RU126104U1 - CONVECTIVE DRYER - Google Patents

Abstract

A convective dryer, including a vertical rectangular shaft with a loading hopper and an unloading device, consisting of sections mounted on top of each other, equipped with supply and outlet collectors of a drying agent, as well as inclined perforated shelves, which are a frame with a perforated grate fixed to it with a window in the bottom parts across the entire width of the lattice, while the lower edge of each frame is connected to the inner wall of the shaft by a hinge located at the junction of the sections, the upper edge of the frame is vibrated in a vertical plane by means of a vibrodrive, characterized in that in each section along the entire width there are triangular inserts and flow dividers, and the inserts are fixed on the axis in such a way that at the top they form gaps increasing along the movement of the material under the upper the wall of the section for the removal of the spent drying agent, and below the same gaps above the inclined perforated shelf for unimpeded movement of the material on its surface, and the whole Avkas divide the section along the length into several zones with the fractional processing of the material from its loading point to the discharge point, and the flow dividers are connected to the inlet collector and divide the space under the inclined perforated shelf into zones, the number of which is equal to the number of zones with the fractional processing of material, while the lower the supply and upper outlet collectors are made isolated by the drying agent, and the rest are interconnected by the drying agent by a recirculation channel, each of these outlet and

Description

The utility model relates to the technique of drying dispersed high-moisture materials and can be used in food, chemical and other industries.

The closest in technical essence and the achieved effect is a convective dryer [RF Patent No. 2377488, IPC ⁷ F27B 17/12. Convective dryer / A.A. Shevtsov, A.V. Drannikov, A.A. Derkanosova, V.P. Yasinevskaya, D.A. Britikov. - No.2008140886 / 06; Announced October 16, 2008; Publ. 12/27/2009] a vertical rectangular shaft with a loading hopper and an unloading device, consisting of sections mounted on top of each other, each of which contains supply and outlet collectors of a drying agent, as well as an inclined perforated shelf, which is a frame on which a perforated grate is fixed with the formation of a window in its lower part over the entire width, while the lower edge of each frame is connected to the inner wall of the shaft by a hinge located at the junction of the sections, and the upper edge and the frame is driven to oscillate in a vertical plane by means of vibration drive.

However, this convective dryer has several disadvantages:

- uneven drying of the dispersed high-moisture material, since the sections do not provide for its fractional processing;

- it is not possible to adjust the speed of the drying agent along the length of the section, due to the absence of flow dividers of the drying agent;

- it is not provided for a partial return of the spent drying agent from the lower section to the upper, contributing to an increase in the efficiency and environmental friendliness of the drying process.

The technical task of the utility model is to improve the quality of the dried material, the efficiency and environmental friendliness of the dryer.

The technical task of the utility model is achieved by the fact that in a convective dryer, including a vertical shaft of rectangular cross-section with a loading hopper and an unloading device, consisting of sections mounted one above the other, equipped with inlet and outlet collectors of a drying agent, as well as inclined perforated shelves, representing a frame , with a perforated grate fixed to it with a window in the lower part along the entire width of the grate, while the lower edge of each frame is connected to the inside with the lower wall of the shaft with a hinge located at the junction of the sections, and the upper edge of the frame is vibrated in the vertical plane by means of a vibrodrive, it is new that in each section along the entire width there are triangular inserts and flow dividers, and the inserts are fixed on the axis so so that at the top they form gaps increasing along the movement of the material under the upper wall of the section for removal of the spent drying agent, and at the bottom there are identical gaps above the inclined perforated shelf for I freely move the material along its surface, and the inserts divide the section along the length into several zones with fractional processing of the material from its loading point to the discharge point, and the flow dividers are connected to the inlet collector and divide the space under the inclined perforated shelf into zones, the number of which is equal to the number areas with a fractional treatment of the material, while the lower inlet and upper outlet collectors are made isolated by the drying agent, and the rest are interconnected by the drying each agent with a recirculation channel, each of these outlet and inlet headers being equipped with a rotary gate and a manifold flap with flow guides, respectively.

The technical result of the utility model is to improve the quality of the dried material, the efficiency and environmental friendliness of the dryer.

Figure 1 shows a General view of a convective dryer, figure 2 the design of the perforated shelves, and figure 3 is a plot of the location of the dividers of the flow of the drying agent in the inlet manifold (view A in figure 1).

A convective dryer contains a vertical shaft of rectangular cross section, consisting of sections 1, 2, 3 mounted on top of each other (the number of sections depends on the type and humidity of the material being dried). Each section contains a perforated inclined shelf 4, which is a frame 5, on which a perforated grating 6 is fixed with a window 9 in the lower part along the entire width of the grating. The size of the holes of the lattice 6 is selected for each material so that it does not spill out through the lattice during the drying process. The windows 9 in the shelf 4 are made in such a way that the material to be dried is poured onto the upper part of the lower shelf. The lower edge of each frame 5 is connected to the inner wall of the shaft by a hinge 7. The upper edge of the frame is oscillated in a vertical plane relative to the hinge along the guides 8 of the vibrodrive 10, the amplitude and frequency of which can vary depending on the type of material being processed and its humidity. The vibrodrive is installed on the outside of each section and is connected to the upper edge of the frame through the hole 11. Over the entire width of each section on the axis 23, triangular inserts 16 are installed so that at the top they form gaps under the upper wall of the section, the size of which increases along the movement of the material. The increase in the size of the gaps is due to the need for a constant speed of the spent drying agent in the gaps themselves, since the spent drying agent passes from the first zone of material processing through the gap to the second, then to the third and so on, that is, its consumption increases. At the bottom of the insert 16 form the same gaps above the shelf 4 for the smooth movement of the material on its surface. The inserts 16 divide the section along the length into several zones (the number of zones depends on the type and humidity of the dried material). The triangular shape of the inserts 16 is due to the need to expand the zone of fractional processing of the material along its height to reduce the speed of light particles and, therefore, to prevent their entrainment through a gap with the spent drying agent. The dimensions of the inserts 16 are selected in such a way that in each of the zones the material is fractionally dried in a vibro-boiling layer as it moves along the shelf 4 from the place of loading to the place of unloading through windows 9.

