SU564597A1 - Device for determining ice and non-freezed water - Google Patents

Claims (3)

The invention relates to devices for determining the amount of ice and unfrozen water in porous materials by the calorimetric method, and, in part, can be used to study cement stone and concrete. A known device for determining the amount of ice and unfrozen water (with a thermally insulated body with freezers placed inside it, an air thermostat with a calorimeter, a caps / l conveying mechanism with samples enclosed in containers and channels, are made in the housing and the transport mechanism connecting the Mechanism Calibration with freezers and calorimeters. The installation is known to have a number of significant drawbacks, namely, the distortion and non-reproducibility of measurement results due to losses arising from All containers with a capsule for samples into the transport mechanism, the duration and complexity of transferring frozen samples from the freezers to the calorimeter. Also known calorimetry, including the body, freezer, calorimeter and instrumentation. The disadvantage of the device is the lack of a transport mechanism o & which introduces significant errors in the determination of the amount of ice and of the test water by transferring samples from the freezer to the calorimeter without protecting them from the environment. The closest technical solution to the invention is an installation for determining the amount of ice and non-freezing water in porous materials, including a thermally insulated casing with freezers, an air thermostat with a fan, heaters and a calorimeter, on the gantry table for containers and capsules, lifting devices and connections channels 3. The aim of the invention is to automate the research process and improve measurement accuracy. The goal is achieved by the fact that the swivel corner is made with additional chambers for drying agent and lifting devices for containers, in the lower part of which there are devices for their automatic opening, the fan is located under the calorometer in the air thermostat, in the corner of the latter are installed diffusing screens for heaters. FIG. 1 shows an installation with partial cuts, a general view; in fig. 2 the same, top view; in fig. 3 - section of the turntable; in fig. 4 is a sectional container chamber. The installation for determining the amount of ice and unfrozen water contains a heat-insulated body 1, made for example of Plexiglas and mounted on a common frame 2. The body 1 has freezers 3 and an air thermostat 4 with a calorimeter 5 is installed. Above the air thermostat 4 and freezers 3 a rotary table 6 is installed with chambers 7, which are connected by channels 8 and 9 with a calorimeter 5 and freezers 3. The rotary table 6 is equipped with additional lifting devices 10. In an air thermostat 4 under the calorimeter 5 Position the fan 11 with blades 12. The drive blower motor 11 is performed 13. 3 4 corners air thermostat set rasseiEshyuschie ekranEl heaters 14 to 15 (see. FIG. 2). In the turntable 6, cages 16 for drying agent are made, connected by inclined channels 17 to cameras 7. In the upper part of chambers 16 rotary plugs 18 are installed, overlapping channels 17. Channels 6 are coaxially connected to chambers 7 with channels 19 2O, made in the form of cables (see Fig. 3). The chambers 7 are fitted with containers 2 for capsules 22 with samples. On the upper part of the capsules 22, lifting devices 20 are fixed. In the lower part of the containers 21, devices 23 are placed for their automatic opening (see Fig. 4 The installation works as follows. A sample of porous material saturated with water is placed in the capsule 22. The capsule is in its queue, with noMouai elevators with spo: area 20 and devices 10 are installed in container 21 placed in chamber 7. Turning plug 18 opens channel 17, and moisture from chamber 7 is absorbed by drying eeuiecTbOM located in chamber 16. Table 6 is turned against hour Before the chamber 7 is aligned with the channel 9, with the help of the device 20 and the device 10, the container 21 and the capsule 22 are lowered into the freezer 3, where the samples are frozen and kept at the right temperature. several freezers. After the end of the freezing, the container 21 with the capsule 22 is returned to the chamber 7 and the table 6 is turned until the chamber 7 is aligned with the channel. 8. Device 23 triggers, which automatically opens container 21, and capsule capsule 22 goes down into the calorimeter 5. In calorimeter 5, the amount of ice is determined by the amount of heat absorbed by the frozen sample. After completing the measurements, the capsule 22 rises from the calorimeter back to chamber 7, the table 6 rotates and the capsule 22 comes in to replace the sample. The process is repeated. The invention will greatly simplify calorimetric measurements and reduce the time of experiments. The invention The apparatus for determining the amount of ice and unfrozen water in porous materials, includes a heat insulated casing with freezers, an air thermostat with a fan, heaters and a calorimeter, a turntable for containers and capsules, lifting devices and connecting channels, that, in order to automate the process of research and increase the accuracy of {Measurements, the rotary table is made with additional chambers for the drying agent and lifting devices for In the lower part of which there are devices for their automatic opening, the fan is located under the calorimeter in the air thermostat, and in the corners of the latter there are scattering screens for heaters. Sources of information taken into account in the examination: 1. USSR author's certificate number 478203, cl. q-01 K 17/00, 1972. 2. Saveliev BA Physics, chemistry and structure of natural ice and frozen rocks, Moscow, Moscow State University, 1971, p. 142-155. 3. The author's certificate. USSR № 421916, cl. q O1 N 15 / O2, 1972. ГVu: f W Rig.E