CN115178321A - Germ rice processing device and method - Google Patents

Abstract

The invention discloses a germ rice processing device and method, which comprises a box body and is characterized in that: the box fixed connection symmetrical set square, the symmetry the set square is fixed connection baffle respectively, baffle fixed connection the box, the symmetry the set square is fixed connection fixture block respectively, the symmetry the set square is fixed connection discharge gate respectively, baffle fixed connection the discharge gate, the box rotates connects the circle axle, circle axle fixed connection handles the board, it is provided with a set of evenly distributed's holding tank to handle the board. The invention relates to the field of rice processing equipment, in particular to a germ rice processing device and method. The invention aims to provide a germ rice processing device and method, which are convenient for processing germ rice.

Description

Germ rice processing device and method

Technical Field

The invention relates to the field of rice processing equipment, in particular to a germ rice processing device and method.

Background

The common rice is processed by the process of 'rice-brown rice-germ rice-polished rice', rice husks are removed from the rice to form brown rice, but a brown rice skin is covered around the brown rice, and the germ rice only removes the surface layer of the non-digestible brown rice skin on the basis of the brown rice, so that complete germs and seed coats are reserved. In a rice grain, the germ is only 3% by weight, and 66% of the nutrients in this small germ are called "nuggets". The germ rice contains abundant proteins, starch, dietary fiber, various vitamins and bioactive substances, and also contains trace elements such as calcium, iron, zinc, selenium, etc. Along with the development of economy and the improvement of living standard of people, people pay more and more attention to the rationalization of diet and the comprehensiveness of nutrition, the improvement of public nutrition is greatly promoted, the rising trend of the incidence rate of diet-related chronic diseases is slowed down, and the rice with plumule and rich nutrition is advocated. Nowadays, the rice with germ can be prepared by directly using a thresher, and the main steps comprise inspection, shelling, drying, rice rolling, primary grinding, secondary grinding and color selection. Since the embryo tissue is loose, the embryo and radicle are connected by a very short hypocotyl, and the embryo is located under the abdomen of rice, and the connection with the endosperm is not firm. Therefore, if a product with multiple processing procedures, complexity and higher precision is used, the germ can be more easily fallen off, and the germ retention rate is lower. How to take account of the germ retention rate and the precision is the key point for producing the germ-free rice. Meanwhile, the taste of the germ rice can be directly influenced, and the method has a direct relation with the processing process of the germ rice.

If can provide a device, realize the interim storage of rice, polish and collect and integrative, will improve plumule rice machining efficiency.

Disclosure of Invention

The invention aims to provide a germ rice processing device and method, which are convenient for processing germ rice.

The invention adopts the following technical scheme to realize the purpose of the invention:

the germ rice processing device and method comprise a box body and are characterized in that: the box body is fixedly connected with symmetrical triangular plates, the symmetrical triangular plates are respectively fixedly connected with a baffle, the baffle is fixedly connected with the box body, the symmetrical triangular plates are respectively fixedly connected with a fixture block, the symmetrical triangular plates are respectively fixedly connected with a discharge port, the baffle is fixedly connected with the discharge port, the box body is rotatably connected with a circular shaft, the circular shaft is fixedly connected with a processing plate, the processing plate is provided with a group of uniformly distributed storage tanks, the processing plate is matched with the symmetrical triangular plates, the processing plate is fixedly connected with an arc plate, the arc plate is matched with the baffle, the processing plate is fixedly connected with a symmetrical circular rod II, the stopper is matched with the symmetrical fixture block, the stopper is provided with a symmetrical circular groove, the symmetrical circular rod II is matched with the symmetrical circular groove, the symmetrical circular groove is respectively provided with a spring, one end of the symmetrical spring is respectively and fixedly connected with the stopper, the symmetrical spring is respectively and corresponds to the circular rod II, the other end of the symmetrical spring is respectively and fixedly connected with the processing plate, the other end of the symmetrical processing plate is respectively and fixedly connected with a second motor, an output shaft of the box body passes through the box body, the screw of the second motor is fixedly connected with a ring sleeve, one end of the slider is connected with a screw rod, and one end of the slider is connected with a connecting rod of the slider, and the slider.

As a further limitation of the technical scheme, the box body is fixedly connected with a symmetrical second electric push rod, the symmetrical push rod ends of the second electric push rod are respectively and fixedly connected with a conveying pipe, the conveying pipe is fixedly communicated with an intermediate groove, the intermediate groove is fixedly communicated with a discharge groove, the conveying pipe is fixedly connected with a first motor, an output shaft of the first motor penetrates through the conveying pipe, the output shaft of the first motor is fixedly connected with a conveying roller, the conveying roller is matched with the conveying pipe and the intermediate groove, and the conveying roller is provided with a group of uniformly distributed grooves.

