JPS6233551A - Vertical shaft rotary type rice refiner - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] (Industrial application field) The present invention relates to a vertical shaft rotary rice milling device.

(Prior art) Conventionally, as shown in Fig. 5, a vertical shaft polishing roll C having a plurality of protrusions formed on the outer peripheral surface is mounted at the center of the interior of a vertical polygonal polishing cylinder a formed by a perforated plate d. A structure with a similar structure was known.

In the known method, when the vertical milling roll C rotates in the vertical polygonal milling cylinder a, the grains stirred and guided by the protrusions are uniformly and gradually compressed as they approach the center of the perforated plate d.
As it moves away from the center of the porous plate d, it is uniformly and gradually diffused, resulting in whitening due to the change in resistance.

(Problems to be Solved by the Invention) The known rice milling machine could only be turned on by a skilled worker.

This is due to the nature of rice, which temporarily becomes sticky immediately after milling begins, so if there is even a slight oversupply, it will become sticky and harden in the rice milling room, completely stopping it from moving. In this case, it will not be possible to restart the machine unless it is disassembled and cleaned, so at least half a day will be spent on repairs.

Traditionally, this has been avoided by skilled workers relying on ammeters to open and close valves. , needed skilled workers.

The present invention makes it possible to mill rice even without skilled workers, and in some cases prevents clogging even when the valve is fully opened from the beginning.

(Means for Solving the Problems) The present invention provides a vertical shaft polishing roll in which a vertical protrusion 20 is formed on the outer circumferential surface at the center of the interior of a substantially vertical polygonal polishing tube 8 having countless bran removal holes 9. 14 are provided concentrically, and the vertical polygonal polishing tube 8 and the vertical shaft polishing roll 14 are opposed to each other at a speed ratio of approximately 10 when the vertical polygonal polishing tube 8 is taken as 1. In addition to being configured to rotate,
The protrusion 20 is a vertical shaft rotating rice milling device that is inclined in a direction to raise the grains in the vertical polygonal milling tube 8.

(Embodiment) An embodiment of the present invention will be described with reference to the drawings. Reference numeral 1 denotes a vertical grain feeding cylinder, which is formed of a substantially vertical cylinder having the same diameter throughout. A supply cylinder 2 is attached above the vertical grain feeding cylinder l, and a supply hopper 3 is provided above the supply cylinder 2. 4 is an on-off valve provided at the bottom of the supply hopper 3; 5 is a guide pipe for adding liquid to the grains moving within the supply cylinder 2; 6 is a liquid tank;
7 is an on-off valve.

In addition, when not adding liquid, remove the liquid addition device.

A vertical polygonal milling cylinder 8 which rotates on a vertical axis is integrally connected to the lower part of the vertical grain feeding cylinder 1. The vertical polygonal polishing cylinder 8 is provided substantially vertically and is formed of a perforated plate having a large number of bran removal holes 9. The cross-sectional shape of the vertical polygonal whitening tube 8 is preferably formed into a regular octagon as shown in Fig. 2.The length of the vertical polygonal whitening tube 8 should be set at a ratio of 3 to 8 times the length to the diameter of 1. Form it so that it becomes. The vertical polygonal polishing cylinder 8 has a vertical cylindrical front rotary cylinder 10 integrally connected to the lower part of the vertical polygonal polishing cylinder 8, and is rotatable. The lower front rotary cylinder 10 is pivotally attached to the frame via a bearing 12. A driven pulley 13 is fixed to the outer periphery of the front rotary cylinder 10, and by rotating the driven pulley 13, the vertical polygonal polishing cylinder 8 is rotated.

A vertical shaft polishing roll 14 is provided inside the vertical polygonal polishing cylinder 8.

A grain feeding spiral 15 is formed integrally or separately on the outer periphery of the upper part of the vertical axis whitening roll 14 facing the vertical grain feeding tube l. A shaft 16 of the vertical polishing roll 14 extends below the front rotary cylinder 10 and is rotatably attached to the frame via two bearings 17 and 18. A passive pulley 19 is attached to the lower end of the shaft 16.
to fix.

Thus, the vertical shaft whitening roll 14 is formed into a cylindrical shape having the same diameter from top to bottom, and three protrusions 20 are provided at equal intervals on its outer peripheral surface. The protrusions 20 are given a slight inclination so as to raise the grains in the vertical polygonal milling tube 8. That is, as shown in FIG. 3, the upper end 21 of the protrusion 20 is
When the polishing roll 14 rotates clockwise, the lower end 24 of the protrusion 20 is twisted to match the front side 25 of the side 22 when the whitening roll 14 is aligned with the rear side 23 of the side 22 of the vertical polygonal whitening cylinder 8. When the vertical milling roll 14 rotates, the grains in the vertical polygonal milling cylinder 8 are stirred so as to rise.

In addition, as shown in FIG.
6 is close to the above-mentioned - side 22 in a point, and all the others are further away from the one side 22.

A discharge port 27 is formed below one side of the blind rotary cylinder 10,
A resistance cover 28 is attached to the outside thereof.

Therefore, the vertical polygonal polishing tube 8 and the vertical polishing roll 14 are rotated in opposite directions at a ratio of about 1:10. Normally, the vertical polygonal polishing tube 8 rotates at 100 rotations per minute, and the vertical polishing roll 14 rotates at a rate of 100 rotations per minute. If you rotate it 1000 times per minute and change this ratio, you will not be able to achieve your goal.

