SU1043451A1 - Device for monitoring loose material humidity - Google Patents

Abstract

A DEVICE FOR CONTROLING THE MOISTURE OF THE BULK MATERIAL, mainly during freeze-drying, comprising a housing with measuring and control cells located in it, equipped with heat meters and a heater, fixed in that case and installed in parallel between the measuring cell is provided with a rotary valve in the discharge part, and heat meters are located along the side surfaces of the cells and are covered by the heater. (L 4 CO 4 JV

Description

110 The invention relates to a device for controlling the moisture content of a bulk material, mainly during freeze drying, and can be used in the pharmaceutical, microbiological, food, chemical and other industrial fields. A known device for controlling humidity with measuring cells, in one of which an adsorbent is placed, which is located parallel to the flow of material under investigation, which is unloaded and unloaded when the flap is turned. To control the humidity in this instrument, the C13 barometric method is used. However, this device does not provide sufficient measurement accuracy and cannot be used for freeze drying. It is also known a device for maintaining the level of residual moisture content of their materials, which is made in the form of a rotating measuring cell enclosed in a heat-insulating body connected to a dryer through a dispenser containing two coaxially arranged identical heat-insulated containers (cup) directed each other with bases, connected with heat meters of the same sensitive TC, between which a heater is installed, while the metering device and the measuring cell are equipped with a control system for the selection Oba, and heat meters and included a differential associated with councils system laziness feed material feedback. ; Link 2 3 A disadvantage of the known device is the low reliability of its operation, due to the mechanical rotation of the current-carrying sensor conductors in vacuum during the transition from one measurement to another, a possible fracture of said conductors, etc. The aim of the invention is to improve the reliability of controlling the moisture of bulk materials. This goal is achieved by the fact that in the device for controlling the moisture of the bulk material, it is advantageous when freeze-drying, comprising a housing with measuring and control cells located in it, equipped with heat meters and a heater, the measuring and monitoring cells are fixed in the housing and fixed in parallel between the measuring cell is supplied with a rotary valve in the discharge part, and 1, 1 heat meters are located along the side surfaces of the cells and are covered by the heater. The drawing shows a device for controlling the moisture content of the bulk material. The device contains a thermal insulating body 1, a control 2 and a measuring 3 cells, around each of which there is one heat meter 4, which have the same sensitivity. A wire heater 5 is located around the cells with heat meters. Measuring cell 3 is equipped with a rotary valve in the discharge part. The stationary and parallel cylindrical cells used in the device have a small section, but a greater height, which makes the sample as warm as possible. In addition, heat meters on the entire surface of the cells and the heater surrounding them provide the maximum contact surface between the materials in the measuring cell, on the one hand, and heat meters and the heater, on the other hand. In order to eliminate thermal distributions equally spaced in space in the process of humidity control, heat meters 4 are differentially included. The device operates as follows. . Before starting work, the device includes a heater 5, which draws on both cells. Then, from the dryer (not shown), the test material enters the measuring cell 3, the lower output opening of which is closed by the rotary valve 6. The test material, hitting the measuring cell 3, begins to rapidly evaporate moisture As a result, the material together with the cell 3, where he is,. It begins to cool, which leads to a temperature difference between the two cells 2 and 3. This temperature difference creates a heat flux, which is recorded by heat meters 4 and transmitted as an electrical signal to the appropriate recording device. After that, the flap opens and the material is poured out. After this, the Ti.3 measurement can be repeated. The maximum contact surface in the proposed device leads to maximum heat transfer from the heater to the material through heat meters, and cylindrical tubes, and this will increase

3 10434514

Evaporation of moisture from the material and the corresponding heat flux from the heater to the mat

Heightenedly increases its cooling.

Thus, the difference increases.

Temperatures between the heater and the device’s ma-operation and its sensitization are tantamount to an increase. ness

Claims (1)

DEVICE FOR CONTROL HUMIDITY OF BULK MATERIAL, mainly during freeze-drying, containing a housing with measuring and control cells located therein, equipped with heat meters and a heater, characterized in that, in order to increase reliability, the measuring and control cells are fixed in the housing motionless and installed The measuring cell is equipped with a rotary damper in the discharge part, and the heat meters are located on the side surfaces of the cells and are covered by a heater. a 1963, we are parallel to each other, 1 1043451. Λ