As the further inject of this technical scheme, the fixed intercommunication pipe of box is first, pipe one is provided with the ring groove, a circle fixed connection square plate one, the round bar one of box fixed connection symmetry, the symmetry the round bar one respectively fixed connection T shaped plate, the electric putter one of T shaped plate fixed connection symmetry.

As a further limitation of this technical scheme, a square plate fixed connection motor three, the output shaft of motor three passes square plate one, output shaft fixed connection gear of motor three, be provided with ring two in the ring groove, ring two bearing connection pipe one, ring two fixed connection ring gear, gear engagement the ring gear, ring gear fixed connection a set of evenly distributed's square two, be provided with pipe two in the pipe one, pipe two fixed connection ring one, a set of evenly distributed's square one of ring fixed connection, a set of square one matches a set of square two, a set of evenly distributed's of bottom plate fixed connection pole of rubbing of pipe one, the bottom plate of pipe one is provided with a set of evenly distributed's square groove.

As a further limitation of the technical scheme, the push rod ends of the first electric push rod are respectively and fixedly connected with a second square plate, the second square plate is fixedly connected with a U frame, the second square plate is fixedly connected with symmetrical vertical rods, one vertical rod is fixedly connected with a motor four, an output shaft of the motor four penetrates through one vertical rod, an output shaft of the motor four is fixedly connected with a rotating wheel two and another vertical rod bearing is connected with a rotating wheel three, the second square plate is connected with a hollow round rod one through a bearing, the first hollow round rod is fixedly connected with a rotating wheel four, the U frame is connected with a hollow round rod two through a bearing, the second hollow round rod is fixedly connected with a rotating wheel one, the hollow round rod one is arranged in the hollow round rod two, a belt sequentially surrounds the rotating wheel two, the rotating wheel four, the rotating wheel three and the rotating wheel one, the second hollow round rod is fixedly connected with a group of uniformly distributed stirring plates, the first hollow round rod is fixedly communicated with a group of uniformly distributed square tubes, and each square tube is respectively provided with a group of uniformly distributed discharge holes.

As a further limitation of this solution, the box is provided with an opening, the stopper matching the opening.

The method for processing the germ rice is characterized by comprising the following steps:

the method comprises the following steps: in an initial state, the upper end of the arc plate contacts the baffle plate, the processing plate is positioned at a rice feeding position, and the conveying pipe is connected with the raw material bin;

step two: the electric push rod II is controlled to be fully contracted, and then the motor II is controlled to rotate, so that the stop block is close to the middle groove, and the processing plate is positioned at a rice storage position;

step three: controlling the second electric push rod to stretch out at a constant speed, controlling the first motor to rotate, enabling the rice to enter the conveying pipe and enter the groove, and driving the rice to enter the middle groove through the conveying rotation, and enabling the rice to fall into the storage groove from the discharge groove until the second electric push rod stretches out completely;

step four: controlling the second motor to rotate to enable the processing plate to be horizontal, enabling the processing plate to be in a ground rice position, and enabling the stop block to enter the opening;

step five: controlling the first electric push rod to extend out to enable the square pipe to be close to the first circular pipe bottom plate;

step six: controlling the third motor and the fourth motor to rotate, continuously putting grinding balls from the first hollow round rod to enable the grinding rod to grind the rice in a reciprocating manner, and enabling the grinding balls to fall from the discharge hole and the square groove to assist the grinding rod to grind the rice to form germ rice;

step seven: and a material barrel is placed below the discharge port, the two motors are controlled to rotate reversely, the stop blocks are stopped by the clamping blocks, the processing plate is positioned at a rice feeding position, and the milled rice and the grinding balls fall down along the storage tank and fall into the material barrel from the discharge port.

As a further limitation of the technical solution, when the second motor rotates, the second motor drives the screw to rotate, the screw drives the slider to move, the slider drives the connecting rod to swing, the connecting rod drives the processing plate to swing, the processing plate drives the circular shaft to rotate, the processing plate drives the arc plate to move along the baffle, and the processing plate drives the circular rod two, the spring and the stop block to swing.

As a further limitation of the technical solution, when the motor three rotates, the motor three drives the gear to rotate, the gear drives the gear ring and the ring two to rotate, the gear ring drives the block two to rotate, the block two drives the block one to rotate, the block drives the ring one to rotate, and the ring one drives the pipe two and the rubbing rod to rotate.

