JP3172025U - Water absorption tester - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a water absorption tester for easily confirming the waterproofness of a concrete surface or a crack repaired portion of the concrete surface. SOLUTION: In a water absorption tester 1 for confirming water absorption of a concrete surface or a crack repaired portion of a concrete surface, an opening 21 and a liquid-tight joint portion 23 capable of liquid-tightly adhering the opening to the concrete surface are provided. A water container 2 and a water meter 3 having a cylindrical measuring container 31 communicating with the inside of the water container and having a scale are provided. [Selection diagram] Fig. 1

Description

  The present invention relates to a water absorption tester for confirming water absorption of a concrete surface or a crack repaired portion of the concrete surface. The present invention is a water absorption test that is used in a method for objectively confirming whether or not the construction has been performed by a third party after the construction of the concrete, especially in the concrete reforming treatment for improving the waterproofness of the concrete surface or the like. Related to the vessel.

  Concrete is inherently very durable and has been said to have a useful life of 50 to 100 years, but it has recently been found that concrete deterioration is faster than expected. In particular, deterioration of concrete due to freeze-thaw and salt damage and complex deterioration may cause the emergence of structures that do not have the expected useful life and the occurrence of secondary disasters due to the peeling of concrete pieces from the structures. The cause of the cause has been investigated and various countermeasures have been taken. Specifically, the composition of the cement that constitutes the new concrete is changed, the unit water volume is reduced, the composition of the aggregate is specified, and the existing concrete is covered with polymer cement and a mortar containing siliceous waterproofing agent. Proposed methods such as injection, infiltration, and coating with organic resin, cement, and water glass materials have been proposed.

  In addition, it is a relatively simple construction method that is simply applied to the surface of new and existing concrete structures, preventing or inhibiting deterioration due to freezing and thawing or salt damage, and composite deterioration due to these, and without changing the surface design (immediately after implantation) As a concrete modifier that penetrates deep into the concrete and has high durability, a concrete modifier that contains basic components such as sodium hydroxide and potassium hydroxide in an aqueous lithium silicate solution is used. It has been proposed (Patent Document 1). As a result, high waterproofness of the concrete surface can be obtained.

International Publication No. 2005/082813 Pamphlet

  After the concrete reforming treatment such as the above method, the appearance of the surface state does not change, so there is no way for the construction owner to objectively confirm whether or not the treatment has been carried out. Moreover, even if repair work for cracks on the concrete surface has been performed, there has been no simple method for performing a performance test as to whether or not the waterproofness is sufficiently developed. Then, an object of this invention is to provide the water absorption test device for confirming easily the waterproofness of the concrete surface or the crack repair part of this concrete surface.

The present invention (1) is a water absorption tester for confirming water absorption of a concrete surface or a crack repaired portion of the concrete surface.
A water container (for example, water container 2) having an opening (for example, opening 21) and a liquid-tight joint (for example, liquid-tight joint 23) in which the opening can be liquid-tightly adhered to the concrete surface; ,
A water meter (for example, a water meter 3) having a cylindrical measuring container (for example, a cylindrical measuring container 31) that communicates with the inside of the water container and has a scale;
A water absorption tester (for example, a water absorption tester 1).

  The device (2) is a water absorption tester according to the device (1) (for example, FIG. 2, FIG. 2), wherein the cylindrical measuring container is erected vertically when the opening is brought into close contact with the concrete surface. 5, a water absorption tester shown in FIG.

  In the present invention (3), the upper surface of the cylindrical measuring container of the water meter is opened, and when water is put into the water absorption tester, the water meter is placed at a position higher than the water level in the water container. It is a water absorption tester of the said device (2) (for example, a water absorption tester shown in Drawing 2, Drawing 5, and Drawing 6) constituted so that a liquid level may be arranged.

  The device (4) of the present invention is a water absorption tester (for example, the water absorption tester shown in FIG. 7) of the device (1) having a plunger (for example, a plunger 35) for pressing water in the water meter. .

  According to the water absorption tester of the present invention, the water absorbed from the concrete surface is objectively measured with a water meter by injecting water into the concrete surface, injecting water, pressing it against the concrete surface and leaving it for a while. This is advantageous in that quantitative evaluation can be easily performed.

  In this invention (2), it becomes easy to measure the amount of water in the water absorption tester by setting the cylindrical measuring container upright.

