KR101551291B1 - Method for controlling temperatures of storages - Google Patents

Abstract

A method for controlling a temperature of a plurality of warehouses, the method comprising: arranging the articles according to a storage temperature sequence in consideration of a storage temperature of the articles stored in the plurality of warehouses; And stores the sorted articles in the selected warehouses in order to set the selected storage temperatures for the warehouses based on the storage temperatures of the stored articles.

Description

[0001] The present invention relates to a method for controlling a plurality of warehouses,

The present invention relates to a method for controlling a temperature of a plurality of warehouses, and more particularly, to a method for automatically setting a temperature to be maintained in a warehouse, thereby reducing power consumption caused by cooling and heating of the warehouse.

As power consumption increases rapidly, there are many problems in power supply and demand. In order to solve the above problems, a method for efficiently managing the electric power used in the warehouse has been continuously studied.

Meanwhile, the prior art cited below discloses a method of controlling the internal temperature of a warehouse, and measures the internal temperature of the warehouse through a sensor provided inside the warehouse, and suggests a method of re-adjusting the internal temperature of the warehouse when the temperature is outside the predetermined temperature range . However, the method proposed in the prior art document has a fatal disadvantage that it is inefficient as a method for reducing the power consumption of the warehouse by storing the articles regardless of the storage temperature of the articles in the warehouse.

In other words, for fresh products such as frozen foods, refrigerated foods, or fruit or vegetable meats stored in warehouses, it is very important to maintain a constant low temperature, so the warehouse must always operate the air conditioner to control the temperature. Here, since the storage temperature of the warehouse must be set to be lower than the storage temperature of the article having the lowest minimum storage temperature among the articles stored in the warehouse, the reduction of the power consumption of the warehouse is not taken into consideration at all.

From this viewpoint, when the articles to be stored in the warehouse are stored in the warehouse, the storage temperatures of the articles are taken into consideration and stored in the different warehouses. By automatically adjusting the storage temperatures of the warehouses, It is possible to know that there is a need for technical means to do this.

Open Patent Publication No. 10-2012-0068875 (June 27, 2012)

Accordingly, a first problem to be solved by the present invention is to provide a method and apparatus for storing a product by selecting a warehouse in consideration of the volume of articles to be stored in the warehouse, and automatically setting a holding temperature for each warehouse And to provide a temperature control method for a plurality of warehouses.

It is another object of the present invention to provide a computer-readable recording medium storing a program for causing a computer to execute the above-described method.

In order to accomplish the first object of the present invention, there is provided a method of manufacturing a warehouse, comprising the steps of: arranging the articles in accordance with a storage temperature sequence for the articles stored in a plurality of warehouses; Selecting a warehouse to store the sorted articles in consideration of the total volume of the articles; Storing the sorted articles in the selected warehouses in order; And setting the selected storage temperature for each of the warehouses based on the storage temperature of the stored articles.

According to an embodiment of the present invention, the step of aligning the articles may include arranging the articles in the order of higher storage temperatures when the warehouse is heated, And aligning the storage temperatures for the articles in descending order of temperature.

In addition, the step of selecting the warehouse may include: summing all the volumes of the aligned articles to derive a total volume of the articles; Dividing the derived total volume into volumes for one of the plurality of warehouses to derive the number of warehouses in which the articles are to be stored; And selecting a warehouse for storing the articles as many as the number of the derived warehouses.

According to another embodiment of the present invention, the step of setting the respective holding temperatures for the selected warehouses may include the steps of: selecting each article having the lowest storage temperature among the articles stored in the respective warehouses for each of the selected warehouses; And setting the storage temperature of the selected articles to the maintenance temperatures of the selected warehouses, respectively.

According to another embodiment of the present invention, the step of setting the selected storage temperatures for the respective warehouses may include a step of, when a new article is loaded into the selected storage for cooling, considering the free space of the selected warehouse, Further comprising the step of selecting the warehouse to which the new article is to be brought in and taking in the new article by taking into account the change in the holding temperature of the set warehouse according to the addition of the new article, Lt; / RTI >

According to another embodiment of the present invention, the step of setting the holding temperatures for the selected warehouses may include the steps of: selecting, from among the selected warehouses to be heated, And setting the storage temperature of the selected articles to the storage temperatures of the selected warehouses, respectively.

According to another embodiment of the present invention, there is a clear space for accommodating the volume of the new article, while the storage temperature of the selected new article is included in the selected storage temperature range of the warehouse And if the warehouse satisfies the condition, the warehouse satisfying the condition is selected by the warehouse to which the new article is to be brought in, so that the new article is brought into the warehouse.

According to another embodiment of the present invention, when the storage temperature of the new article is included in the storage temperature range of the warehouse, but there is no spare space of the storage, Selecting an item to be moved to another warehouse in consideration of the volume of the items stored in the selected warehouse and the free space of the warehouse in the selected warehouse, And the temperature of the new warehouse is transferred in consideration of the temperature range, thereby bringing the new article into the warehouse.

According to another embodiment of the present invention, when there is no free space of the other warehouse to accommodate the selected goods, the articles stored in the selected warehouse are sorted in the order of low storage temperature, Dividing the new article into two groups so that the total volume for the articles is halved and moving the articles belonging to one of the two groups to a new warehouse that has not been used before, The temperature of the new warehouse and the temperature of the new warehouse are taken into account.

