JP2020086768A - Apparatus and processing program for displaying construction process - Google Patents

Abstract

To provide an apparatus and processing program for displaying a construction process capable of easily and positively carrying out an adjustment work of construction processes among a plurality of contractors.SOLUTION: An apparatus for displaying a construction process comprises process chart capturing means that captures a plurality of construction process charts respectively as image data, process chart superposition-image generating means that generates construction process chart-superposition image data that the image data of the plurality of construction process charts captured by the process chart capturing means are superposed together with a correspondence to spacing indicative of a same work time of each construction process chart, and process chart superposition-image display means that displays construction process chart-superposition image data generated by the process chart superposition-image generating means on a display unit.SELECTED DRAWING: Figure 3

Description

Embodiments of the present invention relate to a construction process display device and a construction process display processing program used by a plurality of contractors to proceed with construction in parallel.

For example, in construction work, a plurality of contractors may work concurrently in the same place at the same time.

Generally, the ideal progress of work is civil engineering work, construction work, mechanical equipment work, electrical equipment work in order, and at the planning stage before starting construction, each work does not overlap at the time and place, Alternatively, in the case of works that require parallel work, the work schedules of each contractor are created so that they overlap.

However, when the construction actually starts, the construction period changes frequently for each contractor, so it is necessary to adjust the process among the contractors, and it is necessary to regularly schedule each contractor on a weekly or monthly basis. We hold the process conferences we have gathered. If the process adjustment cannot be completed at this process meeting, for example, there is a risk that the work will be delayed due to waiting for the work of another contractor who should be prioritized, and the construction period will be delayed.

At the process meeting, each contractor will bring his or her construction process table and make adjustments such as shortening, extending, moving, etc. of the process so that they are convenient for each other. The format of the table is different.

Therefore, for example, it is very important for general adjustment work, such as work to identify the construction process of other companies that affect the construction process of the own company and comparison work, and work to reflect the construction processes of other companies that affect the construction process of the own company. It is time-consuming, troublesome and takes a long time.

In addition, since the process adjustment at the process meeting is time-consuming and tedious, it is not uncommon for the contractors to verbally negotiate the process.In such a case, a record of the adjusted process must exist. Adjustment is insufficient.

JP, 2006-338561, A JP, 2005-118535, A JP, 2009-139996, A

The problem to be solved by the present invention is to provide a construction process display device and a construction process display processing program that enable adjustment work of construction processes among a plurality of contractors to be performed easily and reliably.

The construction process display device according to the embodiment displays a process schedule importing unit that captures a plurality of construction schedules as image data, and image data of a plurality of construction schedules captured by the process schedule capturing unit, in each construction schedule. A process table superposed image generating means for generating superposed work process table superposed image data corresponding to intervals indicating the same work time, and a display section for displaying the work process superposed image data generated by the process step superposed image generating means. And a process-table-overlapped image display means for displaying the image.

The front view which shows the external appearance composition at the time of implementing the construction process display apparatus 10 of embodiment using a tablet terminal. The block diagram which shows the structure of the electronic circuit of the construction process display apparatus 10 of embodiment. The flowchart which shows the construction process display processing according to the construction process display processing program 12a and the image/graphics processing program 12b of the construction process display apparatus 10. It is a figure which shows the construction process charts T1 and T2 of a plurality of construction companies, the figure (A) is a figure which shows the electric construction process chart T1, and the figure (B) is a figure which shows the machine construction process chart T2. The figure which shows the display operation of the construction process table superposition screen G produced|generated by superposing the image data 12e1 of the electrical construction process table T1 and the image data 12e2 of the mechanical construction process table T2 according to the construction process display processing of the construction process display device 10. The figure which shows the display operation (the 1) according to the adjustment of the process in the construction process table superposition screen G according to the construction process display process of the construction process display apparatus 10. The figure which shows the display operation|movement (the 2) according to the adjustment of the process in the construction process table superposition screen G according to the construction process display processing of the construction process display apparatus 10.

Hereinafter, the construction process display device of the embodiment will be described with reference to the drawings.