As this technical scheme's further injecture, when the motor four rotates, the motor four drives two rotations of runner, two passes through the belt drives four of runner three reaches one of runner rotates, one of runner with four opposite directions of runner, one of runner drives two of hollow round bar reach the stirring board rotates, four drives of runner one reach one of hollow round bar side pipe rotates, the stirring board with side pipe turns to opposite, the stirring board will be followed the discharge opening falls accumulational grinding ball and breaks up, makes things convenient for the grinding ball to follow the square trough falls down.

Compared with the prior art, the invention has the advantages and positive effects that:

1. this device is through setting up fixture block, dog, processing board, spring, round bar two and circular slot, under the drive of relevant component, realizes the three position of processing the board: a rice feeding position, a rice storage position and a ground rice position; when the processing plate is at the rice feeding position, the clamping block blocks the stop dog and the spring to be stretched under the action of the clamping block, so that the germ rice and the grinding balls can fall conveniently; when the processing plate is at the position for storing rice, the spring is restored, so that the stop block is contacted with the processing plate, and the rice is prevented from being separated from the processing plate to cause waste.

2. This device adopts the different square groove of size and beats the pole of rubbing through setting up the pipe two that the model is different, realizes handling the rice of size difference, enlarges application range.

3. This device stretches out at the uniform velocity through control electric putter two, and control motor rotates, realizes that the rice evenly falls on the processing board of slope, conveniently realizes the evenly distributed of rice, conveniently realizes polishing to the rice.

4. This device is through using belt ring cover runner one, runner two, runner three and runner four, realizes that stirring board and square pipe turn to reversely, from continuous putting into the grinding ball of hollow round bar, the grinding ball falls down from the discharge opening, and the stirring board will fall down accumulational grinding ball from the discharge opening and break up, makes things convenient for the grinding ball to fall down from the square trough, and the supplementary pole that rubs of beating polishes rice, forms the plumule rice.

5. This device realizes interim storage, the polishing and the collection and an organic whole of rice through design ingeniously, improves plumule rice machining efficiency.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the first embodiment of the present invention.

Fig. 3 is a partially cut-away perspective view of the first embodiment of the present invention.

Fig. 4 is a partial perspective view of the second embodiment of the present invention.

Fig. 5 is a schematic view of a partial three-dimensional structure of the present invention.

Fig. 6 is a partial perspective view illustrating a fourth embodiment of the present invention.

Fig. 7 is a schematic partial perspective view of the present invention.

Fig. 8 is a schematic partial perspective view illustrating a sixth embodiment of the present invention.

Fig. 9 is a schematic diagram of a partial three-dimensional structure according to the present invention.

Fig. 10 is a schematic partial perspective view eight of the present invention.

Fig. 11 is a schematic partial perspective view nine of the present invention.

Fig. 12 is a partial perspective view illustrating a cross section of the present invention.

Fig. 13 is a schematic diagram eleven illustrating a partial three-dimensional structure according to the present invention.

Fig. 14 is a partially cut-away schematic perspective view of the second embodiment of the present invention.

Fig. 15 is a schematic view of the present invention in a partially cut-away perspective structure.

Fig. 16 is a partial perspective view of the second embodiment of the present invention.

In the figure: 1. t-shaped plate, 2, round bar I, 3, electric push rod I, 4, box body, 5, opening, 6, discharge port, 7, electric push rod II, 8, square plate I, 9, round tube I, 10, circular groove, 11, triangle plate, 13, clamping block, 14, baffle, 15, discharge groove, 16, middle groove, 17, conveying pipe, 18, motor I, 19, conveying roller, 20, groove, 21, round shaft, 22, processing plate, 23, motor II, 24, storage groove, 25, screw, 26, connecting rod, 27, slide block, 28, arc plate, 29, spring, 30, stop block, 31, a gear, 32, a motor III, 33, a ring I, 34, a block I, 35, a round pipe II, 36, a rubbing rod, 37, a square groove, 38, a gear ring, 39, a block II, 40, a ring II, 41, a square plate II, 42, a hollow round rod I, 43, a U frame, 44, a rotating wheel I, 45, a hollow round rod II, 46, a stirring plate, 47, a motor IV, 48, a rotating wheel II, 49, a vertical rod, 50, a belt, 51, a round rod II, 52, a round groove, 53, a rotating wheel III, 54, a rotating wheel IV, 55, a square pipe, 56 and a discharge hole.

Detailed Description

One embodiment of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the scope of the invention is not limited to the embodiment.

