KR101676490B1 - Apparatus measuring the neutralized depth of the concrete structure for the purpose of safety-check - Google Patents

Abstract

The present invention relates to an apparatus for measuring a concrete carbonation depth for safety diagnosis to measure a time point of discoloration by allowing concrete powder generated by drilling to come in contact with a test paper soaking in a phenolphthalein solution. An attachment unit having a space unit to come in close contact with a drilling target spot of a concrete surface is provided, concrete powder generated by drilling flows into a suction unit formed integrally with the attachment unit, and the concrete powder flowing into the suction unit is discharged to come in contact with a test paper soaking in a phenolphthalein solution provided in a measurement unit. Accordingly, the generated concrete powder is not discharged to the outside, a phenomenon that concrete powder is lost or mixed to come in contact later is prevented from an influence of ambient air such as wind, the concrete powder generated by drilling immediately comes in contact with a target test paper to improve accuracy of a test, the test can be rapidly performed, labor cost is reduced, a member is simplified to generate less risk of loss, and a reagent is integrated with the apparatus to improve portability and to easily soak a test paper.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a concrete carbonation depth measuring apparatus for safety diagnosis,

The present invention is a device for measuring the depth of carbonation of concrete. Especially, since the structure such as concrete wall reacts with carbon dioxide gas in the atmosphere and is neutralized and affects the structural stability, the concrete carbonation depth measuring device for safety diagnosis of concrete structures .

Carbonation (or neutralization) of concrete means that calcium hydroxide (Ca (OH) 2) in concrete changes into calcium carbonate (CaCO3) and water (H2O) by reacting with atmospheric carbon dioxide (CO2) (PH = 12.5), which was alkaline, was close to neutrality.

When the concrete is gradually neutralized due to the carbon dioxide gas in the air and reaches the reinforced bars, the reinforcing bars are rusted and the structural safety is deteriorated. Therefore, for safety diagnosis, the user should carry out the carbonation test of the concrete structure on a regular basis.

The carbonation test (Neutralization Test) is a test to measure the depth of carbonation of a concrete, which measures the depth of the part being neutralized measured from the concrete surface to the inside. A 1% alcohol solution of phenolphthalein (about 15% water) is used.

However, as a prior art related to the carbonation test, Japanese Patent Application Laid-Open No. 2001-145917 (published on May 29, 2001, hereinafter referred to as "Prior Art Document 1") and Japanese Patent Laid-Open No. 2001-174454 (Hereinafter referred to as " prior art document 2 ").

However, in the prior art document 1, it is troublesome to apply the reagent separately to the 'litmus paper' and to attach the 'litmus paper' to the rotating plate of the test apparatus when the application of the reagent is completed, and the scattered concrete powder It is not able to fly to the outside by the windshield body but it is mixed later and is buried in the 'litmus paper', so that the accuracy of the test is deteriorated.

In addition, although the prior art document 2 discloses a technique in which a concrete powder is rolled so as to continuously adhere to an adhesive member, and then a phenolphthalein solution is dripped by using a nozzle, a method of dropping a reagent after the concrete powder is adhered It is not possible to perform an immediate inspection, and there is a problem that the accuracy of the inspection is deteriorated as the scattered concrete powder is mixed in the later and buried in the 'litmus paper'.

Above all, the prior art documents have not been able to integrate reagents such as phenolphthalein solution into the apparatus, and therefore, there is inefficiency in that additional equipment is required to wet the test strip or to apply the reagent as a separate step.

In order to solve the above-mentioned problems, the present invention provides a method of preventing the concrete powder generated due to drilling of the concrete surface from being discharged to the outside, and also preventing the concrete powder from being lost due to the influence of wind, The present invention provides a concrete carbonation depth measuring device for a safety diagnosis.

It is also an object of the present invention to provide a concrete carbonation depth measuring apparatus for safety diagnosis, in which the concrete powder generated by drilling is not discharged to the outside or another point with a time difference, and is immediately contacted with the target test paper immediately after drilling, have.

Further, it is an object of the present invention to provide a concrete carbonation depth measuring apparatus for safety diagnosis which can integrate a reagent such as a phenolphthalein solution into a device, is excellent in portability, and can easily charge a reagent later.

