JP2017173109A - Acquiring method of compacting property - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method of simply and quickly acquiring compacting properties of the concrete even in the case of a large quantity of a ready mixed concrete.SOLUTION: A ready made concrete C thrown into a receiving jig 2 which has a through-hole 2c is let pass through the through-hole 2c and let flow down from the receiving jig 2, while a load W acting on the receiving jig 2 is measured by a load cell 3, and an index P showing the compacting property of this ready mixed concrete is measured, thereby previously acquiring a relationship between the load W and the index P. Then, a ready made concrete Cr to be an object of acquiring a compacting property is thrown into the receiving jig 2 so as to be let pass the though-hole 2c from the receiving jig 2, while a load Wr is measured, and the compacting property of the ready made concrete Cr is acquired based on a relationship between this measured load Wr and a relationship between the load W previously acquired by an experiment in advance and the index P.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a method for grasping the filling property of concrete, and more particularly, to a method for grasping a filling property of concrete, which can easily and quickly grasp the filling property of a large amount of ready-mixed concrete.

  At the construction site of concrete structures, etc., accepting ready-mixed concrete is sampled and a slump test is performed. Based on this test data (slump flow and slump), only the fluidity of the ready-mixed concrete is grasped. Yes. For example, a method for evaluating the fluidity of ready-mixed concrete at a construction site or the like has been proposed (see Patent Document 1).

  In such a conventional method, since the fluidity is grasped only for the sampled ready-mixed concrete, not the total amount of ready-mixed concrete to be placed, it is difficult to grasp the overall fluidity of the ready-to-cast concrete. In addition, since a slump test must be carried out and it takes a certain amount of time, the fluidity cannot be grasped in real time when placing concrete.

JP 2008-197013 A

  An object of the present invention is to provide a method for grasping the filling property of concrete, which can grasp the filling property easily and quickly even with a large amount of ready-mixed concrete.

  In order to achieve the above object, according to the concrete filling method of the present invention, as a preliminary experiment, raw concrete put into a receiving jig having a through hole is allowed to flow down from the receiving jig through the through hole. The load acting on the receiving jig is measured, and an index indicating the filling property of the ready-mixed concrete is measured, and the relationship between the load and the index is grasped in advance. Measure the load acting on the receiving jig while throwing it into the receiving jig and let it flow down from the receiving jig through the through hole, and grasp the measured load and the preliminary experiment. Based on the relationship between the load and the index, the filling property of the target ready-mixed concrete is grasped.

  According to the present invention, the ready-mixed concrete to be grasped at the construction site or the like is put into the receiving jig to measure the load acting on the receiving jig, and the measured load is By collating with the relationship between the load and the index that has been grasped in advance by a preliminary experiment, the index for the ready-mixed concrete can be grasped, and accordingly, the filling property can be grasped quickly. Further, since the load is measured while the ready-mixed concrete put into the receiving jig passes through the through hole and flows down from the receiving jig, it takes a lot of time even for a large amount of ready-mixed concrete. It is possible to grasp the filling property without any problems. Since the ready-mixed concrete has only to be put into a receiving jig having a through hole, complicated work is not required, and it can be carried out easily.

It is explanatory drawing which illustrates the apparatus used in order to implement the filling property grasping | ascertaining method of the concrete of this invention. It is explanatory drawing which illustrates the receiving jig of FIG. 1 by planar view. It is a database which shows the relationship between the load W which acts on a receiving jig, and the parameter | index P which shows the filling property (fluidity) of ready-mixed concrete. It is a database which shows the relationship between the load W which acts on a receiving jig, and the parameter | index P which shows the filling property (reinforcing bar penetration property) of ready-mixed concrete. It is explanatory drawing which shows the procedure which judges the filling property (fluidity) of ready-mixed concrete based on the relationship between the load W and the parameter | index P which were previously grasped | ascertained illustrated in FIG. It is explanatory drawing which shows the procedure which judges the filling property (passability of the rebar spacing) of ready-mixed concrete based on the relationship between the load W and the index P grasped in advance illustrated in FIG.