According to another embodiment of the present invention, the step of setting the maintenance temperatures for the selected warehouses may include the steps of: storing the articles stored in the selected warehouses so that the total volume of the articles to be stored in the selected warehouses is a predetermined value If the volume is less than the volume, the method may further include a step of rearranging the articles by merging the articles stored in consideration of the spare space of the selected warehouses.

According to another embodiment of the present invention, the step of rearranging the items comprises: obtaining warehouses having a total volume of articles to be stored less than a predetermined volume due to the taking-out of the articles; Summing all the volumes of the articles stored in the derived warehouses and sorting the derived warehouses having a larger free space of the warehouses than the summed volumes; And merging and rearranging the articles stored in the warehouses whose total volume of the articles to be stored is less than a predetermined volume with the selected warehouse.

According to another embodiment of the present invention, when there is no derived warehouse having a larger free space of the warehouse than the summed volume, the articles are sorted in the order of lower storage temperature, and the volume of the sorted articles The total number of the warehouses to be stored is divided by the total volume of the warehouse to deduce the number of the warehouses in which the articles are to be stored so that the number of the re- The products stored in the warehouses whose total volume of the articles to be stored is less than a predetermined volume are merely rearranged by merging all the articles stored in the warehouses.

According to another embodiment of the present invention, the step of arranging the articles may include arranging the warehouses in the order of smaller size when the sizes of the plurality of warehouses are not the same, The method comprising the steps of:

According to another aspect of the present invention, there is provided a computer readable recording medium having recorded thereon a program for causing a computer to execute a temperature control method for a plurality of warehouses.

According to the present invention, the holding temperature is automatically set in each warehouse by using the storage temperature of the article to be stored for each warehouse, thereby reducing the amount of electric power consumed in cooling and heating the warehouse.

In addition, when a new article is brought in, the warehouse to which the new article is to be introduced is selected in consideration of the free space and the holding temperature of the warehouse, thereby effectively operating the warehouse.

Furthermore, when the article is taken out, the warehouse can be efficiently operated by merging and rearranging the article in consideration of the free space of the warehouse.

FIG. 1 is a flowchart illustrating a temperature control method for a plurality of warehouses according to an embodiment of the present invention.
2 is a view illustrating a temperature control process for a plurality of warehouses according to another embodiment of the present invention.
FIG. 3 is a view illustrating a process of loading a new article when there is a free space of a warehouse according to another embodiment of the present invention.
4A is a view illustrating a process of importing a new article when there are two or more warehouses in which a selected article can be stored in a process of importing a new article according to another embodiment of the present invention.
FIG. 4B is a view illustrating a process of importing a new article in a first case where another selected warehouse can store the selected article in the process of importing a new article according to another embodiment of the present invention.
FIG. 4C is a view illustrating a process of importing a new article in a second case in which another warehouse is stored in which a selected article can be stored in the process of importing a new article according to another embodiment of the present invention.
FIG. 5 is a view illustrating a process of importing a new article when there is no other warehouse in which a selected article can be stored in the process of importing a new article according to another embodiment of the present invention.
FIG. 6 is a view illustrating a process of merging and rearranging articles in a process of being carried out according to another embodiment of the present invention.
FIG. 7 is a view illustrating a process of merging and rearranging articles when there is no free space in the warehouse in the process of moving the articles according to another embodiment of the present invention.
FIG. 8A is a view showing an initial state in which articles are arranged when the size of a warehouse is different according to another embodiment of the present invention. FIG.
FIG. 8B is a view illustrating a temperature control process for a plurality of warehouses when the size of the warehouse is different according to another embodiment of the present invention.

Before explaining the embodiments of the present invention, the technical means adopted by the embodiments of the present invention will be outlined to solve the problems occurring in the conventional method of controlling the warehouse temperature.

Conventionally, as a method for automatically controlling the warehouse temperature, sensors for detecting the temperature inside the warehouse are attached, and the temperature inside the warehouse is readjusted when the temperature is changed by sensing the temperature which changes every hour. However, since the conventional method for controlling the warehouse temperature is stored regardless of the storage temperature of the articles in the warehouse, it is inefficient and there is a fatal drawback that much power is consumed without considering the power consumption.

Therefore, embodiments of the present invention propose a technical means for efficiently managing the power and space operation of the warehouse in consideration of the volume of the warehouse and the storage temperature of the articles stored in the warehouse.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following description and the accompanying drawings, detailed description of well-known functions or constructions that may obscure the subject matter of the present invention will be omitted. It should be noted that the same constituent elements are denoted by the same reference numerals as possible throughout the drawings.

FIG. 1 is a flowchart illustrating a temperature control method for a plurality of warehouses according to an exemplary embodiment of the present invention. Referring to FIG. 1, the articles are sorted according to a storage temperature sequence for the articles stored in a plurality of warehouses, And selecting a warehouse to store the aligned items in consideration of volume. And storing the sorted articles in the selected warehouses in order, thereby setting the selected holding temperature for each warehouse based on the storage temperature of the stored articles. 1 may also be implemented as an apparatus with one or more processors.

More specifically, in step S110, the articles are sorted according to the storage temperature sequence for the articles stored in the plurality of warehouses. In other words, when the warehouse is heated, the storage temperatures of the stored articles are sorted in descending order, and when the warehouse is cooled, the storage temperatures of the stored articles can be sorted in descending order .

In step S120, a warehouse to store the aligned articles is selected in consideration of the total volume of the articles.

More specifically, the total volume of the articles is summed by summing the volumes of the sorted articles, and the total volume thus derived is divided by the volume of one of the plurality of warehouses to determine the number of the warehouses And can select a warehouse for storing the articles by the number of the derived warehouses.

