KR101729318B1 - Carbonation Test Paper Turning Device for Safety Diagnosis of Reinforced Concrete Structure - Google Patents

Abstract

The present invention relates to a carbonation test paper turning apparatus for a safety diagnosis of a reinforced concrete structure, which is able to automatically turn a carbonation test paper, comprising: a turntable (40) to which a carbonation test paper (30) is attached; a speed reduction motor (50) which turns the turntable (40); a housing (60) in which the speed reduction motor (50) is installed; a transparent cover (70) which covers the housing (60) and the carbonation test paper (30); an inlet (72) which is formed on the transparent cover (70) and which limits a fall area of concrete powder (24) which falls from a carbonation test hole (22), which is punched on a wall surface (20), onto the carbonation test paper (30); a wall surface support body (80) which comes in contact with the wall surface (20) and which supports the housing (60); dove tail combination units (65a)(65b)(66a)(66b)(67a)(67b) which are parallelly formed on the bottom surface of the housing (60) in pairs of two; inverted trapezoid guide plates (81)(82)(83) which are horizontally and parallelly formed from the wall surface support body (80), which are respectively inserted into between the pairs of the dove tail combination units (65a)(65b)(66a)(66b)(67a)(67b), and which horizontally guide the housing (60); reinforcing ribs (84)(85)(86) which are formed on a corner unit which is made by the inverted trapezoid guide plates (81)(82)(83) and the wall surface support body (80); and a handle (87) which is installed on the reinforcing ribs (84)(85)(86). The present invention aims to provide a carbonation test paper turning apparatus for a safety diagnosis of a reinforced concrete structure, which is able to more precisely measure the depth of carbonation and to provide convenience in measurement.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a carbonation test paper rotating device for safety diagnosis of reinforced concrete structures,

TECHNICAL FIELD The present invention relates to a technique used for measuring the depth of carbonation (neutralization) of a reinforced concrete structure, and more particularly, to a carbonated test strip rotating device for safety diagnosis of a reinforced concrete structure capable of automatically rotating a carbonated test strip.

Concrete absorbs carbon dioxide in the air from the surface, and when the calcium hydroxide in the concrete changes into calcium carbonate, it loses its alkalinity. Such phenomenon is called carbonation or neutralization, and when the passive film wrapping the surface of the reinforcing steel is destroyed by the carbonation of concrete, Corrosion of concrete begins and shortens the life of concrete.

The mechanism of carbonation of concrete is as follows: Carbon dioxide penetration → carbonation (neutralization) → rebar passive film breakage → rebar corrosion → rebar volumetric expansion → concrete cracking in the order of concrete. Ca (OH) ₂ (calcium hydroxide) a + CO ₂ = CaCO ₃ (calcium carbonate) + H ₂ O.

Before the progress of carbonation, the calcium hydroxide originally has a pH value of about 12 to 13, and a portion of calcium hydroxide that has been changed to calcium carbonate due to the carbonation phenomenon is lowered to about 8.5 to 10 to be neutralized.

If the pH inside the concrete is 11 or higher, it does not rust if oxygen is present. However, when the pH is lower than 11, rust is generated in the reinforcing bar and the reinforcing bar is expanded to about 2.5 times the original volume.

As a method of checking the carbonation of concrete, when the 1% solution of phenolphthalein as the test reagent meets and reacts with the alkaline substance, it changes into red color, and the phenolphthalein solution is sprayed on the concrete to visually observe the change of color .

When 1% solution of phenolphthalein is sprayed on concrete, it is colorless at pH 9 or lower, and red at higher pH value, so it can be very easily identified. This method can be used to collect specimens from concrete structures in core form or powder form A hole is drilled in the concrete structure and it is directly inspected in the field.

In the case of measuring the carbonation depth by using the concrete powder falling downward by puncturing a hole in the concrete structure, as shown in FIG. 1, two workers work together as one set, The carbonated test strip 14 is slowly rotated while being supported by the palm of the hand and the other worker drills the carbonated test hole 11 in the concrete structure 10 by using the hammer drill 13, The concrete powder 12 falling off the carbonated test paper 14 is collected by the carbonated test paper 14 and collected.

