JP6691405B2 - How to determine the filling capacity of concrete - Google Patents

Description

  TECHNICAL FIELD The present invention relates to a concrete fillability grasping method, and more particularly to a concrete fillability grasping method capable of easily and quickly grasping the fillability of a large amount of fresh concrete.

  At the construction site of a concrete structure, etc., the fresh concrete that is received is sampled and a slump test is performed, and based on this test data (slump flow and slump), only the fluidity of the filling properties of the fresh concrete is grasped. There is. For example, a method of 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 of only the sampled fresh concrete is grasped, not the whole quantity of the poured concrete, it is difficult to grasp the overall fluidity of the poured concrete. Moreover, since the slump test has to be carried out and it takes a certain amount of time for the test, it is not possible to grasp the fluidity in real time when pouring fresh concrete.

JP, 2008-197013, A

  It is an object of the present invention to provide a method for ascertaining the filling property of concrete, which enables the filling property of a large amount of fresh concrete to be grasped easily and quickly.

In order to achieve the above-mentioned object, the method of grasping the filling property of concrete of the present invention is, as a preliminary experiment, the raw concrete put into a receiving jig having a through hole, while flowing down from the receiving jig by passing through the through hole. The load acting on the receiving jig is measured, and the index showing the filling property of this fresh concrete is measured, and the relationship between the load and the index is grasped in advance. The load acting on the receiving jig is measured while being thrown into the receiving jig, passing through the through hole and flowing down from the receiving jig. wherein based on the relation between the load and the index are, a filling of understanding how the concrete to grasp the filling of the fresh concrete to be raw co plurality of types of formulations containing component are different By the preliminary experiment for cleats, the relationship between the load and the index is grasped in advance, and when the filling property of the target fresh concrete is grasped, the target is selected from the plurality of types of green concrete. It is characterized in that the raw concrete having the most similar composition of the contained component is specified, and the relationship between the load and the index known in advance for the specified raw concrete is used .
Another method for ascertaining the filling property of concrete according to the present invention is, as a preliminary experiment, the raw concrete put into a receiving jig having a through hole is passed through the through hole and allowed to flow down from the receiving jig while the receiving jig is treated. The load acting on the tool is measured, and the index showing the filling property of the fresh concrete is measured, and the relationship between the load and the index is known in advance, and the target fresh concrete is the receiving jig. The load acting on the receiving jig is measured while passing through the through hole and flowing down from the receiving jig, and the measured load and the load grasped by the preliminary experiment are A method for ascertaining the fillability of concrete for grasping the fillability of the target ready-mixed concrete, based on the relationship with the above-mentioned index, and as the above-mentioned index, it is specified in the Standard Specification for Concrete Standards of Japan Society of Civil Engineers. Characterized by using the filling height in by the filling device of a high fluidity concrete which gap passes the test method used (draft).

  According to the present invention, a ready-mixed concrete whose fillability is to be grasped at a construction site or the like is put into the receiving jig, the load acting on the receiving jig at that time is measured, and the measured load is By collating with the relationship between the load and the index that is previously known by a preliminary experiment, the index for the target ready-mixed concrete can be ascertained, and along with this, the filling property can be quickly ascertained. Further, since the load is measured while allowing the ready-mixed concrete put into the receiving jig to pass through the through hole and flow down from the receiving jig, even a large amount of ready-mixed concrete requires a great amount of time. You can grasp the filling without Since ready-mixed concrete may be put into a receiving jig having a through hole, complicated work is not required, and the work can be easily performed.

It is explanatory drawing which illustrates the apparatus used in order to implement the filling degree grasping method of the concrete of this invention. It is explanatory drawing which illustrates the receiving jig of FIG. 1 in planar view. 5 is a database showing a relationship between a load W acting on a receiving jig and an index P indicating the filling (fluidity) of ready-mixed concrete. 5 is a database showing a relationship between a load W acting on a receiving jig and an index P indicating a filling property of fresh concrete (removability between reinforcing bars). It is explanatory drawing which shows the procedure which determines the filling degree (fluidity) of green concrete based on the relationship of the load W and the index P grasped beforehand which were illustrated in FIG. It is explanatory drawing which shows the procedure which determines the fillability (passability of the space | interval of a reinforcing bar) of green concrete based on the relationship of the load W and the index P grasped beforehand illustrated in FIG.

  Hereinafter, the method for ascertaining the filling capacity of concrete according to the present invention will be described based on the embodiment shown in the drawings.

  The present invention uses the concrete fillability grasping apparatus 1 illustrated in FIGS. 1 and 2 (hereinafter referred to as grasping apparatus 1) to grasp the fillability of fresh concrete Cr to be placed. This grasping apparatus 1 is used in a preliminary experiment described later and at a site where fresh concrete Cr is placed.