In step S130, the sorted articles are stored in the selected warehouses in order.

In step S140, the selected storage temperatures for the respective warehouses are set based on the storage temperatures of the stored products.

More specifically, an article having the lowest storage temperature among the articles stored in the respective warehouses is selected for each of the selected warehouses to be cooled, and the storage temperature of the selected article is set to the maintenance temperature of the selected warehouses Can be set. Also, for each of the selected warehouses that are heated, each article having the highest storage temperature among the articles stored in the respective warehouses is selected, and the storage temperature of the selected articles is set to the maintenance temperature of the selected warehouses have.

The temperature control method for the plurality of warehouses of FIG. 1 will be described in more detail with reference to FIG.

2 is a view illustrating a temperature control process for a plurality of warehouses according to another embodiment of the present invention. Here, when there are two or more warehouses for which both heating and cooling are all operable, the warehouses are stored in the respective warehouses regardless of the storage temperature of the articles using the conventional method for controlling the temperature of the warehouses, and the sizes of the articles stored in the warehouses are the same The lowest storage temperature is below the lowest temperature of the storage temperature of the article, the maximum storage temperature is higher than the highest temperature of the storage temperature of the article, and each article stored in the warehouse has a bar code Or an RFID tag attached thereto. Also, the sizes of the warehouses used in FIG. 2 are all the same, and it can be assumed that cooling is performed to maintain the minimum storage temperature of the articles.

The warehouse 1 (21), the warehouse 2 (22), and the warehouse 3 (23) are examples of the state of the initial warehouse and the items are not arranged through the temperature control method for the plurality of warehouses of the present invention. In addition, the warehouse 1 (21), the warehouse 2 (22), and the warehouse 3 (23) can know the space of the warehouse, the holding temperature, and the free space. Here, the space of the warehouse may be a space in which all of the moving path in the warehouse is considered, and the space of the warehouse may be assumed to be 60 m ³ . In addition, the holding temperature is a temperature to be maintained at each warehouse, and may be set to the lowest minimum storage temperature among the articles stored in the warehouse. Here, the holding temperature may be set at the lowest storage temperature in a storage room that is cooled, and may be set to a highest storage temperature in a heating warehouse. In addition, the free space may be a space in which a new article can be brought in and stored, and the minimum storage temperature and the volume of the article may be displayed on the article stored in the warehouse, have. The lowest storage temperature indicated by the article can be displayed by changing to the maximum storage temperature when the warehouse is heated. In addition, the volumes of the articles stored in the warehouse may be the same or different.

Here, the warehouse 1 (21), the warehouse 2 (22), and the warehouse 3 (23), which are the initial warehouse states, can arrange items stored in the warehouse as follows.

First, each of the articles stored in the warehouse 1 (21), the warehouse 2 (22), and the warehouse 3 (23) in an initial state is compared with the lowest storage temperature, and the lowest storage temperature for cooling (27). In this case, considering the similarity of the minimum storage temperatures of the articles stored by each warehouse, the lowest storage temperature may be listed in order from the lowest storage temperature to the lowest storage temperature. In addition, when the warehouse is heated, the articles can be sorted in order from the highest storage temperature.

이고, i번째 창고의 j번째 물품의 부피를

이고, 창고의 공간을 V이며, z보다 작지 않은 가장 작은 정수를

라 할 때, 물품의 총 부피 V_n은 다음과 같이 표현할 수 있다.Thereafter, the total volume of sorted articles 27 may be derived and the number of warehouses to be used may be derived according to the derived total volume. Here, if the number of used warehouses is n and the number of articles stored in the i-th warehouse is

, And the volume of the jth item in the ith warehouse is

, The space of the warehouse is V, and the smallest integer not smaller than z

, The total volume V _n of the article can be expressed as follows.

In addition, the number of warehouse use can be expressed as follows.

For example, it is assumed that the number k ₁ of the articles stored in the warehouse 1 (21) of FIG. 2 is 5, the number k ₂ of the articles stored in the warehouse 2 (22) The number of k ₃ is 7, and when the space of the warehouse is 60 m ³ , when the total volume of the articles is derived from Equation 1, it is 133 m ³ , and when the number of warehouses is derived from Equation 2, Able to know. Thus, it can be seen that the number of uses of the warehouses in which sorted articles 27 are to be stored is three.

Thereafter, the articles 27 sorted in the selected warehouse 1 24, the selected warehouse 2 25 and the selected warehouse 3 26 are stored in the order of lowest storage temperature, 24, the selected warehouse 2 (25), and the selected warehouse 3 (26) can be set to the lowest value among the minimum storage temperatures of the articles stored for each warehouse. In other words, in the selected warehouse 1 (24), the lowest minimum storage temperature of 0 占 폚 is set as the holding temperature of the selected warehouse 1 (24), and in the selected warehouse 2 (25) Is set to the holding temperature of the selected warehouse 2 (25). In the selected warehouse 3 (26), the lowest minimum storage temperature of 29 [deg.] C can be set as the holding temperature of the selected warehouse 3 (26). Also, the selected storage temperature range of the warehouse 1 (24) is 0 ° C to 7 ° C because the highest minimum storage temperature is 7 ° C, and the storage temperature range of the selected warehouse 2 (25) Deg.] C and 13 [deg.] C to 28 [deg.] C. The storage temperature range of the selected warehouse 3 (26) can be 29 [deg.] C to 30 [deg.] C since the highest minimum storage temperature is 30 deg.

