RU93988U1 - DEVICE FOR DETERMINING CEMENT ACTIVITY AND A GLASS FOR THIS DEVICE - Google Patents

Abstract

 1. A device for determining the activity of cement, including a sealed measuring chamber, a glass for the test material, a lid and a system for measuring the volume of water in the measuring chamber, characterized in that a volume sensor is used as a measuring system, made, for example, in the form of a bellows in contact with water associated with a linear displacement sensor, while the device is equipped with an electronic unit for recording in time and converting sensor signals into indications of activity of the material under study. ! 2. The device for determining the activity of cement according to claim 1, characterized in that the chamber has an additional compartment for accommodating the volume sensor. ! 3. The device for determining the activity of cement according to claim 1, characterized in that on the inner surface of the lid is made a recess with a Central hole to remove air from the measuring chamber when filling it with water. ! 4. The device for determining the activity of cement according to claim 1, characterized in that the electronic unit is equipped with connectors for connecting to a computer. ! 5. The glass of the device for determining the activity of cement, made conical with a removable bottom, characterized in that the taper does not exceed 1 °, the lower inner part of the glass is equipped with a flange, and the bottom is made in the form of a disk in contact with the flange. ! 6. The glass of the device for determining the activity of cement according to claim 5, characterized in that the bottom of the glass for the device is made in the form of a disk with a flange, while the diameter of the disk corresponds to the inner diameter of the glass flange, and the disk flange can be supported on the glass flange. ! 7. A glass of device for determining the activity of cement

Description

The proposed technical solutions relate to devices for determining the activity of cement.

Cement activity is a parameter characterizing the compressive strength of cement mortar samples manufactured and tested under standard conditions established by GOST 30515-97.

Standard methods for testing cement are known (see. Cements. Methods for determining the ultimate strength in bending and compression. GOST 310.4-81). In accordance with GOST 310.4-81, mortar samples made of the tested cement, compacted with a vibrating plate and first aged in molds in a humid environment for at least 24 hours, and then without molds in water, replaced every 14 days, in the end subjected to press tests.

The main disadvantage of standard tests is their long duration, which does not allow the use of the results to adjust the technological processes for the production of cement and products from it. In addition, special equipment and equipment are required for testing: a stirrer, a vibrating platform, a chamber and a bath for holding samples, and a press. Tests can only be carried out in specialized laboratories.

Known operational methods and instruments for determining the activity of cement, for example, using the indicator of activity of cement IAC-04M (http://www.biolight.ru/files/0009764-1.pdf). Such an indicator can be used in cement plants, as well as construction organizations and other consumers. The specified device includes a measuring vessel for a mixture of cement with water, equipped with a sensor of electrical resistance of the water-cement mixture, and an electronic unit that processes the signal of the sensor, displaying digital data displaying the activity of the tested cement.

This method of testing the electrical conductivity of the mixture is characterized by a weak correlation with the activity of cement, which does not allow for an acceptable reliability of the results.

Known methods for determining the activity of cement, based on the measurement of cement contraction (changes in the volume of the cement-water system) during cement hydration.

Instruments based on this method include the portable KD-07 contractiometer developed by the VNIIFTRI State Scientific and Research Center, which is designed to measure the contraction of cement materials and quickly determine on this basis in field and stationary conditions cement activity, strength and permeability of concrete (mortar) and other

The indicated cotractometer includes a water tank, a vessel placed in it, also filled with water, inside which a glass with a handle for the material to be studied is installed, a sealing cap for the vessel with a glass tube and a protective sheath, a volume scale and a plug, fixing screws for fixing the cap, and gaskets (see instruction manual, passport). Capacity, vessel, glass with handle, protective shell of the glass tube, plug and fasteners are made of stainless steel.

