which the transfer device decides the arrangement for stacking the article in a plurality of stages,
The arrangement determination method includes an arrangement determination step of determining an arrangement for stacking a plurality of articles based on a plurality of articles to be loaded and loaded article information indicating sizes of the articles to be loaded. In the arrangement determining step, at least one gap formed between a plurality of articles arranged in the left-right direction in which the pair of side surface portions are arranged is adjacent to one of the pair of side surface portions and the one side surface portion. The control device determines an arrangement so as to be larger than a gap formed between the article and a gap formed between the other of the pair of side parts and the article adjacent to the other side part. However, the operation of the transfer device is controlled so that articles are stacked on the loading unit in the arrangement determined by the arrangement determining method, and the loaded article information is distributed to the plurality of loading parts. Before multiple items to be stacked Including an information as an article to be loaded, and the control device performs an excessive article selection step of selecting an article until an amount of an article selected from the articles to be loaded reaches a preset set amount, The set amount is set to a volume in which the sum of the volumes of the plurality of selected articles is equal to or greater than the volume of the loading space in which the articles formed in the loading section are stacked. A part of the articles selected in the selection step is to be arranged as an article to be stacked on one loading unit .

According to this characteristic configuration, the arrangement of the articles determined by the arrangement determining step is such that at least one gap formed between the articles arranged in the left-right direction is enlarged, so that one of the pair of side surface portions and the one of the one side portions are The gap formed between the article adjacent to the side surface portion and the gap formed between the other of the pair of side surface portions and the article adjacent to the other side surface portion are arranged in a small array.
Based on the arrangement determined in advance by such an arrangement determining step, the gap formed between the stacked article and the side surface of the loading section is stacked by stacking the article on the loading section. Can be small. Therefore, since it is difficult for an article to move to the side surface side, there is little possibility that the article will collapse, and a plurality of types of articles can be easily and stably stacked on the stacking portion.
In addition, since the arrangement determination step is a step of determining the arrangement in which the articles are stacked in the loading space of the loading section, the total volume of the articles used in the arrangement determined in the arrangement determination step is the loading space. Less than capacity. On the other hand, in the excessive article selection step, articles that are equal to or larger than the volume of the loading space are selected.
Therefore, in the arrangement determination step, since a part of the articles selected in the excessive article selection step is selected to determine the arrangement, compared to a case where only necessary articles are selected in the article selection step, The variation of arrangement | sequence can be increased and it becomes easy to determine the arrangement | sequence with high loading efficiency by this.
Moreover, since the arrangement | sequence determined by the sequencing method is an arrangement | sequence which is easy to stack | stack articles | goods stably, when stacking to a loading part with a transfer apparatus by the arrangement | sequence determined by the sequencing method, or after stacking , Goods can be hard to collapse.

  Further, in the arrangement determining step, based on the loaded article information, set a plurality of loading patterns for stacking articles in a plurality of stages on the loading unit, and among the plurality of loading patterns, It is preferable to select a loading pattern having the largest total weight of articles used for stacking, and to determine the selected loading pattern as an array for stacking articles in a plurality of stages on the loading section. is there.

  According to this configuration, in the arrangement determination step, a plurality of loading patterns having different article arrangements are set, and the loading pattern having the largest total weight of the articles used for loading is set from the plurality of loading patterns. Select. Therefore, an article having a large weight is easily selected for the selected loading pattern, and an article having a small weight is easily selected for an article not selected. Therefore, when setting the loading pattern with the remaining articles, it is difficult to catch the weight limit.

Here, a plurality of articles that are distributed and stacked in a plurality of the loading units are set as the articles to be loaded, and each of the articles to be loaded is classified for each type of article. includes information indicating a separate set code number, wherein the controller performs information rearrangement steps of arranging the stowage article information in the order of the code numbers, then said sequencing step and the excessive article selection step Is preferable.

According to this configuration, after performing the information rearrangement step and arranging the product information with the order of the code numbers, in the excessive article selection step, the code numbers are preferentially selected from the previous articles in the arrangement order, and the code When the article with the number is exhausted, the article with the next code number is selected until the article reaches the set amount.
Therefore, in the excessive article selection step, the same type of article is preferentially selected, but the same type of article has the same length, width, and height. It becomes easy to determine an arrangement in which the heights of the upper surfaces of the articles are the same height, thereby making it easy to determine an arrangement of a plurality of stages.

