JP3156151U - Foundation for ground improvement - Google Patents

Abstract

The present invention relates to a foundation for ground improvement obtained by mixing and solidifying cement composition and earth and sand, and provides a foundation for ground improvement that suppresses elution of hexavalent chromium at low cost. A cement composition including concrete sand and a cement-based solidifying material whose base material is cement, and a ground improvement foundation 100 obtained by mixing and solidifying earth and sand, wherein the concrete sand constitutes the cement. It is a foundation for ground improvement that is heavier than cement particles. More preferably, the cement composition includes reclaimed sand produced when the concrete is crushed as the concrete sand. [Selection] Figure 1

Description

  The present invention relates to a foundation for ground improvement obtained by mixing and solidifying a cement composition and earth and sand.

  When a building is constructed on soft ground, there is a problem that the ground sinks without being able to support the weight of the building. For this reason, in recent years, a ground improvement method for forming a foundation for ground improvement using cement or the like has been proposed so that a building can be constructed even on soft ground. However, since this cement contains highly toxic hexavalent chromium produced during its production process, there is a problem that this hexavalent chromium is eluted into the soil around the ground using the cement. In order to solve this problem, various methods have been proposed (for example, Patent Document 1).

  In the invention described in Patent Document 1, a substance that neutralizes hexavalent chromium is added to cement to suppress toxicity.

JP-A-2005-112706

  However, in the case of the invention described in Patent Document 1, a certain amount of neutralizing agent is required, which is costly.

  In view of the above circumstances, an object of the present invention is to provide a foundation for ground improvement that suppresses elution of hexavalent chromium at a low cost.

The foundation for ground improvement of the present invention to achieve the above purpose is
A cement composition comprising concrete sand and a cement-based solidifying material whose base material is cement, and a foundation for ground improvement obtained by mixing and solidifying earth and sand,
The concrete sand is heavier than cement particles constituting the cement.

  Here, examples of the concrete sand include those having a size of less than 2.5 mm, but are not necessarily limited to a size of less than 2.5 mm.

  According to the foundation for ground improvement of the present invention, the amount of cement used for the foundation for ground improvement can be reduced by using concrete sand as compared with the foundation for ground improvement. For this reason, the elution of hexavalent chromium from the foundation for ground improvement can be suppressed, and the cost for the neutralizing agent can also be suppressed. Moreover, since it becomes difficult to disperse cement particles by mixing with concrete sand, elution of hexavalent chromium due to scattering can be suppressed. Furthermore, since cement particles are less likely to scatter, the number of cases where it is not necessary to use a cover increases and costs can be reduced. Therefore, the foundation for ground improvement with little elution of hexavalent chromium can be formed at low cost.

  Here, the cement composition may include reclaimed sand produced when the concrete is crushed as the concrete sand.

  According to this foundation for ground improvement, the cost of the foundation for ground improvement can be kept low by using low cost recycled sand.

Also, the foundation for ground improvement is solidified in layers,
The cement composition may contain more concrete sand than the cement-based solidifying material.

  According to this foundation for ground improvement, the cost concerning the foundation for ground improvement can be further reduced by using a lot of low-cost concrete sand.

  Further, the cement composition may contain the concrete sand in a proportion of more than 50% and 80% or less with respect to 100% of the total amount of the concrete sand and the cement-based solidifying agent.

  According to this foundation for ground improvement, the cost for forming a foundation for ground improvement with sufficient strength can be kept low.

  Further, the foundation for ground improvement may be solidified in a columnar shape, and the cement composition may include the same amount or less of the concrete sand as the cement-based solidified material.

  According to this foundation for ground improvement, the cost concerning the foundation for ground improvement can be further reduced by using a lot of low-cost concrete sand.

  Furthermore, the cement composition may contain the concrete sand at a ratio of 30% to 50% with respect to 100% of the total amount of the concrete sand and the cement-based solidifying agent.

  According to this foundation for ground improvement, it can be formed at a low cost for forming a foundation for ground improvement with sufficient strength.

  According to the present invention, a foundation for ground improvement that suppresses elution of hexavalent chromium at low cost is realized.