FIG. 1 is a front view showing an external configuration when a construction process display device 10 of the embodiment is realized using a tablet terminal.

The construction process display device 10 is not limited to a tablet terminal, and can be realized using an information device including a display unit such as a PC (Personal Computer) or a PDA (Personal Data Assistant).

In FIG. 1, for example, the in-house work process schedule T1 is created using a table creation tool, and both the A company work process schedule T2 and the B company work process schedule T3 are created by handwriting and then captured as an image. Based on the work time identification marks “○” A1 to “○” A5 and “△” B1 to “△” B4, which are handwritten on the paper of each of the construction process tables T1 to T3 or added to the image, each construction process The construction process schedule overlapping screen G generated by superimposing the images of the respective construction process schedules T1 to T3 so that the intervals indicating the work timings required for adjustment are matched between the tables T1 to T3 is shown.

FIG. 2 is a block diagram showing the configuration of the electronic circuit of the construction process display device 10 of the embodiment.

The construction process display device 10 includes a CPU (control unit) 11 as a computer.

The CPU 11 is a program pre-stored in the memory 12, a program read by the recording medium reading unit 13 from the external recording medium 14 such as a memory card and stored in the memory 12, or a Web server on the communication network N such as the Internet. The operation of each part of the circuit is controlled according to the program downloaded from the (program server in this case) 20 via the communication unit 15 and stored in the memory 12.

The CPU 11, via the system and the data bus (Bus), the memory 12, the recording medium reading unit 13, the communication unit 15, the touch panel type display unit 16, the image pickup unit (digital camera) 17 <process chart capturing means>, voice input The unit 18a, the voice output unit 18b, and the short-range wireless communication unit 19 are connected.

The short-range wireless communication unit 19 has a communication function such as Bluetooth (registered trademark), and is connected to an external information device 30 such as another construction process display device 10 under the control of the CPU 11.

The memory 12 stores program data such as a construction process display processing program 12a and an image/graphics processing program 12b as well as a system program for controlling the overall operation of the apparatus 10. Functions obtained by the CPU 11 executing the construction process display processing program 12a and the image/graphics processing program 12b will be described later.

Further, the memory 12 has a data storage area for storing work time recognition data 12c, work location recognition data 12d, construction process sheet image data 12e1, 12e2,..., Construction process sheet overlapping image data 12f, and the like. ..

The work time recognition data 12c is data of a predetermined work time identification mark (such as “◯” or “Δ”...) for recognizing an interval corresponding to the work time included in the image data.

In addition, as another embodiment, the work time recognition data 12c is information (30 years, 31 years, January, February, 1 week, 2 weeks) related to the work time, which is a combination of a text included in the image data and a numeral. , 1st, 2nd, etc.) may be data of recognition target characters (“year”, “month”, “week”, “day”, etc.).

The work place recognition data 12d is data of a predetermined work place identification mark (such as “⊚”: see FIG. 4) for recognizing the notation corresponding to the work place included in the image data.

As another embodiment, the work place recognition data 12d is information (B1F, 1F, 2F, basement, first floor, second floor) about a work place which is a combination of a text included in image data and a number or another character. , Rooftop, A building, B building, etc.) may be data of recognition target characters (“F”, “B”, “R”, “floor”, “ground”, “roof”, “room”, “building”, etc.) ..

The construction process table image data 12e1, 12e2,... Is image data of the construction process tables T1, T2,... Of a plurality of construction companies photographed by the imaging unit 17, and is included in each construction process table image data 12e1, 12e2,. Is stored in association with the identifier ID data of each contractor (such as the communication address of the construction process display device 10 used by each contractor).

The construction process sheet superposed image data 12f is image data obtained by superposing a plurality of construction process sheet image data 12e1, 12e2,... On one screen.

The construction process display device 10 of the present embodiment has at least the following functions (1) to (8) when the CPU 11 executes the construction process display processing program 12a and the image/graphics processing program 12b.

(1) Image data 12e1, 12e2,... Of the construction process charts T1, T2,... Of a plurality of construction companies photographed by the image pickup unit 17 are overlaid on one screen (processing on the memory), construction process chart overlaid image data Function for generating 12f <process chart superimposed image generation means>.