The invention comprises a box body 4, the box body 4 is fixedly connected with symmetrical triangular plates 11, the symmetrical triangular plates 11 are respectively and fixedly connected with a baffle plate 14, the baffle plate 14 is fixedly connected with the box body 4, the symmetrical triangular plates 11 are respectively and fixedly connected with a clamping block 13, the symmetrical triangular plates 11 are respectively and fixedly connected with a discharge hole 6, the baffle plate 14 is fixedly connected with the discharge hole 6, the box body 4 is rotatably connected with a circular shaft 21, the circular shaft 21 is fixedly connected with a processing plate 22, the processing plate 22 is provided with a group of uniformly distributed storage grooves 24, the processing plate 22 is matched with the symmetrical triangular plates 11, the processing plate 22 is fixedly connected with an arc plate 28, the arc plate 28 is matched with the baffle plate 14, the processing plate 22 is fixedly connected with a symmetrical round rod II 51, and the processing plate 22 is matched with a clamping block 30, the stopper 30 is matched with the symmetrical stopper 13, the stopper 30 is provided with symmetrical circular grooves 52, the symmetrical second round rods 51 are matched with the symmetrical circular grooves 52, the symmetrical circular grooves 52 are respectively provided with springs 29, one ends of the symmetrical springs 29 are respectively fixedly connected with the stopper 30, the symmetrical springs 29 are respectively sleeved on the corresponding second round rods 51, the other ends of the symmetrical springs 29 are respectively fixedly connected with the processing plate 22, the box body 4 is fixedly connected with the second motor 23, the output shaft of the second motor 23 penetrates through the box body 4, the output shaft of the second motor 23 is fixedly connected with a screw rod 25, the screw rod 25 is in threaded connection with a sliding block 27, the sliding block 27 is rotatably connected with one end of a connecting rod 26, and the other end of the connecting rod 26 is rotatably connected with the processing plate 22.

The box body 4 is fixedly connected with a symmetrical second electric push rod 7, the push rod ends of the symmetrical second electric push rod 7 are respectively and fixedly connected with a conveying pipe 17, the conveying pipe 17 is fixedly communicated with an intermediate groove 16, the intermediate groove 16 is fixedly communicated with a discharge groove 15, the conveying pipe 17 is fixedly connected with a first motor 18, an output shaft of the first motor 18 penetrates through the conveying pipe 17, an output shaft of the first motor 18 is fixedly connected with a conveying roller 19, the conveying roller 19 is matched with the conveying pipe 17 and the intermediate groove 16, and the conveying roller 19 is provided with a group of uniformly distributed grooves 20.

The box 4 is fixed and is communicated with a first round pipe 9, the first round pipe 9 is provided with a circular groove 10, the first round pipe 9 is fixedly connected with a square plate 8, the first round rod 2 and the second round rod 2 are fixedly connected with a symmetrical box 4 and are symmetrical, the first round rod 2 is fixedly connected with a T-shaped plate 1, and the first electric push rod 3 is fixedly connected with the symmetrical T-shaped plate 1.

8 fixed connection motors three 32 of square plate, the output shaft of three 32 of motors passes square plate 8, three 32 output shaft fixed connection gear 31 of motors, be provided with two 40 rings in the circular groove 10, two 40 bearings of rings are connected first 9 of pipe, two 40 fixed connection ring gears 38 of rings, gear 31 meshing ring gears 38, two 39 of a set of evenly distributed's square of ring gears 38 fixed connection, be provided with two 35 pipes in the pipe 9, two 35 fixed connection ring 33 of pipe, a 33 fixed connection of ring a 34 of a set of evenly distributed's square, a set of a 34 of square matches a set of two 39 of square, the pole 36 of rubbing of a set of evenly distributed of the bottom plate fixed connection of pipe a 35, the bottom plate of pipe a 35 is provided with a set of evenly distributed's square groove 37.

The symmetry the push rod end of electric putter one 3 is two 41 of fixed connection square plate respectively, two 41 fixed connection U framves 43 of square plate, the montant 49 of two 41 fixed connection symmetries of square plate, one montant 49 fixed connection motor four 47, the output shaft of motor four 47 passes one montant 49, the output shaft fixed connection runner two 48 of motor four 47, another the montant 49 bearing connects the runner three 53, hollow round bar one 42 is connected to two 41 bearings of square plate, hollow round bar one 42 fixed connection runner four 54, hollow round bar two 45 is connected to U frame 43 bearing, hollow round bar two 45 fixed connection runner one 44, hollow round bar one 42 sets up in hollow round bar two 45, the belt 50 encircles in proper order in the runner two 48, four 54, runner three 53 and runner one runner 44, hollow round bar two 45 fixed connection a set of evenly distributed's stirring board 46, hollow round bar one 42 fixed intercommunication a set of evenly distributed's square pipe 55, every square pipe 55 is provided with a set of evenly distributed's discharge opening 56 respectively.

