RU2150205C1 - Cereal material drying apparatus - Google Patents

Abstract

FIELD: drying equipment used in agriculture. SUBSTANCE: drying apparatus has working member, perforated bottom having predetermined angle of taper, discharge windows of adjustable area, adjustable height brackets, and plate which may be attached at controlled angle of attack by means of bracket. EFFECT: increased efficiency by intensified drying process and reduced damage to cereal material by working member. 3 dwg

Description

 The invention relates to agriculture, namely, to installations for drying grain materials, and can be used for storage, drying and drying of grain of various crops.

 There are known dryers containing a perforated bottom, a cylindrical container with a rotary working body fixed in the center for selecting bulk material from the bottom layers and a device for feeding a drying agent (Chizhikov A.P. Zernosushilnye installations., Agriculture Abroad, 1978, N9).

 Known dryers damage rotary working body discharged bulk material and have an uneven removal of material along the entire path of movement of the working body.

 A known installation for drying materials containing a cylindrical container with a perforated bottom and with a L-shaped rotary working body fixed in its center for selecting bulk material from the bottom layers and resting on a support roller and a device for supplying a drying agent (SU ed. St. N 927188, 1982).

 The known installation has a high non-uniformity of the removal of material from the bottom layers, since the movement of the material is carried out only due to the transporting ability of the fluidized material by the drying agent along the cross section of the beam received through the perforation of the bottom, as well as damage to the discharged material by the support roller of rotation of the working body.

 The technical result of the invention is the intensification of drying due to the uniform removal of material from the bottom layers along the entire path of movement of the working bodies and reduce injury to the material by the working body.

The technical result is achieved by the fact that the installation for drying, containing a cylindrical container with a perforated bottom, rotary working bodies made of a beam of L-shaped section, for selecting grain material from the bottom layers and a device for supplying a drying agent, is equipped with a rotating axially cylindrical container the disk, the perforated bottom is made conical, and the cylindrical container consists of a pair of movable along the perimeter of the lower and upper parts, the upper part is installed with the possibility Vertical, controlled movement relative to the bottom and is equipped with a perforated funnel, and the lower portion is an integral of the lower cylindrical ring which is rigidly fitted onto a rotating disk and an upper cylindrical ring with perforations along its perimeter, connected fixedly perforated ring with agentosbornikom, the diameter of the lower cylindrical ring (D _m ) exceeds the diameter of the upper (D _in ) by an amount determined by the formula:
D _n -D _in = 2h • ctgφ,
where h is the height of the lower cylindrical ring;
φ is the angle of repose,
moreover, the lower cylindrical ring by means of a movable seal is connected to the perforated bottom and has an area-adjustable discharge windows in which the ends of the rotary working bodies are placed, having a rigid connection between themselves above the top of the cone of the perforated bottom and on the lower cylindrical ring, which is equipped with height-adjustable brackets for fastening of at least one plate with an adjustable angle of attack, and the shape of the rotary working body is made in the form of an arc of a circle with a radius of curvature R = (0.5 ... 0.8) D _n .

 In FIG. 1 shows a drying apparatus for grain materials, a side view with cuts; figure 2 - view And the discharge window of the installation; figure 3 is a view of B on the rotary working bodies and the conical perforated bottom.

 The installation consists of a cylindrical tank 1, a perforated conical bottom 2, rotary working bodies 3, a device for supplying a drying agent 4, a rotating disk 5. The lower part of the tank consists of a lower cylindrical ring 6 connected by a stationary flat perforated ring 7 with an agent collector 8 and with the upper a cylindrical ring 9 with perforation 10 around its perimeter.

 The perforated bottom 2 is made with a cone 11, the discharge windows 12, which the lower cylindrical ring 6 is equipped with, are closed by shutters 13. The upper part of the cylindrical container 14 is mounted on the installation frame with the possibility of vertical adjustable movement and is equipped with a perforated funnel 15. The upper and lower parts of the container are interfaced between moving around the perimeter. On the lower cylindrical ring 6 mounted brackets 16 for mounting plates 17 with an adjustable angle of attack. The lower cylindrical ring 6 through a movable seal (not shown) is connected to the perforated bottom 2.

