RU2732418C1 - Multiple-section convection drier with waste agent recirculation system - Google Patents

Abstract

FIELD: technological processes.SUBSTANCE: invention relates to drying devices, in particular, to drying of small-lump materials, and can be used for drying of wood chips, shavings, granulated or chopped wastes of thermoplastics and other similar materials. Multi-section convection drier with waste agent recirculation system comprises vertical shaft with loading hopper and unloading device, divided into sections containing supply and discharge headers and inclined mesh shelves, wherein inclined mesh shelves are fixed on section walls, in first, second and third sections moisture sensors are installed, in overflow holes between sections at outlet of loading hopper and at outlet of last section there are chock flaps, loading hopper is located on housing of upper section of dryer, inclined mesh shelves are made at angle of 20°, in each section there are temperature sensors and level sensors, damper valves are located between sections at the base of mesh shelves, housing of drier is lined with heat-insulating layer, made in form of glass wool, supplying headers with cooling agent are installed in the second and fourth sections, on housing of upper section there is a temperature sensor, drying air system is presented in form of two pressure fans, two supply and one discharge air ducts, wherein supply and discharge air ducts are made with gate valves, system of spent agent recirculation represents a discharge air duct connecting discharge headers with supply head.EFFECT: improvement of qualitative parameters of the dried material and energy characteristics of the dryer.1 cl, 1 dwg

Description

The invention relates to dryers, in particular to a technique for drying small-size materials and can be used for drying wood chips, sawdust, granulated or chopped waste of thermoplastics and other similar materials.

Known dryer, consisting of a vertical shaft of rectangular cross-section with a loading hopper and a discharge device, divided into sections with inclined prefabricated mesh shelves; the sections contain outlet and inlet manifolds, are isolated from each other by a drying agent, and are interconnected by transfer pipes; the shelves consist of upper and lower parts, connected with each other by means of rollers, and the lower part is connected to the inner wall of the shaft by a hinge located at the points of connection of the transfer pipes, and the upper part is fixed to the section wall using a rack mechanism located on the inner side of each section and driven by an electric motor installed on the outside of the mine (RF patent No. 2287751, publ. 20.11.2006).

Also known is a convective dryer containing a vertical rectangular shaft with a loading hopper and an unloading device, divided into sections containing inlet and outlet collectors and inclined mesh shelves, while the inclined mesh shelves are fixed by means of flexible webs on the walls of the sections and on horizontal partitions that form together with a lower inclined wall of a section having holes, a box for draining the spent drying agent is equipped with a forced vibration mechanism made in the form of a vertical rod, rigidly connected to each inclined mesh shelf and to each horizontal partition by means of a guide with the ability to move in it, reinforced by its upper the end on a horizontal platform installed on a spring support and containing a vibrator fixed on it, and the pouring holes are made in the form of slots formed by the visor of the lower inclined wall and the lower end of the mesh inclined shelf, when this overhead strips for flexible canvases made of heat-resistant material are fixed on mesh shelves, section walls and horizontal partitions with rivets and an unbalanced electromechanical vibrator is used as a source of forced vibrations of the rod; additionally, inlet collectors with a cooling agent are installed in the second and third sections, and in the first, second and third sections, moisture sensors are installed, while a grain level sensor is installed in the first section; in the fourth section, the supply manifold is made with a cooling agent; slide gates are installed in the overflow holes between the sections at the outlet of the loading hopper and at the outlet of the last section (RF patent No: 175075 publ. 11/17/2017).

For the prototype, a convective dryer was chosen containing a vertical shaft with a loading hopper and an unloading device, divided into sections containing inlet and outlet collectors and inclined mesh shelves, while inclined mesh shelves are fixed by means of flexible webs on the walls of the sections, having horizontal partitions, equipped with a mechanism for forced vibrations, while overhead strips for flexible sheets, made of heat-resistant material, are fixed on mesh shelves, section walls with rivets, additionally in the second and third sections, supply headers with a cooling agent are installed, and moisture sensors are installed in the first, second and third sections , at the same time, a grain level sensor is installed in the first section; in the fourth section, the supply manifold is made with a cooling agent; gate valves are installed in the overflow holes between the sections at the outlet of the loading bunker and at the outlet of the last section, the vertical shaft is made with a circular cross-section, the loading branch pipe is located along the axis of the bunker, inclined mesh shelves are made of a conical shape, located along the axis of the bunker and are attached using fasteners to the walls bunker, instead of an unbalanced electromechanical vibrator, vibrators are used as a source of forced vibrations, which are fixed on the walls of the bunker from the outside at the attachment points of inclined mesh shelves (RF patent No: 187354 publ. 01.03.2019).

The disadvantages of these dryers are: the lack of a system for recirculation of the spent drying agent, as well as the unevenness of the grain layer poured into the grain dryer section, the unevenness of the dried layer and, as a result, overheating of the grain material.

The task is to modernize the design of the convection dryer, increasing the productivity of the unit and the quality of the dried material.

