KR20090076044A - Equipment for measuring bleeding of injection mortar and measuring method using the same - Google Patents

Abstract

An apparatus and method for measuring bleeding of mortar for injection are provided to measure bleeding rate under the same condition with actual build. An apparatus for measuring bleeding of mortar(30) comprises: a construction container(20) in which mortar for injection is stored; an injection container(10) in which the mortar for injection from the construction container; and a connection pipe(40) which connects between one end of the construction container and injection container. A method for measuring bleeding of mortar for injection comprises: a step of constructing the mortar for injection in the construction container; a step of pressing on the constructing container and injecting the mortar through the connection pipe; and a step of measuring bleeding rate of mortar.

Description

Equipment for Measuring Bleeding of Injection Mortar and Measuring Method using the Same}

The present invention relates to a bleeding measuring mechanism and measuring method of the injection mortar, and specifically, in accordance with the construction conditions of the injection mortar used for grouting, etc., the bleeding can be measured in a state in which the mortar to be poured later is subjected to the greatest pressure. The present invention relates to a bleeding measuring instrument and a measuring method of a mortar for injection.

The bleeding phenomenon is one of the characteristics of unconsolidated concrete, and is a kind of material separation phenomenon caused by the mixed water rising upward by sedimentation of cement particles and aggregates. This bleeding phenomenon is unavoidable due to the material properties of the concrete or mortar, which is a mixture, but the larger the bleeding, the lower the adhesion and the poor watertightness.

KS F 2433 proposes the "Bleeding rate and expansion rate test method of injection mortar" as a method of measuring the bleeding of the injection mortar. First, as shown in FIG. 1, the mortar 300 is filled in the polyethylene cylinder 100 so that air does not enter to a height of about 20 cm, and the polyethylene cylinder is placed in a measuring cylinder containing about 400 ml of water. At this time, mortar is poured from the bottom using a funnel or the like. Lower the polyethylene cylinder so that the surface of the measuring cylinder and the mortar surface coincide, and remove 400 ml from the surface scale to find the volume of mortar. The water from the bleeding of the mortar surface is extracted and placed in a 20 ml measuring cylinder. The bleeding rate (%) after 3 hours is (bleeding amount (ml) / volume of sample (ml) after 3 hours) x 100, and the final bleeding rate (%) is (bleeding amount after 20 hours (ml) ) / Volume of sample (ml)) x 100.

Unlike the general mortar in which the lower mortar, which is poured from the top to the first place, is subjected to the greatest pressure, the injection mortar, which is generally used as grout, is injected and injected by pressure, so the last mortar to be injected is the most You will be under great pressure.

However, the conventional test method described above is based on the general mortar test method established in 1969, and does not reflect the characteristics of the grout used for the injection of post tension. That is, the current bleeding test method of the injection mortar is the same test method as the general mortar, it does not properly reflect the construction conditions, such as the difference in the pressure applied to the injection mortar. Therefore, mortar, which was judged to have proper bleeding rate according to the current test method and standard, may be found to be inappropriate in actual construction.

The present invention was developed to overcome the limitations and problems of the prior art as described above, by pouring the injection mortar reflecting the conditions under which the injection mortar is constructed, for the purpose of measuring the bleeding rate in accordance with the actual construction do.

In order to achieve the above object, in the present invention, a bleeding measuring device for injection mortar includes a pouring container in which the injection mortar is stored, an injection container into which the injection mortar is injected from the pouring container, and one end of the pouring container. And a connection pipe connecting one end of the injection container, wherein the injection mortar in the pouring container is injected into the injection container from one end of the injection container through the connection pipe. Provide an appliance.

In addition, a pressure member is connected to the other end of the pouring container, and by applying pressure to the injection mortar in the pouring container, the injection mortar in the pouring container is connected to one end of the pouring container in the injection container. It provides an injection mortar bleeding measuring device, characterized in that the injection.

In addition, the present invention provides a mortar bleeding measurement mechanism for injection, characterized in that the pressing member is composed of a piston.

In addition, in the present invention, as a method for measuring the bleeding of the injection mortar, the injection mortar is poured into and stored in the pouring container, and the pressure is applied to the pouring container, and the injection mortar is transferred from the pouring container to the injection container through the connection pipe. The bleeding rate of the mortar for injection in the injection container is injected in a state in which injection mortar is injected into the injection container so that the injection mortar to be injected into the injection container receives a greater pressure than the injection mortar first injected. It provides a method for measuring mortar bleeding for injection, characterized in that the measurement.

According to the present invention, since the mortar to be injected later is subjected to greater pressure than the mortar to be injected first, the bleeding rate can be measured under similar conditions as the actual construction.

Hereinafter, the configuration of the present invention will be described by referring to specific embodiments of the present invention with reference to the accompanying drawings.

2A and 2B are schematic side cross-sectional views respectively showing the mortar bleeding measuring instrument 1 for injection of the present invention.

The injection mortar 30 is used for grouting a prestressed concrete structure, and is generally sprayed by pressure. The present invention provides a method for measuring the actual bleeding rate according to the injection and injection of the injection mortar 30. will be. Injection mortar measuring device 1 of the present invention, as shown, is provided with a pouring container 20 and the injection container 10, the connection pipe connecting between the pouring container 20 and the injection container (10) 40 and the injection mortar 30 may be configured to include an opening and closing valve 41 and the pressing member 21 for moving from the pouring container 20 to the injection container 10.

