SU1151793A1 - Drier for raw cotton - Google Patents

Abstract

1. COTTON DRYER, containing a rotating drum with a fixed end wall, a loading nozzle and a heat carrier supply nozzle, equipped with a water jacket, characterized in that, in order to reduce heat loss and prevent the raw cotton from burning, the heat supply nozzle is exposed to the distance of the heat loss. a trapezium with a water jacket on the bottom of the larger base, and a guide visor is additionally installed inside this socket. 2. Dryer according to claim 1, characterized in that the guide visor is inclined to the wall of the nozzle provided with a water jacket at an angle of 45. 3. The dryer according to claim 1, which means that the trapezium is made with an angle between the side walls equal to 20-30. ate with so

Description

The invention relates to devices for drying loose fibrous materials and can be used in cotton processing and processing plants. The aim of the invention is to reduce heat loss and prevent the ignition of cotton. Figure 1 shows the dryer, resentment view; Fig, 2 is a view of the initial part of the dryer; in FIGURE 3, section A-A in FIG. 2 (heat carrier supply pipe). The dryer contains a drum 1 placed in chamber 2 with a chimney 3, a loading nozzle 4 and an unloading mechanism 5. The drum has a slope towards the horizon in the direction of the unloading mechanism and is divided in length into three sections. purification section 7 coupled to the chimney, and I then counterflow section 8. Section b pr motorcycle has a fixed end wall 9 connected to the inlet pipe and pipe 10 for supplying high-temperature heat transfer medium. The movable joint between the drum and the end wall is equipped with a labyrinth-type compactor 11. The heat carrier inlet pipe in cross section is made in the form of a trapezium with the angle of convergence between the side walls 20-30. In this case, the lower larger base of the trapezium is formed by a wall with a water line 12. In addition, in the channel of the path of the heat carrier for distance B from the end wall and wall; With a water jacket equal to one third of the height of the trapezium, the visor 13 is inclined along the heat carrier downwards. The latter is made with the size B, equal to one third of the height of the trapezium and the angle of inclination to the wall with the water jacket is ij 45 °. The dryer works as follows: Wet cotton - raw material from the loading nozzle 4 is fed into the expanding drum 1, where it moves in the direction of the unloading mechanism 5. At the length of section b, the material is processed in a flow through the high-temperature wet heat carrier fed into the drum 1 through pipe 10 and further, after section 7 during section 8, a dry heat transfer fluid. Supported by countercurrent. Exhaust heat carrier of both flows through section 7 enters the exhaust pipe 3 d is then emitted into the atmosphere or is sent for cleaning. In the lower part of section 7, there is a selection and removal of small trash. The dried and cleaned raw cotton is discharged by mechanism 5 and fed for further processing. At the same time, part of the coolant flow in the nozzle 10 is pressed down, skirting the visor 13, and blows the surface of the wall of the water jacket 12. The near-wall flow of the heat transfer fluid is created at a speed capable of blowing off the clods of raw cotton (including the wet ones) that fall during rotation the drum 1 into the pipe 10, from the surface cooled by the water jacket 12. Thus, the particles of the processed product falling into the channel of the pipe 10 are constantly blown off by the coolant and are thrown into the drum. The angle between the side walls is chosen Kim manner as to protect the latter from the contact with the raw cotton and prevent it from sticking to the hot surfaces of the walls. With a convergence angle less than 20, the likelihood of sticking to the side walls of the individual particles and their ignition is preserved. At an angle of more than 30 °, the claw starts to be held up by the sharp corners of the nozzle formed between the large base of the trapezium and the side walls, also causing it to ignite. The presence of a water shaker under the bottom wall of the nozzle maintains the temperature of the latter at a level that prevents the raw cotton from sticking, otherwise intensively blowing it with heat-resistant coolant (more than EPO) of cotton slices that were boiling on a hot surface causes it to burn. The specific ratios between the size of the visor and its location in the nozzle allow the visor itself to be protected from possible contact with cotton. As a result, during the operation of the dryer in the nozzle, an optimal aerodynamic regime is ensured, contributing not only to preventing the ignition of cotton, but also to a decrease in the specific heat consumption for drying.

10fig 3

Claims (3)

1.DRAW DRYER FOR COTTON, containing a rotating drum with a fixed end wall, a loading nozzle and a coolant inlet nozzle equipped with a water jacket, characterized in that, in order to reduce heat loss and prevent the raw cotton from burning, the coolant inlet nozzle in a section in the form of a trapezoid with a water jacket on the lower larger base, and a guide visor is additionally installed inside this nozzle. 2. The dryer according to claim 1, characterized in that the guide visor is inclined to the wall of the pipe equipped with a water jacket at an angle of 45 °. 3. The dryer according to claim 1, characterized in that the trapezoid is made with an angle between the side walls of 20-30 °. O1 WITH figure 1