CN113019507A - Three-section rice dividing unit for remained embryo rice and embryo remaining rice cutting machine using same - Google Patents

Abstract

A rice dividing unit of three-section remained embryo rice and an embryo remaining rice cutting machine using the same relate to a rice dividing unit and an embryo remaining rice cutting machine using the same. The invention aims to solve the problem of low rice cutting efficiency of the existing germ-remaining rice processing machine. A rice falling plate of the rice dividing unit horizontally reciprocates and is slidably mounted on a rice supporting plate; the rice falling holes on two adjacent rows of rice falling units are arranged in a staggered manner from front to back; the middle section rice hole and two rice point rice holes on holding in the palm the rice board are "article" font and arrange, and a interlude slide is installed to the lower extreme in rice point rice hole, and the interlude drops when middle section rice hole and rice hole coincide, and rice point both ends drop when rice point rice hole and rice hole coincide. The embryo remaining and rice cutting machine comprises three sections of rice dividing units of embryo remaining rice, a rice dropping bin and a rice cutting unit; the rice cutting unit is arranged above the rice falling plate of the rice dividing unit, and the rice falling bin is arranged on the rice falling plate of the rice dividing unit. The invention is used for processing the rice with embryo.

Description

Three-section rice dividing unit for remained embryo rice and embryo remaining rice cutting machine using same

Technical Field

The invention relates to a rice dividing unit and a germ remaining and rice cutting machine, in particular to a rice dividing unit of three-section germ remaining rice and a germ remaining and rice cutting machine using the same.

Background

With the intensive research on the embryo remaining rice, the two ends of the rice or brown rice after cutting process show three sections of rice, namely: rice grain interlude and two rice cusp sections, in order to guarantee to stay the taste of cooking of embryo rice, need carry out abrasive machining with the rice grain interlude, do not carry out the grinding to two rice cusp sections to guarantee that the embryo of rice cusp section does not receive the destruction of grinding, and then reach the degree of living rice. In order to grind the middle section, the two meter-tip sections are not ground, and three processed rice sections need to be accurately separated and collected.

At present, the rice or brown rice end cutting and separating device adopts the method that two rice tip sections of rice grains are screened off and collected separately by controlling the mesh number of a screen, and then the middle section on the screen is collected and ground. Although the three-stage rice separation mode can realize the separation of the rice tips and the middle section, the three-stage rice separation mode has the problem of complicated structure.

In order to solve the technical problem of complicated structure of the separating device, in the germ-remaining rice processing machine of the middle section of the single-grain rice positioning mill, a rice milling station hole and a rice dropping station hole are formed in a rice supporting plate, and when the rice dropping plate horizontally moves to a rice dropping through hole in a rice dropping station on the rice supporting plate, rice can be discharged after being processed. In the in-service use process, in order to guarantee that the processed rice grains can accurately fall, strict requirements are imposed on the horizontal reciprocating motion speed of the rice falling plate, because if the reciprocating motion speed is too fast, rice is not enough to be unloaded, and if the reciprocating motion speed of the rice falling plate is slower, the rice cutting efficiency is influenced.

In conclusion, the existing germ-remaining rice processing machine has the problem of low rice cutting efficiency.

Disclosure of Invention

The invention aims to solve the problem that the existing germ-remaining rice processing machine is low in rice grinding efficiency. Further provides a rice dividing unit of three-section remained embryo rice and an embryo remaining rice cutter using the unit.

The technical scheme of the invention is as follows: a decimeter unit of three-section germ-remaining rice comprises a rice falling plate, a rice supporting plate and a middle section slideway; the rice dropping plate horizontally reciprocates and is slidably arranged on the rice supporting plate; the rice dropping plate is provided with a plurality of rows of rice dropping units, each row of rice dropping units is provided with a plurality of rice dropping holes, and the rice dropping holes on two adjacent rows of rice dropping units are mutually staggered in front and back; two divide a meter units have been seted up to the symmetry on holding in the palm the rice board, every divides a meter unit and all includes middle paragraph rice hole and two rice point rice holes that bilateral symmetry arranged, middle paragraph rice hole and two rice point rice holes are "article" font and arrange, an interlude slide is installed to the lower extreme in the rice point rice hole of every branch a meter unit, the interlude drops when middle section rice hole and rice hole coincide, the rice point both ends drop when rice point rice hole and rice hole coincide.

