JP3700972B2 - Rice selection machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a rice selection machine configured to enhance the sterilizing effect at the same time as the removal of crushed rice and waste rice during the milling process.
[0002]
[Prior art]
Wash-free rice that can be cooked without sharpening has become widespread from the viewpoint of preventing water pollution caused by rice sharpening soup and the simplicity of rice cooking.
However, most of the various germs adhering to the surface of rice were removed in the process of sharpening the rice in normal polished rice, but the process of removing germs does not exist in the unwashed rice, This poses the danger of eating rice contaminated with bacteria.
In order to solve this problem, a rice milling method with sterilization / sterilization means is required.
As a method for this purpose, Japanese Patent Application Laid-Open No. 11-90245 discloses a rice milling apparatus in which ozone gas is supplied to a rice milling machine and a sterilizing effect is improved.
[0003]
[Problems to be solved by the invention]
Those described in the prior art have the following problems.
However, a general rice milling machine has a structure in which a milling roll rotates inside the scouring net and rubs the rice and the rice to polish the rice. The fan extracts the air in the sperm chamber.
Therefore, in the method of supplying ozone gas into the milling chamber, there is a defect that most of the introduced ozone gas is discharged out of the milling chamber from the milling net without making sufficient contact with the milled rice. It was not the target.
[0004]
The present invention has been made in view of such problems of the prior art, and an object of the present invention is to provide the following.
In order to efficiently sterilize and sterilize polished rice with ozone gas, it is necessary to take sufficient contact time between ozone gas and polished rice.
Therefore, the present invention focuses on a rice selection machine that removes broken rice after milling and attempts to improve it.
That is, the present invention provides a rice sorting machine in which a brushing screw is incorporated in a casing having a broken rice or broken rice hole, and an ozone gas supply port is provided on the polished rice receiving hopper side, and a casing having a broken rice or broken rice hole is provided. The present invention relates to a rice selection machine characterized in that an ozone gas contact portion made of a non-porous casing is newly provided in the previous stage.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is as follows.
That is,
The invention described in claim 1 is a rice selection machine in which a brushing screw is incorporated in a casing having a broken rice or broken rice hole, and an ozone gas supply port is provided on the polished rice receiving hopper side, and a broken rice or broken rice hole is provided. An ozone gas contact portion made of a non-porous casing is provided in the front stage of the casing having, and the polished rice transferred by brush operation is configured to forcibly contact ozone gas at the ozone gas contact portion to perform sterilization. It is a feature.
[0006]
Invention of Claim 2 is comprised from the casing part 2, the brushing screw part 3, and the ozone supply part 4,
A. The casing part 2 is composed of a casing 2A, a polished rice receiving hopper 2B, a crushed rice / waste rice discharge port 2C, and a product discharge port 2D.
The casing 2A is composed of a sideways drum body 2A1 and front and rear side surfaces 2A2 and 2A3 stretched on the front and rear end surfaces of the drum body. The drum body 2A1 has a non-perforated drum portion 2A11 located on the rear side, The perforated drum portion 2A12 is formed on the side wall of the drum body. . The outer cylinder portion 2A4 is attached to the outer periphery of the perforated drum portion with a small gap D, and the polished rice receiving hopper 2B is attached to the upper surface of the rear end portion of the sideways drum body 2A1. The crushed rice / waste rice discharge port 2C is configured in a hopper shape and is attached to the lower surface of the outer cylinder portion 2A4 in the casing 2A, and the product discharge port 2D is provided at the lower end of the front side surface 2A2 in the casing 2A,
B. The brushing screw portion 3 has a shaft 3A rotatably supported at the center position of the drum body 2A1 in the casing 2A, and wings 3B made of synthetic resin fibers are planted on the shaft with a gradient,
C. The ozone supply unit 4 includes an ozone gas generator 4A and a supply pipe 4B drawn from the ozone gas generator, and the supply pipe is provided at the lower end of the rear side surface 2A3 of the casing 2A. is there.