  The grasping device 1 includes a receiving jig 2 into which ready-mixed concrete C is put, a load meter 3 that measures a load acting on the receiving jig 2, and a calculation unit to which data of the load measured by the load meter 3 is input. 4 and. Various computers, for example, can be used as the arithmetic unit 4.

  The receiving jig 2 is composed of a tubular peripheral wall 2a and a reinforcing bar 2b assembled in a lattice shape at the lower end of the peripheral wall 2a. Through-holes 2c that penetrate vertically are formed by the reinforcing bars 2b assembled in a grid pattern. By assembling the reinforcing bars 2b in a grid pattern, a large number of through holes 2c can be easily formed. Since the reinforcing bar 2b is easily available and has considerable durability, it is advantageous to secure the through hole 2c for a long period of time. The receiving jig 2 may have another structure as long as the receiving jig 2 has a through hole 2c. The shape of the peripheral wall 2a in plan view is not limited to a quadrangle, and a circular shape or another shape may be used. The peripheral wall 2a can be omitted.

  In this grasping device 1, the reinforcing bars 2b assembled in a lattice shape are fixed to the support frame 5, and the peripheral wall 2a is placed on the reinforcing bars 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 single.

  In the present invention, a database is created by conducting a preliminary experiment. In this preliminary experiment, for example, the tip of the charging unit 7 is arranged above the receiving jig 2 of the grasping device 1, and the fresh concrete C is charged into the receiving jig 2 through the charging unit 7. The input amount of green 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 put into the receiving jig 2 passes through the through hole 2c, flows down from the receiving jig 2, and is stored in the container 6. The green concrete C passes through the through hole 2c, but the entire amount does not pass through the through hole 2c immediately because it is blocked by the reinforcing bar 2b. Therefore, when the ready-mixed concrete C is continuously supplied, a certain amount of the ready-mixed concrete C remains in the receiving jig 2 (inside the peripheral wall 2a). In general, the higher the filling capacity of the ready-mixed concrete C, the earlier it will pass through the through holes 2c, and the less the amount that will remain steadily in the receiving jig 2 will be.

  In the step of putting the ready-mixed concrete C into the receiving jig 2 as described above, the load W acting on the receiving jig 2 is sequentially measured by the load meter 3. The data of the measured load W 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 before the addition of the ready-mixed concrete C is measured in advance and stored (recorded) in the calculation unit 4. Then, the load W1 is sequentially measured by the load meter 3 in the process of adding the fresh concrete C. By subtracting the initial weight Wa from the load W1, the load W acting on the receiving jig 2 by adding the fresh concrete C is measured (calculated). Since the ready-mixed concrete C to be input is in a state of continuously colliding with the receiving jig 2, the measured load W1 (W) varies to some extent. Therefore, the load W1 (W) in a stable state may be adopted.

  In addition, this fresh concrete C is sampled in another container, and the index P indicating its filling property is measured. As the index P, for example, a slump flow obtained by a slump flow test method for concrete specified in JIS A 1150 is used. Alternatively, a slump obtained by the concrete slump test method defined in JIS A 1101 can also be used. In the case of the highly fluid green concrete C, slump flow is used as the index P.

  As another index P, while using the high-fluidity concrete filling device specified in the Japan Society of Civil Engineers Standard Concrete Specification (2002 Concrete Standards Specification [Standard] Civil Engineering Society Standards pp. 157 to 159) It is also possible to use the filling height obtained by the method for draft passage test (draft) (JSCE-F 511-1999).

  The data of the measured index P is input to the calculation unit 4. Then, the data of the index P and the data of the load W measured when the green concrete C for which the index P was measured are 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 association with each other for a plurality of types of ready-mixed concrete C having different blends of contained components such as water, 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 (one through hole 2c has a size of 60 mm × 60 mm) is used and the slump flow or the filling height of the fresh concrete C is different. Shows the database. In FIG. 3, the slump flow described above is adopted with the load W on the vertical axis and the index P on the horizontal axis. In FIG. 4, the above-mentioned filling height is adopted as 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 can be seen that the load W and the index P are correlated when the filling height as the index P is about 300 mm or less. In this way, the correlation between the load W and the index P of the ready-mixed concrete C used for pouring is grasped in advance.

  In addition, when the amount of input into the receiving jig 2 per unit time is different with respect to the ready-mixed concrete C having the same composition of the contained components, the data of the index P and the data of the load W are obtained as described above. It is also possible to create a database corresponding to it. Alternatively, even when the size of the through hole 2c is different, the data of the index P and the data of the load W can be associated with each other to create a database as described above.