Further, it is an object of the present invention to provide a concrete carbonation depth measuring apparatus for safety diagnosis that can be quickly performed, reduce labor costs, simplify members, reduce the risk of loss, and increase portability.

In order to achieve the above object, the present invention provides a method for measuring the depth of carbonation of a concrete for safety diagnosis, comprising the steps of measuring a time point at which a concrete powder C generated by drilling is brought into contact with a test paper T wetted with a phenolphthalein solution P, In a concrete carbonation depth measuring apparatus,
And a suction portion 20 integrally formed with the concrete powder C generated by the drilling so as to be integrally formed with the attachment portion 10, The concrete powder C introduced into the suction unit 20 is discharged and the phenolphthalein solution provided in the measuring unit 30 is contacted to the wetted test paper T,
The measuring unit 30 is formed in a closed box shape and a first roller unit 35 is provided on one side of the measuring unit 30 so that the test strip T is released, T is wound so that the test piece T is continuously moved so that the concrete powder C discharged from the suction part 20 continuously contacts the test piece T, Between the roller section 35 and the second roller section 36 is provided a discoloration measurement section 37 for measuring the acidity and between the first roller section 35 and the discoloration measurement section 37, 38 are provided so that the test paper T unrolled from the first roller portion 35 is wetted with the phenolphthalein solution P filled in the solution filling portion 38 and the first roller portion 35 and the second roller portion 36, the discoloration measuring unit 37 and the solution charging unit 38 are separately formed so that the test strip T can be moved by the partition W,
A coupling part 39 is provided at the lower part of the color change measuring part 37. The coupling part 39 is formed with a threaded part so that the forced suction means V is screwed into the concrete powder C generated by drilling. Is quickly attached to the test strip T located in the discoloration measurement unit 37,
A guide slit 38a for guiding the movement of the test strip T is formed in a circular shape by a pair of guide surfaces 38a-1 in the solution filling portion 38, A pair of guides (not shown) for moving the test strip T along the guide slit 38a in the pair of guide surfaces 38a-1 and forming the guide slit 38a so that the front and back surfaces of the test strip T are wetted, Each of the surfaces 38a-1 is provided with an infiltration hole 38b so that the moving test paper T is infiltrated into the phenolphthalein solution P at an appropriate ratio.

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According to the above solution, the concrete carbonation depth measuring device for safety diagnosis for the present invention can prevent the concrete powder from being lost or mixed from the influence of the wind or the outside air. That is, the concrete powder generated due to the drilling of the concrete surface is not discharged to the outside, and the flow of wind is prevented, so that the concrete powder is lost, and there is an advantage that it is not mixed and buried later.

Further, since the suction part is integrally provided, there is an advantage that the accuracy of the test can be improved by immediately contacting the target test paper immediately after drilling without discharging the concrete powder generated by the drilling to the outside or other places. Furthermore, since the concrete powder is not discharged to the surroundings, it is not absorbed by the human body due to breathing, thereby protecting the health of the user.

In addition, reagents such as phenolphthalein solution can be integrated into the apparatus, which is excellent in portability, and reagents can be easily charged at a later time, reagents can be automatically applied to the test paper, and technical It is effective.

Furthermore, the forced suction means can be combined and can be immediately inhaled in the order in which the concrete powder is generated. As a result, there is another advantage that the accuracy of the test result can be improved since the concrete powder, which is generated from the outermost side of the concrete surface during drilling, can be brought into contact with the test paper in order.

Further, the test portion can be quickly performed due to the measurement portion provided with the test paper, the labor cost is reduced, the member is simplified, the risk of loss is reduced, and the portability is increased.

Furthermore, the movement of the test strip T wetted with the phenolphthalein solution (P) can be automated. That is, the user does not manually move the test strip T, but merely confirms whether the test strip T is discolored or not, so that the user can easily confirm the discoloration point. Thereby, the user can perform the test alone and check the result, thereby reducing the labor cost, and there is an advantage that no additional member for confirming discoloration is required.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an overall configuration of a concrete carbonation depth measuring apparatus for safety diagnosis, which is an embodiment of the present invention; FIG.
FIG. 2 is a view showing a use state of a concrete carbonation depth measuring apparatus for safety diagnosis, which is an embodiment of the present invention. FIG.
FIG. 3 is an enlarged view of a portion of FIG. 2 to show the use state of the concrete carbonation depth measuring apparatus for safety diagnosis, which is one embodiment of the present invention.
Fig. 4 is a view showing a cross section of a measurement section which is one component of the present invention. Fig.
Fig. 5 is a view showing a cross section of another embodiment of the measurement section which is one component of the present invention. Fig.

