KR20130016915A - Marking tool for doting beating point of schmidt hammer - Google Patents

Abstract

PURPOSE: A device for automatically marking a beating point of a Schmidt hammer is provided to consecutively perform a beating point marking task by supplying ink to stamp rods for marking the beating point. CONSTITUTION: A device for automatically marking a beating point of a Schmidt hammer comprises a guide plate(10), a support plate(20), connection rods(32), springs(30), an ink container(40), and an ink filling path. Twenty marking guide holes(12) are penetrate-formed in the support plate of a flexible material along width and height directions. Twenty stamp rods(22) are protruded at positions corresponding to the twenty marking guide holes. The connection rods and the springs connects rear four edge portions of the guide plate and front four edge portions of the support plate. The ink container is mounted on a rear upper end of the support plate. The ink filling path is formed inside the support plate so that ink is supplied to each stamp rod from the ink container.

Description

Marking tool for doting beating point of schmidt hammer}

The present invention relates to a Schmidt hammer strike point automatic indicator, and more specifically, to display a number of Schmidt hammer strike point on the concrete surface at a time, Schmitt to facilitate the concrete strength measurement by the Schmidt hammer Hammer strike point automatic indicator.

In general, the rebound hardness method, which is a kind of nondestructive testing of concrete, measures the resilience of the concrete surface by hitting the surface of the concrete with Schmidt hammer. It is based on experimental experience that there is a specific correlation between compressive strengths.

The rebound hardness test method by the Schmidt hammer which is a kind of nondestructive test is very simple and internationally standardized and widely used. It is effective and easy to investigate the history of the test room and the reinforced concrete building site among various nondestructive test methods for the compressive strength of concrete It is known as the most widely applicable method.

The Schmidt hammer is a spring type hammer, and instead of measuring the fine diameter of the concrete surface, the repulsive force of the spring can be known directly from the scale of the hammer, thereby being used to simply measure the internal strength of the concrete structure.

Hereinafter, a conventional method for measuring the concrete rebound hardness using a Schmidt hammer will be described.

First, draw 4 parallel horizontal lines on the concrete surface of the measurement object with a width of 3cm along the horizontal direction using chalk and ruler, and then place vertical lines 5 at a distance of 3cm along the vertical direction so as to be perpendicular to the horizontal line. By drawing a dog, the Schmidt hammer is measured at the orthogonal points of each horizontal and vertical line to measure the strength inside the concrete structure.

However, when measuring the strength of a concrete structure, drawing 5 x 4 orthogonal straight lines at intervals of 3 cm is very cumbersome in operation and causes a long measurement time.

That is, 5 × 4 orthogonal straight lines spaced at intervals of 3 cm are drawn at regular intervals for each concrete structure to be measured for strength, and then the strength of the concrete is measured by placing a Schmidt hammer at the intersection, There is a problem in that the efficiency of the measurement operation is low and the measurement time is too long because it is necessary to repeatedly draw four orthogonal straight lines.

In view of this, Utility Model Registration No. 20-340495 discloses a Schmitthammer RBI indicator that can print multiple Schmidt hammer striking points at a time using ink, but the curved portion of the concrete and the uniform There is a problem that it is not possible to display the RBI on the surface, there is a disadvantage that the structure is complicated and expensive manufacturing cost by the spring is included in each of the plurality of display rods that mark the RBI, and guide the direction of the RBI of the display base and the display rod having the display rod The indicator case is separately configured to be inconvenient to carry.

The present invention has been made in order to solve the above problems, and displays a number of Schmidt hammer hitting points on the concrete surface at one time, marking the hitting point to the curved and irregular surfaces, including the flat surface of the concrete at once It is an object of the present invention to provide an automatic Schmidt hammer strike point indicator that makes it easy to measure the concrete strength by the Schmidt hammer.

The present invention for achieving the above object: a display guide plate of a flexible material formed through the 20 display guide holes in the horizontal and vertical directions; A display support plate on which 20 stamp rods protrude in a position corresponding to the 20 display guide holes; A spring connected between the rear four corners of the display guide plate and the front four corners of the display support plate; An ink container mounted on an upper rear side of the display support plate; A plurality of ink filling paths formed in the display support plate so that ink is supplied from the ink container to each stamp rod; Schmidt hammer strike point automatic indicator, characterized in that configured to include.

