JP6275995B2 - Water retention block - Google Patents

Description

  The present invention relates to a water retention block.

  In recent years, temperature rise in urban areas in summer due to the heat island phenomenon has become a problem. The heat island phenomenon occurs mainly when a building made of concrete, or a pavement made of asphalt, concrete, or the like reflects direct sunlight. In order to suppress this heat island phenomenon, a water retaining block has been developed in recent years.

In general, a water retaining block retains moisture by using a material having a high water retaining capacity as a constituent material of the block, and suppresses a temperature rise on a road surface paved by the water retaining block by the heat of vaporization of the moisture. It is.
As a water retention block using a material having a high water retention capacity, Patent Document 1 discloses that a water retention material is retained in the continuous voids of a block body having continuous voids, and the water retention material is an inorganic material that retains water at least between powder particles. A water retention block is described that comprises a powder and its binder.
Patent Document 2 describes a paving block in which wood powder and sand are mixed and hardened with a binder.

  On the other hand, as a water-retaining block that retains water in the continuous voids of the concrete block without using a water-retaining material, Patent Document 3 discloses a water-retaining concrete block obtained by clogging the bottom and side surfaces of the permeable concrete block Is described.

JP 2008-8040 A JP 2006-161335 A JP 2003-268706 A

Since the water retention block described in Patent Document 1 is filled with a water retention material in the water retention block, there is a problem that it takes time to manufacture. In addition, the paving block described in Patent Document 2 has a problem that it cannot be used for paving roadways because of its low bending strength. The water-retaining concrete block described in Patent Document 3 needs to cover the bottom and side surfaces of the block with mortar or the like, and there is a problem that it takes time to manufacture.
An object of the present invention is to provide a water-retaining block that can be easily manufactured, has excellent water retention even without using a water retentive material, and has high bending strength without covering side surfaces with mortar or the like. To do.

As a result of intensive studies to solve the above-mentioned problems, the present inventor includes cement, fine aggregate, coarse aggregate, concrete admixture and water, and has a specific unit cement amount and a specific filling rate. A water retention block comprising a hardened body of a cement composition, having a bending strength of 5 MPa or more, a water retention amount of 0.15 g / cm ³ or more, and a suction height of 70% or more. The present invention has been completed.

The present invention provides the following [1] to [4].
[1] Cement, fine aggregate, coarse aggregate, concrete admixture and water, the blending amount of cement per unit volume is 360 to 550 kg / m ³ , and the filling rate is 80 to 90%. A water-retaining block comprising a hardened body of a cement composition, having a bending strength of 5.0 MPa or more, a water retention amount of 0.15 g / cm ³ or more, and a suction height of 70% or more. Water-retaining block characterized by
[2] per unit volume of the cement composition, the amount of fine aggregate is 900~1,150kg / m ^3, the amount of coarse aggregate is 850~1,100kg / m ^3, the formulation of the concrete admixtures amount 0.1~6kg / m ^3, the amount of water is 80~120kg / m ^3, water retention block according to [1].
[3] The water retention block according to the above [1] or [2], which does not contain a water retention material.
[4] The water retention block according to any one of [1] to [3], wherein the water retention block is an interlocking block.

The water retention block of the present invention can be easily produced because it is not necessary to perform a special operation such as filling the voids of the block with a water retention material or covering the side walls of the block with mortar or the like.
Moreover, the water retention block of this invention is excellent in water retention, even if it does not use a water retention material.
Furthermore, the water retention block of the present invention has a large bending strength without using reinforcement such as covering the side wall of the block with mortar, and can be used as an interlocking block for forming a road surface of a roadway. it can.

The water-retaining block of the present invention contains cement, fine aggregate, coarse aggregate, concrete admixture, and water. The blending amount of cement per unit volume is 360 to 550 kg / m ³ and the filling rate is 80. A water-retaining block comprising a hardened body of a cement composition of ˜90%, having a bending strength of 5 MPa or more, a water retention amount of 0.15 g / cm ³ or more, and a suction height of 70% or more This is a water retention block.
As the cement used in the present invention, various Portland cements such as ordinary Portland cement, early-strength Portland cement, medium heat Portland cement, low heat Portland cement, mixed cements such as blast furnace cement and fly ash cement, eco-cement, etc. Is mentioned.

Examples of fine aggregates include river sand, mountain sand, sea sand, crushed sand, and quartz sand.
Examples of coarse aggregate include river gravel, mountain gravel, sea gravel, and crushed stone.
As the admixture for concrete, an admixture for immediate demolding products can be used. For example, polysaccharide-based, ether-based, alkylsulfonate-based, nonionic surfactants, and the like can be used. Moreover, the water reducing agent for concrete can also be used as this admixture. As the water reducing agent for concrete, water reducing agents such as lignin type, naphthalene sulfonic acid type, melamine type and polycarboxylic acid type, AE water reducing agent, high performance water reducing agent or high performance AE water reducing agent can be used.
Examples of water include industrial water and tap water.