  In the present invention (3), the liquid level in the water meter is arranged at a position higher than the water level in the water container, so that the water put in the water absorption tester is opened. Therefore, the water absorption test can be performed without providing any means for pressurizing.

  According to the present invention (4), since the plunger is used to apply pressure to the water in the water absorption tester, even in places such as the center of the ceiling where the upper part is not open. A water absorption test can be easily performed.

FIG. 1 is a schematic configuration diagram of a water absorption tester according to the present invention. FIG. 2 is a schematic view of how to use the water absorption tester according to the present invention. FIG. 3 is an explanatory diagram of a method of using the water absorption tester according to the present invention. FIG. 4 is an explanatory diagram of a method of using the water absorption tester according to the present invention. FIG. 5 is a schematic configuration diagram of a water absorption tester according to the second embodiment of the present invention. FIG. 6 is a schematic configuration diagram of a water absorption tester according to the third embodiment of the present invention. FIG. 7 is a schematic configuration diagram of a water absorption tester according to the fourth embodiment of the present invention.

  The water absorption tester of the present invention is used to confirm the water absorption of a concrete surface or a crack repaired portion of the concrete surface. Details of the present invention will be specifically described with reference to the drawings. FIG. 1 is a schematic configuration diagram of a water absorption tester according to the present invention.

  The water absorption tester 1 of the present invention includes a water container 2 and a water meter 3. The water container 2 has an opening 21 and a liquid-tight joint 23 in which the opening can be liquid-tightly adhered to the concrete surface. The water meter 3 has a cylindrical measuring container 31 that communicates with the water container 2 and is graduated.

  The water container 2 has a hollow cylindrical shape. By having the shape, when air enters the cylindrical container, it is easy to concentrate on one point of the container, and thus it is easy to ensure the accuracy of the measurement result.

  An opening 21 is provided in a part of the water container 2. The shape of the opening is not limited as long as the water in the water absorption tester can come into contact with the opening. Is preferably formed.

  Further, around the opening 21, there is a liquid-tight joint 23 formed so that the opening can be liquid-tightly adhered to the concrete surface. The liquid-tight joint is preferably composed of a rectangular plate member. The rectangular shape as described above improves the workability because it can be adhered in a liquid-tight manner to the concrete surface by combining and sticking linear tapes such as waterproof tape.

  The water meter 3 has a cylindrical measuring container 31 with a scale in order to measure the amount of water discharged from the opening 21 to the outside of the water absorption tester system. The cylindrical measuring container 31 is provided at a position standing on the top when the water container 2 is brought into close contact with the concrete surface. In particular, the joining position of the cylindrical measuring container 31 and the water container 2 is preferably a position that hits the uppermost part of the water container 2. By fixing at such a position, even when air enters the water container, the air is easily released to the outside through the cylindrical measuring container 31.

  FIG. 2 shows an outline of how to use the water absorption tester according to the present invention. First, in the usage method of the water absorption tester 1, the opening 21 is tightly joined to the surface of the concrete C via the liquid-tight joint 23. At this time, the water meter 3 is provided so that the cylindrical measuring container 31 stands vertically with respect to the horizontal direction.

  As shown in FIG. 3, it is preferable to bond the waterproof tape T to the joint surface of the liquid-tight joint 23 in a frame shape to join the concrete surface. Furthermore, it is preferable to use a waterproof adhesive such as a silicone sealant in combination with the waterproof tape to prevent water from being released to the outside through the joint to the concrete surface.

  After joining, make sure that air does not enter the water container, inject water from the top of the water meter 3, and place it in the water absorption tester so that the water level reaches the marked part of the measuring container. Fill with water. As a result, when water contacts the concrete surface through the opening 21 and the concrete has water absorption, water is discharged from the contact point outside the water absorption tester system.

  In such a state filled with water, the amount of water absorption is measured by leaving it for a predetermined period (about 1 hour to 1 week) set in accordance with the required degree of water absorption. That is, the amount of water absorption can be measured quantitatively by measuring the amount of water decrease by the water level of the measuring container and the attached scale.

  When left unattended, the amount of water evaporated from the release surface at the top of the cylindrical weighing container may greatly contribute as a measurement error. Therefore, it is preferable to prevent evaporation of moisture by providing a paraffin film on the release surface.