(2) When generating the construction process sheet overlapping image data 12f, the work time identification marks (“○” A1, A2,... Or included in each construction process sheet image data (T1) 12e1, (T2) 12e2,... “Δ” B1, B2, etc.) or information (character string) related to the work period is recognized, and the image is enlarged/reduced at intervals corresponding to the same work period between the process charts. A function to perform overlay processing.

It should be noted that the work time identification marks (“○” A1, A2,..., “Δ” B1, B2,...) Are handwritten by the user before photographing the construction process chart T1, T2,. , Or added to the captured image.

(3) A function of displaying the construction process sheet overlapping image data 12f on the touch panel type display unit 16 as a construction process sheet overlapping screen G <process sheet overlapping image display means>.

(4) Each construction process according to the user's touch operation on the frame of each process chart T1, T2,... Of the construction process schedule overlap image data 12f displayed on the touch panel type display unit 16 as the construction process schedule superposition screen G. A function of moving the overlapping position of the front image data (T1) 12e1, (T2) 12e2,....

(5) Process bar of each process chart T1, T2,... Of the construction process chart overlapped image data 12f displayed on the touch panel type display unit 16 as the construction process chart overlap screen G (a bar indicating the range of the work period of the corresponding construction) (Display body) Tna, Tnb,... (n=1, 2,...) In response to a user's touch operation, the process bars Tna, Tnb,... Corresponding to the touch position are extracted as graphics, and the extracted process bar is displayed on the screen. Function to edit (adjust) by copying, moving, pasting, extending, shortening, etc. on G <Working time changing means>.

(6) In a range where the construction process sheet image data (T1) 12e1, (T2) 12e2,... Are overlapped, the construction process sheet image data (T1) 12e1, (T2) 12e2,. A function to display transparently (including processing to change the color and line type).

(7) Function of updating each construction process table image data (T1) 12e1, (T2) 12e2,... In the state where the process bars Tna, Tnb,... Are edited (adjusted) <process table image updating means>.

(8) The construction process sheet overlapping image data 12f displayed on the touch panel type display unit 16 as the construction process sheet overlapping screen G or each updated construction process sheet image data (T1) 12e1, (T2) 12e2,... Output function <Process table image output means>.

In the construction process display device 10 configured as described above, the CPU 11 controls the operation of each unit according to the instructions described in the construction process display processing program 12a and the image/graphics processing program 12b, and software and hardware cooperate with each other. By doing so, the construction process display function (FIG. 3) as described in the following operation description is realized.

Next, the operation of the construction process display device 10 thus configured will be described.

FIG. 3 is a flowchart showing the construction process display processing according to the construction process display processing program 12a and the image/graphics processing program 12b of the construction process display device 10.

4A and 4B are diagrams showing construction process charts T1 and T2 of a plurality of contractors. FIG. 4A shows an electric construction process chart T1, and FIG. 4B shows a mechanical construction process chart T2. Is.

In the present embodiment, the respective construction process charts T1 and T2 are prepared by paper or blackboard (handwritten) by each construction contractor, and the size of each construction process chart T1 and T2, as well as the lateral interval and the work indicating the work period, Assume different formats, including vertical arrays of species or work locations.

In the specific example of FIG. 4, the overall construction time shown in the horizontal direction by the construction process charts T1 and T2 is from “March” to the next year “February” for the construction schedule T1 and “January for the construction schedule T2” in the next year. "~" next year's "March", the intervals of each month also differ greatly. Further, regarding the work places arranged in the vertical direction, the electrical work process chart T1 is the first line “1F” to the fourth row “4F”, and the mechanical work process chart T2 is the first line “ground 2”, two rows. It differs from the line "ground 1", the third line "3rd floor", and the fourth line "rooftop".

In the specific example of the present embodiment, the electrical work process table T1 (refer to FIG. 4A) brought by or written on paper by the electrician and the mechanical work process brought on or written by the mechanical contractor at the process meeting. It is assumed that the process adjustment is performed using Table T2 (see FIG. 4B).