In addition, the free space of the selected warehouse 1 24, the selected warehouse 2 25, and the selected warehouse 3 26 is maintained at 10% to 15% of the space of the warehouse so as to facilitate the loading of new articles, Items can be stored.

If a new article is loaded into the selected warehouse, consideration is given to the free space of the selected warehouse, and whether there is a change in the holding temperature of the set warehouse due to the addition of the new article, The new warehouse can be brought in by selecting the warehouses to be brought in. In addition, when the warehouse is cooling, a new article is stored in consideration of a minimum storage temperature range of the warehouses being used, and when a new article is being heated, a new article is stored And if the article is not included in the storage temperature range of all the warehouses in use, the new article can be brought into the warehouse where the storage temperature of the warehouse does not change. Here, bringing in the new article will be described in more detail with reference to FIG.

3 is a view illustrating a process of loading a new article when there is a free space of a warehouse according to another embodiment of the present invention, By selecting a warehouse satisfying the above condition as a warehouse in which the new article is to be brought in, when there is a warehouse that is included in the temperature range and satisfies a condition that there is a free space for accommodating the volume for the new article, Can be imported.

More specifically, assuming that the new ware 31 having a minimum storage temperature of 12 캜 and a volume of 8 m ³ is loaded in the selected warehouse, the minimum storage temperature of the new article 31 is 12 ° C, Since 8m ^3, the holding temperature range is 7 ℃ to 15 ℃, there is a free space to store to fetch a new article (31) to 10.5m ³ of the selected second storage (25).

On the other hand, when the storage temperature of the new article 31 is included in the storage temperature range of the storage, but the storage space of the storage is not present, the storage temperature of the new article 31 is included in the storage temperature range Selecting a warehouse to be moved to another warehouse in consideration of the volume of the stored articles and the free space of the warehouse in the selected warehouse, So that the new article can be imported.

More specifically, when there is no room for the new article 31 in the selected warehouse containing the minimum storage temperature of the new article 31 within the storage temperature range, the following process can be performed.

First, a warehouse containing the lowest storage temperature of the new article 31 within the storage temperature range among the warehouse 1 24, warehouse 2 25, and warehouse 3 26 is selected, The sum of the volume of the product stored in the warehouse and the free space of the selected warehouse may be selected to be greater than or equal to the volume of the product 31 to be newly loaded. Here, as V _n on the volume of the n-th item, and d S the amount of free space on the storage, and when said volume of the article 31 to be newly imported V _c, the stored goods by volume and the sorting in the selected warehouse The sum of the sum of the free spaces of the warehouses to be newly added is larger than or equal to the volume of the article 31 to be newly loaded can be expressed as follows.

Thereafter, except for the warehouse selected by the warehouse containing the minimum storage temperature of the new article 31 within the storage temperature range, the minimum storage temperature of the article among the articles selected through the formula (3) It is possible to select an article having the lowest minimum storage temperature among the articles selected as the article to be moved other than the excluded article, and to transfer the selected article to a warehouse where the selected article can be stored. Thereafter, the new article 31 can be brought in and stored at the place where the selected article is taken out. Here, when the warehouse is cooling, the article having the lowest storage temperature is selected, and when the warehouse is heated, the article having the highest storage temperature can be selected, and the article selected as the article to be moved to the other warehouse The user can arbitrarily select and move the article.

On the other hand, when there are two or more warehouses that can store and store the selected goods, one of the two warehouses must be selected. Therefore, the selection of the one warehouse will be described with reference to FIG. 4A.

4A is a view illustrating a process of importing a new article when there are two or more warehouses in which a selected article can be stored in a process of importing a new article according to another embodiment of the present invention.

More specifically, an article 24 to be moved to another warehouse is selected for bringing in a new article 31, and a warehouse in which the holding temperature of the warehouse is unchanged due to the minimum storage temperature of the article 24 to be moved to another warehouse Can be selected. Here, when the selected warehouses are two or more, the warehouse having the lowest storage temperature range closest to the minimum storage temperature of the article 24 to be moved can be selected and the article 24 to be moved can be stored. The reason why the article 24 to be moved is stored in a place where the holding temperature of the warehouse is unchanged is because the amount of power consumption generated by resetting the holding temperature of the warehouse can be minimized.

Also, for example, a warehouse currently active storage 1 24 to 4a, and the storage 2 (25), and storage 3 (26), and a 12 ℃ lowest storage temperature, new goods 31, a volume of the 8m ³ The article 31 to be newly brought in is stored in the warehouse 2 (25) because the minimum storage temperature of the article 31 to be newly carried is included in the holding temperature range of 7 to 15 degrees Celsius of the warehouse 2 (25) But it can not be stored in the warehouse 2 (25) because there is no free space for storing the new article (31).

Accordingly, when deriving the goods satisfying the expression (3) in the second storage 25, the minimum storage onga 9 ℃ and a volume of 10m ³ of article 41 and a minimum storage temperature of 10 ℃ is the volume of 10.5m ³ article (42 ) Can be selected. Thereafter, comparing the volumes of the selected articles 41 and the selected articles 42 with the available spaces of the warehouses 1 and 24 and the warehouses 3 and 26, the free space of the warehouse 1 24 is 20 m ³ , The warehouse 1 24 and the warehouse 3 26 can be sorted into the warehouses which can store and store the selected articles 41 and the sorted articles 42 because the free space of the warehouses 3 and 26 is 17 m ³ . The selected articles 41 and the selected articles 42 should be stored at the lowest minimum storage temperature 8 DEG C in the warehouse 2 (25) The branch 43 is not the article 43 and therefore may not be excluded. Thereafter, when an article including the lowest lowest temperature among the selected article 41 and the selected article 42 is selected, the article 41 including the lowest storage temperature 9 ° C is finally moved from the warehouse 2 (25) You can choose to make the item. Thereafter, the selected article 41 is moved to and stored in the warehouse 1 (24), and the new article 31 to be loaded is brought into the place where the selected article 41 is taken out and stored. Since the minimum storage temperature of the warehouse 3 (26) is 24 占 폚, the holding temperature of the warehouse 3 (26) is changed according to the minimum storage temperature 9 占 폚 of the selected article 41, have.