The invention also provides a germ-remaining rice cutting machine using the three-section germ-remaining rice dividing unit, which comprises three-section germ-remaining rice dividing units, a rice dropping bin and a rice cutting unit; the rice cutting unit comprises at least one rice cutting unit, the at least one rice cutting unit is arranged above the rice falling plate of the rice dividing unit, and the rice falling bin is arranged on the rice falling plate of the rice dividing unit.

Compared with the prior art, the invention has the following effects:

1. the invention effectively improves the grinding efficiency, and is realized by the following technical means:

according to the invention, by adopting the middle section rice hole 2-1 and the rice tip rice hole 2-2, when the middle section rice hole 2-1 is superposed with the rice hole 1-1, the middle section falls, and when the rice hole 2-2 is superposed with the rice hole 1-1, the two ends of the rice tip fall. Even the influence of the middle section of the rice grains and the rice tips on the dropping process by the inertia force can not cause the rice dropping plate to rapidly reciprocate due to the blocking of the side wall of the rice dropping hole. Just under the condition that the rice dropping plate reciprocates rapidly, the middle section and the rice tip of the cut rice grains can also fall rapidly and accurately. The reciprocating motion speed of the rice dropping plate is improved, the rice cutting speed is high, the rice cutting efficiency is improved, and the rice cutting efficiency is improved by 26-34% by analyzing a plurality of groups of experimental data.

2. Compared with the existing mode of realizing three-section rice separation by adopting a screen, the invention effectively reduces the height of the whole decimeter unit, has small volume and reduces the production cost.

3. The decimeter unit decimeter rate adopted by the invention reaches 98-99%, and the problem of incomplete screening caused by rice tips pricked on the screen during the screening process of the existing screen is effectively solved.

Drawings

FIG. 1 is an isometric schematic view of a decimeter unit of the present invention. Fig. 2 is a front view of fig. 1. Fig. 3 is a schematic isometric view of fig. 1 after it has been removed from rice board 1. Fig. 4 is a top view of the rice cropping board 1. Fig. 5 is a partial enlarged view of fig. 4 at C. Fig. 6 is a schematic structural view of the rice cutting machine. Fig. 7 is a front view of the rice cutter with the housing installed. Fig. 8 is a cross-sectional view at a-a of fig. 7. Fig. 9 is an enlarged view, partly in section, of fig. 7 at B-B.

Detailed Description

The first embodiment is as follows: the embodiment is described by combining fig. 1 to fig. 5, and comprises a rice falling plate 1 and a rice supporting plate 2, and further comprises a middle section slideway 6; the rice falling plate 1 horizontally reciprocates and is slidably arranged on the rice supporting plate 2; the rice dropping plate 1 is provided with a plurality of rows of rice dropping units, each row of rice dropping units is provided with a plurality of rice dropping holes 1-1, and the rice dropping holes 1-1 on two adjacent rows of rice dropping units are mutually staggered from front to back; two rows of rice separating units are symmetrically arranged on the rice supporting plate 2, each row of rice separating units comprises a middle section rice hole 2-1 and two rice tip rice holes 2-2 which are symmetrically arranged left and right, the middle section rice hole 2-1 and the two rice tip rice holes 2-2 are arranged in a shape like a Chinese character 'pin', a middle section slideway 6 is arranged at the lower end of the rice tip rice hole 2-2 of each row of rice separating units, the middle section falls when the middle section rice hole 2-1 is superposed with the rice hole 1-1, and the two ends of the rice tip fall when the rice tip rice hole 2-2 is superposed with the rice hole 1-1.

