JP2009134666A - Material processing order method and its processing order system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem that since information is manually input conventionally while looking at a processing detailed statement, there is a risk of erroneous input of information about materials and it takes time and trouble for input work or following check, so that work efficiency is bad and it is costly. <P>SOLUTION: According to a material processing order method, processing detailed statement is created by inputting processing order information about materials to be used at a construction site, the processing order information is converted into a two-dimensional code by a conversion means, the two-dimensional code is transmitted to a material processing party as electronic data or printed as a paper document, the received processing order information about the two-dimensional code is encoded by an encoding means at the material processing party, and materials are processed on the basis of the processing order information. In the method for ordering material processing, the paper document having the two-dimensional code printed can be transmitted by facsimile to the material processing party from the construction site as well. A system of material processing order is a system for performing the processing order method. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a material processing ordering method and a system for ordering processing of materials necessary for construction from a construction site such as building construction and civil engineering to a material processing destination and processing the material at the material processing destination according to the order. It is.

Conventionally, at construction sites such as construction work and civil engineering work, the shape, dimensions, strength, weight, quantity, etc. of materials such as reinforcing bars and steel plates required for construction are ordered from the material processing destination (head office of the processing company, factory, etc.). The materials processed according to the orders were delivered. This processing order was performed as follows.
(1) On the construction site, a processing specification on which processing order information such as a required material shape, size, strength, weight, quantity, etc. is displayed is created and transmitted to the material processing destination by facsimile. This processing specification may be created by a computer using processing specification creation software, but in many cases, it is created by handwriting.
(2) At the material processing destination that has received the processing specification by facsimile, the processing order information is manually input to the computer and converted into data while viewing the processing specification received by the worker.
(3) Another worker checks an input error in the input processing order information.
(4) If there is no input error, use the processing order information that has been converted into data to create a processing instruction (referred to as “pictograph”) as shown in FIG. Process as ordered.

The conventional material processing ordering method has the following problems.
(1) Since the worker of the material processing destination manually inputs the processing order information of the material ordered while viewing the processing specification into the computer, an input error is accompanied. In addition, it takes time and effort to input, resulting in poor work efficiency and high costs.
(2) Since a worker other than the input worker must check whether or not there is an input error, at least two workers are required, which contributes to high costs. Even if another worker checks, there is a possibility that an input error may be overlooked, and it is difficult to be sure.

  The present invention provides a material processing order method and a processing order system that do not require an operator to input ordered processing order information one by one, there is no fear of input errors, and input error checking is unnecessary.

  In the material processing ordering method of the present application, at the construction site, the processing order information of the material used at the construction site is input to create a processing description, the processing order information is converted into a two-dimensional code by a conversion means, The dimension code is printed as electronic data or printed and sent to the material processing destination in writing. At the material processing destination, the processing order information of the received two-dimensional code is decoded by the decoding means, and the material is processed based on the processing order information. Is the method. In this material processing ordering method, a document on which a two-dimensional code is printed can be transmitted by facsimile from the construction site to the material processing destination.

  The material processing order system of the present application includes a processing specification creation means for inputting a processing order information of a material to create a processing specification at a construction site, and a conversion means for converting the created processing specification into a two-dimensional code. , Including a transmission means for writing the two-dimensional code or transmitting the electronic data to the material processing destination, receiving means for receiving the two-dimensional code transmitted from the construction site to the material processing destination, and the received two-dimensional code It has a decoding means for decoding the processing order information. In the material processing ordering system, the construction site may include a printing unit that prints the two-dimensional code created by the conversion unit on paper, and the transmission unit that transmits the printed two-dimensional code to the material processing destination may be a facsimile. it can.

  In the material processing ordering method according to claim 1 of the present application, the processing order information described in the processing specification created at the construction site is converted into a two-dimensional code, and the two-dimensional code is transmitted to the material processing destination. The two-dimensional code is printed as electronic data or printed and sent to the material processing destination in writing, and the processing order information of the received two-dimensional code is decoded by the decoding means at the material processing destination, so the processed processing order information is processed into the material processing There is no need to enter it first. For this reason, there is no need for input work, there is no fear of input errors, there is no need to check input errors, the processing order work is simplified, and the cost is reduced.