  At a construction site or the like, using the grasping device 1 as illustrated in FIG. 1, the ready-mixed concrete Cr which is the object of grasping the filling property is put 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 2c of the receiving jig 2 and flowing down from the receiving jig 2. The data of the measured load Wr is input to the calculation unit 4, and the filling degree of the target ready-mixed concrete Cr is ascertained based on the relationship between the data of the load W and the data of the index P which are grasped by the preliminary experiment. To do. The ready-mixed concrete Cr that has flowed down and is accommodated in the container 6 is pumped to a pouring place for use.

  A concrete procedure for grasping the filling property of the green concrete Cr is 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 of FIG. 5 and FIG. 6 which is grasped in advance as a database, and the numerical value Pr of the index P corresponding to the numerical value of the load Wr is specified. . Since the filling capacity of the green concrete can be evaluated by the magnitude of the value of the index P, the filling capacity of the green concrete Cr can be grasped based on the magnitude of the value of the specified index Pr.

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

  In the present invention, the load Wr is measured while allowing the fresh concrete Cr put into the receiving jig 2 to flow through the through hole 2c and flow down from the receiving jig 2. As a result, it is possible to grasp the filling property in real time even if a large amount of green concrete Cr does not require a lot of time. Therefore, it is also possible to grasp the filling capacity of almost the entire amount of ready-mixed concrete Cr to be placed. Further, since the fresh concrete C (Cr) may be put into the receiving jig 2 having the through hole 2c, complicated work is not necessary and can be easily performed.

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 ) Is easy to measure. If the size of the through hole 2c is less than 900 mm ^2, it is difficult for the fresh concrete C (Cr) to pass more than necessary, and the amount that remains steadily 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) is likely to pass unnecessarily, and the amount that remains steadily in the receiving jig 2 is too small, and an appropriate database is created. Therefore, it is impossible to accurately grasp the filling property of the green concrete Cr.

  In FIG. 3, when the slump flow that is the index P is about 45 cm or more, the data of the load W is constant. In FIG. 4, when the filling height as the index P is about 300 mm or more, the data of the load W is constant. This is because if the through hole 2c has a predetermined size and the filling capacity of the ready-mixed concrete C (Cr) becomes excessive, the receiving jig 2 will be steadily irrespective of the difference in the type of the ready-mixed concrete C (Cr). It shows that the residual 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 fresh concrete C (Cr). That is, the size of the through hole 2c is relatively reduced in the ready-mixed concrete C (Cr) having a high filling property, and the size of the through hole 2c is relatively increased in the ready-mixed concrete C (Cr) having a low filling property. It is necessary to measure the load Wr at the construction site while creating the above-mentioned database.

1 Grasping device 2 Receiving jig 2a Peripheral wall 2b Reinforcing bar 2c Through hole 3 Load meter 4 Calculation part 5 Supporting frame 6 Container 7 Filling part C Raw concrete Cr Raw concrete for which filling is to be checked

Claims (6)

As a preliminary experiment, while the raw concrete put into a receiving jig having a through hole is passed through the through hole and allowed to flow down from the receiving jig, the load acting on the receiving jig is measured, and the raw concrete is measured. By measuring the index indicating the fillability of concrete, the relationship between the load and the index is grasped in advance, and the ready-to-use concrete to be put into the receiving jig is passed through the through hole to receive the receiving concrete. 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 ascertaining the filling capacity of concrete for grasping the filling capacity of ready-mixed concrete,
By the preliminary experiment for a plurality of different types of green concrete with a different combination of contained components, the relationship between the load and the index is grasped in advance,
When grasping the fillability of the target fresh concrete, the raw concrete that is the most similar in composition to the target raw concrete from the plurality of types of raw concrete is specified, and A method of ascertaining the filling property of concrete, which uses a relationship between the load and the index that is known in advance for the identified fresh concrete . The filling method of concrete according to claim 1 , wherein a slump flow specified in JIS A 1150 is used as the index.   The filling of concrete according to claim 1 or 2 which uses a filling height in a clearance passage test method (draft) using a filling device for high-fluidity concrete specified in the Japan Society of Civil Engineers Standard Specification How to understand sex. As a preliminary experiment, while the raw concrete put into a receiving jig having a through hole is allowed to flow through the through hole and flow down from the receiving jig, the load acting on the receiving jig is measured, and By measuring the index indicating the fillability of concrete, the relationship between the load and the index is grasped in advance, and the ready-to-use concrete to be put into the receiving jig is passed through the through hole to receive the receiving concrete. 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 ascertaining the filling capacity of concrete for grasping the filling capacity of ready-mixed concrete,
As the index, a method of grasping the filling property of concrete characterized by using the filling height in the clearance passage test method (draft) using the filling device for high-fluidity concrete specified in the JSCE Standard Specification . 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 concrete fillability grasping method 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.

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