FIG. 5 shows the display operation of the construction process table overlapping screen G generated by superimposing the image data 12e1 of the electrical construction process table T1 and the image data 12e2 of the mechanical construction process table T2 according to the construction process display processing of the construction process display device 10. FIG.

FIG. 6 is a diagram showing a display operation (No. 1) according to the adjustment of the process on the construction process table overlapping screen G according to the construction process display process of the construction process display device 10.

FIG. 7 is a diagram showing a display operation (No. 2) according to the adjustment of the process on the construction process table overlapping screen G according to the construction process display process of the construction process display device 10.

When the construction process display process is started, for example, when the user touches an item indicating “take in process table” in the process menu displayed on the touch panel type display unit 16, the CPU 11 causes the image pickup unit (camera) 17 to operate. It is activated and a message prompting the user to take in the work schedule Tn (n=1, 2,...) Is displayed on the display unit 16.

Here, in the construction process charts T1 and T2, construction timing identification marks “◯” A1 to “◯” A11 for matching the intervals of the construction timings are necessary for adjusting the processes of the construction schedules T1 and T2. For example, it is added by handwriting at the position of the boundary of each month.

Further, in the construction process charts T1 and T2, a work place identification mark “⊚” M for recognizing the notation corresponding to the same work place between the construction process charts T1 and T2, and the notation of the same work place (in T1 It is added by handwriting to the position of "3F" or "3rd floor" in T2).

First, when the electric work process chart T1 is photographed by the imaging unit 17 of the construction process display device 10, the CPU 11 takes in the image data 12e1 of the photographed electric construction process chart T1 (step S1), and the touch panel type display unit 16 is displayed. It is displayed, stored in the memory 12 and saved (step S2) <process chart loading means>.

Subsequently, when the machine work process chart T2 to be added to the process adjustment is photographed (step S3 (Yes)), the CPU 11 takes in the image data 12e2 of the photographed machine work process chart T2 (step S1), and the touch panel type. It is displayed on the display unit 16 and stored in the memory 12 and saved (step S2) <process chart loading means>.

At this time, the CPU 11 character-recognizes the identifiers ID1 and ID2 (such as the communication address of the construction process display device 10 used by each construction company) of each construction company described in a part of each construction process table T1 and T2. , (T1) 12e1 and (T2) 12e2 stored in the memory 12 in association with each other. It should be noted that the identifiers ID1 and ID2 of the respective contractors are input according to the user operation of the soft keyboard displayed on the touch panel type display unit 16 every time the respective construction process chart image data (T1) 12e1 and (T2) 12e2 are fetched. You may.

The construction time identification marks "○" A1 to "○" A11 and the work place identification mark "⊚" M are displayed on the touch panel display unit 16 by capturing the image data 12e1 and 12e2 of the respective construction process charts T1 and T2. At the stage when the touch panel type display unit 16 is touched, the touch panel type display unit 16 may be added according to a touch operation performed by the user.

Here, for example, in the process menu displayed on the touch panel type display unit 16, when the user touches the item indicating “overlap process step” (step S4), the CPU 11 causes the work stored in the memory 12 to be performed. Adjustment of the process included in each construction process schedule image data (T1) 12e1, (T2) 12e2 saved in the memory 12 based on the time recognition data 12c (work time identification mark “◯” or recognition target character “month”) The work time interval (“March” to “February”) required for the operation or the character string (“January” to “December”) related to the work time is recognized (step S5) <work time recognizing means>.

Further, the CPU 11 stores the work location recognition data 12d (work location identification mark “⊚” or recognition target characters “F” “ground” “floor” “ya”) stored in the memory 12 in the memory 12 based on the work location recognition data 12d. A notation (“3F” in the process chart T1 and “3rd floor” in the process chart T2) corresponding to the same work place included in each of the construction process chart image data (T1) 12e1, (T2) 12e2 or a character string related to the work place ("1F" to "4F" in the process chart T1 and "ground 2", "ground 1", "third floor", "rooftop" in the process table T2) are recognized (step S6) <workplace recognition means>.