The intensification of the drying process is achieved by the presence of working bodies made in the form of an arc of a circle with a radius of curvature R = (0.5 ... 0.8) D _n , the taper of the perforated bottom, the ratio of the diameters of the lower and upper cylindrical rings according to the formula D _n -D _in = 2h • ctgφ, as well as the use of plates with an adjustable angle of attack, mounted on brackets inside a cylindrical container, installation of a perforated funnel in combination with a flat perforated ring, an agent collector.

 In turn, the reduction of material injury is provided by the absence of a support roller of the working body.

 Installation works as follows. The shutters 13 block the discharge windows 12, fill the cylindrical container 1 with grain material. In this case, the drying agent is supplied, the drive (not shown) of the rotating disk with sampling is periodically turned on. Upon receipt of stable performance indicators of the installation, the drive of the rotating disk 5 with the rotary working bodies 3 is switched on in a constant mode and the area of the discharge windows 12 is controlled by the shutters 13.

 During the operation of the installation, the drying agent penetrates the space between the particles of material and removes moisture primarily from the bottom layers of the material, which are carried to the discharge windows due to the fluidization of the material, the taper of the bottom and the shape of the working bodies along the entire path of their movement. The drying agent also enters, in the process of its movement, under the flat perforated ring 7 of the lower part of the cylindrical tank 1 into the agent collector 8, from where through the perforations 10 along the perimeter of the upper cylindrical ring 9 and further along the walls of the upper part of the cylindrical container under the perforated walls of the funnel 15. Drying is performed wall layers of material, which avoids the flow of un-dried material directly to the discharge windows. This is also facilitated by the difference in the diameters of the lower and upper 7 cylindrical rings, which provides optimal drying conditions by forming an empty space with material, because the latter is filled at an angle of repose. Plates 17, mounted with an angle of attack, allow you to actively agitate the material. Depending on the physical and mechanical properties of the material, the following changes: the area of the discharge windows, the size and configuration of the rotary working bodies by replacing them, the installation height, the number of plates and their angle of attack.

 It should be noted that the sequence of the technological process of storage and drying of the material in the proposed installation may be different depending on the circumstances.

 An advantage of the invention lies in the fact that a constructive solution is found (drive the working bodies from the rotary disk, remove the material from the installation due to fluidization of the material with a drying agent, the shape of the working body and the taper of the perforated bottom, adjust the area of the discharge windows and mount the height-adjustable brackets in the cavity lower and upper cylindrical rings for installing plates with an adjustable angle of attack), which provides an intensification of the drying process by increasing the uniformity of the removal of material from idonic layers along the entire path of movement of the working bodies and the reduction of material trauma.

Claims (1)

Installation for drying grain materials containing a cylindrical container with a perforated bottom, rotary working bodies for the selection of grain material from the bottom layers, made of a beam of L-shaped cross section and a device for feeding a drying agent, characterized in that it is equipped with a rotating axially cylindrical container a disk, the perforated bottom is made conical, the cylindrical container consists of mates movably along the perimeter of the lower and upper parts, the upper part is made with the possibility of vertical of controlled movement relative to the bottom and equipped with a perforated funnel, and the lower part is made up of a lower cylindrical ring and an upper cylindrical ring with perforation around its perimeter, connected by a motionless flat perforated ring with an agent collector, the diameter of the lower cylindrical ring (D _n ) exceeds the diameter of the upper (D _c ) by the value determined by the formula
D _n -D _in = 2h • ctgφ,
where h is the height of the lower cylindrical ring;
φ is the angle of repose,
moreover, the lower cylindrical ring is fixedly connected to the rotating disk by means of a movable seal with a perforated bottom and has an area-adjustable discharge windows in which the ends of the rotary working bodies are located, having a rigid connection between themselves above the top of the cone of the perforated bottom and with a lower cylindrical ring, which is equipped with adjustable in height by brackets for attaching at least one plate with an adjustable angle of attack, and the shape of the rotary working body is made in the form of arcs a circle with a radius of curvature R = (0,5 ... 0,8) D _n.

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