The rice dropping plate 1 of the embodiment is 3mm in thickness, the cutting tip cutter grooves 1-2 are formed in the rice dropping plate 1, the depth of the cutting tip cutter grooves 1-2 is 2.8mm, the whole rice dropping plate is guaranteed to be machined, the problem of splicing errors in rice dropping plate manufacturing by splicing production is avoided, meanwhile, the service life of the rice dropping plate can be guaranteed, the rice cutting accuracy of the cutting tip cutter grooves 1-2 is guaranteed, and the problem of cutting errors caused by the fact that the transparent cutting tip cutter grooves 1-2 are adopted after long-time use is solved. Through the technical means adopted by the embodiment, the rice cutting precision can be effectively guaranteed, and germs can not be damaged.

The rice supporting plate and the rice dropping plate are in sliding connection, the middle section of rice grains and the rice tips can be quickly and timely dropped through the elongated middle section rice dropping hole 2-1 and the elongated rice tip rice dropping hole 2-2, and the rice grains and the rice tips are downward inclined and dropped in the elongated middle section rice dropping hole 2-1 and the elongated rice tip rice dropping hole 2-2 under the driving of the inertia force generated in the reciprocating motion process of the rice dropping plate, so that smooth rice unloading can be guaranteed only by adopting the elongated holes which are sufficiently larger than the sizes of the middle section of the rice grains and the rice tips. Therefore, the problem of rice jamming can not occur when the rice dropping plate reciprocates, namely the middle section or the rice tip of rice grains can not be jammed between the rice dropping plate and the rice supporting plate.

The rice hole 2-2 of rectangular shape rice point of this embodiment is located one side of rectangular shape midrange section rice hole 2-1, that is to say that the rice interlude of this embodiment and rice point do not drop simultaneously, but fall the timesharing, collect alone, and the abrasive machining carries out in the rice mill after the rice interlude passes through interlude slide 6 and collects to the rice mill, and the rice point part is collected alone in the rice box.

The second embodiment is as follows: referring to fig. 3, the embodiment will be described, in which the middle section of the rice hole 2-1 is a rectangular hole. So set up, be convenient for providing sufficient space for dropping of grain of rice interlude, the effectual card rice problem of having avoided leading to because of grain of rice inertial force. Other components and connections are the same as in the first embodiment.

The elongated middle section rice hole 2-1 mentioned in the present embodiment is a rectangular hole, and the long side of the rectangular hole is parallel to the long side of the rice supporting plate.

The third concrete implementation mode: referring to fig. 3, the rice supporting plate 2 of the present embodiment is provided with elongated holes 2-3 along the length direction thereof. So set up, this rectangular shape hole mainly provides a space that can the rectilinear sliding for round pin axle 11 in the drive assembly, and then drives rice falling board reciprocating motion. Other components and connection relationships are the same as those in the second embodiment.

The fourth concrete implementation mode: the present embodiment will be described with reference to fig. 2, and the intermediate stage chute 6 of the present embodiment is an elongated pipe. So set up, during the in-service use, interlude slide 6 is preferred to be two sets of, two sets of interlude slides 6 set up relatively, and be the Y font and arrange, and paragraph rice hole 2-1 in the middle of interlude slide 6's upper end and rectangular shape links to each other, and the grain of rice interlude drops and collects the funnel 13 through the interlude after collecting the arrangement and get into the grinding of rice mill, and whole decimeter process is simple, swift, under the prerequisite that cuts the improvement of rice speed, can effectively satisfy the mill meter volume of rice mill. Other compositions and connection relations are the same as those of the third embodiment.