The box 4 is provided with an opening 5 and the stopper 30 matches the opening 5.

A method for processing germ rice comprises the following steps:

the method comprises the following steps: in an initial state, the upper end of the arc plate 28 contacts the baffle plate 14, the processing plate 22 is positioned at a rice feeding position, and the conveying pipe 17 is connected with a raw material bin;

step two: firstly, controlling the second electric push rod 7 to fully contract, and then controlling the second motor 23 to rotate, so that the stop block 30 is close to the middle groove 16, and the processing plate 22 is at a rice storage position;

step three: controlling the second electric push rod 7 to stretch out at a constant speed, controlling the first motor 18 to rotate, enabling the rice to enter the conveying pipe 17 and enter the groove 20, and driving the rice to enter the middle groove 16 through rotation of the conveying roller 19, and enabling the rice to fall into the storage groove 24 from the discharge groove 15 until the second electric push rod 7 stretches out completely;

step four: controlling the second motor 23 to rotate to enable the processing plate 22 to be horizontal, enabling the processing plate 22 to be in a ground rice position, and enabling the stop block 30 to enter the opening 5;

step five: controlling the electric push rod I3 to extend out, so that the square tube 55 is close to the circular tube I35 bottom plate;

step six: controlling the third motor 32 and the fourth motor 47 to rotate, continuously putting grinding balls into the hollow round rod I42, enabling the polishing rod 36 to polish the rice in a reciprocating mode, enabling the grinding balls to fall from the discharge hole 56 and fall from the square groove 37, and assisting the polishing rod 36 to polish the rice to form germ rice;

step seven: and a material barrel is placed below the discharge port 6, the motor II 23 is controlled to rotate reversely, the stop dog 30 is stopped by the clamping block 13, the processing plate 22 is positioned at a rice feeding position, and the milled rice and the grinding balls fall down along the storage tank 24 and fall into the material barrel from the discharge port 6.

When the second motor 23 rotates, the second motor 23 drives the screw rod 25 to rotate, the screw rod 25 drives the sliding block 27 to move, the sliding block 27 drives the connecting rod 26 to swing, the connecting rod 26 drives the processing plate 22 to swing, the processing plate 22 drives the circular shaft 21 to rotate, the processing plate 22 drives the arc plate 28 to move along the baffle 14, and the processing plate 22 drives the circular rod two 51, the spring 29 and the stop block 30 to swing.

When the motor three 32 rotates, the motor three 32 drives the gear 31 rotates, the gear 31 drives the gear ring 38 and the ring two 40 rotate, the gear ring 38 drives the block two 39 rotates, the block two 39 drives the block one 34 rotates, the block one 34 drives the ring one 33 rotates, the ring one 33 drives the pipe two 35 and the rubbing rod 36 rotates.

When the motor four 47 rotates, the motor four 47 drives the two 48 rotations of runner, two 48 of runner pass through belt 50 drive the four 54 of runner the three 53 of runner reaches a 44 rotation of runner, a 44 of runner with four 54 of runner turn to opposite, a 44 of runner drives two 45 of hollow round bar reach stirring board 46 rotates, four 54 of runner drive a 42 of hollow round bar reaches square pipe 55 rotates, stirring board 46 with square pipe 55 turns to opposite, stirring board 46 will follow the discharge opening 56 falls accumulational abrasive ball and breaks up, makes things convenient for the abrasive ball to follow square groove 37 falls down.

The first electric push rod 3, the second electric push rod 7, the first motor 18, the second motor 23, the third motor 32 and the fourth motor 47 are respectively electrically connected with a controller.

The working process of the invention is as follows: and debugging the controller to control the movement of the electric push rod I3, the electric push rod II 7, the motor I18, the motor II 23, the motor III 32 and the motor IV 47.

And selecting a proper second round pipe 35 for the rice with different sizes, wherein the second round pipe 35 has multiple types, and the square groove 37 and the rubbing rod 36 of each type have different sizes. When the second round tube 35 is placed in the first round tube 9, the first round ring 33 contacts the second square block 39 under the action of gravity.

In the initial state, the upper end of the arc plate 28 contacts the baffle plate 14, the processing plate 22 is in the rice feeding position, and the conveying pipe 17 is connected with the raw material bin to feed the raw material bin.

