RU198401U1 - DEVICE FOR DRYING SEEDS - Google Patents

Abstract

The utility model relates to equipment for processing agricultural raw materials, namely, devices for radiation drying by infrared rays of a moving conveyor belt of a layer of raw materials at atmospheric pressure and can be used in the production of elite seed material of cereals and other agricultural crops, for drying the testes of medicinal herbs and essential oil plants for the purpose of The device for drying seeds contains belt conveyors in the form of a tray with a transporting Teflon belt resting on it, carrying a layer of seeds, above which tubular infrared emitters equipped with reflectors are distributed, and a means of transferring dried seeds to the belt below the conveyor. In addition, the device contains a means for moving the drying seeds from the last conveyor in the drying technological line to the first upper conveyor - the beginning of the drying technological line, which includes a bucket elevator, a loading hopper with a seed moisture sensor, a seed distribution mechanism consisting of a seed hopper and a seed supply outlet a branch pipe, movably connected to the neck of the storage funnel by the upper opening with the possibility of making the lower opening located above the conveyor belt, arcuate movements by means of the rod of the linear electric motor, while the elevator buckets have the ability to capture seeds from the hopper for transporting them to the storage funnel and unloading into it seeds, and the means for transferring drying seeds onto the belt below the conveyor located below is made in the form of a curved sheet with ribs on the surface. The technical and economic advantages of the device are that the improvement made provides Controlled high quality of drying of seed material of grain and other agricultural crops due to the circular trajectory of drying seeds under IR radiation, their active mixing with elevator buckets and instrument control of humidity.

Description

The utility model relates to equipment for processing agricultural raw materials, namely, devices for radiation drying by infrared rays of a moving conveyor belt layer of raw materials at atmospheric pressure.

The device can be used in the production of elite seed material of cereals and other agricultural crops, for drying testes of medicinal herbs and essential oil plants in order to ensure high quality and preservation, namely, to maintain high and uniform germination of the entire array of seeds and the stability of their biological properties, provided there is no spoilage, damage by microorganisms and fungus.

The closest in technical and technological essence, and adopted as a prototype, is a device for infrared drying of seeds (patent RU No. 2453782 C2, F26B 9/06, F26B 3/30, publ. 20.06.2012, bull. No. 17), containing established infrared tube emitters with a ceramic functional shell and an electrically heated spiral inside that are distributed on the dielectric supports of the frame above the trays carrying the seed layer, means for transferring the treated seeds to the descending tier tray and a fan, closed by a thermally insulated casing, infrared emitters with a wavelength 1.5-3.0 μm are distributed along the tray, the bottom of which is made in the form of a Teflon tape of an endless conveyor with a step equal to 1.1-1.3 of the distance to the layer of sunflower seeds on a tape 2-3 cm high, and the overload means, representing a bunker equipped with a slide gate of the outlet window is installed between the tiers in a checkerboard pattern at the opposite ends of their trunks ansportors. In addition, the angle of conical narrowing of the overload hopper exceeds the angle of repose of the bulk material.

The prototype dryer has the following disadvantages. In this device, the drying of sunflower seeds is carried out by the influence of IR radiation on a layer of seeds moving on several horizontal belt conveyors that are cascaded under each other. Seeds for drying through the hopper are loaded onto the first upper conveyor and moved with a tape under the IR emitters, go through the first stage of drying. When they reach the end of the conveyor, the seeds, under their own weight, are poured into the overload hopper for dosed feeding of seeds with a layer of 2-3 cm high onto the moving belt of the next lower conveyor, however this method of overloading does not provide sufficient mixing of the seed mass. The overload hopper is a rectangular box with an inclined wall, a through hole at the bottom, with which it is leaned against the surface of the conveying Teflon tape. At the bottom of the box, on the wall on the side of the conveyor belt, there is an exit window for seeds equipped with a slide gate, which is designed to adjust the height of the sunflower seed layer on the conveyor belt within 2-3 cm. Removing seeds from the reload hopper to the conveyor belt through the slide gate is assumed to be moving transporting Teflon tape due to friction between the tape and the seed shell. However, taking into account the fact that the material of the Teflon conveying belt has a low coefficient of friction, the friction force arising between the conveying belt and the seeds will not be sufficient for the continuous removal of seeds from the transfer hopper through the slide gate and the formation of an even distribution of seeds on the belt with a layer of the required height will not occur. Because overload bins feeding seeds to the conveyor belt of each tier of the installation have the same design and operating principle, then uneven distribution of seeds will occur on each conveyor, that is, on the entire line of movement of drying seeds.