[0007]
Invention of Claim 3 is comprised from the casing part 2, the brushing screw part 3, and the ozone supply apparatus part 5,
A. The casing part 2 is composed of a casing 2A, a polished rice receiving hopper 2B, a crushed rice / waste rice discharge port 2C, and a product discharge port 2D.
The casing 2A is composed of a sideways drum body 2A1 and front and rear side surfaces 2A2 and 2A3 stretched on the front and rear end surfaces of the drum body. The drum body 2A1 has a non-perforated drum portion 2A11 located on the rear side, The perforated drum portion 2A12 is formed on the side wall of the drum body. . The outer cylinder portion 2A4 is attached to the outer periphery of the perforated drum portion with a small interval D, and the polished rice receiving hopper 2B is attached to the upper surface of the rear end portion of the drum body 2A1, The waste rice discharge port 2C is configured in a hopper shape, is attached to the lower surface of the outer cylinder portion 2A4 in the casing 2A, and the product discharge port 2D is provided at the lower end of the front side surface 2A2 in the casing 2A,
B. The brushing screw portion 3 has a shaft 3A rotatably supported at the center position of the drum body 2A1 in the casing 2A, and wings 3B made of synthetic resin fibers are planted on the shaft with a gradient,
C. The ozone supply device 5 is drilled so as to communicate the ozone gas generator 5A, the cylindrical ozone passage 5B established in the shaft core portion of the shaft 3A of the brushing screw portion 3, and the ozone passage and the outside of the shaft 3A. Ozone ejection holes 5B1, 5B1. . And an ozone supply pipe 5C that connects the ozone gas generator 5A and the ozone passage 5B.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described based on examples with reference to the drawings.
Reference numeral 1 denotes a rice selection machine according to the first invention.
The configuration is as follows.
The casing part 2, the brushing screw part 3, and the ozone supply part 4 are comprised.
[0009]
A. The casing part 2 is composed of a casing 2A, a polished rice receiving hopper 2B, a crushed rice / waste rice discharge port 2C, and a product discharge port 2D.
a. The casing 2A is composed of a sideways drum body 2A1 and front and rear side surfaces 2A2 and 2A3 stretched on the front and rear end faces of the drum body. The drum body 2A1 has a non-perforated drum portion 2A11 located on the rear side and a front side. The perforated drum portion 2A12 is formed on the side wall of the drum body. . Are grouped together.
An outer cylinder portion 2A4 is attached to the outer periphery of the perforated drum portion with a small interval D.
As a result, the non-perforated drum portion 2A11 is configured in a non-porous state, and thus constitutes an ozone gas contact portion.
Moreover, since the perforated drum portion 2A12 is configured in a perforated state, it constitutes a crushed rice / waste rice separation unit.
In this case, the perforated drum portion 2A12 is composed of a perforated plate or a wire net having holes of a size that does not allow polished rice to pass through.
[0010]
b. The polished rice receiving hopper 2B is attached to the upper surface of the rear end portion of the sideways drum body 2A1.
Although not shown in the figure, a known rice mill is connected to this hopper.
c. The broken rice / waste rice discharge port 2C has a hopper shape and is attached to the lower surface of the outer cylinder portion 2A4 in the casing 2A.
d. Product discharge port 2D is provided at the lower end of front side surface 2A2 of casing 2A.
[0011]
B. The brushing screw portion 3 has a shaft 3A rotatably supported at the center position of the drum body 2A1 in the casing 2A, and wings 3B made of synthetic resin fibers are planted with a gradient on the shaft.
The polished rice is agitated by the rotation of the brushing screw part 3, and the polished rice is transferred from the polished rice receiving hopper 2B side to the product discharge port 2D.
[0012]
C. The ozone supply unit 4 includes an ozone gas generator 4A and a supply pipe 4B drawn from the ozone gas generator, and the supply pipe is provided at the lower end of the rear side surface 2A3 of the casing 2A.
The ozone gas generator is configured to generate ozone gas by generating a silent discharge by applying a high voltage between electrodes, for example.
