KR900004434Y1 - A rice cleaning machine - Google Patents

Abstract

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Description

Humidifier

Figure 1 is a longitudinal sectional view showing the configuration of a humidifier semi machine according to an embodiment of the present invention.

Figure 2 is a cross-sectional view taken along line A-A of Figure 1 showing the configuration of the blow-off friction plate installed in the steel removal machine according to the present invention.

* Explanation of symbols for main parts of the drawings

1: semi-cylinder cylinder 2: ultrasonic humidifier

2b: injection pipe 3: rice bran suction fan

12: screw conveyor 16: screw roller

22: conveying screw conveyor 23: blow friction friction plate

24: worm screw 25: degasser

25 ': housing 26: vertical communication tube

27: porous hollow shaft 28: punch hole network

The present invention wipes out finely divided fine powder or rice bran, which are attached to the surface of rice, to improve the quality and quality of rice, as well as to provide efficient long-term storage of rice. In particular, the humidification semi-condensing humidification semiconducting transfer device for agglomeration of rice bran etc. adhered to the surface of the humidified rice by applying atomized water particles to the milled rice and a dehumidification device for separating and removing agglomerated rice bran etc. It is about the flag.

Fine particles such as fine powder and rice bran generated during the milling process of rice are sticky and adhered to the surface of rice. Therefore, it is impossible to separate and remove these fine particles by the general steel removal method through a general steelmaking machine. It is difficult to discriminate the taillights with the naked eye immediately in the phase of cutting, but after a certain period of time, the color of the taillights is discolored and can be visually determined as rain.

Therefore, if the fine particles such as fine powder, rice bran etc. adhere to the surface of the rice, not only the quality and quality of the rice deteriorate, but also the result of adsorbing the external moisture due to these fine particles, the storage of rice It is pointed out as a factor promoting the deterioration.

In order to solve such a problem, an apparatus for wiping the surface of the inverted rice has been proposed and used. For example, a whitening chamber is formed between the porous wall steel vein barrel and the friction whitening roll, so that Humidifier is made by connecting the humidifier to the humidifying white room, and the rice outlet side is linked to the ventilating device to the ventilation device to make the rice surface gloss by making steel dry and polishing immediately after the humidification and whitening. It is known from Utility Model Publication No. 82-616 (Application No. 77-722).

However, in such a conventional humidifier, the white rice, steel, and heat generated in a state in which the surface of the rice is wet and softened by adding moisture such as high temperature steam by water and boiler while the milled rice passes through the humidifying white room. By grinding, grinding, etc., the surface softened by humidification creates a smooth surface by friction, and the rice grains and noodles are dried by the heat generated during humidification and whitening. Therefore, steam is generated by using a boiler, heater, and blower. In addition to the need for a complicated double-humidifying device that must be provided separately, such as a device and another water tank for water supply, the surface of the rice is cooked by the hot steam applied from the outside of the rice. By changing the tissue, it has a factor that can be easily changed during distribution or storage, and also by blowing water directly on the surface of rice Even if subjected to a drying process according to the stage to a uniform and complete drying of each grain of rice is not possible, there are difficulties and problems such as that the kkichige drastically affect the prescribed moisture content of the rice is required.

Therefore, the main purpose of the present invention is to provide a humidifying semi-group which does not have the above-mentioned difficulties and problems.

Another object of the present invention is to apply the atomized water particles by the ultrasonic humidifier to the surface of the milled rice by removing and drying the fine powder, rice bran, etc. attached to the surface of the humidified rice grains, drying, And it provides a humidifying semi-group that can completely remove only the various fine particles attached to the surface of the rice grains without any influence on the intrinsic moisture content.

Hereinafter, a humidifier semi group of the present invention for achieving the above object will be described in detail by the drawings.

1 is a longitudinal cross-sectional view showing the configuration of the humidifying semi machine according to the present invention, as shown here, the humidifying semi machine according to the present invention is installed on the upper part of the semi-cylindrical cylinder (1) and the screw conveyor through the feed hopper (11) The atomized water particles generated from the ultrasonic humidifier 2 are supplied to the surface of the rice supplied to the inside of the rice 12 so that fine particles such as fine rice bran attached to the surface of the rice are agglomerated by the moisture applied to the surface. It is composed of a dehumidification humidifier agglomerate unit 10 and a blow-off friction type decanter unit 20 which is installed at the lower part of the atomization humidifier agglomerator unit 10 and separates and removes the fine particles of the aggregated rice surface as described above.