An example of a concrete carbonation depth measuring apparatus for safety diagnosis according to the present invention can be variously applied, and a most preferred embodiment will be described below with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a general view of a concrete carbonation depth measuring apparatus for safety diagnosis, which is an embodiment of the present invention; FIG.

1, the present invention relates to a concrete carbonation depth measuring apparatus for measuring a time point at which a concrete powder C generated by drilling comes into contact with a test paper T wetted with a phenolphthalein solution P, And the concrete powder C generated by the drilling is introduced into the suction part 20 formed integrally with the attachment part 10, And the concrete powder C introduced into the suction unit 20 is discharged and the phenolphthalein solution provided in the measuring unit 30 is contacted to the wetted test strip T. [

The present invention can prevent the concrete powder (C) from being lost or mixed due to the influence of outside air such as wind by providing the attachment part (10). That is, the attachment portion 10 is preferably formed in a lid shape and may have a space portion 11 therein. The concrete powder C generated by the drilling of the concrete surface may be formed in the space portion 11, It is not discharged to the outside, and the inflow of wind is prevented so that the concrete powder C is not lost or mixed.

In addition, since the suction portion 20 is integrally provided, the concrete powder C generated by the drilling can not be discharged to the outside or other places, but can be brought into contact with the entire target test paper T, There is an advantage. Further, since the concrete powder C is not discharged to the surroundings, it is not absorbed by the human body due to breathing, thereby protecting the health of the user.

Further, since the test section T provided with the test strip T allows the test to be performed quickly, the labor cost is reduced, the member is simplified, the risk of loss is reduced, and the portability is increased have. That is, in the past, at least two laborers were put in, and one person was required to carry out the drilling work while the other person had to hold the test paper (T) holding the phenolphthalein solution. Also, as the concrete flour (C) was generated, it was necessary to measure the discoloration by moving the test strip (T). On the other hand, the present invention is advantageous in that the user can visually confirm the test paper T inside the measuring unit 30, and can perform drilling and testing alone.

FIG. 2 shows a state of use of a concrete carbonation depth measuring apparatus for safety diagnosis, which is an embodiment of the present invention, and FIG. 3 is an enlarged view of a part of FIG.

2 or 3, the attachment portion 10 is provided with a drill insertion hole 12 on the side thereof to guide the drill D to a point to be drilled. Accordingly, it is possible to perform accurate drilling at a target point to measure the carbonated depth, thereby improving the reliability of the test results.

Preferably, the drill insertion hole 12 may be provided with a buffer cap (not shown) along the inner circumferential surface. Thereby, the vibration due to the drilling is absorbed, the airtightness between the drill D and the attaching portion 10 is improved, and the concrete powder C is not discharged to the outside at all.

In addition, a buffer frame 13 may be provided on the edge of the attachment portion 10 so as to be hermetically attached to the concrete surface. Preferably, the buffering frame 13 is made of a rubber material and can be fitted to the end of the attachment unit 10 as shown in FIG.

Accordingly, there is an advantage that the airtightness between the concrete surface and the attachment portion 10 is improved and the concrete powder C is not discharged to the outside at all.

1 to 3, a grip portion 15 may be integrally formed on one side of the attachment portion 10 so as to be gripped by one hand. Accordingly, the user can grasp the concrete carbonitriding depth measuring device for safety diagnosis using the present invention with one hand, and drill with the other hand, so that it is advantageous that the test can be conducted alone without additional manpower.

Specifically, one side of the grip portion 15 is coupled with the attachment portion 10, and the other side is coupled with the measurement portion 30, so that the grip feeling can be improved. Preferably, the grip portion 15 may be formed in a shape corresponding to the palm of a user, and the grip portion 15 may be formed of rubber to enhance the convenience of the user.

4 shows a cross section of the measuring section 30 which is a component of the present invention.