The technical result is to improve the quality parameters of the dried material and the energy characteristics of the dryer.

The technical result is achieved by a multi-section convective dryer with a waste agent recirculation system containing a vertical shaft with a loading hopper and an unloading device, divided into sections containing inlet and outlet collectors and inclined mesh shelves, while inclined mesh shelves are fixed on the walls of the sections, in the first, second and the third sections are equipped with moisture sensors, in the overflow holes between the sections, at the outlet of the loading hopper and at the outlet of the last section, slide gates are installed, the loading hopper is located on the body of the upper section of the dryer, inclined mesh shelves are made at an angle of 20 °, temperature sensors are installed in each section and level sensors, slide gates are located between the sections at the base of the mesh shelves, the dryer body is lined with a heat-insulating layer made in the form of glass wool, supply collectors with a cooling agent are installed in the second and fourth sections, on the upper section body There is a temperature sensor, the drying air system is presented in the form of two supply fans, two supply and one exhaust air ducts, while the supply and discharge air ducts are made with slide dampers, the waste agent recirculation system is a discharge air duct connecting the discharge manifolds with the supply.

The essential features of the invention that affect the achievement of the proposed technical solution are:

- changing the location of the loading pipe;

- changing the location of inclined mesh shelves;

- installation of temperature sensors in each section of the dryer to control the heating and cooling temperature of grain material;

- introduction of level sensors into the second, third and fourth sections to control the grain level in the sections;

- introduction of a heat-insulating layer of the dryer body to reduce heat losses;

- installation of supply headers with a cooling agent in the second and fourth sections;

- installation of a temperature sensor on the body of the upper section, necessary to monitor the dynamics of changes in the ambient air temperature;

- introduction of an air system necessary for drying and cooling the material to be dried;

- introduction of a spent agent recirculation system that allows reuse of the spent drying agent.

A multi-section convective dryer with a waste agent recirculation system consists of a shaft 1, a loading hopper 2, an unloading device 3, sections 4, 5, 6, 7, 8 inlet collectors, 9 outlet collectors, 10 inclined mesh shelves, 11 moisture sensors, 12 slide gates , 20, temperature sensors 13, level sensors 14, heat-insulating layer 15, drying blowing fan 16, cooling blowing fan 17, supply ducts 18, exhaust duct 19.

Grain with initial moisture enters the hopper 2, and then into the first section 4. In the first section, a level sensor 14 is installed, which makes it possible to regulate the amount and, accordingly, dose the incoming grain. Installed humidity and temperature sensors 13 allow drying in the required mode in the first section 4. Grain falls on the inclined mesh shelves 10. Slide gates 12 are installed between the sections, which allow to delay and dose the dried grain. The drying agent supplied by the drying fan 16 enters the sections through the supply air duct 18. The supply of the drying agent is regulated by slide valves 20 installed in the supply manifolds 8. The spent drying agent is fed through the outlet collectors 9 and the air line 19 either for reuse or removed from drying process. Thermal insulation layer 15 minimizes heat loss during grain drying.

The supply manifolds 8 available in the second section (5) allow operating in two modes - either drying or cooling. In the second section 5, sensors for grain level 14, humidity 11 and temperature 13 are also installed. These sensors allow you to control the process of drying grain in each section and adjust the drying parameters.

In the third section 6, the grain is only dried, regardless of the selected operating mode of the dryer.

In the fourth section 7, instead of a drying agent, a cooling agent is supplied, blown in by a fan 17, that is, blown with ordinary air. There is only cooling of the grain, controlled by the temperature sensor 14. Grain, the temperature of which does not coincide with the temperature of the air, when leaving the dryer can quickly absorb moisture. Then the dried chilled grain is fed through the unloading device 3 for further storage or processing.

Thus, the claimed constructive implementation of a multi-section convective dryer with a waste agent recirculation system provides an improvement in the quality parameters of the dried material and the energy characteristics of the dryer.

Claims (1)

Multi-section convective dryer with a waste agent recirculation system, containing a vertical shaft with a loading hopper and an unloading device, divided into sections containing inlet and outlet headers and inclined mesh shelves, while inclined mesh shelves are fixed on the walls of the sections, in the first, second and third sections moisture sensors are installed, in the overflow holes between the sections, at the outlet of the loading hopper and at the outlet of the last section, slide gates are installed, characterized in that the loading hopper is located on the body of the upper section of the dryer, inclined mesh shelves are made at an angle of 20 °, sensors are installed in each section temperature and level sensors, slide gates are located between the sections at the base of the mesh shelves, the body of the dryer is lined with a heat-insulating layer made in the form of glass wool, the supply collectors with a cooling agent are installed in the second and fourth sections, on the body of the upper section is located n temperature sensor, the drying air system is presented in the form of two supply fans, two supply and one discharge air ducts, while the supply and discharge air ducts are made with slide dampers, the waste agent recirculation system is a discharge air duct connecting the discharge manifolds with the supply.

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