Then, the CPU 11 causes the work time schedule image data (T1) 12e1, (T2) 12e2 to correspond to the intervals of the work periods (“March” to “February”) recognized in step S5. Each of the image data (T1) 12e1 and (T2) 12e2 is enlarged or reduced (here, the image data (T2) 12e2 is enlarged in the horizontal direction), and as shown in FIG. (T2) Construction process table superposed image data 12f in which 12e2 is vertically superposed is generated <process table superposed image generating means>, and is displayed on the touch panel type display unit 16 as a construction process superposition screen G (step S7) <process chart Overlaid image display means>.

As a result, the user responds to the work schedules T1, T2,... Of different formats brought by each construction contractor or written on the blackboard in accordance with the work time necessary for adjusting the respective schedules T1, T2,. It is possible to view the construction process table overlapping screen G, which is integrated with the intervals of the tables, so that the process of the entire construction can be easily grasped and studied. Therefore, for example, it becomes possible to easily confirm where the construction process of another contractor, which influences the construction process of the own contractor, exists in the whole construction process.

Then, the CPU 11 indicates the same work place between the process charts T1 and T2 recognized in step S6, which is included in the construction process chart superimposed image data 12f displayed on the touch panel display unit 16 (the process chart T1). "3F", and "3rd floor" in the process chart T2), the cells of the respective process charts T1 and T2 in which there exists are identified and displayed H by inversion processing or coloring processing (step S8) <work place identification display means> ..

As a result, the user can easily understand each other's work process in the same work place between the work process of the own company and the work process of another company, for example, in the same work place. You will be able to quickly see where each other's work time will be overwhelmed.

In the construction process schedule overlapping screen G shown in FIG. 5, between the work schedule T1 for electrical work and the process schedule T2 for mechanical work, each of the same work locations “3F” and “3rd floor” that are identified and displayed H is identified. Based on the work time indicated by the process bars T1c and T2c, it can be easily confirmed that the work time of the work to be performed on "3F (3rd floor)" will be partially covered.

Here, in order to accurately compare the process bars T1c and T2c, which are confirmed to have partially covered the work time at the same work place “3F (3rd floor)”, the user needs to compare the process bars T1c and T2c. If one (here, T2c) is touch-operated and designated (step S9 (Yes)), the CPU 11 performs graphic editing (copy/move/paste/extend (enlarge)/shorten (reduce)) the designated process bar T2c. (Step S10).

When the user moves the touch operation position from the process bar T2c for mechanical work on the "3rd floor" designated by touch operation to the position of the process bar T1c for electric work on "3F" as indicated by an arrow Mc, The CPU 11 copies the process bar T2c, moves the copied process bar T2c according to the movement (Mc) of the touch operation position of the user, and superimposes it on the process bar T1c that is the touch operation position after the movement (step). S10).

As a result, the user directly compares the process bars T1c and T2c partially covered by the work at the same work place “3F (3rd floor)” and starts electrical work on “3F (3rd floor)”. It is possible to see at a glance that "July," which is scheduled to end the mechanical work on "3rd floor (3rd floor)," will occur during the scheduled "July."

After that, in order to eliminate the “July” that is a work period between the electric work and the mechanical work on the “3F (3rd floor)”, for example, the user touches and specifies the process bar T1c of the electric work, and When the touch operation position is moved to the right at the interval of the table for one month, the CPU 11 moves the process bar T1c of the electric work in response to the user operation, as indicated by an arrow m1 in FIG. The process bar T1c' whose work time is adjusted in the range of "month" to "December" is displayed (step S9 (Yes))→S10) <work time changing means>.

Here, in the processing menu displayed on the touch-panel display unit 16, when the user touches the item indicating “OK” (step S13 (Yes)), the CPU 11 displays “3F” as shown in FIG. In correspondence with the construction process sheet overlay image data 12f having the process bar T1c′ in a state where the electrical work of “” is moved one month ahead and adjusted, the memory 12 that is the generation source of the construction process sheet overlay image data 12f. The construction process sheet image data 12e1 for electrical work and the construction process sheet image data 12e2 for mechanical work are updated and stored (step S14) <process sheet image updating means>.