  In the arrangement determining step, the support ratio is set in advance based on the loaded article information, with a ratio of the area of the lower surface placed and supported on the lower article to the area of the entire lower surface of the article as a support ratio. It is preferable to determine the arrangement of the articles so as to be equal to or higher than the set support rate.

  According to this configuration, when the arrangement of the articles is determined based on the loaded article information in the arrangement determination step, the article support rate in the arrangement is equal to or higher than the set support ratio. Therefore, when an article is stacked on the loading section based on this arrangement, the article has a high support rate that is equal to or higher than the set support rate, so that the article has good stability and is not easily collapsed. Can do.

Plan view of loading equipment Control block diagram Perspective view of the car Flow chart of stowage control Diagram showing order information The figure which shows the article information with goods rearranged by the information rearrangement process The figure which shows the goods information by which the goods were selected by the goods selection process Diagram showing the arrangement of the first and second stages Diagram showing the arrangement of the third stage The figure which shows the arrangement of the 4th stage Diagram showing the fifth row of arrays Diagram showing the arrangement of the 6th row Figure showing the 7th row arrangement Diagram showing the 8th row The figure which shows the support state of the article

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
As shown in FIG. 1, the loading facility includes an automatic warehouse 1 that stores articles W, a conveyor 2 that conveys articles W delivered from the automatic warehouse 1, and an article W that is conveyed by the conveyor 2. A transfer robot 4 for loading the car on the car 3 and a car carrier transporting device 5 for transporting the car 3 are provided.

As shown in FIG. 3, the car 3 has a rectangular mounting table 8 on which the article W is mounted and supported, and a state of rising from three of the four sides forming the outer edge of the mounting table 8. 3 and the plurality of moving wheels 10 provided on the lower surface of the mounting table 8 are provided.
Incidentally, the inner dimensions of the car 3 are 1070 mm in the left-right direction, 780 mm in the front-rear direction, and 1470 mm in height. On the mounting table 8 of the car 3, there is a loading space S on which the articles W are stacked. , Having the same size as the inner dimension (1070 mm × 780 mm × 1470 mm: volume about 1.23 m ³ ). Further, the loading load of the car 3 is 500 kg.
Each of the two surrounding wall parts 9 which opposes among the three surrounding wall parts 9 is called the side part 9a, and the remaining one surrounding wall part 9 is called the back surface part 9b. And the direction where a pair of side part 9a is located in a line is called the left-right direction, and the horizontal direction orthogonal to this left-right direction is called the front-back direction. The mounting table 8 corresponds to the mounting portion of the present invention, and the car 3 corresponds to the loading portion of the present invention.

As shown in FIG. 1, the automatic warehouse 1 is provided with an article storage shelf 12 that stores articles W, and a stacker crane 13 that conveys the articles W from the article storage rack 12 to the conveyor 2. The articles W stored in the automatic warehouse 1 include a plurality of types of articles W. The same type of articles W have the same length, width, height and weight, but different types of articles W have the same length, width, height and weight. Some may differ in part or all in height and weight.
Incidentally, the article W has a rectangular parallelepiped shape, and the length in the longitudinal direction in plan view is referred to as “length”, and the length in the short direction in plan view is referred to as “width”.

The conveyor 2 is configured to place and convey the article W delivered from the automatic warehouse 1 to the delivery place E1 by the stacker crane 13 to the transfer place E2.
The transfer robot 4 includes an articulated arm and a suction pad supported at the tip of the arm, and is configured so that the article W can be sucked and supported by the suction pad. And the transfer robot 4 hold | maintains the goods W located in the transfer location E2 on the conveyance conveyor 2, and loads the hold | maintained goods W on the cart 3 located in the setting position E3. Yes. The transfer robot 4 corresponds to a transfer device that loads the articles W on the cart 3 one by one.
The basket car transport device 5 transports the empty car 3 to the set position E3, and transports the car 3 after the transfer robot 4 has finished loading the articles W from the set position E3.