29 is a motor, 30 is a drive pulley, 31 is a belt,
32 is a tension pulley, 33 is a rotating shaft, 34 is an intermediate pulley, 35 is a belt, and 36 is a suction port.

(effect) Next, we will discuss the effect.

Since the present invention has the above-described configuration, when brown rice is put into the supply hopper 3 and the on-off valve 4 is opened all at once, the grain feeding spiral 1
5, and flows into the vertical polygonal polishing cylinder 8.

However, when rice milling starts in the vertical polygonal polishing tube 8,
Rice has a tendency to stick at first, and in some cases, the vertical shaft whitening roll 14 stops rotating, but in the present invention, when the vertical shaft whitening roll 14 is rotating at a rate of 1000 revolutions per minute, Since the vertical polygonal polishing cylinder 8 on the outer periphery rotates at a rate of 100 revolutions per minute, the rice that has just started milling and tends to stick to the corner 37 is guided from the corner 37 to the center of the rice milling chamber. The ammeter is stable and does not get clogged suddenly, and the vertical polygonal polishing tube 8 is an angle, and the vertical shaft polishing roll 14 has three protrusions 20.

One of the protrusions 20 is one side 22 of the vertical polygonal whitening tube 8.
When touching the middle of the side 22, the other two do not face the middle of the side 22, so the resistance is equalized, and
The protrusions 20 of the whitening roll 14 are formed by being twisted, so when the vertical axis whitening roll 14 rotates,
Since the grains trying to move downward in the vertical polygonal milling tube 8 are stirred so as to rise, the clogging phenomenon is further eliminated.

In addition, since the vertical polygonal polishing tube 8 and the vertical shaft polishing roll 14 rotate in opposite directions, the grains in the corners 37 of the vertical polygonal polishing tube 8 rotate together with the vertical polygonal polishing tube 8. It is stirred by slowly replacing the grain flow formed by the rotation of the vertical milling roll 14. Therefore, the grains in the vertical polygonal milling tube 8 can be evenly stirred and milled.

(Effects) As mentioned above, conventionally, as shown in FIG.
A structure is known in which a vertical shaft polishing roll C having a plurality of protrusions formed on the outer circumferential surface is mounted in the center of the interior of a vertical polygonal polishing cylinder a formed by the above method. In the known method, when the vertical shaft milling roll C rotates in the vertical polygonal milling cylinder a, the grains being stirred and trained by the protrusions are uniformly and gradually compressed as they approach the center of the perforated plate d. When moving away from the center of plate d, it was uniformly and gradually diffused, and the change in resistance resulted in whitening.

However, the known rice milling machine could only be turned on by a skilled worker. This is due to the nature of rice.

Rice has the property of temporarily becoming sticky immediately after milling begins, so if there is even a slight oversupply, it will become sticky and harden in the rice milling room, making it completely immobile. In this case, it will not be possible to restart the machine unless it is disassembled and cleaned, so at least half a day will be spent on repairs. Traditionally, this has been avoided by skilled workers relying on ammeters to open and close valves. , needed skilled workers.

However, in the present invention, a vertical protrusion 20 is provided on the outer peripheral surface of the substantially vertical polygonal polishing cylinder 8 having numerous bran removal holes 9 in the center of the interior thereof.
Vertical shaft whitening rolls 14 having a shape formed therein are provided concentrically, and the vertical polygonal whitening cylinder 8 and the vertical shaft whitening roll 14 are arranged so that when the vertical polygonal whitening cylinder 8 is taken as 1, the vertical axis whitening roll 14 is approximately This is because the rice polishing device is configured to rotate in opposite directions at a speed ratio of 10, and the protrusions 20 are tilted in a direction to raise the grains in the vertical polygonal polishing tube 8. , rice can be milled without skilled workers, and in some cases, from the beginning, it has the effect of not clogging even when the valve is fully opened.

[Brief explanation of drawings]

Figure 1 is a longitudinal side view of the entire device, Figure 2 is a sectional view, and Figure 3 is a cross-sectional view of the entire device.
The figure is a side perspective view, FIG. 4 is a working state diagram, and FIG. 5 is a known accident. Explanation of symbols 1... Vertical grain feeding tube, 2... Supply tube, 3... Supply hopper, 4... Opening/closing valve, 5... Guide pipe, 6...
・Liquid tank, 7...Opening/closing valve, 8...Vertical polygonal polishing cylinder, 9...Brain removal hole, 10...Rotating cylinder, 11...
・Bearing, 12...Bearing, 13...Pulley, 14・
...Vertical axis whitening roll, 15... Grain feeding spiral, 16...
Shaft, 17...Bearing, 18...Bearing, 19...Pulley, 20...Protrusion, 21...Upper end, 22...-
Side, 23... - side, 24... Lower end, 25... Other side, 26... One place, 27... Discharge port, 28... Resistance lid, 29... Motor, 30 ...drive pulley,
31...Belt, 32...Tension pulley, 3
3... Rotating shaft, 34... Intermediate pulley, 35...
Belt, 36... bran suction opening, 37... corner.

Claims (1)

[Claims] A vertical shaft polishing roll 14 having vertical protrusions 20 formed on the outer circumferential surface is concentrically provided in the center of the interior of a substantially vertical polygonal polishing tube 8 having numerous bran removal holes 9. 8 and the vertical shaft whitening roll 14 are configured so that when the vertical polygonal whitening tube 8 is taken as 1, the vertical shaft whitening roll 14 rotates in opposite directions at a speed ratio of approximately 10.
0 is a vertical shaft rotating rice milling device that is tilted in a direction that raises grains in a vertical polygonal milling tube 8.