RU2303217C1 - Device for drying the licorice roots and rootstocks - Google Patents

Abstract

FIELD: agriculture; drying technique used in agriculture for laying-in and the preliminary treatment of the licorice raw.

SUBSTANCE: the invention is pertaining to the drying technique and may be used in agriculture at the laying-in and the preliminary treatment of the licorice raw materials from the whole roots and the rootstocks of the bare licorice, the Ural's licorice, G.Korzhinsky's licorice, the rough licorice, the ventricose licorice. The device contains the body with the loading and unloading gears for feeding of the subjected to drying material to the opposite end sections of the body. The loading device is made in the form of the block of the in series installed rolls of the equal diameter with the arranged on them endless parallel branches of the rubberized belts and the installed under them vibrator and the collector of the mineral rubbish. The composition of the loading block in line with the production process includes the reception desk and the block of removal of the excessive moisture from the roots and the rootstocks of the licorice. The rear parts of the upper and lower frames are hinged on the common shaft of rotation. The upper and lower frames are Top and bottom cradles are additionally linked by the power hydraulic cylinder for pressing the root mass between the pairs of the rolls. The body for the subjected to drying material is supplied with the tubular electrical heaters (TEHs). The TEHs are arranged under the high-mass steel plates for the heat-mass exchange. Above the plates of the body there is the mounted conveyor with the heat-resistant continuous belt. The unloading gear is supplied with the mounted in pairs rolls for shelling the oblate and dried roots and the chute for gathering of the licorice raw. The device ensures production of the licorice raw in the form of fibers with the diameter of 0.1-1.2 mm and the length of 2-6 mm with humidity of 12-16 % with saving of the flavonoids, BAS and the glycyrrhizic acid.

EFFECT: the invention ensures production of the licorice raw in the form of fibers with the diameter below and about 1 mm and the length of 2-6 mm with humidity of 12-16 % with saving of the flavonoids, the glycyrrhizic acid, other components at the laying-in and the preliminary treatment of the licorice raw materials.

4 cl, 1 dwg

Description

The invention relates to drying equipment and can be used in agriculture for the harvesting and primary processing of licorice raw materials from whole roots and rhizomes of licorice, Ural licorice, G. Korzhinsky licorice, rough licorice and bloated licorice, which include flavonoids, glycyrrhizin and glycyrrhiza acids as a starting material for the pharmaceutical, chemical, canning, confectionery, food, tobacco, perfumery industries and a number of special industries.