If the 1% solution of phenolphthalein, which is a test reagent, is sprayed on the carbonated test paper 14 in the state where the hole of the carbonation test hole 11 has been drilled, a red color reaction occurs at the point where carbonation does not proceed and a colorless reaction occurs at the carbonation point At this time, the arc length of the red part is measured, and then the ratio of the arc length of the entire arc shape of the concrete powder 12 to the depth of the carbonation test hole 11 is applied to the arc length of the red reaction , The depth of carbonation can be known.

However, since such a conventional measurement method requires two people to work together, there is a problem that the measurement becomes inaccurate if the speed at which the carbonation test hole 11 is punctured and the speed at which the carbonation test paper 14 is rotated do not match each other , There is a problem in that the labor cost required for the measurement is increased because two people are needed.

When the carbonated test paper 14 is rotated horizontally, the concrete powder 12 is excessively accumulated and mixed in the carbonated test paper 14, so that the carbonated test paper 14 is rotated in a slightly inclined state so that a part of the concrete powder 12 And a part thereof is left in the carbonation test paper 14, there is a problem that a long experience and skill is required to properly adjust the tilt of the carbonation test paper 14.

The carbonated test paper 14 is bent due to the weight of the concrete powder 12 accumulated on the carbonated test paper 14 or a portion of the carbonated paper 14 sags downward, There is a problem that the concrete powder 12 dropped on the bottom falls off again.

Korean Patent Registration No. 10-1578756 Korean Patent Registration No. 10-0686495 Korean Patent Registration No. 10-0564102

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and an object of the present invention is to provide a method and apparatus for measuring a carbonated depth by automatically rotating a carbonated test paper when perforating a carbonated test hole, And a carbonated test strip rotating device for safety diagnosis of a reinforced concrete structure.

To accomplish the object of the present invention, there is provided a carbonated test strip rotating device for safety diagnosis of a reinforced concrete structure, comprising: a turntable to which a carbonated test strip is attached; A decelerating motor for rotating the turntable; A housing in which a deceleration motor is installed; A transparent cover covering the housing and the carbonated test strip; A filling port formed in the transparent cover to limit a falling area of the concrete powder falling from the carbonation test hole punctured on the wall surface to the carbonated test strip; And a wall surface support member which is in close contact with the wall surface and supports the housing,
A dovetail coupling portion formed in parallel in two pairs at the bottom surface of the housing; An inverted trapezoidal guide plate horizontally extending from the wall support and inserted horizontally between mating pairs of the dovetail coupling portions to horizontally guide the housing; A reinforcing rib formed at a corner portion formed by the reverse trapezoid guide plate and the wall surface support; And a handle provided on the reinforcing rib.

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According to another embodiment of the present invention, there is provided a turntable to which a carbonated test strip is attached; A decelerating motor for rotating the turntable; A housing in which a deceleration motor is installed; A transparent cover covering the housing and the carbonated test strip; A filling port formed in the transparent cover to limit a falling area of the concrete powder falling from the carbonation test hole punctured on the wall surface to the carbonated test strip; And a wall surface support member which is in close contact with the wall surface and supports the housing,
A protruding rib formed along an edge of the charging port; A mesh filter for filtering the concrete powder flowing through the inlet according to the particle size; A filter frame to which the net filter is attached and which is fitted to the protruding rib; A lid which is fitted on the filter rim and covers the mesh filter and the inlet port; And a handle provided on the lid.

The present invention as described above can be applied to the carbonated test strip 30 by the decelerating motor 50 while drilling the carbonation test hole 22 in the wall 20 by using the hammer drill 21 and the drill bit 23. [ The carbonated test paper 30 can be rotated at a constant speed, so that the carbonated depth can be measured more accurately.

Since a part of the concrete powder 24 falling from the carbonation test hole 22 is constituted so that only a limited area of the concrete powder 24 is dropped to the carbonation test paper 30 by the charging port 72 and the remainder is blocked by the transparent cover 70, It is possible to prevent mixing of the concrete powders 24 having different depths that are different from each other in the thickness direction of the upper and lower plates 30 and 30, thereby improving the accuracy of measurement.