4, the measuring unit 30 includes a first roller unit 35 for releasing the test strip T on one side and a second roller unit 36 for winding the test strip T on the other side. A color change measurement unit 37 for measuring the acidity is provided between the first roller unit 35 and the second roller unit 36 and the concrete powder C discharged from the suction unit 20 The first and second roller portions 35 and 36 are rotated to move the test strip T so that the first and second roller portions 35 and 36 are continuously contacted with the test strip T.

Specifically, the measuring unit 30 is formed in a closed box shape, and a first roller unit 35 is provided on one side of the measuring unit 30 so that the test strip T is released, A second roller portion 36 is provided so that the test strip T is wound and a discoloration measurement portion 37 for measuring the acidity is provided between the first roller portion 35 and the second roller portion 36 The first roller unit 35, the second roller unit 36 and the discoloration measuring unit 37 may be separately formed so that the test strip T can be moved by the partition W.

As a result, other foreign matter is prevented from flowing into the discoloration measurement unit 37, and the concrete powder is introduced into the discoloration measurement unit 37 through the injection hole 31, and the first and second roller units 35 36 from being introduced.

The concrete powder C discharged from the suction part 20 flows into the test hole T provided in the upper part of the color change measuring part 37 and is contacted to the test paper T guided by the roller, The powder C may accumulate in the discoloration measurement section 37.

The movement of the test strip T wetted with the phenolphthalein solution P can be automated according to the configuration of the measuring section 30 as described above. That is, the user does not manually move the test strip T, but merely confirms whether the test strip T is discolored or not, so that the user can easily confirm the discoloration point. Furthermore, the user can perform the test alone and confirm the result, thereby reducing the labor cost, and there is an advantage that no additional member for confirming discoloration is required.

Preferably, a slide (not shown) that can be opened and closed is provided on the side surface of the measuring section 30, so that the test strip T can be easily and quickly replaced as needed. At the same time, there is an advantage that the accumulated concrete powder C can be removed by opening the slide, and maintenance is easy.

4, the discoloration measuring unit 37 is provided with a coupling hole 39 at the lower portion thereof so that the forced suction means V is engaged, so that the concrete powder C generated by the drilling is immediately sucked, (T).

As a result, the concrete powder C in the space portion 11 can be inhaled immediately in the order of generation. As a result, since the concrete powder (C) generated at the outermost side of the concrete surface during drilling can be immediately brought into contact with the test paper (T), the advantage of improving the accuracy of the test result without the problem of mixing the scattered powder later .

Specifically, the forced suction means V may be provided with a motor (not shown) operated by electric energy. Also, the electric energy provided to the motor can be supplied from the outside by a wire and a socket connector (not shown). In another embodiment, a battery compartment (not shown) may be provided on one side of the compulsory suction unit V to receive electrical energy from a battery coupled to the battery compartment.

In addition, the coupling hole 39 may be formed with a threaded portion so that the forced suction means V or the coupling stopper 39a may be screwed. Thereby, the forced suction means V can be easily coupled to the coupling member 39 and the airtightness can be improved. In the case where the present invention is not used and the test is to be performed without using the forced suction means V, the coupling stopper 39a may be screwed after the forced suction means V is removed. Accordingly, there is an advantage that a foreign matter or the like enters the measuring unit 30 and malfunctions or a phenomenon in which the concrete powder scattered in advance is mixed at a later time to affect the test result is prevented.

In addition, there is an additional advantage that the forced suction means (V) can measure the degree of carbonation of the slabs forming the ceiling or floor surface by means of the device as well as the wall.

5 shows a cross section of another embodiment of the measuring section 30 which is one component of the present invention.

5, a solution charging part 38 is provided between the first roller part 35 and the color change measuring part 37 so that the test paper T unreeled from the first roller part 35 is supplied to the solution charging part 38 ) To the phenolphthalein solution (P).

Specifically, the measuring unit 30 is formed in a box-like shape, and the partition W may be provided so that the internal space is divided into four. That is, the first roller unit 35, the solution charging unit 38, the color change measurement unit 37, and the second roller unit 36 may be divided in order from the one inner space.

Accordingly, there is an advantage that the test time is saved since the process of wetting the phenolphthalein solution (P) to the test paper (T) is not required prior to the test. In addition, there is an advantage that it is not necessary to carry the phenolphthalein solution (P) separately for the test.