FIG. 4B is a view illustrating a process of importing a new article in a first case where another selected warehouse can store the selected article in the process of importing a new article according to another embodiment of the present invention.

More specifically, when there is only one warehouse 24 in which the moved article 41 can be stored for storage of the new article 31 to be carried, when the moved article 41 is stored in the warehouse 24 , It is possible to consider both the case where the holding temperature of the warehouse 24 stored according to the minimum storage temperature of the article 41 to be moved and the case where the holding temperature does not change.

First, the case where the holding temperature of the warehouse 24 stored according to the minimum storage temperature of the article 41 to be moved does not change will be described. For example, assuming that the warehouse being used is warehouse 1 (24), warehouse 2 (25), and warehouse 3 (26), when an article 31 having a minimum storage temperature of 12 캜 and a volume of 8 m ³ is imported , The minimum storage temperature of the new article 31 is 12 deg. C, so that it can be carried into the warehouse 2 (25) with the holding temperature range of 7 to 15 deg. C, but the warehouse 2 (25) has no free space. Therefore, it is possible to select the articles 41 to be moved in order to bring in the new articles 31 in the warehouse 2 (25), and to select the warehouses 24 to store the articles 41 to be moved. Thereafter, the article 41 to be moved is moved to and stored in the warehouse 24 to be stored, and the article 41 to be moved is moved to the place where the new article 31 is to be moved. Here, the process of selecting the article 41 to be moved and the warehouse 24 to be stored has been described in detail with reference to FIG. 4A, and thus will not be described here.

The case where the holding temperature of the warehouse 24 stored in accordance with the minimum storage temperature of the moved article 41 changes will be described in more detail with reference to FIG.

FIG. 4C is a view illustrating a process of loading a new article in a second case in which another selected warehouse can store the selected article in the process of loading a new article according to another embodiment of the present invention, (41) and the warehouse (26) to be stored are selected through the method used in Fig. 4A.

More specifically, for example, assuming that the warehouse in use is warehouse 1 24, warehouse 2 25 and warehouse 3 26, the article 31 having a minimum storage temperature of 12 ° C and a volume of 8 m ³ , When a transfer, is the lowest storage temperature of a new article (31), so 12 ℃ but the holding temperature range to be imported into the shed 2 25 8 ℃ to 15 ℃, 2 warehouse 25 is free space 1.5m ³ I can not save because there is only one. Therefore, it is possible to select the articles 41 to be moved for bringing in the new articles 31 in the warehouse 2 (25), and to select the warehouses 26 for storing the articles 41 to be moved. At this time, if the minimum storage temperature of the article 41 to be moved is lower than the storage temperature of the warehouse 26 to be stored, the holding temperature of the warehouse 26 to be stored can be changed according to the loading of the article 41 to be moved. In the process of selecting the article 41 to be moved so as to reduce the amount of power consumption by narrowing the variation range of the holding temperature in resetting the holding temperature of the warehouse 26 to be stored, Instead, the article 41 containing the highest storage temperature can be selected. In other words, when the article 61 including the lowest storage temperature is selected and moved to the warehouse 26 to be stored, the holding temperature of the warehouse 26 to be stored is adjusted to 8 캜 according to the storage temperature of the moved article 61 So that a large amount of power consumption can be generated. However, in the case of selecting the article 41 including the highest storage temperature instead of the article 61 having the lowest storage temperature, the holding temperature of the warehouse 26 to be stored depends on the storage temperature of the moved article 41 It is adjusted to 15 DEG C, so that relatively less power can be consumed.

Thereafter, the new article 31 can be brought in and stored at the place where the article 41 to be moved is carried out.

The process of storing a new article 31 to be loaded in the warehouse when the warehouse 41 to be moved is zero is described in more detail with reference to FIG.

5 is a view illustrating a process of importing a new article when there is no other warehouse in which a selected article can be stored in the process of importing a new article according to another embodiment of the present invention, If there is no free space of the other warehouse, the items stored in the selected warehouse are sorted in order of lower storage temperature and divided into two groups so that the total volume of the sorted articles is halved , Moving the items belonging to one of the two groups to a new warehouse that has not been used before, the new goods can be imported considering the temperature range of the warehouses divided into the two groups and the new warehouse have. Further, it can be explained on the assumption that the article to be moved and the warehouse to be stored are selected through the method used in FIG. 4A.

For example, assuming that the warehouse being used is warehouse 1 (24), warehouse 2 (25), and warehouse 3 (26), when an article 31 having a minimum storage temperature of 12 캜 and a volume of 8 m ³ is imported , the lowest storage temperature of a new article (31), so 12 ℃ but the holding temperature range to be imported into the shed 2 25 7 ℃ to 15 ℃, storage 2 (25), since the free space there is only 1.5m ³ Can not save. Thereafter, the warehouse 2 (25) has selected the articles to be moved for bringing in the new articles 31, but there may not be a warehouse including a free space for accommodating the selected waterfalls. Thereafter, the articles stored in the warehouse 2 (25) are sorted in the order of lowest storage temperature, and then the volume is divided by half as much as possible.