The contraction of the material is judged by the change during the test time (usually 3 hours) of the volume of a column of water in a glass tube above the layer of water covering the cement material. Measurements are made according to the position of the water meniscus relative to the linear scale, and maintain the desired temperature of the water in the tank. The role of the thermostat is played by a container of water. If necessary, add a measured amount of water to the tube.

Processing the obtained results by a special technique, they predict contraction to any predetermined time and determine the activity of cement.

The disadvantages of this device, first of all, are the relatively low measurement accuracy due to the presence of a subjective factor associated with visual control of the meniscus position, manual processing of the results, and the difficulty of ensuring a stable temperature of the material under study. In addition, the contractiometer has considerable height and weight.

Known as a prototype contractor meter BM-7.7 (http://www.vnir.ru/desc.php?bc_tovar_id=3059), including a loading conical cup and a lid with a measured neck and a steel ruler fixed next to the neck, is fixed on the neck, fixed to glass with intermediate gasket by means of three screws. The neck is equipped with a lid. The double bottom consists of an elastic diaphragm, an o-ring and a massive disk made of ordinary steel screwed into a glass with a central threaded hole for the winch. The kit also includes an open water tank (bucket) into which the device is placed. The diaphragm is designed to transfer force from the screw being screwed into the hole to the bottom of the hardened sample when it is removed from the glass.

The tests are carried out as follows. A mixture of 1 kg of cement and 500 ml of boiled water is prepared. The mixture is thoroughly mixed, placed in a glass, pierced, compacted on a vibrating table until the cessation of air bubbles. Then the glass, cleaned of cement residues, is closed with screws with a lid with a rubber ring. Add water through the measuring neck to the upper division of the ruler and place it in a container of water with a temperature of + (20 ± 2) ° С, acting as a thermostat. Take time. Reports of the decrease in the water level in the neck (contract volume VK) are removed after 3, 7 and 24 hours. After testing, the contractiometer is removed from the water. To remove the hardened cement sample, a screw is screwed into the hole. The activity of cement is found in the tables attached to the device.

The principle of operation of this device is close to the KD-07 contractiometer described above, and the main disadvantages of these devices coincide:

- insufficient measurement accuracy associated with the need for a visual assessment of the liquid level and manual processing of the results;

- the need to top up water during long trials;

- a large mass of the device (about 4 kg);

- studies are carried out in a tank filled with water, which leads to increased humidity, the possibility of water spills and other inconveniences;

- the difficulty of removing the hardened sample from the glass by screwing the collar, as well as damage to the sample when it is removed.

The authors set the task: to increase the measurement accuracy while improving the mass-dimensional parameters of the device, as well as to facilitate the removal of the hardened sample from the glass and to provide the possibility of its use in the future for destructive tests, according to which it is possible to correct the results obtained by operational means.

This problem is solved due to the fact that in the device for determining the activity of cement, including a sealed measuring chamber, a glass for the test material, a cover and a system for measuring the volume of water in the measuring chamber, it is proposed to use a volume sensor made, for example, in the form a bellows in contact with water associated with a linear displacement sensor, while the device is equipped with an electronic unit for recording in time and converting sensor signals into activity indications the studied material.

The chamber has an additional compartment for accommodating the volume sensor.

On the inner surface of the lid, a recess is made with a central hole to remove air from the measuring chamber when filling it with water.

The electronic unit is equipped with connectors for connecting to a computer.

This problem is also solved due to the fact that in the glass of the device for determining the activity of cement, made conical with a removable bottom, it is proposed to use a taper not exceeding 0.5 °, to provide the lower inner part of the glass with a flange, and to make the bottom in the form of a disk in contact with flange.

The bottom of the glass for the device can be made in the form of a disk with an outer flange, while the diameter of the disk corresponds to the inner diameter of the glass flange, and the disk flange is made to be supported on the glass flange.

The glass may be made of composite material.

The glass can be equipped with a handle.