The fifth concrete implementation mode: the present embodiment is described with reference to fig. 1 to 3, and further includes a driving assembly H, two frames 3, two sliding rails 4, two sliding blocks 5, and a plurality of pressing bars 20; two frames 3 are arranged in parallel relatively, hold in the palm 2 horizontal installations of rice board in two frames 3, two slide rails 4 are worn to establish on two frames 3 in parallel, and two slide rails 4 are located the left and right sides of holding in the palm 2 length direction of rice board, slidable mounting has a slider 5 on every slide rail 4, the lower extreme at two slide rails 4 arbitrary one side is installed to drive assembly H, rice falling plate 1 installs on holding in the palm rice board 2, and rice falling plate 1 is at the drive of drive assembly H down at the last reciprocating motion of rice falling plate 2, the middle part at every row of rice falling unit is installed to a plurality of layering 20. During actual use, two pressing strips are installed on each row of rice dropping units, one end of each pressing strip is connected with the outer side wall of the rice dropping bin 17, and the other end of each pressing strip is connected with the inner side wall of the shell. The layering is passed between two blades and pressed on the middle section of rice grains. So set up, can effectively prevent cutting rice and cross, take place the phenomenon of collapsing rice, this kind of mode of pressing rice does not influence the reciprocating motion and the rice that falls of rice board moreover. Other compositions and connection relations are the same as those of any one of the first to fourth embodiments.

The sixth specific implementation mode: the embodiment is described with reference to fig. 1 to 3, the driving assembly H of the embodiment includes a motor 8, a rotary table 9, a swing rod 10, a pin 11 and a motor mounting bracket 12, the motor 8 is mounted at the lower ends of the two slide rails 4 through the motor mounting bracket 12, the rotary table 9 is rotatably mounted on an output shaft of the motor 8, one end of the swing rod 10 is mounted on the rotary table 9, the pin 11 is mounted at the upper part of the other end of the swing rod 10, and the pin 11 is connected with the rice dropping plate 1 after penetrating through the long strip-shaped hole 2-3. So set up, be convenient for drive rice falling board and realize reciprocating motion. Other compositions and connection relations are the same as those of any one of the first to the fifth embodiments.

The rotary table 9 of the embodiment is driven by the output shaft of the motor 8 to rotate, the swing rod 10 arranged on the rotary table 9 is driven by the rotary table to convert the circular motion into the linear motion, and the rice supporting plate is fixed and transmits the linear motion to the rice falling plate through the pin shaft 11 to drive the rice falling plate to do reciprocating linear motion.

The seventh embodiment: the embodiment is described with reference to fig. 1 to 3, and the embodiment further includes a support frame 7, an upper portion of the support frame 7 is mounted at a lower end of the rice supporting plate 2, and a lower portion of the support frame 7 extends downward to be connected with an outer end face of the middle section slideway 6. So set up, this support frame 7 is one of interlude slide 6's fixed connection mode, supports and connects the inclination of interlude slide 6. Other components and connection relations are the same as those of any one of the first to sixth embodiments.

The specific implementation mode is eight: the embodiment is described with reference to fig. 1 to 3, and the embodiment further includes an intermediate section collection funnel 13, the intermediate section collection funnel 13 is installed right below the intermediate section slide way 6, and the lower end of the intermediate section slide way 6 is inserted into the intermediate section collection funnel 13. So set up, the below cartridge of interlude collection funnel 13 is in the machine of grinding rice. Other constitutions and connection relations are the same as those of any one of the first to seventh embodiments.

The specific implementation method nine: the embodiment is described with reference to fig. 6 to 9, and includes three rice dividing units for remained germ rice, a rice falling bin 17 and a rice cutting unit; the rice cutting unit comprises at least one rice cutting unit, the at least one rice cutting unit is arranged above the rice falling plate 1 of the rice dividing unit, and the rice falling bin 17 is arranged on the rice falling plate 1 of the rice dividing unit. So set up, just can realize falling rice, cutting rice and minute rice through a machine, convenient to use person after throwing into this machine with the brown rice, can only just can acquire the good rice grain interlude of taste to and the rice point that contains the embryo, rice grain interlude and rice point are collected respectively, and convenient to use person uses according to actual demand. Other compositions and connection relations are the same as those of any one of the first to eighth embodiments.