The line of movement of the drying seeds in the installation is cross-cutting, which does not allow in case of under-drying of the material to return it to drying. Another disadvantage of the drying device of the prototype is the lack of devices in it to control technological parameters, in particular the humidity of the drying product. Obviously, the listed disadvantages of the prototype characterize it as a low-tech drying device with low drying quality, which manifests itself in a spontaneous deviation of the humidity of the drying product from the norm.

The objective of the utility model is to improve the device for infrared drying of seeds moving on a conveyor belt in order to improve the quality of drying.

This problem is solved in that the device for drying seeds containing belt conveyors in the form of a tray with a transporting Teflon tape resting on it, carrying a layer of seeds, over which tubular infrared emitters equipped with reflectors are distributed, and means for transferring the drying seeds to the belt below the conveyor , according to a utility model, additionally contains means for moving the drying seeds from the last conveyor in the drying process line to the first upper conveyor - the beginning of the drying process line, which includes a bucket elevator, a hopper with a seed moisture sensor, a seed distribution mechanism consisting of a seed funnel and seed supply the outlet pipe, movably connected to the neck of the funnel-drive by the upper opening with the possibility of making the lower opening located above the conveyor belt, arcuate movements by means of a linear motor rod In this case, the elevator buckets have the ability to capture seeds from the hopper for transporting them to the storage funnel and unloading the seeds into it, and the means for loading the drying seeds onto the belt below the conveyor is made in the form of a curved sheet with ribs on the surface.

Signs of the prototype that coincide with the essential features of the utility model are the presence in the device for drying the cascade of conveyor belts in the form of a tray with a transporting Teflon tape resting on it, carrying a layer of seeds over which tubular infrared emitters equipped with reflectors are distributed, as well as the presence of an overload means drying seeds on a tape below the conveyor.

Distinctive features of the device for drying seeds from the prototype is that the means of transferring the drying seeds to the belt below the conveyor is made in the form of a curved sheet with ribs on the surface, in addition, the device further comprises means for moving the drying seeds from the last conveyor in the drying technological line to the first upper to the conveyor - to the beginning of the drying technological line, which includes a bucket elevator, a hopper with a seed moisture sensor, a seed distribution mechanism consisting of a seed funnel, seed supply outlet, movably connected to the neck of the storage funnel with an upper opening with the possibility of making a lower opening located above with a conveyor belt, arcuate movements by means of a linear electric motor rod, while the elevator buckets have the ability to capture seeds from the hopper for transporting them to the storage funnel and unloading the seeds into it.

The set of essential features of the utility model eliminates the disadvantages of the prototype and is a necessary and sufficient condition for achieving a technical result - improving the quality of drying with infrared rays of seed material moving in the form of a layer on a conveyor belt at atmospheric pressure.

The essence of the utility model is illustrated by graphic materials, where in FIG. 1 shows a diagram of a device for drying seeds; FIG. 2 is a top view AA, a diagram of the seed distribution mechanism is shown, FIG. 3 cites

but section BB showing the placement of the conveyor belt in the support chute and the distribution of the drying material on the belt, in FIG. 4 shows a section BB of the seed transfer device.

The device for drying seeds contains horizontal conveyors top 1, bottom 2 (between them can be installed in cascade of intermediate conveyors). Each conveyor has an individual drive 3, supporting trays 4, on which teflon tape 5 is supported, bearing a distributed layer of seeds. Above the seed-bearing part of the Teflon transporting tape 5, infrared ray heaters 6 are installed, consisting of an infrared tube emitter 7 (for example, an electrically heated fichrail coil in a quartz tube with a thermal power of 10 kW) and a profiled reflector 8 (for example, mirror-polished anodized aluminum with reflective coating ability not lower than 95%). To transfer the drying seeds to the conveyor belt 5 below the conveyor, there is an overload means 9 made in the form of a curved sheet with ribs on the working surface. In addition, the device includes means for moving dried seeds from the last lower conveyor 2 to the first upper conveyor 1, which includes a bucket elevator 10, a hopper 11 with a seed moisture sensor 12 (for example, model FIZEPR-SW100.10.6), as well as a seed distribution mechanism 13, consisting of a funnel-accumulator of seeds 14 with a cylindrical outlet neck, vas deferens an inclined cylindrical nozzle 15, which is top coaxially movably connected to the neck of a funnel of the accumulator 14, and a lower aperture is located above the belt 5 of the conveyor 1. To the wall of the upper aperture of the vas deferens inclined nozzle 15 is pivotally attached the rod of a cylindrical linear motor 16 (for example, model LMTB ... LMTC), the longitudinal axis of which is located tangent to the wall of the opening. The electrical circuit of the linear motor 16 provides a reciprocating motion of its rod. In the hopper 11 there is an unloading hatch 17 with a shutter.

