SU739372A1 - Device for measuring air content of concrete mix - Google Patents

Description

(54) AIR CONDITIONING METER

one

The invention relates to a measurement and control technique in construction and is intended to control the quality of the preparation of a concrete mix.

The air content of the concrete mix is the most important technological parameter affecting the frost resistance of concrete. In accordance with GOST 10060-76, this parameter is used to accelerate the evaluation and prediction of the frost resistance of concrete at the stage of preparing the concrete mix.

A known air-content meter for a concrete mix, comprising a housing with a gas tube, and a device for creating and measuring an overpressure of gas over the concrete mix 1 under investigation.

The disadvantage of this meter is the need to use a source of compression and sealing of the device, which complicates its design and method for determining air content.

The closest known to the invention is a meter of air content of a concrete mix, including a receiving cylindrical tank for accommodating the test mixture, and a cap with a gauge neck 2.

The disadvantage of this meter is the need to pre-seal it, as well as the narrow neck, which

J makes it difficult to control the structure of the mixture and control it, thereby reducing the reliability of the measurement results.

The aim of the invention is to increase the reliability of measuring the air content of a concrete mix.

10 The goal is achieved by the fact that in the known air-content meter for concrete mix, which includes a receiving cylindrical tank for accommodating the test mixture and a cap with a gauge neck, the flap is made in the form of a cylindrical insert with a funnel located inside, and provided with a stop flange above the rim .

The drawing shows a diagram of a meter for air content of a concrete mix.

20 The meter consists of a cylindrical receiving tank 1, into which a funnel 2 enters, fixed inside the receiving container by means of a cylindrical insert 3 having a stop flange 4 in the upper part.

The funnel ends with a measuring hole 5 at a level below the flange. Test concrete mix 6 laid in the receiving tank in mortgage form 7, mounted on a stand 8 (in the drawing, the concrete mix is shown pierced). The meter is completed with a bayonet, a stopper and a cover sheet (not shown in FIG.).

The meter works as follows.

The embedded mold 7 with the concrete mix 6 selected from the structure is placed in the receiving tank I, mounted on the stand 8. Water is poured into the receiving tank, the conical Kpbiuiky is poured against the edge of the container until the flange stops; while the excess water is poured out through the measuring port 5, the water level is established along the upper edge of the measuring port. The conical lid is gently pulled out of the vessel, allowing water to flow from it. With the help of the bayonet, the concrete mixture is carefully pushed out of the opened mortgage form, destroying its structure.

After the mixture has been completely distributed at the bottom of the receiving vessel, a conical lid pre-moistened with water is put on it until it stops and the lowering of the water level is fixed at the measuring throat. The resulting air volume in the throat (taking into account the volume of the gap between the lid and the throat) is equal to the volume of air involved in the concrete mix.

When testing under field conditions in a dry hot climate, it is necessary to take into account the water that has evaporated during the pinning of the mixture. For this, the cone-shaped lid with the stopper closed with a measuring neck is placed flanked down on a flat surface and filled in

UP to the top with water. After stopping the bayonet, the cone cover is covered with a cover sheet, for example, from polished glass, and turned over, opening the cork, fixing the water level drop in the measuring cap. The air volume formed in the throat is equal to the volume of water evaporated.

The advantage of the proposed device is the availability of the concrete mix during its bayonet and visual control over the destruction of the structure, as well as the absence of sealed connections. All this increases the reliability of the test. Using the device, it is possible to determine the air content of the concrete mix directly in the concrete of the structure after it has been laid and compacted. This indicator allows you to adjust the flow of air-entrained additives in the concrete mixing unit, taking into account the loss of air during transportation and compaction. .

Claims (2)

1. Handbook of road construction materials. Ed. N. V. Gorelysheva “Transport, M., 1972, p. 242-245. 2. USSR author's certificate number 600415, cl. G 01 N 7/02, 1975.