The detailed implementation mode is ten: referring to fig. 6, the embodiment is described, each rice cutting unit of the embodiment includes a cutter shaft 14, a plurality of pairs of blades 15 and a plurality of spacers 16, the cutter shaft 14 is mounted on the housing through a bearing seat, the plurality of pairs of blades 15 are sleeved on the cutter shaft 14, and one spacer 16 is mounted between two adjacent pairs of blades 15. The rice grains can be conveniently cut by the arrangement. Other components and connection relationships are the same as those in any one of the first to ninth embodiments.

This embodiment is in the actual time, can install on the rice mill, because there is the recess of a infundibulate on rice mill upper portion, there is a rice grain interlude rice milling hole bottom center of this recess, a lower part for installing interlude collection funnel 13, and the recess of infundibulate is having seted up a collection hole, a guiding tube is used for installing, this collection hole is seted up at the least significant end of recess, the rice point of being convenient for can fall under the effect of gravity and collect, the lower part of guiding tube is connected with the rice box of installing at the rice mill, make the rice point directly drop and collect in the rice box.

The concrete implementation mode eleven: referring to fig. 6, the rice cutting unit of the present embodiment further includes a power driving unit, the power driving unit is mounted on the housing, and the power driving unit is connected to the knife shaft 14 and drives the knife shaft 14 to rotate. So set up, the arbor adds after power, improvement cutting efficiency that can show. Other components and connection relationships are the same as those in any one of the first to tenth embodiments.

This embodiment can adopt external motor, drives the band knife axle through the drive and rotates, and when rice dropping plate carries out reciprocating motion, the blade cuts rice under the drive of arbor, and then improves and cuts rice efficiency.

The working principle of the invention is as follows:

the first step is as follows: rice filling:

the user puts a proper amount of brown rice into the rice dropping bin 17 according to the actual rice consumption;

the second step is that: cutting rice:

firstly, starting a motor 8, driving a rotary table 9 to rotate by the motor 8, driving a swing rod 10 to do linear motion by the rotary table 9, and driving a rice dropping plate to do reciprocating horizontal motion by a pin shaft;

secondly, the rice dropping plate makes rice grains in the rice dropping bin enter the rice dropping hole in the reciprocating motion process, so that rice is loaded; meanwhile, the rice cutting unit is positioned at the upper part of the rice falling plate, so that rice cutting can be realized even if the rice cutting unit has no power.

The third step: unloading rice:

the middle section of the cut rice grains fall into a long strip-shaped middle section rice hole 2-1 in the reciprocating motion process, then enter a middle section collecting hopper 13, and finally are ground in a rice grinding machine. After the rice tips fall into the elongated rice tip rice falling holes 2-2, the rice tips can directly enter the guide pipe of the rice mill and then are collected according to actual needs.

Claims (10)

1. The utility model provides a decimeter unit of embryo rice is stayed to three-section, it includes rice falling board (1) and holds in the palm rice board (2), its characterized in that: it also comprises a middle section slideway (6); the rice dropping plate (1) horizontally reciprocates and is slidably arranged on the rice supporting plate (2); a plurality of rows of rice falling units are arranged on the rice falling plate (1), a plurality of rice falling holes (1-1) are formed in each row of rice falling units, and the rice falling holes (1-1) in two adjacent rows of rice falling units are arranged in a staggered manner from front to back; two rows of rice separating units are symmetrically arranged on the rice supporting plate (2), each row of rice separating units comprises a middle section rice hole (2-1) and two rice tip rice dropping holes (2-2) which are symmetrically arranged left and right, the middle section rice hole (2-1) and the two rice tip rice dropping holes (2-2) are distributed in a shape like a Chinese character 'pin', a middle section slide way (6) is arranged at the lower end of each row of rice tip rice dropping holes (2-2) of each row of rice separating units, the middle section drops when the middle section rice dropping holes (2-1) coincide with the rice dropping holes (1-1), and the two ends of the rice tip drop when the rice tip rice dropping holes (2-2) coincide with the rice dropping holes (1-1).

