JP2001073361A - Execution-data recording system of foundation executing machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To detect the execution data of the number of detection, corresponding to various practices in the execution-data recording system of a foundation executing machine used for foundation practice such as soil improvement. SOLUTION: A first data processor 22 and a second data processor 23 are composed of arithmetic units 26A, 26B generating fixed-type recording data from detecting data transmitted from a detecting means 28 detecting various execution data of the foundation execution machine respectively and recording means 27A, 27B for recording recording data generated from the arithmetic units 26A, 26B to recording media 29A, 29B. Recording data processed by the first data processor 22 and the second data processor 23 are displayed collectively to a monitor 36 and a printer 35 by a data processing means 25.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a construction data recording system for a basic construction machine, and more particularly, to a system in which a plurality of data processing devices for recording processing of construction data are installed. And a construction data recording system for a foundation construction machine configured to collectively display the data.

[0002]

2. Description of the Related Art In order to detect construction data, detection means is mounted on various basic construction machines, and the detection data of the detection means is recorded by a recording system.

FIG. 2 shows a data recording system used for recording construction data when constructing a cast-in-place pile.
In this figure, a data recording system 1 includes a hanging load detecting means 3 for detecting a hanging load of a foundation construction machine, equipment or equipment as a detecting means 2 for detecting construction data of a foundation construction machine, and a vertical hole forming means. A speed detector 4 for detecting a descent speed of an auger (not shown), an auger current detector 5 or an auger pressure detector 6 for detecting an auger excavation load, and a cast-in-place pile And a cement milk flow rate detector 7 for detecting a cement milk flow rate of a cement milk supply device (not shown). The recording data of the detection data is sent to a printer 10 as a recording means 9 and a recording system (not shown), and the construction data of the various foundation construction machines recorded on the recording medium 11 is converted into data. Displayed on the monitor 14 as a management unit 13, it is configured to purine cement out by the printer 14.

[0004]

In the above-mentioned prior art, the system administrator visually recognizes printout data from the printers 10 and 15 or data displayed on the monitor 14 and recognizes construction data of various basic construction machines. However, the arithmetic unit 8 has a limit on the number of input detection data. For this reason, it is difficult to record all the construction data of various foundation construction machines depending on the diversification of the foundation construction method or the construction method of the contractor.

[0005] Further, the system administrator sets the printer 1
Although the data of various basic construction machines are grasped by visually observing the display data of 0, 15 or the monitor 14, the arithmetic unit 8 has a program to display the construction data of various basic construction machines as numerical values for each item. Therefore, it is difficult to compare the construction data of each basic construction machine and related basic construction machines, and it is difficult to judge an instantaneous situation.

In view of the above, technical data to be recorded in order to record construction data of a foundation construction machine used in accordance with various construction methods and to facilitate determination of detected construction data of the foundation construction machine. Problems arise, and an object of the present invention is to solve the problems.

[0007]

DISCLOSURE OF THE INVENTION The present invention has been proposed to achieve the above-mentioned object, and detects detected data transmitted from various detecting means for detecting construction data of a foundation construction machine, and records the detected data in a predetermined format. Computing devices respectively generating
A data processing device is configured by a recording device that records the recording data generated by the arithmetic device on a recording medium, and a data processing device that collectively displays each recording data obtained from the plurality of data processing devices is formed. The construction of a foundation construction machine configured to collectively process each record data obtained from the data processing device in the number corresponding to the construction data detection number of various foundation construction machines used in the foundation method by the data processing means An object of the present invention is to provide a data recording system and a construction data recording system for a basic construction machine configured to collectively output the recording data as an analog graph to the data processing means.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below in detail with reference to FIG. In FIG. 1, reference numeral 21 denotes a construction data recording system. The construction data recording system 21
The first data processing device 22 and the second data processing device 23 corresponding to the foundation method, the display means 24 for displaying data, and the two data processing devices 22 and 23 The first data processing unit 22 is composed of an arithmetic unit 26A and a recording unit 27A, and is composed of one data processing unit 25 that collectively processes the obtained recording data and displays the data on the display unit 24. 23
Is composed of an arithmetic unit 26B and a recording unit 27B (note that the configuration of the first data processing unit 22 and the second data processing unit 23 and the configuration of each of the arithmetic units 26A and 26B and the recording units 27A and 27B are the same. However, for convenience of explanation, another symbol is used).

The arithmetic unit 26A of the first data processing unit 22
The arithmetic unit 26B of the first data processing unit 23 generates digital data by sampling the various construction data of the foundation construction machine sent from the detection unit 28 at predetermined sampling intervals, and generates each recording unit 27.
A and 27B are configured to record digital data as construction data on recording media 29A and 29B such as memories or magnetic media or optical media. In order to synchronize the start and end of data recording on each of the recording media 29A and 29B, the arithmetic units 26A and 26B are provided with operation signal input units 30 for inputting operation signals, respectively. In both cases, a circuit connection unit 31 for simultaneously inputting operation signals to the operation signal input units 30, 30 is provided, and the circuit connection unit 31 of the first data processing device 22 and the operation of the second data processing device 23 are operated. The signal input unit 30 and the signal line 32
And operation means 33 such as a switch for switching and inputting an operation start signal and an operation end signal to the signal input unit 30 of the first data processing device 22. Therefore, when the operation start signal or the operation end signal is input by the operation means 33, the arithmetic devices 26A and 26B are simultaneously operated or stopped, and the recording means 27A, 27
B starts recording digital data on the recording media 29A and 29B in synchronization with the operation of the arithmetic devices 26A and 26B, and ends recording in synchronization with the stop of the arithmetic devices 26A and 26B. The data processing means 25 includes an arithmetic unit 26
The digital data of the construction data generated by A, 26B is transferred directly from the arithmetic devices 26A, 26B or indirectly through the recording means 27A, 27B. The data processing means 25 includes the data link means 3
The digital data generated by the arithmetic units 26A and 26B are formed by the data link means 34 into analog graph data of a two-dimensional coordinate system in which the horizontal axis represents time and the vertical axis represents quantity and number. Then, the formed analog graph data is collectively processed and displayed on the display means 24. For this reason, all the construction data of the foundation construction machine is printed out as an analog graph from the printer 35,
The monitor 36 collectively displays all construction data of the foundation construction machine as an analog graph. Therefore, the system administrator instantly recognizes the relationship between the construction data and the magnitude relationship using the analog graph, and at the same time instantaneously grasps the tendency and magnitude of each piece of construction data. Appropriate instructions can be given to the machine operator.