Further, as shown in FIG. 5, the process bar T2c is copied/moved/displayed at the display position of the process bar T1c which is subject to the electric work and the mechanical work at the same work place “3F (3rd floor)”. In the state of pasting and directly comparing the process bars T1c and T2c, for example, if the electrical work of "2F" (process bar T1b "May" to "June") is not completed, "3rd floor" mechanical work Since the (process bar T2c) cannot be started, the user touch-designates the process bar T2c (“June” to “July”) of the machine work that is directly compared, and the touch operation position is specified. Is moved to the right at an interval of the table for one month, the CPU 11 moves the process bar T2c of the machine work which is directly compared according to a user operation, as indicated by an arrow m2 in FIG. The process bar T2c' having the work timing adjusted in the range of "July" to "August" is displayed (step S9 (Yes))→S10) <work timing changing means>.

At this time, the CPU 11 determines that the process bar T2c moved between the process charts T2 and T1 has been changed (adjusted) for the process bar T2c′ whose work time has been adjusted (step S11 (Yes)), As shown by an arrow m2′ in FIG. 7, the process bar T2c of the process table T2, which is the movement source of the process bar T2c, is displayed as a process bar T2c′ that reflects the change (adjustment) of the work time (step). S12).

Subsequently, the work time of the “3rd floor” mechanical work (process bar T2c′) and the “3F” electrical work (process bar T1c) that were adjusted by moving to the range from “July” to “August” In order to eliminate the overburden, for example, when the user touches and specifies the left end corresponding to the start position of the process bar T1c for electrical work, and moves the touch operation position to the right at the interval of the table for February. The CPU 11 shortens the process bar T1c of the electric work according to a user operation, as shown by an arrow sh in FIG. 7, and adjusts the work period by adjusting the work time in the range from “September” to “December”. The bar T1c″ is displayed (step S9 (Yes))→S10) <work timing changing means>.

Here, in the process menu displayed on the touch panel type display unit 16, when the user touches the item indicating “OK” (step S13 (Yes)), the CPU 11 displays “3” as shown in FIG. The mechanical work on the “floor” was moved from “July” to “August” and adjusted (process bar T2c′), and the electrical work on “3F” was performed in four months from “September” to “December”. Corresponding to the construction process schedule overlay image data 12f in the state of being shortened and adjusted (process bar T1c″), the construction schedule of electrical work in the memory 12 that is the generation source of the construction process schedule overlay image data 12f. The image data 12e1 and the construction process sheet image data 12e2 for mechanical work are updated and stored (step S14) <process sheet image updating means>.

Thereby, for example, not only can the construction processes which affect each other among a plurality of contractors be easily and quickly confirmed on the construction process table overlapping screen G, but also the construction processes (process bars Tna, Tnb,... (N=1, 2)) can be easily adjusted by moving, shortening, or extending the process bars Tna, Tnb,... (N=1, 2).

After that, when the user touches the item indicating “shared” in the processing menu displayed on the touch panel display unit 16 (step S15 (Yes)), the CPU 11 updates and saves in step S14. The construction process sheet image data (T1) 12e1, (T2) 12e2 in the memory 12 are assigned to the construction process sheet image data (T1) 12e1, (T2) 12e2 by identifiers ID1, ID2 of the respective construction companies. Based on the above, it is transmitted to the construction process display device 10 used by each construction company (step S16). At this time, as shown in FIG. 6 and FIG. 7, each construction company also adds the construction process sheet overlapping image data 12f corresponding to the construction process sheet overlapping screen G in a state where the construction process of each construction company is adjusted. Needless to say, it may be transmitted to the construction process display device 10 used by <procedure table image output means>.

Thereby, each construction company can easily and surely receive the new construction process tables T1 and T2 after the construction process is appropriately adjusted among the plurality of construction companies, and the construction undertaken by each construction company can be smoothly advanced. be able to.

The construction process sheet image data (T1) 12e1, (T2) 12e2 and the construction process sheet overlapping image data 12f in the memory 12 are transmitted to, for example, a printing apparatus communicatively connected via the short-range wireless communication unit 19. Then, the information may be printed on paper, and the construction process charts T1 and T2 and the construction process chart overlapping screen G of the printed paper may be given to the corresponding construction contractors for information sharing.