The closest analogue to the functional purpose and application is a device for drying the roots and rhizomes of licorice bare, containing a rotating cylindrical body with loading and unloading devices for the material to be dried at opposite end sections, in which a rotating cylindrical body equipped with a longitudinal inclination mechanism has an installed with the possibility of transferring to the working and non-working position a high-pressure fan heater and with a flare vodom raznonaklonnye conveyors installed below the lower cut end portion of the housing, and from the charging device is mounted with the possibility of changing the position of the duct by blower pneumatically connected to the cyclone; the mechanism of the longitudinal inclination of the rotating cylindrical body equipped with a drive is made in the form of a pair of vertically and oppositely mounted four-link mechanisms, while the three links of the mechanisms are parallel and one of them, the middle link, is common and is presented in the form of a screw with left and right threads with nuts mounted on them connected by pairs of rods and hinges with brackets of the lower parallel link - the transverse beam of the frame and with brackets of the upper parallel link - the upper beam with driven support rollers kami rotating cylindrical body; the drive of the mechanism of the longitudinal inclination of the rotating cylindrical body is mounted on the free end of the screw and made in the form of a flange on the axis of the dog and placed on the shank of the screw of the chrome clutch mounted between a pair of cheeks mounted by means of sliding bearings on the said screw, while the upper part of the cheeks is associated with the base, equipped with a control lever; a rotating cylindrical body is made of a large cylindrical pipe with support rings at the end sections; each support ring at the end portion of the cylindrical body is fixed by differently oriented wedges; the outer surface of the pipe is covered with insulating material; the joint between the pipe on the side of the loading device and the duct is sealed with a hollow ring of rubberized material, while the ring is placed on the end of the pipe; the duct has a U-shape and is coupled to the suction fan by means of a ring mounted vertically in the guides, while the plane of the ring is aligned with the plane of the pipe end face of the cylindrical body, and a lever with a counterweight is mounted on the ring at the diametrically opposite end of the duct; guide rings mounted on the base of the fan and cyclone; a fan heater with a drive is mounted on a moving frame and by means of rolling bearings mounted on the longitudinal beams of the frame of a rotating cylindrical body; the pressure socket of the high-pressure fan heater is paired with the inner cavity of the pipe of the rotating cylindrical body, and the interface is sealed by covering the perimeter of the cut of the pressure socket with a hollow ring of rubberized material; the lower cut of the end face of the rotating cylindrical body is mounted above the lower end of the inclined conveyor; a technological gap has been made between the inclined conveyors; the rotating cylindrical body is equipped with a drive mounted under the body on the frame in the form of an electric motor, a cylindrical gearbox, a V-belt variator, a leading support roller and driven support rollers; the V-belt variator of the support roller drive has a driving and driven pulleys and an endless V-belt; each variator pulley contains conical disks identical in design, mounted on the shaft in mirror image by means of prismatic keys, while the disk moving along the shaft is interfaced with a disk spring package and a shaped nut abutting in the threaded part of the shaft at the end of the hub of the said disk; extreme lower and intermediate positions of the mechanism of the longitudinal inclination of the rotating cylindrical body are limited by stops (RU, patent No. 2168684. C1. IPC ⁷ F26V 11/04. Device for drying the roots and rhizomes of licorice naked "Glycyrrhiza glabra L." / N.A. Galda, A.V. Galda, A.P. Sokolov, N.A. Sokolov, G.V. Shamiryan, A.M. Saldaev (RU) - Application No.2000104396 / 06; Declared 02.22.2000; Publish. 10.06 2001, Bull. No. 16).

The disadvantages of the described device for drying the roots and rhizomes of licorice include high energy consumption for drying the root mass and low productivity.

The essence of the claimed invention

The problem to which the claimed invention is directed is to reduce the period between extracting licorice roots and rhizomes to the surface and obtaining licorice from 90 ... 120 days to 4-5 days while preserving flavonoids and glycyrrhizic and glycyrrhetic acids in it.

The technical result is a reduction in energy consumption for drying the root mass and increased productivity.

The specified technical result is achieved by the fact that in the known device for drying the roots and rhizomes of licorice containing a housing with loading and unloading devices for feeding the dried material to opposite end sections of the housing, according to the invention, the loading device is made in the form of a block of sequentially installed rollers of equal diameter equipped with a drive with endless parallel rubberized belts placed on them and a vibrator and a collection of mineral rubbish installed under them as well as plant impurities and a receiving table and a unit for removing excess moisture from licorice roots and rhizomes installed during the process, the case for the material to be dried is equipped with tubular electric heaters placed under massive steel plates, and a conveyor with drive heat-resistant endless web, and the unloading device installed behind the housing is equipped with pairwise mounted rollers for collapse flattened x licorice roots and rhizomes, a tray for collecting and unloading with the auger the torn licorice root mass; the unit for removing excess moisture from the roots and rhizomes of licorice is equipped with a tray for collecting juice and drive rollers mounted on the upper and lower frames above the tray, the rear parts of the upper and lower frames are connected by hinges on a common axis of rotation and are additionally connected by a power hydraulic cylinder to flatten the root mass between pairs rollers mounted on the upper frame, the receiving roller is mounted above the receiving table and connected to the upper frame by means of spring-loaded leashes; the axis of rotation of the drive roller of the conveyor with a heat-resistant endless web is combined with the axis of the hinges connecting the upper and lower frames of the block to remove excess moisture from the roots and rhizomes of licorice; a conveyor with a heat-resistant endless web is equipped with the ability to move into a non-working position above the steel plates of the body for the material to be dried.

The invention is illustrated in the drawing, which schematically shows a device for drying the roots and rhizomes of licorice as licorice.

A device for drying the roots and rhizomes of licorice contains a housing 1 with loading and unloading devices for supplying dried material at opposite ends of the housing 1.

