RU15622U1 - MICROWAVE DRYER (OPTIONS) - Google Patents

Abstract

1. A microwave dryer containing a group of microwave generators with matching elements and power sources, a rotating drum for the product to be dried, a drive, an air duct and holes for loading and unloading the product equipped with microwave protection means, characterized in that the drum is made in the form of a hollow cylinder or a polyhedron consisting of a moving generatrix and fixed bases that are opaque to microwave radiation, the drive and the bases are mounted on a carrier platform, the generatrix is connected with with iodine, openings for loading and unloading the product are made on opposite bases, microwave generators and their power sources are placed in a magnetron block made in the form of a chamber installed in the drum cavity and connected with the air duct, ventilation holes are made in the chamber walls, and along the perimeter of the bases microwave throttle blocked. 2. A microwave dryer containing a group of microwave generators with matching elements and power sources, a rotating drum for the product to be dried, a drive, an air duct and holes for loading and unloading the product equipped with microwave protection means, characterized in that the drum is made in the form of a hollow cylinder or a polyhedron consisting of an opaque for microwave radiation movable generatrix and fixed bases, the drive and the base are mounted on a supporting platform, the generatrix is connected with Odom, the opening for loading and unloading of the product made on the opposite grounds, microwave generators and power supplies placed in a magnetron

Description

MICROWAVE DRYER

/ OPTIONS /

The proposed utility model relates to the technique of microwave heat treatment of various products and materials and can be used in the chemical and food industries, as well as in agriculture, for example, for heating and drying predominantly granular products

A well-known means of increasing the efficiency of the heating and drying processes of various products and materials is the use of convection microwave devices and installations in which the processed product is exposed to microwave (microwave) radiation and hot air blowing at the same time. Such devices are known, for example, in patent documents 1, 2, 3

A characteristic feature of convection-microwave drying plants, due to the requirement for the effective use of the interaction of the dried product with microwave radiation and air flow, is the presence in their structures of special means for mixing or repeated turning of the dried product during its processing. The most frequently used means of solving this problem is the use of gravity, in connection with which one of the main elements of convection o-microwave dryers - heating chamber - typically performed in a rotary drum, wherein

the processed product is placed. Such devices include, for example, a drying unit 4 or microwave dryers 5, 6. Since the last dryer in its design features is most fully consistent with the proposed utility model, it is taken as its prototype.

The dryer prototype 6 contains a working heating chamber, which is made in the form of a rotating drum mounted in a stationary housing made of radiolucent material, inside which special blades are articulated for turning the material to be dried. In the upper part of the housing above the drum, waveguides are installed through which microwave radiation is introduced into the housing from those installed outside the housing

microwave generators. An air duct is installed on the side walls of the casing for supplying a stream of hot air into the casing and an air duct for venting steam. Also, openings for loading and unloading of the dried product are made in the side walls of the casing, which are closed by microwave sealing caps;

The installation of the prototype is carried out in intermittent mode, having three phases: loading the product, its drying and unloading of the product. Accordingly, microwave generators operate in intermittent mode only during the drying phase of the product. The processed product is placed in a rotating drum, occupying the lower half of its volume. In the process, the drum rotates, and the product is poured inside it and additionally mixed with special blades inside the drum. During the rotation of the drum, the product is subjected to microwave irradiation from emitters placed above the drum and associated with microwave generators of microwave radiation. At the same time, hot air is blown into the dryer body through the duct. As a result, the processed product located in the heating chamber is heated by the energy of microwave radiation released in it and as a result of blowing it with hot air.

Installation-prototype provides a sufficiently high quality drying product. However, it has a relatively low profitability. The presence of this drawback is due to the intermittent mode of operation of the installation, as well as the fact that air requires the use of a separate heat source, while the heat generated by the working microwave generators is uselessly lost. In addition, upon delivery of hot 2

air from the place of its heating to the processed product, heat losses on the walls of the duct are inevitable.

The technical problem to which the proposed options of the utility model are directed is to increase the efficiency of the microwave dryer.

The essence of the first variant of the proposed utility model is that in the known microwave dryer containing a group of microwave generators with matching elements and power sources, a rotating drum for the product to be dried, a drive, an air duct and holes for loading and unloading the product equipped with microwave sealing means, according to this proposal the drum is made in the form of a hollow cylinder or a polyhedron, consisting of a movable generator, opaque to microwave radiation, and motionless x bases, the drive and the bases are mounted on a carrier platform, the generatrix is connected to the drive, the holes for loading and unloading the product are made on opposite bases, the microwave generators and their power sources are placed in the magnetron block, made in the form of a camera mounted in the drum cavity and connected with an air duct, ventilation holes are made in the walls of the chamber, and a throttle blocking of microwave radiation is made along the perimeter of the bases.