Therefore, according to the construction process display device 10 configured as above, the construction process tables T1, T2,... Of the plurality of construction companies are imported as the construction process table image data (T1) 12e1, (T2) 12e2,. <Process table importing means> The acquired construction process table image data 12e1, 12e2,... Are enlarged or reduced so that the image data 12e1, 12e2,. The construction process table overlapping image data 12f is generated <work time recognition means> <process table overlapping image generating means>, and the generated construction process table overlapping image data 12f is displayed on the touch panel type display unit 16 as a construction process table overlapping screen G. <Process table superimposed image display means>. On the construction process table superimposing screen G, for example, process bars Tna, Tnb,... (n=1, 2,...) Affecting the work time between the own company and another company's process tables T1, T2,. When the user touches, moves, extends, or shortens the object, the target process bars Tna, Tnb,... Are moved, extended, or shortened according to the touch operation, and the construction process is adjusted. Work timing changing means>.

Then, in correspondence with the construction process sheet overlapping image data 12f in which the construction process is adjusted, each construction process sheet image data (T1) 12e1, (T2) 12e2,... Is updated <process sheet image updating means> and is updated. Each of the construction process sheet image data 12e1, 12e2,... Is transmitted to, for example, the construction process display device 10 or the information device 30 of each construction company to share information <process sheet image output means>.

Thereby, for example, even if the construction process charts brought in by a plurality of contractors are created in different formats at a process meeting place, it is easy and easy to adjust the construction process among the plurality of contractors. It becomes possible to carry out surely.

Further, according to the construction process display device 10 configured in this way, on the construction process table overlapping screen G (construction process table overlapping image data 12f), the respective construction process table image data (T1) 12e1, (T2) that are overlapped If there is a cell of the table showing the same work place between 12e2,..., A cell of the table showing the same work place is identified and displayed <Work place recognition means> <Work place identification display means>.

This makes it possible for a plurality of contractors to easily and quickly find the process bars Tna, Tnb,... (n=1, 2,...) Which may or may not be subjected to the work at the same work place. Can be adjusted.

In the construction process display device 10 of the present embodiment, when the construction process chart T1, T2,... Of each construction contractor is photographed by the imaging unit (camera) 17 and fetched as construction process chart image data 12e1, 12e2,. I explained. Not limited to this, the paper construction process chart T1, T2,... Is read by an external scanner, and is loaded into the construction process display device 10 as construction process chart image data 12e1, 12e2,. The table data of the transmitted construction process charts T1, T2,... May be received by the construction process display device 10 and converted into the construction process chart image data 12e1, 12e2,.

Further, in the construction process display device 10 according to the present embodiment, the construction process sheet overlap image data 12f is within a user-specified range of each construction process sheet image data (T1) 12e1, (T2) 12e2,. It may be configured such that only the work period (year, month, week, etc.) is cut out and can be generated.

Further, the construction process display device 10 of the present embodiment is configured by using an information device having a large-screen touch panel type display unit 16, and, for example, each of a plurality of construction companies gathered in a process meeting displays on the information device. The construction process may be adjusted by touching each other on the displayed construction process schedule overlapping screen G.

The method of each process by the construction process display device 10 described in each of the embodiments, that is, each process such as the construction process display process shown in the flowchart of FIG. 3 is a memory card as a program that can be executed by a computer. (ROM card, RAM card, etc.), magnetic disk (floppy (registered trademark) disk, hard disk, etc.), optical disk (CD-ROM, DVD, etc.), semiconductor memory, and the like can be recorded and distributed on a medium of an external recording device. it can. Then, the computer (CPU) of the electronic device including the display unit reads the program recorded in the medium of the external recording device into the storage device, and the operation is controlled by the read program, whereby each of the embodiments described above is performed. It is possible to realize the construction process display function described in 1 above and execute the same processing by the method described above.

Further, the data of the program for realizing each of the above methods can be transmitted on the communication network (N) in the form of a program code, and from a computer device (program server) connected to this communication network (N). The program data may be loaded into an electronic device having a display unit and stored in a storage device to realize the above-mentioned construction process display function.