  Moreover, as another example of use, it is also possible to evaluate the water absorption of the repair part of a concrete crack. That is, as shown in FIG. 4, the tape 200 provided with the slit 201 only on the crack repairing part A after the concrete crack closing process is attached to the concrete surface, and the water absorption tester 1 according to the present invention is applied from above the tape. Install and perform water absorption test. By using in this way, the water absorption of the crack repairing part located in the slit part of the tape 200 can be evaluated. In addition, you may use together the sealing agent which has waterproofness like a silicone sealant.

  In the second embodiment of the present invention, in the first embodiment, the water absorption tester is used for the side surface of the concrete wall surface or the like, but it is a test device for evaluating the water absorption of the upward surface such as the concrete floor surface. It is different in point. FIG. 5 is a schematic configuration diagram of a water absorption tester according to the second embodiment of the present invention. In this specification, about the part which is common with 1st form, the same code | symbol is attached | subjected in drawing and description is abbreviate | omitted. Here, the difference from the first embodiment will be mainly described in detail.

  The difference between the first embodiment and the second embodiment is that, in the first embodiment, a water meter is joined to the side surface of the hollow cylindrical water container, but in the second embodiment, the hollow cylindrical water container of the water container 2 is used. A cylindrical weighing container 31 is joined to the upper surface of the. By comprising in this way, even if it is a concrete floor surface, it becomes possible to evaluate the water absorption of concrete using the method similar to 1st form.

  FIG. 6 is a schematic configuration diagram of a water absorption tester according to the third embodiment of the present invention. A third embodiment of the present invention is a water absorption tester 1 for evaluating water absorption of a downward surface such as a concrete ceiling surface. In this specification, about the part which is common with 1st form, the same code | symbol is attached | subjected in drawing and description is abbreviate | omitted. Here, the difference from the first embodiment will be mainly described in detail.

  The difference between the first embodiment and the third embodiment is that, in the first embodiment, the water container 2 and the metering container of the water meter 3 are directly joined, but in the third embodiment, the cylindrical measuring container 31 is arranged in the horizontal direction. In order to be able to stand vertically, an extension pipe part 33 is provided. By comprising in this way, if it is an edge part of a ceiling surface, it will become possible to evaluate the water absorption of concrete using the method similar to a 1st form.

  FIG. 7 is a schematic configuration diagram of a water absorption tester according to the fourth embodiment of the present invention. The fourth form of the present invention is a water absorption for evaluating water absorption on a downward surface such as a concrete ceiling surface, particularly when there is no environment in which a cylindrical container can be erected vertically like the center. It is a tester. In the present specification, portions common to the third embodiment are denoted by the same reference numerals in the drawings, and description thereof is omitted. Here, differences from the third embodiment will be mainly described in detail.

  The difference between the fourth embodiment and the third embodiment is that a plunger 35 for pressurizing the water inside the cylindrical measuring container 31 is provided. The plunger 35 is preferably provided with a biasing mechanism 37 for pressurizing water. By configuring in this way, even if the cylindrical measuring container 31 is not erected, the pressure is applied so that water contacts the concrete surface through the opening 21. Can be measured. In this case, the amount of water can be identified by the amount of change in the position of the plunger 35.

  According to the water absorption tester of the present invention, the waterproof property of the concrete surface or the crack repaired portion of the concrete surface can be easily confirmed.

1: Water absorption test device 2: Water container 21: Opening 23: Liquid-tight joint part 3: Water meter 31: Cylindrical measuring container 33: Extension pipe part 35: Plunger 200: Tape 201: Slit A: Crack repair part

Claims (4)

In the water absorption tester for confirming the water absorption of the concrete surface or the crack repaired portion of the concrete surface,
A water container having an opening, and a liquid-tight joint where the opening can be liquid-tightly adhered to the concrete surface;
A water meter that communicates with the inside of the water container and has a cylindrical measuring container with a scale;
A water absorption tester.   The water absorption tester according to claim 1, wherein the cylindrical measuring container is erected vertically when the opening is brought into close contact with the concrete surface.   The upper surface of the cylindrical metering container of the water meter is open, and when the water absorption tester is filled with water, the liquid level in the water meter is arranged at a position higher than the water level in the water container. The water absorption tester according to claim 2, which is configured as follows.   The water absorption tester according to claim 1, further comprising a plunger for pressing water in the water meter.