The housing 1 for the material to be dried is equipped with tubular electric heaters 2 (heating elements) for connection to an electric network with a voltage of 220 V and a frequency of 50 Hz. The power of each heater is 1.6 kW ± 0.1 kW. Case length 1-8 m. Case width 1-1200 mm. The installed capacity of the heating elements is 32 kW. Heating elements 2 are placed under massive steel plates 3 32 mm thick. The number of plates is 3-4 pieces. Plate size 3: 1200 × 2000 mm. The housing 1 has thermal insulation, with the exception of the working surface. A conveyor 4 is installed above the plates 3 of the housing 1. The conveyor 4 has a drive roller 5, a driven roller 6 with a tensioner and a heat-resistant endless web 7. The drive roller 5 is kinematically connected with an electromechanical drive - a gear motor. Its 1.1 kW electric motor is connected to an industrial 380 V power supply network through a private converter, which allows the speed of the web 7 to be changed steplessly from 0 to 2.0 m / s. The conveyor 4 with a heat-resistant endless web 7 is installed with the possibility of transfer to the inoperative position above the steel plates 3 of the housing 1 for the material to be dried.

The unloading device is installed behind the housing 1. The unloading device is equipped with pairwise installed rollers 8, 9, 10 and 11 for crushing the flattened and dried roots and rhizomes of licorice, a tray 12 for collecting and unloading with the screw 13 of the crushed licorice root mass. Rolls 8, 9, 10 and 11 are made corrugated with a height of corrugations 11, 7, 5 and 3 mm. The gap between the rollers 8, 9, 10 and 11 decreases in the direction of supply of the licorice root mass. Each pair of corrugated rolls 8, 9, 10 and 11 has its own electromechanical drive. The peripheral speed of the rolls 8, 9, 10 and 11 is 2, 3, 4 and 6 m / s, respectively. The pairs of rolls 8, 9, 10 and 11 have individual mechanisms for changing the gap between the corrugations of the rolls 8, 9, 10 and 11.

The loading device is made in the form of a unit equipped with a drive, sequentially installed rollers 14. The rollers 14 in the described block are kinematically linked by drive sleeve-roller chains on sprockets of the same step. Rollers 14 have an identical design of equal diameter. The length of the rollers is 14-1200 mm. On rollers 14 with a pitch of 100 mm, six rubberized belts 15 parallel with endless branches 15 are 6 ... 8 mm thick and 100 mm wide. One of the extreme rollers 14 is equipped with a tension device. Under the rollers 14, a vibrator 16 and a collection 17 of mineral litter and plant impurities are installed. During the process, behind the rollers 14 of the described block, a receiving table 18 and block 19 are installed to remove excess moisture from the roots and rhizomes of licorice.

The block 19 for removing excess moisture from the roots and rhizomes of licorice by passing through several pairs of rollers with decreasing fences between them in the supply direction is equipped with a tray 20 for collecting juice and drive rollers 23, 24, 25, mounted on the upper 21 and lower 22 frames above the tray 20, 26, 27 and 28. The rear parts of the upper 21 and lower 22 frames are connected by hinges 29 on a common axis of rotation 30. The upper frame 21 and the lower frame 22 are additionally connected by a power hydraulic cylinder 31 for flattening the root mass of licorice between the pairs of rollers 23 and 26, 24 and 27, 25 and 28. A receiving roller 32 is installed on the upper frame 21. The roller 32 is located above the receiving table 18. C the upper frame 21, the roller 32 is connected by means of spring-loaded leashes 33. The rollers 32, 23, 24 and 25 are kinematically connected by chain contours and have their own drive. Rollers 26, 27 and 28 also have an individual drive, and the extreme rollers 26 and 28 with the middle roller 27 are connected by closed chain contours.

The axis of rotation of the drive roller 5 of the conveyor 4 with a heat-resistant endless web 7 is aligned with the axis of rotation 30 of the hinges 29 of the connection of the upper 21 and lower 22 frames of the block 19 to remove excess moisture from the roots and rhizomes of licorice. This makes it possible, when the upper frame 21 is raised by the power hydraulic cylinder 31, to dry whole roots when the efficiency of block 19 is established in the technological chain of the device for drying the roots and rhizomes of licorice.

A device for drying the roots and rhizomes of licorice works as follows.