  In the material processing ordering method according to claim 2 of the present application, a document printed with the two-dimensional code created at the construction site is transmitted by facsimile to the material processing destination. Therefore, the two-dimensional code is also used at the construction site where the Internet is not available. You can send and order material processing.

  The material processing ordering system according to claim 3 of the present application includes a processing specification creation means, a conversion means, and a transmission means at the construction site, a receiving means and a decoding means at the material processing destination, and a construction site. The processing order information in the processing specification created in step 2 is converted into a two-dimensional code, the processing order information of the two-dimensional code is decoded at the material processing destination, and the material processing is performed. There is no need for the operator to input processing order information for each material, and there is no risk of erroneous input of information, and there is no need to check for erroneous input. The work efficiency of material processing orders is greatly improved, which also contributes to cost reduction.

  The material processing ordering system according to claim 4 of the present application includes a printing means for printing the created two-dimensional code on paper at the construction site, and the transmission means is a facsimile, and the two-dimensional code created at the construction site is provided. Since printing is performed on paper and facsimile transmission is performed to the material processing destination, it is possible to place an order for processing the material by this method even at a construction site where the Internet is not available.

(Embodiment 1)
An example of an embodiment of a material processing order method and processing order system according to the present invention will be described with reference to FIGS. In this material processing ordering method, at the construction site A (FIG. 1), various processing order information such as the shape, dimensions, strength, weight, quantity, etc. of the material is input to the construction site terminal and the processing specification 8 (FIG. 2). , The input processing order information is converted into a two-dimensional code 6 (FIGS. 3 and 4) by a conversion means, and a processing specification with a two-dimensional code to which the two-dimensional code 6 is added (FIG. 3, FIG. 4) is created (electronic data). The processing specification 9 with the two-dimensional code is printed and transmitted by facsimile to the material processing destination B (FIG. 1). At the material processing destination B, the processing order information of the received two-dimensional code 6 is decoded by the decoding means, and the processing specification The book 8 (FIG. 5) is converted into electronic data again. In this method, the material is processed at the processing site based on the processing specification 8.

  The material processing ordering method of the present embodiment is implemented using a material processing ordering system configured as shown in FIG. In this material processing order system, a construction site terminal (for example, a personal computer) 1 and a printer 2 and a facsimile machine 3 are provided at a construction site A, and a facsimile machine 4 and a material processing destination terminal 5 are provided at a processing destination B. The material that is processed and ordered in the present invention is not limited to a reinforcing bar, but may be any steel plate, hard resin, or any other member that can be used at the construction site. Is the case where the material is a reinforcing bar.

  The construction site terminal 1 in FIG. 1 is various terminals such as a personal computer and a mobile device. The construction site terminal 1 may be one that can use the Internet or not. Usually, since it is rare that an internet use environment is prepared at a construction site, the construction site terminal 1 is often one that cannot use the internet. The construction site terminal 1 includes a processing specification creation means for creating a processing specification (FIG. 5) in which processing order information of a desired material is described, and the generated processing specification as a two-dimensional code 6 (FIG. 3). , Refer to FIG. 4).

  The processing specification creation means is a function for displaying a processing specification creation screen 7 as shown in FIG. 2 and inputting processing order information of a desired material to create a processing specification. The processing specification creation screen 7 in FIG. 2 shows various information on the construction site such as the building name, construction zone, hierarchy, material use site, total material cutting weight, scheduled delivery date, total standard weight, etc. of the construction site where the material is desired. The construction site information column 10 for filling in, the shape / dimension column 11 for designating the shape of the material by designating the shape number of the material, and the strength column 12 for indicating the strength of the material Diameter column 13 for displaying material diameter, Cutting column 14 for specifying material cutting, Number column 15 for specifying necessary number of materials, Remarks column 16 for entering remarks on material, Material dimensions, cutting A weight column 17 for displaying the weight of the material calculated from the size and number is included.