The invention of the present application is not limited to the above-described embodiments, and can be variously modified at the stage of implementation without departing from the spirit of the invention. Furthermore, each of the embodiments includes inventions at various stages, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent elements. For example, even if some constituent elements are deleted from all the constituent elements shown in each embodiment, or some constituent elements are combined in different forms, the problems described in the section of the problem to be solved by the invention When the above can be solved and the effects described in the section of the effects of the invention can be obtained, a structure in which these constituent requirements are deleted or combined can be extracted as the invention.

10... Construction process display device, 11... CPU, 12... Memory,
12a... Construction process display processing program, 12b... Image/graphics processing program,
12c... work time recognition data, 12d... work place recognition data,
12e1, 12e2,... Construction process sheet image data, 12f... Construction process sheet overlapping image data,
13... Recording medium reading unit, 14... External recording medium, 15... Communication unit,
16... Touch panel type display part, 17... Imaging part, 19... Short-distance wireless communication part,
20... Web server, 30... External device, T1, T2,... Construction process table,
Tna, Tnb,... Process bar, A1, A2, B1, B2,... Work time identification mark,
M: Work place identification mark, G: Construction process table overlapping screen.

Claims (8)

A process chart importing means for capturing a plurality of construction process charts as image data,
Image data of a plurality of construction process charts captured by the process schedule capturing means are superposed in correspondence with intervals indicating the same work time of each construction process schedule to generate construction process schedule superimposed image data. Generating means,
A process table superimposed image display means for displaying the construction process table superimposed image data generated by the process table superimposed image generating means on a display unit,
Construction process display device. The rod-shaped display body indicating the range of the work period included in each construction process schedule of the construction process schedule superposition image data displayed by the process schedule superposition image display means is moved or extended or shortened to be changed according to a user operation. Work time change means,
The construction process display device according to claim 1, further comprising: A process table image updating means for updating the image data of the construction process table taken in by the process table taking means, corresponding to the construction process table overlapping image data after changing the rod-shaped display body by the work time changing means; ,
A process table image output means for outputting image data of the construction process table updated by the process table image updating means to the outside,
The construction process display device according to claim 2, further comprising: The process table superimposed image generating means,
A work time recognition means for recognizing a work time included in each construction process schedule of the image data of the plurality of construction process schedules captured by the process schedule capturing means;
Based on the work timings included in each construction process schedule recognized by the work timing recognition means, construction process schedule superposed image data in which the intervals indicating the same work timing of each construction schedule are overlapped correspondingly is generated. ,
The construction process display device according to any one of claims 1 to 3. Work location recognition means for recognizing a work location included in each construction process chart of the image data of the plurality of construction process charts captured by the process chart capturing means;
Based on the work location included in each construction process chart recognized by the work location recognizing means, included in each construction process chart of the construction process chart superposed image data displayed on the display unit by the work schedule superposed image display means. Work place identification display means for identifying and displaying the same work place,
The construction process display device according to any one of claims 1 to 4, further comprising: The display unit is a touch panel type display unit,
The work timing changing means includes a range of work timings included in each construction process chart of the construction process schedule superimposing image data displayed by the work schedule superimposing image displaying means in response to a user's touch operation on the touch panel display unit. Change or move or extend or shorten the bar-shaped display
The construction process display device according to claim 2 or claim 3. The work schedule image output means, the construction work schedule overlapping image data after changing the rod-shaped display body by the work timing changing means, and the construction process schedule image data updated by the work schedule image updating means, Output to the outside,
The construction process display device according to claim 3. A computer of electronic equipment equipped with a display unit,
A process chart importing unit that captures a plurality of construction schedules as image data,
Image data of a plurality of construction process charts captured by the process schedule capturing means are superposed in correspondence with intervals indicating the same work time of each construction process schedule to generate construction process schedule superimposed image data. Generation means,
A process table superimposed image display means for displaying the construction process table superimposed image data generated by the process table superimposed image generating means on the display unit,
A computer-readable construction process display processing program that functions as a computer.