RU90903U1 - DEVICE FOR DETERMINING THE AVERAGE DENSITY OF CONCRETE AND SOLUTION MIXES - Google Patents

Abstract

1. A device for determining the average density of concrete and mortar mixtures, including a measuring vessel of known mass and capacity for placing in it a sample of the studied concrete or mortar, and means for measuring parameters, characterized in that it is equipped with an additional vessel of known mass technologically connected with the measuring vessel and containers for placement in it of small loose aggregate. ! 2. The device according to claim 1, characterized in that, for example, silica sand can be used as a fine loose aggregate. ! 3. The device according to claim 1, characterized in that the sample of the investigated concrete or mortar mixture can have any size, any shape. ! 4. The device according to claim 1, characterized in that the sample of the test mixture can be made of concrete or mortar, obtained by any molding method.

Description

The utility model relates to the production of building materials and can be used in the study of concrete and mortar mixtures, in particular, in determining their average density.

It is known to determine the density of building materials, for example, chipboards. (GOST 10634-78, p. 3). The device contains measuring instruments (ruler, scales, etc.) of the parameters of specially sawn samples. Samples are measured with a ruler (length, thickness and width) and their volumes are determined. Using weights, the mass of the samples under study is determined, and the density of the building material is determined as the quotient of the division of the mass of samples by their volumes.

A disadvantage of the known technical solution is the impossibility of its application to determine the average density of samples of concrete and mortar mixtures, in particular, irregularly shaped samples.

A device for determining the average density of concrete and mortar mixtures (GOST 10181-2000 - prototype), including a measuring vessel of known mass and capacity for placing in it a sample of the test mixture (sample) and means for measuring parameters (ruler, laboratory balance, etc. ) The measuring vessel is filled with the test concrete mixture and compacted (using a laboratory vibratory platform). After compaction, the excess mixture is cut with a steel ruler and the surface is carefully leveled flush with the edges of the measuring vessel, after which the measuring vessel with concrete mixture is weighed.

The average density of the investigated concrete mixture ρ _cm , (kg / m ³ ) is determined by the formula:

where m is the mass of the measuring vessel with concrete mixture, g;

m ₁ is the mass of the measuring vessel without a mixture, g;

V is the capacity (capacity) of the measuring vessel, cm ³ .

A disadvantage of the known device is the low accuracy of determining the average density of concrete and mortar mixtures at different modes of vibration compaction of the test mixture samples (in frequency and amplitude of compaction) accepted in GOST 10181-2000 or other methods of compaction, in particular, by the method of multi-frequency compaction, vibrocompression, shock concrete, pressing, rolling, tamping, centrifugation, shotcrete, rotary compaction, etc.

The technical task of the utility model is to expand the technological capabilities of the device and increase the accuracy of determining the average density of concrete and mortar mixtures, compacted under vibration modes different from those adopted in GOST 10181-2000 or obtained using other molding methods.

This object is achieved in that the device for determining the average density of concrete and mortar mixtures, including a measuring vessel of known mass and capacity for placing a sample of the test concrete or mortar mixture in it, and means for measuring parameters, is equipped with an additional vessel of known mass and capacity technologically connected with the measuring vessel for placement of fine loose aggregate in it, moreover, for example, silica sand, for example, quartz sand, can be used as a fine loose aggregate the following concrete or mortar mixture can have any size, any shape, including irregular with torn edges formed when removing the sample from the compacted array and can be made of concrete or mortar obtained by any molding method.

The utility model has the following differences from the prototype:

- a device for determining the average density of concrete and mortar mixtures is equipped with an additional vessel of known mass and capacity, technologically connected with a measuring vessel, for placing fine loose aggregate in it;

- quartz sand, for example, can be used as a fine loose aggregate;

- the sample of the investigated concrete or mortar mixture can have any size, any shape, including irregular with torn edges formed when removing the sample from the compacted array and can be made of concrete or mortar obtained by any molding method.

This will expand the technological capabilities of the device and increase the accuracy of determining the average density of concrete and mortar mixtures, compacted under vibration modes different from those adopted in GOST 10181-2000 or obtained using other molding methods.