The full shrinkage of the electric push rod II 7 is controlled firstly, then the rotation of the motor II 23 is controlled, when the motor II 23 rotates, the motor II 23 drives the screw rod 25 to rotate, the screw rod 25 drives the sliding block 27 to move, the sliding block 27 drives the connecting rod 26 to swing, the connecting rod 26 drives the processing plate 22 to swing, the processing plate 22 drives the circular shaft 21 to rotate, the processing plate 22 drives the arc plate 28 to move along the baffle 14, the processing plate 22 drives the circular rod II 51 to swing, the spring 29 is restored firstly until the circular rod II 51 enters the circular groove 52, the processing plate 22 contacts the stop block 30, the spring 29 is restored completely, the processing plate 22 drives the circular rod II 51, the spring 29 and the stop block 30 to swing, the stop block 30 is far away from the stop block 13, the stop block 30 is close to the middle groove 16, and the processing plate 22 is located at a rice storage position.

The second electric push rod 7 is controlled to stretch out at a constant speed, the first motor 18 is controlled to rotate, rice enters the conveying pipe 17 and enters the groove 20, the conveying roller 19 rotates to drive the rice to enter the middle groove 16 and fall into the storage groove 24 from the discharge groove 15, the stop dog 30 contacts the processing plate 22, the rice is prevented from being separated from the processing plate 22 and causing waste until the second electric push rod 7 stretches out completely.

The second motor 23 is controlled to rotate, so that the processing plate 22 is horizontal, the processing plate 22 is in the ground rice position, and the stop 30 enters the opening 5.

And controlling the electric push rod I3 to extend out, so that the square pipe 55 is close to the first circular pipe 35 bottom plate.

And controlling the third motor 32 and the fourth motor 47 to rotate, wherein when the third motor 32 rotates, the third motor 32 drives the gear 31 to rotate, the gear 31 drives the gear ring 38 and the second ring 40 to rotate, the gear ring 38 drives the second block 39 to rotate, the second block 39 drives the first block 34 to rotate, the first block 34 drives the first ring 33 to rotate, and the first ring 33 drives the second circular pipe 35 and the rubbing rod 36 to rotate, so that the rubbing rod 36 polishes the rice in a reciprocating manner. When the motor four 47 rotates, the motor four 47 drives the rotating wheel two 48 to rotate, the rotating wheel two 48 drives the rotating wheel four 54, the rotating wheel three 53 and the rotating wheel one 44 to rotate through the belt 50, the rotating wheel one 44 and the rotating wheel four 54 rotate in opposite directions, the rotating wheel one 44 drives the hollow round rod two 45 and the stirring plate 46 to rotate, the rotating wheel four 54 drives the hollow round rod one 42 and the square pipe 55 to rotate, the stirring plate 46 and the square pipe 55 rotate in opposite directions, grinding balls are continuously put in from the hollow round rod one 42, the grinding balls fall from the discharge holes 56, the stirring plate 46 scatters the accumulated grinding balls falling from the discharge holes 56, the grinding balls fall from the square groove 37 conveniently, the auxiliary stirring rod 36 polishes rice, and germ rice is formed.

A material barrel is placed below the discharge port 6, the second motor 23 is controlled to rotate reversely, the stop block 30 is stopped by the clamping block 13, the processing plate 22 is positioned at a rice feeding position, and the germ rice and the grinding balls fall down along the storage tank 24 and fall into the material barrel from the discharge port 6.

The device realizes three positions of the processing plate 22 by arranging the fixture block 13, the stop block 30, the processing plate 22, the spring 29, the second round rod 51 and the round groove 52 under the driving of related elements: a rice feeding position, a rice storage position and a ground rice position; when the processing plate 22 is at the rice feeding position, under the action of the fixture block 13, the fixture block 13 blocks the fixture block 30 and the spring 29 to be stretched, so that the germ rice and the grinding balls fall conveniently; when the treating plate 22 is in the rice storage position, the spring 29 is restored, so that the stopper 30 contacts the treating plate 22, and the rice is prevented from being separated from the treating plate 22 to cause waste.

This device adopts the square groove 37 of size difference and beats 36 poles of rubbing through setting up two 35 of the pipe that the model is different, realizes handling the rice of size difference, enlarges application range.

This device stretches out at the uniform velocity through control electric putter two 7, and control motor 18 rotates, realizes that the rice evenly falls on the processing board 22 of slope, conveniently realizes the evenly distributed of rice, conveniently realizes polishing to the rice.

This device is through using 50 ring cover runners 44 of belt, two 48 of runners, three 53 of runner and four 54 of runner, realizes that stirring board 46 and square pipe 55 turn to reversely, puts into the lapping ball in succession from hollow round bar 42, and the lapping ball falls down from discharge opening 56, and stirring board 46 will fall down accumulational lapping ball from discharge opening 56 and break up, makes things convenient for the lapping ball to fall down from square groove 37, and supplementary 36 rice of polishing of pole that rubs form the plumule rice.

