KR20010002903A - Method for Controlling a Concrete Compression Strength mesuring hammer - Google Patents

Abstract

PURPOSE: A method for controlling concrete compression strength measuring hammer is provided to easily analyze measured data by fully providing an average of a repulsive hardness, an automatic conversion into hardness unit by angle, display curing coefficient by curing days, storing measured data, outputting with a printer, and storing as a computer file. CONSTITUTION: A method for controlling concrete compression strength measuring hammer(1) includes a repulsive hardness converting part converting a repulsive hardness value into a resistance value by forming a resistance surface in a scale displaying a repulsive hardness in a repulsive hardness input part(11) of the hammer and converting the converted resistance value into digital data through A/D converter, a control process unit, a ROM which is a program memory, a RAM which stores measured data and information, a display part displaying measured data and information, a computer and printer connecting part transmitting measured data to a computer and a printer, and a key input part for selecting all kinds of functions and inputting basic information, and a light part adjacent to the display part for lighting.

Description

Method for Controlling a Concrete Compression Strength mesuring hammer}

The present invention relates to a hammer for measuring the compressive strength of concrete, the average of the rebound hardness, the automatic conversion to each hardness unit by the measurement angle, the method for displaying the age coefficient by the age of the age and storing the measurement data directly to the printer The present invention relates to an output and a method of connecting to a computer and providing a computer output or a printer output.

Conventional hammer measuring compressive strength does not have measurement data stored, so it is necessary to record the measurement data by hand and convert the hardness unit by average and angle manually. Even with a digital hammer, it is not possible to provide automatic conversion to each hardness unit by measurement angle, display of aging coefficient by age, save measurement data, print to printer, save to computer file by connecting to computer, or print out completely. There is a problem that a separate manual work must be done for analyzing the measurement data.

Therefore, the present invention is configured to store the measurement data in order to solve the above problems, the average calculation, automatic conversion to the hardness unit by the angle, the age coefficient display by the age of the display, output to the printer, connected to the computer computer The purpose is to make it easy to analyze the measurement data by providing it as a file or completely outputting the printer.

1 is a view showing a measuring hammer,

2 is a block diagram of the present invention;

3 is a block diagram of repulsive hardness input and conversion of the present invention;

Figure 4a is an embodiment 1, the display unit of the present invention

Figure 4b is a second embodiment of the display unit of the present invention,

Figure 4c is a third embodiment of the display unit of the present invention,

5 is an overall flow chart of the present invention;

6 is a functional mode flow chart of the present invention;

7 is a flowchart of a measurement mode of the present invention.

* Description of the symbols for the main parts of the drawings *

1: hammer 11: rebound hardness input unit

21: central processing unit 22: ROM (ROM)

23: RAM 24: Display

25: rebound hardness conversion unit 26: computer and printer connection

27: key input unit 28: light unit

31: rebound hardness input unit 33: rebound hardness converter (A / D converter)

32: repulsion hardness conversion unit and central computation processing unit

34: central computation processing unit

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings of FIG. 1.

1 is a measuring hammer used in the present invention, 1 is a measuring hammer main body, 11 is composed of an input portion of the rebound hardness, the general hammer displays the measured value in the form of a ruler directly in the present invention, but the ruler position to display the rebound hardness The resistance surface is formed like a variable resistor on the surface, and the value of rebound hardness is converted into a resistance value, and the converted resistance value is converted into digital data through an A / D converter (a device for converting an analog signal into a digital signal). do.

2 is a block diagram of the present invention, 21 is a central processing unit, 22 is a program memory ROM, 23 is a memory for storing measurement data and information, 24 is a display unit for displaying measurement data and information, and 25 is a hammer. Rebound hardness conversion unit converts the rebound hardness value into resistance value and converts it into digital data through A / D converter, 26 is a computer and printer connection part that transmits measurement data and information to a computer and printer, and 27 selects various functions The key input unit allows basic information input and the like, and 28 includes a light unit that illuminates light in proximity to the display unit. The key input unit 27 basically configures numeric keys, function selection and cancellation keys, measurement keys, light keys, up and down or left and right navigation keys from " 0 " to " 9 ".

3 is a block diagram of the repulsive hardness input and conversion of the present invention 31 is a resistance hardness input unit with a built-in resistance surface, 32 is composed of a rebound hardness conversion unit and a central operation processing unit, 32 repulsion hardness conversion unit and a central operation processing unit Is composed of 33 A / D converters and 34 central processing units. The repulsive hardness input unit 31, the rebound hardness conversion unit, and the central calculation processing unit 32 are connected to L1 to L4. L1 is a power supply connection line to the rebound hardness input unit 31, L2 is a connection line to receive a resistance value corresponding to the rebound from the resistance surface of the rebound hardness input unit 31, L3 is the rebound hardness conversion unit 31 It is a connection line which detects whether it is connected to the part and the central processing part 32, and L4 is a ground connection line of the repulsive hardness input part 31, the rebound hardness conversion part, and the central processing part 32. Repulsive hardness input part (L2) is a resistance value between the power supply connection line (L1) and ground (L4) is converted into a voltage resistance value corresponding to the rebound hardness by the voltage distribution law and the voltage is converted to the A / D converter of the rebound hardness converter Is converted into digital data.