Since the large particles 28 of the concrete powder 24 are filtered by the network filter 90 installed at the inlet port 72 so that the weight of the carbonated test paper 30 can be reduced, It is possible to prevent heavy heavy particles 28 from rolling when separating the carbonated test paper 30, which is convenient for handling.

It is possible to separate the filter frame 92 provided with the network filter 90 from the protruded rib 74 formed along the edge of the inlet 72 formed in the transparent cover 70, There is an effect that the exchange can be made convenient.

The rotation of the turntable 40 can be smoothened by the lubricating rings 62 and 64 provided at the upper ends of the annular ribs 61 and 63 so that the load applied to the reduction motor 50 can be reduced, The annular ribs 61 and 63 can prevent deflection of the turntable 40 during rotation.

The carbonized test paper 30 and the scale 32 attached to the turntable 40 can be seen through the transparent cover 70 when the transparent cover 70 is covered with the housing 60. Therefore, 30 and the concrete powder 24 accumulated on the concrete floors 30 are observed from time to time.

Since the housing 60 and the carbonated test paper 30 can be held horizontally by using the wall surface support 80 which is in close contact with the wall surface 20, the operation becomes more convenient.

The wall supporting member 80 can be easily brought into close contact with the wall surface 20 by using the handle 87 which can be held by hand.

The reverse trapezoid guide plates 81 and 82 and 83 formed on the wall support 80 and the dovetail couplings 65a and 65b and 66a and 66b and 67a and 67b formed on the housing 60 There is an effect that the housing 60 and the wall surface support 80 can be separated / joined freely.

The position of the housing 60 and the position of the inlet port 72 are determined by using the dovetail coupling portions 65a, 65b, 66a, 66b, 67a, 67b and the inverted trapezoidal guide plates 81, 82, It is possible to adjust the distance from the wall surface 20 to a great distance.

It is possible to block the introduction of other foreign substances into the carbonated test strip 30 through the inlet port 72 by closing the inlet port 72 by using the lid 94 after the punching operation of the carbonation test hole 22 is completed have.

When the fasteners such as concrete nails or screws are put on the wall surface 20 through the nail holes 80a and 80b formed in the wall surface support 80, It is possible to reduce the number of workers.

When the scale 32 is formed on the carbonation test strip 30, the circumferential length of the concrete powder 24 falling on the carbonation test strip 30 or the color change period due to the phenolphthalein solution is read through the scale 32, There is also an effect of measuring the depth.

FIG. 1 is a cross-sectional view showing a hole drilled in a concrete structure using a hammer drill to measure the depth of carbonation of a conventional concrete structure
2 is a bottom exploded perspective view
Fig. 3 is an exploded perspective view of Fig. 2,
4 is a partial cutaway perspective view
Figure 5 is a bottom perspective view of Figure 4,
Figure 6 is a side cross-
Figure 7 is a side cross-sectional view showing that the carbonation test paper is automatically rotated while receiving the concrete powder using the rotating device according to the present invention
8 is a plan view showing the carbonated test paper according to the present invention.
9 is a plan view
10 is a sectional view taken along the line A-A 'in Fig. 9

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

As shown in FIGS. 2 to 10, the present invention includes a turntable 40 to which a carbonated test strip 30 is attached; A deceleration motor 50 for rotating the turntable 40; A housing 60 in which a deceleration motor 50 is installed; A transparent cover (70) covering the housing (60) and the carbonated test paper (30); An inlet port 72 formed in the transparent cover 70 for limiting the falling area of the concrete powder 24 falling from the carbonation test hole 22 punctured in the wall surface 20 to the carbonated test paper 30; And a wall surface supporting body 80 which is in close contact with the wall surface 20 and supports the housing 60.

The carbonated test paper 30 can be formed by printing a circle 32 having a predetermined interval on the surface of a flat paper sheet having a small thickness as shown in Figs. 8 and 9, for example, and cutting it into a donut shape The scale 32 can be read so that the circumferential length of the carbonation test paper 30 or the arc length of the concrete powder 24 dropped on the carbonation test paper 30 can be visually read.

When the carbonated test paper 30 is lifted or the turntable 40 is attached to the turntable 40 when an adhesive (not shown) is applied to the bottom surface of the carbonated test paper 30 or a double-faced tape It is possible to prevent the carbonated test paper 30 from slipping.