  Hereinafter, the concrete filling method of the present invention will be described based on the embodiments shown in the drawings.

  This invention grasps | ascertains the filling property of the ready-mixed concrete Cr to lay using the concrete filling property grasping | ascertainment apparatus 1 (henceforth the grasping apparatus 1) illustrated in FIG. This grasping device 1 is used in a preliminary experiment to be described later and at a site where fresh concrete Cr is placed.

  The grasping device 1 includes a receiving jig 2 into which the ready-mixed concrete C is charged, a load meter 3 that measures a load acting on the receiving jig 2, and a calculation unit that receives load data measured by the load meter 3. 4 is provided. For example, various computers can be used for the calculation unit 4.

  The receiving jig 2 is comprised by the cylindrical surrounding wall 2a and the reinforcing bar 2b assembled in the lattice form arrange | positioned at the lower end of the surrounding wall 2a. A through hole 2c penetrating vertically is formed by reinforcing bars 2b assembled in a lattice shape. A large number of through holes 2c can be easily formed by assembling the reinforcing bars 2b in a lattice pattern. The rebar 2b is easy to obtain and has considerable durability, so it is advantageous for securing the through hole 2c over a long period of time. As long as the receiving jig 2 has a specification having the through hole 2c, other structures can be adopted. The shape of the peripheral wall 2a in plan view is not limited to a quadrangle, and a circular shape or other shapes can also be used. The peripheral wall 2a can be omitted.

  In this grasping device 1, a reinforcing bar 2b assembled in a lattice shape is fixed to a support frame 5, and a peripheral wall 2a is placed on the reinforcing bar 2b. The support frame 5 is installed on the container 6.

  The load cell 3 is installed with the support frame 5 suspended. The load cell 3 can be plural or here.

  In the present invention, a preliminary experiment is performed to create a database. In this preliminary experiment, for example, the tip of the charging unit 7 is disposed above the receiving jig 2 of the grasping device 1, and the ready-mixed concrete C is input to the receiving jig 2 through the charging unit 7. The input amount of the ready-mixed concrete C per unit time is maintained at a predetermined fixed amount, and the input height is set to a predetermined constant height.

  The ready-mixed concrete C thrown into the receiving jig 2 passes through the through hole 2 c and flows down from the receiving jig 2 and is stored in the container 6. Although the ready-mixed concrete C passes through the through-hole 2c, the entire amount does not immediately pass through the through-hole 2c because it is blocked by the reinforcing bar 2b. Therefore, when the ready-mixed concrete C is continuously fed, a certain amount of ready-mixed concrete C remains constantly in the receiving jig 2 (inside the peripheral wall 2a). In general, the higher the filling property of the ready-mixed concrete C, the earlier it passes through the through-hole 2c, so that the amount that remains in the receiving jig 2 constantly decreases.

  As described above, in the process of putting the ready concrete C into the receiving jig 2, the load W acting on the receiving jig 2 is sequentially measured by the load meter 3. The measured load W data is input to the calculation unit 4 and stored (recorded). More specifically, the total weight Wa (initial weight Wa) of the receiving jig 2 and the support frame 5 in a state before putting the ready-mixed concrete C is measured in advance and stored (recorded) in the calculation unit 4. And the load W1 is measured with the load meter 3 sequentially in the process in which the ready-mixed concrete C is thrown in. By subtracting the initial weight Wa from the load W1, the load W acting on the receiving jig 2 when the ready-mixed concrete C is introduced is measured (calculated). Since the ready-mixed concrete C to be input continuously collides with the receiving jig 2, the measured load W1 (W) varies to some extent. For this reason, the load W1 (W) in a stable state may be employed.

  Moreover, this ready-mixed concrete C is extract | collected to another container, and the parameter | index P which shows the filling property is measured. As the index P, for example, a slump flow obtained by a concrete slump flow test method defined in JIS A 1150 is used. Or the slump obtained by the concrete slump test method prescribed | regulated to JISA1101 can also be used. In the case of high-fluidity ready-mixed concrete C, slump flow is used as the index P.