The L3 detecting the connection to the rebound hardness input unit 31, the rebound hardness conversion unit, and the central processing unit 32 determines that the L3 is connected when it is detected as low and supports the normal measurement. If it is detected as, it is determined that it is not connected, so it is not measured and the information that it is not connected is provided to prevent user error.

The conversion to the unit by adjusting the measurement angle to the rebound value is shown in Table 1, and commonly used units are Kgf / cm ² , N / mm ² , and psi. In the present invention, the measurement angle is corrected to the rebound value by user selection, and is automatically converted into a corresponding conversion value by the selected unit.

In addition, for the convenience of the user considering the age factor by age, the age of the age as shown in Table 2 automatically displays the age factor.

4A to 4C illustrate one embodiment of the display unit 24.

Figure 4a is an example for the measurement angle -90 °, conversion unit Kgf / cm ² , the day of retirement 3000 days x is the average value, R is the rebound value, → each value after the measurement angle to the rebound value in Table 1 This is the value converted to Kgf / cm ² after correction. If x = 33, it is converted into 290 Kgf / cm ² , and R = 37 is converted into 350 Kgf / cm ² . In addition, the age factor for 3000 days of aging is 0.63 as shown in Table 2.

Figure 4b is an example for the measurement angle -45 °, conversion unit N / mm ² , 4 days of rehabilitation day x is the average value, R is the rebound value, → each value after the measured angle to the rebound value in Table 1 The value is converted and converted into N / mm ² . If x = 50, it is converted into 53.9N / mm ² , and R = 57 is a value other than Table 1, so it is displayed as Over sign. In addition, the age factor for 4 days of age is 1.90 as shown in Table 2.

Figure 4c is an example for the measurement angle 0 °, conversion unit psi, 28 days of re-establishment x is the average value, R is the rebound value, → each value after the correction angle in the rebound value in Table 1 in psi unit The value converted to. If x = 26, it is converted to 2247 psi, and R = 21 is a value other than Table 1, so it is indicated by an over indication that it exceeds. In addition, the age factor for 28 days of age is 1.00 as shown in Table 2.

This invention can be implemented in other various forms, without deviating from the mind or main character. Therefore, the above-described embodiments are merely examples in all respects and should not be interpreted limitedly. The scope of the invention is indicated by the claims, and is not limited by the text of the specification. In addition, all the modifications and changes which belong to the equal range of a claim are within the scope of the present invention.

Configure the measurement data to be saved, calculate the average, automatically convert to the hardness unit by angle, display the age factor by the age of the age, print to the printer, save it as a computer file by connecting to a computer, or measure the printer output completely. It facilitates data analysis and prevents the user's mistake by providing information that it is not measured and providing the information that it is not connected when the repulsive hardness input unit 11 and 31 and the repulsive hardness conversion unit and the central processing unit 32 are not connected. . The present invention provides a user's convenience by allowing the user to select the brightness of the light unit 28 proximate to the display unit 24 according to the degree of darkness in a bright place as well as a dark place.

Claims (5)

The resistance surface is formed on the ruler position that displays the rebound hardness on the rebound hardness input section 11 or 31 of the hammer 1 like a variable resistor to convert the value of the rebound hardness into a resistance value, thereby converting the converted resistance value into A / D. Rebound hardness conversion unit 25, central processing unit 21, ROM 22, which is a program memory, RAM 23, which is a memory for storing measurement data and information, measurement data and information, etc. Display unit 24 for displaying, computer and printer connection unit 26 for transmitting measurement data and information to the computer and printer, key input unit 27 for enabling various function selection, basic information input, display unit In the concrete compressive strength measurement hammer composed of a light portion 28 to illuminate the light close to the correction angle is corrected to the rebound value of the hammer measured value Kgf / cm ² , a unit commonly used as shown in Table 1, N / mm ^2, in psi Method for converting the 712. The method of claim 1, wherein the average value of the rebound value, which is the measured value, is calculated and displayed, and the measured angle is corrected to the average rebound value, so that the values of the conversion units Kgf / cm ² , N / mm ² , and psi are shown in Table 1. How to convert and display (713). The method (607 to 614) according to claim 1, wherein when the age of the age is input, the age factor is calculated and displayed as shown in Table 2. The method (510 to 513) according to claim 1, wherein a method for providing an increase or decrease in the amount of brightness of the light portion (28) proximate the display portion (24) is provided. The method according to claim 1, wherein the repulsive hardness input unit (11, 31), the rebound hardness conversion unit and the central processing unit (32) are not connected and are not measured and provide information that they are not connected to prevent the user's mistake. (706, 707).