SU756158A1 - Suspension mechanism for flat material drying chamber - Google Patents

Description

The invention relates to the technique of drying flat materials, mainly sheet celluloid, and can be used in chemical, light and other industries.

The known suspension of the drying chamber for flat materials, mainly sheet celluloid, contains a frame with axles fixed on it, on each of which spring-mounted movable cheeks are mounted on opposite sides, carrying horizontally placed sterile shoes. sheet weights, and a device for controlling the moisture of the material being dried with a motion-to-electric signal transducer [1].

Device for moisture control is a weight meter ¹⁵ vysushivae- direct material and comprises a suspension frame mounted on a glass rod with a spring-loaded movable inside. The stem is movable 'within the cup in the vertical direction, and its upper portion ₂₀ INH The case of the suspension for mounting in a drying chamber. A differential inductive or differential transformer is connected to the lower outer end of the glass.

ny converter, the core of which is connected to a movable rod. The sensitivity and accuracy of such a device for controlling humidity substantially depend on the sensitivity and mechanical properties of the elastic spring acting on the movable rod inside the glass of the suspension frame.

In cases where, for example, in the process of drying, changes in the weight of the sheet package on the suspension are small with a large initial weight, some sheets are removed or samples are cut out for laboratory analysis, the temperature changes, which affects the mechanical properties of the spring of the moving rod, such suspension with a device for controlling humidity in the form of a spring meter for the weight of the material being dried does not provide the necessary accuracy for controlling the moisture of the material during its drying, which is a drawback of the suspension design when using it in the specified conditions.

The aim of the present invention is to improve the accuracy of controlling the moisture content of the material being dried.

756158

This goal is achieved by the fact that the suspension of the drying chamber for flat materials is equipped with a device for controlling humidity, made in the form of gear pairs for measuring the shrinkage of the material when it is dried, and in each pair at opposite ends of the suspension frame one of the gears is mounted on the corresponding frame axis the second is connected to the converter.

FIG. 1 shows schematically the described suspension, general view; in fig. 2 is a view A of FIG. one.

The suspension includes a frame 1, in which pivoting cheeks 3 with rods 4 are mounted on the axes 2 (see Fig. 2). The cheeks 3 can rotate in the direction toward the center of the suspension; however, due to the springs 5, a moment is created which impedes this rotation, as a result of which the rods 4 are pressed against the cradle 6. The axles 2, being rigidly connected to the cheeks 3 with screws 7, can transmit the rotation to gears 8 meshed with gears 9, sitting on the axes of ferrodynamic transducers or selsynes 10. By means of wires, the latter are connected to a secondary device or a system of remote automatic humidity control (in the drawings until Ana). Suspension using the rod 11 is attached directly to the drying chamber or to the trolley of the monorail, with which the dried material, such as sheet celluloid, is fed into the chamber.

Before drying, two holes are drilled on the package of sheets of celluloid in strict accordance with the diameters of rods 4 and the center distance between them, after which the sheets of celluloid are evenly strung on the rods 4 on both sides of the frame 1 of the suspension. Since at the same time the shrinkage of the celluloid sheets along their width is zero, the cheeks 3 under the action of the springs 5 remain pressed to the cradle 6. There is no signal on the secondary device or the automatic moisture control system.

In the drying process, celluloid shrinks across the width of the sheet, the cheeks 3 with the rods 4 rotate in a direction toward the center of the suspension at some angle relative to their initial position and the axes 2 rigidly connected with them rotate at the same angle, and therefore the gear train consisting from gears 8 and 9. As a result, the sensitive element of the ferrodynamic transducer or the rotor of the selsyn 10 will turn to the same or

a proportional angle, and a signal will be sent to the secondary device or the automatic moisture control system, the value of which will be proportional to the shrinkage of the material that occurs during its drying, and hence its moisture content. Information on the change in moisture of the dried material will be issued until the material shrinks, that is, until the end of the drying. After that, a signal of the same value will be sent to the secondary device or the automatic humidity control system. The recorder of the secondary device will draw a straight line parallel to the edges of the chart paper, and the automatic humidity control system will signal that the material has been dried.

The use of the described construction of the suspension allows you to quickly obtain information about the current moisture content of the material being dried, improves the accuracy of moisture control, including in such conditions when, for example, the temperature mode of drying changes or some of the sheets are removed from the suspension. In conjunction with the automatic moisture control system, the described suspension design automates the control of the moisture content of the material being dried and the entire process of drying it.

Claims (1)

Claim Suspension of a drying chamber for flat materials, mainly sheet celluloid, containing a frame with axles fixed on it, each of which has spring-loaded movable cheeks on opposite sides carrying horizontal rods for hanging sheets, and a device for controlling the moisture of the material being dried with a motion converter an electrical signal, characterized in that, in order to improve the accuracy of controlling the moisture of the material being dried, the device for controlling humidity is made in the form of gear pairs for measuring the shrinkage of the material during its drying, and in each pair at opposite ends of the suspension frame one of the gears is mounted on the corresponding frame axis, and the second is connected to the converter.