Thereafter, the warehouse 2-1 (27) that does not use the classified products rearward is additionally stored in the divided products through Table 1, and the holding temperature of the warehouse 2-1 (27) is stored at the lowest It can be set at 13 ℃ considering the storage temperature. Thereafter, the storage temperature of the warehouse can be brought in and stored in the warehouse 2 (25) due to the minimum storage temperature of the new article 31 to be carried.

On the other hand, when the items stored in the warehouse are taken out, the articles stored in the warehouse can be merged and rearranged.

More specifically, when the articles stored in the warehouse are taken out and the total volume of the articles to be stored in the selected warehouse is less than a predetermined volume, merging the articles stored in consideration of the spare space of the selected warehouses, Can relocate. In other words, rearranging the items may include deriving the warehouses whose total volume of the items to be stored is less than a predetermined volume due to the unloading of the articles, summing up the volumes of the articles stored in the derived warehouses, The derived warehouse having a larger free space of the warehouse than the volume can be selected and the articles stored in the warehouses having the total volume of the articles to be stored less than the predetermined volume can be merged and rearranged with the selected warehouse.

That is, for example, if the total volume of the articles to be stored in the warehouse is a predetermined volume m, and if the article stored in the warehouse is taken out and the space of the warehouse is less than m, So that the articles can be rearranged. Here, the predetermined volume m may be arbitrarily set by the user depending on the situation.

In other words, all of the volumes of articles for the warehouse in which the articles are taken out and the space of the warehouse is less than the predetermined volume m can be summed up. Thereafter, it is possible to check whether there is a warehouse which can store the summed volume at one time in the warehouse which is currently in use. Thereafter, when there is a warehouse capable of storing the summed volume at one time, the warehouses in which the space of the warehouse is less than the predetermined volume m can transfer and store all the articles. Here, it is possible to divide the summed volume into one storage case and two or more warehouses which can store the combined volume at one time.

First, when there is one warehouse in which the summed volume can be stored at one time, it will be described with reference to FIG.

FIG. 6 is a view illustrating a process of merging and rearranging articles in a process of being carried out according to another embodiment of the present invention.

More specifically, it is assumed that there are the warehouse 1 24, the warehouse 2 25 and the warehouse 3 26, and the article 61 having the minimum storage temperature of 12 ° C is carried out in the warehouse 2 25, Assuming that the predetermined volume m of the article to be stored in the space is 30 m ³ , when the volume of the article 61 to be carried out is 11 m ³ , it is stored in the warehouse 2 (25) The sum of the volumes of the articles being stored is 26 m ³ , so that the warehouse 2 (25) may have a value of less than 30 m ³ , which is the volume of the articles to be stored in the space of the warehouse. Therefore, the sum of the volumes of the items remaining in the warehouse 2 (25) is 26 m ^3, so that the warehouse that can store the items remaining in the warehouse 2 (25) at one time is 27 m ³ in the warehouse 1 24 The warehouse 1 24 is selected and all the items remaining in the warehouse 2 25 in the selected warehouse 1 24 are merged and stored.

In addition, when there are two or more warehouses capable of storing the summed volume at one time, the merged warehouses can be merged into a warehouse where the holding temperature of the merged warehouse does not change. Here, the reason why the storage temperature of the warehouse is stored in the warehouse which does not change is to minimize the amount of power consumption that occurs when the storage temperature of the warehouse is changed.

More specifically, it is assumed that there are, for example, a warehouse 1, a warehouse 2, and a warehouse 3, and an article having a minimum storage temperature of 12 캜 is taken out from the warehouse 2, Assuming that the predetermined volume m is 30 m ³ , when the volume of the article to be carried out is 11 m ³ and is taken out from the warehouse 2, the total volume value of the articles stored in the warehouse 2 is 26 m ³ , The volume of the article to be stored in the space of 30 m < ³ >. Therefore, the total of the remaining items in the warehouse 2 is 26 m ³ , and the warehouse including the total sum of the combined value 26 m ³ may be the warehouse 1 and the warehouse 2. At this time, when the articles stored in the warehouse 2 are merged into the warehouse 1, the holding temperature of the warehouse 1 may not change. On the other hand, when the articles stored in the warehouse 2 are merged into the warehouse 3, the holding temperature of the warehouse 3 may vary due to the storage temperature of the articles merged from the warehouse 2. Therefore, the products of the warehouse 2 can be merged and stored in the warehouse 3 where the holding temperature of the warehouse is not changed.

Meanwhile, FIG. 7 illustrates a process of merging and rearranging articles when there is no space available in a warehouse according to another embodiment of the present invention, wherein the free space of the warehouse is larger than the summed volume Arranging the articles in order of decreasing storage temperature and summing the volumes of the sorted articles to derive the total volume of the articles when the derived warehouse is not present, The total volume of the articles to be stored is stored in the warehouses having a volume less than a predetermined volume only when the number of the redeveloped warehouses is smaller than the number of the existing warehouses by re-deriving the number of warehouses in which the articles are to be stored, All items can be merged and rearranged.