  When the conversion means presses an output button 18 provided in the processing specification creation screen 7 of FIG. 2, the processing order information entered in each of the columns 10 to 17 is two-dimensionally shown in FIG. This is a function of converting to a code 6 and outputting it as a machining specification 9 with a two-dimensional code. As the two-dimensional code 6, an arbitrary two-dimensional code can be used in addition to the QR code as shown in FIG. When the output button 18 is pressed, the conversion means creates text data by arranging the processing order information entered in the columns 10 to 17 in a predetermined order and separating them with commas. After temporarily storing in the memory, the internal processing of converting the text data into a two-dimensional code based on the standard of the two-dimensional code and creating the image is performed, and then the processing order information of the material is stored in the two-dimensional code 6 And is output as a processing specification 9 with a two-dimensional code. In this conversion means, simultaneously with the conversion of the material processing order information into the two-dimensional code 6, the processing specification 8 (see FIG. 5) as before is also created.

  A printer 2 shown in FIG. 1 is a printing device connected to the construction site terminal 1. As shown in FIGS. 4 and 5, the printer 2 can print the processing specification 9 with the two-dimensional code and the processing specification 8 created by the conversion unit on paper. The printed processing specification 8 (FIG. 5) is used at the construction site A for confirming whether or not there is an erroneous order.

  A facsimile machine 3 shown in FIG. 1 is a facsimile machine that can transmit the processing specification 9 with the two-dimensional code shown in FIG. 4 from the construction site A to the material processing destination B by facsimile.

  A facsimile machine 4 shown in FIG. 1 is a facsimile machine provided at a material processing destination B, and can receive a processing specification 9 with a two-dimensional code transmitted by the facsimile machine 3 at the construction site A. is there. The facsimile machine 4 can store the received processing specification 9 with the two-dimensional code as image data, and the image data can be read out by the material processing destination terminal 5 connected to the facsimile machine 4. It is.

  A material processing terminal 5 shown in FIG. 1 is various terminals such as a personal computer and a mobile device. The material processing destination terminal 5 includes a decoding means for decoding the processing order information of the two-dimensional code 6 transmitted from the facsimile machine. The material processing destination terminal 5 may be one that can use the Internet or not. The processing order information decrypted by the decrypting means is stored in the internal memory of the material processing destination terminal 5 so that it can be used freely. The processing order information stored in the internal memory of the material processing destination terminal 5 is printed as, for example, a processing instruction (referred to as “pictogram”) 20 as shown in FIG. It is possible to instruct the processing site to perform material processing. However, if the material processing destination terminal 5 can use the Internet, the processing order information is directly transmitted to the processing site by e-mail or the like without printing the pictogram 20, and the processing site is instructed. Can also be made to do.

(Execution example of material processing order method)
An example of executing the material processing ordering method using the material processing ordering system will be described with reference to the flowchart of FIG.
(1) At the construction site A, the operator operates the construction site terminal 1 and inputs the processing order information of the desired material in the predetermined columns 10 to 17 on the processing specification creation screen 7 to create the processing specification. (S1).
(2) When the processing specification is completed, the output button 18 provided in the processing specification creation screen 7 is pushed, and the processing order information entered in the respective columns 10 to 17 is two-dimensionally shown in FIG. It is converted into code 6 and outputted as a machining specification 9 with a two-dimensional code (S2). At the same time as the conversion into the two-dimensional code 6, a processing specification 8 (see FIG. 5) as before is also created.
(3) The two-dimensional code-added processing specification 9 created by the conversion means and the processing specification 8 created at the same time are printed on paper by the printer 2 as shown in FIGS. 4 and 5 (S3). . Here, it is confirmed whether there is an erroneous order at the construction site A by using the printed processing specification 8.
(4) The printed two-dimensional code-added processing specification 9 is transmitted by facsimile from the construction site A to the material processing destination B by the facsimile machine 3 (S4).
(5) The facsimile machine 4 receives the processing specification 9 with the two-dimensional code transmitted from the construction site A (S5).
(6) When the facsimile machine 4 receives the processing specification 9 with the two-dimensional code, the facsimile device 4 stores the processing specification 9 with the two-dimensional code as image data (S6).
(7) The image data stored in the facsimile machine 4 is read by the material processing destination terminal 5 connected to the facsimile machine 4 (S7).
(8) The material processing destination terminal 5 decodes the processing order information of the two-dimensional code 6 in the processing specification 9 with the two-dimensional code transmitted from the facsimile machine 4 (S8). The decrypted processing order information is stored in the internal memory of the material processing destination terminal 5 so that it can be used freely.
(9) When the decoded processing order information is stored in the internal memory of the material processing destination terminal 5, the processing order information is printed as a pictorial mark 20, and the processing site is instructed based on the pictorial mark 20. Thus, material processing can be performed (S9). If the material processing destination terminal 5 can use the Internet, the processing order information is directly transmitted to the processing site by e-mail or the like without printing the pictogram 20 to instruct the processing site to perform the material processing. It is also possible to do so (S10).
By repeating the steps (1) to (9), the material processing order method can be executed continuously.