(Control device H)
Further, the loading facility is provided with a control device H that controls the operation of the stacker crane 13, the transfer conveyor 2, the transfer robot 4, and the cart transport device 5.
Articles W stored in the automatic warehouse 1 are assigned different product codes for each type, and the control device H has a product code and the length, width, and height of the type of product W indicated by the product code. And article information indicating the weight is stored in association with each other. Further, the control device H stores the storage position information of the article W stored in the automatic warehouse 1 and the product code of the article W in association with each other.

  Order information is sent to the control device H from a plurality of shipping destinations. As shown in FIG. 5, the order information includes information indicating a product code (corresponding to a code number) set for each type of product W for each product W to be loaded, and each product shown. And information indicating the number of articles W of the type corresponding to the code. The order number is assigned to the order information in the order of information transmission from the shipping destination.

  When the goods W to be loaded indicated by the order information are distributed and stacked on two or more basket cars 3 depending on the type and number of the articles, or when packed together on a single basket car 3 There is. Regarding the order information in which the former article W to be loaded is stacked on two or more basket cars 3, the articles W to be loaded are a plurality of articles W distributed and stacked on a plurality of basket cars 3. Become. Further, regarding the order information in which the latter article W to be loaded is stacked on one basket car 3, the articles W to be loaded are a plurality of articles W stacked together on one basket car 3. It becomes.

The control device H determines an array (loading pattern) for stacking a plurality of articles W on the car 3 based on the stacked article information, and stacks the articles W on the car 3 with the determined array. Therefore, the stacking control for controlling the operations of the stacker crane 13, the transfer conveyor 2, the transfer robot 4, and the basket car transfer device 5 is executed.
In this loading control, as shown in FIG. 4, information rearrangement processing, article selection processing, arrangement determination processing, arrangement selection processing, and article loading processing are executed, and one or more articles W to be loaded are placed. It is loaded onto the basket car 3.
Next, processing executed by the loading control by the control device H will be sequentially described. In describing the loading control, the loading control mainly based on the order information of the order number 001 will be described.

(Information sorting process)
The loaded article information is composed of order information and article information. The loaded article information includes a plurality of articles W to be loaded and the sizes (length, width, etc.) of the articles to be loaded. Information indicating the product code for each of the articles W to be loaded. In the information rearrangement process, the article information is associated with the order information sent from the shipping destination, and the associated article information is shown in FIG. Rearrange. Thereby, even when the articles W having the same product code are managed in a distributed manner, the articles W having the same product code can be managed together. The control device H manages the product information with the products arranged in ascending order of product codes.

(Article selection process)
In the product selection process, the product code is selected in the order of the product code from the product W to be loaded shown in the loaded product information. The selection of the article W is performed until the amount of the selected article W reaches a preset set amount. The set amount is set to a volume at which the total volume of the selected plurality of articles W is equal to or greater than the volume of the loading space S (about 1.23 m ³ ). Specifically, the set amount is set to 110% (about 1.35 m ³ ) of the loading space S.
That is, in the case where the loaded product information is as shown in FIG. 6, after selecting all the products W of the product codes 001 to 004 in the order of the product codes, the 12th product W of the product code 005 is selected. At that time, since the set amount of articles W (total volume) exceeds the set amount, the selection of the articles W is terminated.
As the article W selected in this way (hereinafter referred to as a selected article), an article W as shown in FIG. 7 is selected.

(Sequence determination processing)
In the arrangement determination process, an arrangement is determined for stacking a plurality of articles W in a plurality of stages on the car 3 based on the loaded article information. The arrangement of the plurality of stages is determined from the lower stage, and when it is determined that the car 3 is fully loaded, the determination of the arrangement is finished and a loading pattern in which the arrangement of the plurality of stages is determined is created.

More specifically, for the first stage from the bottom, an arrangement in which the selected articles are arranged in a plane in the loading space S is determined. For example, the first-stage arrangement as shown in FIG. 8 is determined.
Although detailed description is omitted, the points where the articles W are arranged in the horizontal direction in a state where the longitudinal direction or the short direction of the articles W are parallel to the left-right direction of the loading space S, or the articles W arranged in the horizontal direction Are arranged so that a distance of at least 5 mm is formed so that the distance between the peripheral wall portion 9 of the car 3 and the article W is a set distance, and the articles W are not overlapped in plan view. It is determined. Hereinafter, the set interval is simply abbreviated as an interval, but an interval wider than the set interval will be described as a gap a.