More specifically, for example, articles are stored in the warehouse 1 24, the warehouse 2 25, and the warehouse 3 26, and the article 61 having the minimum storage temperature of 12 ° C in the warehouse 2 25 out and, because it is when the predetermined volume to be stored in the space of the warehouse can assumed to be 30m ^3, the bulk of the article 61 to be taken out 11m ^3, article 61 is free space in the storage 2 (25) when the out is a 34m ^3, the volume of the article stored in the storage 2 (25) may be a value of less than 30m ³ of a predetermined volume of 26m ³ is to be stored in the space in the warehouse. Thereafter, summing up the volumes of the items left in the warehouse 2 (25) leads to 26 m ³ , but there is no spare space for storing the summed volume at all in the warehouse 1 (24) and the warehouse 3 (26) at one time.

Thereafter, all items stored in the warehouse 1 24, warehouse 2 25, and warehouse 3 26 can be sorted 71 in the order of lowest storage temperature. Here, the refrigerated warehouses are arranged in order from the lowest storage temperature to the lowest one, and the heating warehouses can be arranged in order from the highest storage temperature.

Then, if the total volume of the products is derived from Equation (1) and the number of warehousing uses is derived from Equation (2), then the number of warehousing uses can be derived. Therefore, since the number of the warehouses of which the number of warehouses before consolidation is reduced by one is subtracted from the number of warehouses of the number of warehouses before the merging, the sorted products 71 are sequentially stored in the warehouse 1 24 and the warehouse 3 26 Can be stored. Here, if the number of warehouses derived through Equation (3) is equal to the number of warehouses before merging, reduction of power consumption can not be expected, and therefore, they are not merged.

If the sizes of the warehouses to be stored in the warehouses are different from each other, a method of adjusting the temperature of the plurality of warehouses is performed in the order of the size of the warehouses in step S110 of FIG. 1 and the order of using the sorted warehouses Can be added.

More specifically, when the size of the warehouse to store the products is different, a method of controlling the temperature of the plurality of warehouses will be described in detail with reference to FIGS. 8A to 8B.

FIG. 8A is a view showing an initial state in which articles are arranged when the size of a warehouse is different according to another embodiment of the present invention. FIG.

More specifically, there are the refrigerated warehouse 1 81, warehouse 2 82 and warehouse 3 83, and the articles stored in the warehouse are in an initial state in which they are not sorted according to the storage temperature, , It can be assumed that the warehouse 1 (81) is divided into type A, warehouse 2 (82) is classified as type B, and warehouse 3 (83) Here, the type classification according to the warehouse size can be arbitrarily set by the user depending on the situation. Also, in each warehouse, the space of the warehouse, the holding temperature, and the free space are displayed, and the space of the warehouse may be a space in which all of the traveling passage and the like are considered. In addition, the storage space of the type A ³ is 30m, the storage space of the type B is a space in the warehouse of 60m ^3, and type C can be assumed to be 67.5m ^3. Also, the holding temperature, which is the temperature to be maintained in each warehouse set according to the article storage temperature, may be set to the storage temperature of the warehouse having the lowest storage temperature among the articles stored in the warehouse. Here, the lowest lowest temperature is set as the holding temperature of the warehouse in the cooling warehouse, and the highest highest temperature can be set as the holding temperature of the warehouse in the heating warehouse. Also, the free space is a space in which the article can be stored in the warehouse, the minimum storage temperature and the volume of the article are displayed in each article stored in the warehouse, and the minimum storage temperature of the displayed article is It can be assumed that it is different. In addition, the minimum storage temperature may be displayed when the warehouse is cooled, the minimum storage temperature may be the lowest temperature of the article storage temperature, the maximum storage temperature may be displayed when the warehouse is heated, Storage temperature may be higher than the highest temperature. It is assumed that the volume for each article may be the same or different.

FIG. 8B is a view illustrating a temperature control process for a plurality of warehouses when the size of the warehouse is different according to another embodiment of the present invention.

First, the articles stored in the warehouse 1 81, the warehouse 2 82 and the warehouse 3 83 in FIG. 8A can be aligned 84 in order from the lowest storage temperature of the articles for cooling the warehouse. Here, when the warehouse is heated, the articles can be sorted in order from the highest storage temperature.

Thereafter, the warehouse 1 (81), warehouse 2 (82), and warehouse 3 (83) can be arranged in order of small size. In this case, power consumption can be reduced by using the warehouse from a small one, and the sorting order of the warehouse can be arbitrarily set by the user depending on the situation.

Thereafter, the total volume of the articles of the articles 84 sorted by equation (1) is derived, and l is incremented by 1 from 1 to n until the volume of the article is equal to or less than the sum of the volumes up to the nth warehouse, n is the number of warehouses in use, ki is the number of articles stored in the i-th warehouse, Vij is the volume of the i-th article in the i-th warehouse, V is the warehouse space, The number of use of the warehouse can be expressed as follows.

Accordingly, if the number of warehouses to be used is derived from Equation (4), the number of warehouses to be used is three, so that the warehouse 1 81, warehouse 2 82 and warehouse 3 83 can be used.

Thereafter, the articles 84 arranged in order from the warehouse 1 81, the warehouse 2 82, and the warehouse 3 83 in the order of the lowest storage temperature can be sequentially stored in front of the aligned warehouse. Thereafter, the minimum storage temperatures of the articles stored in the warehouse 1 (81), the warehouse 2 (82), and the warehouse 3 (83) are compared to determine the minimum storage temperature of the article having the lowest minimum storage temperature Can be set. Therefore, the holding temperature of the warehouse 1 (81) is 0 占 폚, the holding temperature of the warehouse 2 (82) is 5 占 폚, and the holding temperature of the warehouse 3 (83) is 23 占 폚.