It is a figure which shows the state by which the house was built in the ground improved using the foundation for surface layer ground improvement of this embodiment. It is a figure which shows the state by which the house was built in the ground improved using the foundation for columnar ground improvement of this embodiment.

  Hereinafter, in describing the embodiment of the ground improvement foundation of the present invention, first, the cement composition used in this embodiment will be described.

  The cement composition used in the present embodiment includes a cement-based solidifying material and concrete sand, and details will be described later, but the ground is improved by a foundation for ground improvement in which this cement composition and earth and sand are mixed. It is.

  Here, the cement-based solidifying agent is a material in which cement is used as a base material (main material), and an additive according to the purpose is added to the cement. Examples of additives include those that accelerate cement solidification and those that suppress the elution of harmful substances. In addition, additives for purposes other than improving the mechanical and physical properties of the soil are included. In the present embodiment, the following description will be made assuming that only cement is one of the cement-based solidifying materials. In general, the cement-based solidifying agent as described above is used for building construction and ground improvement.

  On the other hand, concrete sand is composed of concrete grains heavier than cement particles, and in particular, in this embodiment, is composed of concrete grains having a size of less than 2.5 mm.

  In order to dispose of a large amount of concrete waste generated when demolishing aging buildings, etc., a method of crushing and reusing the discarded concrete has been proposed. Absent. Therefore, in this embodiment, the concrete generated when a building or the like is demolished is crushed, the crushed concrete is passed through a 2.5 mm mesh sieve, and the reclaimed sand (so-called dust sand) passing through the sieve is used as concrete sand. Use. By using the above-mentioned concrete waste, the cost for forming the foundation for ground improvement can be reduced, and the waste can be reduced. In addition, this concrete is not limited to using waste, and may be a concrete using dedicated concrete for making concrete sand. Moreover, the crushing method may be, for example, a method using a crusher, or may be a product manually crushed using a hammer or the like. Most of the concrete sand grains produced by crushing concrete are larger than 10 μm, which is the average size of cement particles, and few are smaller than the size of cement particles. In addition, since concrete particles and cement particles have the same specific gravity, most of the concrete particles are considered to be heavier than cement particles. Therefore, in this embodiment, it uses as it is, without confirming the weight of these concrete grains. In addition, you may use not only the concrete sand which crushes concrete but the newly manufactured concrete sand.

  As described above, in general ground improvement, a foundation for ground improvement using a cement-based solidified material whose base material is cement is formed, but cement contains highly toxic hexavalent chromium. There is a problem that this hexavalent chromium is eluted into the soil around the foundation for ground improvement and adversely affects the environment. Since the cement composition used in this embodiment is a mixture of cement-based solidified material and concrete sand, the amount of cement used for the ground improvement foundation is small compared to the conventional ground improvement foundation. Moreover, although concrete sand contains hexavalent chromium, it is in a state in which hexavalent chromium is difficult to elute once cured. From these things, the quantity of hexavalent chromium which elutes to soil can be decreased by using the said cement composition for the foundation for ground improvement.

  Further, the cement particles have a small size of 10 μm as described above, and are easily scattered in the air during use. The scattered cement particles also have a problem that the hexavalent chromium is eluted at the destination and the surrounding area is contaminated. Regarding this problem as well, as described above, the cement composition used in the present embodiment forms a foundation for ground improvement with a small amount of cement compared to the conventional case, and therefore, the total amount of scattered cement particles can be suppressed to a smaller amount than before. it can. Furthermore, since concrete sand heavier than cement particles is mixed, it is possible to suppress the scattering of cement particles. Therefore, soil contamination of hexavalent chromium due to scattering of cement particles can be reduced.

  Hereinafter, the surface ground improvement foundation corresponding to one embodiment of the ground improvement foundation of the present invention will be described with reference to the drawings as appropriate.

  Drawing 1 is a figure showing the state where the house was built in the ground improved using the foundation for surface layer ground improvement of this embodiment.