Next, the blending amount of each material per unit volume of the cement composition forming the water retaining block will be described.
The amount of cement, in terms of strength and water retention, 360~550kg / m ^3, preferably 380~530kg / m ^3, more preferably 400~500kg / m ^3, particularly preferably at 420~460kg / m ³ is there. When the blending amount of cement is less than 360 kg / m ³ , the bending strength is lowered. If the blending amount of the cement exceeds 550 kg / m ³ , it becomes difficult to adjust the filling rate to 80 to 90%, and water retention (for example, water retention amount) decreases.

The blending amount of the fine aggregate is preferably 900 to 1,150 kg / m ³ , more preferably 950 to 1,100 kg / m ³ , and particularly preferably 1,000 to 1,050 kg / m ² from the viewpoint of strength and water retention. m is ^3.
The blending amount of the coarse aggregate is preferably 850 to 1,100 kg / m ³ , more preferably 900 to 1,050 kg / m ³ , and particularly preferably 950 to 1,000 kg / m ³ from the viewpoint of strength and water retention. It is.
The fine aggregate ratio is preferably 47 to 57%, more preferably 48 to 56%, and particularly preferably 49 to 55% from the viewpoint of strength and water retention.
The blending amount of the concrete admixture is preferably 0.1 to 6 kg / m ³ , more preferably 0.2 to 5 kg / m ³ , and particularly preferably 0.3 to 4 kg / m from the viewpoint of strength and water retention. ³ . When the concrete admixture is an immediate demolding product admixture, the blending amount of the immediate demolding product admixture is, for example, 0.2 to 1 kg / m ³ .
The amount of water, from the viewpoint of strength and water retention, preferably 80~120kg / m ^3, more preferably 85~115kg / m ^3, particularly preferably a 90~110kg / m ^3.
The water cement ratio is preferably 20 to 25%, more preferably 21 to 24%, and particularly preferably 22 to 24% from the viewpoint of strength and water retention.

The filling rate of the water retention block of the present invention is 80 to 90%, preferably 82 to 90%, more preferably 84 to 90% from the viewpoint of strength and water retention. By setting the filling rate within the above range, the water retention block of the present invention can be excellent in water retention without using a water retention material, and can exhibit high bending strength.
When the filling rate is less than 80%, the diameter of each void in the water retention block is increased, and the water retention is lowered and the bending strength is also lowered. When the filling rate exceeds 90%, the amount of voids in the water retention block decreases, and the water retention amount decreases.
In addition, a filling rate is a volume ratio of parts other than the space | gap in the whole volume of a water retention block, and can be calculated | required as follows.
Filling rate (%) = {mass per unit volume after molding / mass per unit volume calculated from the indication composition} × 100 (%)

The bending strength of the water-retaining block of the present invention is preferably 5.0 MPa or more, more preferably 5.5 MPa or more, and particularly preferably 6.0 MPa or more.
The upper limit of the bending strength is not particularly limited, but is preferably 8.0 MPa, more preferably 7.5 MPa, and particularly preferably 7.0 MPa from the viewpoint of obtaining excellent water retention.
The water retention amount of the water retention block of the present invention is preferably 0.15 g / cm ³ or more, more preferably 0.17 g / cm ³ or more, and particularly preferably 0.19 g / cm ³ or more.
The upper limit of the-holding water is not particularly limited, from the viewpoint of obtaining high strength, preferably 0.30 g / cm ^3, more preferably 0.28 g / cm ^3, more preferably 0.25 g / cm ^3, particularly preferably Is 0.23 g / cm ³ .
The suction height of the water-retaining block of the present invention is preferably 70% or more, more preferably 77% or more, and particularly preferably 84% or more.
The upper limit of the suction height is preferably 90%, more preferably 88%, and particularly preferably 87% from the viewpoint of obtaining a large strength.