The injection mortar 30 is poured and stored in the pouring container 20. As described later, the injection mortar 30 moves from the pouring container 20 to the injection container 10 by pressure. In the injected state, the bleeding rate of the injection mortar 30 may be measured.

The pouring container 20 may be connected to the injection container 10 by a connecting pipe 40 installed at one end. The injection container 10 preferably uses a container having a shape that can reflect the pressure difference according to the height between the injection mortar 30 that is poured first in the actual construction situation and the injection mortar 30 that is poured later. Do. For example, as illustrated in FIGS. 2A and 2B, a cylinder having a shape vertically installed on the bottom surface and extending up and down may be used. At this time, the connecting pipe 40 is preferably to be connected to the lower end in the longitudinal direction of the injection container (10).

The other end of the pouring container 20 may be provided with a pressing member 21 such as a piston, by operating the pressing member 21 to apply pressure to the pouring container 20, the pouring container 20 The injection mortar 30 in the pouring container 20 may move through the connection pipe 40 installed at one end of the pouring container 20. The injection mortar 30 moved to the connection pipe 40 by the pressure of the pressing member 21 may be injected into the injection container 10 through the lower end of the injection container 10. The injection mortar 30 in the injection container 10 is the first injection portion is located at the top, the later injection mortar is located at the bottom, the injection mortar (30) moved through the connecting pipe (40) ) May be injected by pushing the lower portion injection mortar 30 in the injection container 10 to the top. Therefore, as the amount of mortar injected into the injection container 10 increases, the height becomes higher, and since the injection mortar 30 is to be injected by applying a greater pressure, the mortar injected later receives the greatest pressure. Will be. This is different from the existing bleeding test method of the general injection mortar 30, and in the past, the injection mortar 30 is poured in the upper portion of the injection container 10, and the amount of water rising over time was measured. . In this case, in the order of pouring, the first poured portion is stacked below, and the first poured portion is put under the greatest pressure due to the injection mortar 30 that is poured in turn. However, since the injection mortar 30 is generally injected by injection by pressure, injecting pressure from the lower end of the injection container 10 as in the present invention corresponds to the actual use condition of the injection mortar 30. . Therefore, when using the injection mortar bleeding measuring device 1 of the present invention, it is possible to accurately measure the bleeding rate of the injection mortar 30 according to the environment and conditions in which the injection mortar 30 is used.

In the above description, for example, the injection container 10 is installed in a direction perpendicular to the bottom surface, but the injection container 10 is an injection mortar 30 into which a new injection mortar 30 is first injected. It can be installed in various directions to be injected while pushing. For example, even when the injection container 10 is installed horizontally with the bottom surface, since the new injection mortar 30 is injected while pushing the injection mortar 30 that is poured first, the actual injection mortar 30 is used. Accurate bleeding rates can be measured under similar conditions.

On the other hand, the connecting pipe 40 is provided with an opening and closing valve 41, from the pouring container 20 with the pressing member 21, such as a piston installed in the pouring container 20 from the injection container (10). The amount and speed of the injection mortar 30 to be moved and injected can be adjusted.

1 is a schematic side cross-sectional view of an injection container according to a conventional injection mortar bleeding measurement mechanism.

2A and 2B are schematic side cross-sectional views, respectively, showing the injection mortar bleeding measurement mechanism of the present invention.

<Description of the symbols for the main parts of the drawings>

1 Injection mortar bleeding measuring device 10 Injection container

20 Pour container 21 Pressurizing member

30 Injection mortar 40 Connector 41 Opening and closing member

Claims (4)

As a bleeding measuring mechanism of the injection mortar 30, A pouring container 20 in which the injection mortar 30 is stored; An injection container 10 into which the injection mortar 30 is injected from the pouring container 20; It includes a connecting pipe 40 for connecting one end of the pouring container 20 and one end of the injection container 10, Injection mortar bleeding measurement, characterized in that the injection mortar 30 in the pouring container 20 is injected into the injection container 10 from one end of the injection container 10 through the connecting pipe 40. Instrument. The method of claim 1, Pressing member 21 is connected to the other end of the pouring container 20, By applying pressure to the injection mortar 30 in the pouring container 20, the injection mortar 30 in the pouring container is connected to one end of the pouring container 20 through a connection pipe 40. 10) An injection mortar bleeding measurement instrument, characterized in that it is injected into. The method of claim 2, The pressurizing member 21 is injection mortar bleeding measurement mechanism, characterized in that consisting of a piston. As a bleeding measurement method of the injection mortar (30), Injects and stores the mortar 30 for injection in the pouring container 20, By applying pressure to the pouring container 20, the injection mortar 30 is injected from the pouring container 20 to the injection container 10 via a connecting pipe 40. In the state of injecting the mortar 30 for injection into the injection container 10 so that the injection mortar 30 to be injected later into the injection container 10 receives a greater pressure than the injection mortar 30 injected first Injecting mortar bleeding measurement method, characterized in that for measuring the bleeding rate of the injection mortar (30) in the injection vessel (10).

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