This device realizes interim storage, the polishing and the collection and an organic whole of rice through design ingeniously, improves plumule rice machining efficiency.

The above disclosure is only for the specific embodiment of the present invention, but the present invention is not limited thereto, and any variations that can be made by those skilled in the art should fall within the scope of the present invention.

Claims (10)

1. The utility model provides a germ rice processingequipment, includes box (4), its characterized in that:

the box body (4) is fixedly connected with symmetrical triangular plates (11), the symmetrical triangular plates (11) are respectively and fixedly connected with a baffle (14), the baffle (14) is fixedly connected with the box body (4), and the symmetrical triangular plates (11) are respectively and fixedly connected with clamping blocks (13);

the symmetrical set square (11) is respectively and fixedly connected with a discharge hole (6), and the baffle (14) is fixedly connected with the discharge hole (6);

the box body (4) is rotatably connected with a round shaft (21), the round shaft (21) is fixedly connected with a processing plate (22), the processing plate (22) is provided with a group of uniformly distributed storage grooves (24), the processing plate (22) is matched with the symmetrical triangular plate (11), the processing plate (22) is fixedly connected with an arc plate (28), and the arc plate (28) is matched with the baffle plate (14);

the processing plate (22) is fixedly connected with two symmetrical round rods (51), the processing plate (22) is matched with a stopper (30), the stopper (30) is matched with the symmetrical fixture blocks (13), the stopper (30) is provided with symmetrical round grooves (52), the two symmetrical round rods (51) are matched with the symmetrical round grooves (52), springs (29) are respectively arranged in the symmetrical round grooves (52), one ends of the symmetrical springs (29) are respectively and fixedly connected with the stopper (30), the symmetrical springs (29) are respectively and annularly sleeved on the corresponding round rods (51), and the other ends of the symmetrical springs (29) are respectively and fixedly connected with the processing plate (22);

the box body (4) is fixedly connected with a second motor (23), an output shaft of the second motor (23) penetrates through the box body (4), an output shaft of the second motor (23) is fixedly connected with a screw rod (25), the screw rod (25) is in threaded connection with a sliding block (27), the sliding block (27) is rotatably connected with one end of a connecting rod (26), and the other end of the connecting rod (26) is rotatably connected with the processing plate (22).

2. The germ rice processing apparatus of claim 1, wherein: the box body (4) is fixedly connected with a symmetrical second electric push rod (7), the push rod ends of the symmetrical second electric push rod (7) are respectively fixedly connected with a conveying pipe (17), the conveying pipe (17) is fixedly communicated with an intermediate groove (16), the intermediate groove (16) is fixedly communicated with a discharge groove (15), the conveying pipe (17) is fixedly connected with a first motor (18), an output shaft of the first motor (18) penetrates through the conveying pipe (17), an output shaft of the first motor (18) is fixedly connected with a conveying roller (19), the conveying roller (19) is matched with the conveying pipe (17) and the intermediate groove (16), and the conveying roller (19) is provided with a group of uniformly distributed grooves (20).

3. Germ rice processing plant according to claim 2, characterized in that: the fixed intercommunication pipe (9) of box (4), pipe (9) are provided with circular groove (10), circle (9) fixed connection square plate (8), round bar (2) of box (4) fixed connection symmetry, the symmetry round bar (2) respectively fixed connection T shaped plate (1), electric putter (3) of T shaped plate (1) fixed connection symmetry.

4. Germ rice processing plant according to claim 3, characterized in that: the utility model discloses a motor, including square plate one (8) fixed connection motor three (32), the output shaft of motor three (32) passes square plate one (8), output shaft fixed connection gear (31) of motor three (32), be provided with ring two (40) in ring groove (10), ring two (40) bearing connection pipe (9), ring two (40) fixed connection ring gear (38), gear (31) meshing ring gear (38), ring gear (38) a set of evenly distributed's square two (39), be provided with pipe two (35) in pipe (9), pipe two (35) fixed connection ring one (33), ring one (33) a set of evenly distributed's square one (34), a set of square one (34) matches a set of square two (39), a set of evenly distributed's of bottom plate fixed connection of pipe (35) pole (36) of rubbing, the bottom plate of pipe (35) is provided with a set of evenly distributed's square groove (37).