The above-mentioned bending strength, water retention amount, and suction height are as described in “B.5” of “Recommended Specification B-3 Interlocking Block” in “Pavement / Boundary Blocks” in Annex B of “JIS A 5371: 2010”. .2 Bending Strength Test ”,“ B.5.4.1 Water Retention Test ”, and“ B.5.4.2 Water Absorption Test ”. It is obtained as follows.
The bending strength is according to “JIS A 5363”.
The water retention amount is calculated by the following formula.
Water retention amount (g / cm ³ ) = {wet mass (g) −absolute dry mass (g)} ÷ volume of specimen (cm ³ )
The suction height is calculated by the following equation.
Suction height (%) = {Sucked mass after 30 minutes (g) −absolute dry mass (g)} × 100 ÷ {wet mass (g) −absolute dry mass (g)}

Next, the manufacturing method of the water retention block of this invention is demonstrated.
In the present invention, the above-described material kneading method is not particularly limited. For example, all the materials may be put into a kneading apparatus at once and kneaded, or water and a water reducing agent (for example, Alternatively, a material other than a liquid material may be charged into the kneading apparatus and kneaded, and then water and a water reducing agent may be additionally added and kneaded.
The kneading apparatus is not particularly limited, and a conventional mixer such as a biaxial kneading mixer, a tilting cylinder mixer, a pan-type mixer, an omni mixer, a Hobart mixer, and an Eirich mixer can be used.
The molding method is not particularly limited, for example, after putting the kneaded material obtained by kneading each of the above-mentioned materials into the mold, pressurizing as necessary, and applying external vibration and compacting, A method of immediate demolding can be employed.
The curing method is not particularly limited, and curing can be performed by air curing, underwater curing, steam curing, or the like.
The water retention block of the present invention can have forms such as an interlocking block, a concrete flat plate, a boundary block and the like.

EXAMPLES The present invention will be specifically described below with reference to examples, but the present invention is not limited to these examples.
The materials used are as shown below.
(1) Cement: Ordinary Portland cement manufactured by Taiheiyo Cement (density: 3.16 g / cm ³ )
(2) Fine aggregate: mountain sand (3) Coarse aggregate A: Mixture of crushed quartz porphyry and sandstone (4) Coarse aggregate B: Crushed stone No. 7 (5) Water retention material: ALC crushed aggregate ( Autoclaved lightweight lightweight concrete crushed; water absorption: 67%)
(6) Admixture for immediate demolding product: “Luburilith 100” (trade name) manufactured by BASF Japan
(7) High-performance AE water reducing agent: “Master Grenium SP-8SV” (trade name) manufactured by BASF Japan
(8) Water: Tap water

[Example 1]
A kneaded material was prepared according to the formulation shown in Table 1 using the materials described above. The kneading was performed for 4 minutes using an Eirich mixer (capacity: 18 liters). The obtained kneaded material was put into a 20 cm long × 10 cm wide × 8 cm thick mold and then cured in air at 20 ° C. for 7 days to obtain a water retaining block.
The filling rate, bending strength, water retention amount and suction height were determined by the above-described methods.
In Table 1, “product admixture” is an abbreviation for immediate demolding product admixture.
[Comparative Examples 1-2]
A water retention block was obtained in the same manner as in Example 1 except that the composition shown in Table 1 was followed. Moreover, the filling rate etc. were calculated | required similarly to Example 1 about the obtained water retention block.
The results are shown in Table 2.

In Table 2, the water retention block (Example 1) of the present invention is excellent in water retention (water retention amount, suction height) even without using a water retention material, and even if the side surface is not covered with mortar or the like. It can be seen that the bending strength is large.
On the other hand, in Comparative Example 1 in which the concrete admixture was not used and the filling rate exceeded the range specified in the present invention, the bending strength was the same as in Example 1, but the water retention (water retention amount, water absorption) It can be seen that a water-retaining material is necessary to obtain excellent water retention because the height of raising is inferior to that of Example 1.
In Comparative Example 2, which uses a water retention material and the unit cement amount is less than the range specified in the present invention, the water retention (water retention amount, suction height) is similar to that in Example 1, but the bending strength is carried out. Since it is small compared with Example 1, it turns out that reinforcement, such as covering a side surface with mortar, is required in order to obtain a large bending strength.

Claims (4)

Cement composition containing cement, fine aggregate, coarse aggregate, concrete admixture and water, with a blending amount of cement per unit volume of 420 to 460 kg / m ³ and a filling rate of 80 to 90% A water-retaining block made of a cured product,
Per unit volume of the cement composition, the amount of fine aggregate is 900~1,150kg / ^{m 3,} the amount of the coarse aggregate is 850~1,100kg / ^{m 3,} the formulation of the concrete admixtures amount 0.1~6kg / ^{m 3,} the amount of the water is 80~120kg / ^{m 3,}
The water-cement ratio is 20-25%,
A water retention block having a bending strength of 5.5 MPa or more, a water retention amount of 0.19 g / cm ³ or more, and a suction height of 70% or more. The water retention block according to claim 1, wherein the fine aggregate ratio is 47 to 57%.   The water retention block according to claim 1 or 2, which does not contain a water retention material. The water retention block according to any one of claims 1 to 3, wherein the water retention block is an interlocking block.