An annular rib 68 is formed at a predetermined height along the upper surface edge of the housing 60 and an annular side wall 71 fitted to the outer periphery of the annular rib 68 is formed at the edge of the transparent cover 70, So as to protrude in the longitudinal direction.

The deceleration motor 50 is fixed to the lower end of the motor fixing portion 69 formed on the central bottom surface of the housing 60 and the motor shaft 52 of the deceleration motor 50 is fixed to the turntable 40 And is connected to the hub 42 formed in the housing 42.

At this time, the deceleration motor 50 can be fixed to the motor fixing portion 69 by an adhesive or a double-sided tape, and the adhesive is applied to the joint surfaces of the motor shaft 52 before the motor shaft 52 is inserted into the hub 42 Thereby preventing the motor shaft 52 and the hub 42 from being idle.

2, 5, and 6, a battery holder 100 for accommodating batteries 104 and 106 for supplying power to the deceleration motor 50 is installed on the bottom surface of the housing 60 A switch 102 for interrupting electric power supplied from the batteries 104 and 106 to the reduction motor 50 is provided on the side of the battery holder 100 and a battery cover 100 for opening and closing the battery holder 100 108 are provided at the lower end of the battery holder 100 and a cushioning material 109 positioned between the batteries 104 and 106 and the battery cover 108 is installed on the inner surface of the battery cover 108. [

It is possible to arbitrarily adjust the speed of the decelerating motor 50 by connecting a motor speed regulating device (not shown) between the batteries 104 and 106 and the decelerating motor 50.

The battery holder 100 may be attached to the bottom surface of the housing 60 by an attachment means such as an adhesive, a double-sided tape or a Velcro fastener.

The present invention comprises annular ribs (61) (63) projecting upward from the bottom surface of the housing (60) at a constant height; And a lubricating ring 62 (64) attached to the upper end of the annular ribs (61) (63) to support the turntable (40).

The lubricating rings 62 and 64 may be formed by cutting an oil-less bearing or a Teflon sheet impregnated with oil into a copper alloy washer, for example, into a flat ring shape, 61) 63, and is in sliding contact with the bottom surface of the turntable 40.

65b, 66a, 66b, 67a, and 67b formed in parallel to each other in pairs by two pairs at the bottom surface of the housing 60; 65b, 66a, 66b, 67a, 67b formed horizontally in the horizontal direction from the wall support 80 and inserted into the pair of the dovetail engaging portions 65a, 65b, 66a, 66b, 67a, 67b to horizontally guide the housing 60 Trapezoidal guide plates 81, 82, 83; Reinforcing ribs 84, 85, and 86 formed at the corners formed by the reverse trapezoid guide plates 81, 82, and 83 and the wall surface support 80; And a handle 87 mounted on the reinforcing ribs 84, 85 and 86.

The handle 87 can be constructed by cutting a straight metal pipe for example and the handle insertion portions 84a, 85a and 86a are fixed to the reinforcing ribs 84, 85, And then the handle 87 is inserted into the handle insertion portions 84a, 85a, 86a.

The wall support 80 can be formed in the shape of a rectangular flat plate having a predetermined thickness and can be formed into a nail hole for fixing to the concrete structure 26 using a concrete nail (not shown) or a screw (not shown) (80a) and (80b).

The present invention comprises a protruding rib (74) formed along the edge of the inlet (72); A net filter (90) for filtering the concrete powder (24) flowing through the inlet (72) according to the particle size; A filter rim 92 to which a net filter 90 is attached and which fits into the protruding ribs 74; A lid 94 fitted in the filter rim 92 to cover the mesh filter 90 and the inlet 72; And a handle 96 mounted on the lid 94.

A loop-shaped catching jaw 93 is formed along the inner surface of the filter frame 92 so that the net filter 90 can be placed on the catching jaw 93 and bonded. The small particles pass through the mesh filter 90 and the large particles 28 are filtered by the mesh filter 90 so that they can not fall to the carbonated test strip 30.

The filter rim 92 is engaged with the outside of the protruding ribs 74 as shown in Fig. 6 and the lid 94 is engaged with the outside of the protruding ribs 74.