2. The decimeter unit of three-stage embryo-remaining rice according to claim 1, wherein: the rice hole (2-1) of the middle section is a rectangular hole.

3. The decimeter unit of three-stage remained germ-rice according to claim 1 or 2, characterized in that: the rice supporting plate (2) is provided with a strip-shaped hole (2-3) along the length direction.

4. The decimeter unit of three-stage embryo-remained rice as claimed in claim 3, wherein: the middle section slideway (6) is a long strip-shaped pipe.

5. The decimeter unit of three-stage remained embryo rice as claimed in claim 1 or 4, wherein: the device also comprises a driving component (H), two frames (3), two sliding rails (4), two sliding blocks (5) and a plurality of pressing strips (20); two frames (3) are parallel arrangement relatively, hold in the palm rice board (2) horizontal installation in two frames (3), two slide rails (4) are worn to establish in parallel on two frames (3), and two slide rails (4) are located the left and right sides of holding in the palm rice board (2) length direction, slidable mounting has a slider (5) on every slide rail (4), the lower extreme at two slide rails (4) arbitrary one side is installed in drive assembly (H), rice falling board (1) is installed on holding in the palm rice board (2), and rice falling board (1) reciprocating motion on rice supporting board (2) under the drive of drive assembly (H), the middle part at every row of rice falling unit is installed in a plurality of layering (20).

6. The decimeter unit of three-stage embryo-remained rice as claimed in claim 5, wherein: drive assembly (H) includes motor (8), carousel (9), pendulum rod (10), round pin axle (11) and motor mounting bracket (12), motor (8) are installed at the lower extreme of two slide rails (4) through motor mounting bracket (12), carousel (9) rotate to be installed on the output shaft of motor (8), the one end of pendulum rod (10) is installed on carousel (9), round pin axle (11) are installed on the other end upper portion of pendulum rod (10), round pin axle (11) are connected with rice dropping plate (1) after wearing long bar hole (2-3).

7. The decimeter unit of three-stage embryo-remained rice as claimed in claim 6, wherein: the rice supporting device is characterized by further comprising a supporting frame (7), wherein the upper portion of the supporting frame (7) is installed at the lower end of the rice supporting plate (2), and the lower portion of the supporting frame (7) extends downwards to be connected with the outer end face of the middle section slideway (6).

8. The decimeter unit of three-stage embryo-remained rice as claimed in claim 7, wherein: it still includes interlude collection funnel (13), and interlude collection funnel (13) are installed under interlude slide (6), and the lower extreme cartridge of interlude slide (6) is in interlude collection funnel (13).

9. A rice cutting machine using the rice dividing unit of three-stage rice with remained embryo as claimed in any one of claims 1 to 8, characterized in that: the rice cutting machine comprises three sections of rice dividing units for remained germ rice, a rice falling bin (17) and a rice cutting unit;

the rice cutting unit comprises at least one rice cutting unit, the at least one rice cutting unit is arranged above the rice falling plate (1) of the rice dividing unit, and the rice falling bin (17) is arranged on the rice falling plate (1) of the rice dividing unit.

10. The embryo-staying rice-cutting machine using three-stage embryo-staying rice-decimetric unit as claimed in claim 9, characterized in that: each rice cutting unit comprises a cutter shaft (14), a plurality of pairs of blades (15) and a plurality of spacer bushes (16), the cutter shaft (14) is installed on the shell through a bearing seat, the plurality of pairs of blades (15) are sleeved on the cutter shaft (14), and one spacer bush (16) is installed between every two adjacent pairs of blades (15).

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