[0013]
11 is the rice selection machine of the second invention.
The configuration is as follows.
The casing portion 2, the brushing screw portion 3, and the ozone supply device portion 5 are configured.
[0014]
A. The casing part 2 is composed of a casing 2A, a polished rice receiving hopper 2B, a crushed rice / waste rice discharge port 2C, and a product discharge port 2D.
a. The casing 2A is composed of a sideways drum body 2A1 and front and rear side surfaces 2A2 and 2A3 stretched on the front and rear end faces of the drum body. The drum body 2A1 has a non-perforated drum portion 2A11 located on the rear side and a front side. The perforated drum portion 2A12 is formed on the side wall of the drum body. . Are grouped together.
An outer cylinder portion 2A4 is attached to the outer periphery of the perforated drum portion with a small interval D.
As a result, the non-perforated drum portion 2A11 is configured in a non-porous state, and thus constitutes an ozone gas contact portion.
Moreover, since the perforated drum portion 2A12 is configured in a perforated state, it constitutes a crushed rice / waste rice separation unit.
In this case, the perforated drum portion 2A12 is composed of a perforated plate or a wire net having holes of a size that does not allow polished rice to pass through.
[0015]
b. The polished rice receiving hopper 2B is attached to the upper surface of the rear end portion of the drum body 2A1.
Although not shown in the figure, a known rice mill is connected to this hopper.
c. The broken rice / waste rice discharge port 2C has a hopper shape and is attached to the lower surface of the outer cylinder portion 2A4 in the casing 2A.
d. Product discharge port 2D is provided at the lower end of front side surface 2A2 of casing 2A.
[0016]
B. The brushing screw portion 3 has a shaft 3A rotatably supported at the center position of the drum body 2A1 in the casing 2A, and wings 3B made of synthetic resin fibers are planted with a gradient on the shaft.
The polished rice is agitated by the rotation of the brushing screw part 3, and the polished rice is transferred from the polished rice receiving hopper 2B side to the product discharge port 2D.
[0017]
C. The ozone supply device 5 is drilled so as to communicate the ozone gas generator 5A, the cylindrical ozone passage 5B established in the shaft core portion of the shaft 3A of the brushing screw portion 3, and the ozone passage and the outside of the shaft 3A. Ozone ejection holes 5B1, 5B1. . And an ozone supply pipe 5C connecting the ozone gas generator 5A and the ozone passage 5B.
The ozone gas generator is configured to generate ozone gas by generating a silent discharge by applying a high voltage between electrodes, for example.
[0018]
【The invention's effect】
Since this invention is comprised as mentioned above, there exists an effect described below.
1. The invention according to claim 1 improves the contact between polished rice and ozone gas by providing a non-porous drum portion on the polished rice receiving hopper side, and can perform efficient sterilization and sterilization operations. .
That is, the polished rice put into the polished rice receiving hopper 2B is first stirred by the brushing screw portion 3 in the non-porous drum portion and forcibly brought into contact with ozone gas to perform a reliable sterilizing action.
In the case of a perforated drum, the introduced ozone gas has a higher probability of being discharged out of the system from the perforated part before coming into contact with the polished rice, thereby reducing the sterilizing effect.
Next, the polished rice is transferred to the perforated drum while in contact with ozone gas, and the broken rice and waste rice are transferred to the outer cylinder through the broken rice / waste rice discharge hole and discharged from the broken rice / waste rice discharge port. .
The final product is discharged from the product outlet.
2. The invention described in claim 2 exhibits the effect described in 1 above, and can provide the following effect because the ozone supply device unit 5 is configured as described above.
That is, ozone gas is a non-porous drum portion of the rotating shaft 3A, and a plurality of ozone ejection holes 5B1, 5B1,. . Therefore, the dispersion of ozone gas in the casing is increased, and the contact probability with polished rice is further improved.
3. In addition, since the ozone supply unit 4 and the ozone supply unit 5 can be provided without changing the basic configuration of the existing rice selection machine, it can be manufactured at low cost, and it is easy to assemble because of the small number of parts. It also has effects such as.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a first invention.