In the figure, reference numeral 21 denotes a hammer drill, and reference numeral 23 denotes a drill bit for drilling the carbonation test hole 22 in the wall surface 20. [

Hereinafter, the operation according to the present invention will be described in detail with reference to the accompanying drawings.

82 and 83 which are formed on the wall support 80 as shown in FIGS. 2 and 3 are connected to the dovetail coupling portions 65a and 65b formed on the bottom surface of the housing 60 The housing 60 and the wall supporting member 80 are engaged with each other.

When the carbonation test paper 30 is attached to the upper surface of the turntable 40 while the housing 60 and the wall surface supporter 80 are coupled to each other and then the upper portion of the housing 60 is covered with the transparent cover 70 The carbonation test strip 30 and the scale 32 printed on the carbonation test strip 30 are seen through the transparent cover 70. [

When the handle 96 formed on the lid 94 is gripped to separate the lid 94 from the transparent cover 70, the inlet 72 formed in the transparent cover 70 is opened and at the same time, The mesh filter 90 provided in the latching jaw 93 is exposed.

In this state, when the wall surface support body 80 is brought into close contact with the wall surface 20 of the concrete structure 26 by holding the handle 87 provided on the wall surface support body 80 by hand and then the housing 60 is leveled, The carbonated test paper 30 becomes horizontal.

As shown in FIGS. 7 and 9, the inlet port 72 formed in the transparent cover 70 is positioned immediately below the perforation position of the carbonation test hole 22 to be drilled in the wall surface 20, Adjust the position.

At this time, when the whole of the housing 60 is pushed in a direction away from or close to the wall surface 20 in a state in which the wall surface support 80 is in close contact with the wall surface 20, the dovetail coupling portion 65a 65b, 66a, 66b, 67a, 67b slides in a linear direction along the inverted trapezoidal guide plates 81, 82, 83 so that the position of the insertion port 72 is close to or away from the wall surface 20 So that it can be adjusted.

When the switch 102 is then closed and power is supplied from the batteries 104 and 106 to the deceleration motor 50, the rotational force generated from the deceleration motor 50 is transmitted through the motor shaft 52 and the hub 42 The turntable 40 and the carbonated test paper 30 are rotated together at a constant speed while being transmitted to the turntable 40. [

The turntable 40 supported by the lubricating rings 62 and 64 provided at the upper ends of the annular ribs 61 and 63 formed in the housing 60 is smoothly rotated while sliding from the lubricating rings 62 and 64, Particularly, when the weight of the turntable 40 is increased due to the drop of the concrete powder 24 in the carbonated test paper 30, the lubrication action by the lubricating rings 62 and 64 and the support by the annular ribs 61 and 63 Thereby preventing the turntable 40 from sagging.

When the carbonation test hole 22 is drilled in the wall 20 by using the hammer drill 21 and the drill bit 23 while power is supplied to the deceleration motor 50 and the carbonated test paper 30 is rotated , And the concrete powder 24 discharged from the carbonation test hole 22 falls toward the lower charging port 72.

At this time, the large particles 28 in the concrete powder 24 dropped to the inlet 72 are filtered by the mesh filter 90 installed in the filter frame 92, and the relatively small amount of the concrete powder 24 is removed from the mesh filter 90 to the carbonated test strip 30 provided on the turntable 40.

The concrete powder 24 falling down from the carbonation test hole 22 falls down while being widely diffused by the air resistance, but only the portion corresponding to the limited area is dropped to the carbonated test paper 30 by the fan-shaped inlet port 72 And the remaining part of the concrete powder 24 is separated from the transparent cover 70 so that the concrete powder 24 having a different drilling depth can be prevented from being mixed with each other.

Since the carbonated test paper 30 is continuously rotated by the decelerating motor 50 and the turntable 40 while the carbonation test hole 22 is punched, the concrete powder 30 falling on the carbonated test paper 30 through the input port 72 24 are formed in a substantially fan shape as shown in FIG.