  As another indicator P, the use of the high fluidity concrete filling equipment specified in the Japan Society of Civil Engineers Standard Specification Standard (Concrete Standard Specification [Standard] Japan Society of Civil Engineers, pages 157 to 159) The filling height obtained by the clearance test method (draft) (JSCE-F 511-1999) can also be used.

  The measured index P data is input to the calculation unit 4. Then, the data of the index P and the data of the load W measured when the ready-mixed concrete C measuring the index P is put into the receiving jig 2 are stored (recorded) in association with each other. By plotting the data of the index P and the data of the load W in correspondence with each other for a plurality of types of ready-mixed concrete C having different blending of components such as moisture, the databases illustrated in FIGS. 3 and 4 can be obtained. create.

  3 and 4 show a case where the receiving jig 2 having a large number of through holes 2c (the size of one through hole 2c is 60 mm × 60 mm) and the slump flow or filling height of the ready-mixed concrete C is different. Indicates a database. In FIG. 3, the above-described slump flow is adopted with the vertical axis representing the load W and the horizontal axis representing the index P. In FIG. 4, the above-described filling height is adopted with the load W on the vertical axis and the index P on the horizontal axis.

  In FIG. 3, it can be seen that the load W and the index P are correlated when the slump flow as the index P is about 45 cm or less. In FIG. 4, it is understood that the load W and the index P are correlated when the filling height serving as the index P is about 300 mm or less. In this way, the correlation between the load W and the index P is grasped in advance for the ready-mixed concrete C used for placing.

  In addition, for the ready-mixed concrete C having the same component composition, the data of the index P and the data of the load W are also used as described above when the input amount per unit time to the receiving jig 2 is varied. A database can also be created correspondingly. Alternatively, even when the sizes of the through holes 2c are made different, a database can be created by associating the data of the index P and the data of the load W as described above.

  At a construction site or the like, as shown in FIG. 1, the grasping device 1 is used to receive the ready-mixed concrete Cr, which is a target for grasping the filling property, into the jig 2. Then, the load Wr acting on the receiving jig 2 is measured by the load meter 3 while passing through the through hole 2 c of the receiving jig 2 and flowing down from the receiving jig 2. The measured load Wr data is input to the calculation unit 4, and based on the relationship between the load W data and the index P data obtained through preliminary experiments, the filling properties of the target ready-mixed concrete Cr are determined. To do. The ready-mixed concrete Cr that flows down and is accommodated in the container 6 is used by being pumped to a placement site by a pump or the like.

  Specific procedures for grasping the filling properties of the ready-mixed concrete Cr are as illustrated in FIGS. 5 and 6. The value of the load Wr is applied to the correlation between the load W and the index P shown in FIGS. 5 and 6 that is grasped in advance as a database, and the value Pr of the index P corresponding to the value of the load Wr is specified. . Since the filling property of the ready-mixed concrete can be evaluated by the magnitude of the numerical value of the index P, the filling property of the ready-mixed concrete Cr can be grasped based on the magnitude of the value of the specified index Pr.

  According to the present invention, when the load Wr acting on the receiving jig 2 when the ready-mixed concrete Cr that is the object of grasping the filling property is put into the receiving jig 2 of the grasping device 1 at a construction site or the like, By comparing the measured load Wr with the relationship between the load W and the index P that are grasped in advance, the index Pr for the ready-mixed concrete Cr can be grasped. Based on the grasped index Pr, the filling property of the ready concrete Cr can be quickly grasped in real time. The conditions for measuring the load Wr at a construction site or the like are the same as the conditions at the time of acquiring the database data (the same as possible).