5. Germ rice processing plant according to claim 4, characterized in that: the push rod ends of the symmetrical electric push rods (3) are respectively and fixedly connected with a square plate II (41), the second square plate (41) is fixedly connected with a U-shaped frame (43), the second square plate (41) is fixedly connected with symmetrical vertical rods (49), one vertical rod (49) is fixedly connected with a fourth motor (47), the output shaft of the motor IV (47) passes through one vertical rod (49), the output shaft of the motor IV (47) is fixedly connected with a rotating wheel II (48), the other vertical rod (49) is connected with a rotating wheel III (53) through a bearing, the bearing of the second square plate (41) is connected with the first hollow round rod (42), the first hollow round rod (42) is fixedly connected with a fourth rotating wheel (54), the U-shaped frame (43) is in bearing connection with a second hollow round rod (45), the second hollow round rod (45) is fixedly connected with a first rotating wheel (44), the hollow round rod I (42) is arranged in the hollow round rod II (45), a belt (50) sequentially surrounds the rotating wheel II (48), the rotating wheel IV (54), the rotating wheel III (53) and the rotating wheel I (44), the second hollow round rod (45) is fixedly connected with a group of uniformly distributed stirring plates (46), the hollow round rod I (42) is fixedly communicated with a group of uniformly distributed square tubes (55), and each square tube (55) is provided with a group of uniformly distributed discharge holes (56) respectively.

6. Germ rice processing plant according to claim 5, characterized in that: the box body (4) is provided with an opening (5), and the stop block (30) is matched with the opening (5).

7. The method for processing germ-enriched rice according to claim 6, comprising the steps of:

the method comprises the following steps: in an initial state, the upper end of the arc plate (28) contacts the baffle plate (14), the processing plate (22) is positioned at a rice feeding position, and the conveying pipe (17) is connected with a raw material bin;

step two: firstly, controlling the second electric push rod (7) to fully contract, and then controlling the second motor (23) to rotate, so that the stop block (30) is close to the middle groove (16), and the processing plate (22) is positioned at a rice storage position;

step three: the second electric push rod (7) is controlled to stretch out at a constant speed, the first motor (18) is controlled to rotate, rice enters the conveying pipe (17) and enters the groove (20), the conveying roller (19) rotates to drive the rice to enter the middle groove (16), and the rice falls into the storage groove (24) from the discharge groove (15) until the second electric push rod (7) stretches out completely;

step four: controlling the second motor (23) to rotate to enable the processing plate (22) to be horizontal, enabling the processing plate (22) to be in a ground rice position, and enabling the stop block (30) to enter the opening (5);

step five: controlling the electric push rod I (3) to extend out, so that the square pipe (55) is close to the bottom plate of the circular pipe I (35);

step six: controlling the motor III (32) and the motor IV (47) to rotate, continuously putting grinding balls from the hollow round rod I (42), enabling the grinding rod I (36) to grind the rice in a reciprocating mode, enabling the grinding balls to fall from the discharge hole (56) and the square groove (37), and assisting the grinding rod I (36) to grind the rice to form germ rice;

step seven: and a material barrel is placed below the discharge port (6), the second motor (23) is controlled to rotate reversely, the stop block (30) is stopped by the clamping block (13), the processing plate (22) is positioned at a rice feeding position, and the milled rice and the grinding balls fall down along the storage tank (24) and fall into the material barrel from the discharge port (6).

8. The method for processing germ-enriched rice according to claim 7, wherein: when motor two (23) rotated, motor two (23) drove screw rod (25) rotated, screw rod (25) drove slider (27) remove, slider (27) drive connecting rod (26) swing, connecting rod (26) drive handle board (22) swing, handle board (22) drive circle axle (21) rotate, handle board (22) drive arc board (28) are followed baffle (14) remove, handle board (22) drive circle pole two (51), spring (29) and dog (30) swing.

9. The method for processing germ-enriched rice according to claim 7, wherein: when motor three (32) rotated, motor three (32) drove gear (31) rotated, gear (31) drove ring gear (38) and ring two (40) rotate, ring gear (38) drove square two (39) rotate, square two (39) drove square one (34) rotate, square one (34) drove ring one (33) rotate, ring one (33) drove pipe two (35) and beat and rub pole (36) and rotate.

10. The method for processing germ-rice as claimed in claim 7, wherein: when motor four (47) rotated, motor four (47) drove two (48) of runner rotate, two (48) of runner pass through belt (50) drive four (54) of runner three (53) and one (44) of runner rotate, one (44) of runner with four (54) of runner turn to opposite, one (44) of runner drives hollow round bar two (45) and stirring board (46) rotate, four (54) of runner drive hollow round bar one (42) and square pipe (55) rotate, stirring board (46) with square pipe (55) turn to opposite, stirring board (46) will be followed discharge opening (56) fall accumulational grinding ball and break up, make things convenient for the grinding ball to follow square groove (37) falls down.

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