Although the arrangement shown in FIG. 8 is exemplified for the first stage arrangement, an arrangement using different types of articles W or an arrangement using different numbers of articles W may be determined. For example, the arrangement of the articles W of the type shown in FIG. 9 may be determined, or the arrangement obtained by removing one article W from the arrangement shown in FIG. 8 may be determined.
Further, even when the same type of article W is used and the same number of articles W is used, for example, from the arrangement shown in FIG. 6, the article W of the right end product code 005 is moved to the left side, and the next product code 005 is placed. An arrangement may be determined in which the gap a is not formed between the article W and the article W of the right end product code 005 and the gap a is not formed between the right side surface portion 9a.

For the second stage from the bottom, a combination is determined in which the articles W excluding the article W used in the first stage arrangement of the selected articles are arranged in the loading space S in a plane. For example, the second stage arrangement as shown in FIG. 8 which is the same as the first stage arrangement is determined.
For the third level from the bottom, a combination is determined in which the articles W excluding the articles W used in the first and second stage arrangements of the selected articles are arranged in a plane in the loading space S. For example, the third row arrangement as shown in FIG. 9 is determined.

  For the fourth row from the bottom, a combination is determined in which the articles W excluding the articles W used for the first to third rows of the selected articles are arranged in a plane in the loading space S. When determining the third stage arrangement, since the second stage arrangement has a step, the range in which articles W other than the product code 003 having the lowest height in the second stage are arranged is excluded. The sequence is determined using the range as the loading range. For example, the fourth row arrangement as shown in FIG. 10 is determined.

Incidentally, an allowable step value that allows a step is set. For example, when a value of 5 mm is set as the allowable step value, it is assumed that a step is actually generated but no step is generated. Set S.
That is, when the fourth row arrangement is set as shown in FIG. 10, the height of the upper surface of the article W of the fourth-stage product code 001 differs from the upper surface of the article W of the third-stage product code 004 by 5 mm. . However, for a step of 5 mm or less, it is considered that no step has occurred, and the sixth step arrangement is set.

In this way, as shown in FIG. 11 to FIG. 14, the arrangement from the fifth stage to the eighth stage is determined and the arrangement is determined from the lower stage. Set the loading pattern at the stage.
By the way, when the car 3 is fully loaded, it means that the article W having the lowest height among the remaining selected articles cannot be stacked so as to be less than the height of the loading space S or the remaining selected articles. In this state, the lightest article W cannot be stacked so as to be less than the load capacity.

In the arrangement determination process, when the arrangement of each stage is determined as described above, the area of the lower surface that is placed and supported on the lower article W with respect to the entire area of the lower surface of the article W for each article W used for the arrangement. The ratio is determined as a support rate, and the arrangement is determined so that the support rate becomes equal to or higher than a preset support rate.
As shown in FIG. 15, the set support rate depends on how many of the four vertices on the lower surface of the article W are placed and supported by the lower article W, depending on the state in which the article is supported. Different support rates are set.
Specifically, as shown in FIG. 15A, all four apexes are placed and supported by the lower article W, but a part of the lower surface of the article W is placed on the lower article W. For the article W that is not supported, the set support rate is set to 50%.
As shown in FIG. 15B, for the article W in which one of the four vertices is not placed and supported by the lower article W, the set support rate is set to 75%.
As shown in FIG. 15C, the set support rate is supported at 80% for the article W in which two of the four vertices are not placed and supported by the article W in the lower stage.
Incidentally, the two lower articles W have a level difference that is less than or equal to the allowable step value, and the articles W that are placed and supported across the two lower articles W are placed and supported by the two lower articles W. Is set (there is no step), and the set support rate is determined.

(Pattern selection process)
Until the set time elapses from the time when the article determination process is completed, the arrangement determination process as described above is repeatedly executed, whereby a large number of loading patterns are set. In the pattern selection process, one loaded pattern is selected from a large number of loaded patterns set in the repeated array determination process.