Thus, by replacing visual monitoring of water level changes with the use of a volume sensor, and also due to the fact that the operator’s function to determine the cement activity in the tables has been replaced by processing the results using an electronic unit, it has been possible to significantly increase the measurement accuracy. The ability to connect the device to a computer provides a detailed analysis of the information received, its archiving, reporting, etc.

Equipping the device with a temperature sensor enables accurate temperature measurement and the introduction of temperature correction of the results.

By using a sealed chamber with a sensor compartment, the cement sample is completely isolated from the surrounding area. Water does not evaporate, its leakage is excluded.

The execution of the inner surface of the cover is concave (spherical, conical, etc.) due to the recess and the presence of a hole in the upper part provides reliable removal of air from the measuring chamber when filling it with water.

Providing the measuring chamber with an additional compartment for accommodating the volume sensor ensures an optimal layout of the device and protects the sensor, made in the form of a bellows, from possible influences when loading and unloading the glass, including dirt.

The implementation of the glass with an easily installed and removable bottom (together with the hardened sample) made it possible to maximally approximate the shape of the sample to a cylindrical one and remove it from the glass without violating the integrity. Such a sample, unlike a conical one, can be used for further tests, for example, compression in a press, based on which the operational estimates of cement activity are adjusted.

The supply of the inner part of the glass with a flange and the execution of the bottom part in the form of a disk with a flange by choosing the appropriate diametric dimensions enables the bottom to fit snugly into the glass and the bottom flange is firmly supported on the glass flange.

The implementation of the glass and its bottom part of the composite material provided a significant reduction in weight, in addition, this avoids the negative effects of water.

The supply of the glass with a handle provides the convenience of placing the glass in the chamber and removing it.

Patent studies have shown that the claimed object meets the criteria of patentability.

The essence of the utility model is illustrated by the drawing, in which Fig. 1 schematically shows a longitudinal section of the device, as well as photographs, in which photo 1 shows the appearance of the measuring chamber, photo 2 shows the appearance of the cup and photo 3 shows the appearance of the electronic unit.

The device for measuring cement activity includes a measuring chamber 1, a glass 2 and an electronic unit 3.

The measuring chamber 1 is made in the form of a rectangular container with a cavity for accommodating the cup 2 and a compartment 3 communicating with it for accommodating the volume sensor, and a lid 4, a hermetically closed chamber 1. The lid 4 is fastened with screws. In the chamber 1 under the lid 4 is placed a glass 2 for the test material. In an additional compartment 3 having a cylindrical shape and parallel to the base of the measuring chamber 1, a volume sensor is arranged in the form of a bellows 5. The diameter of the bellows 6 is less than the diameter of the additional compartment 3, which allows the bellows 5 to be placed at some distance relative to the inner edge of the compartment 3 for elimination of undesirable effects on it when loading and unloading the cup 2, and will also provide unhindered exit of air from the compartment when filling the chamber.

In the central part of the inner surface of the lid 4 located above the glass, a recess is made. In a specific embodiment, the inner surface of the lid 4 is made in radius. Perhaps another implementation, for example in the form of a cone. In the upper part of the recess in the cover 4, a hole with a plug 6 is made to remove air when filling the measuring chamber 1 with water. The remaining inner part of the cover 4 for a snug fit to the outer surface of the chamber 1 and to ensure tightness is made flat.

In addition, the chamber 1 is equipped with a nozzle with a cover 7 for filling the water. Inside the chamber 1 is also placed a linear displacement sensor for the bottom of the bellows and a temperature sensor (not shown in the drawing).

The bottom of the 8 cup 2 is removable. To install the bottom 8 on the lower inner part of the glass flange is made. The bottom 8 is made in the form of a disk with an outer flange. The diameter of the bottom 8 corresponds to the inner diameter of the flange of the cup 2, and the outer diameter of the flange of the bottom 8 corresponds to the inner diameter of the lower part of the body of the cup. This ensures a tight entry of the bottom 8 into the hole in the body of the glass 2 when it is installed in the glass. In the assembled state, the bottom flange 8 rests on the flange of the cup body 2.