The screw conveyor 12 of the atomizing and humidifying agglomerating unit 10 is conveyed by a conventional spiral screw 14 and a screw 14 for conveying a workpiece, ie, rice, which is put around the screw shaft 13 therein. A stagnation blade 15 is provided for imparting proper stagnation force to the rice grains to be delayed and the transfer time thereof, and a supply side end at which the feed hopper 11 is installed is exposed on one side of the semi-cylindrical cylinder 1. The intermediate part of the supply pipe 2a connected to the ultrasonic humidifier 2 is exposed inside the exposed end, and the end of the injection pipe 2b in which the injection hole is formed is located in the upper middle of the inner circumferential surface of the housing 12 'of the screw conveyor 12. It is provided along the longitudinal direction over the part.

In the lower part of the screw conveyor 12, the feed screw roller 16 is installed in the intermediate support plate 1a of the semi-cylindrical cylinder 1 in parallel, and the upper end of one side of the housing 16 'of the screw roller 16 is installed. And the middle lower portion of the housing 12 'of the screw conveyor 12 are connected to the vertical communication tube 17, and the outlet 16a of the screw roller housing 16' is one side of the semi-cylindrical cylinder 1, Exposed to the lower end of the supply side end of the screw conveyor 12, the outer peripheral surface of the end of the screw roller shaft 18 located inside the discharge port (16a) portion for promoting the coagulation of fine particles such as rice bran attached to the rice surface Several processing keys 19 are provided radially, and at the outer end thereof, a resistance plate 19 'is provided for resistance to the workpiece to be transported and discharged.

On the other hand, the degassing device unit 20 installed in the lower portion of the atomizing and humidifying agglomeration unit 10 is formed on one side of the hopper 21 for receiving the rice grains discharged through the outlet port 16a of the screw roller 16. The conveying screw conveyor 22 is installed in the middle lower part of the semi-cylindrical cylinder 1, and the lower part 25 of the conveying screw conveyor 22 is provided with the blower friction plate 23 and the worm screw 24 provided with the deaerator 25. ) Is installed.

The blow-off friction plate 23 and the worm screw 24 of the dropper 25 are respectively embedded in the dropper housing 25 'which communicates with the transfer screw conveyor 22 and the vertical communication tube 26 thereon. A mandrel is installed at one side and a middle portion of the porous hollow shaft 27 provided over both side walls of the semi-cylindrical cylinder 1, so that it can rotate together with the rotation of the hollow shaft 27.

The wind-friction friction plate 23, as shown in FIG. 2, has a cross-shaped support piece 23a radially installed at the outer periphery of the porous hollow shaft 27 and the outer ends of the support piece 23a at equal intervals. It consists of a fixed sized spherical leather friction plate 23b, and the end of each friction plate 23b is adjacent to the inner periphery of the cylindrical perforated metal mesh 28 surrounding the wind-friction friction plate 23. It is.

The outside air inflow chamber is located on one side of the de-reamer housing 25 ′ as described above, ie, on the opposite side to the installation portion of the blow-off friction plate 23 with the worm screw 24 provided at the middle portion of the hollow hollow shaft 27. 25a is formed, and a blowing fan 29 is connected to the lower side of the air inlet chamber 25a so that the air supplied from the blowing fan 29 flows into the inside of the porous hollow shaft 27. After being blown through the air through holes 27a of the hollow hollow shaft 27 in which the wind-friction friction plate 23 is installed, it is possible to blow into the inside of the perforated metal mesh 28. In addition, the discharge hopper 25b in which the aggregated particles such as rice bran discharged to the outside through the hole punching net 28 provided with the blowout friction plate 23 is dropped and collected is integrated under the de-reactor housing 25 '. The end of the discharge hopper 25b is connected to the rice bran suction fan 3 and the suction pipe 3a provided outside the semi-cylindrical cylinder 1, and the discharge side of the rice bran suction fan 3 is shown in the drawing. It is connected to a cyclone, not shown.

In the figure, reference numeral 25c is a rice grain outlet installed at one side of the degasser 25 housing 25 ', and 12a is a drain pipe installed at the screw conveyor housing 12' of the atomizing and humidifying apparatus 10. 2c shows a humidification control valve for controlling the amount of atomized water particles supplied from the ultrasonic humidifier 2, respectively.

The effect of the present invention semi-humidifier configured as described above is as follows.