In the pattern selection process, the loading pattern having the heaviest total weight W of the articles W used is selected from among the many loading patterns.
When there are a plurality of heaviest loading patterns, one loading pattern is selected based on the following conditions.

1. 1. Stacking pattern with the highest total volume of articles W used 2. A loading pattern in which the space formed between the article W adjacent to the peripheral wall portion and the peripheral wall portion is the smallest. 3. Stacking pattern with the smallest number of articles W stacked in a bar 4. Loading pattern with the highest support rate of the used article Stacking pattern with the most even weight balance in the car By the way, the order of priority is determined in the order of 1-5.

When selecting a loading pattern under the conditions as described above, for example, for two certain loading patterns, the type and number of articles W used are the same, and the total value of the volumes of articles W used is In the same case, as the next condition, a loaded pattern having the smallest space formed between the adjacent article W and the peripheral wall portion 9 is selected.
That is, in the pattern formed between the pair of articles W like the article W of the pair of product codes 001 in FIG. 8 and the pattern formed between the article W and the side portion 9a, the side surface portion A pattern in which a space formed between the article W adjacent to 9a and the side surface portion 9a is small and a gap a is formed between the articles W is selected.

  Thus, in the pattern selection process, at least one gap a formed between the plurality of articles W arranged in the left-right direction has one article W adjacent to one of the pair of side faces 9a and the one side face 9a. Priority is given to the gap a formed between the other side of the pair of side surface portions 9a and the gap a formed between the other side surface portion 9a and the article W adjacent to the other side surface portion 9a. It is determined.

  As described above, when the loading pattern for the first car 3 is determined for the order information of the order number 001, it is determined whether or not all the articles W in the loading article information are selected as loading patterns. The That is, if all of the articles W indicated in the article selection process are selected in the article selection process and all of the selected articles are used as the loading pattern selected in the pattern selection process, Assuming that all the articles W of the article information have been selected as the loading pattern, the process proceeds to the article loading process.

Specifically, in the article selection process shown in FIGS. 6 and 7, three articles W with the product code 005, 10 articles W with the product code 006, and three articles W with the product code 007 are selected. Absent. Further, the loading pattern determined by the arrangement shown in FIGS. 8 to 14 includes three articles W of the article code 001 and three articles W of the article code 002 among the selected articles shown in FIG. One article W of 004 and three articles W of product code 005 are not used.
In such a case, it is assumed that all the articles W in the article information for loading are not selected as loading patterns, and the articles W that are not selected in the article selection processing as described above and the selected loading patterns are used. As a new product information, the product pattern for the second car 3 is determined.

In this manner stowage control, information rearrangement process (information rearrangement step), the article selection process (article selection step (over a multi-article selection step)), and executes sequencing process and pattern selection processing (sequencing step) Thus, one loading pattern is determined for one basket car 3.

  In the article loading process, the article W used for the loading pattern is unloaded from the automatic warehouse 1 and the unloaded article W is loaded onto the cart 3 in order to load the article W on the basket 3 with the selected loading pattern. In order to attach, the operation | movement of the stacker crane 13, the conveyance conveyor 2, the transfer robot 4, and the cart conveyance apparatus 5 is controlled.

  Thus, by executing the loading control, the article W can be automatically loaded on the car 3. When the article W is stacked on the car 3, in the pattern selection process, at least one gap a formed between the plurality of articles W arranged in the left-right direction is connected to one of the pair of side surface portions 9 a. A gap a formed between the article W adjacent to one side surface portion 9a and a gap a formed between the other of the pair of side surface portions 9a and the article W adjacent to the other side surface portion 9a. A sequence that is larger is preferentially determined. Therefore, since the article W is difficult to move to the side surface portion 9a side, the possibility that the article W will collapse is small, and a plurality of types of articles W can be easily and stably stacked on the car 3 in a plurality of stages.

[Another embodiment]
(1) In the above embodiment, the article W is automatically loaded on the loading unit by the transfer device based on the loading pattern, but an image showing the loading pattern is displayed on the monitor, and the operator The article W may be artificially stacked on the stacking unit based on the image displayed on the monitor.