Freshly obtained licorice roots and rhizomes are transported to vehicles at the pick-up point. After weighing and establishing by express methods the moisture content of the roots and rhizomes of licorice separately, the raw materials are sent to the drive from the collection point. From the drive, the root mass of licorice is stacked in portions on rollers 14 of the loading device block. The roots and rhizomes are distributed evenly on the surfaces of the frame 15 and include a vibrator 16. When the bed and rollers 14 vibrate, mineral debris and plant impurities are separated from the root mass. The latter fall into the collection 17 and must be disposed of. Next, the drive of the rollers 15 is turned on and the mass is directed to the surface of the receiving table 18. From the receiving table 18, the rollers 32 send the roots and rhizomes to the first pair of rollers 23 and 26. The roots and rhizomes undergo radial compressive forces with them. The roots are flattened. Cork and bast layers are destroyed. Next, the mass is sent to the second pair of rollers 24 and 27. The layer deforms with greater force by them. Each rhizome and root takes the form of a strip. The final compression of the root mass occurs on the last pair of rollers 25 and 28. Three consecutively installed pairs of rollers 23 and 26, 24 and 27, 25 and 28 reduce the moisture content of the roots and rhizomes of licorice from 43-63% to 18 ... 24%. Squeezed juice from the root mass of licorice enters the tray 20 and is the raw material for extraction in order to obtain a dry and thick extract.

Flattened roots and rhizomes are fed by the last pair of block 19 to the surface of the plates 3 of the housing 1. The heating elements 2 automatically maintain the temperature of the steel plates 3. The length of the plates 3 is continuously monitored. Canvas 7 of the conveyor 4, the root mass is sent to the unloading device installed behind the housing 1 as the humidity decreases. With rollers 8, 9, 10 and 11, the dry root mass of licorice collapses under the influence of varying corrugations. When exposed to corrugations of rolls 8-11, the lignified mass exfoliates into filamentary fibers with a diameter of 0.1 to 1.2 mm. Fiber length 2-6 mm. The moisture content of the raw materials is 12-16%. This complies with Russian standards. The resulting mass by screw 13 from the tray 12 is packaged in moisture-proof barrels of 200 l each. The cover is tightly installed and sealed. The shelf life of raw materials is 10-14 years with the preservation of flavonoids, biologically active substances and glycyrrhizic acid. The described process reduces energy consumption by 40-60% compared with the analogue. The device is equipped with a control panel and, together with devices, allows you to automate the drying, control and grinding processes.

Claims (4)

1. A device for drying the roots and rhizomes of licorice, comprising a housing with loading and unloading devices for supplying dried material to opposite end sections of the housing, characterized in that the loading device is made in the form of a unit equipped with a drive of sequentially installed rollers of equal diameter with infinite placed on them parallel rubberized belts, and a vibrator and a collection of mineral debris and vegetable impurities installed under them, and installed along with them of the technological process behind the rollers, the receiving table and the unit for removing excess moisture from the roots and rhizomes of licorice, the housing for the material to be dried is equipped with tubular electric heaters placed under massive steel plates, and mounted above the plates, equipped with a conveyor drive with a heat-resistant endless web, and the unloading device, installed behind the case, equipped with pairwise installed rolls for collapsing the flattened roots and rhizomes of licorice, a tray for collecting and unloading with a screw about the disrupted root mass of licorice. 2. The device according to claim 1, characterized in that the unit for removing excess moisture from the roots and rhizomes of licorice is equipped with a tray for collecting juice with drive rollers mounted on the upper and lower frames above the tray, the rear parts of the upper and lower frames are hinged on a common axis rotation and are additionally connected by a power hydraulic cylinder to flatten the root mass between the pairs of rollers, while the receiving roller mounted on the upper frame is mounted above the receiving table and connected to the upper frame by means of spring-loaded leashes. 3. The device according to claim 1, characterized in that the axis of rotation of the drive roller of the conveyor with a heat-resistant endless web is aligned with the axis of the hinges of the connection of the upper and lower frames of the block to remove excess moisture from the roots and rhizomes of licorice. 4. The device according to claim 1, characterized in that the conveyor with a heat-resistant endless web is installed with the possibility of translation in a non-working position above the steel plates of the housing for the material to be dried.