A device for drying seeds works as follows. A portion of the seeds for drying is poured into the hopper 11, in which they are captured by the elevator buckets 10 and transported up to the seed funnel 14 and, bending around the elevator head 10, are inertially unloaded from the buckets into the storage funnel 14. From where, through the neck, under its own weight pass into the seed tube 15. The pipe 15, being movably connected to the neck, under the action of the reciprocating movements of the rod of the linear motor 16 makes reciprocating movements, and its lower opening, respectively, makes arcuate return movements over the moving tape 5 of the conveyor 1 within its width . In this case, from the lower aperture of the nozzle 15, the seeds arrive on the moving belt 5 of the conveyor 1 and lie on it with a uniform layer in height, width and in the direction of movement. The height of the seed layer on the tape 5 can be adjusted by changing the speed of its movement. A continuously forming seed layer is transported by conveyor belt 5 under infrared ray heaters 6 and subjected to infrared heat while moving relative to infrared heaters 6. The intensity of infrared radiation in heaters 6 is controlled by a change in the magnitude of the supplied electric current and for high-quality drying, namely maximum preservation seed reproduction, should provide a gentle gentle mode of uniform heat treatment, which does not allow overheating of the seeds with a violation of the integrity of the shell and the destruction of the biological structure by high temperature stresses. The magnitude of the intensity of infrared radiation in the heaters 6 is selected individually for each type of seed.

As a result of the necessary gentle heat treatment on the conveyor 1, part of the excess moisture is removed from the seed mass. After heat treatment on the conveyor 1, with the movement of the belt 5, the seeds are poured with the help of an overload means 9 onto a moving belt of the conveyor 2, above which infrared beam heaters are also installed 6. Ribbed

the surface of the overload means 9 provides a uniform distribution of seeds on the conveyor belt 2 and the drying process of the seeds continues in motion relative to infrared heaters 6.

Despite the good heat-reflecting property of the Teflon transporting tape 5, the layer of drying seeds on it is heated unevenly in height during heat treatment with IR rays, the seeds in the lower part of the layer are less warmed up and remain wetter than the seeds in the upper part of the layer.

To eliminate the negative impact of this phenomenon on the quality of drying of seeds in the proposed device for drying provides complete mixing of the seeds as an operation of the drying process. Mixing of the seeds is carried out in the hopper 11, in which they are poured with a moving belt of the conveyor 2, after passing heat treatment on it. A significant mass of drying seeds is accumulated in the hopper 11, and their mixing is carried out by the moving buckets of the elevator 10. As a result of mixing the seed mass, the temperature of the individual seeds in it is leveled. The buckets of the elevator 10 also capture the mixed seed mass of equally heated seeds and move them to the seed distribution mechanism 13, from where they again enter the conveyor 1 and then go through a repeated heat treatment cycle.

The number of heat treatment cycles can be several, until the moisture content of the entire mass of drying seeds of standard humidity is reached. The moisture level of the mass of the drying seeds is determined by a hygrometer, the sensor 12 of which is installed in the hopper 11, which provides control of a larger volume of material and gives an accurate estimate of humidity in case of a non-uniform distribution of moisture in the drying seeds. After drying, the seeds from the hopper 11 are unloaded through the hatch 17.

Technical appraisal and economic advantages of the device, which is claimed, in comparison with the closest analogue consists in the fact that the performed improvement of the device for infrared drying of seeds moving on

conveyor belt, provides controlled high quality drying of seed material of cereals and other agricultural crops, testes of medicinal herbs and essential oil plants due to the circular trajectory of drying seeds under infrared radiation, their active mixing with elevator buckets and instrumental humidity control.

Claims (1)

A device for drying seeds, containing belt conveyors in the form of a tray with a transporting Teflon tape resting on it, carrying a layer of seeds, over which tubular infrared emitters equipped with reflectors are distributed, and means for transferring drying seeds to the belt below the conveyor, characterized in that it additionally contains means for moving the drying seeds from the last conveyor in the drying technological line to the first upper conveyor - the beginning of the drying technological line, which includes a bucket elevator, a hopper with a seed moisture sensor, a seed distribution mechanism consisting of a seed funnel and seed supply outlet pipe, movably connected with the neck of the funnel-drive the upper opening with the possibility of making the lower opening located above the conveyor belt, arcuate movements by means of a rod of a linear electric motor, while the elevator buckets have the ability l capture the seeds from the hopper for transporting them to the storage funnel and unloading the seeds into it, and the means for loading the drying seeds onto the belt below the conveyor is made in the form of a curved sheet with ribs on the surface.

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