RU167706U1 - Small-sized thermogravimetric moisture meter - Google Patents

Abstract

Small-sized thermogravimetric moisture meter, the principle of operation of which is based on determining the moisture content of solids during drying and determining the proportion of moisture by weighing. A simple small-sized hydrometer contains a weighing device with a platform for the test sample, a drying chamber with a heating element, and an electronic device for processing and displaying information. Unlike analogs, the heating element is located under the platform with the measured sample as close as possible to the measured object, fixed directly to the electronic board and does not require additional conductors. The technical result is to simplify the design, drying efficiency, reduce the size of the structure, as well as increase reliability and electrical safety. 7 ill.

Description

The technical solution relates to moisture meters of a direct method for measuring humidity. The principle of operation of thermogravimetric type solids moisture meters is based on determining the moisture content of the solid test material when the sample is dried and determining the moisture content by weighing.

Analogs of the claimed device are thermogravimetric moisture meters of foreign companies: MA-35 "Sartorius" (Germany), MX / MF-50 of the Japanese company A&D, Chinese infrared moisture meter FD-720 and domestic "Evlas-2M" (Fig. 1-2).

All these moisture meters have in their composition: a weighing device with a platform for placing samples of the test material, a drying chamber with a heating element, an electronic device for processing and displaying information.

In all these designs, a powerful heating element is located in the hinged lid above the platform with the measured sample. In these instruments, this is explained by the use of standard laboratory electronic scales as a weighing device. A feature of this design solution is the need to supply mains voltage to a powerful electric heater located in a movable hinged lid, which creates certain technical difficulties, makes it difficult to comply with electrical safety and reliability conditions, and significantly increases the dimensions of the device. This solution prevents the creation of a small-sized thermogravimetric moisture meter.

The objective of the utility model is the development of an inexpensive small-sized thermogravimetric moisture meter, devoid of the disadvantages of analogues.

As a prototype, a thermogravimetric hygrometer (Fig. 3) was taken, containing a weighing device with a platform for the test sample 2, a drying chamber 3 with a heating element 1, and an electronic device for processing and displaying information 4. Patent for utility model No. 74473 dated February 8, 2008

The technical result is achieved in that the heating element 1 is located under the platform with the measured sample 2 (Fig. 4). The heater is located as close as possible to the measured object, mounted directly on the electronic board of the thermostat and does not require additional conductors (Fig. 5).

This solution allows us to simplify the design by refusing to place the heating element in the movable hinged lid, increase drying efficiency, use a heater of much lower power, reduce the dimensions of the structure and increase its electrical safety.

The practical implementation of the utility model proved the correctness of the technical solution, which was confirmed by the tests of prototype hygrometer. A significant decrease in power compared to serial models (not less than 10 times) did not affect the speed and quality of drying of the samples under study. Schematically, the design is shown in FIG. 5.

You can consider this design solution as one of the ways to create micropower thermogravimetric moisture analyzers.

Claims (1)

A small-sized thermogravimetric moisture meter containing a connected drying chamber, a weighing device with a lever and a pad for the test product, a heating element, a force sensor, an electronic information processing and display device, characterized in that the heating element is located under the platform for the test product.

Images