FIG. 2 is a longitudinal sectional view of a second invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Rice selector 2 of 1st invention Casing part 3 Brushing screw part 4 Ozone supply part 11 Rice selector 5 of 2nd invention 5 Ozone supply part

Claims (3)

In a rice sorting machine in which a brushing screw is installed in a casing having a broken rice or broken rice hole, an ozone gas supply port is provided on the polished rice receiving hopper side, and a non-hole is provided in front of the casing having a broken rice or broken rice hole. A rice selection machine characterized in that an ozone gas contact portion comprising a casing of the above is provided, and polished rice transferred by brush operation is forcibly brought into contact with ozone gas at the ozone gas contact portion to perform sterilization. It is composed of a casing part (2), a brushing screw part (3), and an ozone supply part (4).
The casing part (2) is composed of a casing (2A), a polished rice receiving hopper (2B), a crushed and waste rice discharge port (2C), and a product discharge port (2D). A drum body (2A1), and front and rear side surfaces (2A2, 2A3) stretched on the front and rear end faces of the drum body, the drum body (2A1) being a non-perforated drum portion (2A11) positioned on the rear side, The perforated drum portion (2A12) is located on the front side, and the perforated drum portion (2A12) is provided with a group of crushed and waste rice discharge holes (H, H ...) on the side wall of the drum body. The outer cylinder part (2A4) is attached to the outer periphery of the part with a small gap (D), and the polished rice receiving hopper (2B) is attached to the upper surface of the rear end part of the lateral drum body (2A1). The broken rice / waste rice outlet (2C) is relieved Is configured to over-shaped, attached to the lower surface of the outer tube portion (2A4) in the casing (2A), the product discharge port (2D) is provided at the lower end of the front side (2A2) in the casing (2A),
The brushing screw part (3) has a shaft (3A) rotatably supported at the center position of the drum body (2A1) in the casing (2A), and feathers (3B) made of synthetic resin fibers are planted on the shaft with a gradient. And
The ozone supply unit (4) includes an ozone gas generator (4A) and a supply pipe (4B) drawn from the ozone gas generator, and the supply pipe is provided at the lower end of the rear side surface (2A3) of the casing (2A). The rice selection machine characterized by being. It is composed of a casing part (2), a brushing screw part (3), and an ozone supply device part (5).
The casing part (2) is composed of a casing (2A), a polished rice receiving hopper (2B), a crushed and waste rice discharge port (2C), and a product discharge port (2D). A drum body (2A1), and front and rear side surfaces (2A2, 2A3) stretched on the front and rear end faces of the drum body, the drum body (2A1) being a non-perforated drum portion (2A11) positioned on the rear side, The perforated drum portion (2A12) is located on the front side, and the perforated drum portion (2A12) is provided with a group of crushed and waste rice discharge holes (H, H ...) on the side wall of the drum body. An outer cylinder portion (2A4) is attached to the outer periphery of the portion with a small gap (D), and the polished rice receiving hopper (2B) is attached to the upper surface of the rear end portion of the drum body (2A1).・ Scrap rice outlet (2C) has a hopper shape Made is mounted on the lower surface of the outer tube portion (2A4) in the casing (2A), the product discharge port (2D) is provided at the lower end of the front side (2A2) in the casing (2A),
The brushing screw part (3) has a shaft (3A) rotatably supported at the center position of the drum body (2A1) in the casing (2A), and feathers (3B) made of synthetic resin fibers are planted on the shaft with a gradient. And
The ozone supply unit (5) includes an ozone gas generator (5A), a cylindrical ozone passage (5B) established in the shaft core portion of the shaft (3A) of the brushing screw portion (3), an ozone passage and a shaft. (3A) An ozone ejection hole (5B1, 5B1,...) Drilled to communicate with the outside, and an ozone supply pipe (5C) connecting the ozone gas generator (5A) and the ozone passage (5B). The rice selection machine characterized by being.

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