The essence of the second embodiment of the proposed utility model is that in the known microwave dryer containing a group of microwave generators with matching elements and power sources, a rotating drum for the product to be dried, a drive, an air duct and holes for loading and unloading the product equipped with microwave sealing means, according to this proposal, the drum is made in the form of a hollow cylinder or a polyhedron, consisting of a moving generator that is opaque to microwave radiation fixed bases, the drive and the bases are mounted on the supporting platform, the generatrix is connected to the drive, the holes for loading and unloading the product are made on opposite bases, the microwave generators and their power sources are placed in the magnetron block, made in the form of one or two installed outside the drum from the side its base chambers connected with the duct on one side and open into the cavity of the drum with the opposite

hand, while on the perimeter of the bases made a throttle blocking of microwave radiation.

Thanks to the introduced new set of features, the drying process is continuous, the heat generated by the working microwave generators is utilized, and the length of the path for transporting hot air from the place of its heating to the product to be dried is reduced. This increases the efficiency of the dryer, as well as its performance.

In the particular case of the implementation of any of the proposed utility model, the supporting platform is made with a tilt angle that is variable relative to the horizon. Due to this, the volume of the product in the drum can be regulated during its continuous entry into the drum through the loading hole. This creates the conditions for optimal loading of the drum depending on the type of product and the required mode of its heat treatment. As a result, the efficiency of the dryer is further increased due to the exclusion of unproductive losses of microwave energy that occur when the drum load is low.

In another particular case of the implementation of any of the proposed utility model generators associated with the drive through the friction mechanism, containing at least one mounted on the axis of the drive friction roller and mounted on the generatrix of the outer rim. Such a particular form of realization of the connection of the drum with the drive minimizes heat loss due to spurious thermal contacts of the drum with dryer elements that are not functionally related to heat circulation processes. This further improves the efficiency of the dryer.

The essence of the proposed utility model is illustrated by the drawings shown in FIG. 1 and FIG. 2.

In FIG. 1 shows in three projections a dryer in an embodiment of its implementation with a magnetron unit installed inside the dryer drum.

In FIG. 2 shows in two projections a dryer in an embodiment of its implementation with a magnetron block mounted outside the dryer drum. 4

the side surface (forming) 2 and the fixed bases 3 and 4. And the side surface 2 and the bases 3 and 4 of the drum 1 are made of materials opaque to microwave radiation. Moreover, these elements can be made of different materials. For example, the side surface 2 can be made of a metal sheet with holes or of a fine-mesh metal mesh, and the bases 3 and 4 can be made of a continuous metal material, and a microwave throttle blocking 5 is made along the perimeter of each of the bases 3 and 4. The movable side surface 2 is connected to the electromechanical drive 6. In the particular case of implementing any of the proposed dryer options, the side surface 2 is connected to the drive 6 through a friction mechanism containing friction rollers 7 mounted on the axis of the drive 6 and mounted on the side surface 2 of the rim 8. At the base 3, a hole 9 is made for loading the dried product, and in the base 4, a hole 10 for unloading the dry product. The holes 9 and 10 are equipped with means for sealing microwave radiation of any known type, for example, made in the form of transcendental waveguides (shown in figures 1 and 2). Microwave generators and their power sources are located in the magnetron block 11. In the first embodiment of the dryer, the magnetron block 11 is installed in the cavity of the drum 1 on the beam 12 connecting the stationary bases 3 and 4, and connected to the external duct 13 (Fig. 1) . At the same time, ventilation holes are made in the walls of the magnetron block 11 (not shown in FIG. 1). In the second embodiment of the dryer, the magnetron block 11 is installed outside the drum 1 at one of the bases 3 or 4 or, when the magnetron block is made up of two chambers, at both bases 3 and 4 (this embodiment is shown in figure 2) and is connected to the duct 13 on one side and is open in the cavity of the drum 1 on the opposite side.

In the particular case of implementing any of the variants of the proposed dryer, the drum 1 is mounted on the platform 14 with a tilt angle that is variable relative to the horizon.