In each section, under the perforated grating 4, flow dividers 17 are installed in the form of plates with the formation of zones, the number of which is equal to the number of zones of material fractional processing. The flow dividers 17 are connected to a supply manifold 14 for supplying a drying agent to each of the formed zones. In these zones, sectional dampers 18 are fixed, which regulate the flow rate of the supplied drying agent.

The inlet manifold 14 of the lower section 3 and the outlet manifold 15 of the upper section 1 are respectively for supplying and discharging the drying agent into the dryer. These collectors are made insulated by a drying agent and are not connected to other collectors.

The remaining supply 14 and output 15 collectors are interconnected via a drying agent by a recirculation channel 22 for partial return of the spent drying agent from section 3 to section 2 and (or) from section 2 to section 1. A collector valve 19 s is installed in each of these supply collectors flow guide 21, and in each outlet manifold a rotary gate 20 is installed.

The mine is equipped with a feed hopper 12 for supplying wet material and a discharge device 13.

Convective dryer operates as follows.

The wet material enters section 1 through the feed hopper 12 and enters the zone of fractional processing of the material. In this zone, the material is subjected to the simultaneous vibrational movements of the shelf 4 and the flow of the drying agent passing from below through the perforated grate 6. Thus, drying is carried out in a vibro-boiling layer, when the lightest particles rise up and the largest particles remain on the surface of the grating and then move along section length to the next zone. In this case, light particles moving along the height of the zone lose their speed, settle on the side surface of the triangular insert 16 and, under the action of gravity, fall down onto the grate 6, and then move along its surface to the next zone. The spent drying agent through the gap between the upper wall of the section 1 and the axis 23 of the insert 16 is discharged to the outlet manifold 15. In a similar manner, the material is dried in other zones. Since the material, as it moves from one zone to another, loses its moisture and becomes lighter, the speed of the drying agent should be reduced to prevent the entrainment of dried particles from the section. The required value of the speed of the drying agent and the value of its reduction is selected depending on the type of material being processed and its moisture content. Speed adjustment along the length of the section is carried out using sectional dampers 18 installed in zones under the shelf 4 formed by flow dividers 17.

The dried material from the upper section 1 through the window 9 of the shelf 4 is poured onto the shelf 4 of section 2, where it is dried similarly to section 1. To ensure a more complete use of the drying potential, the spent drying agent from section 2 is partially returned to section 1 through a recirculation channel 22 connecting the outlet collector 15 of section 2 and the inlet collector 14 of section 1. The amount of returning drying agent is regulated by a rotary gate 20, and the amount of fresh drying agent entering section 1 is counted Vectorial damper 19. Moreover, the desired direction of movement of the spent desiccant in the section 1 by means of the flow guide 21. Similarly carried partial return of spent drying agent from section 3 to section 2. Number of returned exhaust drying agent by sections is determined by its temperature and vlagosodezhaniem.

Successively passing through all sections of the vertical shaft through a zigzag channel formed by inclined perforated shelves, the dried material enters the perforated shelf 4 of section 3 and is discharged from the shaft by an unloading device 13.

Thus, the proposed convection dryer allows you to:

- improve the quality of the dried material due to its fractional processing along the length of each section and the ability to control the speed of the drying agent in each zone depending on the type of material being processed and its moisture content;

- increase the efficiency and environmental friendliness of the drying process due to the partial return of the spent drying agent from the lower section to the upper.

Claims (1)

A convective dryer, including a vertical rectangular shaft with a loading hopper and an unloading device, consisting of sections mounted on top of each other, equipped with supply and outlet collectors of a drying agent, as well as inclined perforated shelves, which are a frame with a perforated grate fixed to it with a window in the bottom parts across the entire width of the lattice, while the lower edge of each frame is connected to the inner wall of the shaft by a hinge located at the junction of the sections, the upper edge of the frame is vibrated in a vertical plane by means of a vibrodrive, characterized in that in each section along the entire width there are triangular inserts and flow dividers, and the inserts are fixed on the axis in such a way that at the top they form gaps increasing along the movement of the material under the upper the wall of the section for the removal of the spent drying agent, and below the same gaps above the inclined perforated shelf for unimpeded movement of the material on its surface, and the whole Avkas divide the section along the length into several zones with the fractional processing of the material from its loading point to the discharge point, and the flow dividers are connected to the inlet collector and divide the space under the inclined perforated shelf into zones, the number of which is equal to the number of zones with the fractional processing of material, while the lower the supply and upper outlet collectors are made isolated by the drying agent, and the rest are interconnected by the drying agent by a recirculation channel, each of these outlet and dvodyaschih collectors respectively provided with rotary slide valve and valve manifold with the flow guide.

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