The glass 2 (body and bottom) is made of composite material and is equipped with a handle 9. The glass 2 is made with slight taper, not more than 1 °. Such a taper, on the one hand, makes it easy to remove the hardened sample by acting externally on the removable bottom 8 of the cup 2, and on the other hand, it provides samples close in shape to the cylinder, suitable for subsequent tests.

All metal parts of the measuring chamber are made of stainless steel.

The electronic unit on the front panel has a 12-key keyboard and graphic display. An eight-pin connector is installed in the front part of the unit for connecting the measuring camera 1, and a USB connector is installed nearby for communication with a computer and transferring data to the service program in order to process the received information in more detail, prepare a report, and archive the results. The USB connector is also used to connect an external power supply during long-term tests and charging batteries. Batteries are located in the battery compartment of the electronic unit.

The operation of the device is as follows.

Prepare a mixture of cement and water. The mixture is thoroughly mixed, placed in a glass 2 with a bottom pre-installed in it. The mixture is spiked, compacted on a vibrating table until the cessation of air bubbles. Then the glass, cleaned of residual cement, is placed in the measuring chamber 1. Chamber 1 is sealed through the gaskets by closing the lid 4 and tighten the screws. Then the cavity inside the chamber 1 through the pipe is filled with water. In this case, to completely remove air from the chamber 1, the plug 6 is unscrewed, opening a hole located in the upper zone of the cavity of the chamber 1. Then, the plug 6 is twisted, blocking the hole in the chamber, and the pipe through which water was poured is closed by a lid 7. Immediately after sealing the chamber 1 test process begins. As cement hydrates, the volume of the cement-water system decreases and the bellows compensates for the volume change. Its displacement is detected by a linear displacement sensor, which transmits the corresponding signal to the electronic unit. During the entire measurement cycle, the temperature in the chamber is monitored by means of an appropriate sensor. Its signal also enters the electronic unit. Measurements are performed automatically for 3 hours or more, up to 7 days or more.

The received data is processed, and the value of the studied parameter appears on the display screen.

After the test, the lid 4 is released, through the opening hole the glass 2 for the handle 9 is removed from the chamber 1, the water is drained.

The cup 2 is turned over and the hardened sample is removed from the cup 2 by lightly pressing the bottom.

After that, the device is ready for the next test.

Claims (8)

1. A device for determining the activity of cement, including a sealed measuring chamber, a glass for the test material, a lid and a system for measuring the volume of water in the measuring chamber, characterized in that a volume sensor is used as a measuring system, made, for example, in the form of a bellows in contact with water associated with a linear displacement sensor, while the device is equipped with an electronic unit for recording in time and converting sensor signals into indications of activity of the material under study. 2. The device for determining the activity of cement according to claim 1, characterized in that the chamber has an additional compartment for accommodating the volume sensor. 3. The device for determining the activity of cement according to claim 1, characterized in that on the inner surface of the lid is made a recess with a Central hole to remove air from the measuring chamber when filling it with water. 4. The device for determining the activity of cement according to claim 1, characterized in that the electronic unit is equipped with connectors for connecting to a computer. 5. The glass of the device for determining the activity of cement, made conical with a removable bottom, characterized in that the taper does not exceed 1 °, the lower inner part of the glass is equipped with a flange, and the bottom is made in the form of a disk in contact with the flange. 6. The glass of the device for determining the activity of cement according to claim 5, characterized in that the bottom of the glass for the device is made in the form of a disk with a flange, while the diameter of the disk corresponds to the inner diameter of the glass flange, and the disk flange can be supported on the glass flange. 7. The glass of the device for determining the activity of cement according to claim 5, characterized in that it is made of composite material. 8. The glass of the device for determining the activity of cement according to claim 5, characterized in that it is equipped with a handle.