Thereafter, after the perforation of the carbonation test hole 22 is completed, the transparent cover 70 is detached from the housing 60, and then the carbonated test paper 30 is detached from the turntable 40 or carbonated with 1% solution of phenolphthalein When sprayed on the test paper 30, the concrete powder 24 at the carbonation proceeding shows a colorless reaction, and the concrete powder 24 at which carbonation does not proceed shows a red color reaction.

At this time, the depth of carbonation can be measured by measuring the depth of the carbonation test hole 22 using a measuring instrument capable of measuring the depth of the hole, such as a vernier caliper, and then measuring the length of the arc as in a flexible tape measure The length of the arc from the point where the concrete powder 24 started dropping to the end point by using the measuring tool was measured in the carbonation test paper 30 to determine the ratio of the hole depth to the arc length. When the concrete powder 24 started to fall The arc length from the point to the colorless reaction site (the length of the circular arc with the red response) is directly measured or the circular arc length of the red reaction zone is calculated by the formula for obtaining the circumference using the fan angle and radius, The depth of carbonation can be obtained by applying a length ratio.

20: wall surface 21: hammer drill
22: carbonation test hole 23: drill bit
24: Concrete powder 26: Concrete structure
28: large particle 30: carbonated test strip
32: scale 40: turntable
42: hub 50: deceleration motor
52: motor shaft 60: housing
61, 63: annular ribs 62, 64:
65a, 65b, 66a, 66b, 67a, 67b:
68: annular rib 69: motor fixing portion
70: transparent cover 71: annular side wall
72: inlet 74: protruding rib
80: wall support 80a, 80b: nail hole
81, 82, 83: reverse trapezoid guide plate 84, 85, 86:
84a, 85a, 86a: handle insertion portion 87: handle
90: Network filter 92: Filter border
93: latching jaw 94: lid
96: Handle 100: Battery holder
102: Switches 104, 106: Battery
108: Battery cover 109: Cushioning material

Claims (4)

delete delete A turntable 40 to which the carbonated test paper 30 is attached;
A deceleration motor 50 for rotating the turntable 40;
A housing 60 in which the deceleration motor 50 is installed;
A transparent cover (70) covering the housing (60) and the carbonated test paper (30);
A charging port 72 formed in the transparent cover 70 for limiting a falling area of the concrete powder 24 falling from the carbonation test hole 22 punctured in the wall surface 20 to the carbonated test paper 30;
A wall surface supporting body (80) closely attached to the wall surface (20) to support the housing (60);
The carbonated test strip rotating device for safety diagnosis of a reinforced concrete structure,

65b, 66a, 66b, 67a, and 67b formed parallel to each other in pairs on the bottom surface of the housing 60;
And are inserted horizontally in the horizontal direction from the wall support 80 and inserted between pairs of the dovetail couplings 65a, 65b, 66a, 66b, 67a and 67b, Guiding reverse trapezoid guide plates 81, 82, 83;
Reinforcing ribs 84, 85 and 86 formed at corners formed by the reverse trapezoid guide plates 81, 82 and 83 and the wall surface support 80;
A handle 87 mounted on the reinforcing ribs 84, 85 and 86;
A carbonated test strip rotating device for safety diagnosis of reinforced concrete structures. A turntable 40 to which the carbonated test paper 30 is attached;
A deceleration motor 50 for rotating the turntable 40;
A housing 60 in which the deceleration motor 50 is installed;
A transparent cover (70) covering the housing (60) and the carbonated test paper (30);
A charging port 72 formed in the transparent cover 70 for limiting a falling area of the concrete powder 24 falling from the carbonation test hole 22 punctured in the wall surface 20 to the carbonated test paper 30;
A wall surface supporting body (80) closely attached to the wall surface (20) to support the housing (60);
The carbonated test strip rotating device for safety diagnosis of a reinforced concrete structure,

A projecting rib 74 formed along an edge of the charging port 72;
A net filter (90) for filtering the concrete powder (24) flowing through the inlet (72) according to the particle size;
A filter rim 92 to which the net filter 90 is attached and which fits into the protruding rib 74;
A lid 94 fitted in the filter frame 92 to cover the mesh filter 90 and the inlet 72;
A handle 96 installed on the lid 94;
A carbonated test strip rotating device for safety diagnosis of reinforced concrete structures.

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