(2) In the above embodiment, the set amount for selecting the article W in the article selection step is set to a volume in which the total volume of the selected plurality of articles W is equal to or larger than the volume of the loading space S. The set amount for selecting the article W in the selection step is set to a volume in which the total volume of the selected articles W is equal to or less than the volume of the loading space S, for example, 90% of the volume of the loading space S. May be.

(3) In the above embodiment, the loading pattern having the heaviest total weight of the used article W is selected from the plurality of loading patterns in the arrangement determination step. However, in the arrangement determination step, the loading patterns of the plurality of loading patterns are selected. You may select the loading pattern with the largest total volume of the articles | goods W used from the inside.

(4) In the above-described embodiment, the product item information is rearranged in the order of the product codes in the information rearrangement step. However, the product item information is rearranged in the order of the height of the item W in the information rearrangement step. Also good.

(5) In the above-described embodiment, the loading portion is configured by the car 3. For example, the side portion 9 a and the rear portion 9 b are provided upright on the pallet, or the side portion 9 a and the rear portion are provided on the automatic conveyance carriage. 9b may be installed upright.

(6) In the above-described embodiment, the sequence determination process is repeatedly executed until a set time elapses. However, the sequence determination process may be repeatedly executed until a set number of product patterns are formed.

3 car (loading part)
4 Transfer robot (transfer equipment)
8 Mounting table (mounting unit)
9a Side surface portion 9b Back surface portion a Clearance H Control device W Article

Claims (4)

A transfer device for stacking articles on the placement unit, and a control device for controlling the operation of the transfer device;
The above-described mounting portion having a rectangular plan view for mounting and supporting the article, and a back surface portion and a pair of side surfaces in a state of rising from three of the four sides forming the outer edge of the above-described mounting portion are provided. A loading facility for stacking articles on the loading section in an arrangement determined by an arrangement determining method in which the transfer device determines an arrangement for stacking articles in a plurality of stages with respect to the loading section. ,
The arrangement determination method includes an arrangement determination step of determining an arrangement for stacking a plurality of articles based on a plurality of articles to be loaded and loaded article information indicating sizes of the articles to be loaded. ,
In the arrangement determining step, the article in which at least one gap formed between a plurality of articles arranged in the left-right direction in which the pair of side parts are arranged is adjacent to one of the pair of side parts and the one side part. And the arrangement to be larger than the gap formed between the other of the pair of side surface portions and the article adjacent to the other side surface portion,
The control device controls the operation of the transfer device so as to stack articles on the stacking unit in the arrangement determined by the arrangement determination method;
The loaded article information includes information regarding a plurality of articles distributed to and stacked on the plurality of loading units as the article to be loaded,
The control device performs an excessive article selection step of selecting an article until an amount of an article selected from the articles to be loaded reaches a preset set amount,
The set amount is set to a volume that is equal to or greater than the volume of the loading space in which the total of the volumes of the selected plurality of articles is stacked with the articles formed in the loading section,
In the arrangement determination step, a loading facility that determines an arrangement as an article to be loaded on one of the loading portions of a part of the articles selected in the excessive article selection step. In the arrangement determining step, a plurality of loading patterns for stacking articles in a plurality of stages are set on the loading unit based on the loaded article information, and among the plurality of loading patterns, loading is performed. 2. The loading pattern having the largest total weight of the articles used in the step is selected, and the selected loading pattern is determined as an array for stacking articles in a plurality of stages on the loading section. product attached Bei described. The loaded article information is set for each type of article for each of the articles to be loaded, with a plurality of articles distributed and stacked to a plurality of the loading units as the articles to be loaded. Including information indicating the code number
The loading equipment according to claim 1 or 2, wherein the control device performs an information rearrangement step of arranging the loaded article information in the order of the code numbers, and then performs the excessive article selection step and the arrangement determination step . . In the arrangement determining step, the support rate is preset based on the loaded product information, with a ratio of the area of the lower surface placed and supported on the lower article to the area of the entire lower surface of the article as a support rate. The loading equipment according to any one of claims 1 to 3, wherein an arrangement of articles is determined so as to be equal to or higher than a set support rate .

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