Preferably, the plurality of ink filling paths are connected to an outlet of the ink container, and the main filling paths are formed horizontally in the upper end of the display support plate, and the branch filling paths branched from the main filling paths to the respective stamp rods. It features.

In addition, the outlet of the ink container is characterized in that the valve for ejecting and blocking the ink is mounted.

In addition, the back of the display support plate is characterized in that the pressing knob for pressing the display support plate toward the display guide plate while compressing the spring is attached.

Through the above-mentioned means for solving the problems, the present invention provides the following effects.

According to the present invention, by allowing a number of Schmidt hammer striking points on the concrete surface to be displayed at once, the concrete strength measurement by the Schmidt hammer can be made very easily and quickly.

In particular, by forming the display guide plate with a flexible material, there is an advantage that can be displayed at a time hitting the curved surface and irregular surfaces, including the flat surface of the concrete.

In addition, by providing an ink container for marking the Schmidt hammer hitting point, and by supplying ink to the stamp rod for marking the hitting point, the hitting point display operation can be performed continuously.

1 is an exploded perspective view showing the Schmidt hammer strike point automatic indicator according to the present invention,
2 and 3 are perspective views showing the Schmidt hammer strike point automatic indicator according to the present invention,
4 is a cross-sectional view showing the Schmidt hammer strike point automatic indicator according to the present invention,
5 is a cross-sectional view showing a state of using the Schmidt hammer strike point automatic indicator according to the present invention on a flat concrete surface,
6 is a perspective view illustrating a state in which the Schmidt hammer strike point is marked by the Schmidt hammer strike point automatic indicator according to the present invention,
7 is a cross-sectional view showing a state used for the curved concrete surface of the Schmidt hammer strike point automatic indicator according to the present invention.

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

The present invention displays a number of Schmidt hammer hitting points on the concrete surface at one time, so that the hitting point can be displayed at a time, including the flat surface of the concrete and curved and irregular surfaces, and for marking the hitting point It is an object of the present invention to provide an automatic Schmidt hammer strike point indicator characterized by the fact that ink filling takes place.

To this end, the Schmitt hammer striking point indicator of the present invention, as shown in Figures 1 to 3 attached, the display guide plate 10 of a flexible material (for example, thin iron plate that is well bent) cut into a rectangular plate body, Connecting rod 32 and spring 30 for integrally connecting the display support plate 20 and the display guide plate 10 and the display support plate 20 of the same size and rigid material (for example, a plastic injection molded article that is not bent). It is configured to include).

In particular, the display guide plate 10 is formed to penetrate through 20 display guide holes 12 along the horizontal and vertical directions, the display support plate 20 20 to allow access through the 20 display guide holes 12 20 stamp rods 22 protrude from positions corresponding to the display guide holes 12 in a straight line.

Preferably, the stamp rod 22 may be adopted to be filled with a fiber material capable of containing ink in the hollow projection pipe.

At this time, the connecting rod 32 and the spring 30 is provided with a total of four bars, the connecting rod 32 is coupled to the four sides of the rear surface of the display guide plate 10 through the four corners of the display support plate 20 , The spring 30 is inserted into the outer diameter of the connecting rod 32 is in a state that is compressively arranged between the rear four corners of the display guide plate 10 and the front four corners of the display support plate 20.

According to the present invention, an ink container 40 capable of supplying ink to each of the twenty stamp rods 22 is mounted on the rear upper end of the display support plate 20.

In particular, a plurality of ink filling paths 50 are formed in the display support plate 20 so that ink is supplied from the ink container 40 to each of the stamp rods 22, and the ink filling path 50 is the display supporting plate 20. ) May be formed during injection molding in the mold.

More specifically, as shown in FIG. 4 and FIG. 5, as an embodiment of the plurality of ink filling paths 50 formed in the display support plate 20, the display is connected to the outlet of the ink container 40. The main filling path 52 is formed in the upper end portion of the support plate 20 in the horizontal direction, and a plurality of branch filling paths 54 branching from the main filling path 52 to each stamp rod 22 are formed in the vertical direction. do.

At this time, the outlet of the ink container 40 is equipped with a valve 42 for discharging and blocking the ink.