A guide slit 38a for guiding the movement of the test strip T is provided in the solution filling portion 38 so that the test strip T supplied from the first roller portion 35 is wetted with the phenolphthalein solution P. Can be informed.

Specifically, the test paper T is drawn from the first roller portion 35 at one side of the upper side of the solution filling portion 38. The test strip T is guided along a guide slit 38a provided so as to be wetted with the phenolphthalein solution P filled in the lower portion of the solution filling portion 38. [ The test strip T wetted on the phenolphthalein solution P can be guided along the guide slit 38a to the other side of the solution filling portion 38 and discharged to the discoloration measuring portion 37. [

Preferably, the guide slit 38a may be formed in a circular shape so that the test strip T drawn in from the upper side of the solution filling portion 38 is turned to be wetted with the phenolphthalein solution P filled in the lower portion. In addition, the test strip T, which is provided with at least a part of the guide slit 38a and provided with an infiltration hole 38b, can be infiltrated into the phenolphthalein solution P at an appropriate ratio.

Specifically, when the test paper T is directly immersed in the phenolphthalein solution P, the test paper T is excessively wetted and may be broken during the rolling process. In the case of dropping the solution through the nozzle, the paper may be wetted unevenly, There is a problem that the test is difficult, and the test paper T can be infiltrated into the phenolphthalein solution P at a proper ratio by the constitution of the infiltration hole 38b.

In addition, when the guide slit 38a is formed in a circular shape, the technical effect that the front and rear surfaces of the test strip T can be wetted while naturally guided in the rolling process is exhibited.

The solution charging part 38 may be provided with a solution filling hole 38c at one side thereof to inject the phenolphthalein solution P. Preferably, the charging hole 38c may be provided with a buffer cap 38d along the inner circumferential surface thereof. The buffer cap 38d may be made of a rubber material.

The concrete carbonation depth measuring apparatus for safety diagnosis according to the present invention has been described above. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

It is to be understood, therefore, that the embodiments described above are in all respects illustrative and not restrictive.

10: attachment part 11: space part
12: Drill insertion hole 13:
15: grip portion 20: suction portion
30: measuring part 35: first roller part
36: second roller unit 37: discoloration measuring unit
38: solution filling part 39:
39a: Coupling cap P: phenolphthalein solution
T: Test paper C: Concrete powder
V: forced suction means

Claims (8)

1. A concrete carbonation depth measuring apparatus for measuring a time point at which a concrete powder (C) generated by drilling is brought into contact with a test paper (T) wetted with a phenolphthalein solution (P)
And a suction portion 20 integrally formed with the concrete powder C generated by the drilling so as to be integrally formed with the attachment portion 10, The concrete powder C introduced into the suction unit 20 is discharged and the phenolphthalein solution provided in the measuring unit 30 is contacted to the wetted test paper T,
The measuring unit 30 is formed in a closed box shape and a first roller unit 35 is provided on one side of the measuring unit 30 so that the test strip T is released, T is wound so that the test piece T is continuously moved so that the concrete powder C discharged from the suction part 20 continuously contacts the test piece T, Between the roller section 35 and the second roller section 36 is provided a discoloration measurement section 37 for measuring the acidity and between the first roller section 35 and the discoloration measurement section 37, 38 are provided so that the test paper T unrolled from the first roller portion 35 is wetted with the phenolphthalein solution P filled in the solution filling portion 38 and the first roller portion 35 and the second roller portion 36, the discoloration measuring unit 37 and the solution charging unit 38 are separately formed so that the test strip T can be moved by the partition W,
A coupling part 39 is provided at the lower part of the color change measuring part 37. The coupling part 39 is formed with a threaded part so that the forced suction means V is screwed into the concrete powder C generated by drilling. Is quickly attached to the test strip T located in the discoloration measurement unit 37,
A guide slit 38a for guiding the movement of the test strip T is formed in a circular shape by a pair of guide surfaces 38a-1 in the solution filling portion 38, A pair of guides (not shown) for moving the test strip T along the guide slit 38a in the pair of guide surfaces 38a-1 and forming the guide slit 38a so that the front and back surfaces of the test strip T are wetted, Characterized in that an infiltration hole (38b) is provided in the surface (38a-1), and the moving test strip (T) is infiltrated into the phenolphthalein solution (P) at an appropriate ratio. delete delete delete delete delete delete delete

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