FIG. 1 shows a soft ground 10 that does not have sufficient strength and cannot support a building, a good ground 11 that can support a building, a house 12, a base 13, and a surface ground improvement foundation 100. Here, the lower left hatching represents a soft ground with low strength, the lower right hatching represents a strong good ground, and the cross hatching represents a foundation for ground improvement. The hatching shown in the following figures also follows the above description unless otherwise specified. When the house 12 is constructed as it is, the soft ground 10 cannot sufficiently support the house 12 and the base 13, and there is a possibility that problems such as ground subsidence may occur. Here, the surface ground improvement foundation 100 is formed before the foundation 13 is constructed in order to solve such a problem. The surface ground improvement foundation 100 is obtained by mixing a cement composition in which the above-mentioned concrete sand and cement-based solidifying material are mixed at a ratio of 8: 2 and earth and sand and solidifying them in layers. In addition, 100 kg of cement composition is used for 1 m ^{3 of} earth and sand in the foundation 100 for improving the surface ground. The surface layer ground improvement foundation 100 has a strength necessary for ground improvement as will be described later, thereby solving problems such as ground subsidence. This surface layer improvement foundation 100 is an effective method when the good ground 11 is within 2 m from the ground surface. The presence or absence of the base 13 is irrelevant to the present invention.

A general surface foundation improvement foundation is required to have a uniaxial compressive strength of 30 N / cm ² or more. As described above, the surface foundation improvement foundation 100 using a cement composition in which concrete sand and cement-based solidified material are mixed at a ratio of 8: 2 has a strength necessary for supporting a building (uniaxial compressive strength). 47.0 N / cm ² ). Here, when the ratio of the concrete sand and the cement-based solidified material contained in the cement composition of the present embodiment is 9: 1, it is lower than the strength necessary to support the building (uniaxial compressive strength is less than 30 N / cm ² ). . Further, as the ratio is changed and the amount of cement-based solidifying material is increased, a foundation for improving the surface layer ground having higher strength than that in the case of 8: 2 is formed. That is, in the case of 7: 3, the strength is further increased (uniaxial compressive strength 71.6 N / cm ² ), and when the ratio is 5: 5, sufficient strength (uniaxial compressive strength 90 N / cm ² or more) is obtained. In particular, when the ratio is 5: 5, the strength is as much as three times the required strength. However, even if the ratio of the cement-based solidifying material is increased, the strength becomes more than necessary and is meaningless. There arises a problem that the degree of elution of valent chromium increases. Further, from the viewpoint of cost, it is not preferable that the amount of the cement-based solidifying material increases. Therefore, considering these problems comprehensively, it is preferable to increase the proportion of concrete sand to more than 50%. That is, by using a cement composition containing concrete sand in a proportion of more than 50% and less than 70% to 100% of a mixture of concrete sand and cement-based solidifying material, the surface layer has the strength necessary to support the building. The foundation for ground improvement can be formed with reduced elution of hexavalent chromium. Note that, depending on the scale of the building and the amount of moisture in the earth and sand, the ratio is not limited to this, and a cement composition containing more concrete sand than the cement-based solidified material may be used.

  This surface foundation improvement foundation can suppress elution of hexavalent chromium at low cost while having the strength necessary to support a building.

  Next, a columnar ground improvement foundation corresponding to another embodiment of the ground improvement foundation of the present invention will be described.

  Drawing 2 is a figure showing the state where the house was built on the ground improved by the foundation for columnar ground improvement of this embodiment.

FIG. 2 shows a soft ground 20 that does not have sufficient strength and cannot support a building, a good ground 21 that can support a building, a house 22, a base 23, and a columnar ground improvement foundation 200. When the house 22 is constructed as it is, the soft ground 20 cannot sufficiently support the house 22 and the base 23, and there is a possibility that problems such as ground subsidence may occur. Here, the columnar ground improvement foundation 200 is formed before the foundation 23 is constructed in order to solve such a problem. The foundation 200 for columnar ground improvement is obtained by mixing a cement composition in which the above-described concrete sand and cement-based solidifying agent are mixed at a ratio of 5: 5, and earth and sand, and solidifying them into a columnar shape. Further, in this columnar ground improvement base 200, 280 kg of cement composition is used per 1 m ^{3 of} earth and sand. As will be described later, the columnar ground improvement foundation 200 has a strength necessary for ground improvement, and can solve problems such as ground subsidence. This columnar ground improvement foundation 200 is an effective method when the good ground 21 is at a depth of 2 m or more from the ground surface, and is more effective when the ground is at a depth of 2 m or more and 9 m or less from the ground surface. The presence or absence of the base 23 is irrelevant to the present invention.