In addition, when a new article is brought into the warehouse, the process of storing the imported new article in the warehouse and the process of taking the stored article out of the warehouse when the stored article is taken out of the warehouse are described in detail in FIG. 1 to FIG. 7 , It is omitted here.

Meanwhile, the embodiments of the present invention can be embodied as computer readable codes on a computer readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored.

Examples of the computer-readable recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device and the like, and also a carrier wave (for example, transmission via the Internet) . In addition, the computer-readable recording medium may be distributed over network-connected computer systems so that computer readable codes can be stored and executed in a distributed manner. In addition, functional programs, codes, and code segments for implementing the present invention can be easily deduced by programmers skilled in the art to which the present invention belongs.

The present invention has been described above with reference to various embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

Claims (14)

Arranging the articles according to the storage temperature sequence in consideration of the storage temperature of the articles stored in the plurality of warehouses;
Selecting a warehouse to sequentially store the sorted articles in consideration of a total volume of the articles;
Storing the sorted articles in the selected warehouses in order; And
And setting the selected storage temperature for each warehouse based on a storage temperature of the stored articles,
Wherein the storage temperature for each of the warehouses is set based on a minimum storage temperature of the warehouse in the case of cooling and a maximum storage temperature of the warehouse in the case of heating. The method according to claim 1,
The step of aligning the articles comprises:
And arranging the stored articles in the order of decreasing storage temperature when the warehouse is heated and sorting the stored articles in the order of decreasing storage temperature when the warehouse is cooled Temperature control method for two warehouses. The method according to claim 1,
The step of selecting the warehouse comprises:
Summing the volumes of the sorted articles to derive a total volume of the articles;
Dividing the derived total volume into volumes for one of the plurality of warehouses to derive the number of warehouses in which the articles are to be stored; And
And selecting a warehouse for storing the articles by the number of the derived warehouses. The method according to claim 1,
Wherein the step of setting the selected storage temperature for each warehouse comprises:
Selecting the articles having the lowest storage temperature among the articles stored in the respective warehouses for each of the selected refrigerated warehouses and setting the storage temperature of the selected articles to the maintained temperatures of the selected warehouses, Wherein the temperature of the plurality of warehouses is controlled. The method according to claim 1,
Wherein the step of setting the selected storage temperature for each warehouse comprises:
Considering the free space of the selected warehouse when a new article is loaded into the selected warehouse and considering whether there is a change in the holding temperature of the set warehouse due to the addition of the new article, Further comprising the step of selecting the warehouse and bringing the new article into the warehouse. The method according to claim 1,
Wherein the step of setting the selected storage temperature for each warehouse comprises:
Selecting each article having the highest storage temperature among the articles stored in the respective warehouses for each of the selected warehouses to be heated and setting the storage temperature of the selected article to the maintenance temperature of the selected warehouses, Wherein the temperature of the plurality of warehouses is controlled. 6. The method of claim 5,
If there is a warehouse satisfying the condition that the storage temperature of the new article to be loaded is included in the selected storage temperature range of the selected warehouse and that there is a free space for accommodating the volume of the new article,
Wherein the new warehouse is brought in by selecting a warehouse satisfying the condition as the warehouse to which the new article is to be brought. 6. The method of claim 5,
If the storage temperature of the new article to be loaded is included in the holding temperature range of the warehouse but the free space of the warehouse is not present,
Selecting an article to be moved to another warehouse in consideration of the volume of the stored articles and the free space of the warehouse in the selected warehouse, And moving the selected item in consideration of a holding temperature range of the another warehouse, thereby bringing the new article into the warehouse. 9. The method of claim 8,
If there is no free space in the another warehouse to receive the selected goods,
Sorting the articles stored in the selected warehouse into two groups so that the total storage volume of the sorted articles is halved, sorting the articles belonging to one of the two groups into existing groups, Wherein the new warehouse is brought into a new warehouse which is not used in the first warehouse and the new warehouse is taken in consideration of a holding temperature range of the warehouse divided into the two groups and the new warehouse. The method according to claim 1,
Wherein the step of setting the selected storage temperature for each warehouse comprises:
And when the total volume of the articles to be stored in the selected warehouse is less than a predetermined volume by taking out the articles stored in the selected warehouse and merging the articles stored in consideration of the spare space of the selected warehouses, Further comprising the steps of: 11. The method of claim 10,
Wherein relocating the items comprises:
Deriving warehouses having a total volume of articles to be stored less than a predetermined volume due to the take-out of the articles;
Summing all the volumes of the articles stored in the derived warehouses and sorting the derived warehouses having a larger free space of the warehouses than the summed volumes;
And merging and rearranging all the articles stored in the warehouses whose total volume of the articles to be stored is less than a predetermined volume by the selected warehouse. 12. The method of claim 11,
If the derived warehouse having a larger free space of the warehouse than the summed volume does not exist,
Arranging the articles in order of decreasing storage temperature, summing the volumes of the sorted articles to derive a total volume of the articles, dividing the total volume derived by the volume of the warehouse, When the number of the re-derived warehouses is smaller than the number of the existing warehouses, all the articles stored in the warehouses whose total volume of the articles to be stored is less than the predetermined volume are merged and rearranged. The temperature of the plurality of warehouses. The method according to claim 1,
The step of aligning the articles comprises:
Further comprising the steps of: arranging the warehouses in descending order of size when the sizes of the plurality of warehouses are not the same; and setting an order of use of the sorted warehouses. A computer-readable recording medium storing a program for causing a computer to execute the method according to any one of claims 1 to 13.

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