Accordingly, when the ink filling supply to each stamp rod 22 is completed, the valve 42 may be locked so that no further ink is discharged, while the ink filling for each stamp rod 22 is required. ) So that ink is supplied to the stamp rod 22.

On the other hand, when you want to display the Schmitt hammer strike point at a time, the pressure knob 24 that can be lifted by the operator is mounted on the back of the display support plate (20).

That is, a pressing knob 24 for pressing the display support plate 20 toward the display guide plate 10 while compressing the spring 30 is attached to the rear surface of the display support plate 20.

Here, with reference to Figures 5 to 6 attached to the state of use for the Schmidt hammer strike point automatic indicator of the present invention having the above configuration as follows.

First, the valve 42 mounted at the outlet of the ink container 40 is opened.

As the valve 42 is opened, ink in the ink container 40 is supplied to each stamp rod 22 through a plurality of ink filling paths 50 formed in the display support plate 20.

That is, the ink which exits the outlet of the ink container 40 is primarily filled and supplied to the main charging path 52 formed in the upper end of the display support plate 20, and from the main charging path 52 to each stamp rod 22. It flows along a plurality of branched charging paths 54 which are branched, and is finally supplied to each stamp rod 22.

At this time, when the ink filling supply to each stamp rod 22 is completed, the valve 42 is closed so that no more ink is discharged.

Next, the operator grasps the pressing knob 24 attached to the rear surface of the display support plate 20, and then closely adheres the front surface of the display guide plate 10 to the concrete surface to be measured, and then presses the pressing knob 24. do.

Accordingly, as shown in FIG. 5, as the pressing knob 24 is pressed, the display support plate 20 moves toward the display guide plate 10 while compressing the spring 30, and at the same time, the display support plate 20. Each stamp rod 22 formed in the marking guide hole 12 formed in the display guide plate 10 while marking the Schmidt hammer hitting point on the concrete surface at a time.

As a result, 20 Schmidt hammer striking points are marked at once on the concrete surface as shown in FIG.

Meanwhile, even when the concrete surface is formed as a curved surface, as shown in FIG. 7, the display guide plate 10 is made of a flexible material due to the pressing force of the pressing knob 24. Each stamp rod 22 passes through the display guide hole 12 formed in the display guide plate 10 to mark the Schmidt hammer striking point at once on the curved surface of the concrete.

At this time, even if both ends of the display guide plate 10 is not completely in close contact with both curved surfaces of the concrete, as shown in Figure 7 attached to the pressing knob 24 in the left and right direction when pressed, the display support plate 20 Stamp rods 22 arranged at both ends of the through the display guide holes 12 formed on both ends of the display guide plate 10 to easily mark the Schmitt hammer impact point on both curved surfaces of the concrete.

10: display information board
12: indication guide hole
20: display support plate
22: stamp rod
24: pressure knob
30: spring
32: connection load
40: ink bottle
42: valve
50: ink filling path
52: main charging path
54: branch charge path

Claims (4)

A display guide plate 10 made of a flexible material in which 20 display guide holes 12 are penetrated along the horizontal and vertical directions;
A display support plate 20 on which 20 stamp rods 22 protrude in a position coincident with the 20 display guide holes 12;
A connecting rod 32 and a spring 30 connected between the rear four corners of the display guide plate 10 and the front four corners of the display supporting plate 20;
An ink container 40 mounted on an upper rear side of the display support plate 20;
A plurality of ink filling paths 50 formed in the display support plate 20 so that ink is supplied from the ink bottle 40 to each stamp rod 22;
Schmidt hammer strike point automatic indicator, characterized in that configured to include.
The method according to claim 1,
The plurality of ink filling paths 50 are connected to the outlets of the ink bottles 40 and formed in the upper end of the display support plate 20 in the horizontal direction, and the stamp rods from the main filling paths 52. Schmidt hammer strike point automatic indicator, characterized in that consisting of the branch charge path (54) branched up to (22).
The method according to claim 1,
At the outlet of the ink container 40, the Schmitt hammer striking point automatic indicator, characterized in that the valve 42 for ejecting and blocking the ink is mounted.
The method according to claim 1,
Schmidt hammer strike point automatic indicator, characterized in that the rear side of the display support plate 20 is pressed with a pressing handle 24 for pressing the display support plate 20 toward the display guide plate 10 while compressing the spring (30).

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