The work of the proposed dryer in any of the options for its implementation is as follows. When the dryer is turned on, the drive 6 starts to work. The rotation of the drive axis through the friction rollers 7 associated with the rims 8 is transmitted to the side surface 2 of the drum 1. Simultaneously with the start of the drive 6, the block of microwave generators 5 starts to work

11, and a cooling air installed in the magnetron unit 11 microwave air generators is supplied to the duct 13.

The processed product continuously entering the drum through the opening 9 is subjected to microwave irradiation. In this case, the product heats up, resulting in intense steam generation. At the same time, the air entering the duct 13 is heated by the heat generated by the microwave generators and their power sources. Next, hot air through the ventilation holes in the magnetron block enters the cavity of the drum 1, providing additional heating and convection drying of the processed product. Since air is heated either inside the drum 1, and for this, heat (in one embodiment) emitted by microwave generators in the magnetron block 11 is used, or in its immediate vicinity (in another embodiment) and heat loss during transportation of hot air from its place heating to the processed product is completely eliminated, the efficiency of the dryer increases. During the operation of the dryer, the drum rotates continuously, and the product contained in it is subjected to mixing, including due to the blades installed in the cavity of the drum. As the drum rotates, the product to be dried gradually moves to the outlet 10, through which it is continuously discharged from the drum.

Steam and exhaust air released from the product are removed from the cavity of the drum 1 through mesh cells or perforations in the side surface of the drum. Due to the execution of the side surface of the drum made of metal, the throttle lock 5 around the perimeter of the fixed bases 3 and 4, as well as the presence of microwave sealing means for the loading hole 9 and the product opening 10 for unloading, microwave radiation is excluded from the cavity of the drum 1.

In the particular case of the implementation of the invention, the drying of the processed product is carried out when installing the platform 14 at a certain angle to the horizontal. For example, when drying bulk and granular products, the level of rise of the hole 10 is set above the level of the hole 9. This contributes to the accumulation of the product in the drum and, as a result, reduces the share of unproductive losses of microwave energy in metal parts inside the drum. As a result, the efficiency of the dryer is further enhanced. 6

SOURCES OF INFORMATION

1. RF patent, cl. H 05 B 11/00 No. 2 035 844,

2. RF patent, cl. H 05 B 6/64 No. 2 050 704.

3. RF patent, cl. F 26 B 3/347 No. 2 094 716.

4. Japanese application, cl. F 26 B 20/00, 23/08 No. 5 - 51839.

5.US Patent, CL F 26 V 3/34, H 05 V 6/64 No. 5 463 821.

6. RF patent, cl. F 26 B 11/04 No. 2 109 232 (prototype).

Claims (4)

1. A microwave dryer containing a group of microwave generators with matching elements and power sources, a rotating drum for the product to be dried, a drive, an air duct and holes for loading and unloading the product equipped with microwave protection means, characterized in that the drum is made in the form of a hollow cylinder or a polyhedron consisting of a moving generatrix and fixed bases that are opaque to microwave radiation, the drive and the bases are mounted on a carrier platform, the generatrix is connected with with iodine, openings for loading and unloading the product are made on opposite bases, microwave generators and their power sources are placed in a magnetron block made in the form of a chamber installed in the drum cavity and connected with the air duct, ventilation holes are made in the chamber walls, and along the perimeter of the bases microwave throttle interlock performed.  2. A microwave dryer containing a group of microwave generators with matching elements and power sources, a rotating drum for the product to be dried, a drive, an air duct and holes for loading and unloading the product equipped with microwave protection means, characterized in that the drum is made in the form of a hollow cylinder or a polyhedron consisting of a moving generatrix and fixed bases that are opaque to microwave radiation, the drive and the bases are mounted on a carrier platform, the generatrix is connected with with iodine, openings for loading and unloading the product are made on opposite bases, microwave generators and their power sources are placed in a magnetron block made in the form of one or two chambers installed outside the drum from the side of its bases, connected to the air duct on one side and open into the cavity the drum on the opposite side, while along the perimeter of the bases a throttle blocking of microwave radiation is performed.  3. The dryer according to claim 1 or 2, characterized in that the supporting platform is made with a tilt angle that is variable relative to the horizon. 4. The dryer according to claim 1 or 2, characterized in that the generatrix is connected to the drive through a friction mechanism, comprising at least one friction roller mounted on the axis of the drive and mounted on the outer rim of the generator.