JP2007169974A - Inside filling material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inside filling material which maintains high fluidity for a long time to extend a transportable distance to about double and secures high filling property and a sufficient working time. <P>SOLUTION: Fluidity is secured by adding polycarboxylate and calcium lignin sulfonate into the inside filling material containing cement/bentonite as a main material. The sufficient working time is also secured by using a delay type dispersant (calcium lignin sulfonate as a retardant) to secure the sufficient working time. Metal aluminum is added to produce hydrogen gas by reaction with calcium hydroxide to attain foaming/swelling. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  In a shield tunnel that is often used in urban civil engineering, when laying an inner pipe through which waterworks, gas pipes, etc. pass in the tunnel, the primary lining that covers the tunnel and the secondary lining that is the inner pipe It is a material that protects the secondary lining of the inner pipe by filling and solidifying the extra space formed between them, and a large or complicated cavity generated in the soil, that is, an air defense fence made in the soil It is related with the filling material which can also fill and solidify a cavity more reliably as a material which fills the cavity and the cavity which generate | occur | produced around the underground structure and the pile.

In the shield method, excavation is performed with a shield machine, and primary lining is performed with a segment or the like behind the machine. When this tunnel is used for waterworks or gas pipe laying, the inner pipe covering it is installed as a secondary lining.
The cavity between the temporary lining and the secondary lining is filled with a filling material mainly composed of cement to be solidified and protected (see Patent Document 1). As the filling material, conventionally, air mortar and bentonite filling air mortar have been used. These air mortars use bubble mortar to which a foaming agent is added during kneading. The reason why the air mortar is used is that the volume can be secured economically and the unit volume weight is lowered.

JP 2000-274187 A

  By the way, the conventional air mortar adds a foaming agent at the time of kneading | mixing, and pumps it in the state containing the bubble, and since it is necessary to stabilize the foaming during conveyance, high viscosity is required. For this reason, a transport distance of only 1000 to 1500 m could be secured, and a relay facility had to be installed for long distance transport. For this reason, not only is the cost high, but there is a problem that it is difficult to secure a location for installing the relay facility in a narrow tunnel site. Further, since the fluidity is low, the filling property is poor, and further, due to the decrease in fluidity, there is a problem that the working time is short and the workability on site is insufficient.

  The present invention was devised in view of the current situation, and the object of the present invention is to maintain high fluidity for a long time and to extend the transportable distance by a factor of approximately 2 and to ensure high fillability. Therefore, an object of the present invention is to provide a filling material capable of ensuring sufficient working time.

By the way, in the grout injection work for filling a large-scale or complicated cavity where the filling material according to the present invention is used, as necessary characteristics required for filling material on construction,
A. High fluidity and non-separation characteristics of materials that can be pumped over long distances are required.
B. In order to reliably fill large or complex cavities, a large volume of grout material is continuously injected over a long period of time, so that the pumped grout material is larger than a single grout at the intended filling location. The material will be fed one after the other, but in order to ensure the filling of the cavity, it is necessary to ensure the flow state as much as possible even in the time-lapsed material as much as possible. It is possible to achieve filling by leveling the filling location of the material.
C. Usually, as a characteristic of a material having a long-time flow characteristic, there are material separation and generation of bleeding water as conflicting phenomena. As a result, non-uniform fillers and new cavities are generated during construction. Therefore, it should be a material that does not cause generation of new cavities due to long-term fluidity retention of B, material separation, and bleeding.
Is required.

  In order to achieve the above-described requirements, the invention according to claim 1 is characterized in that metal aluminum powder is used as a foaming agent in air mortar or bentonite-filled air mortar for filling a shield tunnel or the like. It is.

  Further, the invention according to claim 2 is based on the technical premise of the filling material according to claim 1, specifically, cement, bentonite, polycarboxylate as a polymer dispersion, and as a retarder. It is produced from calcium lignin sulfonate, metallic aluminum powder, and water.

  In the first aspect of the invention, since the metal aluminum powder is used as the foaming agent in the air mortar or bentonite in-filled air mortar that is packed in a shield tunnel or the like, in the prior art, the stability of the bubbles However, it is not necessary to add a foaming agent at the time of kneading, and it is possible to switch to in-house foaming by using metal aluminum powder, thus maintaining high fluidity for a long time. As a result, the transportable distance can be extended to about twice that of the conventional filling material, high filling property can be secured, and sufficient work time can be secured.

  Further, in the invention according to claim 2, fluidity can be secured by adding polycarboxylate and calcium lignin sulfonate to the filling material mainly composed of cement bentonite, In order to ensure a sufficient working time, by using a delay type dispersant (calcium lignin sulfonate as a retarding agent), a sufficient working time can be ensured. By generating hydrogen gas by the reaction with calcium oxide and foaming / swelling, a number of excellent effects can be obtained, for example, bleeding can be effectively suppressed even if high fluidity is ensured for a long time.

  Hereinafter, based on Example 1, this invention is demonstrated in detail.

In this example, the filling material was produced by mixing at the blending ratio shown in Table 1, and the fluidity, water dilution, underwater stability and drying shrinkage in each blend were measured. Tables 1 and 5 show the mixing ratio of 1 m3 unit.

  The results of the above blending are shown in Table 2, Table 3 and Table 4.

  Next, Table 5 shows the composition of the conventional filling material, and Tables 6, 7 and 8 show the test results.

  As clearly shown by comparing the data tables 1 to 4 of the filling materials according to this embodiment and the data tables 5 to 8 of the conventional filling materials, the filling materials according to this embodiment are the conventional filling materials. It can be seen that the transport distance twice that of the filling material can be obtained, and it has high fluidity. In addition, by adding polycarboxylate and calcium lignin sulfonate, fluidity can be secured, and in order to ensure sufficient working time, a delay type dispersant (calcium lignin sulfonate as a retarder) is added. By using it, sufficient working time can be secured, and furthermore, by adding metal aluminum and reacting with calcium hydroxide to generate hydrogen gas and foaming / swelling, high fluidity can be achieved. It can be seen that bleeding can be effectively suppressed even if time is secured.

Claims (2)

  Filling material using metal aluminum powder as a foaming agent in air mortar or bentonite filling air mortar for filling in a shield tunnel or the like.   The filling material according to claim 1, comprising cement, bentonite, polycarboxylate as a polymer dispersion, calcium lignin sulfonate as a retarder, metal aluminum powder, and water.