Here, in the present embodiment, in order to construct a cast-in-place pile, the arithmetic unit 26 of the first data processing means 22 is used.
A is connected to the first suspension load detecting means 37 for detecting the suspension load of the foundation construction machine, equipment or equipment, and the speed detector 38 for detecting the descending speed of the auger. An auger current detector 39 or auger pressure detector 40 for detecting a load is connected to a first cement milk flow detector 41 for detecting a cement milk flow rate of a first cement milk supply device (not shown). The second suspending load detector 42 for detecting the suspending load of another machine or equipment, a second cement milk supply device (not shown) is provided to the arithmetic unit 26B of the other second data processing means 23. 2), a second cement milk flow rate detector 43 for detecting the cement milk flow rate and the like are connected. For this reason, the arithmetic unit 26 of the first data processing unit 23
A generates digital data corresponding to the suspension load, the auger descent speed, the auger current value, the pressure, and the cement milk flow rate of the first cement milk supply device. Two suspension loads, a cement milk flow rate of a second cement milk supply device (not shown), and the like are generated in digital data.
Then, the respective digital data generated by the arithmetic units 26A and 26B are recorded on the recording media 29A and 29B, respectively. The recorded data is converted into analog graph data by a data link means 34 as a printer 35 and a monitor 3.
6 is sent. Therefore, all the construction data of various foundation construction machines are all displayed collectively as an analog graph.

As described above, the construction data recording system for foundation construction machines according to the present invention targets all foundation construction machines employed in the foundation construction method for the purpose of extracting construction data. Various foundation construction machines used for different construction methods are targeted for extraction of construction data.
And, only when it is necessary to install a plurality of data processing devices corresponding to the number of detected construction data of the basic construction method and to connect a plurality of data processing devices in parallel, as described above, the circuit connection portion of the data processing device 31 and the operation signal input unit 30 of the other data processing device are sequentially connected by a signal line 32, or
The operation means 33 is connected to the signal input unit 30 of one data processing apparatus in parallel, and the recording means of all data processing apparatuses are operated / stopped in synchronization. Then, the recording data (digital data) generated by each arithmetic unit is output collectively as an analog graph to the printer 35 and the monitor 36 by one data processing means 25.

Therefore, compared with the conventional example (FIG. 2), it is possible to detect construction data corresponding to various construction methods and to judge the construction state instantaneously. The analog graph is formed, for example, by the data link means 34 by a data conversion program. The data link means 34, the printer 35, and the monitor 36 store a molding program, and the digital data is converted into analog data by the molding program. It can be displayed on the printer 35 and the monitor 36 as a graph.

The present invention can be variously modified without departing from the spirit of the present invention, and it goes without saying that the present invention extends to the modified one.

[0014]

According to the first aspect of the present invention, as described in detail in the first embodiment, detection data sent from various detection means for detecting construction data of a foundation construction machine is converted into recording data of a predetermined format. A data processing device is constituted by an arithmetic device that generates each and a recording unit that records the recording data generated by the arithmetic device on a recording medium, while collectively displaying each recording data obtained from the plurality of data processing devices. To form a data processing means to perform, and to collectively process each record data obtained from the data processing device of the number corresponding to the number of detected construction data of various foundation construction machines used in the foundation method by the data processing means Make up. For this reason, it is possible to easily cope with the recording of construction data of various types of foundation construction machines used for various foundation construction methods and construction methods that are different for each construction company, and it is possible to record all construction data. According to the second aspect of the present invention, since the construction data of various foundation construction machines is displayed as an analog graph, a change in data for each construction machine and a correlation between data of large and small, and mutual data of the foundation construction machines are instantaneously grasped. It becomes possible. Therefore, it is possible to promptly notify appropriate instructions for the operation of various basic construction machines as the construction progresses, and it is possible to provide a study after the construction.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention and showing a configuration of a construction data recording system for recording construction data of a basic construction machine.

FIG. 2 shows a conventional example, and is a block diagram showing a configuration of a construction data recording system for recording construction data of a basic construction machine.

[Explanation of symbols]

 22 first data processing device (data processing device) 23 second data processing device (data processing device) 24 display means 25 data processing means 26A, 26B arithmetic devices 27A, 27B recording means 28 detection means 29A recording medium 29B recording medium 35 monitor 36 Printer

Claims (2)

[Claims] An arithmetic unit for generating detection data sent from various detection means for detecting construction data of a basic construction machine into recording data of a predetermined format, and recording data generated by the arithmetic unit on a recording medium. While the data processing device is configured with the recording means to perform, the data processing means for collectively displaying each record data obtained from the plurality of the data processing devices is formed, and the construction data of various foundation construction machines used in the foundation method are formed. A construction data recording system for a foundation construction machine, wherein each record data obtained from the data processing apparatus in a number corresponding to the number of detections is configured to be collectively processed by the data processing means. 2. The construction data recording system for a foundation construction machine according to claim 1, wherein said recording data is collectively output as an analog graph to said data processing means.