(Embodiment 2)
In the material processing ordering method and the material processing ordering system according to the present invention, the facsimile machine 1 prints and outputs the received two-dimensional code processing specification 9 on paper instead of storing it as image data. You can also. In that case, a two-dimensional code decoding device capable of decoding the two-dimensional code 6 is externally attached to the material processing destination terminal 5, and the two-dimensional code 6 printed on the paper is read by the two-dimensional code decoding device. The processing order information is decoded and stored in the internal memory of the material processing destination terminal 5.

(Embodiment 3)
In the material processing ordering method and the material processing ordering system of the present invention, the construction site terminal 1 can use the Internet, and the two-dimensional code or processing specification created by the construction site terminal 1 is used as the material processing destination terminal. It is also possible to send it directly to E-mail 5. In that case, the printer 2, the facsimile machine 3, and the facsimile machine 4 can be omitted.

  The material processing order method and material processing order system of the present invention are not limited to processing orders for various materials, and can be applied as processing order methods and processing order systems for other arbitrary ordered products.

The block diagram which shows an example of embodiment of the material processing order system of this invention. Explanatory drawing which shows an example of a process specification preparation screen. Explanatory drawing which shows an example of the screen which converted the process specification into the two-dimensional code. Explanatory drawing which shows an example of what was printed on the completed process description with a two-dimensional code. Explanatory drawing which shows an example of what printed the completed process specification on paper. Explanatory drawing which shows an example of a process instruction document (pictograph). The flowchart which shows the execution example in the case of performing the material processing order method using the material processing order system of this invention.

Explanation of symbols

A construction site B material processing destination 1 construction site terminal 2 printer 3 facsimile machine (for transmission)
4 Facsimile equipment (for receiving)
5 Material processing terminal 6 Two-dimensional code 7 Machining specification creation screen 8 Machining specification 9 Machining specification with two-dimensional code 20 Machining instructions (pictogram)

Claims (4)

  At the construction site, input the processing order information of the materials used at the construction site, create a processing description, convert the processing order information into a two-dimensional code by conversion means, and print the two-dimensional code as electronic data or The material processing order method is characterized in that the processing order information of the received two-dimensional code is decrypted by the decrypting means and the material is processed based on the processing order information. .   2. The material processing ordering method according to claim 1, wherein a document on which a two-dimensional code is printed is transmitted by facsimile from a construction site to a material processing destination.   At the construction site, input the material processing order information to create a processing specification, a processing specification preparation means, a conversion means for converting the generated processing specification into a two-dimensional code, and a two-dimensional code written or A transmission means for transmitting electronic data to a material processing destination, a receiving means for receiving a two-dimensional code transmitted from the construction site to the material processing destination, and a decoding means for decoding processing order information of the received two-dimensional code A material processing ordering system characterized by comprising.   4. The material processing ordering system according to claim 3, wherein the construction site is provided with printing means for printing the two-dimensional code created by the conversion means on paper, and the transmission means for transmitting the printed two-dimensional code to the material processing destination is facsimile. A material processing ordering system characterized by

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