SU525012A1 - Installation for the study of barothermal effects on building materials - Google Patents

Description

one

The invention relates to laboratory equipment for the investigation of the properties of building materials, in particular, for the investigation of the barothermal effect on materials with the aim of expanding them.

A known installation for expanding perlite by the barothermal method (1), comprising an autoclave, a furnace located inside it and a device for creating and releasing pressure 1.

The disadvantage of the installation is its low productivity, since after each test it is necessary to take a break to cool the furnace.

The closest known one is a facility for investigating a barothermal effect on building materials, for example, perlite 2, including an autoclave with a furnace located inside it, inside which is placed a sample table for test sample 2.

The disadvantages of the installation are that the sample temperature in the furnace is measured indirectly by the ambient temperature. Access to the sample during preparation for testing and at the end of the test is limited to the loading opening located in the additional chamber, which reduces the performance of the installation and creates inconvenience in its maintenance. Constructions

The device does not allow the free ends of the sensors embedded in the sample to be removed from the autoclave, which limits the range of studies carried out at the installation.

In order to increase productivity, maintain service and extend the range of research in the proposed installation, the autoclave and furnace are made in the form of caps with a common base, and are equipped with a vertical movement mechanism, and the sample table is made removable.

The drawing shows a general view of the installation.

The installation contains an autoclave consisting of a fixed base 1 and a movable upper part (hood) 2. The base of the autoclave simultaneously serves as the furnace bottom, made in the form of a cap 3. To move the autoclave caps and the furnace, a mechanism is used, for example, in the form of a screw jack 4 resting on the base of the autoclave. The jack through the rod 5 is connected to the furnace, and with the help of a protrusion on the rod 6 it interacts with the autoclave cap. To fix the autoclave cap in the lowest position, protrusions 7 on it and clamps 8, which are on a fixed base, serve. At the base are placed a clamp 9 for creating pressure, a device for relieving pressure 10, a nest 11 for the stage 12, on which

there is a test sample 13 sec, a sensor 14 embedded in it, the free ends of which through the multi-contact plug connector 15 are led out of the working chamber of the autoclave. To prevent the autoclave cap from overheating, it contains a water jacket 16 on the outside and heat insulation 17 on the inside.

The operation at the plant is as follows.

When the autoclave caps 2 and 3 are raised and the furnace is placed, the stage 12 with the sample 13 placed on it, in which the sensor 14 is embedded, is installed in the socket 11. With the help of the multi-pin plug connector 15, the free ends of the sensor are output from the autoclave to the recording devices. Using the jack 4, the autoclave cap 2 is lowered to the lowest position and turned so that the protrusions 7 on it go into the slots of the latches 8. After that, air or gas is injected into the working chamber of the autoclave. Then using the jack 4, the furnace cover 3 is lowered to the lowest position and covers the stage 12 with the sample 13 placed on it. After the sample 13 is heated to the temperature specified by the experimental conditions, the pressure is released from the autoclave with the pressure relief device 10. The cap 2 of the autoclave is released from the clamps 8. With the help of the jack 4, the stem 5 is lifted, carried along by the furnace 3, and then with the help of the protrusion on the stem 6 - the cap 2 of the autoclave. At the extreme upper position of the caps 3 and 2 of the furnace and the autoclave, there is free access to the test sample 13, which is removed together with the stage. The experiment can be immediately repeated in the order described above. Water on shirt 16 and heat insulation 17 prevent overheating of the autoclave cap.

The design of the furnace in the form of a lifted cap allows loading and unloading the test samples without shutting it down, which provides an increase in plant productivity and ease of maintenance, as this opens up free access to the sample.

Claims (2)

1.Evorenko GI. Expansion of perlite by the barothermal method. Building materials, 1966, №2. 2. Avt. St. USSR № 443314, cl. G 01N 33/38, 1973 (prototype). b-j