  In the present invention, the load Wr is measured while allowing the ready-mixed concrete Cr charged into the receiving jig 2 to flow down from the receiving jig 2 through the through hole 2c. Thereby, even if it is a large amount of ready-mixed concrete Cr, it becomes possible to grasp | ascertain the filling property in real time, without requiring much time. Therefore, it is possible to grasp the filling properties of almost the entire amount of ready-mixed concrete Cr to be placed. Moreover, since the ready concrete C (Cr) should just be thrown into the receiving jig 2 which has the through-hole 2c, a complicated operation | work is unnecessary and it can implement simply.

The size of the one through hole 2c, when it can be suitably set according to the type of raw concrete C (Cr), to the extent for example 900 mm ² or more 3600 mm ² or less, generally stably load W (Wr ) Becomes easy to measure. If the size of the through hole 2c is less than 900 mm ² , the ready-mixed concrete C (Cr) is difficult to pass more than necessary, and the amount that remains in the receiving jig 2 may be excessive. If the size of the through-hole 2c exceeds 3600 mm ² , the ready-mixed concrete C (Cr) easily passes more than necessary, and the amount of the steady-state remaining in the receiving jig 2 becomes too small, and an appropriate database is created. It is impossible to accurately grasp the filling properties of the ready-mixed concrete Cr.

  In FIG. 3, when the slump flow serving as the index P is about 45 cm or more, the data of the load W is constant. In FIG. 4, the load W data is constant when the filling height serving as the index P is about 300 mm or more. This is because if the through hole 2c has a predetermined size and the filling property of the ready-mixed concrete C (Cr) becomes excessive, the receiving jig 2 will be stationary regardless of the type of the ready-made concrete C (Cr). In other words, the remaining amount becomes constant and does not change.

  Therefore, it is necessary to appropriately set the size of the through hole 2c according to the filling level of the ready-mixed concrete C (Cr). That is, the size of the through hole 2c is made relatively small for ready-mixed concrete C (Cr) having a high filling property, and the size of the through-hole 2c is set relatively large for ready-mixed concrete C (Cr) having a low filling property. In addition to creating the above-described database, it is necessary to measure the load Wr at a construction site or the like.

DESCRIPTION OF SYMBOLS 1 Grasping device 2 Receiving jig 2a Perimeter wall 2b Reinforcing bar 2c Through hole 3 Load meter 4 Calculation part 5 Supporting frame 6 Container 7 Input part C Ready-mixed concrete Cr Ready-mixed concrete which grasps the filling property

Claims (6)

  As a preliminary experiment, the load acting on the receiving jig was measured while the ready-mixed concrete put into the receiving jig having a through hole was allowed to flow through the through hole and flow down from the receiving jig. An index indicating the filling property of the concrete is measured, the relationship between the load and the index is grasped in advance, and the target ready concrete is put into the receiving jig and passed through the through hole. The load acting on the receiving jig is measured while flowing down from the jig, and the target is based on the measured load and the relationship between the load and the index grasped by the preliminary experiment. A method for grasping the filling property of concrete, characterized by grasping the filling property of ready-mixed concrete. For a plurality of types of ready-mixed concrete with different blending of ingredients, the relationship between the load and the index is grasped beforehand by the preliminary experiment,
When grasping the filling properties of the target ready-mixed concrete, the ready-mixed concrete that is most similar in composition to the target ready-mixed concrete is identified from the multiple types of ready-mixed concrete. The method for determining the filling property of concrete according to claim 1, wherein the relationship between the load and the index that are previously determined for the specified ready-mixed concrete is used.   The method for determining the filling properties of concrete according to claim 1 or 2, wherein a slump flow defined in JIS A 1150 is used as the index.   The filling of concrete according to claim 1 or 2, wherein a filling height in a gap passage test method (draft) using a high fluidity concrete filling device defined in the Standard Specification for Standard Concrete of the Japan Society of Civil Engineers is used as the index. Gender grasp method. Filling of understanding how the concrete according to claim 1 in which the size of the through hole 900 mm ² or more 3600 mm ² or less.   The method for grasping the filling property of concrete according to any one of claims 1 to 5, wherein the receiving jig having a large number of the through holes formed by assembling reinforcing bars in a lattice shape is used.

Images