By operating the semi-machine to supply the milled rice through the feed hopper 11 of the screw conveyor 12 installed in the atomization humidifying agglomerator unit 10 of the upper half of the semi-cylindrical cylinder (1) to operate the ultrasonic humidifier (2) Then, the atomized water particles generated from the ultrasonic humidifier 2 on the surface of the rice grains conveyed by the spiral screw 14 and sprayed through the injection pipe 2b are uniformly applied to the surface of the rice grains, and then the vertical communication tube ( 17) The rice grains drop-transferred into the lower screw roller housing 16 'through the feed through the conveying screw rollers 16, together with the fine particles and fine particles attached to the surface of the rice grains together with the water particles. It is discharged through the discharge port (16a) in the aggregated state in this case, the rice grain transported as described above is further processed by the processing key 19 and the storage plate 19 'installed at the distal end of the screw roller 16. Lively and evenly It is stirred to have an action of promoting aggregation of the surface fine particles.

The rice grains discharged in this way are introduced into the lower conveying screw conveyor 22 through the hopper 21 and transferred to the inside of the decanter 25 again while the coagulation is continued. ) Is transferred to the inside of the perforated metal mesh 28 in which the blow friction friction plate 23 is installed, and the thus conveyed rice grain rotates the blow friction friction plate 23 and the respective air through holes 27a of the porous hollow shaft 27. Since the air is agitated along the inner circumferential wall of the perforated metal net 28, the pulverization action of the aggregates such as fine powder, rice bran and the like by contact of each friction plate 23b of the blow-off friction plate 23 is performed in such a stirring process. In addition, as the drying action by the sprayed air proceeds together, the fine particles aggregated together with the water particles on the surface of the rice grains are completely separated and removed.

In addition, at this time, since the suction force of the rice bran suction fan 3 is applied to the outside of the perforated metal net 28, aggregates such as finely divided rice bran separated and separated from the grains of rice are discharged from the lower portion through the through hole of the perforated metal net 28. At the same time as the suction drop to 25b and at the same time as the cyclone (not shown) is collected through the suction pipe (3a), only pure white rice from which the aggregate is removed is discharged through the outlet 25c of the decanter housing 25 '. In the process of being discharged through the wind-friction frictional degassing action, the polished grains have a suction force acting on the outside of the dry air emitted from the porous hollow shaft 27 and the hole mesh network 28, that is, the discharge hopper 25b. As a result, the remaining water on the surface of each grain of rice can be completely increased so that all grains of rice can be discharged in a uniformly dried state.

In the above embodiment, in the configuration of the humidifier according to the present invention, the semi-cylindrical cylinder 1 is erected in a vertical direction, and the atomizing and humidifying agglomerate part 10 and the degasser 20 are installed on the upper and lower sides, respectively. Although illustrated and described as an example, in implementing the present invention, the semi-cylindrical cylinder is installed in the transverse direction, and the atomization humidifier unit 10 and the desorption unit 20 are installed along the longitudinal direction of the semi-cylindrical cylinder. Even if the same effect can be obtained.

The present invention as described above, in the construction of a humidifier for washing and removing fine particles, such as fine rice bran attached to the surface of the inverted rice, by using an atomizing humidification agglomeration apparatus equipped with an ultrasonic humidifier and blowing friction type degasser Evenly apply atomized water particles to the surface of the rice grains transferred to the screw conveyor, and in the process of transferring the grains of rice, the fine particles such as fine powdered rice lump are agglomerated and aggregated in the water particles applied to the surface of the grains. It is transported to the inside of the gold net and stirred between the perforated metal net and the friction plate to separate and remove the aggregates on the rice surface, and at the same time, to completely remove the moisture from the white steel surface removed by the drying action of the porous inside and the external suction fan. Since it is composed, it adheres to the surface of the grain without changing any component structure and its standard water content. Can be completely removed by various particles can significantly improve the quality and grade of rice and an effect of being able to completely eliminate the discoloration deterioration concerns over the long-term storage of rice.

Claims (1)

In the humidification semi machine for removing fine particles such as fine rice bran attached to the surface of the rice, the atomized water generated from the ultrasonic humidifier (2) on the inner side of the screw conveyor housing (12 ') installed on the semi-cylindrical cylinder (1) An injection pipe 2b for supplying particles is provided, and a screw roller 16 for promoting agglomeration of the fine particles is connected to the vertical communication tube 17 in the middle lower portion of the screw conveyor housing 12 '. In the lower part of the conveying screw conveyor 22 installed below the outlet of the 16, the blower friction plate 23 and the worm screw 24 inside the perforated metal net 28 are provided on the hollow hollow shaft 27, Humidity semi-rigidge characterized in that it is also connected to the vertical communication pipe (26) installed and connected to the discharge hopper (25b) of the lower portion of the decancer housing (25 ') and the rice bran suction fan (3).