In general, the foundation for columnar ground improvement is provided at a portion that supports a building like a pillar of a building, for example. In this case, since the weight of the building is concentrated on the foundation for columnar ground improvement, the strength (for example, uniaxial compressive strength is 80 N / cm ² or more) higher than the standard strength of the improved ground layer in the surface ground improvement method. As a result, the proportion of cement is higher than that of the improved ground layer. As described above, the columnar ground improvement foundation 200 using a cement composition in which concrete sand and cement-based solidified material are mixed at a ratio of 5: 5 has a strength (uniaxial compressive strength 154. 6 N / cm ² ). Here, when the ratio of the concrete sand and the cement-based solidified material contained in the cement composition of this embodiment is 6: 4, the strength (uniaxial compressive strength) required for the foundation for columnar ground improvement by using water appropriately. 124.5 N / cm ² ) is expressed. However, depending on the skill level of the operator, a large amount of water may be used, and the above-mentioned strength may not be achieved. Therefore, in the present embodiment, a cement composition having the above ratio of 5: 5 is used for safety. Moreover, the foundation for columnar ground improvement which has higher intensity | strength compared with the case of 5: 5 is formed, so that the quantity of a cement-type solidification material is increased by changing this ratio. That is, the strength can be further increased by setting the above ratio to 4: 6 or 3: 7, for example. However, it is necessary that the degree of elution of hexavalent chromium does not exceed the soil environment standard value of 0.05 mg / l (JIS K 0102 (2008) 65.2). Here, considering the cost and the elution amount of hexavalent chromium, the proportion of concrete sand is preferably 30% or more. In the present embodiment, the cement composition having the above ratio in the range of 3: 7 to 5: 5, that is, containing concrete sand at a ratio of 30% to 50% with respect to 100% of the mixture of concrete sand and cement-based solidified material. By using the cement composition, it is possible to form a foundation for columnar ground improvement having a required strength. Depending on the scale of the building and the amount of water used, the ratio is not limited to this, and a cement composition containing the concrete sand having the same amount or less as that of the cement-based solidified material may be used.

  By this foundation for improving the columnar ground, elution of hexavalent chromium can be suppressed at a low cost while having the strength necessary to support a building.

DESCRIPTION OF SYMBOLS 10 Soft ground 11 Good ground 12 House 13 Foundation 100 Surface ground improvement foundation 20 Soft ground 21 Good ground 22 House 23 Foundation 200 Columnar foundation improvement foundation

Claims (6)

A cement composition comprising concrete sand and a cement-based solidifying material whose base material is cement, and a foundation for ground improvement obtained by mixing and solidifying earth and sand,
A foundation for ground improvement, wherein the concrete sand is heavier than cement particles constituting the cement.   The foundation for ground improvement according to claim 1, wherein the cement composition contains reclaimed sand produced when the concrete is crushed as the concrete sand. The foundation for ground improvement is solidified in layers,
The foundation for ground improvement according to claim 1 or 2, wherein the cement composition contains more concrete sand than the cement-based solidified material.   The ground improvement according to claim 3, wherein the cement composition contains the concrete sand in a proportion of more than 50% and 80% or less with respect to 100% of the total amount of the concrete sand and the cement-based solidifying agent. For foundation. The foundation for ground improvement is solidified in a columnar shape,
The foundation for ground improvement according to claim 1 or 2, wherein the cement composition contains the concrete sand in an amount equal to or less than the cement-based solidifying material.   6. The ground improvement material according to claim 5, wherein the cement composition contains the concrete sand in a ratio of 30% to 50% with respect to 100% of the total amount of the concrete sand and the cement-based solidifying agent. Basic.

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