In the patent information fund we reviewed, no similar technical solutions, as well as solutions with the indicated distinguishing features, were found.

The utility model is applicable and will be used in the industry in 2009-2010.

Figure 1 shows a diagram of a device for determining the average density of concrete and mortar mixtures, and the sample for the study of the mixture (sample) - concrete mixture of any shape, any size;

Figure 2 - shows a sample of the test mixture (sample) in the form of a fragment of the molded product.

A device for determining the average density of concrete and mortar mixtures, including a measuring vessel 1 of known mass (m) and capacity (V) for placing sample 2 of the concrete or mortar under study and means for measuring parameters (not shown in Fig. - ruler, scales, and t .p.), equipped with an additional vessel 3 of known mass (m ₁ ) and a container (V ₁ ) technologically connected with the measuring vessel 1, for accommodating fine loose aggregate 4 therein, and, for example, quartz can be used as small loose aggregate 4 sand, pr and this sample 2 of the test concrete or mortar can be of any size, any shape and can be made of concrete or mortar obtained by any molding method. As a sample of the test mixture may be a fragment 5 of the molded product 6. (See figure 2).

The device operates as follows.

In a measuring vessel 1 of known mass (m) and capacity (V) place sample 2 (sample) of the test concrete or mortar mixture of any size, any shape obtained by any molding method. As a sample of the test mixture may be a fragment 5 of the molded product 6.

An additional vessel 3 of known mass (m ₁ ) and capacity (V ₁ ) is filled completely with fine loose aggregate 4, for example, quartz sand, and an additional vessel 3 is weighed, filled with small loose aggregate 4, and mass (m ₂ ) is obtained.

Next, a small loose aggregate 4 is sent to a measuring vessel 1 with a sample 2 of the test concrete or mortar mixture placed in it from an additional vessel 3 until the measuring vessel 1 is completely filled and weighing of the measuring vessel 1 filled with sample 2 of the test mixture and small loose aggregate 4 is carried out, this gives a mass (m ₃ ).

Then we weigh the additional vessel 3 with the remainder 7 of the fine loose aggregate, and a mass (m ₄ ) is obtained, and the volume V ₂ , cm ³ (m ³ ) of the remainder of the fine loose aggregate in the additional vessel is determined.

Where:

m ₄ is the mass of the additional vessel with the remainder of the fine loose aggregate, g (kg);

m ₁ is the mass of the additional vessel, g (kg);

m ₂ is the mass of the additional vessel filled with fine loose aggregate, g (kg);

V ₁ - the volume of the additional vessel, cm ³ (m ³ );

Using the measured parameters, the average density ρ _cm g / cm ³ (kg / m ³ ) of the test concrete or mortar mixture is calculated according to the following formula:

Where:

m ₃ is the mass of the measuring vessel with a sample of the test concrete or mortar placed in it and filled with a fine loose aggregate, g (kg);

m is the mass of the measuring vessel, g (kg);

m ₂ is the mass of the additional vessel filled with fine loose aggregate, g (kg);

m ₄ is the mass of the additional vessel with the remainder of the fine loose aggregate, g (kg);

V is the volume of the measuring vessel, cm ³ (m ³ );

V ₁ - the volume of the additional vessel, cm ³ (m ³ );

V ₂ - the volume of the remainder of the fine loose aggregate in an additional vessel, cm ³ (m ³ );

Thus, the utility model allows to expand the technological capabilities of the device and to increase the accuracy of determining the average density of concrete and mortar mixes, compacted under vibration modes different from those adopted in GOST 10181-2000 or obtained with other molding methods.

Claims (4)

1. A device for determining the average density of concrete and mortar mixtures, including a measuring vessel of known mass and capacity for placing in it a sample of the studied concrete or mortar, and means for measuring parameters, characterized in that it is equipped with an additional vessel of known mass technologically connected with the measuring vessel and containers for placement in it of small loose aggregate. 2. The device according to claim 1, characterized in that, for example, silica sand can be used as a fine loose aggregate. 3. The device according to claim 1, characterized in that the sample of the investigated concrete or mortar mixture can have any size, any shape. 4. The device according to claim 1, characterized in that the sample of the test mixture can be made of concrete or mortar, obtained by any molding method.